With the overwhelming number of genes that are being discovered by phenotypic and sequence analyses, the MaizeGDB staff is missing some that should be included in MaizeGDB. We need your help! Please let us know about new genes that you're working on or have recently read about.
MaizeGDB prefers not to assign formal gene names to gene models based purely on orthology. Known difficulties include inclusivity (there are over 10,000 functionally characterized Arabidopsis genes)* and some likelihood of errors in inferred functions. Unlike gene models, gene names are generally conserved unless differently named genes are found to be allelic. Of particular note, naming priveleges are customarily held by researchers who first confirm function.
We encourage researchers to use the annotation tool on the MaizeGDB gene model pages to add their insights about putative function, especially when not currently part of the Phytozome or Gramene pipelines.
Below is a list of newly reported or newly characterized genes (new reference, new gene product, and/or new variation) with which you may not yet be familiar. The genes are sorted by the last time the gene has been updated. To suggest genes for inclusion in this list, email us and include the gene name, full name, chromosome or bin, and a recent reference.
This page is based on our monthly release. The updates are made around 4:00am CST.
| Last Update | Gene | Full Name : Description | Chromosome
or Bin | Gene
Model | Recent Reference | Orthologs | Update information |
| today | pfk4 | phosphofructose kinase4: | | | Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Gene Product: August 12th, 2016
|
| today | rpi2 | ribose 5-phosphate isomerase2: | | | Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Gene Product: October 21st, 2021
|
| today | cel22 | cellulase22: | | | Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | LOC_Os04g41970 (MSU/TIGR)
Os04g0497200 (Gramene) | Reference: May 8th, 2024
Gene Product: March 20th, 2023
|
| today | cel20 | cellulase20: | | | Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Gene Product: March 20th, 2023
|
| today | gpdh3 | glucose-6-phosphate dehydrogenase3: | | | Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Gene Product: September 1st, 2003
|
| today | agpsl1 | ADP glucose pyrophosphorylase small subunit leaf1: | 1.07 | GRMZM2G163437
| Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Gene Product: September 1st, 2003
Variation: April 3rd, 2011
Gene Model: June 15th, 2012
|
| today | incw1 | cell wall invertase1: | 5.04 | | Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Gene Product: June 12th, 2018
Variation: May 27th, 2015
|
| today | ss6 | starch synthase6: | 5.03 | | Zhang, H-Y et al. 2024. The relationship between starch synthesis enzyme activity, gene expression, and amylopectin fine structure in waxy maize Cereal Res Commun. :doi: 10.1007/s42976-024-00509-3. | | Reference: May 8th, 2024
Gene Product: October 14th, 2016
|
| today | trps2 | trehalose-6-phosphate synthase2: | 1.03 | GRMZM2G099860
| Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Gene Product: October 3rd, 2020
Gene Model: February 11th, 2019
|
| today | aco3 | aconitase3: | 9.07 | GRMZM2G009808
| Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Gene Product: September 1st, 2003
Gene Model: March 29th, 2015
|
| today | adh2 | alcohol dehydrogenase2: | 4.03 | GRMZM2G098346
| Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Gene Product: July 8th, 2009
Variation: September 1st, 2003
Gene Model: May 31st, 2014
|
| today | ae1 | amylose extender1: | 5.04 | | Zhang, H-Y et al. 2024. The relationship between starch synthesis enzyme activity, gene expression, and amylopectin fine structure in waxy maize Cereal Res Commun. :doi: 10.1007/s42976-024-00509-3. | | Reference: May 8th, 2024
Gene Product: June 6th, 2011
Variation: July 25th, 2022
|
| today | bt2 | brittle endosperm2: | 4.05 | | Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Gene Product: November 4th, 2014
Variation: May 8th, 2023
|
| today | du1 | dull endosperm1: | 10.03 | GRMZM2G141399
| Zhang, H-Y et al. 2024. The relationship between starch synthesis enzyme activity, gene expression, and amylopectin fine structure in waxy maize Cereal Res Commun. :doi: 10.1007/s42976-024-00509-3. | | Reference: May 8th, 2024
Gene Product: October 14th, 2016
Variation: June 29th, 2015
Gene Model: February 28th, 2012
|
| today | fl2 | floury2: | 4.03 | GRMZM2G397687
| Niels Johan Christensen 2024. Conformations of a highly expressed Z19 α-zein studied with AlphaFold2 and MD simulations. PLoS One. 19:e0293786. | | Reference: May 8th, 2024
Gene Product: September 1st, 2003
Variation: October 17th, 2014
Gene Model: December 19th, 2011
|
| today | glu1 | beta glucosidase1: | 10.03 | | Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Gene Product: June 26th, 2019
Variation: January 9th, 2010
|
| today | gpc3 | glyceraldehyde-3-phosphate dehydrogenase3: | 4.05 - 4.04 | | Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Gene Product: September 1st, 2003
Variation: June 1st, 2014
|
| today | hex2 | hexokinase2: | 6.04 - 6.05 | GRMZM2G432801
| Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Gene Product: September 15th, 2013
Variation: February 15th, 2010
Gene Model: September 15th, 2013
|
| today | mdh3 | malate dehydrogenase3: | 3.08 | GRMZM2G466833
| Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Gene Product: September 1st, 2003
Variation: September 1st, 2003
Gene Model: September 30th, 2015
|
| today | pdk2 | pyruvate, orthophosphate dikinase2: | 8.04 | GRMZM2G097457
| Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Gene Product: July 28th, 2014
Variation: December 19th, 2017
Gene Model: November 21st, 2012
|
| today | pgm1 | phosphoglucomutase1: | 1.09 - 1.10 | GRMZM2G023289
| Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Gene Product: September 1st, 2003
Variation: September 1st, 2003
Gene Model: November 28th, 2011
|
| today | pgm2 | phosphoglucomutase2: | 5.01 | GRMZM2G109383
| Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Gene Product: September 1st, 2003
Variation: September 1st, 2003
Gene Model: November 28th, 2011
|
| today | su1 | sugary1: | 4.05 | | Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Gene Product: April 21st, 2016
Variation: June 6th, 2016
|
| today | su2 | sugary2: | 6.04 - 6.05 | | Zhang, H-Y et al. 2024. The relationship between starch synthesis enzyme activity, gene expression, and amylopectin fine structure in waxy maize Cereal Res Commun. :doi: 10.1007/s42976-024-00509-3. | | Reference: May 8th, 2024
Gene Product: October 14th, 2016
Variation: October 7th, 2010
|
| today | tpi3 | triose phosphate isomerase3: | 8.02 | GRMZM2G018177
| Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Gene Product: September 1st, 2003
Variation: January 15th, 2015
Gene Model: January 15th, 2015
|
| today | wx1 | waxy1: | 9.03 | | Zhang, H-Y et al. 2024. The relationship between starch synthesis enzyme activity, gene expression, and amylopectin fine structure in waxy maize Cereal Res Commun. :doi: 10.1007/s42976-024-00509-3. | | Reference: May 8th, 2024
Gene Product: June 4th, 2008
Variation: September 9th, 2023
|
| today | zpl2a | zein polypeptidesL2a: | 4.08 | GRMZM2G404459
| Niels Johan Christensen 2024. Conformations of a highly expressed Z19 α-zein studied with AlphaFold2 and MD simulations. PLoS One. 19:e0293786. | | Reference: May 8th, 2024
Gene Product: September 1st, 2003
Variation: January 14th, 2015
Gene Model: January 14th, 2015
|
| today | fdh1 | formaldehyde dehydrogenase homolog1: | 5.08 | GRMZM5G824600
| Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Gene Product: November 15th, 2005
Variation: May 27th, 2014
Gene Model: July 27th, 2016
|
| today | gpc4 | glyceraldehyde-3-phosphate dehydrogenase4: | 5.05 | GRMZM2G176307
| Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Gene Product: September 1st, 2003
Variation: December 13th, 2012
Gene Model: August 12th, 2014
|
| today | pgk1 | phosphoglycerate kinase1: | 6.06 | GRMZM2G089136
| Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Gene Product: November 24th, 2020
Gene Model: August 29th, 2018
|
| today | pgk2 | phosphoglycerate kinase2: | 8.05 | GRMZM2G083016
| Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Gene Product: November 24th, 2020
Gene Model: November 24th, 2020
|
| today | zpu1 | pullulanase-type starch debranching enzyme1: | 2.05 | GRMZM2G158043
| Zhang, H-Y et al. 2024. The relationship between starch synthesis enzyme activity, gene expression, and amylopectin fine structure in waxy maize Cereal Res Commun. :doi: 10.1007/s42976-024-00509-3. | | Reference: May 8th, 2024
Gene Product: October 25th, 2011
Variation: June 29th, 2015
Gene Model: November 20th, 2014
|
| today | dla1 | dihydrolipoamide S-acetyltransferase1: | 5.04 | GRMZM2G015132
| Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Gene Product: September 1st, 2003
Gene Model: May 20th, 2015
|
| today | ald1 | aldolase1: | 8.06 | GRMZM2G057823
| Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Gene Product: September 1st, 2003
Variation: September 16th, 2013
Gene Model: September 15th, 2013
|
| today | sps1 | sucrose phosphate synthase1: | 8.06 | | Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Gene Product: September 1st, 2003
Variation: January 15th, 2015
|
| today | pdk1 | pyruvate, orthophosphate dikinase1: | 6.05 | GRMZM2G306345
| Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Gene Product: July 28th, 2014
Variation: April 18th, 2018
Gene Model: November 21st, 2012
|
| today | pdc1 | pyruvate decarboxylase1: | 8.04 | AC197705.4_FG001
| Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Gene Product: September 1st, 2003
Variation: April 18th, 2005
Gene Model: June 7th, 2012
|
| today | pdh1 | pyruvate dehydrogenase1: | 4.08 | GRMZM2G361693
| Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Gene Product: February 14th, 2008
Variation: April 10th, 2015
Gene Model: April 10th, 2015
|
| today | bzr5 | BZR-transcription factor 5: | | | Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | AT5G45300 (TAIR) | Reference: May 8th, 2024
Gene Product: May 4th, 2022
|
| today | zim10 | ZIM-transcription factor 10: | | | Shiyong Zhou et al. 2024. Jasmonic Acid Mediates Maize (Zea mays L.) Roots Response to Soil Nitrogen Heterogeneity J Plant Biol. :doi: 10.1007/s12374-024-09428-6. | | Reference: May 8th, 2024
Gene Product: February 24th, 2021
|
| today | zim3 | ZIM-transcription factor 3: | | | Shiyong Zhou et al. 2024. Jasmonic Acid Mediates Maize (Zea mays L.) Roots Response to Soil Nitrogen Heterogeneity J Plant Biol. :doi: 10.1007/s12374-024-09428-6. | | Reference: May 8th, 2024
Gene Product: February 24th, 2021
|
| today | exg1 | exoglucanase1: | 1.10 | GRMZM2G147687
| Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Gene Product: September 1st, 2003
Variation: August 3rd, 2011
Gene Model: November 20th, 2014
|
| today | pho1 | starch phosphorylase1: | 1.10 | GRMZM2G074158
| Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Gene Product: March 26th, 2015
Gene Model: March 26th, 2015
|
| today | umc1794 | : | 9.06 | GRMZM2G031447
| Shiyong Zhou et al. 2024. Jasmonic Acid Mediates Maize (Zea mays L.) Roots Response to Soil Nitrogen Heterogeneity J Plant Biol. :doi: 10.1007/s12374-024-09428-6. | | Reference: May 8th, 2024
Variation: September 1st, 2003
Gene Model: June 26th, 2020
|
| today | sbe1 | starch branching enzyme1: | 5.03 | | Zhang, H-Y et al. 2024. The relationship between starch synthesis enzyme activity, gene expression, and amylopectin fine structure in waxy maize Cereal Res Commun. :doi: 10.1007/s42976-024-00509-3. | | Reference: May 8th, 2024
Gene Product: September 1st, 2003
Variation: January 5th, 2018
|
| today | cts3 | citrate synthase3: | 4.09 | GRMZM2G063909
| Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Gene Product: July 5th, 2019
Variation: September 1st, 2003
Gene Model: January 3rd, 2022
|
| today | trpp11 | trehalose-6-phosphate phosphatase11: | 9.01 | GRMZM2G080354
| Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Gene Product: October 3rd, 2020
Variation: September 1st, 2003
Gene Model: March 2nd, 2018
|
| today | sus1 | sucrose synthase1: | 9.04 | GRMZM2G152908
| Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Gene Product: October 25th, 2006
Variation: February 1st, 2020
Gene Model: August 12th, 2014
|
| today | ugp1 | UDP-glucose pyrophosphorylase1: | 2.07 | | Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Gene Product: September 1st, 2003
Variation: February 24th, 2015
|
| today | pck1 | phosphoenolpyruvate carboxykinase1: | 1.03 | GRMZM2G001696
| Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Gene Product: August 7th, 2014
Variation: September 25th, 2014
Gene Model: July 18th, 2014
|
| today | de30 | defective endosperm B30: | 7.01 - 7.02 | AF546188.1_FG007
| Niels Johan Christensen 2024. Conformations of a highly expressed Z19 α-zein studied with AlphaFold2 and MD simulations. PLoS One. 19:e0293786. | | Reference: May 8th, 2024
Gene Product: September 1st, 2003
Variation: September 15th, 2014
Gene Model: September 14th, 2014
|
| today | pgd1 | 6-phosphogluconate dehydrogenase1: | 6.01 | GRMZM2G127798
| Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Gene Product: December 16th, 2020
Variation: September 1st, 2003
Gene Model: July 28th, 2016
|
| today | amyb5 | beta amylase5: | 7.03 | | Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Gene Product: February 26th, 2021
Variation: July 14th, 2012
|
| today | AY109534 | : | 4.08 | | Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Variation: September 25th, 2007
|
| today | trps7 | trehalose-6-phosphate synthase7: | 3.07 | GRMZM2G123277
| Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Gene Product: October 3rd, 2020
Variation: September 25th, 2007
Gene Model: August 20th, 2021
|
| today | mdh13 | malate dehydrogenase13: | 3.04 | GRMZM2G077415
| Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Gene Product: June 4th, 2020
Gene Model: April 2nd, 2020
|
| today | az19D1 | alpha zein 19kDa D1: | 1.05 | AF546187.1_FG001
| Niels Johan Christensen 2024. Conformations of a highly expressed Z19 α-zein studied with AlphaFold2 and MD simulations. PLoS One. 19:e0293786. | | Reference: May 8th, 2024
Gene Product: September 1st, 2003
Gene Model: November 21st, 2014
|
| today | az19D2 | alpha zein 19kDa D2: | 1.05 | AF546187.1_FG007
| Niels Johan Christensen 2024. Conformations of a highly expressed Z19 α-zein studied with AlphaFold2 and MD simulations. PLoS One. 19:e0293786. | | Reference: May 8th, 2024
Gene Product: September 1st, 2003
Gene Model: November 21st, 2014
|
| today | az22z3 | 22kD alpha zein3: | 4.01 | GRMZM2G044625
| Niels Johan Christensen 2024. Conformations of a highly expressed Z19 α-zein studied with AlphaFold2 and MD simulations. PLoS One. 19:e0293786. | | Reference: May 8th, 2024
Gene Product: September 1st, 2003
Variation: May 31st, 2010
Gene Model: November 21st, 2014
|
| today | az22z4 | 22kD alpha zein4: | 4.01 | GRMZM2G346897
| Niels Johan Christensen 2024. Conformations of a highly expressed Z19 α-zein studied with AlphaFold2 and MD simulations. PLoS One. 19:e0293786. | | Reference: May 8th, 2024
Gene Product: September 1st, 2003
Variation: May 31st, 2010
Gene Model: November 21st, 2014
|
| today | az22z5 | 22kD alpha zein5: | 4.01 | GRMZM2G088365
| Niels Johan Christensen 2024. Conformations of a highly expressed Z19 α-zein studied with AlphaFold2 and MD simulations. PLoS One. 19:e0293786. | | Reference: May 8th, 2024
Gene Product: September 1st, 2003
Variation: May 31st, 2010
Gene Model: November 21st, 2014
|
| today | su4 | sugary4: | 6.05 | GRMZM2G090905
| Zhang, H-Y et al. 2024. The relationship between starch synthesis enzyme activity, gene expression, and amylopectin fine structure in waxy maize Cereal Res Commun. :doi: 10.1007/s42976-024-00509-3. | | Reference: May 8th, 2024
Gene Product: October 25th, 2011
Variation: June 3rd, 2011
Gene Model: October 24th, 2011
|
| today | gla3 | beta-glucanase3: | 5.01 | GRMZM2G473711
| Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Variation: May 9th, 2009
Gene Model: January 5th, 2016
|
| today | trps1 | trehalose-6-phosphate synthase1: | | GRMZM2G068943
| Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Gene Product: October 3rd, 2020
Gene Model: May 28th, 2012
|
| today | hex5 | hexokinase5: | | GRMZM5G856653
| Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Gene Product: September 15th, 2013
Gene Model: September 15th, 2013
|
| today | hex9 | hexokinase9: | | GRMZM2G467069
| Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Gene Product: September 15th, 2013
Gene Model: September 15th, 2013
|
| today | trpp2 | trehalose-6-phosphate phosphatase2: | | GRMZM2G140078
| Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Gene Product: October 3rd, 2020
Gene Model: September 15th, 2013
|
| today | trpp8 | trehalose-6-phosphate phosphatase8: | | GRMZM2G174396
| Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Gene Product: October 3rd, 2020
Gene Model: September 15th, 2013
|
| today | trps9 | trehalose-6-phosphate synthase9: | | GRMZM2G366659
| Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Gene Product: October 3rd, 2020
Gene Model: September 15th, 2013
|
| today | trps10 | trehalose-6-phosphate synthase10: | | GRMZM2G312521
| Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Gene Product: October 3rd, 2020
Variation: March 18th, 2021
Gene Model: September 15th, 2013
|
| today | trps11 | trehalose-6-phosphate synthase11: | | GRMZM2G122231
| Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Gene Product: October 3rd, 2020
Gene Model: September 15th, 2013
|
| today | trps12 | trehalose-6-phosphate synthase12: | | GRMZM2G001304
| Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Gene Product: October 3rd, 2020
Gene Model: September 15th, 2013
|
| today | zp2 | zein protein2: | | AF546188.1_FG005
| Niels Johan Christensen 2024. Conformations of a highly expressed Z19 α-zein studied with AlphaFold2 and MD simulations. PLoS One. 19:e0293786. | | Reference: May 8th, 2024
Gene Product: September 1st, 2003
Gene Model: August 1st, 2016
|
| today | prh5 | protein phosphatase homolog5: | | GRMZM2G010855
| Shiyong Zhou et al. 2024. Jasmonic Acid Mediates Maize (Zea mays L.) Roots Response to Soil Nitrogen Heterogeneity J Plant Biol. :doi: 10.1007/s12374-024-09428-6. | | Reference: May 8th, 2024
Gene Product: October 25th, 2021
Gene Model: October 18th, 2016
|
| today | imd4 | isopropylmalate dehydrogenase4: | | GRMZM2G120857
| Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Gene Product: September 1st, 2003
Gene Model: July 27th, 2017
|
| today | trpp14 | trehalose-6-phosphate phosphatase14: | | | Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Gene Product: October 3rd, 2020
|
| today | z1A-3 | alpha zein 19kDa A-3: | | GRMZM2G059620
| Niels Johan Christensen 2024. Conformations of a highly expressed Z19 α-zein studied with AlphaFold2 and MD simulations. PLoS One. 19:e0293786. | | Reference: May 8th, 2024
Gene Product: September 1st, 2003
Gene Model: July 3rd, 2019
|
| today | aldh27 | aldehyde dehydrogenase27: | | GRMZM2G155502
| Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Gene Product: January 5th, 2024
Gene Model: October 2nd, 2019
|
| today | aldh13 | aldehyde dehydrogenase13: | | GRMZM2G118800
| Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Gene Product: January 5th, 2024
Gene Model: October 2nd, 2019
|
| today | scoal1 | succinyl-CoA ligase1: | | GRMZM2G064695
| Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Gene Product: December 30th, 2019
Gene Model: December 30th, 2019
|
| today | hak17 | potassium high-affinity transporter17: | | GRMZM2G088964
| Limin Wang et al. 2024. ZmHAK17 encodes a Na+-selective transporter that promotes maize seed germination under salt conditions New Crops. :doi: 10.1016/j.ncrops.2024.100024. | | Reference: May 8th, 2024
Gene Product: March 12th, 2020
Gene Model: March 12th, 2020
|
| today | sbe4 | starch branching enzyme4: | | GRMZM2G073054
| Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Gene Product: June 6th, 2011
Variation: April 29th, 2021
Gene Model: March 20th, 2020
|
| today | Zm00001d033937 | : | | | Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Gene Product: June 4th, 2008
|
| today | ogdh1 | 2-oxoglutarate dehydrogenase1: | | GRMZM2G142863
| Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Gene Product: March 25th, 2020
Gene Model: March 25th, 2020
|
| today | amya2 | alpha amylase2: | | GRMZM2G070172
| Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Gene Product: September 1st, 2003
Gene Model: July 8th, 2020
|
| today | cel13 | cellulase13: | 5.08 | GRMZM2G538064
| Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Gene Product: March 20th, 2023
Gene Model: May 25th, 2020
|
| today | pgk5 | phosphoglycerate kinase5: | | GRMZM2G003724
| Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Gene Product: November 24th, 2020
Gene Model: November 24th, 2020
|
| today | idh3 | isocitrate dehydrogenase3: | | GRMZM2G025366
| Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Gene Product: October 2nd, 2023
Gene Model: February 16th, 2021
|
| today | mdh7 | malate dehydrogenase7: | | GRMZM2G068455
| Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Gene Product: September 1st, 2003
Gene Model: March 2nd, 2021
|
| today | gid4 | gibberellin-insensitive dwarf protein homolog4: | | GRMZM2G440543
| Shiyong Zhou et al. 2024. Jasmonic Acid Mediates Maize (Zea mays L.) Roots Response to Soil Nitrogen Heterogeneity J Plant Biol. :doi: 10.1007/s12374-024-09428-6. | | Reference: May 8th, 2024
Gene Product: April 27th, 2022
Gene Model: June 2nd, 2021
|
| today | saur45 | small auxin up RNA45: | | GRMZM2G471304
| Shiyong Zhou et al. 2024. Jasmonic Acid Mediates Maize (Zea mays L.) Roots Response to Soil Nitrogen Heterogeneity J Plant Biol. :doi: 10.1007/s12374-024-09428-6. | | Reference: May 8th, 2024
Gene Product: November 26th, 2021
Gene Model: November 26th, 2021
|
| today | aldh17 | aldehyde dehydrogenase17: | 5.05 | GRMZM2G169458
| Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Gene Product: January 5th, 2024
Variation: May 26th, 2023
Gene Model: October 2nd, 2019
|
| today | sudh13 | succinate dehydrogenase13: | | GRMZM2G039542
| Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Gene Product: October 25th, 2016
Gene Model: March 21st, 2022
|
| today | pco110217 | : | 5.06 | | Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Gene Product: August 12th, 2016
|
| today | aldr2 | aldose reductase2: | 9.07 | GRMZM2G059306
| Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Gene Product: September 28th, 2020
Gene Model: January 1st, 2020
|
| today | ss1 | starch synthase I: | 9.02 | | Zhang, H-Y et al. 2024. The relationship between starch synthesis enzyme activity, gene expression, and amylopectin fine structure in waxy maize Cereal Res Commun. :doi: 10.1007/s42976-024-00509-3. | | Reference: May 8th, 2024
Gene Product: October 14th, 2016
Variation: October 7th, 2010
|
| today | pdh2 | pyruvate dehydrogenase2: | 1.06 | GRMZM2G043198
| Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Gene Product: February 14th, 2008
Variation: February 25th, 2013
Gene Model: April 10th, 2015
|
| today | IDP1981 | : | 7.04 | GRMZM2G072054
| Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Variation: March 31st, 2005
Gene Model: February 5th, 2019
|
| today | aco2 | aconitase2: | 10.04 | GRMZM5G858454
| Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Gene Product: September 1st, 2003
Variation: September 3rd, 2013
Gene Model: March 29th, 2015
|
| today | amyb4 | beta amylase4: | 3.00 | GRMZM2G175218
| Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Gene Product: February 26th, 2021
Variation: February 27th, 2015
Gene Model: February 28th, 2015
|
| today | pho2 | starch phoshorylase2: | 3.06 | GRMZM2G085577
| Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Gene Product: March 26th, 2015
Gene Model: March 26th, 2015
|
| today | pco139502b | : | 3.08 | GRMZM2G152686
| Zhao, YQ et al. 2024. Integrated analysis of transcriptomic and metabolomic data reveals how slurry ice treatment affects sugar metabolism in sweet corn (Zea mays L. var saccharata) during cold storage Food Front. :doi: 10.1002/fft2.410. | | Reference: May 8th, 2024
Gene Product: April 8th, 2011
Variation: April 17th, 2008
Gene Model: February 25th, 2019
|
| yesterday | a1 | anthocyaninless1: | 3.09 | | Zhongtian Zheng et al. 2024. Integrative transcriptome analysis uncovers common components containing CPS2 regulated by maize lncRNA GARR2 in gibberellin response. Planta. 259:146. | | Reference: May 7th, 2024
Gene Product: April 11th, 2013
Variation: August 25th, 2010
|
| yesterday | uck1 | UMP/CMP kinase1: | 6.01 | GRMZM2G141009
| Zhongtian Zheng et al. 2024. Integrative transcriptome analysis uncovers common components containing CPS2 regulated by maize lncRNA GARR2 in gibberellin response. Planta. 259:146. | | Reference: May 7th, 2024
Gene Product: September 1st, 2003
Variation: September 1st, 2003
Gene Model: July 22nd, 2015
|
| yesterday | d3 | dwarf plant3: | 9.03 | GRMZM2G093195
| Zhongtian Zheng et al. 2024. Integrative transcriptome analysis uncovers common components containing CPS2 regulated by maize lncRNA GARR2 in gibberellin response. Planta. 259:146. | | Reference: May 7th, 2024
Gene Product: August 15th, 2012
Variation: June 5th, 2023
Gene Model: November 8th, 2012
|
| yesterday | d9 | dwarf plant9: | 5.01 | | Li, W; Chen, YD; Wang, YL; Zhao, J; Wang, YJ. 2022. Plant J. 0:doi: 10.1111/tpj.15748 | | Reference: May 7th, 2024
Gene Product: February 12th, 2007
Variation: January 30th, 2014
|
| yesterday | gln2 | glutamine synthetase2: | 1.09 | | Li, W; Chen, YD; Wang, YL; Zhao, J; Wang, YJ. 2022. Plant J. 0:doi: 10.1111/tpj.15748 | | Reference: May 7th, 2024
Gene Product: September 1st, 2003
Variation: March 24th, 2021
|
| yesterday | cbl10 | calcineurin B-like10: | 3.09 | GRMZM2G116584
| Zhongtian Zheng et al. 2024. Integrative transcriptome analysis uncovers common components containing CPS2 regulated by maize lncRNA GARR2 in gibberellin response. Planta. 259:146. | | Reference: May 7th, 2024
Gene Product: October 19th, 2016
Gene Model: April 3rd, 2018
|
| yesterday | kcs13 | 3-ketoacyl-CoA synthase13: | 1.02 | GRMZM2G445602
| Li, W; Chen, YD; Wang, YL; Zhao, J; Wang, YJ. 2022. Plant J. 0:doi: 10.1111/tpj.15748 | | Reference: May 7th, 2024
Gene Product: November 1st, 2018
Gene Model: September 2nd, 2018
|
| yesterday | AY103770 | : | 9.03 | GRMZM2G033555
| Zhongtian Zheng et al. 2024. Integrative transcriptome analysis uncovers common components containing CPS2 regulated by maize lncRNA GARR2 in gibberellin response. Planta. 259:146. | | Reference: May 7th, 2024
Variation: January 2nd, 2022
Gene Model: February 27th, 2018
|
| yesterday | prp7 | pathogenesis-related protein7: | 1.03 | GRMZM2G112524
| Li, W; Chen, YD; Wang, YL; Zhao, J; Wang, YJ. 2022. Plant J. 0:doi: 10.1111/tpj.15748 | | Reference: May 7th, 2024
Gene Product: December 12th, 2022
Gene Model: September 30th, 2017
|
| yesterday | fum1 | fumarase1: | 1.04 | GRMZM2G010823
| Li, W; Chen, YD; Wang, YL; Zhao, J; Wang, YJ. 2022. Plant J. 0:doi: 10.1111/tpj.15748 | | Reference: May 7th, 2024
Gene Product: June 2nd, 2021
Gene Model: April 14th, 2021
|
| yesterday | ggps2 | geranylgeranyl pyrophosphate synthase2: | | AC194970.5_FG001
| Zhongtian Zheng et al. 2024. Integrative transcriptome analysis uncovers common components containing CPS2 regulated by maize lncRNA GARR2 in gibberellin response. Planta. 259:146. | | Reference: May 7th, 2024
Gene Product: April 8th, 2013
Gene Model: April 8th, 2013
|
| yesterday | ggps3 | geranylgeranyl pyrophosphate synthase3: | | GRMZM2G102550
| Zhongtian Zheng et al. 2024. Integrative transcriptome analysis uncovers common components containing CPS2 regulated by maize lncRNA GARR2 in gibberellin response. Planta. 259:146. | | Reference: May 7th, 2024
Gene Product: April 8th, 2013
Gene Model: April 8th, 2013
|
| yesterday | ks4 | kaurene synthase4: | | AC214360.3_FG001
| Zhongtian Zheng et al. 2024. Integrative transcriptome analysis uncovers common components containing CPS2 regulated by maize lncRNA GARR2 in gibberellin response. Planta. 259:146. | | Reference: May 7th, 2024
Gene Product: August 16th, 2012
Gene Model: October 27th, 2014
|
| yesterday | ko2 | kaurene oxidase2: | | GRMZM2G161472
| Zhongtian Zheng et al. 2024. Integrative transcriptome analysis uncovers common components containing CPS2 regulated by maize lncRNA GARR2 in gibberellin response. Planta. 259:146. | | Reference: May 7th, 2024
Gene Product: October 27th, 2014
Gene Model: October 27th, 2014
|
| yesterday | ks6 | kaurene synthase6: | | GRMZM2G391312
| Zhongtian Zheng et al. 2024. Integrative transcriptome analysis uncovers common components containing CPS2 regulated by maize lncRNA GARR2 in gibberellin response. Planta. 259:146. | | Reference: May 7th, 2024
Gene Product: August 16th, 2012
Gene Model: December 2nd, 2015
|
| yesterday | cyp27 | cytochrome P-450 27: | | GRMZM2G164074
| Zhongtian Zheng et al. 2024. Integrative transcriptome analysis uncovers common components containing CPS2 regulated by maize lncRNA GARR2 in gibberellin response. Planta. 259:146. | | Reference: May 7th, 2024
Gene Product: December 30th, 2022
Gene Model: March 25th, 2019
|
| yesterday | upl12 | ubiquitin-protein ligase12: | | GRMZM2G331368
| Li, W; Chen, YD; Wang, YL; Zhao, J; Wang, YJ. 2022. Plant J. 0:doi: 10.1111/tpj.15748 | | Reference: May 7th, 2024
Gene Product: November 26th, 2019
Gene Model: November 19th, 2019
|
| yesterday | nope1 | no perception1 : | | GRMZM2G176737
| Zhongtian Zheng et al. 2024. Integrative transcriptome analysis uncovers common components containing CPS2 regulated by maize lncRNA GARR2 in gibberellin response. Planta. 259:146. | LOC_Os04g01520 (MSU/TIGR) | Reference: May 7th, 2024
Gene Product: September 7th, 2020
Variation: November 21st, 2020
Gene Model: September 7th, 2020
|
| yesterday | fomt4 | flavonoid O-methyltransferase 4: | | GRMZM2G423331
| Zhongtian Zheng et al. 2024. Integrative transcriptome analysis uncovers common components containing CPS2 regulated by maize lncRNA GARR2 in gibberellin response. Planta. 259:146. | | Reference: May 7th, 2024
Gene Product: February 16th, 2011
Gene Model: November 1st, 2021
|
| yesterday | caat10 | cationic amino acid transporter10: | | GRMZM2G139920
| Li, W; Chen, YD; Wang, YL; Zhao, J; Wang, YJ. 2022. Plant J. 0:doi: 10.1111/tpj.15748 | | Reference: May 7th, 2024
Gene Product: March 29th, 2024
Gene Model: April 4th, 2022
|
| yesterday | garr2 | gibberellin responsive lncRNA2: | | | Li, W; Chen, YD; Wang, YL; Zhao, J; Wang, YJ. 2022. Plant J. 0:doi: 10.1111/tpj.15748 | | Reference: May 7th, 2024
Variation: May 7th, 2024
|
| yesterday | cpps2 | copalyl diphosphate synthase2: | 1.04 | GRMZM2G044481
| Zhongtian Zheng et al. 2024. Integrative transcriptome analysis uncovers common components containing CPS2 regulated by maize lncRNA GARR2 in gibberellin response. Planta. 259:146. | | Reference: May 7th, 2024
Gene Product: August 16th, 2012
Variation: January 22nd, 2018
Gene Model: September 12th, 2011
|
| 2 days ago | aaa2 | adenosylmethionine aminotransferase2: | | | ZN Shakhov et al. 2024. Features of GABA-transaminase Functioning in Zea mays L. Leaves Under Salinity J Stress Physiol Biochem. 20:34-40. | | Reference: May 6th, 2024
Gene Product: May 6th, 2024
|
| 2 days ago | glu5 | beta-glucosidase5: | | | Li, C et al. 2024. A novel semi-dominant allele of the transmembrane NAC transcription factor ZmNTL2 reduces the size of multiple maize organs Crop J. :doi: 10.1016/j.cj.2024.04.002. | | Reference: May 6th, 2024
Gene Product: June 26th, 2019
|
| 2 days ago | glu9 | beta-glucosidase9: | | | Li, C et al. 2024. A novel semi-dominant allele of the transmembrane NAC transcription factor ZmNTL2 reduces the size of multiple maize organs Crop J. :doi: 10.1016/j.cj.2024.04.002. | | Reference: May 6th, 2024
Gene Product: June 26th, 2019
|
| 2 days ago | cyp50 | cytochrome P450 50: | | | Kaur, A et al. 2024. A maize semidwarf mutant reveals a GRAS transcription factor involved in brassinosteroid signaling Plant Physiol. :doi: 10.1093/plphys/kiae147. | | Reference: May 6th, 2024
Gene Product: December 30th, 2022
|
| 2 days ago | LOC103638382 | : | | | ZN Shakhov et al. 2024. Features of GABA-transaminase Functioning in Zea mays L. Leaves Under Salinity J Stress Physiol Biochem. 20:34-40. | | Reference: May 6th, 2024
Gene Product: May 6th, 2024
|
| 2 days ago | aasr1 | abscisic acid stress ripening1: | 10.02 | GRMZM2G136910
| Yang, Y et al. 2024. ZmASR1 negatively regulates drought stress tolerance in maize Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2024.108684. | | Reference: May 6th, 2024
Gene Product: January 2nd, 2019
Variation: December 30th, 2011
Gene Model: November 1st, 2011
|
| 2 days ago | zep1 | zeaxanthin epoxidase1: | 2.04 | GRMZM2G127139
| Prakash, NR et al. 2024. Unique genetic architecture of prolificacy in 'Sikkim Primitive' maize unraveled through whole-genome resequencing-based DNA polymorphism. Plant Cell Rep. 43:134. | | Reference: May 6th, 2024
Gene Product: December 10th, 2011
Variation: August 29th, 2011
Gene Model: April 8th, 2013
|
| 2 days ago | an1 | anther ear1: | 1.08 | GRMZM2G081554
| Kaur, A et al. 2024. A maize semidwarf mutant reveals a GRAS transcription factor involved in brassinosteroid signaling Plant Physiol. :doi: 10.1093/plphys/kiae147. | | Reference: May 6th, 2024
Gene Product: August 16th, 2012
Variation: May 13th, 2020
Gene Model: November 7th, 2011
|
| 2 days ago | c1 | colored aleurone1: | 9.01 | | Dermail, A et al. 2024. Haploid identification in maize Frontiers in Plant Science. 15:1378421. | | Reference: May 6th, 2024
Gene Product: June 16th, 2015
Variation: February 9th, 2024
|
| 2 days ago | d8 | dwarf plant8: | 1.09 | GRMZM2G144744
| Kaur, A et al. 2024. A maize semidwarf mutant reveals a GRAS transcription factor involved in brassinosteroid signaling Plant Physiol. :doi: 10.1093/plphys/kiae147. | | Reference: May 6th, 2024
Gene Product: February 12th, 2007
Variation: August 29th, 2007
Gene Model: May 11th, 2011
|
| 2 days ago | dhr2 | dhurrinase2: | 3.05 | GRMZM2G076946
| Li, C et al. 2024. A novel semi-dominant allele of the transmembrane NAC transcription factor ZmNTL2 reduces the size of multiple maize organs Crop J. :doi: 10.1016/j.cj.2024.04.002. | | Reference: May 6th, 2024
Gene Product: June 26th, 2019
Variation: September 3rd, 2008
Gene Model: July 27th, 2016
|
| 2 days ago | ig1 | indeterminate gametophyte1: | 3.06 - 3.07 | | Dermail, A et al. 2024. Haploid identification in maize Frontiers in Plant Science. 15:1378421. | | Reference: May 6th, 2024
Gene Product: July 28th, 2023
Variation: October 19th, 2010
|
| 2 days ago | lg2 | liguleless2: | 3.06 | | Wang, XK, et al. 2022. Plant Physiol. 0:doi: 10.1093/plphys/kiac308 | | Reference: May 6th, 2024
Gene Product: August 22nd, 2014
Variation: January 22nd, 2024
|
| 2 days ago | lg3 | liguleless3: | 3.04 | | Kaur, A et al. 2024. A maize semidwarf mutant reveals a GRAS transcription factor involved in brassinosteroid signaling Plant Physiol. :doi: 10.1093/plphys/kiae147. | | Reference: May 6th, 2024
Gene Product: August 22nd, 2014
Variation: March 16th, 2015
|
| 2 days ago | na1 | nana plant1: | 3.06 - 3.08 | GRMZM2G449033
| Kaur, A et al. 2024. A maize semidwarf mutant reveals a GRAS transcription factor involved in brassinosteroid signaling Plant Physiol. :doi: 10.1093/plphys/kiae147. | | Reference: May 6th, 2024
Gene Product: July 24th, 2012
Variation: December 22nd, 2016
Gene Model: December 20th, 2011
|
| 2 days ago | pl1 | purple plant1: | 6.04 | | Dermail, A et al. 2024. Haploid identification in maize Frontiers in Plant Science. 15:1378421. | | Reference: May 6th, 2024
Gene Product: June 16th, 2015
Variation: March 28th, 2013
|
| 2 days ago | pro1 | proline responding1: | 8.04 | GRMZM2G375504
| Ren, ZZ et al. 2024. Regulatory mechanisms used by ZmMYB39 to enhance drought tolerance in maize (Zea mays) seedlings. Plant Physiol Biochem. 211:108696. | | Reference: May 6th, 2024
Gene Product: March 19th, 2015
Variation: June 18th, 2021
Gene Model: June 22nd, 2014
|
| 2 days ago | r1 | colored1: | 10.06 | | Dermail, A et al. 2024. Haploid identification in maize Frontiers in Plant Science. 15:1378421. | | Reference: May 6th, 2024
Gene Product: October 13th, 2010
Variation: February 9th, 2024
|
| 2 days ago | ra3 | ramosa3: | 7.06 | | Prakash, NR et al. 2024. Unique genetic architecture of prolificacy in 'Sikkim Primitive' maize unraveled through whole-genome resequencing-based DNA polymorphism. Plant Cell Rep. 43:134. | | Reference: May 6th, 2024
Gene Product: October 3rd, 2020
Variation: December 3rd, 2010
|
| 2 days ago | rs1 | rough sheath1: | 7.00 | GRMZM2G028041
| Kaur, A et al. 2024. A maize semidwarf mutant reveals a GRAS transcription factor involved in brassinosteroid signaling Plant Physiol. :doi: 10.1093/plphys/kiae147. | | Reference: May 6th, 2024
Gene Product: September 30th, 2015
Variation: November 18th, 2013
Gene Model: September 30th, 2015
|
| 2 days ago | myb39 | myb transcription factor39: | | GRMZM2G127857
| Ren, ZZ et al. 2024. Regulatory mechanisms used by ZmMYB39 to enhance drought tolerance in maize (Zea mays) seedlings. Plant Physiol Biochem. 211:108696. | | Reference: May 6th, 2024
Gene Product: February 16th, 2011
Variation: May 12th, 2011
Gene Model: July 28th, 2016
|
| 2 days ago | arftf18 | ARF-transcription factor 18: | 5.03 | GRMZM2G035405
| Kaur, A et al. 2024. A maize semidwarf mutant reveals a GRAS transcription factor involved in brassinosteroid signaling Plant Physiol. :doi: 10.1093/plphys/kiae147. | | Reference: May 6th, 2024
Gene Product: January 29th, 2022
Variation: September 1st, 2003
Gene Model: June 23rd, 2018
|
| 2 days ago | sod2 | superoxide dismutase2: | 7.05 | | Ren, ZZ et al. 2024. Regulatory mechanisms used by ZmMYB39 to enhance drought tolerance in maize (Zea mays) seedlings. Plant Physiol Biochem. 211:108696. | | Reference: May 6th, 2024
Gene Product: October 4th, 2021
Variation: August 2nd, 2013
|
| 2 days ago | bzr1 | BZR-transcription factor 1: | | | Kaur, A et al. 2024. A maize semidwarf mutant reveals a GRAS transcription factor involved in brassinosteroid signaling Plant Physiol. :doi: 10.1093/plphys/kiae147. | | Reference: May 6th, 2024
Gene Product: May 4th, 2022
Variation: June 27th, 2022
|
| 2 days ago | bes1 | brassinosteroid insensitive EMS-suppressor homolog1: | | | Kaur, A et al. 2024. A maize semidwarf mutant reveals a GRAS transcription factor involved in brassinosteroid signaling Plant Physiol. :doi: 10.1093/plphys/kiae147. | | Reference: May 6th, 2024
Gene Product: May 4th, 2022
Variation: June 27th, 2022
|
| 2 days ago | gras42 | GRAS-transcription factor 42: | | | Kaur, A et al. 2024. A maize semidwarf mutant reveals a GRAS transcription factor involved in brassinosteroid signaling Plant Physiol. :doi: 10.1093/plphys/kiae147. | AT1G63100 (TAIR) | Reference: May 6th, 2024
Variation: May 6th, 2024
|
| 2 days ago | nactf49 | NAC-transcription factor 49: | | | Ren, ZZ et al. 2024. Regulatory mechanisms used by ZmMYB39 to enhance drought tolerance in maize (Zea mays) seedlings. Plant Physiol Biochem. 211:108696. | | Reference: May 6th, 2024
Gene Product: July 8th, 2019
Variation: March 3rd, 2017
|
| 2 days ago | wrky40 | WRKY-transcription factor 40: | | | Kaur, A et al. 2024. A maize semidwarf mutant reveals a GRAS transcription factor involved in brassinosteroid signaling Plant Physiol. :doi: 10.1093/plphys/kiae147. | | Reference: May 6th, 2024
Variation: January 22nd, 2024
|
| 2 days ago | ocl4 | outer cell layer4: | 1.05 - 1.06 | | Kaur, A et al. 2024. A maize semidwarf mutant reveals a GRAS transcription factor involved in brassinosteroid signaling Plant Physiol. :doi: 10.1093/plphys/kiae147. | | Reference: May 6th, 2024
Gene Product: September 1st, 2003
Variation: December 6th, 2019
|
| 2 days ago | ckx10 | cytokinin oxidase10: | 1.07 | GRMZM2G348452
| Li, C et al. 2024. A novel semi-dominant allele of the transmembrane NAC transcription factor ZmNTL2 reduces the size of multiple maize organs Crop J. :doi: 10.1016/j.cj.2024.04.002. | | Reference: May 6th, 2024
Gene Product: April 4th, 2014
Variation: September 1st, 2003
Gene Model: September 18th, 2018
|
| 2 days ago | ereb22 | AP2-EREBP-transcription factor 22: | 8.03 | GRMZM2G006745
| Ren, ZZ et al. 2024. Regulatory mechanisms used by ZmMYB39 to enhance drought tolerance in maize (Zea mays) seedlings. Plant Physiol Biochem. 211:108696. | | Reference: May 6th, 2024
Variation: July 17th, 2020
Gene Model: September 18th, 2018
|
| 2 days ago | fnr1 | ferredoxin NADP reductase1: | 1.11 | | Ren, ZZ et al. 2024. Regulatory mechanisms used by ZmMYB39 to enhance drought tolerance in maize (Zea mays) seedlings. Plant Physiol Biochem. 211:108696. | | Reference: May 6th, 2024
Gene Product: May 11th, 2021
Variation: December 7th, 2012
|
| 2 days ago | aaa1 | adenosylmethionine aminotransferase1: | 2.02 | GRMZM5G817886
| ZN Shakhov et al. 2024. Features of GABA-transaminase Functioning in Zea mays L. Leaves Under Salinity J Stress Physiol Biochem. 20:34-40. | | Reference: May 6th, 2024
Gene Product: September 1st, 2003
Variation: September 1st, 2003
Gene Model: December 28th, 2016
|
| 2 days ago | pin10 | PIN-formed protein10: | | GRMZM2G126260
| Kaur, A et al. 2024. A maize semidwarf mutant reveals a GRAS transcription factor involved in brassinosteroid signaling Plant Physiol. :doi: 10.1093/plphys/kiae147. | | Reference: May 6th, 2024
Gene Product: April 3rd, 2024
Gene Model: January 24th, 2013
|
| 2 days ago | dwil1 | dwarf & irregular leaf1: | | GRMZM2G013657
| Kaur, A et al. 2024. A maize semidwarf mutant reveals a GRAS transcription factor involved in brassinosteroid signaling Plant Physiol. :doi: 10.1093/plphys/kiae147. | | Reference: May 6th, 2024
Gene Product: July 5th, 2019
Variation: March 18th, 2013
Gene Model: March 12th, 2013
|
| 2 days ago | ga2ox3 | gibberellin 2-oxidase3: | | GRMZM2G022679
| Kaur, A et al. 2024. A maize semidwarf mutant reveals a GRAS transcription factor involved in brassinosteroid signaling Plant Physiol. :doi: 10.1093/plphys/kiae147. | | Reference: May 6th, 2024
Gene Product: October 27th, 2014
Gene Model: October 27th, 2014
|
| 2 days ago | ga2ox9 | gibberellin 2-oxidase9: | | GRMZM2G152354
| Kaur, A et al. 2024. A maize semidwarf mutant reveals a GRAS transcription factor involved in brassinosteroid signaling Plant Physiol. :doi: 10.1093/plphys/kiae147. | | Reference: May 6th, 2024
Gene Product: October 27th, 2014
Gene Model: October 27th, 2014
|
| 2 days ago | ga2ox13 | gibberellin 2-oxidase13: | | GRMZM2G031432
| Kaur, A et al. 2024. A maize semidwarf mutant reveals a GRAS transcription factor involved in brassinosteroid signaling Plant Physiol. :doi: 10.1093/plphys/kiae147. | | Reference: May 6th, 2024
Gene Product: October 27th, 2014
Gene Model: October 30th, 2014
|
| 2 days ago | yuc6 | Yucca6: | | GRMZM2G019515
| Kaur, A et al. 2024. A maize semidwarf mutant reveals a GRAS transcription factor involved in brassinosteroid signaling Plant Physiol. :doi: 10.1093/plphys/kiae147. | | Reference: May 6th, 2024
Gene Product: June 18th, 2018
Variation: July 9th, 2021
Gene Model: June 17th, 2016
|
| 2 days ago | bx13 | benzoxazinone synthesis13: | | AC148152.3_FG005
| Kaur, A et al. 2024. A maize semidwarf mutant reveals a GRAS transcription factor involved in brassinosteroid signaling Plant Physiol. :doi: 10.1093/plphys/kiae147. | | Reference: May 6th, 2024
Gene Product: June 20th, 2016
Variation: June 20th, 2016
Gene Model: June 20th, 2016
|
| 2 days ago | pld3 | phospholipase D3: | | GRMZM2G043340
| Dermail, A et al. 2024. Haploid identification in maize Frontiers in Plant Science. 15:1378421. | | Reference: May 6th, 2024
Gene Product: August 9th, 2016
Variation: December 9th, 2021
Gene Model: July 4th, 2019
|
| 2 days ago | matl1 | matrilineal1: | | GRMZM2G471240
| Dermail, A et al. 2024. Haploid identification in maize Frontiers in Plant Science. 15:1378421. | | Reference: May 6th, 2024
Gene Product: June 12th, 2020
Variation: February 10th, 2017
Gene Model: January 25th, 2017
|
| 2 days ago | burp2 | BURP domain-containing protein-RD22-like2: | | GRMZM5G800586
| Ren, ZZ et al. 2024. Regulatory mechanisms used by ZmMYB39 to enhance drought tolerance in maize (Zea mays) seedlings. Plant Physiol Biochem. 211:108696. | | Reference: May 6th, 2024
Gene Product: August 18th, 2017
Variation: August 18th, 2017
Gene Model: August 18th, 2017
|
| 2 days ago | gid2 | gibberellin-insensitive dwarf protein homolog2: | | GRMZM2G016605
| Kaur, A et al. 2024. A maize semidwarf mutant reveals a GRAS transcription factor involved in brassinosteroid signaling Plant Physiol. :doi: 10.1093/plphys/kiae147. | | Reference: May 6th, 2024
Gene Product: October 6th, 2021
Gene Model: May 29th, 2019
|
| 2 days ago | dmp1 | DUF679 domain membrane protein1: | | GRMZM2G465053
| Dermail, A et al. 2024. Haploid identification in maize Frontiers in Plant Science. 15:1378421. | AT5G39650 (TAIR) | Reference: May 6th, 2024
Gene Product: June 10th, 2019
Variation: June 10th, 2019
Gene Model: June 10th, 2019
|
| 2 days ago | bak3 | brassinosteroid insensitive1-associated receptor kinase like3: | | GRMZM2G043350
| Kaur, A et al. 2024. A maize semidwarf mutant reveals a GRAS transcription factor involved in brassinosteroid signaling Plant Physiol. :doi: 10.1093/plphys/kiae147. | AT4G18710 (TAIR) | Reference: May 6th, 2024
Gene Product: February 22nd, 2022
Gene Model: June 21st, 2019
|
| 2 days ago | tmm1 | too many mouths-like1: | | GRMZM2G011401
| Kaur, A et al. 2024. A maize semidwarf mutant reveals a GRAS transcription factor involved in brassinosteroid signaling Plant Physiol. :doi: 10.1093/plphys/kiae147. | AT1G80080 (TAIR) | Reference: May 6th, 2024
Gene Product: February 1st, 2023
Gene Model: July 10th, 2019
|
| 2 days ago | aas6 | auxin amido synthetase6: | | GRMZM2G061515
| Kaur, A et al. 2024. A maize semidwarf mutant reveals a GRAS transcription factor involved in brassinosteroid signaling Plant Physiol. :doi: 10.1093/plphys/kiae147. | | Reference: May 6th, 2024
Gene Product: October 21st, 2019
Gene Model: October 21st, 2019
|
| 2 days ago | ga2ox14 | gibberellin 2-oxidase14: | | GRMZM2G320167
| Kaur, A et al. 2024. A maize semidwarf mutant reveals a GRAS transcription factor involved in brassinosteroid signaling Plant Physiol. :doi: 10.1093/plphys/kiae147. | | Reference: May 6th, 2024
Gene Product: October 27th, 2014
Gene Model: May 8th, 2021
|
| 2 days ago | gid5 | gibberellin-insensitive dwarf protein homolog5: | | GRMZM2G459166
| Kaur, A et al. 2024. A maize semidwarf mutant reveals a GRAS transcription factor involved in brassinosteroid signaling Plant Physiol. :doi: 10.1093/plphys/kiae147. | | Reference: May 6th, 2024
Gene Product: April 27th, 2022
Gene Model: October 6th, 2021
|
| 2 days ago | idd14 | indeterminate domain14: | | GRMZM2G141031
| Prakash, NR et al. 2024. Unique genetic architecture of prolificacy in 'Sikkim Primitive' maize unraveled through whole-genome resequencing-based DNA polymorphism. Plant Cell Rep. 43:134. | AT1G68130 (TAIR) | Reference: May 6th, 2024
Gene Product: November 14th, 2022
Gene Model: August 24th, 2022
|
| 2 days ago | aas10 | auxin amido synthetase10: | 8.03 | GRMZM2G001421
| Li, C et al. 2024. A novel semi-dominant allele of the transmembrane NAC transcription factor ZmNTL2 reduces the size of multiple maize organs Crop J. :doi: 10.1016/j.cj.2024.04.002. | | Reference: May 6th, 2024
Gene Product: October 21st, 2019
Gene Model: October 21st, 2019
|
| 2 days ago | IDP3890 | : | 9.03 | GRMZM2G006973
| Kaur, A et al. 2024. A maize semidwarf mutant reveals a GRAS transcription factor involved in brassinosteroid signaling Plant Physiol. :doi: 10.1093/plphys/kiae147. | | Reference: May 6th, 2024
Variation: March 31st, 2005
Gene Model: July 14th, 2021
|
| 2 days ago | cyp11 | cytochrome P450 11: | 3.09 | GRMZM2G129860
| Kaur, A et al. 2024. A maize semidwarf mutant reveals a GRAS transcription factor involved in brassinosteroid signaling Plant Physiol. :doi: 10.1093/plphys/kiae147. | | Reference: May 6th, 2024
Gene Product: September 26th, 2016
Variation: January 22nd, 2010
Gene Model: April 30th, 2013
|
| 5 days ago | Zm00001d014917 | : | | | Carolina Bellino et al. 2024. Molecular Evolution of RAMOSA1 (RA1) in Land Plants Biomolecules. 14:550. | | Reference: May 3rd, 2024
Gene Product: November 14th, 2022
|
| 5 days ago | bm1 | brown midrib1: | 5.04 | | Tyler Foster et al. 2024. Fine mapping of major QTL qshgd1 for spontaneous haploid genome doubling in maize (Zea mays L.). Theor Appl Genet. 137:117. | | Reference: May 3rd, 2024
Gene Product: September 1st, 2003
Variation: November 17th, 2020
|
| 5 days ago | ga1 | gametophyte factor1: | 4.02 - 4.03 | | Zhang, ZG et al. 2018. Nature communications p.3678 | | Reference: May 3rd, 2024
Variation: June 22nd, 2005
|
| 5 days ago | ga2 | gametophyte factor2: | 5.04 | | Bapat, AR and Scott, MP 2024. Pectin methylesterase activities in reproductive tissues of maize plants with different haplotypes of the Ga1 and Ga2 cross incompatibility systems. Plant Reproduction. :doi: 10.1007/s00497-024-00502-0. | | Reference: May 3rd, 2024
Variation: September 29th, 2016
|
| 5 days ago | ra1 | ramosa1: | 7.02 | | Carolina Bellino et al. 2024. Molecular Evolution of RAMOSA1 (RA1) in Land Plants Biomolecules. 14:550. | | Reference: May 3rd, 2024
Gene Product: April 11th, 2007
Variation: August 20th, 2010
|
| 5 days ago | umc1283 | : | 5.04 | GRMZM2G094353
| Tyler Foster et al. 2024. Fine mapping of major QTL qshgd1 for spontaneous haploid genome doubling in maize (Zea mays L.). Theor Appl Genet. 137:117. | | Reference: May 3rd, 2024
Variation: September 1st, 2003
Gene Model: May 15th, 2020
|
| 5 days ago | tcb1 | teosinte crossing barrier1: | 4.04 | | Bapat, AR and Scott, MP 2024. Pectin methylesterase activities in reproductive tissues of maize plants with different haplotypes of the Ga1 and Ga2 cross incompatibility systems. Plant Reproduction. :doi: 10.1007/s00497-024-00502-0. | | Reference: May 3rd, 2024
Gene Product: September 10th, 2018
Variation: May 24th, 2019
|
| 5 days ago | dof21 | C2C2-Dof-transcription factor 21: | 1.02 | GRMZM2G162749
| Carolina Bellino et al. 2024. Molecular Evolution of RAMOSA1 (RA1) in Land Plants Biomolecules. 14:550. | | Reference: May 3rd, 2024
Variation: January 6th, 2017
Gene Model: January 6th, 2017
|
| 5 days ago | mmp225 | : | 10.04 | GRMZM2G137736
| Carolina Bellino et al. 2024. Molecular Evolution of RAMOSA1 (RA1) in Land Plants Biomolecules. 14:550. | | Reference: May 3rd, 2024
Gene Product: November 14th, 2022
Gene Model: December 10th, 2021
|
| 5 days ago | pme36 | pectin methylesterase36: | 2.03 | GRMZM2G162333
| Bapat, AR and Scott, MP 2024. Pectin methylesterase activities in reproductive tissues of maize plants with different haplotypes of the Ga1 and Ga2 cross incompatibility systems. Plant Reproduction. :doi: 10.1007/s00497-024-00502-0. | | Reference: May 3rd, 2024
Gene Product: September 10th, 2018
Gene Model: December 28th, 2019
|
| 5 days ago | pme31 | pectin methylesterase31: | 3.09 | GRMZM2G004927
| Bapat, AR and Scott, MP 2024. Pectin methylesterase activities in reproductive tissues of maize plants with different haplotypes of the Ga1 and Ga2 cross incompatibility systems. Plant Reproduction. :doi: 10.1007/s00497-024-00502-0. | | Reference: May 3rd, 2024
Gene Product: September 10th, 2018
Gene Model: December 28th, 2019
|
| 5 days ago | pme3 | pectin methylesterase3: | | | Bapat, AR and Scott, MP 2024. Pectin methylesterase activities in reproductive tissues of maize plants with different haplotypes of the Ga1 and Ga2 cross incompatibility systems. Plant Reproduction. :doi: 10.1007/s00497-024-00502-0. | | Reference: May 3rd, 2024
Gene Product: September 10th, 2018
|
| 5 days ago | Zm00001d048936 | : | | GRMZM2G119698
| Zhang, ZG et al. 2018. Nature communications p.3678 | | Reference: May 3rd, 2024
Gene Product: September 10th, 2018
Gene Model: September 10th, 2018
|
| 5 days ago | pme8 | pectin methylesterase8: | | GRMZM2G128549
| Zhang, ZG et al. 2018. Nature communications p.3678 | | Reference: May 3rd, 2024
Gene Product: September 10th, 2018
Gene Model: December 28th, 2019
|
| 5 days ago | pme24 | pectin methylesterase24: | | GRMZM2G404767
| Bapat, AR and Scott, MP 2024. Pectin methylesterase activities in reproductive tissues of maize plants with different haplotypes of the Ga1 and Ga2 cross incompatibility systems. Plant Reproduction. :doi: 10.1007/s00497-024-00502-0. | | Reference: May 3rd, 2024
Gene Product: September 10th, 2018
Gene Model: December 28th, 2019
|
| 5 days ago | pme26 | pectin methylesterase26: | | GRMZM2G019411
| Bapat, AR and Scott, MP 2024. Pectin methylesterase activities in reproductive tissues of maize plants with different haplotypes of the Ga1 and Ga2 cross incompatibility systems. Plant Reproduction. :doi: 10.1007/s00497-024-00502-0. | | Reference: May 3rd, 2024
Gene Product: September 10th, 2018
Gene Model: December 28th, 2019
|
| 5 days ago | pme30 | pectin methylesterase30: | | GRMZM2G121278
| Bapat, AR and Scott, MP 2024. Pectin methylesterase activities in reproductive tissues of maize plants with different haplotypes of the Ga1 and Ga2 cross incompatibility systems. Plant Reproduction. :doi: 10.1007/s00497-024-00502-0. | | Reference: May 3rd, 2024
Gene Product: September 10th, 2018
Gene Model: December 28th, 2019
|
| 5 days ago | pme32 | pectin methylesterase32: | | GRMZM2G318299
| Bapat, AR and Scott, MP 2024. Pectin methylesterase activities in reproductive tissues of maize plants with different haplotypes of the Ga1 and Ga2 cross incompatibility systems. Plant Reproduction. :doi: 10.1007/s00497-024-00502-0. | | Reference: May 3rd, 2024
Gene Product: September 10th, 2018
Gene Model: December 28th, 2019
|
| 5 days ago | pme33 | pectin methylesterase33: | | GRMZM2G070913
| Bapat, AR and Scott, MP 2024. Pectin methylesterase activities in reproductive tissues of maize plants with different haplotypes of the Ga1 and Ga2 cross incompatibility systems. Plant Reproduction. :doi: 10.1007/s00497-024-00502-0. | | Reference: May 3rd, 2024
Gene Product: September 10th, 2018
Gene Model: December 28th, 2019
|
| 5 days ago | pme34 | pectin methylesterase34: | | GRMZM2G422631
| Bapat, AR and Scott, MP 2024. Pectin methylesterase activities in reproductive tissues of maize plants with different haplotypes of the Ga1 and Ga2 cross incompatibility systems. Plant Reproduction. :doi: 10.1007/s00497-024-00502-0. | | Reference: May 3rd, 2024
Gene Product: September 10th, 2018
Gene Model: December 28th, 2019
|
| 5 days ago | pme35 | pectin methylesterase35: | | GRMZM2G455564
| Bapat, AR and Scott, MP 2024. Pectin methylesterase activities in reproductive tissues of maize plants with different haplotypes of the Ga1 and Ga2 cross incompatibility systems. Plant Reproduction. :doi: 10.1007/s00497-024-00502-0. | | Reference: May 3rd, 2024
Gene Product: September 10th, 2018
Gene Model: December 28th, 2019
|
| 5 days ago | pme37 | pectin methylesterase37: | | GRMZM2G043943
| Bapat, AR and Scott, MP 2024. Pectin methylesterase activities in reproductive tissues of maize plants with different haplotypes of the Ga1 and Ga2 cross incompatibility systems. Plant Reproduction. :doi: 10.1007/s00497-024-00502-0. | | Reference: May 3rd, 2024
Gene Product: September 10th, 2018
Gene Model: December 28th, 2019
|
| 5 days ago | pme38 | pectin methylesterase38: | | GRMZM2G071339
| Bapat, AR and Scott, MP 2024. Pectin methylesterase activities in reproductive tissues of maize plants with different haplotypes of the Ga1 and Ga2 cross incompatibility systems. Plant Reproduction. :doi: 10.1007/s00497-024-00502-0. | | Reference: May 3rd, 2024
Gene Product: September 10th, 2018
Gene Model: December 28th, 2019
|
| 5 days ago | pme39 | pectin methylesterase39: | | GRMZM2G120779
| Bapat, AR and Scott, MP 2024. Pectin methylesterase activities in reproductive tissues of maize plants with different haplotypes of the Ga1 and Ga2 cross incompatibility systems. Plant Reproduction. :doi: 10.1007/s00497-024-00502-0. | | Reference: May 3rd, 2024
Gene Product: September 10th, 2018
Gene Model: December 28th, 2019
|
| 5 days ago | pme40 | pectin methylesterase40: | | GRMZM2G177940
| Bapat, AR and Scott, MP 2024. Pectin methylesterase activities in reproductive tissues of maize plants with different haplotypes of the Ga1 and Ga2 cross incompatibility systems. Plant Reproduction. :doi: 10.1007/s00497-024-00502-0. | | Reference: May 3rd, 2024
Gene Product: September 10th, 2018
Gene Model: December 28th, 2019
|
| 5 days ago | pme41 | pectin methylesterase41: | | GRMZM2G037411
| Bapat, AR and Scott, MP 2024. Pectin methylesterase activities in reproductive tissues of maize plants with different haplotypes of the Ga1 and Ga2 cross incompatibility systems. Plant Reproduction. :doi: 10.1007/s00497-024-00502-0. | | Reference: May 3rd, 2024
Gene Product: September 10th, 2018
Gene Model: December 28th, 2019
|
| 5 days ago | pme42 | pectin methylesterase42: | | GRMZM2G382557
| Bapat, AR and Scott, MP 2024. Pectin methylesterase activities in reproductive tissues of maize plants with different haplotypes of the Ga1 and Ga2 cross incompatibility systems. Plant Reproduction. :doi: 10.1007/s00497-024-00502-0. | | Reference: May 3rd, 2024
Gene Product: September 10th, 2018
Gene Model: December 28th, 2019
|
| 5 days ago | Zm00001d016245 | : | | GRMZM2G071511
| Bapat, AR and Scott, MP 2024. Pectin methylesterase activities in reproductive tissues of maize plants with different haplotypes of the Ga1 and Ga2 cross incompatibility systems. Plant Reproduction. :doi: 10.1007/s00497-024-00502-0. | | Reference: May 3rd, 2024
Gene Product: September 10th, 2018
Gene Model: April 14th, 2022
|
| 5 days ago | TRINITY_DN1207_c0_g1 (PG2) | : | | GRMZM2G410783
| Bapat, AR and Scott, MP 2024. Pectin methylesterase activities in reproductive tissues of maize plants with different haplotypes of the Ga1 and Ga2 cross incompatibility systems. Plant Reproduction. :doi: 10.1007/s00497-024-00502-0. | | Reference: May 3rd, 2024
Gene Product: September 10th, 2018
Gene Model: April 14th, 2022
|
| 5 days ago | pme43 | pectin methylesterase43: | 4.00 | GRMZM2G431856
| Bapat, AR and Scott, MP 2024. Pectin methylesterase activities in reproductive tissues of maize plants with different haplotypes of the Ga1 and Ga2 cross incompatibility systems. Plant Reproduction. :doi: 10.1007/s00497-024-00502-0. | | Reference: May 3rd, 2024
Gene Product: September 10th, 2018
Variation: March 31st, 2005
Gene Model: December 28th, 2019
|
| 6 days ago | ms26 | male sterile26: | 1.02 - 1.02 | | Albertsen, MC et al. 2006. Nucleotide sequences mediating plant male fertility and method of using same. Patent US7612251B2 | | Reference: May 2nd, 2024
Gene Product: September 30th, 2013
Variation: July 8th, 2020
|
| 6 days ago | aasr2 | abscisic acid stress ripening2: | 2.05 | GRMZM5G854138
| Liang, YN et al. 2019. Int J Mol Sci 20:2278 | | Reference: May 2nd, 2024
Gene Product: December 1st, 2011
Variation: November 22nd, 2011
Gene Model: November 1st, 2011
|
| 6 days ago | aasr6 | abscisic acid stress ripening6: | 5.04 | GRMZM2G057841
| Liang, YN et al. 2019. Int J Mol Sci 20:2278 | | Reference: May 2nd, 2024
Gene Product: January 2nd, 2019
Variation: November 12th, 2014
Gene Model: November 1st, 2011
|
| 6 days ago | aasr9 | abscisic acid stress ripening9: | 3.04 | GRMZM2G383699
| Liang, YN et al. 2019. Int J Mol Sci 20:2278 | | Reference: May 2nd, 2024
Gene Product: January 2nd, 2019
Gene Model: November 1st, 2011
|
| 6 days ago | amya1 | alpha amylase1: | | | MacGregor, AW et al. 1988. Cereal Chem 65:326-333 | | Reference: May 2nd, 2024
Gene Product: September 1st, 2003
Variation: May 12th, 2005
|
| 6 days ago | sod4 | superoxide dismutase4: | 1.04 | | Xinran Gao et al. 2024. ZmmiR398b negatively regulates maize resistance to sugarcane mosaic virus infection by targeting ZmCSD2/4/9. Mol Plant Pathol. 25:e13462. | | Reference: May 2nd, 2024
Gene Product: October 4th, 2021
Variation: April 20th, 2005
|
| 6 days ago | ssu1 | ribulose bisphosphate carboxylase small subunit1: | 4.08 | | Kathryn Eshenour et al. 2024. Transgenic Expression of Rubisco Accumulation Factor2 and Rubisco Subunits Increases Photosynthesis and Growth in Maize. J Exp Bot. :doi: 10.1093/jxb/erae186. | | Reference: May 2nd, 2024
Gene Product: September 1st, 2003
Variation: September 1st, 2003
|
| 6 days ago | ssu2 | ribulose bisphosphate carboxylase small subunit2: | 2.05 | GRMZM2G113033
| Wostrikoff, K et al. 2012. Ectopic expression of Rubisco subunits in maize mesophyll cells does not overcome barriers to cell type-specific accumulation. Plant Physiol. 160:419-32. | | Reference: May 2nd, 2024
Gene Product: September 1st, 2003
Variation: October 14th, 2014
Gene Model: August 7th, 2014
|
| 6 days ago | bss1 | bundle sheath strands specific1: | 8.06 | GRMZM2G168552
| Liang, YN et al. 2019. Int J Mol Sci 20:2278 | | Reference: May 2nd, 2024
Gene Product: December 1st, 2011
Variation: November 1st, 2011
Gene Model: November 1st, 2011
|
| 6 days ago | aasr3 | abscisic acid stress ripening3: | 2.04 | GRMZM5G806182
| Liang, YN et al. 2019. Int J Mol Sci 20:2278 | | Reference: May 2nd, 2024
Gene Product: December 1st, 2011
Gene Model: January 2nd, 2019
|
| 6 days ago | sod9 | superoxide dismutase9: | 9.04 | | Xinran Gao et al. 2024. ZmmiR398b negatively regulates maize resistance to sugarcane mosaic virus infection by targeting ZmCSD2/4/9. Mol Plant Pathol. 25:e13462. | | Reference: May 2nd, 2024
Gene Product: October 4th, 2021
Variation: January 21st, 2015
|
| 6 days ago | amya3 | alpha amylase3: | 2.07 | | MacGregor, AW et al. 1988. Cereal Chem 65:326-333 | | Reference: May 2nd, 2024
Gene Product: September 1st, 2003
Variation: September 1st, 2003
|
| 6 days ago | rbcL (cp) | ribulose-1-5-bisphosphate carboxylase-large subunit: | | | Kathryn Eshenour et al. 2024. Transgenic Expression of Rubisco Accumulation Factor2 and Rubisco Subunits Increases Photosynthesis and Growth in Maize. J Exp Bot. :doi: 10.1093/jxb/erae186. | | Reference: May 2nd, 2024
Gene Product: September 1st, 2003
|
| 6 days ago | aasr5 | abscisic acid stress ripening5: | 10.04 | GRMZM2G052100
| Liang, YN et al. 2019. Int J Mol Sci 20:2278 | | Reference: May 2nd, 2024
Gene Product: November 4th, 2011
Variation: April 14th, 2007
Gene Model: November 1st, 2011
|
| 6 days ago | raf1 | Rubisco Assembly Factor 1: | | GRMZM2G457621
| Kathryn Eshenour et al. 2024. Transgenic Expression of Rubisco Accumulation Factor2 and Rubisco Subunits Increases Photosynthesis and Growth in Maize. J Exp Bot. :doi: 10.1093/jxb/erae186. | | Reference: May 2nd, 2024
Gene Product: October 4th, 2014
Variation: October 4th, 2014
Gene Model: October 4th, 2014
|
| 6 days ago | aasr7 | abscisic acid stress ripening7: | | GRMZM2G014797
| Liang, YN et al. 2019. Int J Mol Sci 20:2278 | | Reference: May 2nd, 2024
Gene Product: January 2nd, 2019
Gene Model: November 1st, 2011
|
| 6 days ago | aasr8 | abscisic acid stress ripening8: | | GRMZM2G314075
| Liang, YN et al. 2019. Int J Mol Sci 20:2278 | | Reference: May 2nd, 2024
Gene Product: January 2nd, 2019
Gene Model: November 1st, 2011
|
| 6 days ago | raf2 | rubisco accumulation factor2: | | GRMZM2G139123
| Kathryn Eshenour et al. 2024. Transgenic Expression of Rubisco Accumulation Factor2 and Rubisco Subunits Increases Photosynthesis and Growth in Maize. J Exp Bot. :doi: 10.1093/jxb/erae186. | | Reference: May 2nd, 2024
Gene Product: December 16th, 2015
Variation: October 4th, 2014
Gene Model: October 4th, 2014
|
| 7 days ago | bhlh166 | bHLH-transcription factor 166: | 3.09 | | Zhenwei Yan et al. 2024. The ZmbHLH47-ZmSnRK2.9 Module Promotes Drought Tolerance in Maize Int J Mol Sci. 25:4957. | | Reference: May 1st, 2024
Variation: September 25th, 2007
|
| 7 days ago | bhlh187 | bHLH-transcription factor 187: | 4.02 | GRMZM2G133675
| Zhenwei Yan et al. 2024. The ZmbHLH47-ZmSnRK2.9 Module Promotes Drought Tolerance in Maize Int J Mol Sci. 25:4957. | | Reference: May 1st, 2024
Gene Product: September 14th, 2016
Gene Model: April 11th, 2020
|
| 7 days ago | snrkII9 | SnRK2 serine threonine protein kinase9: | | GRMZM2G081915
| Zhenwei Yan et al. 2024. The ZmbHLH47-ZmSnRK2.9 Module Promotes Drought Tolerance in Maize Int J Mol Sci. 25:4957. | | Reference: May 1st, 2024
Gene Product: April 14th, 2018
Gene Model: April 14th, 2018
|
| 8 days ago | larp9 | la motif-related protein9: | | | Xiaoqin Xiang et al. 2024. Genome-wide investigation of the LARP gene family: focus on functional identification and transcriptome profiling of ZmLARP6c1 in maize pollen. BMC Plant Biology. 24:348. | | Reference: April 30th, 2024
Gene Product: October 28th, 2021
|
| 8 days ago | larp10 | la motif-related protein10: | | | Xiaoqin Xiang et al. 2024. Genome-wide investigation of the LARP gene family: focus on functional identification and transcriptome profiling of ZmLARP6c1 in maize pollen. BMC Plant Biology. 24:348. | | Reference: April 30th, 2024
Gene Product: October 28th, 2021
|
| 8 days ago | larp11 | la motif-related protein11: | | | Xiaoqin Xiang et al. 2024. Genome-wide investigation of the LARP gene family: focus on functional identification and transcriptome profiling of ZmLARP6c1 in maize pollen. BMC Plant Biology. 24:348. | | Reference: April 30th, 2024
Gene Product: October 28th, 2021
|
| 8 days ago | larp13 | la motif-related protein13: | | | Xiaoqin Xiang et al. 2024. Genome-wide investigation of the LARP gene family: focus on functional identification and transcriptome profiling of ZmLARP6c1 in maize pollen. BMC Plant Biology. 24:348. | | Reference: April 30th, 2024
Gene Product: October 28th, 2021
|
| 8 days ago | larp14 | la motif-related protein14: | | | Xiaoqin Xiang et al. 2024. Genome-wide investigation of the LARP gene family: focus on functional identification and transcriptome profiling of ZmLARP6c1 in maize pollen. BMC Plant Biology. 24:348. | | Reference: April 30th, 2024
Gene Product: October 28th, 2021
|
| 8 days ago | larp8 | la motif-related protein8: | 5.00 | GRMZM5G861064
| Xiaoqin Xiang et al. 2024. Genome-wide investigation of the LARP gene family: focus on functional identification and transcriptome profiling of ZmLARP6c1 in maize pollen. BMC Plant Biology. 24:348. | | Reference: April 30th, 2024
Gene Product: October 28th, 2021
Variation: September 25th, 2007
Gene Model: August 25th, 2021
|
| 8 days ago | act1 | actin1: | 8.03 - 8.04 | | Paloma Serra et al. 2024. A maize enzyme from the 2-oxoglutarate-dependent oxygenase family with unique kinetic properties, mediates resistance against pathogens and regulates senescence. Plant Cell Environ. :doi: 10.1111/pce.14929. | | Reference: April 30th, 2024
Gene Product: September 1st, 2003
Variation: September 4th, 2013
|
| 8 days ago | gpc1 | glyceraldehyde-3-phosphate dehydrogenase1: | 4.05 | | Paloma Serra et al. 2024. A maize enzyme from the 2-oxoglutarate-dependent oxygenase family with unique kinetic properties, mediates resistance against pathogens and regulates senescence. Plant Cell Environ. :doi: 10.1111/pce.14929. | | Reference: April 30th, 2024
Gene Product: September 1st, 2003
Variation: September 1st, 2003
|
| 8 days ago | mpk1 | MAP kinase1: | 9.06 | GRMZM2G053987
| Paloma Serra et al. 2024. A maize enzyme from the 2-oxoglutarate-dependent oxygenase family with unique kinetic properties, mediates resistance against pathogens and regulates senescence. Plant Cell Environ. :doi: 10.1111/pce.14929. | | Reference: April 30th, 2024
Gene Product: July 12th, 2013
Variation: January 16th, 2013
Gene Model: July 9th, 2013
|
| 8 days ago | tubtf15 | TUB-transcription factor 15: | 3.08 | GRMZM2G062154
| Xiaoqin Xiang et al. 2024. Genome-wide investigation of the LARP gene family: focus on functional identification and transcriptome profiling of ZmLARP6c1 in maize pollen. BMC Plant Biology. 24:348. | | Reference: April 30th, 2024
Gene Product: September 29th, 2015
Variation: September 1st, 2003
Gene Model: September 29th, 2015
|
| 8 days ago | larp12 | la motif-related protein12: | 7.06 - 7.06 | GRMZM2G090203
| Xiaoqin Xiang et al. 2024. Genome-wide investigation of the LARP gene family: focus on functional identification and transcriptome profiling of ZmLARP6c1 in maize pollen. BMC Plant Biology. 24:348. | | Reference: April 30th, 2024
Variation: September 1st, 2003
Gene Model: March 16th, 2021
|
| 8 days ago | mir3 | maize insect resistance3: | | GRMZM2G166281
| Paloma Serra et al. 2024. A maize enzyme from the 2-oxoglutarate-dependent oxygenase family with unique kinetic properties, mediates resistance against pathogens and regulates senescence. Plant Cell Environ. :doi: 10.1111/pce.14929. | | Reference: April 30th, 2024
Gene Product: October 11th, 2021
Variation: August 1st, 2011
Gene Model: February 12th, 2014
|
| 8 days ago | prp5 | pathogenesis related protein5: | 1.06 | GRMZM2G402631
| Paloma Serra et al. 2024. A maize enzyme from the 2-oxoglutarate-dependent oxygenase family with unique kinetic properties, mediates resistance against pathogens and regulates senescence. Plant Cell Environ. :doi: 10.1111/pce.14929. | | Reference: April 30th, 2024
Gene Product: December 12th, 2022
Variation: August 20th, 2011
Gene Model: October 30th, 2015
|
| 8 days ago | sbip2a | small basic membrane intrinsic protein2a: | 1.04 | GRMZM2G175038
| Xiaoqin Xiang et al. 2024. Genome-wide investigation of the LARP gene family: focus on functional identification and transcriptome profiling of ZmLARP6c1 in maize pollen. BMC Plant Biology. 24:348. | | Reference: April 30th, 2024
Gene Product: January 27th, 2022
Variation: September 1st, 2003
Gene Model: February 2nd, 2015
|
| 8 days ago | larp5 | la motif-related protein5: | 2.08 | GRMZM2G072339
| Xiaoqin Xiang et al. 2024. Genome-wide investigation of the LARP gene family: focus on functional identification and transcriptome profiling of ZmLARP6c1 in maize pollen. BMC Plant Biology. 24:348. | | Reference: April 30th, 2024
Gene Product: October 28th, 2021
Gene Model: March 23rd, 2020
|
| 8 days ago | opr8 | 12-oxo-phytodienoic acid reductase8: | 4.05 | GRMZM2G082087
| Xiaoqin Xiang et al. 2024. Genome-wide investigation of the LARP gene family: focus on functional identification and transcriptome profiling of ZmLARP6c1 in maize pollen. BMC Plant Biology. 24:348. | | Reference: April 30th, 2024
Gene Product: September 3rd, 2010
Variation: December 16th, 2019
Gene Model: November 25th, 2013
|
| 8 days ago | prp4 | pathogenesis related protein4: | 7.00 | GRMZM2G465226
| Paloma Serra et al. 2024. A maize enzyme from the 2-oxoglutarate-dependent oxygenase family with unique kinetic properties, mediates resistance against pathogens and regulates senescence. Plant Cell Environ. :doi: 10.1111/pce.14929. | | Reference: April 30th, 2024
Gene Product: December 12th, 2022
Variation: August 29th, 2011
Gene Model: November 20th, 2014
|
| 8 days ago | fls1 | flavonol synthase1: | | GRMZM2G152801
| Paloma Serra et al. 2024. A maize enzyme from the 2-oxoglutarate-dependent oxygenase family with unique kinetic properties, mediates resistance against pathogens and regulates senescence. Plant Cell Environ. :doi: 10.1111/pce.14929. | | Reference: April 30th, 2024
Gene Product: October 10th, 2012
Variation: October 9th, 2012
Gene Model: October 9th, 2012
|
| 8 days ago | fls2 | flavonol synthase2: | | GRMZM2G069298
| Paloma Serra et al. 2024. A maize enzyme from the 2-oxoglutarate-dependent oxygenase family with unique kinetic properties, mediates resistance against pathogens and regulates senescence. Plant Cell Environ. :doi: 10.1111/pce.14929. | | Reference: April 30th, 2024
Gene Product: October 10th, 2012
Gene Model: October 9th, 2012
|
| 8 days ago | sweet1b | sugars will eventually be exported transporter1b: | | GRMZM2G153358
| Paloma Serra et al. 2024. A maize enzyme from the 2-oxoglutarate-dependent oxygenase family with unique kinetic properties, mediates resistance against pathogens and regulates senescence. Plant Cell Environ. :doi: 10.1111/pce.14929. | | Reference: April 30th, 2024
Gene Product: November 4th, 2015
Variation: April 19th, 2019
Gene Model: November 3rd, 2015
|
| 8 days ago | pyl10 | pyrabactin resistance-like protein10: | | GRMZM2G063882
| Xiaoqin Xiang et al. 2024. Genome-wide investigation of the LARP gene family: focus on functional identification and transcriptome profiling of ZmLARP6c1 in maize pollen. BMC Plant Biology. 24:348. | | Reference: April 30th, 2024
Gene Product: January 31st, 2021
Gene Model: April 21st, 2018
|
| 8 days ago | coi4 | coronatine insensitive4: | | GRMZM2G079112
| Xiaoqin Xiang et al. 2024. Genome-wide investigation of the LARP gene family: focus on functional identification and transcriptome profiling of ZmLARP6c1 in maize pollen. BMC Plant Biology. 24:348. | | Reference: April 30th, 2024
Gene Product: November 2nd, 2018
Variation: February 15th, 2022
Gene Model: November 2nd, 2018
|
| 8 days ago | GRMZM2G050234 | : | | GRMZM2G050234
| Paloma Serra et al. 2024. A maize enzyme from the 2-oxoglutarate-dependent oxygenase family with unique kinetic properties, mediates resistance against pathogens and regulates senescence. Plant Cell Environ. :doi: 10.1111/pce.14929. | AT4G10500 (TAIR)
LOC_Os04g49210 (MSU/TIGR) | Reference: April 30th, 2024
Gene Product: April 30th, 2024
Gene Model: November 21st, 2019
|
| 8 days ago | pab2 | polyA binding protein2: | | GRMZM2G102829
| Xiaoqin Xiang et al. 2024. Genome-wide investigation of the LARP gene family: focus on functional identification and transcriptome profiling of ZmLARP6c1 in maize pollen. BMC Plant Biology. 24:348. | | Reference: April 30th, 2024
Gene Product: August 4th, 2020
Gene Model: August 4th, 2020
|
| 8 days ago | coi6 | coronatine insensitive6: | | | Xiaoqin Xiang et al. 2024. Genome-wide investigation of the LARP gene family: focus on functional identification and transcriptome profiling of ZmLARP6c1 in maize pollen. BMC Plant Biology. 24:348. | | Reference: April 30th, 2024
Gene Product: November 2nd, 2018
Variation: February 15th, 2022
|
| 8 days ago | pyl7 | pyrabactin resistance-like protein7: | | GRMZM2G144224
| Xiaoqin Xiang et al. 2024. Genome-wide investigation of the LARP gene family: focus on functional identification and transcriptome profiling of ZmLARP6c1 in maize pollen. BMC Plant Biology. 24:348. | | Reference: April 30th, 2024
Gene Product: January 31st, 2021
Gene Model: January 31st, 2021
|
| 8 days ago | pyl13 | pyrabactin resistance-like protein13: | | GRMZM2G048733
| Xiaoqin Xiang et al. 2024. Genome-wide investigation of the LARP gene family: focus on functional identification and transcriptome profiling of ZmLARP6c1 in maize pollen. BMC Plant Biology. 24:348. | | Reference: April 30th, 2024
Gene Product: January 31st, 2021
Gene Model: January 31st, 2021
|
| 8 days ago | larp1 | la motif-related protein1: | | GRMZM2G020281
| Xiaoqin Xiang et al. 2024. Genome-wide investigation of the LARP gene family: focus on functional identification and transcriptome profiling of ZmLARP6c1 in maize pollen. BMC Plant Biology. 24:348. | | Reference: April 30th, 2024
Gene Product: October 28th, 2021
Variation: February 25th, 2021
Gene Model: February 25th, 2021
|
| 8 days ago | stp2 | sugar transport2: | | AC208897.3_FG004
| Paloma Serra et al. 2024. A maize enzyme from the 2-oxoglutarate-dependent oxygenase family with unique kinetic properties, mediates resistance against pathogens and regulates senescence. Plant Cell Environ. :doi: 10.1111/pce.14929. | | Reference: April 30th, 2024
Gene Product: January 2nd, 2023
Gene Model: March 4th, 2021
|
| 8 days ago | ccp14 | cysteine protease14: | | GRMZM2G045706
| Paloma Serra et al. 2024. A maize enzyme from the 2-oxoglutarate-dependent oxygenase family with unique kinetic properties, mediates resistance against pathogens and regulates senescence. Plant Cell Environ. :doi: 10.1111/pce.14929. | | Reference: April 30th, 2024
Gene Product: October 11th, 2021
Gene Model: October 11th, 2021
|
| 8 days ago | larp2 | la motif-related protein2: | | GRMZM2G127665
| Xiaoqin Xiang et al. 2024. Genome-wide investigation of the LARP gene family: focus on functional identification and transcriptome profiling of ZmLARP6c1 in maize pollen. BMC Plant Biology. 24:348. | | Reference: April 30th, 2024
Gene Product: October 28th, 2021
Gene Model: October 28th, 2021
|
| 8 days ago | larp3 | la motif-related protein3: | | GRMZM2G045503
| Xiaoqin Xiang et al. 2024. Genome-wide investigation of the LARP gene family: focus on functional identification and transcriptome profiling of ZmLARP6c1 in maize pollen. BMC Plant Biology. 24:348. | | Reference: April 30th, 2024
Gene Product: October 28th, 2021
Gene Model: October 28th, 2021
|
| 8 days ago | larp6 | la motif-related protein6: | | GRMZM2G020281
| Xiaoqin Xiang et al. 2024. Genome-wide investigation of the LARP gene family: focus on functional identification and transcriptome profiling of ZmLARP6c1 in maize pollen. BMC Plant Biology. 24:348. | | Reference: April 30th, 2024
Gene Product: October 28th, 2021
Gene Model: October 28th, 2021
|
| 8 days ago | larp7 | la motif-related protein7: | 8.01 | | Xiaoqin Xiang et al. 2024. Genome-wide investigation of the LARP gene family: focus on functional identification and transcriptome profiling of ZmLARP6c1 in maize pollen. BMC Plant Biology. 24:348. | | Reference: April 30th, 2024
Gene Product: October 28th, 2021
|
| 8 days ago | larp4 | la motif-related protein4: | 10.03 | GRMZM2G171518
| Xiaoqin Xiang et al. 2024. Genome-wide investigation of the LARP gene family: focus on functional identification and transcriptome profiling of ZmLARP6c1 in maize pollen. BMC Plant Biology. 24:348. | | Reference: April 30th, 2024
Gene Product: October 28th, 2021
Gene Model: November 29th, 2019
|
| 9 days ago | hb67 | Homeobox-transcription factor 67: | 2.01 | | Gregory, J. et al. 2024. Mechanisms Of Meristem Maintenance By Maize Transcriptional Corepressors bioRxiv preprint. :doi: 10.1101/2024.04.26.591374. | | Reference: April 29th, 2024
Gene Product: August 25th, 2017
|
| 9 days ago | ct2 | compact plant2: | 1.01 - 1.02 | GRMZM2G064732
| Gregory, J. et al. 2024. Mechanisms Of Meristem Maintenance By Maize Transcriptional Corepressors bioRxiv preprint. :doi: 10.1101/2024.04.26.591374. | | Reference: April 29th, 2024
Gene Product: September 16th, 2013
Variation: September 20th, 2013
Gene Model: September 16th, 2013
|
| 9 days ago | kn1 | knotted1: | 1.10 | | Gregory, J. et al. 2024. Mechanisms Of Meristem Maintenance By Maize Transcriptional Corepressors bioRxiv preprint. :doi: 10.1101/2024.04.26.591374. | | Reference: April 29th, 2024
Variation: December 6th, 2013
|
| 9 days ago | dhn1 | dehydrin1: | 6.05 | | Xinglong Wang et al. 2024. Improving resilience to high temperature in drought: water replenishment enhances sucrose and amino acid metabolisms in maize grain. Plant J. | | Reference: April 29th, 2024
Gene Product: September 1st, 2003
Variation: November 20th, 2012
|
| 9 days ago | sh1 | shrunken1: | 9.01 | | Xinglong Wang et al. 2024. Improving resilience to high temperature in drought: water replenishment enhances sucrose and amino acid metabolisms in maize grain. Plant J. | | Reference: April 29th, 2024
Gene Product: October 25th, 2006
Variation: June 9th, 2020
|
| 9 days ago | sh2 | shrunken2: | 3.09 | | Xinglong Wang et al. 2024. Improving resilience to high temperature in drought: water replenishment enhances sucrose and amino acid metabolisms in maize grain. Plant J. | | Reference: April 29th, 2024
Gene Product: November 4th, 2014
Variation: January 9th, 2019
|
| 9 days ago | td1 | thick tassel dwarf1: | 5.03 | GRMZM2G300133
| Gregory, J. et al. 2024. Mechanisms Of Meristem Maintenance By Maize Transcriptional Corepressors bioRxiv preprint. :doi: 10.1101/2024.04.26.591374. | | Reference: April 29th, 2024
Gene Product: October 22nd, 2012
Variation: October 23rd, 2012
Gene Model: October 22nd, 2012
|
| 9 days ago | frk2 | fructokinase2: | 6.00 | GRMZM2G051677
| Xinglong Wang et al. 2024. Improving resilience to high temperature in drought: water replenishment enhances sucrose and amino acid metabolisms in maize grain. Plant J. | | Reference: April 29th, 2024
Variation: May 1st, 2010
Gene Model: July 29th, 2016
|
| 9 days ago | rel2 | ramosa1 enhancer locus2: | 10.03 | | Gregory, J. et al. 2024. Mechanisms Of Meristem Maintenance By Maize Transcriptional Corepressors bioRxiv preprint. :doi: 10.1101/2024.04.26.591374. | | Reference: April 29th, 2024
Gene Product: October 23rd, 2018
Variation: September 5th, 2019
|
| 9 days ago | hb122 | Homeobox-transcription factor 122: | | | Gregory, J. et al. 2024. Mechanisms Of Meristem Maintenance By Maize Transcriptional Corepressors bioRxiv preprint. :doi: 10.1101/2024.04.26.591374. | | Reference: April 29th, 2024
Gene Product: August 25th, 2017
|
| 9 days ago | fea4 | fasciated ear4: | | | Gregory, J. et al. 2024. Mechanisms Of Meristem Maintenance By Maize Transcriptional Corepressors bioRxiv preprint. :doi: 10.1101/2024.04.26.591374. | | Reference: April 29th, 2024
Gene Product: August 21st, 2018
Variation: July 7th, 2017
|
| 9 days ago | fea2 | fasciated ear2: | 4.05 | | Gregory, J. et al. 2024. Mechanisms Of Meristem Maintenance By Maize Transcriptional Corepressors bioRxiv preprint. :doi: 10.1101/2024.04.26.591374. | | Reference: April 29th, 2024
Gene Product: February 1st, 2023
Variation: November 13th, 2020
|
| 9 days ago | agpll1 | ADP glucose pyrophosphorylase large subunit leaf1AGPL4: | 1.10 | GRMZM2G391936
| Xinglong Wang et al. 2024. Improving resilience to high temperature in drought: water replenishment enhances sucrose and amino acid metabolisms in maize grain. Plant J. | | Reference: April 29th, 2024
Gene Product: January 3rd, 2014
Variation: September 22nd, 2017
Gene Model: September 22nd, 2017
|
| 9 days ago | agp2 | ADP glucose pyrophosphorylase2: | 6.07 - 6.08 | GRMZM2G027955
| Xinglong Wang et al. 2024. Improving resilience to high temperature in drought: water replenishment enhances sucrose and amino acid metabolisms in maize grain. Plant J. | | Reference: April 29th, 2024
Gene Product: July 22nd, 2015
Variation: June 15th, 2012
Gene Model: June 15th, 2012
|
| 9 days ago | tre1 | trehalase1: | | GRMZM2G162690
| Xinglong Wang et al. 2024. Improving resilience to high temperature in drought: water replenishment enhances sucrose and amino acid metabolisms in maize grain. Plant J. | | Reference: April 29th, 2024
Gene Product: September 15th, 2013
Gene Model: September 15th, 2013
|
| 9 days ago | trpp12 | trehalose-6-phosphate phosphatase12: | | GRMZM2G178546
| Xinglong Wang et al. 2024. Improving resilience to high temperature in drought: water replenishment enhances sucrose and amino acid metabolisms in maize grain. Plant J. | | Reference: April 29th, 2024
Gene Product: October 3rd, 2020
Gene Model: September 15th, 2013
|
| 9 days ago | trps15 | trehalose-6-phosphate synthase15: | | GRMZM2G118462
| Xinglong Wang et al. 2024. Improving resilience to high temperature in drought: water replenishment enhances sucrose and amino acid metabolisms in maize grain. Plant J. | | Reference: April 29th, 2024
Gene Product: October 3rd, 2020
Gene Model: September 15th, 2013
|
| 9 days ago | fcp1 | fon2-like cle protein1: | | GRMZM2G165836
| Gregory, J. et al. 2024. Mechanisms Of Meristem Maintenance By Maize Transcriptional Corepressors bioRxiv preprint. :doi: 10.1101/2024.04.26.591374. | LOC_Os04g39770 (MSU/TIGR)
Os04g0473800 (Gramene) | Reference: April 29th, 2024
Gene Product: May 21st, 2016
Variation: April 15th, 2019
Gene Model: May 21st, 2016
|
| 9 days ago | cle7 | clavata3/esr-related7: | | GRMZM2G372364
| Gregory, J. et al. 2024. Mechanisms Of Meristem Maintenance By Maize Transcriptional Corepressors bioRxiv preprint. :doi: 10.1101/2024.04.26.591374. | | Reference: April 29th, 2024
Gene Product: February 22nd, 2021
Variation: March 6th, 2020
Gene Model: September 15th, 2016
|
| 9 days ago | tpl1 | topless-related1: | | GRMZM2G316967
| Gregory, J. et al. 2024. Mechanisms Of Meristem Maintenance By Maize Transcriptional Corepressors bioRxiv preprint. :doi: 10.1101/2024.04.26.591374. | | Reference: April 29th, 2024
Gene Product: October 23rd, 2018
Variation: April 29th, 2024
Gene Model: December 12th, 2016
|
| 9 days ago | tpl2 | topless-related2: | | GRMZM2G030422
| Gregory, J. et al. 2024. Mechanisms Of Meristem Maintenance By Maize Transcriptional Corepressors bioRxiv preprint. :doi: 10.1101/2024.04.26.591374. | | Reference: April 29th, 2024
Gene Product: October 23rd, 2018
Gene Model: December 12th, 2016
|
| 9 days ago | crn1 | coryne1: | | GRMZM2G032132
| Gregory, J. et al. 2024. Mechanisms Of Meristem Maintenance By Maize Transcriptional Corepressors bioRxiv preprint. :doi: 10.1101/2024.04.26.591374. | AT5G13290 (TAIR) | Reference: April 29th, 2024
Gene Product: July 10th, 2019
Gene Model: May 21st, 2018
|
| 9 days ago | ptox1 | plastid terminal oxidase1: | | GRMZM2G102349
| Peng, YX et al. 2024. ZmPTOX1, a plastid terminal oxidase, contributes to redox homeostasis during seed development and germination. Plant J. :doi: 10.1111/tpj.16776. | AT4G22260 (TAIR)
LOC_Os04g57320 (MSU/TIGR) | Reference: April 29th, 2024
Gene Product: June 15th, 2023
Variation: April 29th, 2024
Gene Model: April 27th, 2020
|
| 9 days ago | relk3 | rel2-like3: | 9.06 | GRMZM2G550865
| Gregory, J. et al. 2024. Mechanisms Of Meristem Maintenance By Maize Transcriptional Corepressors bioRxiv preprint. :doi: 10.1101/2024.04.26.591374. | | Reference: April 29th, 2024
Gene Product: October 23rd, 2018
Gene Model: October 23rd, 2018
|
| 11 days ago | gsr1 | glutathione reductase1: | 1.01 | | Ildikó Jócsák et al. 2024. Alterations of Photosynthetic and Oxidative Processes Influenced by the Presence of Different Zinc and Cadmium Concentrations in Maize Seedlings: Transition from Essential to Toxic Functions. Plants. 13 | | Reference: April 27th, 2024
Gene Product: September 1st, 2003
Variation: January 30th, 2015
|
| 11 days ago | gst1 | glutathione-S-transferase1: | 8.08 - 8.09 | | Ildikó Jócsák et al. 2024. Alterations of Photosynthetic and Oxidative Processes Influenced by the Presence of Different Zinc and Cadmium Concentrations in Maize Seedlings: Transition from Essential to Toxic Functions. Plants. 13 | | Reference: April 27th, 2024
Gene Product: September 1st, 2003
Variation: September 1st, 2003
|
| 11 days ago | lox2 | lipoxygenase2: | 3.06 | GRMZM2G156861
| Ildikó Jócsák et al. 2024. Alterations of Photosynthetic and Oxidative Processes Influenced by the Presence of Different Zinc and Cadmium Concentrations in Maize Seedlings: Transition from Essential to Toxic Functions. Plants. 13 | | Reference: April 27th, 2024
Gene Product: January 3rd, 2018
Variation: July 18th, 2017
Gene Model: June 10th, 2014
|
| 11 days ago | prp11 | pathogenesis-related protein11: | 4.02 | GRMZM2G117971
| Xiaoyu Gu et al. 2024. Plant immunity suppression by an β-1,3-glucanase of the maize anthracnose pathogen Colletotrichum graminicola. BMC Plant Biology. 24:339. | | Reference: April 27th, 2024
Gene Product: May 31st, 2021
Gene Model: September 16th, 2017
|
| 11 days ago | cals1 | callose synthase1: | | GRMZM2G180951
| Xiaoyu Gu et al. 2024. Plant immunity suppression by an β-1,3-glucanase of the maize anthracnose pathogen Colletotrichum graminicola. BMC Plant Biology. 24:339. | | Reference: April 27th, 2024
Gene Product: July 5th, 2021
Gene Model: July 5th, 2021
|
| 12 days ago | cdj5 | chaperone DNA J5: | | | Yu, S et al. 2024. Dynamic transcriptome profiling revealed a key gene ZmJMJ20 and pathways associated with cadmium stress in maize Ecotoxicol Environ Safety. 277:116352. | | Reference: April 26th, 2024
Gene Product: September 1st, 2003
|
| 12 days ago | LOC100281141 | : | | | Yu, S et al. 2024. Dynamic transcriptome profiling revealed a key gene ZmJMJ20 and pathways associated with cadmium stress in maize Ecotoxicol Environ Safety. 277:116352. | | Reference: April 26th, 2024
Gene Product: February 26th, 2021
|
| 12 days ago | plt16 | phospholipid transfer protein16: | | | Yu, S et al. 2024. Dynamic transcriptome profiling revealed a key gene ZmJMJ20 and pathways associated with cadmium stress in maize Ecotoxicol Environ Safety. 277:116352. | | Reference: April 26th, 2024
Gene Product: September 1st, 2003
|
| 12 days ago | jmj23 | JUMONJI-transcription factor 23: | | | Yu, S et al. 2024. Dynamic transcriptome profiling revealed a key gene ZmJMJ20 and pathways associated with cadmium stress in maize Ecotoxicol Environ Safety. 277:116352. | AT3G20810 (TAIR) | Reference: April 26th, 2024
Gene Product: April 3rd, 2019
|
| 12 days ago | acc2 | acetyl-CoA carboxylase2: | 2.04 | GRMZM5G858094
| Zhang, SM et al. 2024. Fatty acid de novo biosynthesis in plastids: Key enzymes and their critical roles for male reproduction and other processes in plants. Plant Physiol Biochem. 210:108654. | | Reference: April 26th, 2024
Gene Product: September 29th, 2020
Variation: July 7th, 2012
Gene Model: July 7th, 2012
|
| 12 days ago | ms25 | male sterile25: | 9.04 - 9.06 | GRMZM2G120987
| Zhang, SM et al. 2024. Fatty acid de novo biosynthesis in plastids: Key enzymes and their critical roles for male reproduction and other processes in plants. Plant Physiol Biochem. 210:108654. | | Reference: April 26th, 2024
Gene Product: December 1st, 2017
Variation: April 2nd, 2021
Gene Model: December 1st, 2017
|
| 12 days ago | fat1 | fatty acyl thioesterase1: | 9.03 | GRMZM2G406603
| Zhang, SM et al. 2024. Fatty acid de novo biosynthesis in plastids: Key enzymes and their critical roles for male reproduction and other processes in plants. Plant Physiol Biochem. 210:108654. | | Reference: April 26th, 2024
Gene Product: January 3rd, 2023
Variation: May 27th, 2014
Gene Model: July 27th, 2016
|
| 12 days ago | sacd3 | stearoyl-acyl-carrier-protein desaturase3: | 1.05 | | An, XL et al. 2023. CRISPR/Cas9-based genome editing of 14 lipid metabolic genes reveals a sporopollenin metabolon ZmPKSB-ZmTKPR1-1/-2 required for pollen exine formation in maize. Plant Biotechnol J. :doi: 10.1111/pbi.14181. | | Reference: April 26th, 2024
Gene Product: October 10th, 2016
Variation: November 3rd, 2017
|
| 12 days ago | myb84 | MYB-transcription factor 84: | 10.04 | | Zhang, SM et al. 2024. Fatty acid de novo biosynthesis in plastids: Key enzymes and their critical roles for male reproduction and other processes in plants. Plant Physiol Biochem. 210:108654. | | Reference: April 26th, 2024
Variation: August 19th, 2022
|
| 12 days ago | acc1 | acetyl-coenzyme A carboxylase1: | 10.04 | AC197672.3_FG002
| Zhang, SM et al. 2024. Fatty acid de novo biosynthesis in plastids: Key enzymes and their critical roles for male reproduction and other processes in plants. Plant Physiol Biochem. 210:108654. | | Reference: April 26th, 2024
Gene Product: September 1st, 2003
Variation: July 6th, 2012
Gene Model: July 7th, 2012
|
| 12 days ago | fad15 | fatty acid desaturase15: | 10.03 | GRMZM2G169240
| Yu, S et al. 2024. Dynamic transcriptome profiling revealed a key gene ZmJMJ20 and pathways associated with cadmium stress in maize Ecotoxicol Environ Safety. 277:116352. | | Reference: April 26th, 2024
Gene Product: January 6th, 2022
Gene Model: July 18th, 2021
|
| 12 days ago | prp3 | pathogenesis-related protein3: | 4.02 | GRMZM2G117989
| Yu, S et al. 2024. Dynamic transcriptome profiling revealed a key gene ZmJMJ20 and pathways associated with cadmium stress in maize Ecotoxicol Environ Safety. 277:116352. | | Reference: April 26th, 2024
Gene Product: December 12th, 2022
Gene Model: December 24th, 2015
|
| 12 days ago | col6 | C2C2-CO-like-transcription factor 6: | | | Yu, S et al. 2024. Dynamic transcriptome profiling revealed a key gene ZmJMJ20 and pathways associated with cadmium stress in maize Ecotoxicol Environ Safety. 277:116352. | | Reference: April 26th, 2024
Gene Product: June 18th, 2018
|
| 12 days ago | hsftf1 | HSF-transcription factor 1: | | | Mingxiu Ruan et al. 2024. The complex transcriptional regulation of heat stress response in maize. Stress Biol. 4:24. | | Reference: April 26th, 2024
Gene Product: May 15th, 2020
|
| 12 days ago | hsftf12 | HSF-transcription factor 12: | | | Mingxiu Ruan et al. 2024. The complex transcriptional regulation of heat stress response in maize. Stress Biol. 4:24. | | Reference: April 26th, 2024
Gene Product: May 15th, 2020
|
| 12 days ago | hsftf13 | HSF-transcription factor 13: | | | Mingxiu Ruan et al. 2024. The complex transcriptional regulation of heat stress response in maize. Stress Biol. 4:24. | | Reference: April 26th, 2024
Gene Product: May 15th, 2020
|
| 12 days ago | hsftf20 | HSF-transcription factor 20: | | | Mingxiu Ruan et al. 2024. The complex transcriptional regulation of heat stress response in maize. Stress Biol. 4:24. | | Reference: April 26th, 2024
Gene Product: May 15th, 2020
Variation: April 4th, 2024
|
| 12 days ago | hsftf24 | HSF-transcription factor 24: | | | Mingxiu Ruan et al. 2024. The complex transcriptional regulation of heat stress response in maize. Stress Biol. 4:24. | | Reference: April 26th, 2024
Gene Product: May 15th, 2020
|
| 12 days ago | hsftf27 | HSF-transcription factor 27: | | | Mingxiu Ruan et al. 2024. The complex transcriptional regulation of heat stress response in maize. Stress Biol. 4:24. | | Reference: April 26th, 2024
Gene Product: May 15th, 2020
|
| 12 days ago | hsftf4 | HSF-transcription factor 4: | | | Mingxiu Ruan et al. 2024. The complex transcriptional regulation of heat stress response in maize. Stress Biol. 4:24. | | Reference: April 26th, 2024
Gene Product: May 15th, 2020
Variation: April 4th, 2024
|
| 12 days ago | hsftf5 | HSF-transcription factor 5: | | | Mingxiu Ruan et al. 2024. The complex transcriptional regulation of heat stress response in maize. Stress Biol. 4:24. | | Reference: April 26th, 2024
Gene Product: May 15th, 2020
|
| 12 days ago | hsftf7 | HSF-transcription factor 7: | | | Mingxiu Ruan et al. 2024. The complex transcriptional regulation of heat stress response in maize. Stress Biol. 4:24. | | Reference: April 26th, 2024
Gene Product: May 15th, 2020
|
| 12 days ago | hsftf8 | HSF-transcription factor 8: | | | Mingxiu Ruan et al. 2024. The complex transcriptional regulation of heat stress response in maize. Stress Biol. 4:24. | | Reference: April 26th, 2024
Gene Product: May 15th, 2020
|
| 12 days ago | csu43 | : | 9.04 | GRMZM2G152105
| Zhang, SM et al. 2024. Fatty acid de novo biosynthesis in plastids: Key enzymes and their critical roles for male reproduction and other processes in plants. Plant Physiol Biochem. 210:108654. | | Reference: April 26th, 2024
Variation: September 1st, 2003
Gene Model: January 14th, 2019
|
| 12 days ago | dfr2 | dihydroflavonol-4-reductase2: | 1.06 | GRMZM2G168893
| An, XL et al. 2023. CRISPR/Cas9-based genome editing of 14 lipid metabolic genes reveals a sporopollenin metabolon ZmPKSB-ZmTKPR1-1/-2 required for pollen exine formation in maize. Plant Biotechnol J. :doi: 10.1111/pbi.14181. | AT4G35420 (TAIR) | Reference: April 26th, 2024
Gene Product: October 4th, 2023
Gene Model: August 29th, 2017
|
| 12 days ago | hsftf11 | HSF-transcription factor 11: | 1.11 | GRMZM2G132971
| Mingxiu Ruan et al. 2024. The complex transcriptional regulation of heat stress response in maize. Stress Biol. 4:24. | AT2G26150 (TAIR) | Reference: April 26th, 2024
Gene Product: May 15th, 2020
Variation: March 17th, 2021
Gene Model: October 13th, 2017
|
| 12 days ago | fab1 | fatty acid biosynthesis1: | 10.04 | GRMZM2G099696
| Zhang, SM et al. 2024. Fatty acid de novo biosynthesis in plastids: Key enzymes and their critical roles for male reproduction and other processes in plants. Plant Physiol Biochem. 210:108654. | | Reference: April 26th, 2024
Gene Product: September 1st, 2003
Variation: December 1st, 2012
Gene Model: July 27th, 2016
|
| 12 days ago | AI795367 | : | 10.02 | GRMZM2G118286
| Zhang, SM et al. 2024. Fatty acid de novo biosynthesis in plastids: Key enzymes and their critical roles for male reproduction and other processes in plants. Plant Physiol Biochem. 210:108654. | | Reference: April 26th, 2024
Variation: July 29th, 2004
Gene Model: December 28th, 2017
|
| 12 days ago | icl1 | isocitrate lyase1: | 7.03 | GRMZM2G056369
| Yu, S et al. 2024. Dynamic transcriptome profiling revealed a key gene ZmJMJ20 and pathways associated with cadmium stress in maize Ecotoxicol Environ Safety. 277:116352. | | Reference: April 26th, 2024
Gene Product: September 1st, 2003
Variation: July 29th, 2015
Gene Model: July 29th, 2015
|
| 12 days ago | pco121523 | : | 2.08 | GRMZM2G124335
| Zhang, SM et al. 2024. Fatty acid de novo biosynthesis in plastids: Key enzymes and their critical roles for male reproduction and other processes in plants. Plant Physiol Biochem. 210:108654. | | Reference: April 26th, 2024
Variation: August 15th, 2021
Gene Model: February 22nd, 2018
|
| 12 days ago | burp6 | BURP domain-containing protein-RD22-like6: | | GRMZM2G113229
| An, XL et al. 2023. CRISPR/Cas9-based genome editing of 14 lipid metabolic genes reveals a sporopollenin metabolon ZmPKSB-ZmTKPR1-1/-2 required for pollen exine formation in maize. Plant Biotechnol J. :doi: 10.1111/pbi.14181. | | Reference: April 26th, 2024
Gene Product: August 18th, 2017
Variation: August 18th, 2017
Gene Model: August 18th, 2017
|
| 12 days ago | prp6 | pathogenesis-related protein6: | | GRMZM2G112488
| Yu, S et al. 2024. Dynamic transcriptome profiling revealed a key gene ZmJMJ20 and pathways associated with cadmium stress in maize Ecotoxicol Environ Safety. 277:116352. | | Reference: April 26th, 2024
Gene Product: December 12th, 2022
Gene Model: September 30th, 2017
|
| 12 days ago | toc2 | timing of cab expression2: | | GRMZM2G148453
| Yu, S et al. 2024. Dynamic transcriptome profiling revealed a key gene ZmJMJ20 and pathways associated with cadmium stress in maize Ecotoxicol Environ Safety. 277:116352. | AT5G61380 (TAIR) | Reference: April 26th, 2024
Gene Product: January 11th, 2018
Gene Model: January 11th, 2018
|
| 12 days ago | cl11117_1a | : | 5.02 | GRMZM2G569855
| Yu, S et al. 2024. Dynamic transcriptome profiling revealed a key gene ZmJMJ20 and pathways associated with cadmium stress in maize Ecotoxicol Environ Safety. 277:116352. | | Reference: April 26th, 2024
Gene Product: August 31st, 2023
Gene Model: May 7th, 2022
|
| 12 days ago | vq52 | VQ motif-transcription factor52: | | GRMZM2G122447
| Yu, S et al. 2024. Dynamic transcriptome profiling revealed a key gene ZmJMJ20 and pathways associated with cadmium stress in maize Ecotoxicol Environ Safety. 277:116352. | | Reference: April 26th, 2024
Gene Product: August 31st, 2019
Gene Model: August 31st, 2019
|
| 12 days ago | fax1 | fatty acid export1: | | GRMZM2G046529
| Zhang, SM et al. 2024. Fatty acid de novo biosynthesis in plastids: Key enzymes and their critical roles for male reproduction and other processes in plants. Plant Physiol Biochem. 210:108654. | At3g57280 (TAIR) | Reference: April 26th, 2024
Gene Product: March 14th, 2020
Gene Model: March 14th, 2020
|
| 12 days ago | acsn1 | acyl-CoA synthetase1: | | GRMZM2G117064
| Zhang, SM et al. 2024. Fatty acid de novo biosynthesis in plastids: Key enzymes and their critical roles for male reproduction and other processes in plants. Plant Physiol Biochem. 210:108654. | | Reference: April 26th, 2024
Gene Product: December 20th, 2011
Gene Model: November 27th, 2020
|
| 12 days ago | osm1 | osmotin-like protein1: | | GRMZM2G136372
| Yu, S et al. 2024. Dynamic transcriptome profiling revealed a key gene ZmJMJ20 and pathways associated with cadmium stress in maize Ecotoxicol Environ Safety. 277:116352. | AT4G11650 (TAIR) | Reference: April 26th, 2024
Gene Product: September 1st, 2003
Gene Model: November 30th, 2020
|
| 12 days ago | mpkl5 | MAP kinase-like5: | | GRMZM2G305321
| Yu, S et al. 2024. Dynamic transcriptome profiling revealed a key gene ZmJMJ20 and pathways associated with cadmium stress in maize Ecotoxicol Environ Safety. 277:116352. | | Reference: April 26th, 2024
Gene Product: May 13th, 2014
Gene Model: March 12th, 2021
|
| 12 days ago | IDP2138 | : | | GRMZM2G079308
| Zhang, SM et al. 2024. Fatty acid de novo biosynthesis in plastids: Key enzymes and their critical roles for male reproduction and other processes in plants. Plant Physiol Biochem. 210:108654. | | Reference: April 26th, 2024
Variation: June 30th, 2021
Gene Model: May 15th, 2021
|
| 12 days ago | prp14 | pathogenesis-related protein14: | | GRMZM2G304442
| Yu, S et al. 2024. Dynamic transcriptome profiling revealed a key gene ZmJMJ20 and pathways associated with cadmium stress in maize Ecotoxicol Environ Safety. 277:116352. | | Reference: April 26th, 2024
Gene Product: December 12th, 2022
Gene Model: November 19th, 2021
|
| 12 days ago | saur15 | small auxin up RNA15: | | GRMZM2G365162
| Guantong Gong et al. 2024. Genetic analysis and QTL mapping for pericarp thickness in maize (Zea mays L.). BMC Plant Biology. 24:338. | | Reference: April 26th, 2024
Gene Product: November 26th, 2021
Gene Model: November 26th, 2021
|
| 12 days ago | saur48 | small auxin up RNA48: | | GRMZM2G332390
| Yu, S et al. 2024. Dynamic transcriptome profiling revealed a key gene ZmJMJ20 and pathways associated with cadmium stress in maize Ecotoxicol Environ Safety. 277:116352. | | Reference: April 26th, 2024
Gene Product: November 26th, 2021
Gene Model: November 26th, 2021
|
| 12 days ago | bzip60 | bZIP transcription factor60: | 9.03 | GRMZM2G025812
| Mingxiu Ruan et al. 2024. The complex transcriptional regulation of heat stress response in maize. Stress Biol. 4:24. | | Reference: April 26th, 2024
Gene Product: August 21st, 2018
Variation: November 4th, 2022
Gene Model: April 16th, 2013
|
| 12 days ago | dfr1 | dihydroflavonoid reductase1: | 7.03 - 7.02 | GRMZM2G004683
| An, XL et al. 2023. CRISPR/Cas9-based genome editing of 14 lipid metabolic genes reveals a sporopollenin metabolon ZmPKSB-ZmTKPR1-1/-2 required for pollen exine formation in maize. Plant Biotechnol J. :doi: 10.1111/pbi.14181. | AT4G35420 (TAIR) | Reference: April 26th, 2024
Gene Product: October 4th, 2023
Variation: November 21st, 2012
Gene Model: November 21st, 2012
|
| 12 days ago | IDP2589 | : | 2.07 | GRMZM2G102878
| Zhang, SM et al. 2024. Fatty acid de novo biosynthesis in plastids: Key enzymes and their critical roles for male reproduction and other processes in plants. Plant Physiol Biochem. 210:108654. | | Reference: April 26th, 2024
Variation: March 31st, 2005
Gene Model: February 20th, 2019
|
| 12 days ago | cdpk20 | calcium dependent protein kinase20: | 8.04 | GRMZM2G030673
| Mingxiu Ruan et al. 2024. The complex transcriptional regulation of heat stress response in maize. Stress Biol. 4:24. | | Reference: April 26th, 2024
Gene Product: December 3rd, 2013
Variation: March 31st, 2005
Gene Model: January 10th, 2018
|
| 12 days ago | fat2 | fatty acyl-ACP thioesterase2: | 9.02 | GRMZM5G829544
| Zhang, SM et al. 2024. Fatty acid de novo biosynthesis in plastids: Key enzymes and their critical roles for male reproduction and other processes in plants. Plant Physiol Biochem. 210:108654. | AT1G08510 (TAIR) | Reference: April 26th, 2024
Gene Product: May 23rd, 2012
Variation: May 6th, 2022
Gene Model: May 23rd, 2012
|
| 12 days ago | kcs32 | 3-ketoacyl-CoA synthase32: | 1.05 | GRMZM2G063024
| An, XL et al. 2023. CRISPR/Cas9-based genome editing of 14 lipid metabolic genes reveals a sporopollenin metabolon ZmPKSB-ZmTKPR1-1/-2 required for pollen exine formation in maize. Plant Biotechnol J. :doi: 10.1111/pbi.14181. | | Reference: April 26th, 2024
Gene Product: November 1st, 2018
Gene Model: February 8th, 2020
|
| 13 days ago | ect21 | evolutionarily conserved C-terminal21: | | | Keli Xu et al. 2024. Genome-Wide Analysis of Maize ECT Family Members and Their Expressions in Response to Abiotic Stresses J Nucl Agric Sci. 38:1035-1047. | | Reference: April 25th, 2024
Gene Product: April 25th, 2024
|
| 13 days ago | c3h59 | C3H-transcription factor 59: | | | Keli Xu et al. 2024. Genome-Wide Analysis of Maize ECT Family Members and Their Expressions in Response to Abiotic Stresses J Nucl Agric Sci. 38:1035-1047. | | Reference: April 25th, 2024
Gene Product: November 14th, 2022
|
| 13 days ago | ect1 | evolutionarily conserved C-terminal1: | | | Keli Xu et al. 2024. Genome-Wide Analysis of Maize ECT Family Members and Their Expressions in Response to Abiotic Stresses J Nucl Agric Sci. 38:1035-1047. | | Reference: April 25th, 2024
Gene Product: April 25th, 2024
|
| 13 days ago | ect2 | evolutionarily conserved C-terminal2: | | | Keli Xu et al. 2024. Genome-Wide Analysis of Maize ECT Family Members and Their Expressions in Response to Abiotic Stresses J Nucl Agric Sci. 38:1035-1047. | | Reference: April 25th, 2024
Gene Product: April 25th, 2024
|
| 13 days ago | ect3 | evolutionarily conserved C-terminal3: | | | Keli Xu et al. 2024. Genome-Wide Analysis of Maize ECT Family Members and Their Expressions in Response to Abiotic Stresses J Nucl Agric Sci. 38:1035-1047. | | Reference: April 25th, 2024
Gene Product: April 25th, 2024
|
| 13 days ago | ect5 | evolutionarily conserved C-terminal5: | | | Keli Xu et al. 2024. Genome-Wide Analysis of Maize ECT Family Members and Their Expressions in Response to Abiotic Stresses J Nucl Agric Sci. 38:1035-1047. | | Reference: April 25th, 2024
Gene Product: April 25th, 2024
|
| 13 days ago | ect11 | evolutionarily conserved C-terminal11: | | | Keli Xu et al. 2024. Genome-Wide Analysis of Maize ECT Family Members and Their Expressions in Response to Abiotic Stresses J Nucl Agric Sci. 38:1035-1047. | | Reference: April 25th, 2024
Gene Product: April 25th, 2024
|
| 13 days ago | ect19 | evolutionarily conserved C-terminal19: | | | Keli Xu et al. 2024. Genome-Wide Analysis of Maize ECT Family Members and Their Expressions in Response to Abiotic Stresses J Nucl Agric Sci. 38:1035-1047. | | Reference: April 25th, 2024
Gene Product: April 25th, 2024
|
| 13 days ago | ect20 | evolutionarily conserved C-terminal20: | | | Keli Xu et al. 2024. Genome-Wide Analysis of Maize ECT Family Members and Their Expressions in Response to Abiotic Stresses J Nucl Agric Sci. 38:1035-1047. | | Reference: April 25th, 2024
Gene Product: April 25th, 2024
|
| 13 days ago | ect22 | evolutionarily conserved C-terminal22: | 1.07 | GRMZM2G025488
| Keli Xu et al. 2024. Genome-Wide Analysis of Maize ECT Family Members and Their Expressions in Response to Abiotic Stresses J Nucl Agric Sci. 38:1035-1047. | | Reference: April 25th, 2024
Gene Product: April 25th, 2024
Gene Model: September 6th, 2017
|
| 13 days ago | ect15 | evolutionarily conserved C-terminal15: | 4.04 | GRMZM2G004997
| Keli Xu et al. 2024. Genome-Wide Analysis of Maize ECT Family Members and Their Expressions in Response to Abiotic Stresses J Nucl Agric Sci. 38:1035-1047. | | Reference: April 25th, 2024
Gene Product: April 25th, 2024
Gene Model: August 22nd, 2021
|
| 13 days ago | ect12 | evolutionarily conserved C-terminal12: | 1.10 | GRMZM2G126338
| Keli Xu et al. 2024. Genome-Wide Analysis of Maize ECT Family Members and Their Expressions in Response to Abiotic Stresses J Nucl Agric Sci. 38:1035-1047. | | Reference: April 25th, 2024
Gene Product: April 25th, 2024
Variation: August 9th, 2021
Gene Model: August 9th, 2021
|
| 13 days ago | rp1 | resistance to Puccinia sorghi1: | 10.01 | GRMZM2G069382
| Jones, JDG et al. 2024. The plant immune system: From discovery to deployment Cell. 187:2095-2116. | | Reference: April 25th, 2024
Gene Product: January 17th, 2022
Variation: April 1st, 2015
Gene Model: January 8th, 2018
|
| 13 days ago | ect13 | evolutionarily conserved C-terminal13: | 2.09 | GRMZM2G340130
| Keli Xu et al. 2024. Genome-Wide Analysis of Maize ECT Family Members and Their Expressions in Response to Abiotic Stresses J Nucl Agric Sci. 38:1035-1047. | | Reference: April 25th, 2024
Gene Product: April 25th, 2024
Variation: November 26th, 2021
Gene Model: November 25th, 2021
|
| 13 days ago | mrp1 | Myb related protein1: | 8.05 | | Gomez, E. 2002. Plant Cell 14:599-610 | | Reference: April 25th, 2024
Gene Product: September 1st, 2003
Variation: September 1st, 2003
|
| 13 days ago | ect7 | evolutionarily conserved C-terminal7: | 7.01 | GRMZM2G144726
| Keli Xu et al. 2024. Genome-Wide Analysis of Maize ECT Family Members and Their Expressions in Response to Abiotic Stresses J Nucl Agric Sci. 38:1035-1047. | | Reference: April 25th, 2024
Gene Product: April 25th, 2024
Variation: September 1st, 2003
Gene Model: September 4th, 2018
|
| 13 days ago | ocl3 | outer cell layer3: | 7.03 | | Liang, ZJ et al. 2024. A combination of QTL mapping and genome-wide association study revealed the key gene for husk number in maize. Theor Appl Genet. 137:112. | | Reference: April 25th, 2024
Gene Product: September 1st, 2003
Variation: February 23rd, 2013
|
| 13 days ago | ect14 | evolutionarily conserved C-terminal14: | 1.01 | GRMZM2G076062
| Keli Xu et al. 2024. Genome-Wide Analysis of Maize ECT Family Members and Their Expressions in Response to Abiotic Stresses J Nucl Agric Sci. 38:1035-1047. | | Reference: April 25th, 2024
Gene Product: April 25th, 2024
Variation: February 1st, 2017
Gene Model: April 28th, 2016
|
| 13 days ago | ect18 | evolutionarily conserved C-terminal18: | 2.02 | | Keli Xu et al. 2024. Genome-Wide Analysis of Maize ECT Family Members and Their Expressions in Response to Abiotic Stresses J Nucl Agric Sci. 38:1035-1047. | | Reference: April 25th, 2024
Gene Product: April 25th, 2024
|
| 13 days ago | ect8 | evolutionarily conserved C-terminal8: | 4.05 | GRMZM2G056573
| Keli Xu et al. 2024. Genome-Wide Analysis of Maize ECT Family Members and Their Expressions in Response to Abiotic Stresses J Nucl Agric Sci. 38:1035-1047. | | Reference: April 25th, 2024
Gene Product: April 25th, 2024
Gene Model: April 15th, 2020
|
| 13 days ago | c3h63 | C3H-transcription factor 63: | 5.03 | GRMZM2G126197
| Keli Xu et al. 2024. Genome-Wide Analysis of Maize ECT Family Members and Their Expressions in Response to Abiotic Stresses J Nucl Agric Sci. 38:1035-1047. | | Reference: April 25th, 2024
Gene Product: November 14th, 2022
Gene Model: May 13th, 2022
|
| 13 days ago | ect16 | evolutionarily conserved C-terminal16: | 6.00 | GRMZM2G098174
| Keli Xu et al. 2024. Genome-Wide Analysis of Maize ECT Family Members and Their Expressions in Response to Abiotic Stresses J Nucl Agric Sci. 38:1035-1047. | | Reference: April 25th, 2024
Gene Product: April 25th, 2024
Gene Model: December 4th, 2019
|
| 13 days ago | ect4 | evolutionarily conserved C-terminal4: | 9.07 | GRMZM2G330019
| Keli Xu et al. 2024. Genome-Wide Analysis of Maize ECT Family Members and Their Expressions in Response to Abiotic Stresses J Nucl Agric Sci. 38:1035-1047. | | Reference: April 25th, 2024
Gene Product: April 25th, 2024
Gene Model: September 10th, 2021
|
| 13 days ago | etc9 | evolutionarily conserved C-terminal9: | | GRMZM2G303312
| Keli Xu et al. 2024. Genome-Wide Analysis of Maize ECT Family Members and Their Expressions in Response to Abiotic Stresses J Nucl Agric Sci. 38:1035-1047. | | Reference: April 25th, 2024
Gene Product: April 25th, 2024
Gene Model: March 22nd, 2021
|
| 15 days ago | xth27 | xyloglucan endotransglucosylase/hydrolase27: | | | Yuanming Wu et al. 2024. Phenotypic Investigation and RNA-seq of KN1 Involved in Leaf Angle Formation in Maize (Zea mays L.) Int J Mol Sci. 25:3180. | | Reference: April 23rd, 2024
Gene Product: March 23rd, 2024
|
| 15 days ago | tps28 | terpene synthase28: | | | Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: December 6th, 2023
|
| 15 days ago | prh134 | protein phosphatase homolog134: | | | Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: October 25th, 2021
|
| 15 days ago | GRMZM2G044049 | : | | | Ran Yang et al. 2024. ZmNAC17 Regulates Mesocotyl Elongation by Mediating Auxin and ROS Biosynthetic Pathways in Maize Int J Mol Sci. 25:4585. | | Reference: April 23rd, 2024
Gene Product: September 18th, 2015
|
| 15 days ago | GRMZM2G133434 | : | | | Ran Yang et al. 2024. ZmNAC17 Regulates Mesocotyl Elongation by Mediating Auxin and ROS Biosynthetic Pathways in Maize Int J Mol Sci. 25:4585. | | Reference: April 23rd, 2024
Gene Product: September 18th, 2015
|
| 15 days ago | GRMZM2G171078 | : | | | Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: September 18th, 2015
|
| 15 days ago | GRMZM2G451097 | : | | | Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: September 18th, 2015
|
| 15 days ago | GRMZM2G043855 | : | | | Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: September 18th, 2015
|
| 15 days ago | GRMZM2G117365 | : | | | Ran Yang et al. 2024. ZmNAC17 Regulates Mesocotyl Elongation by Mediating Auxin and ROS Biosynthetic Pathways in Maize Int J Mol Sci. 25:4585. | | Reference: April 23rd, 2024
Gene Product: September 18th, 2015
|
| 15 days ago | GRMZM2G380247 | : | | | Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: September 18th, 2015
|
| 15 days ago | px64 | peroxidase64: | | | Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: September 18th, 2015
|
| 15 days ago | tps20 | terpene synthase20: | | | Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: December 6th, 2023
|
| 15 days ago | xth13 | xyloglucan endotransglucosylase/hydrolase13: | | | Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: March 23rd, 2024
|
| 15 days ago | bx4 | benzoxazinone synthesis4: | 4.01 | GRMZM2G172491
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: October 24th, 2011
Variation: October 27th, 2011
Gene Model: October 24th, 2011
|
| 15 days ago | bsk3 | brassinosteroid-signaling kinase3: | 9.04 | GRMZM2G054634
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: May 13th, 2014
Gene Model: September 9th, 2021
|
| 15 days ago | traf21 | TNF receptor-associated factor 21: | 3.03 | | Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: June 30th, 2021
Variation: May 11th, 2017
|
| 15 days ago | bzip129 | bZIP-transcription factor 129: | 2.06 | | Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: August 21st, 2018
|
| 15 days ago | prh111 | protein phosphatase homolog111: | 2.04 | GRMZM2G015610
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: October 25th, 2021
Gene Model: April 26th, 2021
|
| 15 days ago | saur7 | small auxin up RNA7: | 1.07 | GRMZM2G414727
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: November 26th, 2021
Gene Model: April 17th, 2021
|
| 15 days ago | pin9 | PIN-formed protein9: | 3.06 | GRMZM5G859099
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: April 3rd, 2024
Gene Model: January 24th, 2013
|
| 15 days ago | d1 | dwarf plant1: | 3.03 | GRMZM2G036340
| Yuanming Wu et al. 2024. Phenotypic Investigation and RNA-seq of KN1 Involved in Leaf Angle Formation in Maize (Zea mays L.) Int J Mol Sci. 25:3180. | | Reference: April 23rd, 2024
Gene Product: October 25th, 2014
Variation: October 30th, 2014
Gene Model: October 2nd, 2012
|
| 15 days ago | tps11 | terpene synthase11: | 10.03 | GRMZM2G127087
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: September 3rd, 2008
Variation: September 3rd, 2008
Gene Model: August 22nd, 2012
|
| 15 days ago | lox10 | lipoxygenase10: | 4.09 | GRMZM2G018424
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: January 3rd, 2018
Variation: February 28th, 2020
Gene Model: October 23rd, 2013
|
| 15 days ago | bzip7 | bZIP-transcription factor 7: | 7.03 | GRMZM2G006578
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Variation: September 8th, 2018
Gene Model: September 8th, 2018
|
| 15 days ago | nactf36 | NAC-transcription factor 36: | 2.04 | GRMZM2G081930
| Fan, K et al. 2014. Molecular evolution and expansion analysis of the NAC transcription factor in Zea mays. PLoS One. 9:e111837. | | Reference: April 23rd, 2024
Variation: September 1st, 2003
Gene Model: February 15th, 2018
|
| 15 days ago | cko1 | cytokinin oxidase1: | 3.02 | GRMZM2G146644
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: April 4th, 2014
Variation: September 1st, 2003
Gene Model: March 21st, 2014
|
| 15 days ago | umc1151 | : | 5.03 | GRMZM2G150893
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Variation: September 1st, 2003
Gene Model: March 12th, 2021
|
| 15 days ago | nactf43 | NAC-transcription factor43: | 1.05 | GRMZM2G082709
| Fan, K et al. 2014. Molecular evolution and expansion analysis of the NAC transcription factor in Zea mays. PLoS One. 9:e111837. | | Reference: April 23rd, 2024
Variation: September 1st, 2003
Gene Model: November 15th, 2016
|
| 15 days ago | crr1 | cytokinin response regulator1: | 2.01 - 2.01 | GRMZM2G040736
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: June 30th, 2017
Variation: August 5th, 2021
Gene Model: October 23rd, 2013
|
| 15 days ago | abi16 | ABI3-VP1-transcription factor 16: | | | Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: January 29th, 2022
|
| 15 days ago | abi28 | ABI3-VP1-transcription factor 28: | | | Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: January 29th, 2022
|
| 15 days ago | arftf15 | ARF-transcription factor 15: | | | Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: January 29th, 2022
|
| 15 days ago | arftf16 | ARF-transcription factor 16: | | | Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: January 29th, 2022
Variation: January 10th, 2020
|
| 15 days ago | arftf28 | ARF-transcription factor 28: | | | Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: January 29th, 2022
Variation: September 6th, 2023
|
| 15 days ago | arftf34 | ARF-transcription factor 34: | | | Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: January 29th, 2022
|
| 15 days ago | arr7 | ARR-B-transcription factor 7: | | | Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: June 30th, 2017
|
| 15 days ago | nactf108 | NAC-transcription factor 108: | | | Fan, K et al. 2014. Molecular evolution and expansion analysis of the NAC transcription factor in Zea mays. PLoS One. 9:e111837. | | Reference: April 23rd, 2024
Gene Product: July 8th, 2019
Variation: May 4th, 2019
|
| 15 days ago | nactf11 | NAC-transcription factor 11: | | | Ran Yang et al. 2024. ZmNAC17 Regulates Mesocotyl Elongation by Mediating Auxin and ROS Biosynthetic Pathways in Maize Int J Mol Sci. 25:4585. | | Reference: April 23rd, 2024
Variation: April 23rd, 2024
|
| 15 days ago | nactf127 | NAC-transcription factor 127: | | | Fan, K et al. 2014. Molecular evolution and expansion analysis of the NAC transcription factor in Zea mays. PLoS One. 9:e111837. | | Reference: April 23rd, 2024
Gene Product: December 12th, 2022
|
| 15 days ago | nactf129 | NAC-transcription factor 129: | | GRMZM2G027309
| Fan, K et al. 2014. Molecular evolution and expansion analysis of the NAC transcription factor in Zea mays. PLoS One. 9:e111837. | | Reference: April 23rd, 2024
Gene Product: July 8th, 2019
Gene Model: July 2nd, 2019
|
| 15 days ago | nactf130 | NAC-transcription factor 130: | | | Fan, K et al. 2014. Molecular evolution and expansion analysis of the NAC transcription factor in Zea mays. PLoS One. 9:e111837. | | Reference: April 23rd, 2024
Gene Product: July 8th, 2019
|
| 15 days ago | nactf132 | NAC-transcription factor 132: | | | Fan, K et al. 2014. Molecular evolution and expansion analysis of the NAC transcription factor in Zea mays. PLoS One. 9:e111837. | | Reference: April 23rd, 2024
Gene Product: July 8th, 2019
Variation: March 3rd, 2017
|
| 15 days ago | nactf25 | NAC-transcription factor 25: | | | Fan, K et al. 2014. Molecular evolution and expansion analysis of the NAC transcription factor in Zea mays. PLoS One. 9:e111837. | LOC_Os11g03300 (MSU/TIGR) | Reference: April 23rd, 2024
Gene Product: July 8th, 2019
Variation: September 22nd, 2015
|
| 15 days ago | nactf46 | NAC-transcription factor 46: | | | Fan, K et al. 2014. Molecular evolution and expansion analysis of the NAC transcription factor in Zea mays. PLoS One. 9:e111837. | | Reference: April 23rd, 2024
Gene Product: July 8th, 2019
|
| 15 days ago | nactf6 | NAC-transcription factor 6: | | | Fan, K et al. 2014. Molecular evolution and expansion analysis of the NAC transcription factor in Zea mays. PLoS One. 9:e111837. | | Reference: April 23rd, 2024
Gene Product: July 8th, 2019
|
| 15 days ago | nactf60 | NAC-transcription factor 60: | | | Fan, K et al. 2014. Molecular evolution and expansion analysis of the NAC transcription factor in Zea mays. PLoS One. 9:e111837. | | Reference: April 23rd, 2024
Gene Product: July 8th, 2019
|
| 15 days ago | nactf69 | NAC-transcription factor 69: | | GRMZM2G027309
| Fan, K et al. 2014. Molecular evolution and expansion analysis of the NAC transcription factor in Zea mays. PLoS One. 9:e111837. | | Reference: April 23rd, 2024
Gene Product: July 8th, 2019
Gene Model: July 6th, 2019
|
| 15 days ago | nactf70 | NAC-transcription factor 70: | | | Fan, K et al. 2014. Molecular evolution and expansion analysis of the NAC transcription factor in Zea mays. PLoS One. 9:e111837. | | Reference: April 23rd, 2024
Gene Product: July 8th, 2019
|
| 15 days ago | nactf78 | NAC-transcription factor 78: | | | Fan, K et al. 2014. Molecular evolution and expansion analysis of the NAC transcription factor in Zea mays. PLoS One. 9:e111837. | | Reference: April 23rd, 2024
Variation: December 7th, 2023
|
| 15 days ago | nactf8 | NAC-transcription factor 8: | | | Fan, K et al. 2014. Molecular evolution and expansion analysis of the NAC transcription factor in Zea mays. PLoS One. 9:e111837. | | Reference: April 23rd, 2024
Gene Product: July 8th, 2019
|
| 15 days ago | nactf82 | NAC-transcription factor 82: | | | Fan, K et al. 2014. Molecular evolution and expansion analysis of the NAC transcription factor in Zea mays. PLoS One. 9:e111837. | | Reference: April 23rd, 2024
Gene Product: July 8th, 2019
Variation: September 30th, 2018
|
| 15 days ago | nactf87 | NAC-transcription factor 87: | | | Fan, K et al. 2014. Molecular evolution and expansion analysis of the NAC transcription factor in Zea mays. PLoS One. 9:e111837. | | Reference: April 23rd, 2024
Gene Product: July 8th, 2019
|
| 15 days ago | nactf99 | NAC-transcription factor 99: | | GRMZM2G078954
| Fan, K et al. 2014. Molecular evolution and expansion analysis of the NAC transcription factor in Zea mays. PLoS One. 9:e111837. | | Reference: April 23rd, 2024
Gene Product: July 8th, 2019
Gene Model: May 28th, 2019
|
| 15 days ago | zim15 | ZIM-transcription factor 15: | | | Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: February 24th, 2021
|
| 15 days ago | zim33 | ZIM-transcription factor 33: | | | Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: February 24th, 2021
|
| 15 days ago | bzip113 | bZIP-transcription factor 113: | | | Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Variation: April 25th, 2023
|
| 15 days ago | gar3 | gibberellin responsive3: | 8.05 | GRMZM2G142705
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Variation: March 20th, 2021
Gene Model: January 22nd, 2016
|
| 15 days ago | ca2p6 | CCAAT-HAP2-transcription factor 26: | 1.08 | GRMZM5G829103
| Junqiao Song et al. 2024. Exploiting genomic tools for genetic dissection and improving the resistance to Fusarium stalk rot in tropical maize. Theor Appl Genet. 137:109. | | Reference: April 23rd, 2024
Gene Product: August 9th, 2016
Variation: December 17th, 2016
Gene Model: December 17th, 2016
|
| 15 days ago | nactf53 | NAC-transcription factor 53: | 1.01 | GRMZM2G059428
| Fan, K et al. 2014. Molecular evolution and expansion analysis of the NAC transcription factor in Zea mays. PLoS One. 9:e111837. | | Reference: April 23rd, 2024
Variation: May 6th, 2016
Gene Model: May 6th, 2016
|
| 15 days ago | bhlh65 | bHLH-transcription factor 65: | | GRMZM2G387528
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | AT1G09530 (TAIR)
LOC_Os05g04740 (MSU/TIGR) | Reference: April 23rd, 2024
Gene Product: September 14th, 2016
Variation: August 5th, 2022
Gene Model: May 26th, 2015
|
| 15 days ago | bnl13.05a | : | 8.01 | GRMZM2G041308
| Ran Yang et al. 2024. ZmNAC17 Regulates Mesocotyl Elongation by Mediating Auxin and ROS Biosynthetic Pathways in Maize Int J Mol Sci. 25:4585. | | Reference: April 23rd, 2024
Variation: September 1st, 2003
Gene Model: September 14th, 2018
|
| 15 days ago | bnl6.20 | : | 2.08 | GRMZM2G056612
| Yuanming Wu et al. 2024. Phenotypic Investigation and RNA-seq of KN1 Involved in Leaf Angle Formation in Maize (Zea mays L.) Int J Mol Sci. 25:3180. | | Reference: April 23rd, 2024
Variation: September 1st, 2003
Gene Model: February 2nd, 2018
|
| 15 days ago | bx5 | benzoxazinone synthesis5: | 4.01 | GRMZM2G063756
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: October 24th, 2011
Variation: October 27th, 2011
Gene Model: October 24th, 2011
|
| 15 days ago | nactf48 | NAC-transcription factor 48: | 1.06 | GRMZM2G054252
| Fan, K et al. 2014. Molecular evolution and expansion analysis of the NAC transcription factor in Zea mays. PLoS One. 9:e111837. | | Reference: April 23rd, 2024
Variation: January 27th, 2017
Gene Model: January 27th, 2017
|
| 15 days ago | cdj2 | chaperone DNA J2: | 1.09 | | Junqiao Song et al. 2024. Exploiting genomic tools for genetic dissection and improving the resistance to Fusarium stalk rot in tropical maize. Theor Appl Genet. 137:109. | | Reference: April 23rd, 2024
Gene Product: September 1st, 2003
Variation: September 29th, 2012
|
| 15 days ago | krp2 | kinesin-related protein2: | 9.03 | GRMZM2G136838
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: September 18th, 2023
Variation: January 4th, 2013
Gene Model: March 3rd, 2016
|
| 15 days ago | ufg71 | : | 9.03 | GRMZM5G870176
| Yuanming Wu et al. 2024. Phenotypic Investigation and RNA-seq of KN1 Involved in Leaf Angle Formation in Maize (Zea mays L.) Int J Mol Sci. 25:3180. | | Reference: April 23rd, 2024
Gene Product: October 7th, 2016
Gene Model: October 12th, 2018
|
| 15 days ago | hk3 | histidine kinase3: | 5.03 | GRMZM2G158252
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: May 20th, 2016
Variation: July 14th, 2008
Gene Model: April 25th, 2013
|
| 15 days ago | lox11 | lipoxygenase11: | 5.04 | GRMZM2G009479
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: January 3rd, 2018
Variation: June 10th, 2014
Gene Model: June 10th, 2014
|
| 15 days ago | pox3 | guaiacol peroxidase3: | 6.05 | GRMZM2G135108
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: September 1st, 2003
Variation: January 7th, 2016
Gene Model: February 9th, 2015
|
| 15 days ago | brs1 | brassinosteroid synthesis1: | 1.03 | GRMZM2G065635
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | AT3G50660 (TAIR) | Reference: April 23rd, 2024
Gene Product: September 20th, 2010
Variation: November 7th, 2013
Gene Model: October 3rd, 2012
|
| 15 days ago | ras18A1 | ras-related protein18A1: | | GRMZM2G176677
| Fan, K et al. 2014. Molecular evolution and expansion analysis of the NAC transcription factor in Zea mays. PLoS One. 9:e111837. | | Reference: April 23rd, 2024
Variation: January 24th, 2011
Gene Model: July 22nd, 2014
|
| 15 days ago | nrp1 | no-apical-meristem-related protein1: | | GRMZM2G062650
| Fan, K et al. 2014. Molecular evolution and expansion analysis of the NAC transcription factor in Zea mays. PLoS One. 9:e111837. | | Reference: April 23rd, 2024
Gene Product: July 8th, 2019
Variation: March 31st, 2011
Gene Model: July 28th, 2016
|
| 15 days ago | nced3 | nine-cis-epoxycarotenoid dioxygenase3: | | GRMZM5G858784
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: September 20th, 2012
Gene Model: September 20th, 2012
|
| 15 days ago | nced5 | nine-cis-epoxycarotenoid dioxygenase5: | | GRMZM2G417954
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: September 20th, 2012
Variation: September 1st, 2011
Gene Model: September 20th, 2012
|
| 15 days ago | dbp4 | DRE-binding protein4: | | GRMZM2G380377
| Yuanming Wu et al. 2024. Phenotypic Investigation and RNA-seq of KN1 Involved in Leaf Angle Formation in Maize (Zea mays L.) Int J Mol Sci. 25:3180. | | Reference: April 23rd, 2024
Gene Product: April 10th, 2013
Variation: April 10th, 2013
Gene Model: February 16th, 2012
|
| 15 days ago | bx12 | benzoxazinone synthesis12: | | GRMZM2G023325
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: July 8th, 2013
Variation: July 8th, 2013
Gene Model: July 8th, 2013
|
| 15 days ago | elm2 | elongated mesocotyl2: | | GRMZM2G101004
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: September 24th, 2014
Variation: September 24th, 2014
Gene Model: November 18th, 2013
|
| 15 days ago | rca3 | RUBISCO activase3: | | GRMZM2G162282
| Yuanming Wu et al. 2024. Phenotypic Investigation and RNA-seq of KN1 Involved in Leaf Angle Formation in Maize (Zea mays L.) Int J Mol Sci. 25:3180. | | Reference: April 23rd, 2024
Gene Product: October 28th, 2014
Gene Model: February 11th, 2014
|
| 15 days ago | cko4b | cytokinin oxidase4b: | | GRMZM2G024476
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: July 19th, 2021
Gene Model: April 4th, 2014
|
| 15 days ago | ga2ox4 | gibberellin 2-oxidase4: | | GRMZM2G153359
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: October 27th, 2014
Gene Model: October 27th, 2014
|
| 15 days ago | ga16,17ox1 | gibberellin 16,17-oxidase1: | | GRMZM2G031432
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: October 30th, 2014
Gene Model: October 29th, 2014
|
| 15 days ago | pox1 | guaiacol peroxidase1: | | GRMZM2G104394
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: September 1st, 2003
Gene Model: February 9th, 2015
|
| 15 days ago | fnsi1 | flavone synthase typeI1: | | GRMZM2G099467
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | AT5G24530 (TAIR) | Reference: April 23rd, 2024
Gene Product: August 15th, 2015
Variation: August 14th, 2015
Gene Model: August 14th, 2015
|
| 15 days ago | fnsii1 | flavone synthase typeII1: | | GRMZM2G148441
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: August 14th, 2015
Gene Model: August 14th, 2015
|
| 15 days ago | fnsi2 | flavone synthase typeI2: | | GRMZM2G475380
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | AT5G24530 (TAIR) | Reference: April 23rd, 2024
Gene Product: August 15th, 2015
Gene Model: August 14th, 2015
|
| 15 days ago | prx35 | peroxidase35: | | GRMZM2G177792
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: September 18th, 2015
Gene Model: September 18th, 2015
|
| 15 days ago | prh90 | protein phosphatase homolog90: | | GRMZM2G443509
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: October 25th, 2021
Gene Model: September 28th, 2016
|
| 15 days ago | prh6 | protein phosphatase homolog6: | | GRMZM2G308615
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: October 25th, 2021
Gene Model: October 18th, 2016
|
| 15 days ago | cyc11 | cyclin11: | | GRMZM2G161382
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: June 26th, 2009
Variation: May 2nd, 2021
Gene Model: December 21st, 2016
|
| 15 days ago | brc2 | brassinosteroid catabolism2: | | GRMZM2G047684
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | AT2G26710 (TAIR)
LOC_Os02g11020 (MSU/TIGR) | Reference: April 23rd, 2024
Gene Product: July 6th, 2017
Gene Model: July 6th, 2017
|
| 15 days ago | lox13 | lipoxygenase13: | | GRMZM5G822593
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: January 3rd, 2018
Gene Model: July 18th, 2017
|
| 15 days ago | yuc9 | yucca9: | | GRMZM2G333478
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: June 18th, 2018
Gene Model: August 19th, 2017
|
| 15 days ago | nut1 | necrotic upper tips1: | | GRMZM2G041668
| Fan, K et al. 2014. Molecular evolution and expansion analysis of the NAC transcription factor in Zea mays. PLoS One. 9:e111837. | AT1G12260 (TAIR)
LOC_Os06g01480 (MSU/TIGR) | Reference: April 23rd, 2024
Gene Product: July 8th, 2019
Variation: August 11th, 2020
Gene Model: November 15th, 2017
|
| 15 days ago | vq10 | VQ motif-transcription factor10: | | GRMZM2G118172
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: August 31st, 2019
Gene Model: August 31st, 2019
|
| 15 days ago | vq14 | VQ motif-transcription factor14: | | GRMZM2G369742
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: August 31st, 2019
Gene Model: August 31st, 2019
|
| 15 days ago | vq21 | VQ motif-transcription factor21: | | AC194056.3_FG008
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: August 31st, 2019
Gene Model: August 31st, 2019
|
| 15 days ago | vq29 | VQ motif-transcription factor29: | | AC207043.3_FG002
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: August 31st, 2019
Gene Model: August 31st, 2019
|
| 15 days ago | vq35 | VQ motif-transcription factor35: | | GRMZM2G099691
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: August 31st, 2019
Gene Model: August 31st, 2019
|
| 15 days ago | vq41 | VQ motif-transcription factor41: | | GRMZM2G316033
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: August 31st, 2019
Gene Model: August 31st, 2019
|
| 15 days ago | vq53 | VQ motif-transcription factor53: | | GRMZM2G333049
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: August 31st, 2019
Gene Model: August 31st, 2019
|
| 15 days ago | vq56 | VQ motif-transcription factor56: | | GRMZM2G129815
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: August 31st, 2019
Gene Model: August 31st, 2019
|
| 15 days ago | vq58 | VQ motif-transcription factor58: | | GRMZM2G180262
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: August 31st, 2019
Gene Model: August 31st, 2019
|
| 15 days ago | aas8 | auxin amido synthetase8: | | GRMZM2G053338
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: October 21st, 2019
Gene Model: October 21st, 2019
|
| 15 days ago | aas2 | auxin amido synthetase2: | | GRMZM2G378106
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: October 21st, 2019
Gene Model: October 21st, 2019
|
| 15 days ago | aas7 | auxin amido synthetase7: | | GRMZM2G033359
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: October 21st, 2019
Gene Model: October 21st, 2019
|
| 15 days ago | prh81 | protein phosphatase homolog81: | 5.04 | GRMZM2G360455
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: October 25th, 2021
Gene Model: August 28th, 2021
|
| 15 days ago | px16 | peroxidase16: | | GRMZM2G025441
| Ran Yang et al. 2024. ZmNAC17 Regulates Mesocotyl Elongation by Mediating Auxin and ROS Biosynthetic Pathways in Maize Int J Mol Sci. 25:4585. | | Reference: April 23rd, 2024
Gene Product: September 18th, 2015
Gene Model: July 9th, 2020
|
| 15 days ago | apx7 | ascorbate peroxidase7: | | GRMZM2G083128
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: October 15th, 2020
Gene Model: October 15th, 2020
|
| 15 days ago | px18 | peroxidase18: | | GRMZM2G108153
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: September 18th, 2015
Gene Model: November 23rd, 2020
|
| 15 days ago | px19 | peroxidase19: | | GRMZM2G107228
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: September 18th, 2015
Gene Model: January 18th, 2021
|
| 15 days ago | bsk2 | brassinosteroid-signaling kinase2: | | GRMZM2G169080
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: May 13th, 2014
Gene Model: April 20th, 2021
|
| 15 days ago | ebf2 | EIN3-binding F-box protein2: | | GRMZM2G069649
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: April 27th, 2022
Gene Model: June 25th, 2021
|
| 15 days ago | px21 | peroxidase21: | | AC205413.4_FG001
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: September 18th, 2015
Gene Model: September 8th, 2021
|
| 15 days ago | prh127 | protein phosphatase homolog127: | | GRMZM2G057907
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: October 25th, 2021
Gene Model: November 24th, 2021
|
| 15 days ago | saur8 | small auxin up RNA8: | | GRMZM2G033871
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: November 26th, 2021
Gene Model: November 26th, 2021
|
| 15 days ago | saur10 | small auxin up RNA10: | | GRMZM2G407969
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: November 26th, 2021
Gene Model: November 26th, 2021
|
| 15 days ago | saur11 | small auxin up RNA11: | | GRMZM2G146108
| Ran Yang et al. 2024. ZmNAC17 Regulates Mesocotyl Elongation by Mediating Auxin and ROS Biosynthetic Pathways in Maize Int J Mol Sci. 25:4585. | | Reference: April 23rd, 2024
Gene Product: November 26th, 2021
Gene Model: November 26th, 2021
|
| 15 days ago | saur36 | small auxin up RNA36: | | GRMZM2G107900
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: November 26th, 2021
Gene Model: November 26th, 2021
|
| 15 days ago | saur49 | small auxin up RNA49: | | GRMZM2G113135
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: November 26th, 2021
Gene Model: November 26th, 2021
|
| 15 days ago | saur54 | small auxin up RNA54: | | GRMZM2G312274
| Ran Yang et al. 2024. ZmNAC17 Regulates Mesocotyl Elongation by Mediating Auxin and ROS Biosynthetic Pathways in Maize Int J Mol Sci. 25:4585. | | Reference: April 23rd, 2024
Gene Product: November 26th, 2021
Gene Model: November 26th, 2021
|
| 15 days ago | saur55 | small auxin up RNA55: | | GRMZM2G391596
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: November 26th, 2021
Gene Model: November 26th, 2021
|
| 15 days ago | saur73 | small auxin up RNA73: | | GRMZM2G083980
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: November 26th, 2021
Gene Model: November 26th, 2021
|
| 15 days ago | px23 | peroxidase23: | | | Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | AT5G05340 (TAIR) | Reference: April 23rd, 2024
Gene Product: September 18th, 2015
|
| 15 days ago | prx12 | peroxidase12: | | GRMZM2G108207
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: September 18th, 2015
Gene Model: January 13th, 2022
|
| 15 days ago | xth5 | xyloglucan endo-transglycosylase/hydrolase5: | 5.03 | GRMZM2G413006
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: March 23rd, 2024
Gene Model: May 10th, 2020
|
| 15 days ago | crr9 | cytokinin response regulator9: | | GRMZM2G129954
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: June 30th, 2017
Gene Model: August 12th, 2022
|
| 15 days ago | pin2 | PIN-formed protein2: | 5.06 | GRMZM2G074267
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: April 21st, 2014
Variation: June 11th, 2007
Gene Model: June 7th, 2012
|
| 15 days ago | samt1 | S-adenosyl methionine transporter1: | 5.07 | GRMZM2G042027
| Junqiao Song et al. 2024. Exploiting genomic tools for genetic dissection and improving the resistance to Fusarium stalk rot in tropical maize. Theor Appl Genet. 137:109. | | Reference: April 23rd, 2024
Gene Product: June 6th, 2022
Gene Model: May 23rd, 2020
|
| 15 days ago | ebf1 | EIN3-binding F-box protein1: | 6.03 | GRMZM2G137582
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | AT2G25490 (TAIR)
LOC_Os06g40360 (MSU/TIGR) | Reference: April 23rd, 2024
Gene Product: April 27th, 2022
Gene Model: October 6th, 2016
|
| 15 days ago | pin1 | PIN-formed protein1: | 9.01 | GRMZM2G098643
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: April 21st, 2014
Variation: January 20th, 2015
Gene Model: January 24th, 2013
|
| 15 days ago | snrkII5 | SnRK2 serine threonine kinase5: | 10.07 | GRMZM2G110908
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: April 14th, 2018
Gene Model: February 11th, 2015
|
| 15 days ago | ein2 | ethylene insensitive 2: | 3.01 | GRMZM2G068217
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | AT5G03280 (TAIR) | Reference: April 23rd, 2024
Variation: March 6th, 2024
Gene Model: March 1st, 2015
|
| 15 days ago | nactf23 | NAC-transcription factor 23: | 8.08 | GRMZM2G068973
| Fan, K et al. 2014. Molecular evolution and expansion analysis of the NAC transcription factor in Zea mays. PLoS One. 9:e111837. | | Reference: April 23rd, 2024
Variation: March 31st, 2005
Gene Model: June 14th, 2019
|
| 15 days ago | cko2 | cytokinin oxidase 2: | 3.05 | GRMZM2G050997
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: July 19th, 2021
Variation: February 26th, 2008
Gene Model: March 21st, 2014
|
| 15 days ago | bx6 | benzoxazinone synthesis6: | 4.01 | | Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: June 20th, 2016
Variation: April 12th, 2019
|
| 15 days ago | px5 | peroxidase 5: | 6.05 | GRMZM2G450233
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: September 18th, 2015
Gene Model: December 30th, 2015
|
| 15 days ago | snrkII7 | SnRK2 serine threonine protein kinase7: | 2.04 | GRMZM2G155593
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: April 14th, 2018
Gene Model: February 11th, 2015
|
| 15 days ago | zim18 | ZIM-transcription factor 18: | 1.08 | GRMZM2G145412
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: February 24th, 2021
Gene Model: December 6th, 2016
|
| 15 days ago | ks3 | kaurene synthase3: | 2.02 | GRMZM2G093603
| Liu, LJ et al. 2024. Genome-wide identification of ZmMYC2 binding sites and target genes in maize BMC Genomics. 25:397. | | Reference: April 23rd, 2024
Gene Product: August 16th, 2012
Variation: July 22nd, 2023
Gene Model: August 15th, 2012
|
| 16 days ago | bif4 | barren inflorescence4: | | | Liu, JQ et al. 2024. Overexpression of the late embryonic genesis abundant protein MGL3 improves the drought tolerance of maize (Zea mays L.) Crop Sci. :doi: 10.1002/csc2.21246. | | Reference: April 22nd, 2024
Gene Product: October 16th, 2015
Variation: October 16th, 2015
|
| 16 days ago | wrky92 | WRKY-transcription factor 92: | | | Begcy, K et al. 2024. Maize stigmas react differently to self-/cross-pollination and fungal invasion bioRxiv preprint. :doi: 10.1101/2024.04.17.589941. | | Reference: April 22nd, 2024
Variation: February 7th, 2024
|
| 16 days ago | mlg3 | lea protein group3: | 6.07 | | Liu, JQ et al. 2024. Overexpression of the late embryonic genesis abundant protein MGL3 improves the drought tolerance of maize (Zea mays L.) Crop Sci. :doi: 10.1002/csc2.21246. | | Reference: April 22nd, 2024
Gene Product: September 1st, 2003
Variation: September 1st, 2003
|
| 16 days ago | ks2 | kaurene synthase2: | | GRMZM2G093526
| Begcy, K et al. 2024. Maize stigmas react differently to self-/cross-pollination and fungal invasion bioRxiv preprint. :doi: 10.1101/2024.04.17.589941. | | Reference: April 22nd, 2024
Gene Product: August 16th, 2012
Gene Model: October 27th, 2014
|
| 16 days ago | ks5 | kaurene synthase5: | | | Begcy, K et al. 2024. Maize stigmas react differently to self-/cross-pollination and fungal invasion bioRxiv preprint. :doi: 10.1101/2024.04.17.589941. | | Reference: April 22nd, 2024
Gene Product: August 16th, 2012
|
| 16 days ago | ko1 | kaurene oxidase1: | | GRMZM2G059308
| Begcy, K et al. 2024. Maize stigmas react differently to self-/cross-pollination and fungal invasion bioRxiv preprint. :doi: 10.1101/2024.04.17.589941. | | Reference: April 22nd, 2024
Gene Product: October 27th, 2014
Gene Model: October 27th, 2014
|
| 16 days ago | cyp30 | cytochrome P450 CYP71Z16: | | | Begcy, K et al. 2024. Maize stigmas react differently to self-/cross-pollination and fungal invasion bioRxiv preprint. :doi: 10.1101/2024.04.17.589941. | | Reference: April 22nd, 2024
Gene Product: December 30th, 2022
|
| 16 days ago | ers14 | ethylene receptor1-14: | 5.01 | GRMZM2G102601
| Liu, JQ et al. 2024. Overexpression of the late embryonic genesis abundant protein MGL3 improves the drought tolerance of maize (Zea mays L.) Crop Sci. :doi: 10.1002/csc2.21246. | | Reference: April 22nd, 2024
Variation: May 16th, 2014
Gene Model: December 28th, 2016
|
| 16 days ago | tps6 | terpene synthase6: | 10.03 | GRMZM2G127087
| Begcy, K et al. 2024. Maize stigmas react differently to self-/cross-pollination and fungal invasion bioRxiv preprint. :doi: 10.1101/2024.04.17.589941. | | Reference: April 22nd, 2024
Gene Product: September 3rd, 2008
Variation: May 28th, 2012
Gene Model: May 28th, 2012
|
| 17 days ago | snrk1a1 | SNF1-related kinase alpha1-like1: | 6.06 | GRMZM2G105401
| Lily Chen et al. 2024. Sugar sensing in C4 source leaves: a gap that needs to be filled. J Exp Bot. :doi: 10.1093/jxb/erae166. | | Reference: April 21st, 2024
Gene Product: December 4th, 2020
Gene Model: February 7th, 2018
|
| 18 days ago | lbd51 | LBD-transcription factor 51: | | | Hao, LD et al. 2024. Characterization and expression profiles of the ZmLBD gene family in Zea mays. Mol Biol Rep. 51:554. | | Reference: April 20th, 2024
Gene Product: July 28th, 2023
|
| 18 days ago | rtcs1 | rootless concerning crown and seminal roots1: | 1.02 | GRMZM2G092542
| Hao, LD et al. 2024. Characterization and expression profiles of the ZmLBD gene family in Zea mays. Mol Biol Rep. 51:554. | | Reference: April 20th, 2024
Gene Product: October 5th, 2009
Variation: October 5th, 2009
Gene Model: July 23rd, 2013
|
| 18 days ago | ial1 | ig1-as2 like1: | 8.06 | GRMZM2G133806
| Hao, LD et al. 2024. Characterization and expression profiles of the ZmLBD gene family in Zea mays. Mol Biol Rep. 51:554. | | Reference: April 20th, 2024
Gene Product: July 28th, 2023
Variation: October 1st, 2010
Gene Model: October 9th, 2015
|
| 18 days ago | ms1 | male sterile1: | 6.02 | | Hao, LD et al. 2024. Characterization and expression profiles of the ZmLBD gene family in Zea mays. Mol Biol Rep. 51:554. | | Reference: April 20th, 2024
Gene Product: July 28th, 2023
Variation: May 19th, 2006
|
| 18 days ago | ra2 | ramosa2: | 3.03 - 3.03 | AC233943.1_FG002
| Hao, LD et al. 2024. Characterization and expression profiles of the ZmLBD gene family in Zea mays. Mol Biol Rep. 51:554. | AT5G63090 (TAIR)
LOC_Os01g07480 (MSU/TIGR)
Os01g0169400 (Gramene) | Reference: April 20th, 2024
Gene Product: July 27th, 2009
Variation: September 19th, 2009
Gene Model: July 14th, 2011
|
| 18 days ago | lbd1 | LBD-transcription factor 1: | | | Hao, LD et al. 2024. Characterization and expression profiles of the ZmLBD gene family in Zea mays. Mol Biol Rep. 51:554. | | Reference: April 20th, 2024
Variation: March 18th, 2021
|
| 18 days ago | rtcl1 | RTCS-like1: | 9.07 | AC149818.2_FG009
| Hao, LD et al. 2024. Characterization and expression profiles of the ZmLBD gene family in Zea mays. Mol Biol Rep. 51:554. | | Reference: April 20th, 2024
Variation: January 20th, 2016
Gene Model: May 18th, 2012
|
| 19 days ago | rap2 | rap2.7 orthologue: | 8.06 | GRMZM2G700665
| Adak, A et al. 2024. Photoperiod associated late flowering reaction norm: Dissecting loci and genomic-enviromic associated prediction in maize Field Crop Res. 311:109380. | | Reference: April 19th, 2024
Gene Product: July 5th, 2019
Variation: July 24th, 2019
Gene Model: November 20th, 2012
|
| 19 days ago | pebp5 | phosphatidylethanolamine-binding protein: | | | Adak, A et al. 2024. Photoperiod associated late flowering reaction norm: Dissecting loci and genomic-enviromic associated prediction in maize Field Crop Res. 311:109380. | | Reference: April 19th, 2024
Gene Product: March 19th, 2024
Variation: January 31st, 2011
|
| 19 days ago | pebp8 | phosphatidylethanolamine-binding protein8: | | GRMZM2G179264
| Adak, A et al. 2024. Photoperiod associated late flowering reaction norm: Dissecting loci and genomic-enviromic associated prediction in maize Field Crop Res. 311:109380. | | Reference: April 19th, 2024
Gene Product: March 19th, 2024
Variation: June 19th, 2015
Gene Model: May 6th, 2011
|
| 19 days ago | pebp19 | phosphatidylethanolamine-binding protein: | | | Adak, A et al. 2024. Photoperiod associated late flowering reaction norm: Dissecting loci and genomic-enviromic associated prediction in maize Field Crop Res. 311:109380. | | Reference: April 19th, 2024
Gene Product: March 19th, 2024
Variation: December 15th, 2010
|
| 19 days ago | id1 | indeterminate growth1: | 1.08 | | Adak, A et al. 2024. Photoperiod associated late flowering reaction norm: Dissecting loci and genomic-enviromic associated prediction in maize Field Crop Res. 311:109380. | | Reference: April 19th, 2024
Gene Product: January 3rd, 2015
Variation: March 22nd, 2023
|
| 19 days ago | cct1 | CO CO-LIKE TIMING OF CAB1 protein domain1: | | GRMZM2G381691
| Adak, A et al. 2024. Photoperiod associated late flowering reaction norm: Dissecting loci and genomic-enviromic associated prediction in maize Field Crop Res. 311:109380. | AT5G24930 (TAIR)
LOC_Os07g15770 (MSU/TIGR)
Os07g0261200 (Gramene) | Reference: April 19th, 2024
Gene Product: June 18th, 2018
Variation: May 22nd, 2021
Gene Model: July 17th, 2012
|
| 19 days ago | ereb100 | AP2-EREBP-transcription factor 100: | | | Hongpeng Han et al. 2024. Function analysis of transcription factor OSR1 regulating osmotic stress resistance in maize Biochem Biophys Res Commun. :doi: 10.1016/j.bbrc.2024.149956. | | Reference: April 19th, 2024
Variation: April 19th, 2024
|
| 19 days ago | mads69 | MADS-transcription factor 69: | | | Adak, A et al. 2024. Photoperiod associated late flowering reaction norm: Dissecting loci and genomic-enviromic associated prediction in maize Field Crop Res. 311:109380. | | Reference: April 19th, 2024
Variation: October 5th, 2018
|
| 19 days ago | conz1 | constans1: | 9.03 | | Adak, A et al. 2024. Photoperiod associated late flowering reaction norm: Dissecting loci and genomic-enviromic associated prediction in maize Field Crop Res. 311:109380. | | Reference: April 19th, 2024
Gene Product: June 18th, 2018
Variation: July 28th, 2008
|
| 20 days ago | ubi1 | ubiquitin1: | | GRMZM2G409726
| Wang, X et al. 2024. Jasmonate mimic modulates cell elongation by regulating antagonistic bHLH transcription factors via brassinosteroid signaling Plant Physiol. :doi: 10.1093/plphys/kiae217. | | Reference: April 18th, 2024
Gene Product: September 1st, 2003
Variation: November 20th, 2014
Gene Model: November 18th, 2014
|
| 20 days ago | bhlh86 | bHLH-transcription factor 86: | 7.03 | GRMZM5G818643
| Wang, X et al. 2024. Jasmonate mimic modulates cell elongation by regulating antagonistic bHLH transcription factors via brassinosteroid signaling Plant Physiol. :doi: 10.1093/plphys/kiae217. | | Reference: April 18th, 2024
Variation: September 1st, 2003
Gene Model: September 2nd, 2018
|
| 20 days ago | bhlh3 | bHLH-transcription factor 3: | 1.03 | GRMZM2G180452
| Wang, X et al. 2024. Jasmonate mimic modulates cell elongation by regulating antagonistic bHLH transcription factors via brassinosteroid signaling Plant Physiol. :doi: 10.1093/plphys/kiae217. | | Reference: April 18th, 2024
Variation: January 31st, 2017
Gene Model: January 31st, 2017
|
| 20 days ago | myc7 | myc transcription factor7: | 1.05 | GRMZM2G001930
| Wang, X et al. 2024. Jasmonate mimic modulates cell elongation by regulating antagonistic bHLH transcription factors via brassinosteroid signaling Plant Physiol. :doi: 10.1093/plphys/kiae217. | | Reference: April 18th, 2024
Gene Product: September 14th, 2016
Variation: June 20th, 2022
Gene Model: July 28th, 2016
|
| 20 days ago | ibh1 | increased leaf inclination1-binding bhlh 1: | | GRMZM2G388823
| Wang, X et al. 2024. Jasmonate mimic modulates cell elongation by regulating antagonistic bHLH transcription factors via brassinosteroid signaling Plant Physiol. :doi: 10.1093/plphys/kiae217. | AT2G43060 (TAIR) | Reference: April 18th, 2024
Gene Product: September 14th, 2016
Variation: January 28th, 2020
Gene Model: January 28th, 2020
|
| 20 days ago | xth1 | xyloglucan endo-transglycosylase/hydrolase1: | 10.03 | GRMZM2G119783
| Wang, X et al. 2024. Jasmonate mimic modulates cell elongation by regulating antagonistic bHLH transcription factors via brassinosteroid signaling Plant Physiol. :doi: 10.1093/plphys/kiae217. | | Reference: April 18th, 2024
Gene Product: March 23rd, 2024
Variation: January 25th, 2015
Gene Model: September 5th, 2012
|
| 21 days ago | shki1 | shikimate kinase1: | | | Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | AT2G21940 (TAIR) | Reference: April 17th, 2024
Gene Product: January 2nd, 2023
|
| 21 days ago | skl1 | shikimate kinase-like1: | | | Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | AT3G26900 (TAIR) | Reference: April 17th, 2024
Gene Product: January 2nd, 2023
|
| 21 days ago | shki2 | shikimate kinase2: | | | Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | AT2G21940 (TAIR) | Reference: April 17th, 2024
Gene Product: January 2nd, 2023
|
| 21 days ago | adt3 | arogenate dehydratase3: | | | Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: March 4th, 2024
|
| 21 days ago | me10 | malic enzyme10: | | | Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: June 27th, 2019
|
| 21 days ago | gtr2 | glutamyl-tRNA reductase2: | | | Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: October 23rd, 2023
|
| 21 days ago | adt1 | arogenate dehydratase1: | | | Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: March 4th, 2024
|
| 21 days ago | adt5 | arogenate dehydratase5: | | | Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: March 4th, 2024
|
| 21 days ago | adt7 | arogenate dehydratase7: | | | Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: March 4th, 2024
|
| 21 days ago | Zm00001d053374 | : | | | Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: April 17th, 2024
|
| 21 days ago | LOC100274239 | : | | | Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: April 17th, 2024
|
| 21 days ago | gtr1 | glutamyl-tRNA reductase1: | 10.07 | | Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: October 23rd, 2023
Variation: October 23rd, 2023
|
| 21 days ago | mpec1 | magnesium-protoporphyrin ester cyclase1: | 8.01 | GRMZM2G081462
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | AT3G56940 (TAIR) | Reference: April 17th, 2024
Gene Product: July 7th, 2022
Variation: July 7th, 2022
Gene Model: September 13th, 2018
|
| 21 days ago | gln6 | glutamine synthetase6: | 1.02 - 1.03 | GRMZM2G050514
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: September 1st, 2003
Variation: December 7th, 2012
Gene Model: August 7th, 2014
|
| 21 days ago | arodh3 | arogenate dehydrogenase3: | 6.01 | | Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: July 7th, 2018
Variation: July 7th, 2018
|
| 21 days ago | pat38 | protein S-acyltransferase38: | 10.07 | GRMZM2G092571
| Lin, M et al. 2024. Integrative multi-omic analysis identifies genes associated with cuticular wax biogenesis in adult maize leaves bioRxiv preprint. :doi: 10.1101/2024.04.09.588685. | | Reference: April 17th, 2024
Gene Product: February 26th, 2022
Gene Model: July 21st, 2021
|
| 21 days ago | eps1 | enolpyruvylshikimate phosphate synthase1: | 9.07 | GRMZM5G877500
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: April 18th, 2020
Variation: November 15th, 2018
Gene Model: July 27th, 2016
|
| 21 days ago | bx1 | benzoxazinless1: | 4.00 | GRMZM2G085381
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: October 14th, 2011
Variation: April 12th, 2019
Gene Model: October 14th, 2011
|
| 21 days ago | gdh1 | glutamic dehydrogenase1: | 1.11 | | Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: September 1st, 2003
Variation: August 7th, 2006
|
| 21 days ago | got1 | glutamate-oxaloacetate transaminase1: | 3.02 | GRMZM2G094712
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: October 21st, 2021
Variation: September 1st, 2003
Gene Model: August 6th, 2014
|
| 21 days ago | got2 | glutamate-oxaloacetate transaminase2: | 5.08 | | Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: October 21st, 2021
Variation: September 1st, 2003
|
| 21 days ago | got3 | glutamate-oxaloacetic transaminase3: | 5.03 - 5.04 | GRMZM2G146677
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: October 21st, 2021
Variation: September 1st, 2003
Gene Model: July 30th, 2014
|
| 21 days ago | lls1 | lethal leaf spot1: | 1.01 | | Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: November 5th, 2014
Variation: March 18th, 2022
|
| 21 days ago | nec4 | necrotic4: | 2.02 | GRMZM5G870342
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: December 17th, 2014
Variation: January 31st, 2022
Gene Model: December 17th, 2014
|
| 21 days ago | orp1 | orange pericarp1: | 4.05 | | Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: September 1st, 2003
Variation: May 19th, 2006
|
| 21 days ago | orp2 | orange pericarp2: | 10.03 | | Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: September 1st, 2003
Variation: September 1st, 2003
|
| 21 days ago | pep1 | phosphoenolpyruvate carboxylase1: | 9.03 | | Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: September 1st, 2003
Variation: May 27th, 2020
|
| 21 days ago | pep3 | phosphoenolpyruvate carboxylase3: | 4.08 | GRMZM2G074122
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: September 1st, 2003
Variation: April 10th, 2015
Gene Model: August 13th, 2014
|
| 21 days ago | rf2 | restorer of fertility2: | 9.03 | | Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: September 1st, 2003
Variation: December 18th, 2006
|
| 21 days ago | sad1 | shikimate dehydrogenase1: | 10.03 - 10.04 | GRMZM2G014376
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: September 1st, 2003
Variation: January 24th, 2015
Gene Model: January 24th, 2015
|
| 21 days ago | ts2 | tassel seed2: | 1.03 | | Taikui Zhang et al. 2024. Phylogenomic profiles of whole-genome duplications in Poaceae and landscape of differential duplicate retention and losses among major Poaceae lineages Nat Commun. 15:3305. | | Reference: April 17th, 2024
Gene Product: September 1st, 2003
Variation: September 1st, 2003
|
| 21 days ago | me5 | malic enzyme5: | 6.05 | GRMZM5G886257
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: June 27th, 2019
Variation: August 16th, 2011
Gene Model: August 27th, 2018
|
| 21 days ago | fnr2 | ferredoxin NADP reductase2: | 7.01 | GRMZM2G011858
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: May 11th, 2021
Variation: October 9th, 2009
Gene Model: September 4th, 2018
|
| 21 days ago | psan1 | photosystem I N subunit1: | 3.05 | GRMZM2G080107
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: September 1st, 2003
Variation: May 12th, 2013
Gene Model: May 9th, 2013
|
| 21 days ago | psah1 | photosystem I H subunit1: | 6.07 | GRMZM2G451224
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: September 1st, 2003
Variation: May 7th, 2013
Gene Model: May 9th, 2013
|
| 21 days ago | cpx2 | coproporphyrinogen III oxidase2: | 10.06 | GRMZM2G032282
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: December 17th, 2014
Variation: September 22nd, 2011
Gene Model: September 22nd, 2011
|
| 21 days ago | les22 | lesion22: | 1.04 | GRMZM2G044074
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: September 1st, 2003
Variation: April 1st, 2015
Gene Model: August 16th, 2017
|
| 21 days ago | adc1 | arginine decarboxylase1: | 9.03 | GRMZM2G396553
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: August 18th, 2020
Variation: September 1st, 2003
Gene Model: March 7th, 2018
|
| 21 days ago | pal1 | phenylalanine ammonia lyase homolog1: | 5.05 | | Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: August 13th, 2022
Variation: September 24th, 2014
|
| 21 days ago | pal2 | phenylalanine ammonia lyase2: | 2.04 - 2.04 | GRMZM2G441347
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: September 1st, 2003
Variation: February 21st, 2017
Gene Model: February 21st, 2017
|
| 21 days ago | nnr2 | nitrate reductase2: | 5.07 | GRMZM5G878558
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: September 1st, 2003
Variation: October 26th, 2010
Gene Model: May 10th, 2018
|
| 21 days ago | nnr1 | nitrate reductase(NADH)1: | 4.05 | | Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: September 1st, 2003
Variation: October 26th, 2010
|
| 21 days ago | abi12 | ABI3-VP1-transcription factor 12: | | | Taikui Zhang et al. 2024. Phylogenomic profiles of whole-genome duplications in Poaceae and landscape of differential duplicate retention and losses among major Poaceae lineages Nat Commun. 15:3305. | | Reference: April 17th, 2024
Gene Product: January 29th, 2022
Variation: September 20th, 2019
|
| 21 days ago | mdh6 | malate dehydrogenase6: | 1.07 | GRMZM2G129513
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: September 23rd, 2014
Variation: August 31st, 2010
Gene Model: October 24th, 2013
|
| 21 days ago | me3 | NADP malic enzyme3: | 3.02 | | Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: June 27th, 2019
Variation: September 1st, 2003
|
| 21 days ago | pep4 | phosphoenolpyruvate carboxylase4: | 7.02 | | Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: September 1st, 2003
Variation: December 27th, 2010
|
| 21 days ago | dvr1 | divinyl reductase1: | | GRMZM2G063048
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: October 8th, 2014
Gene Model: October 8th, 2014
|
| 21 days ago | pal3 | phenylalanine ammonia lyase3: | 4.05 | GRMZM2G160541
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: September 1st, 2003
Variation: September 25th, 2014
Gene Model: September 19th, 2014
|
| 21 days ago | psan2 | photosystem I N subunit2: | 10.03 | GRMZM2G009048
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: September 1st, 2003
Gene Model: January 10th, 2018
|
| 21 days ago | me2 | NADP-dependent malic enzyme2: | 6.05 | GRMZM2G122479
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: June 27th, 2019
Variation: August 24th, 2014
Gene Model: August 21st, 2014
|
| 21 days ago | gln3 | glutamine synthetase3: | 9.06 | | Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: September 1st, 2003
Variation: December 7th, 2012
|
| 21 days ago | gln4 | glutamine synthetase4: | 5.06 | | Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: September 1st, 2003
Variation: September 1st, 2003
|
| 21 days ago | gln5 | glutamine synthetase5: | 4.06 | | Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: September 1st, 2003
Variation: May 30th, 2014
|
| 21 days ago | gln1 | glutamine synthetase1: | 10.07 | | Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: September 1st, 2003
Variation: September 1st, 2003
|
| 21 days ago | pep2 | phosphoenolpyruvate carboxylase2: | 5.04 | GRMZM2G069542
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: September 1st, 2003
Variation: October 1st, 2014
Gene Model: August 13th, 2014
|
| 21 days ago | ris2 | iron-sulfur protein2: | 4.09 | GRMZM2G162748
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: November 5th, 2014
Variation: November 1st, 2014
Gene Model: October 31st, 2014
|
| 21 days ago | ris1 | iron-sulfur protein1: | 5.04 | GRMZM2G162748
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: November 5th, 2014
Variation: October 31st, 2014
Gene Model: October 31st, 2014
|
| 21 days ago | nii2 | nitrite reductase2: | 4.07 | GRMZM2G079381
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: September 1st, 2003
Variation: September 1st, 2003
Gene Model: September 10th, 2014
|
| 21 days ago | fie1 | fertilization independent endosperm1: | 4.05 | | Taikui Zhang et al. 2024. Phylogenomic profiles of whole-genome duplications in Poaceae and landscape of differential duplicate retention and losses among major Poaceae lineages Nat Commun. 15:3305. | | Reference: April 17th, 2024
Gene Product: September 1st, 2003
Variation: December 4th, 2012
|
| 21 days ago | fie2 | fertilization independent endosperm2: | 10.03 | | Taikui Zhang et al. 2024. Phylogenomic profiles of whole-genome duplications in Poaceae and landscape of differential duplicate retention and losses among major Poaceae lineages Nat Commun. 15:3305. | | Reference: April 17th, 2024
Gene Product: September 1st, 2003
Variation: May 27th, 2014
|
| 21 days ago | asn1 | asparagine synthetase1: | 1.03 | GRMZM2G074589
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: February 1st, 2021
Variation: May 9th, 2009
Gene Model: December 30th, 2015
|
| 21 days ago | cmu1 | chorismate mutase1: | 8.08 | GRMZM2G116087
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: February 12th, 2014
Gene Model: February 12th, 2014
|
| 21 days ago | gl26 | glossy26: | 8.02 | GRMZM2G481843
| Lin, M et al. 2024. Integrative multi-omic analysis identifies genes associated with cuticular wax biogenesis in adult maize leaves bioRxiv preprint. :doi: 10.1101/2024.04.09.588685. | | Reference: April 17th, 2024
Gene Product: October 31st, 2018
Variation: October 31st, 2018
Gene Model: September 17th, 2018
|
| 21 days ago | adc2 | arginine decarboxylase2: | 4.06 | | Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: August 18th, 2020
Variation: January 22nd, 2021
|
| 21 days ago | cer8 | eceriferum8: | 10.03 | GRMZM2G101875
| Lin, M et al. 2024. Integrative multi-omic analysis identifies genes associated with cuticular wax biogenesis in adult maize leaves bioRxiv preprint. :doi: 10.1101/2024.04.09.588685. | AT2G47240 (TAIR) | Reference: April 17th, 2024
Gene Product: October 31st, 2018
Variation: October 31st, 2018
Gene Model: January 23rd, 2018
|
| 21 days ago | asn2 | asparagine synthetase2: | 3.09 | GRMZM2G093175
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: February 1st, 2021
Variation: December 30th, 2015
Gene Model: December 30th, 2015
|
| 21 days ago | asn3 | asparagine synthetase3: | 1.03 | GRMZM2G053669
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: February 1st, 2021
Variation: May 9th, 2009
Gene Model: October 16th, 2015
|
| 21 days ago | asn4 | asparagine synthetase4: | 9.06 | GRMZM2G078472
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: February 1st, 2021
Variation: November 16th, 2022
Gene Model: December 30th, 2015
|
| 21 days ago | algt1 | alanine--glyoxylate aminotransferase1: | 1.04 | GRMZM2G030571
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: July 25th, 2014
Gene Model: July 25th, 2014
|
| 21 days ago | got5 | glutamate-oxaloacetate transaminase5: | | GRMZM2G033799
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: October 21st, 2021
Gene Model: August 4th, 2014
|
| 21 days ago | got4 | glutamate-oxaloacetate transaminase4: | | GRMZM2G400604
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: October 21st, 2021
Variation: August 8th, 2014
Gene Model: August 5th, 2014
|
| 21 days ago | chph1 | chlorophyllase1: | | GRMZM2G170734
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: August 5th, 2016
Gene Model: October 4th, 2014
|
| 21 days ago | pdk3 | phosphoinositide dependent protein kinase3: | | GRMZM2G097821
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: September 1st, 2003
Variation: April 18th, 2015
Gene Model: April 18th, 2015
|
| 21 days ago | cyb6 | cytochrome b6: | | GRMZM2G463640
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: September 1st, 2003
Gene Model: April 18th, 2015
|
| 21 days ago | pdk4 | pyruvate, orthophosphate dikinase4: | | AC217975.3_FG001
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: July 28th, 2014
Gene Model: April 18th, 2015
|
| 21 days ago | adt6 | arogenate dehydratase6: | | GRMZM2G437912
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | AT1G08250 (TAIR) | Reference: April 17th, 2024
Gene Product: March 4th, 2024
Gene Model: March 24th, 2016
|
| 21 days ago | pal7 | phenylalanine ammonia lyase7: | | GRMZM2G170692
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: August 13th, 2022
Gene Model: May 6th, 2016
|
| 21 days ago | pal9 | phenylalanine ammonia lyase9: | | GRMZM2G029048
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: August 13th, 2022
Gene Model: May 6th, 2016
|
| 21 days ago | pal6 | phenylalanine ammonia lyase6: | | GRMZM2G118345
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: August 13th, 2022
Gene Model: May 6th, 2016
|
| 21 days ago | pal5 | phenylalanine ammonia lyase5: | | GRMZM2G081582
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: August 13th, 2022
Gene Model: May 6th, 2016
|
| 21 days ago | pal4 | phenylalanine ammonia lyase4: | | GRMZM2G063917
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: August 13th, 2022
Gene Model: May 6th, 2016
|
| 21 days ago | acs3 | 1-aminocyclopropane-1-carboxylate synthase3: | | GRMZM2G018006
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: May 16th, 2016
Gene Model: May 16th, 2016
|
| 21 days ago | chph2 | chlorophyllase2: | | GRMZM2G127421
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: August 5th, 2016
Variation: August 5th, 2016
Gene Model: August 5th, 2016
|
| 21 days ago | arodh1 | arogenate dehydrogenase1: | | GRMZM2G084942
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: July 7th, 2018
Variation: July 7th, 2018
Gene Model: October 4th, 2017
|
| 21 days ago | pcr2 | protochlorophyllide reductase2: | | GRMZM2G036455
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: June 8th, 2019
Gene Model: October 4th, 2017
|
| 21 days ago | pcr3 | protochlorophyllide reductase3: | | GRMZM2G073351
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: June 8th, 2019
Variation: June 8th, 2019
Gene Model: October 4th, 2017
|
| 21 days ago | chlg1 | chlorophyll synthase G1: | | GRMZM2G162672
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: January 8th, 2018
Gene Model: January 8th, 2018
|
| 21 days ago | nnr5 | nitrate reductase5: | | GRMZM2G428027
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: September 1st, 2003
Gene Model: May 10th, 2018
|
| 21 days ago | nnr4 | nitrate reductase4: | | GRMZM2G076723
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: September 1st, 2003
Variation: December 13th, 2021
Gene Model: May 10th, 2018
|
| 21 days ago | nii1 | nitrate reductase1: | | GRMZM2G102959
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: September 1st, 2003
Gene Model: May 10th, 2018
|
| 21 days ago | arodh2 | arogenate dehydrogenase2: | | GRMZM2G085117
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: July 7th, 2018
Gene Model: July 7th, 2018
|
| 21 days ago | arodh4 | arogenate dehydrogenase4: | | GRMZM2G324297
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: July 7th, 2018
Gene Model: July 7th, 2018
|
| 21 days ago | gl4b | 3-ketoacyl-CoA synthase gl4b: | | GRMZM2G478140
| Lin, M et al. 2024. Integrative multi-omic analysis identifies genes associated with cuticular wax biogenesis in adult maize leaves bioRxiv preprint. :doi: 10.1101/2024.04.09.588685. | | Reference: April 17th, 2024
Gene Product: November 1st, 2018
Gene Model: November 1st, 2018
|
| 21 days ago | cmu3 | chorismate mutase3: | | GRMZM2G028369
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: February 12th, 2014
Gene Model: January 21st, 2019
|
| 21 days ago | kcs22 | 3-ketoacyl-CoA synthase22: | | GRMZM2G168956
| Lin, M et al. 2024. Integrative multi-omic analysis identifies genes associated with cuticular wax biogenesis in adult maize leaves bioRxiv preprint. :doi: 10.1101/2024.04.09.588685. | | Reference: April 17th, 2024
Gene Product: November 1st, 2018
Gene Model: February 13th, 2020
|
| 21 days ago | ptox2 | plastid terminal oxidase2: | | GRMZM2G010555
| Nie, Y-X et al. 2024. The maize PLASTID TERMINAL OXIDASE (PTOX) locus controls the carotenoid content of kernels Plant J. 118(2) 457-468 | | Reference: April 17th, 2024
Gene Product: June 15th, 2023
Gene Model: April 27th, 2020
|
| 21 days ago | phao1 | pheophorbide a oxygenase1: | | GRMZM2G171390
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: August 26th, 2020
Gene Model: August 26th, 2020
|
| 21 days ago | chao1 | chlorophyllide a oxygenase1: | | GRMZM2G103197
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: February 12th, 2021
Gene Model: August 26th, 2020
|
| 21 days ago | cmu4 | chorismate mutase4: | | GRMZM2G124365
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: February 12th, 2014
Variation: January 22nd, 2021
Gene Model: January 21st, 2021
|
| 21 days ago | cold1 | cold rsponsive1: | | GRMZM2G129169
| Taikui Zhang et al. 2024. Phylogenomic profiles of whole-genome duplications in Poaceae and landscape of differential duplicate retention and losses among major Poaceae lineages Nat Commun. 15:3305. | | Reference: April 17th, 2024
Gene Product: April 15th, 2021
Variation: April 15th, 2021
Gene Model: April 15th, 2021
|
| 21 days ago | pet6 | photosynthetic electron transport6: | | GRMZM2G096792
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: May 11th, 2021
Gene Model: May 11th, 2021
|
| 21 days ago | pet9 | photosynthetic electron transport9: | | GRMZM2G016066
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: May 11th, 2021
Gene Model: May 11th, 2021
|
| 21 days ago | fnr3 | ferredoxin NADP reductase3: | | GRMZM2G168143
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: May 11th, 2021
Variation: July 15th, 2021
Gene Model: May 11th, 2021
|
| 21 days ago | fnr4 | ferredoxin NADP reductase4: | | GRMZM2G059083
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: May 11th, 2021
Gene Model: May 11th, 2021
|
| 21 days ago | d53 | dwarf ortholog53: | | GRMZM2G109674
| Taikui Zhang et al. 2024. Phylogenomic profiles of whole-genome duplications in Poaceae and landscape of differential duplicate retention and losses among major Poaceae lineages Nat Commun. 15:3305. | LOC_Os11g01330 (MSU/TIGR)
OS11G0104300 (Gramene) | Reference: April 17th, 2024
Gene Product: June 8th, 2021
Variation: December 27th, 2022
Gene Model: June 8th, 2021
|
| 21 days ago | sae2 | SUMO-activating enzyme2: | | GRMZM2G129575
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: November 26th, 2019
Gene Model: August 17th, 2021
|
| 21 days ago | krn2 | kernel row number2: | | GRMZM2G125656
| Taikui Zhang et al. 2024. Phylogenomic profiles of whole-genome duplications in Poaceae and landscape of differential duplicate retention and losses among major Poaceae lineages Nat Commun. 15:3305. | Os04g0568400 (Gramene) | Reference: April 17th, 2024
Gene Product: December 19th, 2020
Variation: March 24th, 2022
Gene Model: March 24th, 2022
|
| 21 days ago | mpec2 | magnesium-protoporphyrin ester cyclase2: | | GRMZM2G043109
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | AT3G56940 (TAIR) | Reference: April 17th, 2024
Gene Product: July 7th, 2022
Gene Model: July 7th, 2022
|
| 21 days ago | cmu2 | chorismate mutase2: | 5.04 | GRMZM2G179454
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: February 12th, 2014
Gene Model: February 12th, 2014
|
| 21 days ago | pep6 | phosphoenolpyruvate carboxylase6: | 8.08 | GRMZM2G110714
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: September 1st, 2003
Gene Model: June 15th, 2022
|
| 21 days ago | chao2 | chlorophyllide a oxygenase2: | 8.06 | GRMZM2G038487
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: February 12th, 2021
Variation: February 12th, 2021
Gene Model: September 2nd, 2019
|
| 21 days ago | adt4 | arogenate dehydratase4: | 9.06 | GRMZM2G145451
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: March 4th, 2024
Gene Model: June 26th, 2020
|
| 21 days ago | IDP628 | : | 5.03 | GRMZM2G156748
| Lin, M et al. 2024. Integrative multi-omic analysis identifies genes associated with cuticular wax biogenesis in adult maize leaves bioRxiv preprint. :doi: 10.1101/2024.04.09.588685. | | Reference: April 17th, 2024
Variation: March 31st, 2005
Gene Model: May 8th, 2020
|
| 21 days ago | odc1 | ornithine decarboxylase 1: | | GRMZM2G140824
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: March 19th, 2008
Variation: March 19th, 2008
Gene Model: August 18th, 2020
|
| 21 days ago | aldh2 | aldehyde dehydrogenase2: | 4.06 | GRMZM2G125268
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: September 1st, 2003
Variation: May 13th, 2009
Gene Model: September 30th, 2015
|
| 21 days ago | adt2 | arogenate dehydratase2: | 1.03 | GRMZM2G141273
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: March 4th, 2024
Variation: March 4th, 2024
Gene Model: February 6th, 2020
|
| 21 days ago | nyc1 | non-yellow coloring1: | 3.01 | GRMZM2G170013
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | AT4g13250 (TAIR)
LOC_Os01g12710 (MSU/TIGR)
Os01g0227100 (Gramene) | Reference: April 17th, 2024
Gene Product: December 15th, 2016
Variation: December 15th, 2016
Gene Model: December 15th, 2016
|
| 21 days ago | pet8 | photosynthetic electron transport8: | 10.02 | GRMZM2G016622
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: May 11th, 2021
Gene Model: June 13th, 2017
|
| 21 days ago | pcr1 | protochlorophyllide reductase1: | 2.01 | GRMZM2G084958
| Kretschmer , M et al. 2017. Chloroplast-associated metabolic functions influence the susceptibility of maize to Ustilago maydis. Mol Plant Pathol. 18:1210-1221. | | Reference: April 17th, 2024
Gene Product: June 8th, 2019
Variation: February 25th, 2013
Gene Model: October 8th, 2014
|
| 22 days ago | grp2 | glycine-rich protein2: | 10.03 | GRMZM2G009448
| Yingjie Zhang et al. 2024. Divergence in regulatory mechanisms of GR-RBP genes in different plants under abiotic stress Sci. Rep.. 14:8743. | | Reference: April 16th, 2024
Gene Product: September 18th, 2020
Variation: June 5th, 2014
Gene Model: May 27th, 2015
|
| 22 days ago | grp1 | glycine-rich protein1: | 1.08 | | Yingjie Zhang et al. 2024. Divergence in regulatory mechanisms of GR-RBP genes in different plants under abiotic stress Sci. Rep.. 14:8743. | | Reference: April 16th, 2024
Gene Product: September 18th, 2020
Variation: June 5th, 2014
|
| 22 days ago | rab15 | responsive to abscisic acid15: | 5.02 | | Yingjie Zhang et al. 2024. Divergence in regulatory mechanisms of GR-RBP genes in different plants under abiotic stress Sci. Rep.. 14:8743. | | Reference: April 16th, 2024
Gene Product: September 1st, 2003
Variation: September 1st, 2003
|
| 22 days ago | hma9 | heavy metal ATPase9: | | GRMZM2G151406
| Fan, CJ et al. 2024. Cu-II-directed self-assembly of fullerenols to ameliorate copper stress in maize seedlings Sci Total Environ. :doi: 10.1016/j.scitotenv.2024.172416. | | Reference: April 16th, 2024
Gene Product: October 23rd, 2019
Gene Model: October 23rd, 2019
|
| 22 days ago | hma10 | heavy metal ATPase10: | | GRMZM2G143512
| Fan, CJ et al. 2024. Cu-II-directed self-assembly of fullerenols to ameliorate copper stress in maize seedlings Sci Total Environ. :doi: 10.1016/j.scitotenv.2024.172416. | | Reference: April 16th, 2024
Gene Product: October 23rd, 2019
Gene Model: October 23rd, 2019
|
| 22 days ago | hma11 | heavy metal ATPase11: | | GRMZM2G010152
| Fan, CJ et al. 2024. Cu-II-directed self-assembly of fullerenols to ameliorate copper stress in maize seedlings Sci Total Environ. :doi: 10.1016/j.scitotenv.2024.172416. | | Reference: April 16th, 2024
Gene Product: October 23rd, 2019
Gene Model: October 23rd, 2019
|
| 22 days ago | orrm4 | organelle RRM protein4: | | GRMZM2G131167
| Yingjie Zhang et al. 2024. Divergence in regulatory mechanisms of GR-RBP genes in different plants under abiotic stress Sci. Rep.. 14:8743. | | Reference: April 16th, 2024
Gene Product: April 11th, 2013
Gene Model: July 27th, 2020
|
| 22 days ago | hma12 | heavy metal ATPase12: | | AC205008.4_FG002
| Fan, CJ et al. 2024. Cu-II-directed self-assembly of fullerenols to ameliorate copper stress in maize seedlings Sci Total Environ. :doi: 10.1016/j.scitotenv.2024.172416. | | Reference: April 16th, 2024
Gene Product: October 23rd, 2019
Gene Model: March 11th, 2022
|
| 23 days ago | Zm00001d017536 | : | | | Xiaowan Hou et al. 2024. Two maize homologs of mammalian proton-coupled folate transporter, ZmMFS_1-62 and ZmMFS_1-73, are essential to salt and drought tolerance Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2024.108623. | | Reference: April 15th, 2024
Gene Product: April 15th, 2024
|
| 23 days ago | Zm00001d034455 | : | | | Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Gene Product: August 21st, 2018
|
| 23 days ago | tst2 | tonoplast sugar transporter2: | 5.04 | | Xiaowan Hou et al. 2024. Two maize homologs of mammalian proton-coupled folate transporter, ZmMFS_1-62 and ZmMFS_1-73, are essential to salt and drought tolerance Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2024.108623. | | Reference: April 15th, 2024
Gene Product: October 28th, 2021
Variation: September 25th, 2007
|
| 23 days ago | akin2 | AKINbetagamma-1 protein kinase2: | 1.03 | | Yang, T et al. 2024. Sucrose-associated SnRK1a1-mediated phosphorylation of Opaque2 modulates endosperm filling in maize. Molecular Plant. | | Reference: April 15th, 2024
Gene Product: December 4th, 2020
Variation: September 25th, 2007
|
| 23 days ago | IDP5037 | : | 3.09 | | Xiaowan Hou et al. 2024. Two maize homologs of mammalian proton-coupled folate transporter, ZmMFS_1-62 and ZmMFS_1-73, are essential to salt and drought tolerance Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2024.108623. | | Reference: April 15th, 2024
Gene Product: September 1st, 2003
|
| 23 days ago | tom6 | transporter of mugineic acid6: | 3.09 | GRMZM2G075594
| Xiaowan Hou et al. 2024. Two maize homologs of mammalian proton-coupled folate transporter, ZmMFS_1-62 and ZmMFS_1-73, are essential to salt and drought tolerance Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2024.108623. | | Reference: April 15th, 2024
Gene Product: September 23rd, 2016
Gene Model: May 18th, 2021
|
| 23 days ago | tom1 | transporter of mugineic acid1: | 1.07 | GRMZM2G415785
| Xiaowan Hou et al. 2024. Two maize homologs of mammalian proton-coupled folate transporter, ZmMFS_1-62 and ZmMFS_1-73, are essential to salt and drought tolerance Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2024.108623. | | Reference: April 15th, 2024
Gene Product: September 23rd, 2016
Gene Model: April 16th, 2021
|
| 23 days ago | hex1 | hexokinase1: | 3.02 - 3.03 | GRMZM2G104081
| Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Gene Product: September 15th, 2013
Variation: February 15th, 2010
Gene Model: September 15th, 2013
|
| 23 days ago | mch2 | maize CRY1 homolog2: | | GRMZM2G069762
| Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Gene Product: September 1st, 2003
Variation: October 14th, 2010
Gene Model: July 28th, 2016
|
| 23 days ago | mn2 | miniature seed2: | 7.02 - 7.06 | GRMZM2G156794
| Xiaowan Hou et al. 2024. Two maize homologs of mammalian proton-coupled folate transporter, ZmMFS_1-62 and ZmMFS_1-73, are essential to salt and drought tolerance Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2024.108623. | | Reference: April 15th, 2024
Gene Product: September 1st, 2003
Variation: December 14th, 2023
Gene Model: June 29th, 2020
|
| 23 days ago | o2 | opaque endosperm2: | 7.01 | | Yang, T et al. 2024. Sucrose-associated SnRK1a1-mediated phosphorylation of Opaque2 modulates endosperm filling in maize. Molecular Plant. | | Reference: April 15th, 2024
Gene Product: September 1st, 2003
Variation: June 6th, 2016
|
| 23 days ago | ys3 | yellow stripe3: | 3.04 | GRMZM2G063306
| Xiaowan Hou et al. 2024. Two maize homologs of mammalian proton-coupled folate transporter, ZmMFS_1-62 and ZmMFS_1-73, are essential to salt and drought tolerance Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2024.108623. | LOC_Os11g04020 (MSU/TIGR)
Os11g0134900 (Gramene) | Reference: April 15th, 2024
Gene Product: September 23rd, 2016
Variation: March 9th, 2018
Gene Model: March 9th, 2018
|
| 23 days ago | umc1214 | : | 7.04 | GRMZM2G167932
| Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Variation: September 11th, 2018
Gene Model: September 11th, 2018
|
| 23 days ago | rpl15a | 60S ribosomal protein L15: | 2.08 | GRMZM2G034794
| Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Gene Product: September 1st, 2003
Variation: June 3rd, 2013
Gene Model: August 18th, 2021
|
| 23 days ago | tom7 | transporter of mugineic acid7: | 2.05 | GRMZM2G115658
| Xiaowan Hou et al. 2024. Two maize homologs of mammalian proton-coupled folate transporter, ZmMFS_1-62 and ZmMFS_1-73, are essential to salt and drought tolerance Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2024.108623. | | Reference: April 15th, 2024
Gene Product: September 23rd, 2016
Variation: September 1st, 2003
Gene Model: February 15th, 2018
|
| 23 days ago | mybr71 | MYB-related-transcription factor 71: | 10.07 | GRMZM2G448104
| Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Variation: March 5th, 2024
Gene Model: January 18th, 2018
|
| 23 days ago | rps3 | ribosomal protein S3: | 10.03 | GRMZM2G099352
| Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Gene Product: September 1st, 2003
Variation: October 9th, 2015
Gene Model: October 9th, 2015
|
| 23 days ago | rps22a | ribosomal protein S22 homolog: | 9.06 | GRMZM2G067303
| Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Gene Product: September 1st, 2003
Variation: July 3rd, 2013
Gene Model: July 28th, 2016
|
| 23 days ago | rps11 | ribosomal protein S11: | 10.06 | GRMZM2G019325
| Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Gene Product: September 1st, 2003
Variation: January 24th, 2015
Gene Model: August 7th, 2014
|
| 23 days ago | ohp1 | opaque2 heterodimerizing protein1: | 1.11 | | Yang, T et al. 2024. Sucrose-associated SnRK1a1-mediated phosphorylation of Opaque2 modulates endosperm filling in maize. Molecular Plant. | | Reference: April 15th, 2024
Gene Product: September 1st, 2003
Variation: February 2nd, 2015
|
| 23 days ago | tst3 | tonoplast sugar transporter3: | 5.03 | GRMZM2G040871
| Xiaowan Hou et al. 2024. Two maize homologs of mammalian proton-coupled folate transporter, ZmMFS_1-62 and ZmMFS_1-73, are essential to salt and drought tolerance Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2024.108623. | | Reference: April 15th, 2024
Gene Product: October 28th, 2021
Gene Model: June 26th, 2018
|
| 23 days ago | ereb160 | AP2-EREBP-transcription factor 160: | 9.01 | GRMZM2G171179
| Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Variation: September 1st, 2003
Gene Model: September 25th, 2015
|
| 23 days ago | abi22 | ABI3-VP1-transcription factor 22: | | | Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Gene Product: January 29th, 2022
Variation: August 19th, 2015
|
| 23 days ago | bzr4 | BZR-transcription factor 4: | | | Song, LL et al. 2021. 3 Biotech 11:441 | AT2G45880 (TAIR) | Reference: April 15th, 2024
Gene Product: May 4th, 2022
|
| 23 days ago | e2f19 | E2F-DP-transcription factor 219: | | | Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Variation: March 24th, 2021
|
| 23 days ago | hsftf16 | HSF-transcription factor 16: | | | Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Gene Product: May 15th, 2020
|
| 23 days ago | thx16 | Trihelix-transcription factor 16: | | | Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Gene Product: November 9th, 2021
|
| 23 days ago | bhlh90 | bHLH-transcription factor 90: | | | Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Variation: July 7th, 2021
|
| 23 days ago | bzip100 | bZIP-transcription factor 100: | | | Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Gene Product: August 21st, 2018
|
| 23 days ago | arpp3 | acidic ribosomal protein P3: | 5.03 | GRMZM2G077208
| Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Gene Product: September 1st, 2003
Variation: April 23rd, 2012
Gene Model: August 28th, 2015
|
| 23 days ago | glct1 | glucose translocator1: | 8.02 | GRMZM2G153704
| Xiaowan Hou et al. 2024. Two maize homologs of mammalian proton-coupled folate transporter, ZmMFS_1-62 and ZmMFS_1-73, are essential to salt and drought tolerance Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2024.108623. | | Reference: April 15th, 2024
Gene Product: November 21st, 2023
Variation: May 30th, 2014
Gene Model: August 23rd, 2014
|
| 23 days ago | bnl3.04 | : | 10.00 | GRMZM2G127393
| Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Variation: September 1st, 2003
Gene Model: October 20th, 2018
|
| 23 days ago | umc62 | : | 6.07 | GRMZM2G022453
| Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Variation: August 29th, 2018
Gene Model: August 29th, 2018
|
| 23 days ago | mek1 | MEK homolog1: | 3.07 | GRMZM2G167856
| Azrai, M et al. 2024. SSRN doi: 10.2139/ssrn.4789824 | | Reference: April 15th, 2024
Gene Product: July 10th, 2013
Variation: January 11th, 2013
Gene Model: July 12th, 2013
|
| 23 days ago | stp1 | sugar transport1: | 8.03 | | Xiaowan Hou et al. 2024. Two maize homologs of mammalian proton-coupled folate transporter, ZmMFS_1-62 and ZmMFS_1-73, are essential to salt and drought tolerance Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2024.108623. | | Reference: April 15th, 2024
Gene Product: January 2nd, 2023
Variation: August 26th, 2015
|
| 23 days ago | mta1 | mouse transplantation antigen homolog1: | 1.10 | | Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Gene Product: January 13th, 2020
Variation: January 26th, 2011
|
| 23 days ago | nrt2 | nitrate transport2: | 4.11 | GRMZM2G010280
| Xiaowan Hou et al. 2024. Two maize homologs of mammalian proton-coupled folate transporter, ZmMFS_1-62 and ZmMFS_1-73, are essential to salt and drought tolerance Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2024.108623. | | Reference: April 15th, 2024
Gene Product: September 1st, 2003
Variation: January 17th, 2023
Gene Model: May 9th, 2018
|
| 23 days ago | o18 | opaque18: | 5.05 - 5.09 | GRMZM2G105466
| Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Gene Product: April 15th, 2022
Variation: April 15th, 2022
Gene Model: April 15th, 2022
|
| 23 days ago | mta2 | mouse transplantation antigen homolog2: | | GRMZM2G072315
| Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Gene Product: January 13th, 2020
Gene Model: January 12th, 2020
|
| 23 days ago | rpl17a | ribosomal protein L17a: | 8.03 | GRMZM2G119169
| Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Gene Product: September 1st, 2003
Variation: June 7th, 2013
Gene Model: August 7th, 2014
|
| 23 days ago | rps24 | ribosomal protein S24: | 5.04 | GRMZM2G091383
| Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Gene Product: September 1st, 2003
Variation: June 11th, 2015
Gene Model: April 15th, 2015
|
| 23 days ago | rpl30 | ribosomal protein L30: | 8.01 | GRMZM2G027728
| Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Gene Product: September 1st, 2003
Variation: September 1st, 2003
Gene Model: July 28th, 2016
|
| 23 days ago | arpp2a | acidic ribosomal protein P2a: | 8.03 | | Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Gene Product: September 1st, 2003
Variation: January 28th, 2009
|
| 23 days ago | thi1 | thiamine biosynthesis1: | 8.05 | GRMZM2G018375
| Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Gene Product: February 1st, 2013
Variation: January 15th, 2015
Gene Model: January 31st, 2013
|
| 23 days ago | AY109968 | : | 7.02 | GRMZM2G450488
| Xiaowan Hou et al. 2024. Two maize homologs of mammalian proton-coupled folate transporter, ZmMFS_1-62 and ZmMFS_1-73, are essential to salt and drought tolerance Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2024.108623. | | Reference: April 15th, 2024
Variation: September 25th, 2007
Gene Model: September 6th, 2018
|
| 23 days ago | amt5 | ammonium transporter5: | 10.04 | GRMZM2G164743
| Xiaowan Hou et al. 2024. Two maize homologs of mammalian proton-coupled folate transporter, ZmMFS_1-62 and ZmMFS_1-73, are essential to salt and drought tolerance Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2024.108623. | | Reference: April 15th, 2024
Gene Product: July 8th, 2013
Gene Model: December 29th, 2017
|
| 23 days ago | chb101a | chromatin remodeling complex subunit B (Swi3): | 5.01 | GRMZM5G878347
| Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Variation: September 1st, 2003
Gene Model: June 30th, 2018
|
| 23 days ago | pco098394 | : | 1.01 | | Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Variation: September 25th, 2007
|
| 23 days ago | stp8 | sugar transport protein8: | 2.08 | GRMZM2G159187
| Xiaowan Hou et al. 2024. Two maize homologs of mammalian proton-coupled folate transporter, ZmMFS_1-62 and ZmMFS_1-73, are essential to salt and drought tolerance Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2024.108623. | | Reference: April 15th, 2024
Gene Product: January 2nd, 2023
Gene Model: December 6th, 2021
|
| 23 days ago | pco128954a | : | 2.06 | GRMZM2G139900
| Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Variation: September 25th, 2007
Gene Model: August 13th, 2021
|
| 23 days ago | arftf12 | ARF-transcription factor 12: | 3.08 | GRMZM2G437460
| Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Gene Product: January 29th, 2022
Variation: February 14th, 2022
Gene Model: July 7th, 2017
|
| 23 days ago | rps25 | ribosomal protein S25: | 4.08 | GRMZM2G084868
| Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Variation: April 14th, 2015
Gene Model: April 15th, 2015
|
| 23 days ago | sut2 | sucrose transporter2: | 3.04 | GRMZM2G307561
| Xiaowan Hou et al. 2024. Two maize homologs of mammalian proton-coupled folate transporter, ZmMFS_1-62 and ZmMFS_1-73, are essential to salt and drought tolerance Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2024.108623. | | Reference: April 15th, 2024
Gene Product: September 14th, 2013
Variation: February 20th, 2017
Gene Model: April 17th, 2013
|
| 23 days ago | pht2 | phosphate transporter protein2: | 1.08 | GRMZM2G154090
| Xiaowan Hou et al. 2024. Two maize homologs of mammalian proton-coupled folate transporter, ZmMFS_1-62 and ZmMFS_1-73, are essential to salt and drought tolerance Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2024.108623. | | Reference: April 15th, 2024
Gene Product: June 16th, 2016
Variation: February 4th, 2011
Gene Model: May 27th, 2015
|
| 23 days ago | pht3 | phosphate transporter protein3: | | GRMZM2G045473
| Xiaowan Hou et al. 2024. Two maize homologs of mammalian proton-coupled folate transporter, ZmMFS_1-62 and ZmMFS_1-73, are essential to salt and drought tolerance Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2024.108623. | | Reference: April 15th, 2024
Gene Product: June 16th, 2016
Variation: December 28th, 2010
Gene Model: May 27th, 2015
|
| 23 days ago | pht4 | phosphate transporter protein4: | 10.04 | GRMZM2G159075
| Xiaowan Hou et al. 2024. Two maize homologs of mammalian proton-coupled folate transporter, ZmMFS_1-62 and ZmMFS_1-73, are essential to salt and drought tolerance Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2024.108623. | | Reference: April 15th, 2024
Gene Product: June 16th, 2016
Variation: July 14th, 2008
Gene Model: May 27th, 2015
|
| 23 days ago | mstr1 | monosaccharide transporter1: | 7.00 | GRMZM2G135739
| Xiaowan Hou et al. 2024. Two maize homologs of mammalian proton-coupled folate transporter, ZmMFS_1-62 and ZmMFS_1-73, are essential to salt and drought tolerance Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2024.108623. | | Reference: April 15th, 2024
Gene Product: January 2nd, 2023
Variation: July 14th, 2008
Gene Model: September 17th, 2015
|
| 23 days ago | mstr2 | monosaccharide transporter2: | 4.04 | GRMZM2G141034
| Xiaowan Hou et al. 2024. Two maize homologs of mammalian proton-coupled folate transporter, ZmMFS_1-62 and ZmMFS_1-73, are essential to salt and drought tolerance Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2024.108623. | | Reference: April 15th, 2024
Gene Product: January 2nd, 2023
Variation: October 19th, 2010
Gene Model: September 17th, 2015
|
| 23 days ago | arpp2a-3 | acidic ribosomal protein P2a-3: | 2.01 | GRMZM2G010257
| Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Variation: December 23rd, 2015
Gene Model: August 28th, 2015
|
| 23 days ago | arpp1a | acidic ribosomal protein P1a: | 6.00 | | Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Gene Product: September 1st, 2003
Variation: January 28th, 2009
|
| 23 days ago | arpp0 | 60S acidic ribosomal protein P0: | 6.01 | GRMZM2G066460
| Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Variation: January 6th, 2016
Gene Model: August 28th, 2015
|
| 23 days ago | mfsd1 | major facilitator superfamily defense1: | | GRMZM2G161310
| Xiaowan Hou et al. 2024. Two maize homologs of mammalian proton-coupled folate transporter, ZmMFS_1-62 and ZmMFS_1-73, are essential to salt and drought tolerance Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2024.108623. | | Reference: April 15th, 2024
Gene Product: September 23rd, 2016
Variation: May 9th, 2009
Gene Model: December 29th, 2015
|
| 23 days ago | mfsd2 | major facilitator superfamily defense2: | | GRMZM5G877788
| Xiaowan Hou et al. 2024. Two maize homologs of mammalian proton-coupled folate transporter, ZmMFS_1-62 and ZmMFS_1-73, are essential to salt and drought tolerance Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2024.108623. | | Reference: April 15th, 2024
Gene Product: September 23rd, 2016
Variation: October 16th, 2010
Gene Model: December 30th, 2015
|
| 23 days ago | frk1 | fructokinase1: | 3.05 | GRMZM2G086845
| Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Variation: May 1st, 2010
Gene Model: July 27th, 2016
|
| 23 days ago | mch3 | maize CRY1 homolog3: | | GRMZM2G100462
| Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Variation: October 14th, 2010
Gene Model: August 23rd, 2018
|
| 23 days ago | pht7 | phosphate transporter protein7: | | GRMZM2G112377
| Xiaowan Hou et al. 2024. Two maize homologs of mammalian proton-coupled folate transporter, ZmMFS_1-62 and ZmMFS_1-73, are essential to salt and drought tolerance Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2024.108623. | | Reference: April 15th, 2024
Gene Product: June 16th, 2016
Variation: February 4th, 2011
Gene Model: May 27th, 2015
|
| 23 days ago | pht6 | phosphate transporter protein6: | | GRMZM5G881088
| Xiaowan Hou et al. 2024. Two maize homologs of mammalian proton-coupled folate transporter, ZmMFS_1-62 and ZmMFS_1-73, are essential to salt and drought tolerance Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2024.108623. | | Reference: April 15th, 2024
Gene Product: June 16th, 2016
Variation: June 17th, 2020
Gene Model: May 27th, 2015
|
| 23 days ago | rpl5b | 60S ribosomal protein L5-1 homolog b: | | GRMZM2G163081
| Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Gene Product: December 1st, 2019
Variation: April 9th, 2011
Gene Model: July 28th, 2016
|
| 23 days ago | rpl17b | ribosomal protein L17b: | | GRMZM2G702426
| Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Variation: June 7th, 2013
Gene Model: August 7th, 2014
|
| 23 days ago | trpp1 | trehalose-6-phosphate phosphatase1: | | GRMZM2G347280
| Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Gene Product: October 3rd, 2020
Gene Model: September 15th, 2013
|
| 23 days ago | trpp9 | trehalose-6-phosphate phosphatase9: | | GRMZM5G840145
| Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Gene Product: October 3rd, 2020
Gene Model: September 15th, 2013
|
| 23 days ago | snrk1a2 | SNF1-related kinase alpha1-like2: | | GRMZM2G180704
| Yang, T et al. 2024. Sucrose-associated SnRK1a1-mediated phosphorylation of Opaque2 modulates endosperm filling in maize. Molecular Plant. | | Reference: April 15th, 2024
Gene Product: December 4th, 2020
Gene Model: February 13th, 2014
|
| 23 days ago | nrt1 | nitrate transport1: | | GRMZM2G010251
| Xiaowan Hou et al. 2024. Two maize homologs of mammalian proton-coupled folate transporter, ZmMFS_1-62 and ZmMFS_1-73, are essential to salt and drought tolerance Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2024.108623. | | Reference: April 15th, 2024
Gene Product: September 1st, 2003
Gene Model: September 10th, 2014
|
| 23 days ago | nrt3 | nitrate transport3: | | GRMZM2G163866
| Xiaowan Hou et al. 2024. Two maize homologs of mammalian proton-coupled folate transporter, ZmMFS_1-62 and ZmMFS_1-73, are essential to salt and drought tolerance Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2024.108623. | | Reference: April 15th, 2024
Gene Product: September 1st, 2003
Gene Model: September 10th, 2014
|
| 23 days ago | pco072913 | : | 4.08 | GRMZM2G177720
| Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Variation: September 25th, 2007
Gene Model: April 25th, 2020
|
| 23 days ago | rpl39 | ribosomal protein L39: | | GRMZM2G100467
| Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Gene Product: September 1st, 2003
Variation: January 13th, 2015
Gene Model: January 13th, 2015
|
| 23 days ago | sut6 | sucrose transporter6: | | GRMZM2G106741
| Xiaowan Hou et al. 2024. Two maize homologs of mammalian proton-coupled folate transporter, ZmMFS_1-62 and ZmMFS_1-73, are essential to salt and drought tolerance Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2024.108623. | | Reference: April 15th, 2024
Gene Product: September 14th, 2013
Variation: April 13th, 2017
Gene Model: November 3rd, 2015
|
| 23 days ago | ss4 | starch synthase4: | | GRMZM2G044744
| Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Gene Product: October 14th, 2016
Gene Model: December 5th, 2015
|
| 23 days ago | pht11 | phosphate transporter protein11: | | GRMZM2G139639
| Xiaowan Hou et al. 2024. Two maize homologs of mammalian proton-coupled folate transporter, ZmMFS_1-62 and ZmMFS_1-73, are essential to salt and drought tolerance Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2024.108623. | | Reference: April 15th, 2024
Gene Product: June 16th, 2016
Gene Model: June 16th, 2016
|
| 23 days ago | pht12 | phosphate transporter protein12: | | GRMZM2G041595
| Xiaowan Hou et al. 2024. Two maize homologs of mammalian proton-coupled folate transporter, ZmMFS_1-62 and ZmMFS_1-73, are essential to salt and drought tolerance Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2024.108623. | | Reference: April 15th, 2024
Gene Product: June 16th, 2016
Gene Model: September 12th, 2018
|
| 23 days ago | pht10 | phosphate transporter protein10: | | GRMZM2G075870
| Xiaowan Hou et al. 2024. Two maize homologs of mammalian proton-coupled folate transporter, ZmMFS_1-62 and ZmMFS_1-73, are essential to salt and drought tolerance Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2024.108623. | | Reference: April 15th, 2024
Gene Product: June 16th, 2016
Gene Model: June 16th, 2016
|
| 23 days ago | pht13 | phosphate transporter protein13: | | GRMZM2G170208
| Xiaowan Hou et al. 2024. Two maize homologs of mammalian proton-coupled folate transporter, ZmMFS_1-62 and ZmMFS_1-73, are essential to salt and drought tolerance Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2024.108623. | | Reference: April 15th, 2024
Gene Product: June 16th, 2016
Gene Model: June 16th, 2016
|
| 23 days ago | pht8 | phosphate transporter protein8: | | GRMZM2G009779
| Xiaowan Hou et al. 2024. Two maize homologs of mammalian proton-coupled folate transporter, ZmMFS_1-62 and ZmMFS_1-73, are essential to salt and drought tolerance Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2024.108623. | | Reference: April 15th, 2024
Gene Product: June 16th, 2016
Gene Model: June 16th, 2016
|
| 23 days ago | pht9 | phosphate transporter protein9: | | GRMZM2G070087
| Xiaowan Hou et al. 2024. Two maize homologs of mammalian proton-coupled folate transporter, ZmMFS_1-62 and ZmMFS_1-73, are essential to salt and drought tolerance Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2024.108623. | | Reference: April 15th, 2024
Gene Product: June 16th, 2016
Gene Model: June 16th, 2016
|
| 23 days ago | ftfh1 | flavonoid 3',5'-hydroxylase1: | | | Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Gene Product: June 20th, 2018
|
| 23 days ago | spx1 | SPX domain-containing membrane protein1: | | GRMZM2G166976
| Xiaowan Hou et al. 2024. Two maize homologs of mammalian proton-coupled folate transporter, ZmMFS_1-62 and ZmMFS_1-73, are essential to salt and drought tolerance Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2024.108623. | | Reference: April 15th, 2024
Gene Product: October 9th, 2021
Gene Model: November 21st, 2018
|
| 23 days ago | nrt5 | nitrate transport5: | | GRMZM2G455124
| Xiaowan Hou et al. 2024. Two maize homologs of mammalian proton-coupled folate transporter, ZmMFS_1-62 and ZmMFS_1-73, are essential to salt and drought tolerance Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2024.108623. | | Reference: April 15th, 2024
Gene Product: September 1st, 2003
Gene Model: May 21st, 2019
|
| 23 days ago | tom2 | transporter of mugineic acid2: | | GRMZM2G336448
| Xiaowan Hou et al. 2024. Two maize homologs of mammalian proton-coupled folate transporter, ZmMFS_1-62 and ZmMFS_1-73, are essential to salt and drought tolerance Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2024.108623. | | Reference: April 15th, 2024
Gene Product: September 23rd, 2016
Gene Model: May 23rd, 2020
|
| 23 days ago | sus6 | sucrose synthase6: | | GRMZM2G045171
| Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Gene Product: October 25th, 2006
Gene Model: July 13th, 2020
|
| 23 days ago | bbc1 | breast basic conserved homolog1: | | GRMZM2G145280
| Song, LL et al. 2021. 3 Biotech 11:441 | AT3G49010 (TAIR) | Reference: April 15th, 2024
Gene Product: January 13th, 2020
Gene Model: July 18th, 2020
|
| 23 days ago | rps6b | ribosomal proteinS6b: | | GRMZM5G851698
| Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Gene Product: September 1st, 2003
Gene Model: September 17th, 2020
|
| 23 days ago | stp4 | sugar transport protein4: | | GRMZM5G801949
| Xiaowan Hou et al. 2024. Two maize homologs of mammalian proton-coupled folate transporter, ZmMFS_1-62 and ZmMFS_1-73, are essential to salt and drought tolerance Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2024.108623. | | Reference: April 15th, 2024
Gene Product: January 2nd, 2023
Gene Model: October 20th, 2020
|
| 23 days ago | tom4 | transporter of mugineic acid4: | | GRMZM2G029219
| Xiaowan Hou et al. 2024. Two maize homologs of mammalian proton-coupled folate transporter, ZmMFS_1-62 and ZmMFS_1-73, are essential to salt and drought tolerance Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2024.108623. | | Reference: April 15th, 2024
Gene Product: September 23rd, 2016
Gene Model: October 20th, 2020
|
| 23 days ago | stp3 | sugar transport protein3: | | GRMZM2G374812
| Xiaowan Hou et al. 2024. Two maize homologs of mammalian proton-coupled folate transporter, ZmMFS_1-62 and ZmMFS_1-73, are essential to salt and drought tolerance Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2024.108623. | | Reference: April 15th, 2024
Gene Product: January 2nd, 2023
Gene Model: January 8th, 2021
|
| 23 days ago | stp5 | sugar transport protein5: | | AC210616.4_FG003
| Xiaowan Hou et al. 2024. Two maize homologs of mammalian proton-coupled folate transporter, ZmMFS_1-62 and ZmMFS_1-73, are essential to salt and drought tolerance Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2024.108623. | | Reference: April 15th, 2024
Gene Product: January 2nd, 2023
Gene Model: July 8th, 2021
|
| 23 days ago | rpl15c | 60S ribosomal protein L15: | | GRMZM2G024354
| Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Gene Product: September 1st, 2003
Gene Model: August 18th, 2021
|
| 23 days ago | rps21d | 40S ribosomal protein S21d: | | GRMZM2G125300
| Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Gene Product: September 1st, 2003
Gene Model: August 18th, 2021
|
| 23 days ago | rpl14b | 60S ribosomal protein L14: | | GRMZM2G028883
| Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Gene Product: August 18th, 2021
Gene Model: August 18th, 2021
|
| 23 days ago | spx8 | SPX domain-containing membrane protein8: | | GRMZM2G086430
| Xiaowan Hou et al. 2024. Two maize homologs of mammalian proton-coupled folate transporter, ZmMFS_1-62 and ZmMFS_1-73, are essential to salt and drought tolerance Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2024.108623. | | Reference: April 15th, 2024
Gene Product: October 9th, 2021
Gene Model: October 9th, 2021
|
| 23 days ago | spx9 | SPX domain-containing membrane protein9: | | GRMZM2G134062
| Xiaowan Hou et al. 2024. Two maize homologs of mammalian proton-coupled folate transporter, ZmMFS_1-62 and ZmMFS_1-73, are essential to salt and drought tolerance Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2024.108623. | | Reference: April 15th, 2024
Gene Product: October 9th, 2021
Gene Model: October 9th, 2021
|
| 23 days ago | npf14 | nitrate transporter/peptide transporter family14: | | GRMZM5G827496
| Xiaowan Hou et al. 2024. Two maize homologs of mammalian proton-coupled folate transporter, ZmMFS_1-62 and ZmMFS_1-73, are essential to salt and drought tolerance Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2024.108623. | | Reference: April 15th, 2024
Gene Product: September 1st, 2003
Gene Model: January 2nd, 2022
|
| 23 days ago | stp12 | sugar transport protein12: | | GRMZM2G075229
| Xiaowan Hou et al. 2024. Two maize homologs of mammalian proton-coupled folate transporter, ZmMFS_1-62 and ZmMFS_1-73, are essential to salt and drought tolerance Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2024.108623. | | Reference: April 15th, 2024
Gene Product: January 2nd, 2023
Gene Model: January 12th, 2022
|
| 23 days ago | stp20 | sugar transport protein20: | | GRMZM2G046700
| Xiaowan Hou et al. 2024. Two maize homologs of mammalian proton-coupled folate transporter, ZmMFS_1-62 and ZmMFS_1-73, are essential to salt and drought tolerance Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2024.108623. | | Reference: April 15th, 2024
Gene Product: January 2nd, 2023
Gene Model: January 12th, 2022
|
| 23 days ago | stp13 | sugar transport protein13: | | GRMZM2G442546
| Xiaowan Hou et al. 2024. Two maize homologs of mammalian proton-coupled folate transporter, ZmMFS_1-62 and ZmMFS_1-73, are essential to salt and drought tolerance Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2024.108623. | | Reference: April 15th, 2024
Gene Product: January 2nd, 2023
Gene Model: January 12th, 2022
|
| 23 days ago | stp6 | sugar transport protein6: | | GRMZM5G843141
| Xiaowan Hou et al. 2024. Two maize homologs of mammalian proton-coupled folate transporter, ZmMFS_1-62 and ZmMFS_1-73, are essential to salt and drought tolerance Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2024.108623. | | Reference: April 15th, 2024
Gene Product: January 2nd, 2023
Gene Model: January 12th, 2022
|
| 23 days ago | stp7 | sugar transport protein: | | | Xiaowan Hou et al. 2024. Two maize homologs of mammalian proton-coupled folate transporter, ZmMFS_1-62 and ZmMFS_1-73, are essential to salt and drought tolerance Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2024.108623. | | Reference: April 15th, 2024
Gene Product: January 2nd, 2023
|
| 23 days ago | stp11 | sugar transport protein11: | | GRMZM2G022440
| Xiaowan Hou et al. 2024. Two maize homologs of mammalian proton-coupled folate transporter, ZmMFS_1-62 and ZmMFS_1-73, are essential to salt and drought tolerance Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2024.108623. | | Reference: April 15th, 2024
Gene Product: January 2nd, 2023
Gene Model: January 12th, 2022
|
| 23 days ago | stp14 | sugar transport protein14: | | GRMZM2G420004
| Xiaowan Hou et al. 2024. Two maize homologs of mammalian proton-coupled folate transporter, ZmMFS_1-62 and ZmMFS_1-73, are essential to salt and drought tolerance Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2024.108623. | | Reference: April 15th, 2024
Gene Product: January 2nd, 2023
Gene Model: January 12th, 2022
|
| 23 days ago | stp17 | sugar transport protein17: | | GRMZM2G117146
| Xiaowan Hou et al. 2024. Two maize homologs of mammalian proton-coupled folate transporter, ZmMFS_1-62 and ZmMFS_1-73, are essential to salt and drought tolerance Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2024.108623. | | Reference: April 15th, 2024
Gene Product: January 2nd, 2023
Gene Model: January 12th, 2022
|
| 23 days ago | stp18 | sugar transport protein18: | | GRMZM2G160614
| Xiaowan Hou et al. 2024. Two maize homologs of mammalian proton-coupled folate transporter, ZmMFS_1-62 and ZmMFS_1-73, are essential to salt and drought tolerance Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2024.108623. | | Reference: April 15th, 2024
Gene Product: January 2nd, 2023
Gene Model: January 12th, 2022
|
| 23 days ago | stp21 | sugar transport protein21: | | GRMZM2G404965
| Xiaowan Hou et al. 2024. Two maize homologs of mammalian proton-coupled folate transporter, ZmMFS_1-62 and ZmMFS_1-73, are essential to salt and drought tolerance Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2024.108623. | | Reference: April 15th, 2024
Gene Product: January 2nd, 2023
Gene Model: January 12th, 2022
|
| 23 days ago | stp23 | sugar transport protein23: | | GRMZM2G079342
| Xiaowan Hou et al. 2024. Two maize homologs of mammalian proton-coupled folate transporter, ZmMFS_1-62 and ZmMFS_1-73, are essential to salt and drought tolerance Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2024.108623. | | Reference: April 15th, 2024
Gene Product: January 2nd, 2023
Gene Model: January 12th, 2022
|
| 23 days ago | ena1 | efflux transporter of Na1: | | | Xiaowan Hou et al. 2024. Two maize homologs of mammalian proton-coupled folate transporter, ZmMFS_1-62 and ZmMFS_1-73, are essential to salt and drought tolerance Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2024.108623. | | Reference: April 15th, 2024
Gene Product: January 18th, 2022
|
| 23 days ago | rps27b | ribosomal protein S27b: | 5.04 | GRMZM2G377600
| Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Variation: March 14th, 2015
Gene Model: March 14th, 2015
|
| 23 days ago | rps12a | ribosomal proteinS12 (homolog): | 6.07 | GRMZM2G132929
| Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Gene Product: September 1st, 2003
Gene Model: December 26th, 2019
|
| 23 days ago | pco093173 | : | 6.06 | GRMZM2G044137
| Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Variation: September 25th, 2007
Gene Model: November 22nd, 2019
|
| 23 days ago | snrkII2 | SnRK2 serine threonine protein kinase2: | 7.04 | GRMZM2G056732
| Yang, T et al. 2024. Sucrose-associated SnRK1a1-mediated phosphorylation of Opaque2 modulates endosperm filling in maize. Molecular Plant. | | Reference: April 15th, 2024
Gene Product: April 14th, 2018
Gene Model: February 11th, 2015
|
| 23 days ago | IDP243 | : | 1.07 | GRMZM2G152552
| Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Variation: March 31st, 2005
Gene Model: February 14th, 2019
|
| 23 days ago | magi7806 | : | 1.10 | GRMZM2G165619
| Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Variation: April 8th, 2021
Gene Model: February 16th, 2019
|
| 23 days ago | IDP3943 | : | 1.04 | GRMZM2G168674
| Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Variation: March 31st, 2005
Gene Model: March 24th, 2021
|
| 23 days ago | IDP4043 | : | 1.01 | GRMZM2G092719
| Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Variation: March 31st, 2005
Gene Model: April 10th, 2021
|
| 23 days ago | IDP2449 | : | 2.04 | GRMZM2G065073
| Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Variation: March 31st, 2005
Gene Model: February 19th, 2019
|
| 23 days ago | rpl12 | ribosomal protein L12: | 2.04 | AC196489.3_FG002
| Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Gene Product: September 1st, 2003
Variation: March 31st, 2005
Gene Model: February 19th, 2019
|
| 23 days ago | IDP469 | : | 2.08 | GRMZM2G010991
| Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Variation: March 31st, 2005
Gene Model: February 20th, 2019
|
| 23 days ago | IDP661 | : | 2.09 | GRMZM2G111172
| Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Variation: March 31st, 2005
Gene Model: February 20th, 2019
|
| 23 days ago | IDP4031 | : | 3.05 | GRMZM2G171484
| Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Variation: March 31st, 2005
Gene Model: May 15th, 2021
|
| 23 days ago | magi92568 | : | 6.05 | GRMZM5G850966
| Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Variation: March 31st, 2005
Gene Model: February 19th, 2021
|
| 23 days ago | IDP764 | : | 6.05 | GRMZM2G078985
| Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Variation: March 31st, 2005
Gene Model: July 2nd, 2021
|
| 23 days ago | magi99589 | : | 7.03 | GRMZM5G870752
| Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Variation: March 31st, 2005
Gene Model: February 4th, 2019
|
| 23 days ago | IDP2462 | : | 9.06 | GRMZM2G138589
| Xiaowan Hou et al. 2024. Two maize homologs of mammalian proton-coupled folate transporter, ZmMFS_1-62 and ZmMFS_1-73, are essential to salt and drought tolerance Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2024.108623. | | Reference: April 15th, 2024
Variation: March 31st, 2005
Gene Model: January 22nd, 2019
|
| 23 days ago | magi104697 | : | 9.03 | GRMZM2G074085
| Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Variation: March 31st, 2005
Gene Model: January 25th, 2019
|
| 23 days ago | IDP245 | : | 10.04 | GRMZM2G043737
| Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Variation: March 31st, 2005
Gene Model: January 2nd, 2018
|
| 23 days ago | IDP3950 | : | 10.04 | GRMZM2G124411
| Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Variation: March 31st, 2005
Gene Model: July 20th, 2021
|
| 23 days ago | rps10 | ribosomal protein S10: | | GRMZM2G095511
| Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Gene Product: February 13th, 2008
Variation: February 13th, 2008
Gene Model: April 15th, 2015
|
| 23 days ago | csu36c(rpL19) | : | 3.09 | GRMZM2G116135
| Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Variation: March 17th, 2021
Gene Model: February 25th, 2019
|
| 23 days ago | stp19 | sugar transport protein19: | 7.02 | GRMZM2G029153
| Xiaowan Hou et al. 2024. Two maize homologs of mammalian proton-coupled folate transporter, ZmMFS_1-62 and ZmMFS_1-73, are essential to salt and drought tolerance Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2024.108623. | | Reference: April 15th, 2024
Gene Product: January 2nd, 2023
Gene Model: July 24th, 2020
|
| 23 days ago | rpl44 | ribosomal protein L44: | 7.03 | GRMZM2G009412
| Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Gene Product: September 1st, 2003
Variation: January 24th, 2009
Gene Model: June 1st, 2017
|
| 23 days ago | arpp40 | acidic ribosomal protein P40: | 9.07 | GRMZM2G126821
| Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Gene Product: September 1st, 2003
Variation: August 27th, 2015
Gene Model: August 28th, 2015
|
| 23 days ago | rps4 | ribosomal protein S4: | 5.00 | GRMZM2G125271
| Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Gene Product: September 1st, 2003
Variation: May 21st, 2009
Gene Model: August 7th, 2014
|
| 23 days ago | ost1 | oligosaccharide transferase1: | 7.02 | GRMZM2G462325
| Xiaowan Hou et al. 2024. Two maize homologs of mammalian proton-coupled folate transporter, ZmMFS_1-62 and ZmMFS_1-73, are essential to salt and drought tolerance Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2024.108623. | | Reference: April 15th, 2024
Gene Product: September 1st, 2003
Variation: September 1st, 2003
Gene Model: December 28th, 2016
|
| 26 days ago | mrpa23 | multidrug resistance associated protein23: | | | Li, PC et al. 2024. Genomic basis determining root system architecture in maize. Theor Appl Genet. 137:102. | | Reference: April 12th, 2024
Gene Product: July 11th, 2019
|
| 26 days ago | ereb229 | AP2-EREBP-transcription factor 229: | | | Xiang, Y et al. 2024. Autophagy receptor ZmNBR1 promotes the autophagic degradation of ZmBRI1a and enhances drought tolerance in maize. J Integr Plant Biol. :doi: 10.1111/jipb.13662. | | Reference: April 12th, 2024
Gene Product: July 5th, 2019
|
| 26 days ago | prp19 | pathogenesis-related protein19: | | | Ronglan Li et al. 2024. Meta-Quantitative Trait Loci Analysis and Candidate Gene Mining for Drought Tolerance-Associated Traits in Maize (Zea mays L.) Int J Mol Sci. 25:4295. | | Reference: April 12th, 2024
Gene Product: December 12th, 2022
|
| 26 days ago | prp13 | pathogenesis-related protein13: | | | Ronglan Li et al. 2024. Meta-Quantitative Trait Loci Analysis and Candidate Gene Mining for Drought Tolerance-Associated Traits in Maize (Zea mays L.) Int J Mol Sci. 25:4295. | | Reference: April 12th, 2024
Gene Product: December 12th, 2022
|
| 26 days ago | pebp3 | phosphatidylethanolamine-binding protein3: | | | Ronglan Li et al. 2024. Meta-Quantitative Trait Loci Analysis and Candidate Gene Mining for Drought Tolerance-Associated Traits in Maize (Zea mays L.) Int J Mol Sci. 25:4295. | | Reference: April 12th, 2024
Gene Product: March 19th, 2024
Variation: December 15th, 2010
|
| 26 days ago | pebp6 | phosphatidylethanolamine-binding protein6: | | | Ronglan Li et al. 2024. Meta-Quantitative Trait Loci Analysis and Candidate Gene Mining for Drought Tolerance-Associated Traits in Maize (Zea mays L.) Int J Mol Sci. 25:4295. | | Reference: April 12th, 2024
Gene Product: March 19th, 2024
Variation: December 15th, 2010
|
| 26 days ago | bz1 | bronze1: | 9.02 | | Deng, M et al. 2024. Combining association with linkage mapping to dissect the phenolamides metabolism of the maize kernel Frontiers in Plant Science. 15:1376405. | | Reference: April 12th, 2024
Gene Product: July 4th, 2018
Variation: December 17th, 2022
|
| 26 days ago | g2 | golden plant2: | 3.00 - 3.01 | GRMZM2G087804
| Li, PC et al. 2024. Genomic basis determining root system architecture in maize. Theor Appl Genet. 137:102. | | Reference: April 12th, 2024
Gene Product: July 11th, 2019
Variation: October 24th, 2017
Gene Model: August 30th, 2013
|
| 26 days ago | rs2 | rough sheath2: | 1.05 | | Li, PC et al. 2024. Genomic basis determining root system architecture in maize. Theor Appl Genet. 137:102. | | Reference: April 12th, 2024
Gene Product: September 1st, 2003
Variation: May 9th, 2009
|
| 26 days ago | arftf25 | ARF-transcription factor 25: | 8.06 | GRMZM2G116557
| Li, PC et al. 2024. Genomic basis determining root system architecture in maize. Theor Appl Genet. 137:102. | | Reference: April 12th, 2024
Gene Product: January 29th, 2022
Variation: August 22nd, 2017
Gene Model: August 22nd, 2017
|
| 26 days ago | iaa38 | Aux/IAA-transcription factor 38: | 8.04 | GRMZM2G035465
| Li, PC et al. 2024. Genomic basis determining root system architecture in maize. Theor Appl Genet. 137:102. | | Reference: April 12th, 2024
Variation: March 12th, 2022
Gene Model: September 19th, 2018
|
| 26 days ago | arr2 | ARR-B-transcription factor 2: | | | Li, PC et al. 2024. Genomic basis determining root system architecture in maize. Theor Appl Genet. 137:102. | | Reference: April 12th, 2024
Gene Product: June 30th, 2017
|
| 26 days ago | pip1b | plasma membrane intrinsic protein1: | 5.06 | | Xiang, Y et al. 2024. Autophagy receptor ZmNBR1 promotes the autophagic degradation of ZmBRI1a and enhances drought tolerance in maize. J Integr Plant Biol. :doi: 10.1111/jipb.13662. | | Reference: April 12th, 2024
Gene Product: January 27th, 2022
Variation: April 26th, 2016
|
| 26 days ago | pip2a | plasma membrane intrinsic protein2: | 2.03 | | Xiang, Y et al. 2024. Autophagy receptor ZmNBR1 promotes the autophagic degradation of ZmBRI1a and enhances drought tolerance in maize. J Integr Plant Biol. :doi: 10.1111/jipb.13662. | | Reference: April 12th, 2024
Gene Product: September 1st, 2003
Variation: January 25th, 2020
|
| 26 days ago | cal1 | calmodulin1: | 5.06 | | Ronglan Li et al. 2024. Meta-Quantitative Trait Loci Analysis and Candidate Gene Mining for Drought Tolerance-Associated Traits in Maize (Zea mays L.) Int J Mol Sci. 25:4295. | | Reference: April 12th, 2024
Gene Product: September 1st, 2003
Variation: September 1st, 2003
|
| 26 days ago | lox1 | lipoxygenase1: | 3.06 | | Ronglan Li et al. 2024. Meta-Quantitative Trait Loci Analysis and Candidate Gene Mining for Drought Tolerance-Associated Traits in Maize (Zea mays L.) Int J Mol Sci. 25:4295. | | Reference: April 12th, 2024
Gene Product: November 13th, 2014
Variation: July 24th, 2008
|
| 26 days ago | obf4 | octopine synthase binding factor4: | 3.06 | GRMZM2G125243
| Ronglan Li et al. 2024. Meta-Quantitative Trait Loci Analysis and Candidate Gene Mining for Drought Tolerance-Associated Traits in Maize (Zea mays L.) Int J Mol Sci. 25:4295. | | Reference: April 12th, 2024
Gene Product: September 1st, 2003
Variation: October 29th, 2010
Gene Model: April 11th, 2013
|
| 26 days ago | cdc3 | cell division control protein homolog3: | 3.10 | GRMZM2G495626
| Li, PC et al. 2024. Genomic basis determining root system architecture in maize. Theor Appl Genet. 137:102. | | Reference: April 12th, 2024
Gene Product: October 19th, 2022
Gene Model: December 21st, 2018
|
| 26 days ago | eil1 | ethylene insensitive-like1: | 9.05 | GRMZM2G317584
| Ronglan Li et al. 2024. Meta-Quantitative Trait Loci Analysis and Candidate Gene Mining for Drought Tolerance-Associated Traits in Maize (Zea mays L.) Int J Mol Sci. 25:4295. | | Reference: April 12th, 2024
Variation: August 6th, 2008
Gene Model: August 29th, 2013
|
| 26 days ago | eil3 | ethylene insensitive-like3: | 1.04 | GRMZM2G033570
| Ronglan Li et al. 2024. Meta-Quantitative Trait Loci Analysis and Candidate Gene Mining for Drought Tolerance-Associated Traits in Maize (Zea mays L.) Int J Mol Sci. 25:4295. | | Reference: April 12th, 2024
Variation: August 6th, 2008
Gene Model: August 29th, 2013
|
| 26 days ago | pin3 | PIN-formed protein3: | 4.08 | GRMZM2G149184
| Li, PC et al. 2024. Genomic basis determining root system architecture in maize. Theor Appl Genet. 137:102. | | Reference: April 12th, 2024
Gene Product: April 3rd, 2024
Gene Model: June 7th, 2012
|
| 26 days ago | bri1a | brassinosteroid insensitive1a: | | GRMZM2G048294
| Xiang, Y et al. 2024. Autophagy receptor ZmNBR1 promotes the autophagic degradation of ZmBRI1a and enhances drought tolerance in maize. J Integr Plant Biol. :doi: 10.1111/jipb.13662. | AT4G39400 (TAIR)
LOC_Os01g52050 (MSU/TIGR) | Reference: April 12th, 2024
Gene Product: June 23rd, 2021
Variation: July 17th, 2015
Gene Model: July 16th, 2015
|
| 26 days ago | prh15 | protein phosphatase homolog15: | | GRMZM2G383807
| Ronglan Li et al. 2024. Meta-Quantitative Trait Loci Analysis and Candidate Gene Mining for Drought Tolerance-Associated Traits in Maize (Zea mays L.) Int J Mol Sci. 25:4295. | | Reference: April 12th, 2024
Gene Product: October 25th, 2021
Gene Model: October 18th, 2016
|
| 26 days ago | pyl3 | pyrabactin resistance-like protein3: | | GRMZM2G154987
| Ronglan Li et al. 2024. Meta-Quantitative Trait Loci Analysis and Candidate Gene Mining for Drought Tolerance-Associated Traits in Maize (Zea mays L.) Int J Mol Sci. 25:4295. | | Reference: April 12th, 2024
Gene Product: January 31st, 2021
Gene Model: April 21st, 2018
|
| 26 days ago | opst2 | open stomate2: | | GRMZM2G171435
| Ronglan Li et al. 2024. Meta-Quantitative Trait Loci Analysis and Candidate Gene Mining for Drought Tolerance-Associated Traits in Maize (Zea mays L.) Int J Mol Sci. 25:4295. | AT4G33950 (TAIR) | Reference: April 12th, 2024
Gene Product: April 14th, 2018
Gene Model: June 11th, 2019
|
| 26 days ago | aas3 | auxin amido synthetase3: | | GRMZM2G410567
| Ronglan Li et al. 2024. Meta-Quantitative Trait Loci Analysis and Candidate Gene Mining for Drought Tolerance-Associated Traits in Maize (Zea mays L.) Int J Mol Sci. 25:4295. | AT1G28130 (TAIR) | Reference: April 12th, 2024
Gene Product: October 21st, 2019
Gene Model: October 21st, 2019
|
| 26 days ago | aas12 | auxin amido synthetase12: | | GRMZM2G366873
| Ronglan Li et al. 2024. Meta-Quantitative Trait Loci Analysis and Candidate Gene Mining for Drought Tolerance-Associated Traits in Maize (Zea mays L.) Int J Mol Sci. 25:4295. | | Reference: April 12th, 2024
Gene Product: October 21st, 2019
Gene Model: October 21st, 2019
|
| 26 days ago | uce16 | ubiquitin-conjugating enzyme16: | | GRMZM2G312693
| Ronglan Li et al. 2024. Meta-Quantitative Trait Loci Analysis and Candidate Gene Mining for Drought Tolerance-Associated Traits in Maize (Zea mays L.) Int J Mol Sci. 25:4295. | | Reference: April 12th, 2024
Gene Product: December 19th, 2019
Gene Model: December 19th, 2019
|
| 26 days ago | arr8 | ARR-B-transcription factor 8: | 5.08 | GRMZM2G479110
| Li, PC et al. 2024. Genomic basis determining root system architecture in maize. Theor Appl Genet. 137:102. | | Reference: April 12th, 2024
Gene Product: June 30th, 2017
Variation: June 30th, 2017
Gene Model: June 30th, 2017
|
| 26 days ago | drg10 | dark response gene10: | | GRMZM2G107199
| Xiang, Y et al. 2024. Autophagy receptor ZmNBR1 promotes the autophagic degradation of ZmBRI1a and enhances drought tolerance in maize. J Integr Plant Biol. :doi: 10.1111/jipb.13662. | | Reference: April 12th, 2024
Variation: January 25th, 2021
Gene Model: June 6th, 2020
|
| 26 days ago | prp8 | pathogenesis-related protein8: | | GRMZM2G456997
| Ronglan Li et al. 2024. Meta-Quantitative Trait Loci Analysis and Candidate Gene Mining for Drought Tolerance-Associated Traits in Maize (Zea mays L.) Int J Mol Sci. 25:4295. | | Reference: April 12th, 2024
Gene Product: December 12th, 2022
Gene Model: June 16th, 2020
|
| 26 days ago | cyc23 | cyclin23: | | GRMZM2G061287
| Li, PC et al. 2024. Genomic basis determining root system architecture in maize. Theor Appl Genet. 137:102. | | Reference: April 12th, 2024
Gene Product: June 26th, 2009
Gene Model: January 11th, 2021
|
| 26 days ago | bsk1 | brassinosteroid-signaling kinase1: | | GRMZM2G127050
| Xiang, Y et al. 2024. Autophagy receptor ZmNBR1 promotes the autophagic degradation of ZmBRI1a and enhances drought tolerance in maize. J Integr Plant Biol. :doi: 10.1111/jipb.13662. | | Reference: April 12th, 2024
Gene Product: May 13th, 2014
Gene Model: April 19th, 2021
|
| 26 days ago | act10 | actin10: | | GRMZM2G030169
| Xiang, Y et al. 2024. Autophagy receptor ZmNBR1 promotes the autophagic degradation of ZmBRI1a and enhances drought tolerance in maize. J Integr Plant Biol. :doi: 10.1111/jipb.13662. | | Reference: April 12th, 2024
Gene Product: September 1st, 2003
Gene Model: April 20th, 2021
|
| 26 days ago | gsk2 | glycogen synthase kinase2: | | GRMZM2G472625
| Xiang, Y et al. 2024. Autophagy receptor ZmNBR1 promotes the autophagic degradation of ZmBRI1a and enhances drought tolerance in maize. J Integr Plant Biol. :doi: 10.1111/jipb.13662. | | Reference: April 12th, 2024
Gene Product: February 22nd, 2022
Gene Model: June 24th, 2021
|
| 26 days ago | prp15 | pathogenesis-related protein15: | | GRMZM2G053493
| Ronglan Li et al. 2024. Meta-Quantitative Trait Loci Analysis and Candidate Gene Mining for Drought Tolerance-Associated Traits in Maize (Zea mays L.) Int J Mol Sci. 25:4295. | | Reference: April 12th, 2024
Gene Product: December 12th, 2022
Gene Model: August 9th, 2022
|
| 26 days ago | ago1 | argonaute1: | 8.05 | GRMZM2G162525
| Li, PC et al. 2024. Genomic basis determining root system architecture in maize. Theor Appl Genet. 137:102. | | Reference: April 12th, 2024
Gene Product: August 12th, 2016
Variation: November 5th, 2010
Gene Model: January 30th, 2015
|
| 26 days ago | asc1 | asceapen1: | 7.02 | GRMZM2G140633
| Li, PC et al. 2024. Genomic basis determining root system architecture in maize. Theor Appl Genet. 137:102. | | Reference: April 12th, 2024
Gene Product: June 26th, 2009
Variation: June 29th, 2009
Gene Model: December 8th, 2014
|
| 26 days ago | cko3 | cytokinin oxidase 3: | 8.06 | GRMZM2G167220
| Li, PC et al. 2024. Genomic basis determining root system architecture in maize. Theor Appl Genet. 137:102. | | Reference: April 12th, 2024
Gene Product: March 19th, 2014
Variation: February 27th, 2008
Gene Model: March 21st, 2014
|
| 26 days ago | umi11 | Ustilago maydis induced11: | 7.00 | GRMZM2G450866
| Ronglan Li et al. 2024. Meta-Quantitative Trait Loci Analysis and Candidate Gene Mining for Drought Tolerance-Associated Traits in Maize (Zea mays L.) Int J Mol Sci. 25:4295. | | Reference: April 12th, 2024
Gene Product: January 12th, 2015
Variation: January 11th, 2015
Gene Model: January 11th, 2015
|
| 27 days ago | lg1 | liguleless1: | 2.01 | | Bertolini, E et al. 2023. Regulatory variation controlling architectural pleiotropy in maize bioRxiv preprint. :doi: 10.1101/2023.08.19.553731. | | Reference: April 11th, 2024
Gene Product: December 18th, 2014
Variation: August 17th, 2020
|
| 27 days ago | lg4 | liguleless4: | 8.05 | GRMZM2G094241
| Bertolini, E et al. 2023. Regulatory variation controlling architectural pleiotropy in maize bioRxiv preprint. :doi: 10.1101/2023.08.19.553731. | | Reference: April 11th, 2024
Gene Product: August 22nd, 2014
Variation: May 18th, 2012
Gene Model: May 24th, 2012
|
| 27 days ago | tb1 | teosinte branched1: | 1.09 | | Mascher, M et al. 2024. Are cereal grasses a single genetic system? Nature Plants. :doi: 10.1038/s41477-024-01674-3. | | Reference: April 11th, 2024
Gene Product: September 14th, 2016
Variation: December 28th, 2023
|
| 27 days ago | zhd21 | ZF-HD-transcription factor 21: | 3.05 | GRMZM5G821755
| Bertolini, E et al. 2023. Regulatory variation controlling architectural pleiotropy in maize bioRxiv preprint. :doi: 10.1101/2023.08.19.553731. | | Reference: April 11th, 2024
Gene Product: August 24th, 2022
Variation: April 11th, 2024
Gene Model: March 21st, 2018
|
| 27 days ago | wab1 | Wavy auricles in blades1: | 2.06 - 2.07 | GRMZM2G110242
| Bertolini, E et al. 2023. Regulatory variation controlling architectural pleiotropy in maize bioRxiv preprint. :doi: 10.1101/2023.08.19.553731. | LOC_Os09g24480 (MSU/TIGR)
Os09g0410500 (Gramene) | Reference: April 11th, 2024
Gene Product: September 14th, 2016
Variation: November 2nd, 2014
Gene Model: November 2nd, 2014
|
| 27 days ago | abi41 | ABI3-VP1-transcription factor 41: | | | Bertolini, E et al. 2023. Regulatory variation controlling architectural pleiotropy in maize bioRxiv preprint. :doi: 10.1101/2023.08.19.553731. | | Reference: April 11th, 2024
Gene Product: January 29th, 2022
Variation: July 19th, 2021
|
| 27 days ago | ereb53 | AP2-EREBP-transcription factor 53: | | | McFarland, FL et al. 2024. History and current status of embryogenic culture-based tissue culture, transformation and gene editing of maize (Zea mays L.). Plant Genome. :e20451. | LOC_Os1g67410 (MSU/TIGR) | Reference: April 11th, 2024
Gene Product: July 5th, 2019
|
| 27 days ago | ereb92 | AP2-EREBP-transcription factor 92: | | | Bertolini, E et al. 2023. Regulatory variation controlling architectural pleiotropy in maize bioRxiv preprint. :doi: 10.1101/2023.08.19.553731. | | Reference: April 11th, 2024
Variation: November 17th, 2023
|
| 27 days ago | dof25 | C2C2-Dof-transcription factor 25: | | | Bertolini, E et al. 2023. Regulatory variation controlling architectural pleiotropy in maize bioRxiv preprint. :doi: 10.1101/2023.08.19.553731. | | Reference: April 11th, 2024
Gene Product: July 4th, 2022
|
| 27 days ago | wox2a | WUSCHEL-related homeobox 2a`: | | | McFarland, FL et al. 2024. History and current status of embryogenic culture-based tissue culture, transformation and gene editing of maize (Zea mays L.). Plant Genome. :e20451. | | Reference: April 11th, 2024
Gene Product: August 25th, 2017
|
| 27 days ago | zhd1 | ZF-HD-transcription factor 1: | | | Bertolini, E et al. 2023. Regulatory variation controlling architectural pleiotropy in maize bioRxiv preprint. :doi: 10.1101/2023.08.19.553731. | | Reference: April 11th, 2024
Gene Product: August 24th, 2022
Variation: April 11th, 2024
|
| 27 days ago | zhd15 | ZF-HD-transcription factor 15: | | | Bertolini, E et al. 2023. Regulatory variation controlling architectural pleiotropy in maize bioRxiv preprint. :doi: 10.1101/2023.08.19.553731. | | Reference: April 11th, 2024
Gene Product: August 24th, 2022
|
| 27 days ago | lpa2 | low phytic acid2: | 1.05 | GRMZM2G456626
| Indhu, SM et al. 2024. Genetic diversity and decoding the genetics of phytic acid by investigating the inheritance of lpa 2 allele in maize (Zea mays L.) Electron J Plant Breed. 15:110-119. | | Reference: April 11th, 2024
Gene Product: April 22nd, 2013
Variation: April 22nd, 2013
Gene Model: April 23rd, 2013
|
| 27 days ago | gn1 | gnarley1: | 2.10 | | Bertolini, E et al. 2023. Regulatory variation controlling architectural pleiotropy in maize bioRxiv preprint. :doi: 10.1101/2023.08.19.553731. | | Reference: April 11th, 2024
Gene Product: September 1st, 2003
Variation: May 30th, 2014
|
| 27 days ago | yab10 | yabby homolog10: | 1.07 | | Mascher, M et al. 2024. Are cereal grasses a single genetic system? Nature Plants. :doi: 10.1038/s41477-024-01674-3. | | Reference: April 11th, 2024
Gene Product: October 16th, 2015
Variation: March 23rd, 2009
|
| 27 days ago | yab12 | C2C2-YABBY-transcription factor 12: | | GRMZM2G085873
| Mascher, M et al. 2024. Are cereal grasses a single genetic system? Nature Plants. :doi: 10.1038/s41477-024-01674-3. | | Reference: April 11th, 2024
Gene Product: October 16th, 2015
Gene Model: October 16th, 2015
|
| 27 days ago | yab6 | C2C2-YABBY-transcription factor 6: | | GRMZM2G074124
| Mascher, M et al. 2024. Are cereal grasses a single genetic system? Nature Plants. :doi: 10.1038/s41477-024-01674-3. | | Reference: April 11th, 2024
Gene Product: October 16th, 2015
Variation: May 6th, 2020
Gene Model: July 3rd, 2012
|
| 27 days ago | bri1b | brassinosteroid insensitive1b: | | GRMZM2G449830
| Bertolini, E et al. 2023. Regulatory variation controlling architectural pleiotropy in maize bioRxiv preprint. :doi: 10.1101/2023.08.19.553731. | | Reference: April 11th, 2024
Gene Product: June 23rd, 2021
Variation: July 17th, 2015
Gene Model: July 16th, 2015
|
| 27 days ago | yab13 | C2C2-YABBY-transcription factor 13: | | | Mascher, M et al. 2024. Are cereal grasses a single genetic system? Nature Plants. :doi: 10.1038/s41477-024-01674-3. | | Reference: April 11th, 2024
Gene Product: October 16th, 2015
|
| 27 days ago | gsk1 | glycogen synthase kinase1: | | GRMZM2G045330
| Bertolini, E et al. 2023. Regulatory variation controlling architectural pleiotropy in maize bioRxiv preprint. :doi: 10.1101/2023.08.19.553731. | | Reference: April 11th, 2024
Gene Product: February 22nd, 2022
Gene Model: February 22nd, 2022
|
| 27 days ago | fun1 | feminised upright narrow1: | | GRMZM2G022651
| Bertolini, E et al. 2023. Regulatory variation controlling architectural pleiotropy in maize bioRxiv preprint. :doi: 10.1101/2023.08.19.553731. | AT3G58770 (TAIR) | Reference: April 11th, 2024
Variation: March 12th, 2022
Gene Model: March 12th, 2022
|
| 28 days ago | por2 | porin2: | 10.06 | GRMZM2G125023
| Deyin Wang et al. 2024. Aquaporin ZmTIP2;3 Promotes Drought Resistance of Maize through Symbiosis with Arbuscular Mycorrhizal Fungi Int J Mol Sci. 25:4205. | | Reference: April 10th, 2024
Gene Product: January 27th, 2022
Variation: April 10th, 2024
Gene Model: February 5th, 2015
|
| 29 days ago | hggt1 | homogentisate geranylgeranyl transferase1: | | GRMZM2G173358
| My Abdelmajid Kassem et al. 2024. A Summary of Two Decades of QTL and Candidate Genes That Control Seed Tocopherol Contents in Maize (Zea mays L.) Genes. 15:472. | | Reference: April 9th, 2024
Gene Product: January 8th, 2018
Gene Model: June 26th, 2013
|
| 29 days ago | pyk2 | pyruvate kinase2: | 10.01 | GRMZM2G004534
| My Abdelmajid Kassem et al. 2024. A Summary of Two Decades of QTL and Candidate Genes That Control Seed Tocopherol Contents in Maize (Zea mays L.) Genes. 15:472. | | Reference: April 9th, 2024
Gene Product: April 8th, 2011
Variation: April 6th, 2007
Gene Model: July 28th, 2016
|
| 29 days ago | sxd1 | sucrose export defective1: | 5.04 | | My Abdelmajid Kassem et al. 2024. A Summary of Two Decades of QTL and Candidate Genes That Control Seed Tocopherol Contents in Maize (Zea mays L.) Genes. 15:472. | | Reference: April 9th, 2024
Gene Product: December 1st, 2012
Variation: August 7th, 2012
|
| 29 days ago | vte5 | vitamin E synthesis5: | 2.01 | | My Abdelmajid Kassem et al. 2024. A Summary of Two Decades of QTL and Candidate Genes That Control Seed Tocopherol Contents in Maize (Zea mays L.) Genes. 15:472. | | Reference: April 9th, 2024
Gene Product: June 6th, 2022
|
| 29 days ago | ggh1 | geranylgeranyl hydrogenase1: | | GRMZM2G105644
| My Abdelmajid Kassem et al. 2024. A Summary of Two Decades of QTL and Candidate Genes That Control Seed Tocopherol Contents in Maize (Zea mays L.) Genes. 15:472. | | Reference: April 9th, 2024
Gene Product: October 4th, 2014
Gene Model: October 4th, 2014
|
| 29 days ago | ggh2 | geranylgeranyl hydrogenase2: | | GRMZM2G419111
| My Abdelmajid Kassem et al. 2024. A Summary of Two Decades of QTL and Candidate Genes That Control Seed Tocopherol Contents in Maize (Zea mays L.) Genes. 15:472. | | Reference: April 9th, 2024
Gene Product: October 4th, 2014
Gene Model: October 4th, 2014
|
| 29 days ago | vim102 | variant in methylation102: | | GRMZM2G339151
| Haoxiang Yang et al. 2024. QTL mapping for plant height and ear height using bi-parental immortalized heterozygous populations in maize. Frontiers in Plant Science. 15:1371394. | | Reference: April 9th, 2024
Variation: December 22nd, 2014
Gene Model: December 22nd, 2014
|
| 29 days ago | otp51 | organelle transcript processing51: | | GRMZM2G325019
| My Abdelmajid Kassem et al. 2024. A Summary of Two Decades of QTL and Candidate Genes That Control Seed Tocopherol Contents in Maize (Zea mays L.) Genes. 15:472. | | Reference: April 9th, 2024
Gene Product: December 27th, 2016
Variation: October 20th, 2017
Gene Model: February 17th, 2015
|
| 29 days ago | cle16 | clavata3/esr-related16: | | GRMZM5G818232
| My Abdelmajid Kassem et al. 2024. A Summary of Two Decades of QTL and Candidate Genes That Control Seed Tocopherol Contents in Maize (Zea mays L.) Genes. 15:472. | | Reference: April 9th, 2024
Gene Product: February 22nd, 2021
Gene Model: September 17th, 2016
|
| 29 days ago | mcm1 | minichromosome maintenance1: | | GRMZM2G065205
| Haoxiang Yang et al. 2024. QTL mapping for plant height and ear height using bi-parental immortalized heterozygous populations in maize. Frontiers in Plant Science. 15:1371394. | AT4G02060 (TAIR) | Reference: April 9th, 2024
Gene Product: August 2nd, 2017
Gene Model: July 30th, 2017
|
| 29 days ago | hpt1 | homogentisate phytyltransferase1: | | GRMZM2G048472
| My Abdelmajid Kassem et al. 2024. A Summary of Two Decades of QTL and Candidate Genes That Control Seed Tocopherol Contents in Maize (Zea mays L.) Genes. 15:472. | | Reference: April 9th, 2024
Gene Product: January 8th, 2018
Gene Model: January 8th, 2018
|
| 29 days ago | hggt3 | homogentisate geranylgeranyltransferase3: | | GRMZM5G848876
| My Abdelmajid Kassem et al. 2024. A Summary of Two Decades of QTL and Candidate Genes That Control Seed Tocopherol Contents in Maize (Zea mays L.) Genes. 15:472. | | Reference: April 9th, 2024
Gene Product: January 8th, 2018
Gene Model: January 8th, 2018
|
| 29 days ago | hggt2 | homogentisate geranylgeranyltransferase3: | | GRMZM2G410644
| My Abdelmajid Kassem et al. 2024. A Summary of Two Decades of QTL and Candidate Genes That Control Seed Tocopherol Contents in Maize (Zea mays L.) Genes. 15:472. | | Reference: April 9th, 2024
Gene Product: January 8th, 2018
Gene Model: January 8th, 2018
|
| 29 days ago | vte4 | vitamin E synthesis4: | 5.06 | GRMZM2G173358
| My Abdelmajid Kassem et al. 2024. A Summary of Two Decades of QTL and Candidate Genes That Control Seed Tocopherol Contents in Maize (Zea mays L.) Genes. 15:472. | | Reference: April 9th, 2024
Gene Product: June 26th, 2013
Gene Model: June 26th, 2013
|
| 29 days ago | aaap36 | amino acid/auxin permease36: | | GRMZM2G161641
| My Abdelmajid Kassem et al. 2024. A Summary of Two Decades of QTL and Candidate Genes That Control Seed Tocopherol Contents in Maize (Zea mays L.) Genes. 15:472. | | Reference: April 9th, 2024
Gene Product: March 31st, 2021
Gene Model: March 30th, 2021
|
| 29 days ago | cry1 | cryptochrome1: | 5.05 | GRMZM2G024739
| My Abdelmajid Kassem et al. 2024. A Summary of Two Decades of QTL and Candidate Genes That Control Seed Tocopherol Contents in Maize (Zea mays L.) Genes. 15:472. | | Reference: April 9th, 2024
Gene Product: August 31st, 2018
Gene Model: August 31st, 2018
|
| 29 days ago | Zm00001d009150 | : | | GRMZM2G003022
| My Abdelmajid Kassem et al. 2024. A Summary of Two Decades of QTL and Candidate Genes That Control Seed Tocopherol Contents in Maize (Zea mays L.) Genes. 15:472. | | Reference: April 9th, 2024
Gene Product: June 24th, 2022
Gene Model: June 24th, 2022
|
| 29 days ago | IDP109 | : | 4.03 | GRMZM5G892742
| My Abdelmajid Kassem et al. 2024. A Summary of Two Decades of QTL and Candidate Genes That Control Seed Tocopherol Contents in Maize (Zea mays L.) Genes. 15:472. | | Reference: April 9th, 2024
Variation: March 31st, 2005
Gene Model: May 21st, 2021
|
| 29 days ago | hppd1 | 4-hydroxyphenylpyruvate dioxygenase 1: | 5.04 | GRMZM2G088396
| My Abdelmajid Kassem et al. 2024. A Summary of Two Decades of QTL and Candidate Genes That Control Seed Tocopherol Contents in Maize (Zea mays L.) Genes. 15:472. | | Reference: April 9th, 2024
Gene Product: June 2nd, 2005
Variation: October 22nd, 2020
Gene Model: July 28th, 2016
|
| 29 days ago | apg1 | albino or pale green mutant1: | 1.05 | GRMZM2G082998
| My Abdelmajid Kassem et al. 2024. A Summary of Two Decades of QTL and Candidate Genes That Control Seed Tocopherol Contents in Maize (Zea mays L.) Genes. 15:472. | | Reference: April 9th, 2024
Variation: December 30th, 2015
Gene Model: February 17th, 2015
|
| 32 days ago | tru1 | tassels replace upper ears1: | 3.04 - 3.10 | GRMZM2G039867
| Hao Wu et al. 2024. A multiplexed transcriptomic analysis of a plant embryonic hourglass bioRxiv preprint. :doi: 10.1101/2024.04.04.588207. | | Reference: April 6th, 2024
Gene Product: December 17th, 2013
Variation: December 18th, 2013
Gene Model: December 17th, 2013
|
| 32 days ago | wox3a | WUSCHEL homeobox 3A: | 6.01 | GRMZM2G122537
| Hao Wu et al. 2024. A multiplexed transcriptomic analysis of a plant embryonic hourglass bioRxiv preprint. :doi: 10.1101/2024.04.04.588207. | | Reference: April 6th, 2024
Gene Product: August 25th, 2017
Variation: August 19th, 2018
Gene Model: August 18th, 2018
|
| 32 days ago | arftf3 | ARF-transcription factor 3: | | | Hao Wu et al. 2024. A multiplexed transcriptomic analysis of a plant embryonic hourglass bioRxiv preprint. :doi: 10.1101/2024.04.04.588207. | | Reference: April 6th, 2024
Gene Product: January 29th, 2022
|
| 32 days ago | ns1 | narrow sheath1: | 2.05 | | Hao Wu et al. 2024. A multiplexed transcriptomic analysis of a plant embryonic hourglass bioRxiv preprint. :doi: 10.1101/2024.04.04.588207. | | Reference: April 6th, 2024
Gene Product: August 25th, 2017
Variation: February 20th, 2015
|
| 32 days ago | yab14 | yabby14: | 10.05 | | Hao Wu et al. 2024. A multiplexed transcriptomic analysis of a plant embryonic hourglass bioRxiv preprint. :doi: 10.1101/2024.04.04.588207. | | Reference: April 6th, 2024
Gene Product: October 16th, 2015
Variation: March 23rd, 2009
|
| 32 days ago | ifa1 | indeterminate floral apex1: | | GRMZM2G088309
| Hao Wu et al. 2024. A multiplexed transcriptomic analysis of a plant embryonic hourglass bioRxiv preprint. :doi: 10.1101/2024.04.04.588207. | AT1G69180 (TAIR)
LOC_Os03g11600 (MSU/TIGR) | Reference: April 6th, 2024
Gene Product: October 16th, 2015
Variation: July 13th, 2017
Gene Model: October 16th, 2015
|
| 32 days ago | traf8 | TNF receptor-associated factor 8: | | GRMZM2G026556
| Hao Wu et al. 2024. A multiplexed transcriptomic analysis of a plant embryonic hourglass bioRxiv preprint. :doi: 10.1101/2024.04.04.588207. | | Reference: April 6th, 2024
Gene Product: June 30th, 2021
Gene Model: May 20th, 2019
|
| 32 days ago | chn22 | chitinase22: | | GRMZM2G099454
| Hao Wu et al. 2024. A multiplexed transcriptomic analysis of a plant embryonic hourglass bioRxiv preprint. :doi: 10.1101/2024.04.04.588207. | | Reference: April 6th, 2024
Gene Product: May 31st, 2021
Gene Model: May 31st, 2021
|
| 32 days ago | chn32 | chitinase32: | | GRMZM2G099454
| Hao Wu et al. 2024. A multiplexed transcriptomic analysis of a plant embryonic hourglass bioRxiv preprint. :doi: 10.1101/2024.04.04.588207. | | Reference: April 6th, 2024
Gene Product: May 31st, 2021
Gene Model: June 1st, 2021
|
| 33 days ago | gsk12 | glycogen synthase kinase12: | | | Zebosi, B et al. 2024. Conservation and diversification of genes regulating brassinosteroid biosynthesis and signaling bioRxiv preprint. :doi: 10.1101/2024.03.26.586792. | | Reference: April 5th, 2024
Gene Product: February 22nd, 2022
|
| 33 days ago | gsk3 | glycogen synthase kinase3: | 5.04 | GRMZM2G151916
| Zebosi, B et al. 2024. Conservation and diversification of genes regulating brassinosteroid biosynthesis and signaling bioRxiv preprint. :doi: 10.1101/2024.03.26.586792. | | Reference: April 5th, 2024
Gene Product: February 22nd, 2022
Variation: September 25th, 2007
Gene Model: October 22nd, 2020
|
| 33 days ago | rca1 | RUBISCO activase1: | 4.00 | GRMZM2G162200
| Yanyan Fan et al. 2024. Effects of nitrogen fertilizer on photosynthetic characteristics, C4 pathway, and related gene expression of maize varieties with different nitrogen efficiency Pakistan J Bot. 56:doi: 10.30848/PJB2024-4(15). | | Reference: April 5th, 2024
Gene Product: October 28th, 2014
Variation: September 1st, 2003
Gene Model: February 13th, 2014
|
| 33 days ago | gsk4 | glycogen synthase kinase4: | 4.09 | GRMZM2G121790
| Zebosi, B et al. 2024. Conservation and diversification of genes regulating brassinosteroid biosynthesis and signaling bioRxiv preprint. :doi: 10.1101/2024.03.26.586792. | | Reference: April 5th, 2024
Gene Product: February 22nd, 2022
Gene Model: April 25th, 2020
|
| 33 days ago | gi2 | gigantea2: | 3.03 | GRMZM5G844173
| Fengyun Ran et al. 2024. Studies on Candidate Genes Related to Flowering Time in a Multiparent Population of Maize Derived from Tropical and Temperate Germplasm Plants. 13:1032. | | Reference: April 5th, 2024
Gene Product: September 19th, 2012
Variation: April 10th, 2023
Gene Model: September 18th, 2012
|
| 33 days ago | na2 | nana plant2: | 5.03 | GRMZM2G057000
| Zebosi, B et al. 2024. Conservation and diversification of genes regulating brassinosteroid biosynthesis and signaling bioRxiv preprint. :doi: 10.1101/2024.03.26.586792. | AT3G19820 (TAIR) | Reference: April 5th, 2024
Gene Product: June 13th, 2016
Variation: June 13th, 2016
Gene Model: June 13th, 2016
|
| 33 days ago | bhlh43 | bHLH-transcription factor 43: | 1.08 | GRMZM2G165042
| Ranran Huang et al. 2024. Genome-wide characterization of fragile and resistant nucleosomes in response to cold stress in maize Environ Exp Bot. :doi: 10.1016/j.envexpbot.2024.105760. | | Reference: April 5th, 2024
Variation: September 1st, 2003
Gene Model: July 6th, 2017
|
| 33 days ago | emb27 | embryo specific27: | 1.09 | GRMZM2G153476
| Fengyun Ran et al. 2024. Studies on Candidate Genes Related to Flowering Time in a Multiparent Population of Maize Derived from Tropical and Temperate Germplasm Plants. 13:1032. | | Reference: April 5th, 2024
Variation: January 10th, 2024
Gene Model: October 18th, 2016
|
| 33 days ago | cyp37 | cytochrome P450 37: | 4.08 | GRMZM2G012391
| Zebosi, B et al. 2024. Conservation and diversification of genes regulating brassinosteroid biosynthesis and signaling bioRxiv preprint. :doi: 10.1101/2024.03.26.586792. | AT5G05690 (TAIR) | Reference: April 5th, 2024
Gene Product: December 30th, 2022
Variation: September 1st, 2003
Gene Model: April 24th, 2020
|
| 33 days ago | bzr2 | BZR-transcription factor 2: | | | Zebosi, B et al. 2024. Conservation and diversification of genes regulating brassinosteroid biosynthesis and signaling bioRxiv preprint. :doi: 10.1101/2024.03.26.586792. | | Reference: April 5th, 2024
Gene Product: May 4th, 2022
|
| 33 days ago | bzr3 | BZR-transcription factor 3: | | | Zebosi, B et al. 2024. Conservation and diversification of genes regulating brassinosteroid biosynthesis and signaling bioRxiv preprint. :doi: 10.1101/2024.03.26.586792. | | Reference: April 5th, 2024
Gene Product: May 4th, 2022
|
| 33 days ago | bzr6 | BZR-transcription factor 6: | | | Zebosi, B et al. 2024. Conservation and diversification of genes regulating brassinosteroid biosynthesis and signaling bioRxiv preprint. :doi: 10.1101/2024.03.26.586792. | | Reference: April 5th, 2024
Gene Product: May 4th, 2022
|
| 33 days ago | bzr7 | BZR-transcription factor 7: | | | Zebosi, B et al. 2024. Conservation and diversification of genes regulating brassinosteroid biosynthesis and signaling bioRxiv preprint. :doi: 10.1101/2024.03.26.586792. | | Reference: April 5th, 2024
Gene Product: May 4th, 2022
|
| 33 days ago | bzr8 | BZR-transcription factor 8: | | | Zebosi, B et al. 2024. Conservation and diversification of genes regulating brassinosteroid biosynthesis and signaling bioRxiv preprint. :doi: 10.1101/2024.03.26.586792. | | Reference: April 5th, 2024
Gene Product: May 4th, 2022
|
| 33 days ago | bzr9 | BZR-transcription factor 9: | | | Zebosi, B et al. 2024. Conservation and diversification of genes regulating brassinosteroid biosynthesis and signaling bioRxiv preprint. :doi: 10.1101/2024.03.26.586792. | | Reference: April 5th, 2024
Gene Product: May 4th, 2022
|
| 33 days ago | cyp45 | cytochrome P450 45: | 3.02 | GRMZM2G143235
| Zebosi, B et al. 2024. Conservation and diversification of genes regulating brassinosteroid biosynthesis and signaling bioRxiv preprint. :doi: 10.1101/2024.03.26.586792. | AT3G13730 (TAIR) | Reference: April 5th, 2024
Gene Product: December 30th, 2022
Variation: November 29th, 2023
Gene Model: April 3rd, 2018
|
| 33 days ago | elfa9 | elongation factor 1-alpha9: | 9.03 | GRMZM2G153541
| Yu, HQ et al. 2024. Maize ZmLAZ1-3 gene negatively regulates drought tolerance in transgenic Arabidopsis. BMC Plant Biology. 24:246. | | Reference: April 5th, 2024
Gene Product: September 1st, 2003
Variation: April 14th, 2014
Gene Model: April 15th, 2014
|
| 33 days ago | serk1 | somatic embryogenesis receptor-like kinase1: | 10.04 - 10.05 | GRMZM5G870959
| Zebosi, B et al. 2024. Conservation and diversification of genes regulating brassinosteroid biosynthesis and signaling bioRxiv preprint. :doi: 10.1101/2024.03.26.586792. | | Reference: April 5th, 2024
Gene Product: September 1st, 2003
Variation: January 25th, 2015
Gene Model: January 25th, 2015
|
| 33 days ago | serk2 | somatic embryogenesis receptor-like kinase2: | 5.05 | | Zebosi, B et al. 2024. Conservation and diversification of genes regulating brassinosteroid biosynthesis and signaling bioRxiv preprint. :doi: 10.1101/2024.03.26.586792. | AT1G71830 (TAIR)
LOC_Os04g38480 (MSU/TIGR) | Reference: April 5th, 2024
Gene Product: September 1st, 2003
Variation: June 11th, 2015
|
| 33 days ago | serk3 | somatic embryogenesis receptor-like kinase3: | 4.05 | GRMZM2G150024
| Zebosi, B et al. 2024. Conservation and diversification of genes regulating brassinosteroid biosynthesis and signaling bioRxiv preprint. :doi: 10.1101/2024.03.26.586792. | | Reference: April 5th, 2024
Gene Product: September 1st, 2003
Variation: July 31st, 2013
Gene Model: June 11th, 2015
|
| 33 days ago | mybr17 | MYB-related-transcription factor 17: | 3.09 | GRMZM2G071977
| Ranran Huang et al. 2024. Genome-wide characterization of fragile and resistant nucleosomes in response to cold stress in maize Environ Exp Bot. :doi: 10.1016/j.envexpbot.2024.105760. | | Reference: April 5th, 2024
Variation: September 1st, 2003
Gene Model: August 31st, 2018
|
| 33 days ago | phyB2 | phytochromeB2: | 9.05 | | Fengyun Ran et al. 2024. Studies on Candidate Genes Related to Flowering Time in a Multiparent Population of Maize Derived from Tropical and Temperate Germplasm Plants. 13:1032. | | Reference: April 5th, 2024
Gene Product: October 24th, 2007
Variation: May 20th, 2020
|
| 33 days ago | zfl1 | zea floricaula/leafy1: | 10.06 | | Fengyun Ran et al. 2024. Studies on Candidate Genes Related to Flowering Time in a Multiparent Population of Maize Derived from Tropical and Temperate Germplasm Plants. 13:1032. | | Reference: April 5th, 2024
Variation: February 20th, 2007
|
| 33 days ago | gst16 | glutathione transferase16: | 7.03 | GRMZM5G895383
| Fengyun Ran et al. 2024. Studies on Candidate Genes Related to Flowering Time in a Multiparent Population of Maize Derived from Tropical and Temperate Germplasm Plants. 13:1032. | | Reference: April 5th, 2024
Gene Product: September 1st, 2003
Variation: August 17th, 2010
Gene Model: April 18th, 2015
|
| 33 days ago | dlf1 | delayed flowering1: | | | Fengyun Ran et al. 2024. Studies on Candidate Genes Related to Flowering Time in a Multiparent Population of Maize Derived from Tropical and Temperate Germplasm Plants. 13:1032. | | Reference: April 5th, 2024
Gene Product: August 21st, 2018
Variation: June 25th, 2020
|
| 33 days ago | myb38 | myb transcription factor38: | | GRMZM2G084583
| Ranran Huang et al. 2024. Genome-wide characterization of fragile and resistant nucleosomes in response to cold stress in maize Environ Exp Bot. :doi: 10.1016/j.envexpbot.2024.105760. | | Reference: April 5th, 2024
Gene Product: September 1st, 2003
Variation: October 20th, 2016
Gene Model: February 23rd, 2015
|
| 33 days ago | hdt102 | histone deacetylase102: | 8.05 | GRMZM2G100146
| Fengyun Ran et al. 2024. Studies on Candidate Genes Related to Flowering Time in a Multiparent Population of Maize Derived from Tropical and Temperate Germplasm Plants. 13:1032. | | Reference: April 5th, 2024
Gene Product: February 12th, 2020
Variation: November 25th, 2008
Gene Model: July 27th, 2016
|
| 33 days ago | csu230 | : | 3.03 | | Fengyun Ran et al. 2024. Studies on Candidate Genes Related to Flowering Time in a Multiparent Population of Maize Derived from Tropical and Temperate Germplasm Plants. 13:1032. | | Reference: April 5th, 2024
Variation: September 25th, 2007
|
| 33 days ago | pra1 | prenylated rab acceptor1: | 3.02 | GRMZM2G050890
| Fengyun Ran et al. 2024. Studies on Candidate Genes Related to Flowering Time in a Multiparent Population of Maize Derived from Tropical and Temperate Germplasm Plants. 13:1032. | | Reference: April 5th, 2024
Gene Product: June 17th, 2022
Gene Model: April 23rd, 2022
|
| 33 days ago | brd1 | brassinosteroid-deficient dwarf1: | | GRMZM2G103773
| Zebosi, B et al. 2024. Conservation and diversification of genes regulating brassinosteroid biosynthesis and signaling bioRxiv preprint. :doi: 10.1101/2024.03.26.586792. | | Reference: April 5th, 2024
Gene Product: February 18th, 2012
Variation: August 16th, 2019
Gene Model: February 15th, 2012
|
| 33 days ago | pco093477 | : | 4.01 | | Fengyun Ran et al. 2024. Studies on Candidate Genes Related to Flowering Time in a Multiparent Population of Maize Derived from Tropical and Temperate Germplasm Plants. 13:1032. | | Reference: April 5th, 2024
Variation: May 20th, 2021
|
| 33 days ago | sweet13b | sugars will eventually be exported transporter13b: | | GRMZM2G021706
| Fengyun Ran et al. 2024. Studies on Candidate Genes Related to Flowering Time in a Multiparent Population of Maize Derived from Tropical and Temperate Germplasm Plants. 13:1032. | | Reference: April 5th, 2024
Gene Product: November 4th, 2015
Variation: February 17th, 2018
Gene Model: November 3rd, 2015
|
| 33 days ago | sweet13c | sugars will eventually be exported transporter13c: | | GRMZM2G179349
| Fengyun Ran et al. 2024. Studies on Candidate Genes Related to Flowering Time in a Multiparent Population of Maize Derived from Tropical and Temperate Germplasm Plants. 13:1032. | | Reference: April 5th, 2024
Gene Product: November 4th, 2015
Variation: February 17th, 2018
Gene Model: November 3rd, 2015
|
| 33 days ago | nfyc2 | nuclear transcription factor y subunit c2: | | GRMZM2G110210
| Fengyun Ran et al. 2024. Studies on Candidate Genes Related to Flowering Time in a Multiparent Population of Maize Derived from Tropical and Temperate Germplasm Plants. 13:1032. | | Reference: April 5th, 2024
Gene Product: August 9th, 2016
Gene Model: August 8th, 2016
|
| 33 days ago | cct14 | CO CO-LIKE TIMING OF CAB1 protein domain14: | | GRMZM2G033962
| Fengyun Ran et al. 2024. Studies on Candidate Genes Related to Flowering Time in a Multiparent Population of Maize Derived from Tropical and Temperate Germplasm Plants. 13:1032. | | Reference: April 5th, 2024
Gene Product: January 11th, 2018
Variation: November 28th, 2023
Gene Model: January 4th, 2017
|
| 33 days ago | cct2 | CO CO-LIKE TIMING OF CAB1 protein domain2: | | GRMZM2G004483
| Fengyun Ran et al. 2024. Studies on Candidate Genes Related to Flowering Time in a Multiparent Population of Maize Derived from Tropical and Temperate Germplasm Plants. 13:1032. | | Reference: April 5th, 2024
Gene Product: June 18th, 2018
Variation: December 27th, 2017
Gene Model: December 27th, 2017
|
| 33 days ago | lac4 | laccase4: | | GRMZM2G072780
| Bi, YQ et al. 2024. Identification of a novel marker and its associated laccase gene for regulating ear length in tropical and subtropical maize lines. Theor Appl Genet. 137:94. | | Reference: April 5th, 2024
Gene Product: March 31st, 2018
Gene Model: March 31st, 2018
|
| 33 days ago | bsu1 | brassinosteroid insensitive suppressor protein1: | | GRMZM2G028700
| Zebosi, B et al. 2024. Conservation and diversification of genes regulating brassinosteroid biosynthesis and signaling bioRxiv preprint. :doi: 10.1101/2024.03.26.586792. | AT1G08420 (TAIR) | Reference: April 5th, 2024
Gene Product: October 25th, 2021
Variation: April 8th, 2021
Gene Model: June 21st, 2019
|
| 33 days ago | laz3 | lazarus ortholog3: | | GRMZM2G122045
| Yu, HQ et al. 2024. Maize ZmLAZ1-3 gene negatively regulates drought tolerance in transgenic Arabidopsis. BMC Plant Biology. 24:246. | | Reference: April 5th, 2024
Gene Product: July 27th, 2019
Gene Model: July 27th, 2019
|
| 33 days ago | prh48 | protein phosphatase homolog48: | | GRMZM2G112925
| Fengyun Ran et al. 2024. Studies on Candidate Genes Related to Flowering Time in a Multiparent Population of Maize Derived from Tropical and Temperate Germplasm Plants. 13:1032. | | Reference: April 5th, 2024
Gene Product: October 25th, 2021
Gene Model: November 24th, 2021
|
| 33 days ago | gsk7 | glycogen synthase kinase7: | | GRMZM2G155836
| Zebosi, B et al. 2024. Conservation and diversification of genes regulating brassinosteroid biosynthesis and signaling bioRxiv preprint. :doi: 10.1101/2024.03.26.586792. | | Reference: April 5th, 2024
Gene Product: February 22nd, 2022
Gene Model: February 22nd, 2022
|
| 33 days ago | gsk8 | glycogen synthase kinase8: | | GRMZM2G131853
| Zebosi, B et al. 2024. Conservation and diversification of genes regulating brassinosteroid biosynthesis and signaling bioRxiv preprint. :doi: 10.1101/2024.03.26.586792. | | Reference: April 5th, 2024
Gene Product: February 22nd, 2022
Gene Model: February 22nd, 2022
|
| 33 days ago | gsk9 | glycogen synthase kinase9: | | GRMZM2G109624
| Zebosi, B et al. 2024. Conservation and diversification of genes regulating brassinosteroid biosynthesis and signaling bioRxiv preprint. :doi: 10.1101/2024.03.26.586792. | | Reference: April 5th, 2024
Gene Product: February 22nd, 2022
Gene Model: February 22nd, 2022
|
| 33 days ago | his305 | histone305: | | GRMZM2G418258
| Fengyun Ran et al. 2024. Studies on Candidate Genes Related to Flowering Time in a Multiparent Population of Maize Derived from Tropical and Temperate Germplasm Plants. 13:1032. | | Reference: April 5th, 2024
Gene Product: June 15th, 2021
Gene Model: April 11th, 2022
|
| 33 days ago | sweet13a | sugars will eventually be exported transporter13a: | 10.03 | GRMZM2G173669
| Fengyun Ran et al. 2024. Studies on Candidate Genes Related to Flowering Time in a Multiparent Population of Maize Derived from Tropical and Temperate Germplasm Plants. 13:1032. | | Reference: April 5th, 2024
Gene Product: November 4th, 2015
Variation: February 17th, 2018
Gene Model: December 28th, 2017
|
| 33 days ago | camta8 | CAMTA-transcription factor 8: | 9.04 | GRMZM2G431243
| Fengyun Ran et al. 2024. Studies on Candidate Genes Related to Flowering Time in a Multiparent Population of Maize Derived from Tropical and Temperate Germplasm Plants. 13:1032. | | Reference: April 5th, 2024
Variation: September 25th, 2007
Gene Model: January 12th, 2019
|
| 33 days ago | natl1 | nana2-like1: | | GRMZM2G455658
| Zebosi, B et al. 2024. Conservation and diversification of genes regulating brassinosteroid biosynthesis and signaling bioRxiv preprint. :doi: 10.1101/2024.03.26.586792. | AT3G19820 (TAIR) | Reference: April 5th, 2024
Gene Product: June 13th, 2016
Gene Model: June 13th, 2016
|
| 34 days ago | grrf9 | growth-regulating factor9: | 5.08 - 5.08 | GRMZM5G893117
| Dandan Zhang et al. 2024. A new model construction based on the knowledge graph for mining elite polyphenotype genes in crops. Frontiers in Plant Science. 15:1361716. | | Reference: April 4th, 2024
Variation: March 30th, 2017
Gene Model: March 30th, 2017
|
| 34 days ago | hsp70-17 | heat shock protein70-17: | 5.01 | GRMZM2G111475
| Ze Li et al. 2024. The Heat shock factor 20-HSF4-Cellulose synthase A2 module regulates heat stress tolerance in maize. Plant Cell. :doi: 10.1093/plcell/koae106. | | Reference: April 4th, 2024
Gene Product: September 1st, 2003
Gene Model: June 16th, 2018
|
| 34 days ago | hsftf14 | HSF-transcription factor 14: | | | Ze Li et al. 2024. The Heat shock factor 20-HSF4-Cellulose synthase A2 module regulates heat stress tolerance in maize. Plant Cell. :doi: 10.1093/plcell/koae106. | | Reference: April 4th, 2024
Gene Product: May 15th, 2020
|
| 34 days ago | hsftf17 | HSF-transcription factor 17: | | | Ze Li et al. 2024. The Heat shock factor 20-HSF4-Cellulose synthase A2 module regulates heat stress tolerance in maize. Plant Cell. :doi: 10.1093/plcell/koae106. | | Reference: April 4th, 2024
Gene Product: May 15th, 2020
|
| 34 days ago | ub3 | unbranched3: | | | Dandan Zhang et al. 2024. A new model construction based on the knowledge graph for mining elite polyphenotype genes in crops. Frontiers in Plant Science. 15:1361716. | | Reference: April 4th, 2024
Gene Product: July 5th, 2019
Variation: December 17th, 2014
|
| 34 days ago | ub2 | unbranched2: | | | Dandan Zhang et al. 2024. A new model construction based on the knowledge graph for mining elite polyphenotype genes in crops. Frontiers in Plant Science. 15:1361716. | | Reference: April 4th, 2024
Gene Product: July 5th, 2019
Variation: December 17th, 2014
|
| 34 days ago | cesa2 | cellulose synthase2: | 6.05 | | Ze Li et al. 2024. The Heat shock factor 20-HSF4-Cellulose synthase A2 module regulates heat stress tolerance in maize. Plant Cell. :doi: 10.1093/plcell/koae106. | | Reference: April 4th, 2024
Gene Product: October 7th, 2016
Variation: October 9th, 2012
|
| 34 days ago | fah1 | ferulic acid 5-hydroxylase1: | | AC210173.4_FG005
| Ze Li et al. 2024. The Heat shock factor 20-HSF4-Cellulose synthase A2 module regulates heat stress tolerance in maize. Plant Cell. :doi: 10.1093/plcell/koae106. | AT4G36220 (TAIR)
LOC_Os10g36848 (MSU/TIGR) | Reference: April 4th, 2024
Gene Product: May 4th, 2018
Gene Model: June 23rd, 2016
|
| 34 days ago | hsp23 | heat shock protein23: | | GRMZM2G361605
| Ze Li et al. 2024. The Heat shock factor 20-HSF4-Cellulose synthase A2 module regulates heat stress tolerance in maize. Plant Cell. :doi: 10.1093/plcell/koae106. | | Reference: April 4th, 2024
Gene Product: September 1st, 2003
Gene Model: August 26th, 2020
|
| 35 days ago | pin16 | PIN-formed protein16: | | | Pei, L et al. 2024. A microRNA528-ZmLac3 module regulates low phosphate tolerance in maize. Plant J. :doi: 10.1111/tpj.16741. | AT5G57090 (TAIR) | Reference: April 3rd, 2024
Gene Product: April 3rd, 2024
|
| 35 days ago | pin12 | PIN-formed protein12: | 9.02 | GRMZM2G160496
| Yuanyuan Liang et al. 2024. Fulvic acid alleviates the stress of low nitrogen on maize by promoting root development and nitrogen metabolism. Physiol Plant. 176:e14249. | | Reference: March 13th, 2024
Gene Product: April 3rd, 2024
Gene Model: January 24th, 2013
|
| 35 days ago | pin14 | PIN-formed protein14: | 3.06 | GRMZM2G050089
| Chuanxi Peng et al. 2024. Unveiling the Regulatory Role of miRNAs in Internode Elongation: Integrated Analysis of MicroRNA and mRNA Expression Profiles across Diverse Dwarfing Treatments in Maize (Zea mays L.) J Agric Food Chem. :doi: 10.1021/acs.jafc.3c09507. | | Reference: March 25th, 2024
Gene Product: April 3rd, 2024
Gene Model: January 24th, 2013
|
| 35 days ago | lyce1 | lycopene epsilon cyclase1: | 8.05 | GRMZM2G012966
| Fanyu Wang et al. 2024. Exogenous salicylic acid promotes carotenoid accumulation and antioxidant capacity in germinated maize kernels by regulating carotenoid biosynthetic pathway Food Biosci. 59:103990. | | Reference: April 3rd, 2024
Gene Product: December 10th, 2011
Variation: October 9th, 2023
Gene Model: October 3rd, 2011
|
| 35 days ago | ps1 | pink scutellum1: | 5.04 - 5.04 | | Fanyu Wang et al. 2024. Exogenous salicylic acid promotes carotenoid accumulation and antioxidant capacity in germinated maize kernels by regulating carotenoid biosynthetic pathway Food Biosci. 59:103990. | | Reference: April 3rd, 2024
Gene Product: December 10th, 2011
Variation: March 30th, 2011
|
| 35 days ago | vp9 | viviparous9: | 7.02 | GRMZM2G454952
| Fanyu Wang et al. 2024. Exogenous salicylic acid promotes carotenoid accumulation and antioxidant capacity in germinated maize kernels by regulating carotenoid biosynthetic pathway Food Biosci. 59:103990. | | Reference: April 3rd, 2024
Gene Product: December 13th, 2011
Variation: September 26th, 2020
Gene Model: March 8th, 2013
|
| 35 days ago | y1 | yellow endosperm1: | 6.01 | GRMZM2G300348
| Fanyu Wang et al. 2024. Exogenous salicylic acid promotes carotenoid accumulation and antioxidant capacity in germinated maize kernels by regulating carotenoid biosynthetic pathway Food Biosci. 59:103990. | | Reference: April 3rd, 2024
Gene Product: December 14th, 2011
Variation: August 26th, 2014
Gene Model: September 22nd, 2011
|
| 35 days ago | aic1 | auxin import carrier1: | 1.05 | GRMZM2G129413
| Pei, L et al. 2024. A microRNA528-ZmLac3 module regulates low phosphate tolerance in maize. Plant J. :doi: 10.1111/tpj.16741. | AT2G21050 (TAIR) | Reference: April 3rd, 2024
Gene Product: September 1st, 2003
Variation: September 1st, 2003
Gene Model: November 21st, 2015
|
| 35 days ago | hyd2 | hydroxylase2: | | | Fanyu Wang et al. 2024. Exogenous salicylic acid promotes carotenoid accumulation and antioxidant capacity in germinated maize kernels by regulating carotenoid biosynthetic pathway Food Biosci. 59:103990. | | Reference: April 3rd, 2024
Gene Product: December 13th, 2011
|
| 35 days ago | pin6 | PIN-formed protein6: | | | Forestan, C; Farinati, Silvia; Varotto, S. 2012. Frontiers in Plant Science. 3:16 | | Reference: April 16th, 2014
Gene Product: April 3rd, 2024
|
| 35 days ago | pin5 | PIN-formed protein5: | | GRMZM2G025742
| Wesley Neher et al. 2023. The maize preligule band is subdivided into distinct domains with contrasting cellular properties prior to ligule outgrowth. Development. :doi: 10.1242/dev.201608. | | Reference: September 22nd, 2023
Gene Product: April 3rd, 2024
Gene Model: January 24th, 2013
|
| 35 days ago | pin7 | PIN-formed protein7: | | GRMZM2G148648
| Li, CY et al. 2023. Gene expression and eQTL analyses uncover natural variations underlying improvement of important agronomic traits during modern maize breeding Plant J. :doi: 10.1111/tpj.16260. | | Reference: April 26th, 2023
Gene Product: April 3rd, 2024
Gene Model: January 24th, 2013
|
| 35 days ago | pin11 | PIN-formed protein11: | | GRMZM2G040911
| Adak, A et al. 2024. Deciphering temporal growth patterns in maize: integrative modeling of phenotype dynamics and underlying genomic variations. New Phytol. :doi: 10.1111/nph.19575. | | Reference: February 13th, 2024
Gene Product: April 3rd, 2024
Gene Model: January 24th, 2013
|
| 35 days ago | pin13 | PIN-formed homolog13: | | | Craig L Cowling et al. 2023. Roles of auxin pathways in maize biology. J Exp Bot. | | Reference: July 26th, 2023
Gene Product: April 3rd, 2024
|
| 35 days ago | cyp14 | cytochrome P450 14: | | GRMZM5G837869
| Fanyu Wang et al. 2024. Exogenous salicylic acid promotes carotenoid accumulation and antioxidant capacity in germinated maize kernels by regulating carotenoid biosynthetic pathway Food Biosci. 59:103990. | | Reference: April 3rd, 2024
Gene Product: June 3rd, 2015
Variation: June 3rd, 2015
Gene Model: April 8th, 2013
|
| 35 days ago | pin15 | PIN-formed protein15: | | GRMZM2G403601
| Li, ZX et al. 2017. Plant Biotechnol J pp.doi: 10.1111/pbi.12751 | LOC_Os11g04190 (MSU/TIGR) | Reference: May 13th, 2017
Gene Product: April 3rd, 2024
Gene Model: May 13th, 2017
|
| 35 days ago | lac3 | laccase3: | | GRMZM2G169033
| Pei, L et al. 2024. A microRNA528-ZmLac3 module regulates low phosphate tolerance in maize. Plant J. :doi: 10.1111/tpj.16741. | | Reference: April 3rd, 2024
Gene Product: March 31st, 2018
Gene Model: March 31st, 2018
|
| 35 days ago | lac5 | laccase5: | | GRMZM2G367668
| Pei, L et al. 2024. A microRNA528-ZmLac3 module regulates low phosphate tolerance in maize. Plant J. :doi: 10.1111/tpj.16741. | | Reference: April 3rd, 2024
Gene Product: March 31st, 2018
Gene Model: March 31st, 2018
|
| 35 days ago | pin8 | PIN-formed protein8: | 3.07 | GRMZM5G839411
| Consonni, G et al. 2022. The Italian Research on the Molecular Characterization of Maize Kernel Development Int J Mol Sci. 23:11383. | | Reference: September 28th, 2022
Gene Product: April 3rd, 2024
Gene Model: January 24th, 2013
|
| 36 days ago | apx2 | ascorbate peroxidase2: | 2.08 | GRMZM2G140667
| Shah Mahmood Hamidi et al. 2024. Biochemical and Molecular Basis of Chemically Induced Defense Activation in Maize against Banded Leaf and Sheath Blight Disease Curr Issues Mol Biol. 46:3063-3080. | | Reference: April 2nd, 2024
Gene Product: September 1st, 2003
Variation: February 16th, 2015
Gene Model: February 16th, 2015
|
| 36 days ago | cat2 | catalase2: | 1.01 | | Shah Mahmood Hamidi et al. 2024. Biochemical and Molecular Basis of Chemically Induced Defense Activation in Maize against Banded Leaf and Sheath Blight Disease Curr Issues Mol Biol. 46:3063-3080. | | Reference: April 2nd, 2024
Gene Product: September 1st, 2003
Variation: September 21st, 2012
|
| 36 days ago | cat3 | catalase3: | 4.11 | | Shah Mahmood Hamidi et al. 2024. Biochemical and Molecular Basis of Chemically Induced Defense Activation in Maize against Banded Leaf and Sheath Blight Disease Curr Issues Mol Biol. 46:3063-3080. | | Reference: April 2nd, 2024
Gene Product: September 1st, 2003
Variation: March 2nd, 2007
|
| 36 days ago | geb1 | glucan endo-1,3-beta-glucosidase homolog1: | 3.05 | GRMZM2G065585
| Shah Mahmood Hamidi et al. 2024. Biochemical and Molecular Basis of Chemically Induced Defense Activation in Maize against Banded Leaf and Sheath Blight Disease Curr Issues Mol Biol. 46:3063-3080. | | Reference: April 2nd, 2024
Gene Product: September 1st, 2003
Variation: September 1st, 2003
Gene Model: October 30th, 2015
|
| 36 days ago | sod14 | superoxide dismutase14: | 1.07 | GRMZM2G106928
| Shah Mahmood Hamidi et al. 2024. Biochemical and Molecular Basis of Chemically Induced Defense Activation in Maize against Banded Leaf and Sheath Blight Disease Curr Issues Mol Biol. 46:3063-3080. | | Reference: April 2nd, 2024
Gene Product: October 4th, 2021
Gene Model: February 11th, 2020
|
| 36 days ago | ppo1 | polyphenol oxidase1: | 10.03 | GRMZM5G851266
| Shah Mahmood Hamidi et al. 2024. Biochemical and Molecular Basis of Chemically Induced Defense Activation in Maize against Banded Leaf and Sheath Blight Disease Curr Issues Mol Biol. 46:3063-3080. | | Reference: April 2nd, 2024
Gene Product: September 1st, 2003
Variation: January 21st, 2015
Gene Model: January 21st, 2015
|
| 37 days ago | ereb216 | AP2-EREBP-transcription factor 216: | | | Amaal Maghraby et al. 2024. Genome-wide identification and evolutionary analysis of the AP2/EREBP, COX and LTP genes in Zea mays L. under drought stress. Sci. Rep.. 14:7610. | | Reference: April 1st, 2024
Gene Product: July 5th, 2019
|
| 37 days ago | ereb219 | AP2-EREBP-transcription factor 219: | | | Amaal Maghraby et al. 2024. Genome-wide identification and evolutionary analysis of the AP2/EREBP, COX and LTP genes in Zea mays L. under drought stress. Sci. Rep.. 14:7610. | | Reference: April 1st, 2024
Gene Product: July 5th, 2019
|
| 37 days ago | ereb227 | AP2-EREBP-transcription factor 227: | | | Amaal Maghraby et al. 2024. Genome-wide identification and evolutionary analysis of the AP2/EREBP, COX and LTP genes in Zea mays L. under drought stress. Sci. Rep.. 14:7610. | | Reference: April 1st, 2024
Gene Product: July 5th, 2019
|
| 37 days ago | ereb238 | AP2-EREBP-transcription factor 238: | | | Amaal Maghraby et al. 2024. Genome-wide identification and evolutionary analysis of the AP2/EREBP, COX and LTP genes in Zea mays L. under drought stress. Sci. Rep.. 14:7610. | | Reference: April 1st, 2024
Gene Product: July 5th, 2019
|
| 37 days ago | plt8 | phospholipid transfer protein8: | | | Amaal Maghraby et al. 2024. Genome-wide identification and evolutionary analysis of the AP2/EREBP, COX and LTP genes in Zea mays L. under drought stress. Sci. Rep.. 14:7610. | | Reference: April 1st, 2024
Gene Product: September 1st, 2003
|
| 37 days ago | plt9 | phospholipid transfer protein9: | | | Amaal Maghraby et al. 2024. Genome-wide identification and evolutionary analysis of the AP2/EREBP, COX and LTP genes in Zea mays L. under drought stress. Sci. Rep.. 14:7610. | | Reference: April 1st, 2024
Gene Product: September 1st, 2003
|
| 37 days ago | plt11 | phospholipid transfer protein11: | | | Amaal Maghraby et al. 2024. Genome-wide identification and evolutionary analysis of the AP2/EREBP, COX and LTP genes in Zea mays L. under drought stress. Sci. Rep.. 14:7610. | | Reference: April 1st, 2024
Gene Product: September 1st, 2003
|
| 37 days ago | ereb221 | AP2-EREBP-transcription factor 221: | | | Amaal Maghraby et al. 2024. Genome-wide identification and evolutionary analysis of the AP2/EREBP, COX and LTP genes in Zea mays L. under drought stress. Sci. Rep.. 14:7610. | | Reference: April 1st, 2024
Gene Product: July 5th, 2019
|
| 37 days ago | cox16 | cytochrome c oxidase16: | | | Amaal Maghraby et al. 2024. Genome-wide identification and evolutionary analysis of the AP2/EREBP, COX and LTP genes in Zea mays L. under drought stress. Sci. Rep.. 14:7610. | | Reference: April 1st, 2024
Gene Product: September 1st, 2003
|
| 37 days ago | cox12 | cytochrome c oxidase12: | | | Amaal Maghraby et al. 2024. Genome-wide identification and evolutionary analysis of the AP2/EREBP, COX and LTP genes in Zea mays L. under drought stress. Sci. Rep.. 14:7610. | | Reference: April 1st, 2024
Gene Product: September 1st, 2003
|
| 37 days ago | cox13 | cytochrome c oxidase13: | | | Amaal Maghraby et al. 2024. Genome-wide identification and evolutionary analysis of the AP2/EREBP, COX and LTP genes in Zea mays L. under drought stress. Sci. Rep.. 14:7610. | | Reference: April 1st, 2024
Gene Product: September 1st, 2003
|
| 37 days ago | cox14 | cytochrome c oxidase14: | | | Amaal Maghraby et al. 2024. Genome-wide identification and evolutionary analysis of the AP2/EREBP, COX and LTP genes in Zea mays L. under drought stress. Sci. Rep.. 14:7610. | | Reference: April 1st, 2024
Gene Product: September 1st, 2003
|
| 37 days ago | plt57 | phospholipid transfer protein57: | | | Amaal Maghraby et al. 2024. Genome-wide identification and evolutionary analysis of the AP2/EREBP, COX and LTP genes in Zea mays L. under drought stress. Sci. Rep.. 14:7610. | | Reference: April 1st, 2024
Gene Product: September 1st, 2003
|
| 37 days ago | plt33 | phospholipid transfer protein33: | 1.02 | GRMZM5G850455
| Amaal Maghraby et al. 2024. Genome-wide identification and evolutionary analysis of the AP2/EREBP, COX and LTP genes in Zea mays L. under drought stress. Sci. Rep.. 14:7610. | | Reference: April 1st, 2024
Gene Product: September 1st, 2003
Gene Model: April 12th, 2021
|
| 37 days ago | plt2 | phospholipid transfer protein homolog2: | 3.09 | | Amaal Maghraby et al. 2024. Genome-wide identification and evolutionary analysis of the AP2/EREBP, COX and LTP genes in Zea mays L. under drought stress. Sci. Rep.. 14:7610. | | Reference: April 1st, 2024
Gene Product: September 1st, 2003
Variation: September 1st, 2003
|
| 37 days ago | c2 | colorless2: | 4.08 | | Souza Mello, C et al. 2012. Sodium nitroprusside modulates gene expression involved in glutathione synthesis in Zea mays leaves Biol Plant. 56:383–388. | | Reference: April 1st, 2024
Gene Product: September 1st, 2003
Variation: July 12th, 2021
|
| 37 days ago | cat1 | catalase1: | 5.03 | | Zhang, YF et al. 2024. Adenosine triphosphate alleviates high temperature-enhanced glyphosate toxicity in maize seedlings Plant Physiol Biochem. 210:108550. | | Reference: April 1st, 2024
Gene Product: September 1st, 2003
Variation: September 1st, 2003
|
| 37 days ago | gpc2 | glyceraldehyde-3-phosphate dehydrogenase2: | 6.00 - 6.01 | | Silveira, PR et al. 2019. Changes in leaf gas exchange, chlorophyll a fluorescence, and antioxidantsin maize leaves infected by Exserohilum turcicum Biol Plant. 63:643-653. | | Reference: April 1st, 2024
Gene Product: September 1st, 2003
Variation: December 13th, 2012
|
| 37 days ago | ereb144 | AP2-EREBP-transcription factor 144: | 5.04 | GRMZM2G005301
| Amaal Maghraby et al. 2024. Genome-wide identification and evolutionary analysis of the AP2/EREBP, COX and LTP genes in Zea mays L. under drought stress. Sci. Rep.. 14:7610. | | Reference: April 1st, 2024
Variation: September 1st, 2003
Gene Model: June 28th, 2018
|
| 37 days ago | plt10 | phospholipid transfer protein10: | 10.01 | GRMZM5G898755
| Amaal Maghraby et al. 2024. Genome-wide identification and evolutionary analysis of the AP2/EREBP, COX and LTP genes in Zea mays L. under drought stress. Sci. Rep.. 14:7610. | | Reference: April 1st, 2024
Gene Product: September 1st, 2003
Variation: September 1st, 2003
Gene Model: September 16th, 2017
|
| 37 days ago | ereb102 | AP2-EREBP-transcription factor 102: | 7.02 | GRMZM2G052667
| Xun-Ge Zhu et al. 2024. Ancient Duplication and Lineage-Specific Transposition Determine Evolutionary Trajectory of ERF Subfamily across Angiosperms Int J Mol Sci. 25:3941. | | Reference: April 1st, 2024
Variation: September 1st, 2003
Gene Model: September 6th, 2018
|
| 37 days ago | plt7 | phospholipid transfer protein7: | 3.09 | GRMZM2G107839
| Amaal Maghraby et al. 2024. Genome-wide identification and evolutionary analysis of the AP2/EREBP, COX and LTP genes in Zea mays L. under drought stress. Sci. Rep.. 14:7610. | | Reference: April 1st, 2024
Gene Product: September 1st, 2003
Variation: September 1st, 2003
Gene Model: September 16th, 2017
|
| 37 days ago | ereb148 | AP2-EREBP-transcription factor 148: | | | Amaal Maghraby et al. 2024. Genome-wide identification and evolutionary analysis of the AP2/EREBP, COX and LTP genes in Zea mays L. under drought stress. Sci. Rep.. 14:7610. | | Reference: April 1st, 2024
Variation: May 4th, 2016
|
| 37 days ago | ereb156 | AP2-EREBP-transcription factor 156: | | | Amaal Maghraby et al. 2024. Genome-wide identification and evolutionary analysis of the AP2/EREBP, COX and LTP genes in Zea mays L. under drought stress. Sci. Rep.. 14:7610. | | Reference: April 1st, 2024
Variation: June 11th, 2016
|
| 37 days ago | ereb185 | AP2-EREBP-transcription factor 185: | | | Amaal Maghraby et al. 2024. Genome-wide identification and evolutionary analysis of the AP2/EREBP, COX and LTP genes in Zea mays L. under drought stress. Sci. Rep.. 14:7610. | | Reference: April 1st, 2024
Gene Product: April 10th, 2013
|
| 37 days ago | ereb61 | AP2-EREBP-transcription factor 61: | | | Amaal Maghraby et al. 2024. Genome-wide identification and evolutionary analysis of the AP2/EREBP, COX and LTP genes in Zea mays L. under drought stress. Sci. Rep.. 14:7610. | | Reference: April 1st, 2024
Variation: March 29th, 2021
|
| 37 days ago | ereb240 | AP2-EREBP-transcription factor 240: | 10.04 | GRMZM2G424348
| Amaal Maghraby et al. 2024. Genome-wide identification and evolutionary analysis of the AP2/EREBP, COX and LTP genes in Zea mays L. under drought stress. Sci. Rep.. 14:7610. | | Reference: April 1st, 2024
Gene Product: July 5th, 2019
Variation: November 11th, 2022
Gene Model: September 2nd, 2018
|
| 37 days ago | gst23 | glutathione transferase23: | 7.02 | GRMZM2G416632
| Silveira, PR et al. 2019. Changes in leaf gas exchange, chlorophyll a fluorescence, and antioxidantsin maize leaves infected by Exserohilum turcicum Biol Plant. 63:643-653. | | Reference: April 1st, 2024
Gene Product: September 1st, 2003
Variation: August 20th, 2010
Gene Model: July 27th, 2016
|
| 37 days ago | plt1 | phospholipid transfer protein homolog1: | 3.06 | GRMZM2G101958
| Amaal Maghraby et al. 2024. Genome-wide identification and evolutionary analysis of the AP2/EREBP, COX and LTP genes in Zea mays L. under drought stress. Sci. Rep.. 14:7610. | | Reference: April 1st, 2024
Gene Product: September 1st, 2003
Variation: March 17th, 2015
Gene Model: March 12th, 2015
|
| 37 days ago | cox15 | cytochrome c oxidase15: | 1.06 | | Amaal Maghraby et al. 2024. Genome-wide identification and evolutionary analysis of the AP2/EREBP, COX and LTP genes in Zea mays L. under drought stress. Sci. Rep.. 14:7610. | | Reference: April 1st, 2024
Gene Product: September 1st, 2003
Variation: July 29th, 2004
|
| 37 days ago | gshs2 | glutathione synthetase2: | 3.05 | GRMZM2G155974
| Souza Mello, C et al. 2012. Sodium nitroprusside modulates gene expression involved in glutathione synthesis in Zea mays leaves Biol Plant. 56:383–388. | | Reference: April 1st, 2024
Gene Product: December 2nd, 2018
Variation: September 25th, 2007
Gene Model: December 1st, 2018
|
| 37 days ago | cox11 | cytochrome c oxidase11: | | GRMZM2G338696
| Amaal Maghraby et al. 2024. Genome-wide identification and evolutionary analysis of the AP2/EREBP, COX and LTP genes in Zea mays L. under drought stress. Sci. Rep.. 14:7610. | | Reference: April 1st, 2024
Gene Product: September 1st, 2003
Gene Model: November 7th, 2019
|
| 37 days ago | plt3 | phospholipid transfer protein homolog3: | 3.06 | GRMZM2G126397
| Amaal Maghraby et al. 2024. Genome-wide identification and evolutionary analysis of the AP2/EREBP, COX and LTP genes in Zea mays L. under drought stress. Sci. Rep.. 14:7610. | | Reference: April 1st, 2024
Gene Product: September 1st, 2003
Variation: January 8th, 2017
Gene Model: January 6th, 2017
|
| 37 days ago | dbf2 | DRE-binding protein 2: | 9.04 | GRMZM5G889719
| Amaal Maghraby et al. 2024. Genome-wide identification and evolutionary analysis of the AP2/EREBP, COX and LTP genes in Zea mays L. under drought stress. Sci. Rep.. 14:7610. | | Reference: April 1st, 2024
Gene Product: April 10th, 2013
Gene Model: July 27th, 2016
|
| 37 days ago | ereb237 | AP2-EREBP-transcription factor 237: | 9.03 | | Amaal Maghraby et al. 2024. Genome-wide identification and evolutionary analysis of the AP2/EREBP, COX and LTP genes in Zea mays L. under drought stress. Sci. Rep.. 14:7610. | | Reference: April 1st, 2024
Gene Product: July 5th, 2019
|
| 40 days ago | Zm00001d007549 | : | | | Yin, PF et al. 2024. Linkage and association mapping in multi-parental populations reveal the genetic basis of carotenoid variation in maize kernels. Plant Biotechnol J. | LOC_Os11g37650 (MSU/TIGR)
Os11g0587000 (Gramene) | Reference: March 29th, 2024
Gene Product: January 6th, 2023
|
| 40 days ago | adf14 | actin depolymerizing factor14: | | | Ruisi Yang et al. 2024. The Role of the ADF Gene Family in Maize Response to Abiotic Stresses Agronomy. 14:717. | | Reference: March 29th, 2024
Gene Product: March 4th, 2020
|
| 40 days ago | nced11 | nine-cis-epoxycarotenoid dioxygenase11: | | | Yin, PF et al. 2024. Linkage and association mapping in multi-parental populations reveal the genetic basis of carotenoid variation in maize kernels. Plant Biotechnol J. | | Reference: March 29th, 2024
Gene Product: September 20th, 2012
|
| 40 days ago | nced12 | nine-cis-epoxycarotenoid dioxygenase12: | | | Yin, PF et al. 2024. Linkage and association mapping in multi-parental populations reveal the genetic basis of carotenoid variation in maize kernels. Plant Biotechnol J. | | Reference: March 29th, 2024
Gene Product: September 20th, 2012
|
| 40 days ago | nced13 | nine-cis-epoxycarotenoid dioxygenase13: | | | Yin, PF et al. 2024. Linkage and association mapping in multi-parental populations reveal the genetic basis of carotenoid variation in maize kernels. Plant Biotechnol J. | | Reference: March 29th, 2024
Gene Product: September 20th, 2012
|
| 40 days ago | nced14 | nine-cis-epoxycarotenoid dioxygenase14: | | | Yin, PF et al. 2024. Linkage and association mapping in multi-parental populations reveal the genetic basis of carotenoid variation in maize kernels. Plant Biotechnol J. | | Reference: March 29th, 2024
Gene Product: September 20th, 2012
|
| 40 days ago | aaap72 | amino acid/auxin permease72: | | | Islam, MN et al. 2024. Genome-wide identification following functional analysis of amino acid permease and cationic amino acid transporter gene families in maize and their role in drought stress S Afr J Bot. 168:360-371. | | Reference: March 29th, 2024
Gene Product: March 31st, 2021
|
| 40 days ago | caat2 | cationic amino acid transporter2: | | | Islam, MN et al. 2024. Genome-wide identification following functional analysis of amino acid permease and cationic amino acid transporter gene families in maize and their role in drought stress S Afr J Bot. 168:360-371. | | Reference: March 29th, 2024
Gene Product: March 29th, 2024
|
| 40 days ago | caat3 | cationic amino acid transporter3: | | | Islam, MN et al. 2024. Genome-wide identification following functional analysis of amino acid permease and cationic amino acid transporter gene families in maize and their role in drought stress S Afr J Bot. 168:360-371. | | Reference: March 29th, 2024
Gene Product: March 29th, 2024
|
| 40 days ago | caat4 | cationic amino acid transporter4: | | | Islam, MN et al. 2024. Genome-wide identification following functional analysis of amino acid permease and cationic amino acid transporter gene families in maize and their role in drought stress S Afr J Bot. 168:360-371. | | Reference: March 29th, 2024
Gene Product: March 29th, 2024
|
| 40 days ago | caat6 | cationic amino acid transporter6: | | | Islam, MN et al. 2024. Genome-wide identification following functional analysis of amino acid permease and cationic amino acid transporter gene families in maize and their role in drought stress S Afr J Bot. 168:360-371. | | Reference: March 29th, 2024
Gene Product: March 29th, 2024
|
| 40 days ago | caat7 | cationic amino acid transporter7: | | | Islam, MN et al. 2024. Genome-wide identification following functional analysis of amino acid permease and cationic amino acid transporter gene families in maize and their role in drought stress S Afr J Bot. 168:360-371. | | Reference: March 29th, 2024
Gene Product: March 29th, 2024
|
| 40 days ago | caat9 | cationic amino acid transporter9: | | | Islam, MN et al. 2024. Genome-wide identification following functional analysis of amino acid permease and cationic amino acid transporter gene families in maize and their role in drought stress S Afr J Bot. 168:360-371. | | Reference: March 29th, 2024
Gene Product: March 29th, 2024
|
| 40 days ago | caat12 | cationic amino acid transporter12: | | | Islam, MN et al. 2024. Genome-wide identification following functional analysis of amino acid permease and cationic amino acid transporter gene families in maize and their role in drought stress S Afr J Bot. 168:360-371. | | Reference: March 29th, 2024
Gene Product: March 29th, 2024
|
| 40 days ago | caat13 | cationic amino acid transporter13: | | | Islam, MN et al. 2024. Genome-wide identification following functional analysis of amino acid permease and cationic amino acid transporter gene families in maize and their role in drought stress S Afr J Bot. 168:360-371. | | Reference: March 29th, 2024
Gene Product: March 29th, 2024
|
| 40 days ago | caat14 | cationic amino acid transporter14: | | | Islam, MN et al. 2024. Genome-wide identification following functional analysis of amino acid permease and cationic amino acid transporter gene families in maize and their role in drought stress S Afr J Bot. 168:360-371. | | Reference: March 29th, 2024
Gene Product: March 29th, 2024
|
| 40 days ago | adf15 | actin depolymerizing factor15: | | | Ruisi Yang et al. 2024. The Role of the ADF Gene Family in Maize Response to Abiotic Stresses Agronomy. 14:717. | | Reference: March 29th, 2024
Gene Product: March 4th, 2020
|
| 40 days ago | caat15 | cationic amino acid transporter15: | | | | | Gene Product: March 29th, 2024
|
| 40 days ago | LOC100285888 | : | | | | | Gene Product: March 29th, 2024
|
| 40 days ago | LOC100284962 | : | | | | | Gene Product: March 29th, 2024
|
| 40 days ago | bap2 | basal layer antifungal protein2: | 4.05 | | He, J et al. 2024. Toward unveiling transcriptome dynamics and regulatory modules at the maternal/filial interface of developing maize kernel. Plant J. :doi: 10.1111/tpj.16733. | | Reference: March 29th, 2024
Gene Product: September 1st, 2003
Variation: September 1st, 2003
|
| 40 days ago | betl3 | basal endosperm transfer layer3: | 3.05 | | He, J et al. 2024. Toward unveiling transcriptome dynamics and regulatory modules at the maternal/filial interface of developing maize kernel. Plant J. :doi: 10.1111/tpj.16733. | | Reference: March 29th, 2024
Variation: October 21st, 2013
|
| 40 days ago | cap1 | calcium pump1: | 8.05 | | He, J et al. 2024. Toward unveiling transcriptome dynamics and regulatory modules at the maternal/filial interface of developing maize kernel. Plant J. :doi: 10.1111/tpj.16733. | | Reference: March 29th, 2024
Gene Product: May 20th, 2015
Variation: September 1st, 2003
|
| 40 days ago | adf1 | actin depolymerizing factor1: | 7.03 | | Ruisi Yang et al. 2024. The Role of the ADF Gene Family in Maize Response to Abiotic Stresses Agronomy. 14:717. | | Reference: March 29th, 2024
Gene Product: September 1st, 2003
Variation: July 22nd, 2015
|
| 40 days ago | sca1 | short chain alcohol dehydrogenase1: | 5.00 | GRMZM2G332976
| Yin, PF et al. 2024. Linkage and association mapping in multi-parental populations reveal the genetic basis of carotenoid variation in maize kernels. Plant Biotechnol J. | | Reference: March 29th, 2024
Gene Product: September 1st, 2003
Variation: July 27th, 2013
Gene Model: June 23rd, 2015
|
| 40 days ago | adf4 | Actin-depolymerizing factor 4: | 6.01 | | Ruisi Yang et al. 2024. The Role of the ADF Gene Family in Maize Response to Abiotic Stresses Agronomy. 14:717. | | Reference: March 29th, 2024
Gene Product: March 4th, 2020
|
| 40 days ago | ao3 | aldehyde oxidase3: | 1.11 | GRMZM2G019799
| Yin, PF et al. 2024. Linkage and association mapping in multi-parental populations reveal the genetic basis of carotenoid variation in maize kernels. Plant Biotechnol J. | | Reference: March 29th, 2024
Gene Product: February 5th, 2013
Gene Model: February 5th, 2013
|
| 40 days ago | caat11 | cationic amino acid transporter11: | 4.06 | GRMZM2G045704
| Islam, MN et al. 2024. Genome-wide identification following functional analysis of amino acid permease and cationic amino acid transporter gene families in maize and their role in drought stress S Afr J Bot. 168:360-371. | | Reference: March 29th, 2024
Gene Product: March 29th, 2024
Gene Model: May 24th, 2021
|
| 40 days ago | sweet1a | sugars will eventually be exported transporter1a: | 3.06 | GRMZM2G039365
| He, J et al. 2024. Toward unveiling transcriptome dynamics and regulatory modules at the maternal/filial interface of developing maize kernel. Plant J. :doi: 10.1111/tpj.16733. | | Reference: March 29th, 2024
Gene Product: November 4th, 2015
Gene Model: November 3rd, 2015
|
| 40 days ago | almt1 | aluminum-activated malate transporter homolog1: | 2.04 | AC233887.1_FG005
| He, J et al. 2024. Toward unveiling transcriptome dynamics and regulatory modules at the maternal/filial interface of developing maize kernel. Plant J. :doi: 10.1111/tpj.16733. | AT1G08440 (TAIR) | Reference: March 29th, 2024
Gene Product: March 16th, 2022
Gene Model: April 28th, 2021
|
| 40 days ago | psy2 | phytoene synthase2: | 8.07 | GRMZM2G149317
| Yin, PF et al. 2024. Linkage and association mapping in multi-parental populations reveal the genetic basis of carotenoid variation in maize kernels. Plant Biotechnol J. | | Reference: March 29th, 2024
Gene Product: December 14th, 2011
Variation: May 12th, 2013
Gene Model: June 8th, 2012
|
| 40 days ago | tcrr1 | transfer cell response regulator1: | 4.05 | GRMZM2G016145
| He, J et al. 2024. Toward unveiling transcriptome dynamics and regulatory modules at the maternal/filial interface of developing maize kernel. Plant J. :doi: 10.1111/tpj.16733. | | Reference: March 29th, 2024
Gene Product: January 16th, 2021
Variation: December 31st, 2015
Gene Model: December 31st, 2015
|
| 40 days ago | lw1 | lemon white1: | 1.10 | GRMZM2G027059
| Yin, PF et al. 2024. Linkage and association mapping in multi-parental populations reveal the genetic basis of carotenoid variation in maize kernels. Plant Biotechnol J. | | Reference: March 29th, 2024
Gene Product: June 20th, 2012
Variation: March 10th, 2016
Gene Model: January 8th, 2014
|
| 40 days ago | lw2 | lemon white2: | 5.05 | GRMZM2G137409
| Yin, PF et al. 2024. Linkage and association mapping in multi-parental populations reveal the genetic basis of carotenoid variation in maize kernels. Plant Biotechnol J. | | Reference: March 29th, 2024
Gene Product: February 8th, 2019
Variation: October 22nd, 2020
Gene Model: February 8th, 2019
|
| 40 days ago | vp5 | viviparous5: | 1.02 - 1.02 | | Yin, PF et al. 2024. Linkage and association mapping in multi-parental populations reveal the genetic basis of carotenoid variation in maize kernels. Plant Biotechnol J. | | Reference: March 29th, 2024
Gene Product: December 13th, 2011
Variation: March 4th, 2014
|
| 40 days ago | wc1 | white cap1: | 9.07 | | Yin, PF et al. 2024. Linkage and association mapping in multi-parental populations reveal the genetic basis of carotenoid variation in maize kernels. Plant Biotechnol J. | | Reference: March 29th, 2024
Gene Product: September 20th, 2012
Variation: October 5th, 2012
|
| 40 days ago | y9 | pale yellow9: | 10.03 - 10.03 | GRMZM2G011746
| Yin, PF et al. 2024. Linkage and association mapping in multi-parental populations reveal the genetic basis of carotenoid variation in maize kernels. Plant Biotechnol J. | | Reference: March 29th, 2024
Gene Product: December 10th, 2011
Variation: September 28th, 2011
Gene Model: September 22nd, 2011
|
| 40 days ago | crti3 | carotene isomerase3: | 5.00 | GRMZM2G144273
| Yin, PF et al. 2024. Linkage and association mapping in multi-parental populations reveal the genetic basis of carotenoid variation in maize kernels. Plant Biotechnol J. | | Reference: March 29th, 2024
Gene Product: December 10th, 2011
Gene Model: June 14th, 2018
|
| 40 days ago | mmc0381 | : | 2.08 | GRMZM2G003409
| He, J et al. 2024. Toward unveiling transcriptome dynamics and regulatory modules at the maternal/filial interface of developing maize kernel. Plant J. :doi: 10.1111/tpj.16733. | | Reference: March 29th, 2024
Gene Product: April 8th, 2022
Gene Model: February 6th, 2018
|
| 40 days ago | adf5 | actin depolymerizing factor5: | 1.03 | GRMZM2G077942
| Ruisi Yang et al. 2024. The Role of the ADF Gene Family in Maize Response to Abiotic Stresses Agronomy. 14:717. | | Reference: March 29th, 2024
Gene Product: March 4th, 2020
Variation: March 4th, 2016
Gene Model: March 3rd, 2016
|
| 40 days ago | aaap69 | amino acid/auxin permease69: | 10.04 | GRMZM2G173597
| Islam, MN et al. 2024. Genome-wide identification following functional analysis of amino acid permease and cationic amino acid transporter gene families in maize and their role in drought stress S Afr J Bot. 168:360-371. | | Reference: March 29th, 2024
Gene Product: March 31st, 2021
Variation: March 18th, 2021
Gene Model: December 12th, 2017
|
| 40 days ago | ippi1 | isopentenyl pyrophosphate isomerase1: | 7.03 | GRMZM2G108285
| Yin, PF et al. 2024. Linkage and association mapping in multi-parental populations reveal the genetic basis of carotenoid variation in maize kernels. Plant Biotechnol J. | | Reference: March 29th, 2024
Gene Product: December 10th, 2011
Variation: September 1st, 2003
Gene Model: September 11th, 2018
|
| 40 days ago | adf2 | actin depolymerizing factor2: | 7.03 | GRMZM2G097122
| Ruisi Yang et al. 2024. The Role of the ADF Gene Family in Maize Response to Abiotic Stresses Agronomy. 14:717. | | Reference: March 29th, 2024
Gene Product: September 1st, 2003
Variation: July 22nd, 2015
Gene Model: July 22nd, 2015
|
| 40 days ago | betl4 | basal endosperm transfer layer4: | | GRMZM2G073290
| He, J et al. 2024. Toward unveiling transcriptome dynamics and regulatory modules at the maternal/filial interface of developing maize kernel. Plant J. :doi: 10.1111/tpj.16733. | | Reference: March 29th, 2024
Gene Product: September 1st, 2003
Variation: September 1st, 2003
Gene Model: July 4th, 2014
|
| 40 days ago | cyp15 | cytochrome P450 15: | 4.09 | GRMZM2G010221
| Yin, PF et al. 2024. Linkage and association mapping in multi-parental populations reveal the genetic basis of carotenoid variation in maize kernels. Plant Biotechnol J. | | Reference: March 29th, 2024
Gene Product: April 29th, 2013
Gene Model: May 31st, 2018
|
| 40 days ago | adf3 | actin depolymerizing factor3: | 1.11 | GRMZM2G060702
| Ruisi Yang et al. 2024. The Role of the ADF Gene Family in Maize Response to Abiotic Stresses Agronomy. 14:717. | | Reference: March 29th, 2024
Gene Product: March 4th, 2020
Variation: October 19th, 2017
Gene Model: October 19th, 2017
|
| 40 days ago | cmk1 | cytidine methyl kinase1: | 3.06 | GRMZM5G859195
| Yin, PF et al. 2024. Linkage and association mapping in multi-parental populations reveal the genetic basis of carotenoid variation in maize kernels. Plant Biotechnol J. | | Reference: March 29th, 2024
Gene Product: October 9th, 2014
Gene Model: October 4th, 2014
|
| 40 days ago | php20075a(gast) | : | 10.01 | GRMZM2G172596
| He, J et al. 2024. Toward unveiling transcriptome dynamics and regulatory modules at the maternal/filial interface of developing maize kernel. Plant J. :doi: 10.1111/tpj.16733. | | Reference: March 29th, 2024
Gene Product: September 1st, 2003
Variation: September 1st, 2003
Gene Model: April 25th, 2017
|
| 40 days ago | sweet4c | sugars will eventually be exported transporter4c: | 5.04 | GRMZM2G137954
| He, J et al. 2024. Toward unveiling transcriptome dynamics and regulatory modules at the maternal/filial interface of developing maize kernel. Plant J. :doi: 10.1111/tpj.16733. | LOC_Os02g19820 (MSU/TIGR) | Reference: March 29th, 2024
Gene Product: November 4th, 2015
Variation: January 11th, 2023
Gene Model: November 3rd, 2015
|
| 40 days ago | dxr2 | deoxy xylulose reductoisomerase2: | 8.01 | GRMZM2G036290
| Yin, PF et al. 2024. Linkage and association mapping in multi-parental populations reveal the genetic basis of carotenoid variation in maize kernels. Plant Biotechnol J. | | Reference: March 29th, 2024
Gene Product: December 10th, 2011
Gene Model: September 16th, 2018
|
| 40 days ago | AY110632 | : | 1.03 | GRMZM2G032047
| Yin, PF et al. 2024. Linkage and association mapping in multi-parental populations reveal the genetic basis of carotenoid variation in maize kernels. Plant Biotechnol J. | | Reference: March 29th, 2024
Variation: July 29th, 2004
Gene Model: June 8th, 2017
|
| 40 days ago | aaap65 | amino acid/auxin permease65: | 10.02 | GRMZM2G433162
| Islam, MN et al. 2024. Genome-wide identification following functional analysis of amino acid permease and cationic amino acid transporter gene families in maize and their role in drought stress S Afr J Bot. 168:360-371. | | Reference: March 29th, 2024
Gene Product: March 31st, 2021
Gene Model: December 28th, 2017
|
| 40 days ago | meg1 | maternally expressed gene1: | 7.01 | | He, J et al. 2024. Toward unveiling transcriptome dynamics and regulatory modules at the maternal/filial interface of developing maize kernel. Plant J. :doi: 10.1111/tpj.16733. | | Reference: March 29th, 2024
Variation: January 2nd, 2022
|
| 40 days ago | dnaJ2 | DnaJ/Hsp40 2: | 1.03 | GRMZM2G703555
| Yin, PF et al. 2024. Linkage and association mapping in multi-parental populations reveal the genetic basis of carotenoid variation in maize kernels. Plant Biotechnol J. | | Reference: March 29th, 2024
Gene Product: September 1st, 2003
Gene Model: February 5th, 2020
|
| 40 days ago | cl7681_1a | : | 1.09 | GRMZM2G088083
| | | Gene Product: March 29th, 2024
Gene Model: February 14th, 2020
|
| 40 days ago | caat5 | cationic amino acid transporter5: | 1.09 | | Islam, MN et al. 2024. Genome-wide identification following functional analysis of amino acid permease and cationic amino acid transporter gene families in maize and their role in drought stress S Afr J Bot. 168:360-371. | | Reference: March 29th, 2024
Gene Product: March 29th, 2024
|
| 40 days ago | adf12 | actin depolymerizing factor12: | 2.03 | GRMZM2G071327
| Ruisi Yang et al. 2024. The Role of the ADF Gene Family in Maize Response to Abiotic Stresses Agronomy. 14:717. | | Reference: March 29th, 2024
Gene Product: March 4th, 2020
Gene Model: March 4th, 2020
|
| 40 days ago | fps3 | farnesyl diphosphate synthase3: | 3.07 | GRMZM2G098569
| Yin, PF et al. 2024. Linkage and association mapping in multi-parental populations reveal the genetic basis of carotenoid variation in maize kernels. Plant Biotechnol J. | | Reference: March 29th, 2024
Gene Product: August 18th, 2015
Variation: August 12th, 2022
Gene Model: August 18th, 2015
|
| 40 days ago | meg3 | maternally expressed gene3: | 7.01 | GRMZM2G344323
| He, J et al. 2024. Toward unveiling transcriptome dynamics and regulatory modules at the maternal/filial interface of developing maize kernel. Plant J. :doi: 10.1111/tpj.16733. | | Reference: March 29th, 2024
Variation: October 25th, 2009
Gene Model: August 29th, 2014
|
| 40 days ago | zep2 | zeaxanthin epoxidase2: | | GRMZM5G848550
| Yin, PF et al. 2024. Linkage and association mapping in multi-parental populations reveal the genetic basis of carotenoid variation in maize kernels. Plant Biotechnol J. | | Reference: March 29th, 2024
Gene Product: December 10th, 2011
Variation: August 29th, 2011
Gene Model: April 8th, 2013
|
| 40 days ago | hyd3 | hydroxylase3: | | GRMZM2G152135
| Yin, PF et al. 2024. Linkage and association mapping in multi-parental populations reveal the genetic basis of carotenoid variation in maize kernels. Plant Biotechnol J. | | Reference: March 29th, 2024
Gene Product: December 13th, 2011
Variation: October 22nd, 2020
Gene Model: April 9th, 2013
|
| 40 days ago | hyd4 | hydroxylase4: | | GRMZM2G164318
| Yin, PF et al. 2024. Linkage and association mapping in multi-parental populations reveal the genetic basis of carotenoid variation in maize kernels. Plant Biotechnol J. | | Reference: March 29th, 2024
Gene Product: December 13th, 2011
Variation: September 3rd, 2011
Gene Model: April 9th, 2013
|
| 40 days ago | hyd5 | hydroxylase5: | | GRMZM2G382534
| Yin, PF et al. 2024. Linkage and association mapping in multi-parental populations reveal the genetic basis of carotenoid variation in maize kernels. Plant Biotechnol J. | | Reference: March 29th, 2024
Gene Product: December 13th, 2011
Variation: September 3rd, 2011
Gene Model: April 9th, 2013
|
| 40 days ago | dxs3 | deoxy xylulose synthase3: | | GRMZM2G173641
| Yin, PF et al. 2024. Linkage and association mapping in multi-parental populations reveal the genetic basis of carotenoid variation in maize kernels. Plant Biotechnol J. | | Reference: March 29th, 2024
Gene Product: August 17th, 2004
Variation: February 15th, 2012
Gene Model: December 9th, 2011
|
| 40 days ago | hyd7 | hydroxylase7: | | GRMZM2G163683
| Yin, PF et al. 2024. Linkage and association mapping in multi-parental populations reveal the genetic basis of carotenoid variation in maize kernels. Plant Biotechnol J. | | Reference: March 29th, 2024
Gene Product: December 13th, 2011
Variation: February 17th, 2012
Gene Model: April 9th, 2013
|
| 40 days ago | ccd8 | carotenoid cleavage dioxygenase8: | | GRMZM2G446858
| Yin, PF et al. 2024. Linkage and association mapping in multi-parental populations reveal the genetic basis of carotenoid variation in maize kernels. Plant Biotechnol J. | | Reference: March 29th, 2024
Gene Product: September 20th, 2012
Variation: September 21st, 2012
Gene Model: September 20th, 2012
|
| 40 days ago | crti1 | carotene isomerase1: | | GRMZM2G108457
| Yin, PF et al. 2024. Linkage and association mapping in multi-parental populations reveal the genetic basis of carotenoid variation in maize kernels. Plant Biotechnol J. | | Reference: March 29th, 2024
Gene Product: December 10th, 2011
Gene Model: April 8th, 2013
|
| 40 days ago | crti2 | carotene isomerase2: | | GRMZM2G106531
| Yin, PF et al. 2024. Linkage and association mapping in multi-parental populations reveal the genetic basis of carotenoid variation in maize kernels. Plant Biotechnol J. | | Reference: March 29th, 2024
Gene Product: December 10th, 2011
Gene Model: April 8th, 2013
|
| 40 days ago | ggps1 | geranylgeranyl pyrophosphate synthase1: | | AC194970.5_FG001
| Yin, PF et al. 2024. Linkage and association mapping in multi-parental populations reveal the genetic basis of carotenoid variation in maize kernels. Plant Biotechnol J. | | Reference: March 29th, 2024
Gene Product: April 8th, 2013
Gene Model: April 8th, 2013
|
| 40 days ago | ippi2 | isopentenyl pyrophosphate isomerase2: | | GRMZM2G145029
| Yin, PF et al. 2024. Linkage and association mapping in multi-parental populations reveal the genetic basis of carotenoid variation in maize kernels. Plant Biotechnol J. | | Reference: March 29th, 2024
Gene Product: December 10th, 2011
Gene Model: April 8th, 2013
|
| 40 days ago | ippi3 | isopentenyl pyrophosphate isomerase3: | | GRMZM2G133082
| Yin, PF et al. 2024. Linkage and association mapping in multi-parental populations reveal the genetic basis of carotenoid variation in maize kernels. Plant Biotechnol J. | | Reference: March 29th, 2024
Gene Product: December 10th, 2011
Gene Model: April 8th, 2013
|
| 40 days ago | ggps4 | geranylgeranyl pyrophosphate synthase4: | | GRMZM2G005909
| Yin, PF et al. 2024. Linkage and association mapping in multi-parental populations reveal the genetic basis of carotenoid variation in maize kernels. Plant Biotechnol J. | | Reference: March 29th, 2024
Gene Product: April 8th, 2013
Gene Model: April 8th, 2013
|
| 40 days ago | cyp13 | cytochrome P450 13: | | GRMZM5G837869
| Yin, PF et al. 2024. Linkage and association mapping in multi-parental populations reveal the genetic basis of carotenoid variation in maize kernels. Plant Biotechnol J. | | Reference: March 29th, 2024
Gene Product: April 8th, 2013
Variation: July 8th, 2017
Gene Model: April 8th, 2013
|
| 40 days ago | vde1 | violaxanthin de-epoxidase1: | | GRMZM2G027219
| Yin, PF et al. 2024. Linkage and association mapping in multi-parental populations reveal the genetic basis of carotenoid variation in maize kernels. Plant Biotechnol J. | | Reference: March 29th, 2024
Gene Product: December 13th, 2011
Gene Model: April 9th, 2013
|
| 40 days ago | meg10 | maternally expressed gene10: | | GRMZM2G086827
| He, J et al. 2024. Toward unveiling transcriptome dynamics and regulatory modules at the maternal/filial interface of developing maize kernel. Plant J. :doi: 10.1111/tpj.16733. | | Reference: March 29th, 2024
Variation: August 29th, 2014
Gene Model: August 29th, 2014
|
| 40 days ago | meg13 | maternally expressed gene13: | | GRMZM2G175912
| He, J et al. 2024. Toward unveiling transcriptome dynamics and regulatory modules at the maternal/filial interface of developing maize kernel. Plant J. :doi: 10.1111/tpj.16733. | | Reference: March 29th, 2024
Variation: August 29th, 2014
Gene Model: August 29th, 2014
|
| 40 days ago | nced2 | nine-cis-epoxycarotenoid dioxygenase2: | | GRMZM2G407181
| Yin, PF et al. 2024. Linkage and association mapping in multi-parental populations reveal the genetic basis of carotenoid variation in maize kernels. Plant Biotechnol J. | | Reference: March 29th, 2024
Gene Product: September 20th, 2012
Gene Model: October 4th, 2014
|
| 40 days ago | nced4 | nine-cis-epoxycarotenoid dioxygenase4: | | GRMZM2G408158
| Yin, PF et al. 2024. Linkage and association mapping in multi-parental populations reveal the genetic basis of carotenoid variation in maize kernels. Plant Biotechnol J. | | Reference: March 29th, 2024
Gene Product: September 20th, 2012
Gene Model: October 4th, 2014
|
| 40 days ago | nced7 | nine-cis-epoxycarotenoid dioxygenase7: | | GRMZM2G330848
| Yin, PF et al. 2024. Linkage and association mapping in multi-parental populations reveal the genetic basis of carotenoid variation in maize kernels. Plant Biotechnol J. | | Reference: March 29th, 2024
Gene Product: September 20th, 2012
Gene Model: October 4th, 2014
|
| 40 days ago | nced6 | nine-cis-epoxycarotenoid dioxygenase6: | | GRMZM2G110192
| Yin, PF et al. 2024. Linkage and association mapping in multi-parental populations reveal the genetic basis of carotenoid variation in maize kernels. Plant Biotechnol J. | | Reference: March 29th, 2024
Gene Product: September 20th, 2012
Gene Model: October 4th, 2014
|
| 40 days ago | nced8 | nine-cis-epoxycarotenoid dioxygenase8: | | GRMZM2G150363
| Yin, PF et al. 2024. Linkage and association mapping in multi-parental populations reveal the genetic basis of carotenoid variation in maize kernels. Plant Biotechnol J. | | Reference: March 29th, 2024
Gene Product: September 20th, 2012
Gene Model: October 4th, 2014
|
| 40 days ago | nced9 | nine-cis-epoxycarotenoid dioxygenase9: | | GRMZM5G838285
| Yin, PF et al. 2024. Linkage and association mapping in multi-parental populations reveal the genetic basis of carotenoid variation in maize kernels. Plant Biotechnol J. | | Reference: March 29th, 2024
Gene Product: September 20th, 2012
Gene Model: October 4th, 2014
|
| 40 days ago | ao4 | aldehyde oxidase4: | | GRMZM2G141473
| Yin, PF et al. 2024. Linkage and association mapping in multi-parental populations reveal the genetic basis of carotenoid variation in maize kernels. Plant Biotechnol J. | | Reference: March 29th, 2024
Gene Product: October 4th, 2014
Gene Model: October 4th, 2014
|
| 40 days ago | ao5 | aldehyde oxidase5: | | GRMZM2G406830
| Yin, PF et al. 2024. Linkage and association mapping in multi-parental populations reveal the genetic basis of carotenoid variation in maize kernels. Plant Biotechnol J. | | Reference: March 29th, 2024
Gene Product: October 4th, 2014
Gene Model: October 4th, 2014
|
| 40 days ago | ccd7 | carotenoid cleavage dioxygenase7: | | GRMZM2G158657
| Yin, PF et al. 2024. Linkage and association mapping in multi-parental populations reveal the genetic basis of carotenoid variation in maize kernels. Plant Biotechnol J. | AT2G44990 (TAIR) | Reference: March 29th, 2024
Gene Product: September 20th, 2012
Gene Model: October 4th, 2014
|
| 40 days ago | mecs1 | methyl erythritol cyclodiphosphate synthase1: | | GRMZM5G835542
| Yin, PF et al. 2024. Linkage and association mapping in multi-parental populations reveal the genetic basis of carotenoid variation in maize kernels. Plant Biotechnol J. | | Reference: March 29th, 2024
Gene Product: October 4th, 2014
Gene Model: October 4th, 2014
|
| 40 days ago | mecs2 | methyl erythritol cyclodiphosphate synthase2: | | AC209374.4_FG002
| Yin, PF et al. 2024. Linkage and association mapping in multi-parental populations reveal the genetic basis of carotenoid variation in maize kernels. Plant Biotechnol J. | | Reference: March 29th, 2024
Gene Product: October 4th, 2014
Gene Model: October 4th, 2014
|
| 40 days ago | dmes2 | diphosphocytidyl methyl erythritol synthase2: | | GRMZM2G172032
| Yin, PF et al. 2024. Linkage and association mapping in multi-parental populations reveal the genetic basis of carotenoid variation in maize kernels. Plant Biotechnol J. | | Reference: March 29th, 2024
Gene Product: March 7th, 2014
Gene Model: October 4th, 2014
|
| 40 days ago | plt14 | phospholipid transfer protein14: | 4.08 | GRMZM2G406552
| He, J et al. 2024. Toward unveiling transcriptome dynamics and regulatory modules at the maternal/filial interface of developing maize kernel. Plant J. :doi: 10.1111/tpj.16733. | | Reference: March 29th, 2024
Gene Product: September 1st, 2003
Gene Model: April 24th, 2020
|
| 40 days ago | fps2 | farnesyl diphosphate synthase2: | | GRMZM2G147721
| Yin, PF et al. 2024. Linkage and association mapping in multi-parental populations reveal the genetic basis of carotenoid variation in maize kernels. Plant Biotechnol J. | | Reference: March 29th, 2024
Gene Product: August 18th, 2015
Variation: August 12th, 2022
Gene Model: August 18th, 2015
|
| 40 days ago | sweet15b | sugars will eventually be exported transporter15b: | | GRMZM5G872392
| He, J et al. 2024. Toward unveiling transcriptome dynamics and regulatory modules at the maternal/filial interface of developing maize kernel. Plant J. :doi: 10.1111/tpj.16733. | | Reference: March 29th, 2024
Gene Product: November 4th, 2015
Gene Model: November 3rd, 2015
|
| 40 days ago | phos2 | phosphate transporter2: | | GRMZM2G466545
| He, J et al. 2024. Toward unveiling transcriptome dynamics and regulatory modules at the maternal/filial interface of developing maize kernel. Plant J. :doi: 10.1111/tpj.16733. | AT3G23430 (TAIR) | Reference: March 29th, 2024
Gene Product: February 27th, 2016
Variation: February 27th, 2016
Gene Model: February 27th, 2016
|
| 40 days ago | vde3 | violaxanthin de-epoxidase3: | | GRMZM2G408706
| Yin, PF et al. 2024. Linkage and association mapping in multi-parental populations reveal the genetic basis of carotenoid variation in maize kernels. Plant Biotechnol J. | | Reference: March 29th, 2024
Gene Product: December 13th, 2011
Gene Model: August 11th, 2016
|
| 40 days ago | burp3 | BURP domain-containing protein-RD22-like3: | | GRMZM2G032145
| He, J et al. 2024. Toward unveiling transcriptome dynamics and regulatory modules at the maternal/filial interface of developing maize kernel. Plant J. :doi: 10.1111/tpj.16733. | | Reference: March 29th, 2024
Gene Product: August 18th, 2017
Variation: August 18th, 2017
Gene Model: August 18th, 2017
|
| 40 days ago | copt2 | copper transporter2: | | GRMZM2G042412
| He, J et al. 2024. Toward unveiling transcriptome dynamics and regulatory modules at the maternal/filial interface of developing maize kernel. Plant J. :doi: 10.1111/tpj.16733. | | Reference: March 29th, 2024
Gene Product: July 24th, 2018
Gene Model: July 24th, 2018
|
| 40 days ago | ao2 | aldehyde oxidase2: | 5.01 | GRMZM5G899851
| Yin, PF et al. 2024. Linkage and association mapping in multi-parental populations reveal the genetic basis of carotenoid variation in maize kernels. Plant Biotechnol J. | | Reference: March 29th, 2024
Gene Product: October 4th, 2014
Gene Model: July 7th, 2017
|
| 40 days ago | adf6 | actin depolymerizing factor6: | | GRMZM2G130678
| Ruisi Yang et al. 2024. The Role of the ADF Gene Family in Maize Response to Abiotic Stresses Agronomy. 14:717. | | Reference: March 29th, 2024
Gene Product: March 4th, 2020
Gene Model: March 4th, 2020
|
| 40 days ago | adf7 | actin depolymerizing factor7: | | GRMZM2G463471
| Ruisi Yang et al. 2024. The Role of the ADF Gene Family in Maize Response to Abiotic Stresses Agronomy. 14:717. | | Reference: March 29th, 2024
Gene Product: March 4th, 2020
Gene Model: March 4th, 2020
|
| 40 days ago | adf8 | actin depolymerizing factor8: | | GRMZM2G147775
| Ruisi Yang et al. 2024. The Role of the ADF Gene Family in Maize Response to Abiotic Stresses Agronomy. 14:717. | | Reference: March 29th, 2024
Gene Product: March 4th, 2020
Gene Model: March 4th, 2020
|
| 40 days ago | adf9 | actin depolymerizing factor9: | | GRMZM2G108807
| Ruisi Yang et al. 2024. The Role of the ADF Gene Family in Maize Response to Abiotic Stresses Agronomy. 14:717. | | Reference: March 29th, 2024
Gene Product: March 4th, 2020
Gene Model: March 4th, 2020
|
| 40 days ago | adf10 | actin depolymerizing factor10: | | GRMZM2G002825
| Ruisi Yang et al. 2024. The Role of the ADF Gene Family in Maize Response to Abiotic Stresses Agronomy. 14:717. | | Reference: March 29th, 2024
Gene Product: March 4th, 2020
Gene Model: March 4th, 2020
|
| 40 days ago | adf11 | actin depolymerizing factor11: | | GRMZM2G064875
| Ruisi Yang et al. 2024. The Role of the ADF Gene Family in Maize Response to Abiotic Stresses Agronomy. 14:717. | | Reference: March 29th, 2024
Gene Product: March 4th, 2020
Gene Model: March 4th, 2020
|
| 40 days ago | adf13 | actin depolymerizing factor13: | | GRMZM2G015127
| Ruisi Yang et al. 2024. The Role of the ADF Gene Family in Maize Response to Abiotic Stresses Agronomy. 14:717. | | Reference: March 29th, 2024
Gene Product: March 4th, 2020
Gene Model: March 4th, 2020
|
| 40 days ago | ccd9 | carotenoid cleavage dioxygenase9: | | GRMZM2G164967
| Yin, PF et al. 2024. Linkage and association mapping in multi-parental populations reveal the genetic basis of carotenoid variation in maize kernels. Plant Biotechnol J. | | Reference: March 29th, 2024
Gene Product: September 20th, 2012
Gene Model: June 25th, 2020
|
| 40 days ago | ccd10 | carotenoid cleavage dioxygenase10: | | AC197699.3_FG002
| Yin, PF et al. 2024. Linkage and association mapping in multi-parental populations reveal the genetic basis of carotenoid variation in maize kernels. Plant Biotechnol J. | | Reference: March 29th, 2024
Gene Product: September 20th, 2012
Gene Model: June 25th, 2020
|
| 40 days ago | caat8 | cationic amino acid transporter8: | 5.03 | GRMZM2G434910
| Islam, MN et al. 2024. Genome-wide identification following functional analysis of amino acid permease and cationic amino acid transporter gene families in maize and their role in drought stress S Afr J Bot. 168:360-371. | | Reference: March 29th, 2024
Gene Product: March 29th, 2024
Gene Model: May 9th, 2020
|
| 40 days ago | aaap56 | amino acid/auxin permease56: | | GRMZM2G096407
| Islam, MN et al. 2024. Genome-wide identification following functional analysis of amino acid permease and cationic amino acid transporter gene families in maize and their role in drought stress S Afr J Bot. 168:360-371. | | Reference: March 29th, 2024
Gene Product: March 31st, 2021
Gene Model: January 8th, 2021
|
| 40 days ago | tcrr2 | transfer cell response regulator2: | | GRMZM2G090264
| He, J et al. 2024. Toward unveiling transcriptome dynamics and regulatory modules at the maternal/filial interface of developing maize kernel. Plant J. :doi: 10.1111/tpj.16733. | | Reference: March 29th, 2024
Gene Product: January 16th, 2021
Gene Model: January 16th, 2021
|
| 40 days ago | aaap14 | amino acid/auxin permease14: | | GRMZM2G082434
| Islam, MN et al. 2024. Genome-wide identification following functional analysis of amino acid permease and cationic amino acid transporter gene families in maize and their role in drought stress S Afr J Bot. 168:360-371. | | Reference: March 29th, 2024
Gene Product: March 31st, 2021
Gene Model: March 26th, 2021
|
| 40 days ago | aaap6 | amino acid/auxin permease6: | | GRMZM2G042933
| Islam, MN et al. 2024. Genome-wide identification following functional analysis of amino acid permease and cationic amino acid transporter gene families in maize and their role in drought stress S Afr J Bot. 168:360-371. | | Reference: March 29th, 2024
Gene Product: March 31st, 2021
Gene Model: March 30th, 2021
|
| 40 days ago | aaap9 | amino acid/auxin permease9: | | GRMZM2G155491
| Islam, MN et al. 2024. Genome-wide identification following functional analysis of amino acid permease and cationic amino acid transporter gene families in maize and their role in drought stress S Afr J Bot. 168:360-371. | | Reference: March 29th, 2024
Gene Product: March 31st, 2021
Gene Model: March 30th, 2021
|
| 40 days ago | aaap17 | amino acid/auxin permease17: | | GRMZM2G032304
| Islam, MN et al. 2024. Genome-wide identification following functional analysis of amino acid permease and cationic amino acid transporter gene families in maize and their role in drought stress S Afr J Bot. 168:360-371. | | Reference: March 29th, 2024
Gene Product: March 31st, 2021
Gene Model: March 30th, 2021
|
| 40 days ago | aaap18 | amino acid/auxin permease18: | | GRMZM2G031167
| Islam, MN et al. 2024. Genome-wide identification following functional analysis of amino acid permease and cationic amino acid transporter gene families in maize and their role in drought stress S Afr J Bot. 168:360-371. | | Reference: March 29th, 2024
Gene Product: March 31st, 2021
Gene Model: March 30th, 2021
|
| 40 days ago | aaap19 | amino acid/auxin permease19: | | GRMZM2G136288
| Islam, MN et al. 2024. Genome-wide identification following functional analysis of amino acid permease and cationic amino acid transporter gene families in maize and their role in drought stress S Afr J Bot. 168:360-371. | | Reference: March 29th, 2024
Gene Product: March 31st, 2021
Gene Model: March 30th, 2021
|
| 40 days ago | aaap21 | amino acid/auxin permease21: | | GRMZM2G110195
| Islam, MN et al. 2024. Genome-wide identification following functional analysis of amino acid permease and cationic amino acid transporter gene families in maize and their role in drought stress S Afr J Bot. 168:360-371. | | Reference: March 29th, 2024
Gene Product: March 31st, 2021
Gene Model: March 30th, 2021
|
| 40 days ago | aaap22 | amino acid/auxin permease22: | | GRMZM5G830545
| Islam, MN et al. 2024. Genome-wide identification following functional analysis of amino acid permease and cationic amino acid transporter gene families in maize and their role in drought stress S Afr J Bot. 168:360-371. | | Reference: March 29th, 2024
Gene Product: March 31st, 2021
Gene Model: March 30th, 2021
|
| 40 days ago | aaap29 | amino acid/auxin permease29: | | GRMZM2G180547
| Islam, MN et al. 2024. Genome-wide identification following functional analysis of amino acid permease and cationic amino acid transporter gene families in maize and their role in drought stress S Afr J Bot. 168:360-371. | | Reference: March 29th, 2024
Gene Product: March 31st, 2021
Gene Model: March 30th, 2021
|
| 40 days ago | aaap33 | amino acid/auxin permease33: | | GRMZM2G332505
| Islam, MN et al. 2024. Genome-wide identification following functional analysis of amino acid permease and cationic amino acid transporter gene families in maize and their role in drought stress S Afr J Bot. 168:360-371. | | Reference: March 29th, 2024
Gene Product: March 31st, 2021
Gene Model: March 30th, 2021
|
| 40 days ago | aaap46 | amino acid/auxin permease46: | | GRMZM2G331283
| Islam, MN et al. 2024. Genome-wide identification following functional analysis of amino acid permease and cationic amino acid transporter gene families in maize and their role in drought stress S Afr J Bot. 168:360-371. | | Reference: March 29th, 2024
Gene Product: March 31st, 2021
Gene Model: March 31st, 2021
|
| 40 days ago | aaap52 | amino acid/auxin permease52: | | GRMZM2G108023
| Islam, MN et al. 2024. Genome-wide identification following functional analysis of amino acid permease and cationic amino acid transporter gene families in maize and their role in drought stress S Afr J Bot. 168:360-371. | | Reference: March 29th, 2024
Gene Product: March 31st, 2021
Gene Model: March 31st, 2021
|
| 40 days ago | aaap54 | amino acid/auxin permease54: | | GRMZM2G164814
| Islam, MN et al. 2024. Genome-wide identification following functional analysis of amino acid permease and cationic amino acid transporter gene families in maize and their role in drought stress S Afr J Bot. 168:360-371. | | Reference: March 29th, 2024
Gene Product: March 31st, 2021
Gene Model: March 31st, 2021
|
| 40 days ago | aaap55 | amino acid/auxin permease55: | | GRMZM2G092945
| Islam, MN et al. 2024. Genome-wide identification following functional analysis of amino acid permease and cationic amino acid transporter gene families in maize and their role in drought stress S Afr J Bot. 168:360-371. | LOC_Os01g65670 (MSU/TIGR)
Os01g0878700 (Gramene) | Reference: March 29th, 2024
Gene Product: March 31st, 2021
Variation: April 22nd, 2022
Gene Model: March 31st, 2021
|
| 40 days ago | aaap59 | amino acid/auxin permease59: | | GRMZM2G145989
| Islam, MN et al. 2024. Genome-wide identification following functional analysis of amino acid permease and cationic amino acid transporter gene families in maize and their role in drought stress S Afr J Bot. 168:360-371. | | Reference: March 29th, 2024
Gene Product: March 31st, 2021
Gene Model: March 31st, 2021
|
| 40 days ago | aaap60 | amino acid/auxin permease60: | | GRMZM2G136300
| Islam, MN et al. 2024. Genome-wide identification following functional analysis of amino acid permease and cationic amino acid transporter gene families in maize and their role in drought stress S Afr J Bot. 168:360-371. | | Reference: March 29th, 2024
Gene Product: March 31st, 2021
Gene Model: March 31st, 2021
|
| 40 days ago | aaap64 | amino acid/auxin permease64: | | GRMZM2G076593
| Islam, MN et al. 2024. Genome-wide identification following functional analysis of amino acid permease and cationic amino acid transporter gene families in maize and their role in drought stress S Afr J Bot. 168:360-371. | | Reference: March 29th, 2024
Gene Product: March 31st, 2021
Gene Model: March 31st, 2021
|
| 40 days ago | aaap66 | amino acid/auxin permease66: | | GRMZM2G157168
| Islam, MN et al. 2024. Genome-wide identification following functional analysis of amino acid permease and cationic amino acid transporter gene families in maize and their role in drought stress S Afr J Bot. 168:360-371. | | Reference: March 29th, 2024
Gene Product: March 31st, 2021
Gene Model: March 31st, 2021
|
| 40 days ago | aaap67 | amino acid/auxin permease67: | | GRMZM2G413943
| Islam, MN et al. 2024. Genome-wide identification following functional analysis of amino acid permease and cationic amino acid transporter gene families in maize and their role in drought stress S Afr J Bot. 168:360-371. | | Reference: March 29th, 2024
Gene Product: March 31st, 2021
Gene Model: March 31st, 2021
|
| 40 days ago | mads85 | MADS-transcription factor 85: | | | He, J et al. 2024. Toward unveiling transcriptome dynamics and regulatory modules at the maternal/filial interface of developing maize kernel. Plant J. :doi: 10.1111/tpj.16733. | | Reference: March 29th, 2024
Gene Product: September 10th, 2021
|
| 40 days ago | cl48777_1e | : | 6.00 | GRMZM2G175989
| Yin, PF et al. 2024. Linkage and association mapping in multi-parental populations reveal the genetic basis of carotenoid variation in maize kernels. Plant Biotechnol J. | | Reference: March 29th, 2024
Gene Product: January 6th, 2023
Gene Model: May 23rd, 2022
|
| 40 days ago | dmes1 | diphosphocytidyl methyl erythritol synthase1: | 6.01 | GRMZM5G856881
| Yin, PF et al. 2024. Linkage and association mapping in multi-parental populations reveal the genetic basis of carotenoid variation in maize kernels. Plant Biotechnol J. | | Reference: March 29th, 2024
Gene Product: March 7th, 2014
Gene Model: October 4th, 2014
|
| 40 days ago | dxs1 | deoxy xylulose synthase 1: | 6.05 | GRMZM2G137151
| Yin, PF et al. 2024. Linkage and association mapping in multi-parental populations reveal the genetic basis of carotenoid variation in maize kernels. Plant Biotechnol J. | | Reference: March 29th, 2024
Gene Product: August 17th, 2004
Variation: June 20th, 2012
Gene Model: December 9th, 2011
|
| 40 days ago | dxs2 | deoxy xylulose synthase 2: | 9.03 | GRMZM2G493395
| Yin, PF et al. 2024. Linkage and association mapping in multi-parental populations reveal the genetic basis of carotenoid variation in maize kernels. Plant Biotechnol J. | | Reference: March 29th, 2024
Gene Product: August 17th, 2004
Variation: October 22nd, 2020
Gene Model: December 9th, 2011
|
| 40 days ago | caat1 | cationic amino acid transporter1: | 1.08 | GRMZM5G805732
| Islam, MN et al. 2024. Genome-wide identification following functional analysis of amino acid permease and cationic amino acid transporter gene families in maize and their role in drought stress S Afr J Bot. 168:360-371. | | Reference: March 29th, 2024
Gene Product: March 29th, 2024
Variation: February 15th, 2007
Gene Model: February 15th, 2019
|
| 40 days ago | betl10 | basal endosperm transfer layer10: | 3.05 | GRMZM2G091445
| He, J et al. 2024. Toward unveiling transcriptome dynamics and regulatory modules at the maternal/filial interface of developing maize kernel. Plant J. :doi: 10.1111/tpj.16733. | | Reference: March 29th, 2024
Variation: October 21st, 2013
Gene Model: July 4th, 2014
|
| 40 days ago | dxr1 | deoxy xylulose reductoisomerase1: | 3.04 | GRMZM2G056975
| Yin, PF et al. 2024. Linkage and association mapping in multi-parental populations reveal the genetic basis of carotenoid variation in maize kernels. Plant Biotechnol J. | | Reference: March 29th, 2024
Gene Product: December 10th, 2011
Variation: May 11th, 2005
Gene Model: December 9th, 2011
|
| 40 days ago | betl9 | basal endosperm transfer layer9: | 3.05 | GRMZM2G087413
| He, J et al. 2024. Toward unveiling transcriptome dynamics and regulatory modules at the maternal/filial interface of developing maize kernel. Plant J. :doi: 10.1111/tpj.16733. | | Reference: March 29th, 2024
Gene Product: September 1st, 2003
Variation: October 8th, 2009
Gene Model: July 4th, 2014
|
| 40 days ago | ao1 | aldehyde oxidase1: | 1.11 | GRMZM2G141535
| Yin, PF et al. 2024. Linkage and association mapping in multi-parental populations reveal the genetic basis of carotenoid variation in maize kernels. Plant Biotechnol J. | | Reference: March 29th, 2024
Gene Product: May 2nd, 2012
Variation: May 30th, 2012
Gene Model: October 4th, 2014
|
| 40 days ago | psei8 | cystatin8: | 1.04 | GRMZM2G401374
| He, J et al. 2024. Toward unveiling transcriptome dynamics and regulatory modules at the maternal/filial interface of developing maize kernel. Plant J. :doi: 10.1111/tpj.16733. | | Reference: March 29th, 2024
Gene Product: April 21st, 2008
Variation: April 21st, 2008
Gene Model: July 28th, 2016
|
| 40 days ago | vp14 | viviparous14: | 1.08 | GRMZM2G014392
| Yin, PF et al. 2024. Linkage and association mapping in multi-parental populations reveal the genetic basis of carotenoid variation in maize kernels. Plant Biotechnol J. | | Reference: March 29th, 2024
Gene Product: September 20th, 2012
Variation: June 25th, 2007
Gene Model: May 13th, 2011
|
| 40 days ago | fps1 | farnesyl pyrophosphate synthase1: | 8.03 | GRMZM2G168681
| Yin, PF et al. 2024. Linkage and association mapping in multi-parental populations reveal the genetic basis of carotenoid variation in maize kernels. Plant Biotechnol J. | | Reference: March 29th, 2024
Gene Product: August 18th, 2015
Variation: August 12th, 2022
Gene Model: April 8th, 2013
|
| 40 days ago | psy3 | phytoene synthase3: | 7.03 | | Yin, PF et al. 2024. Linkage and association mapping in multi-parental populations reveal the genetic basis of carotenoid variation in maize kernels. Plant Biotechnol J. | | Reference: March 29th, 2024
Gene Product: December 14th, 2011
Variation: October 8th, 2008
|
| 41 days ago | GRMZM2G154685 | : | | | Xue, M et al. 2024. Heat-Resistant Inbred Lines Coordinate the Heat Response Gene Expression Remarkably in Maize (Zea mays L.). Genes. 15:289. | | Reference: March 28th, 2024
Gene Product: February 10th, 2024
|
| 41 days ago | pebp21 | phosphatidylethanolamine-binding protein21: | | GRMZM2G019993
| Jose M Romero et al. 2024. CONSTANS, a HUB for all seasons: How photoperiod pervades plant physiology regulatory circuits. Plant Cell. :doi: 10.1093/plcell/koae090. | | Reference: March 28th, 2024
Gene Product: March 19th, 2024
Variation: December 13th, 2010
Gene Model: July 28th, 2016
|
| 41 days ago | apx1 | ascorbate peroxidase homolog: | 9.04 | GRMZM2G054300
| Xue, M et al. 2024. Heat-Resistant Inbred Lines Coordinate the Heat Response Gene Expression Remarkably in Maize (Zea mays L.). Genes. 15:289. | | Reference: March 28th, 2024
Gene Product: October 15th, 2020
Variation: August 10th, 2012
Gene Model: June 19th, 2013
|
| 41 days ago | myb157 | MYB-transcription factor 157: | | | Yizhu Wang et al. 2024. Genome-Wide Association Studies on the Kernel Row Number in a Multi-Parent Maize Population Int J Mol Sci. 25:3377. | | Reference: March 28th, 2024
Variation: June 23rd, 2021
|
| 41 days ago | hsp26 | heat shock protein26: | 1.03 | GRMZM2G149647
| Xue, M et al. 2024. Heat-Resistant Inbred Lines Coordinate the Heat Response Gene Expression Remarkably in Maize (Zea mays L.). Genes. 15:289. | | Reference: March 28th, 2024
Gene Product: September 1st, 2003
Variation: January 30th, 2015
Gene Model: January 30th, 2015
|
| 41 days ago | pdi1 | protein disulfide isomerase1: | 4.03 | GRMZM2G091481
| Xue, M et al. 2024. Heat-Resistant Inbred Lines Coordinate the Heat Response Gene Expression Remarkably in Maize (Zea mays L.). Genes. 15:289. | | Reference: March 28th, 2024
Gene Product: September 1st, 2003
Variation: December 23rd, 2015
Gene Model: October 23rd, 2013
|
| 41 days ago | crt4 | calreticulin4: | | GRMZM2G074687
| Xue, M et al. 2024. Heat-Resistant Inbred Lines Coordinate the Heat Response Gene Expression Remarkably in Maize (Zea mays L.). Genes. 15:289. | | Reference: March 28th, 2024
Gene Product: February 12th, 2007
Gene Model: August 26th, 2020
|
| 41 days ago | mbf2 | multi-protein bridging factor homolog2: | | GRMZM2G051135
| Xue, M et al. 2024. Heat-Resistant Inbred Lines Coordinate the Heat Response Gene Expression Remarkably in Maize (Zea mays L.). Genes. 15:289. | | Reference: March 28th, 2024
Gene Product: June 30th, 2021
Gene Model: June 30th, 2021
|
| 41 days ago | cct10 | CO CO-LIKE TIMING OF CAB1 protein domain10: | | GRMZM2G106108
| Jose M Romero et al. 2024. CONSTANS, a HUB for all seasons: How photoperiod pervades plant physiology regulatory circuits. Plant Cell. :doi: 10.1093/plcell/koae090. | | Reference: March 28th, 2024
Gene Product: June 18th, 2018
Gene Model: August 17th, 2021
|
| 42 days ago | chr101 | chromatin complex subunit A 101: | 2.10 | | ChenXi Gao et al. 2024. Analysis of Transposable Element Associated Epigenetic Regulation under Drought in Maize Sci Agric Sin. 57:1034-1048.. | | Reference: March 27th, 2024
Variation: June 9th, 2018
|
| 42 days ago | pebp1 | phosphatidylethanolamine-binding protein1: | | | ChenXi Gao et al. 2024. Analysis of Transposable Element Associated Epigenetic Regulation under Drought in Maize Sci Agric Sin. 57:1034-1048.. | | Reference: March 27th, 2024
Gene Product: March 19th, 2024
Variation: November 17th, 2010
|
| 42 days ago | pebp9 | phosphatidylethanolamine-binding protein9: | | | ChenXi Gao et al. 2024. Analysis of Transposable Element Associated Epigenetic Regulation under Drought in Maize Sci Agric Sin. 57:1034-1048.. | | Reference: March 27th, 2024
Gene Product: March 19th, 2024
Variation: December 8th, 2010
|
| 42 days ago | pebp10 | phosphatidylethanolamine-binding protein10: | | | ChenXi Gao et al. 2024. Analysis of Transposable Element Associated Epigenetic Regulation under Drought in Maize Sci Agric Sin. 57:1034-1048.. | | Reference: March 27th, 2024
Gene Product: March 19th, 2024
Variation: December 8th, 2010
|
| 42 days ago | pebp11 | phosphatidylethanolamine-binding protein11: | | | ChenXi Gao et al. 2024. Analysis of Transposable Element Associated Epigenetic Regulation under Drought in Maize Sci Agric Sin. 57:1034-1048.. | | Reference: March 27th, 2024
Gene Product: March 19th, 2024
Variation: December 10th, 2010
|
| 42 days ago | met1 | DNA methyl transferase1: | 7.01 | GRMZM2G334041
| ChenXi Gao et al. 2024. Analysis of Transposable Element Associated Epigenetic Regulation under Drought in Maize Sci Agric Sin. 57:1034-1048.. | | Reference: March 27th, 2024
Gene Product: April 6th, 2018
Variation: December 25th, 2014
Gene Model: December 23rd, 2014
|
| 42 days ago | met2 | DNA methyl transferase2: | 10.06 | GRMZM2G025592
| ChenXi Gao et al. 2024. Analysis of Transposable Element Associated Epigenetic Regulation under Drought in Maize Sci Agric Sin. 57:1034-1048.. | | Reference: March 27th, 2024
Gene Product: April 6th, 2018
Variation: November 13th, 2018
Gene Model: November 16th, 2011
|
| 42 days ago | met5 | DNA methyl transferase5: | 2.02 | GRMZM2G005310
| ChenXi Gao et al. 2024. Analysis of Transposable Element Associated Epigenetic Regulation under Drought in Maize Sci Agric Sin. 57:1034-1048.. | | Reference: March 27th, 2024
Gene Product: April 6th, 2018
Variation: June 9th, 2018
Gene Model: December 22nd, 2014
|
| 42 days ago | met3 | DNA methyl transferase3: | 9.07 | | ChenXi Gao et al. 2024. Analysis of Transposable Element Associated Epigenetic Regulation under Drought in Maize Sci Agric Sin. 57:1034-1048.. | | Reference: March 27th, 2024
Gene Product: April 6th, 2018
Variation: February 13th, 2016
|
| 42 days ago | met7 | DNA methyl transferase7: | 1.01 | | ChenXi Gao et al. 2024. Analysis of Transposable Element Associated Epigenetic Regulation under Drought in Maize Sci Agric Sin. 57:1034-1048.. | | Reference: March 27th, 2024
Gene Product: April 6th, 2018
Variation: December 22nd, 2014
|
| 42 days ago | acs7 | 1-aminocyclopropane-1-carboxylate synthase7: | 10.05 | GRMZM5G894619
| ChenXi Gao et al. 2024. Analysis of Transposable Element Associated Epigenetic Regulation under Drought in Maize Sci Agric Sin. 57:1034-1048.. | | Reference: March 27th, 2024
Gene Product: May 16th, 2016
Variation: April 23rd, 2020
Gene Model: January 21st, 2016
|
| 42 days ago | vpp5 | vacuolar-type H+-pyrophosphatase5: | | GRMZM2G170927
| ChenXi Gao et al. 2024. Analysis of Transposable Element Associated Epigenetic Regulation under Drought in Maize Sci Agric Sin. 57:1034-1048.. | AT1G15690 (TAIR)
LOC_Os02g09150 (MSU/TIGR) | Reference: March 27th, 2024
Gene Product: August 16th, 2016
Variation: August 16th, 2016
Gene Model: August 16th, 2016
|
| 43 days ago | px25 | peroxidase25: | | | Qurban Ali et al. 2024. Antioxidant production promotes defense mechanism and different gene expression level in Zea mays under abiotic stress Sci. Rep.. 14:7114. | | Reference: March 26th, 2024
Gene Product: September 18th, 2015
|
| 43 days ago | tml2 | too many laterals2: | | | Daniela Vlad et al. 2024. The WIP6 transcription factor too many laterals specifies vein typein C4 and C3 grass leaves. Curr Biol doi: 10.1016/j.cub.2024.03.007 | AT1G13290 (TAIR) | Reference: March 26th, 2024
Gene Product: November 14th, 2022
Variation: March 26th, 2024
|
| 43 days ago | px3 | peroxidase3: | 7.05 - 7.06 | GRMZM2G427815
| Qurban Ali et al. 2024. Antioxidant production promotes defense mechanism and different gene expression level in Zea mays under abiotic stress Sci. Rep.. 14:7114. | | Reference: March 26th, 2024
Gene Product: September 18th, 2015
Variation: August 11th, 2015
Gene Model: August 11th, 2015
|
| 43 days ago | ts1 | tassel seed1: | 2.04 - 2.05 | | Qurban Ali et al. 2024. Antioxidant production promotes defense mechanism and different gene expression level in Zea mays under abiotic stress Sci. Rep.. 14:7114. | | Reference: March 26th, 2024
Gene Product: January 3rd, 2018
Variation: September 5th, 2019
|
| 43 days ago | lox6 | lipoxygenase6: | 2.02 | GRMZM2G040095
| Qurban Ali et al. 2024. Antioxidant production promotes defense mechanism and different gene expression level in Zea mays under abiotic stress Sci. Rep.. 14:7114. | | Reference: March 26th, 2024
Gene Product: January 3rd, 2018
Variation: June 11th, 2014
Gene Model: June 10th, 2014
|
| 43 days ago | lox12 | lipoxygenase12: | 3.04 | GRMZM2G106748
| Qurban Ali et al. 2024. Antioxidant production promotes defense mechanism and different gene expression level in Zea mays under abiotic stress Sci. Rep.. 14:7114. | | Reference: March 26th, 2024
Gene Product: January 3rd, 2018
Variation: August 15th, 2014
Gene Model: June 10th, 2014
|
| 43 days ago | cyp22 | cytochrome P-450 22: | | GRMZM2G067591
| Ruiqi Chen et al. 2024. Heterologous Biosynthesis of Kauralexin A1 in Saccharomyces cerevisiae through Metabolic and Enzyme Engineering. J Agric Food Chem. :doi: 10.1021/acs.jafc.4c00856. | | Reference: March 26th, 2024
Gene Product: December 30th, 2022
Gene Model: February 26th, 2018
|
| 43 days ago | cpr2 | cytochrome P-450 reductase2: | | GRMZM2G104294
| Ruiqi Chen et al. 2024. Heterologous Biosynthesis of Kauralexin A1 in Saccharomyces cerevisiae through Metabolic and Enzyme Engineering. J Agric Food Chem. :doi: 10.1021/acs.jafc.4c00856. | | Reference: March 26th, 2024
Gene Product: February 26th, 2018
Gene Model: February 26th, 2018
|
| 43 days ago | uce15 | ubiquitin-conjugating enzyme15: | | GRMZM2G063931
| Ma, J et al. 2016. Comparative Study on the Transcriptome of Maize Mature Embryos from Two China Elite Hybrids Zhengdan958 and Anyu5. PLoS One. 11:e0158028. | | Reference: March 26th, 2024
Gene Product: December 19th, 2019
Gene Model: December 19th, 2019
|
| 43 days ago | apx8 | ascorbate peroxidase8: | | | Qurban Ali et al. 2024. Antioxidant production promotes defense mechanism and different gene expression level in Zea mays under abiotic stress Sci. Rep.. 14:7114. | | Reference: March 26th, 2024
Gene Product: October 15th, 2020
|
| 43 days ago | px24 | peroxidase24: | | GRMZM2G023840
| Qurban Ali et al. 2024. Antioxidant production promotes defense mechanism and different gene expression level in Zea mays under abiotic stress Sci. Rep.. 14:7114. | AT5G05340 (TAIR) | Reference: March 26th, 2024
Gene Product: September 18th, 2015
Gene Model: December 10th, 2021
|
| 43 days ago | tml1 | too many laterals1: | | GRMZM2G150011
| Daniela Vlad et al. 2024. The WIP6 transcription factor too many laterals specifies vein typein C4 and C3 grass leaves. Curr Biol doi: 10.1016/j.cub.2024.03.007 | AT1G13290 (TAIR) | Reference: March 26th, 2024
Gene Product: November 14th, 2022
Variation: December 21st, 2023
Gene Model: August 24th, 2022
|
| 43 days ago | apx12 | ascorbate peroxidase12: | 5.05 | | Qurban Ali et al. 2024. Antioxidant production promotes defense mechanism and different gene expression level in Zea mays under abiotic stress Sci. Rep.. 14:7114. | | Reference: March 26th, 2024
Gene Product: October 15th, 2020
Variation: March 21st, 2017
|
| 43 days ago | rboh10 | respiratory burst oxidase10: | 3.04 | GRMZM2G034896
| Ma, J et al. 2016. Comparative Study on the Transcriptome of Maize Mature Embryos from Two China Elite Hybrids Zhengdan958 and Anyu5. PLoS One. 11:e0158028. | | Reference: March 26th, 2024
Gene Product: February 18th, 2023
Variation: March 31st, 2005
Gene Model: February 23rd, 2019
|
| 44 days ago | mpk20 | MAP kinase20: | | | Amaal Maghraby et al. 2024. Genome-wide identification, characterization and evolutionary analysis of betaine aldehyde dehydrogenase (BADH), mitogen-activated protein kinase (MAPK) and sodium/hydrogen exchanger (NHX) genes in maize (Zea mays) under salt stress Genet Resour Crop Evol. :doi: 10.1007/s10722-024-01930-7. | | Reference: March 25th, 2024
Gene Product: July 12th, 2013
|
| 44 days ago | sbt53 | subtilisin53: | | | Chuanxi Peng et al. 2024. Unveiling the Regulatory Role of miRNAs in Internode Elongation: Integrated Analysis of MicroRNA and mRNA Expression Profiles across Diverse Dwarfing Treatments in Maize (Zea mays L.) J Agric Food Chem. :doi: 10.1021/acs.jafc.3c09507. | | Reference: March 25th, 2024
Gene Product: November 11th, 2016
|
| 44 days ago | aldh30 | aldehyde dehydrogenase30: | | | Amaal Maghraby et al. 2024. Genome-wide identification, characterization and evolutionary analysis of betaine aldehyde dehydrogenase (BADH), mitogen-activated protein kinase (MAPK) and sodium/hydrogen exchanger (NHX) genes in maize (Zea mays) under salt stress Genet Resour Crop Evol. :doi: 10.1007/s10722-024-01930-7. | | Reference: March 25th, 2024
Gene Product: June 28th, 2005
|
| 44 days ago | aldh33 | aldehyde dehydrogenase33: | | | Amaal Maghraby et al. 2024. Genome-wide identification, characterization and evolutionary analysis of betaine aldehyde dehydrogenase (BADH), mitogen-activated protein kinase (MAPK) and sodium/hydrogen exchanger (NHX) genes in maize (Zea mays) under salt stress Genet Resour Crop Evol. :doi: 10.1007/s10722-024-01930-7. | | Reference: March 25th, 2024
Gene Product: January 5th, 2024
|
| 44 days ago | aldh34 | aldehyde dehydrogenase34: | | | Amaal Maghraby et al. 2024. Genome-wide identification, characterization and evolutionary analysis of betaine aldehyde dehydrogenase (BADH), mitogen-activated protein kinase (MAPK) and sodium/hydrogen exchanger (NHX) genes in maize (Zea mays) under salt stress Genet Resour Crop Evol. :doi: 10.1007/s10722-024-01930-7. | | Reference: March 25th, 2024
Gene Product: June 28th, 2005
|
| 44 days ago | nhx18 | Na+/H+ antiporter 18: | | | Amaal Maghraby et al. 2024. Genome-wide identification, characterization and evolutionary analysis of betaine aldehyde dehydrogenase (BADH), mitogen-activated protein kinase (MAPK) and sodium/hydrogen exchanger (NHX) genes in maize (Zea mays) under salt stress Genet Resour Crop Evol. :doi: 10.1007/s10722-024-01930-7. | | Reference: March 25th, 2024
Gene Product: April 26th, 2021
|
| 44 days ago | nhx19 | Na+/H+ antiporter 19: | | | Amaal Maghraby et al. 2024. Genome-wide identification, characterization and evolutionary analysis of betaine aldehyde dehydrogenase (BADH), mitogen-activated protein kinase (MAPK) and sodium/hydrogen exchanger (NHX) genes in maize (Zea mays) under salt stress Genet Resour Crop Evol. :doi: 10.1007/s10722-024-01930-7. | | Reference: March 25th, 2024
Gene Product: April 26th, 2021
|
| 44 days ago | pzb01111 | : | 10.04 | | Chuanxi Peng et al. 2024. Unveiling the Regulatory Role of miRNAs in Internode Elongation: Integrated Analysis of MicroRNA and mRNA Expression Profiles across Diverse Dwarfing Treatments in Maize (Zea mays L.) J Agric Food Chem. :doi: 10.1021/acs.jafc.3c09507. | | Reference: March 25th, 2024
Variation: December 13th, 2018
|
| 44 days ago | br2 | brachytic2: | 1.06 - 1.07 | GRMZM2G315375
| Chuanxi Peng et al. 2024. Unveiling the Regulatory Role of miRNAs in Internode Elongation: Integrated Analysis of MicroRNA and mRNA Expression Profiles across Diverse Dwarfing Treatments in Maize (Zea mays L.) J Agric Food Chem. :doi: 10.1021/acs.jafc.3c09507. | | Reference: March 25th, 2024
Gene Product: May 1st, 2012
Variation: December 28th, 2023
Gene Model: April 28th, 2012
|
| 44 days ago | cncr1 | cinnamoyl CoA reductase1: | 1.07 | GRMZM2G131205
| Chuanxi Peng et al. 2024. Unveiling the Regulatory Role of miRNAs in Internode Elongation: Integrated Analysis of MicroRNA and mRNA Expression Profiles across Diverse Dwarfing Treatments in Maize (Zea mays L.) J Agric Food Chem. :doi: 10.1021/acs.jafc.3c09507. | | Reference: March 25th, 2024
Gene Product: September 1st, 2003
Variation: May 5th, 2017
Gene Model: June 23rd, 2016
|
| 44 days ago | mpk2 | MAP kinase2: | 9.02 | GRMZM2G020216
| Amaal Maghraby et al. 2024. Genome-wide identification, characterization and evolutionary analysis of betaine aldehyde dehydrogenase (BADH), mitogen-activated protein kinase (MAPK) and sodium/hydrogen exchanger (NHX) genes in maize (Zea mays) under salt stress Genet Resour Crop Evol. :doi: 10.1007/s10722-024-01930-7. | | Reference: March 25th, 2024
Gene Product: July 12th, 2013
Variation: January 18th, 2013
Gene Model: July 9th, 2013
|
| 44 days ago | simk1 | salt-induced MAP kinase1: | | GRMZM2G127141
| Amaal Maghraby et al. 2024. Genome-wide identification, characterization and evolutionary analysis of betaine aldehyde dehydrogenase (BADH), mitogen-activated protein kinase (MAPK) and sodium/hydrogen exchanger (NHX) genes in maize (Zea mays) under salt stress Genet Resour Crop Evol. :doi: 10.1007/s10722-024-01930-7. | | Reference: March 25th, 2024
Gene Product: July 12th, 2013
Gene Model: July 12th, 2013
|
| 44 days ago | cesa1 | cellulose synthase1: | 8.03 | | Chuanxi Peng et al. 2024. Unveiling the Regulatory Role of miRNAs in Internode Elongation: Integrated Analysis of MicroRNA and mRNA Expression Profiles across Diverse Dwarfing Treatments in Maize (Zea mays L.) J Agric Food Chem. :doi: 10.1021/acs.jafc.3c09507. | | Reference: March 25th, 2024
Gene Product: October 7th, 2016
Variation: June 29th, 2005
|
| 44 days ago | cesa7 | cellulose synthase7: | 7.02 | | Chuanxi Peng et al. 2024. Unveiling the Regulatory Role of miRNAs in Internode Elongation: Integrated Analysis of MicroRNA and mRNA Expression Profiles across Diverse Dwarfing Treatments in Maize (Zea mays L.) J Agric Food Chem. :doi: 10.1021/acs.jafc.3c09507. | | Reference: March 25th, 2024
Gene Product: October 7th, 2016
Variation: January 3rd, 2014
|
| 44 days ago | lox5 | lipoxygenase5: | 5.02 | GRMZM2G102760
| Peiguo Yuan et al. 2024. Duplicated Copy Number Variant of the Maize 9-Lipoxygenase ZmLOX5 Improves 9,10-KODA-Mediated Resistance to Fall Armyworms Genes. 15:401. | | Reference: March 25th, 2024
Gene Product: January 3rd, 2018
Variation: March 25th, 2024
Gene Model: June 10th, 2014
|
| 44 days ago | apx3 | ascorbate peroxidase homolog3: | | GRMZM2G137839
| Namuun Altansambar et al. 2024. The combined application of rutin and silicon alleviates osmotic stress in maize seedlings by triggering accumulation of osmolytes and antioxidants’ defense mechanisms Physiol Mol Biol Plants. :doi: 10.1007/s12298-024-01430-z. | | Reference: March 25th, 2024
Gene Product: October 15th, 2020
Variation: August 11th, 2012
Gene Model: June 19th, 2013
|
| 44 days ago | mpk7 | MAP kinase7: | | GRMZM2G002100
| Amaal Maghraby et al. 2024. Genome-wide identification, characterization and evolutionary analysis of betaine aldehyde dehydrogenase (BADH), mitogen-activated protein kinase (MAPK) and sodium/hydrogen exchanger (NHX) genes in maize (Zea mays) under salt stress Genet Resour Crop Evol. :doi: 10.1007/s10722-024-01930-7. | | Reference: March 25th, 2024
Gene Product: July 12th, 2013
Variation: January 18th, 2013
Gene Model: July 9th, 2013
|
| 44 days ago | aldh7 | aldehyde dehydrogenase7: | | GRMZM2G365483
| Amaal Maghraby et al. 2024. Genome-wide identification, characterization and evolutionary analysis of betaine aldehyde dehydrogenase (BADH), mitogen-activated protein kinase (MAPK) and sodium/hydrogen exchanger (NHX) genes in maize (Zea mays) under salt stress Genet Resour Crop Evol. :doi: 10.1007/s10722-024-01930-7. | | Reference: March 25th, 2024
Gene Product: January 5th, 2024
Gene Model: October 2nd, 2019
|
| 44 days ago | aldh11 | aldehyde dehydrogenase11: | | GRMZM2G013214
| Amaal Maghraby et al. 2024. Genome-wide identification, characterization and evolutionary analysis of betaine aldehyde dehydrogenase (BADH), mitogen-activated protein kinase (MAPK) and sodium/hydrogen exchanger (NHX) genes in maize (Zea mays) under salt stress Genet Resour Crop Evol. :doi: 10.1007/s10722-024-01930-7. | | Reference: March 25th, 2024
Gene Product: January 5th, 2024
Gene Model: October 2nd, 2019
|
| 44 days ago | aldh26 | aldehyde dehydrogenase26: | | GRMZM2G135470
| Amaal Maghraby et al. 2024. Genome-wide identification, characterization and evolutionary analysis of betaine aldehyde dehydrogenase (BADH), mitogen-activated protein kinase (MAPK) and sodium/hydrogen exchanger (NHX) genes in maize (Zea mays) under salt stress Genet Resour Crop Evol. :doi: 10.1007/s10722-024-01930-7. | | Reference: March 25th, 2024
Gene Product: January 5th, 2024
Gene Model: October 2nd, 2019
|
| 44 days ago | aldh9 | aldehyde dehydrogenase9: | | GRMZM2G016189
| Amaal Maghraby et al. 2024. Genome-wide identification, characterization and evolutionary analysis of betaine aldehyde dehydrogenase (BADH), mitogen-activated protein kinase (MAPK) and sodium/hydrogen exchanger (NHX) genes in maize (Zea mays) under salt stress Genet Resour Crop Evol. :doi: 10.1007/s10722-024-01930-7. | | Reference: March 25th, 2024
Gene Product: January 5th, 2024
Gene Model: October 2nd, 2019
|
| 44 days ago | aldh24 | aldehyde dehydrogenase24: | | GRMZM2G398633
| Amaal Maghraby et al. 2024. Genome-wide identification, characterization and evolutionary analysis of betaine aldehyde dehydrogenase (BADH), mitogen-activated protein kinase (MAPK) and sodium/hydrogen exchanger (NHX) genes in maize (Zea mays) under salt stress Genet Resour Crop Evol. :doi: 10.1007/s10722-024-01930-7. | | Reference: March 25th, 2024
Gene Product: January 5th, 2024
Gene Model: October 2nd, 2019
|
| 44 days ago | mpk4 | MAP kinase4: | | GRMZM2G123886
| Amaal Maghraby et al. 2024. Genome-wide identification, characterization and evolutionary analysis of betaine aldehyde dehydrogenase (BADH), mitogen-activated protein kinase (MAPK) and sodium/hydrogen exchanger (NHX) genes in maize (Zea mays) under salt stress Genet Resour Crop Evol. :doi: 10.1007/s10722-024-01930-7. | | Reference: March 25th, 2024
Gene Product: July 12th, 2013
Gene Model: December 13th, 2019
|
| 44 days ago | mpk11 | MAP kinase11: | | GRMZM2G375975
| Amaal Maghraby et al. 2024. Genome-wide identification, characterization and evolutionary analysis of betaine aldehyde dehydrogenase (BADH), mitogen-activated protein kinase (MAPK) and sodium/hydrogen exchanger (NHX) genes in maize (Zea mays) under salt stress Genet Resour Crop Evol. :doi: 10.1007/s10722-024-01930-7. | | Reference: March 25th, 2024
Gene Product: July 12th, 2013
Gene Model: December 13th, 2019
|
| 44 days ago | mpk13 | MAP kinase13: | | GRMZM2G163861
| Amaal Maghraby et al. 2024. Genome-wide identification, characterization and evolutionary analysis of betaine aldehyde dehydrogenase (BADH), mitogen-activated protein kinase (MAPK) and sodium/hydrogen exchanger (NHX) genes in maize (Zea mays) under salt stress Genet Resour Crop Evol. :doi: 10.1007/s10722-024-01930-7. | AT2G42880 (TAIR) | Reference: March 25th, 2024
Gene Product: July 12th, 2013
Variation: September 19th, 2023
Gene Model: December 13th, 2019
|
| 44 days ago | mpk18 | MAP kinase18: | | GRMZM2G122335
| Amaal Maghraby et al. 2024. Genome-wide identification, characterization and evolutionary analysis of betaine aldehyde dehydrogenase (BADH), mitogen-activated protein kinase (MAPK) and sodium/hydrogen exchanger (NHX) genes in maize (Zea mays) under salt stress Genet Resour Crop Evol. :doi: 10.1007/s10722-024-01930-7. | | Reference: March 25th, 2024
Gene Product: July 12th, 2013
Gene Model: December 13th, 2019
|
| 44 days ago | mpk19 | MAP kinase19: | | GRMZM2G007848
| Amaal Maghraby et al. 2024. Genome-wide identification, characterization and evolutionary analysis of betaine aldehyde dehydrogenase (BADH), mitogen-activated protein kinase (MAPK) and sodium/hydrogen exchanger (NHX) genes in maize (Zea mays) under salt stress Genet Resour Crop Evol. :doi: 10.1007/s10722-024-01930-7. | | Reference: March 25th, 2024
Gene Product: July 12th, 2013
Gene Model: December 13th, 2019
|
| 44 days ago | sod11 | superoxide dismutase11: | | GRMZM2G042080
| Esra Arslan Yüksel 2024. Effect of L-Arginine on Alleviating Salt Stress through Antioxidant Enzymes Activity in Zea mays Turkish JAF Sci Tech. 12:447-452. | | Reference: March 25th, 2024
Gene Product: October 4th, 2021
Gene Model: July 9th, 2020
|
| 44 days ago | nhx10 | Na+/H+ antiporter 10: | | GRMZM2G081668
| Amaal Maghraby et al. 2024. Genome-wide identification, characterization and evolutionary analysis of betaine aldehyde dehydrogenase (BADH), mitogen-activated protein kinase (MAPK) and sodium/hydrogen exchanger (NHX) genes in maize (Zea mays) under salt stress Genet Resour Crop Evol. :doi: 10.1007/s10722-024-01930-7. | | Reference: March 25th, 2024
Gene Product: April 26th, 2021
Gene Model: April 26th, 2021
|
| 44 days ago | nhx13 | Na+/H+ antiporter 13: | | | Amaal Maghraby et al. 2024. Genome-wide identification, characterization and evolutionary analysis of betaine aldehyde dehydrogenase (BADH), mitogen-activated protein kinase (MAPK) and sodium/hydrogen exchanger (NHX) genes in maize (Zea mays) under salt stress Genet Resour Crop Evol. :doi: 10.1007/s10722-024-01930-7. | | Reference: March 25th, 2024
Gene Product: April 26th, 2021
|
| 44 days ago | nhx16 | Na+/H+ antiporter 16: | | GRMZM2G455171
| Amaal Maghraby et al. 2024. Genome-wide identification, characterization and evolutionary analysis of betaine aldehyde dehydrogenase (BADH), mitogen-activated protein kinase (MAPK) and sodium/hydrogen exchanger (NHX) genes in maize (Zea mays) under salt stress Genet Resour Crop Evol. :doi: 10.1007/s10722-024-01930-7. | | Reference: March 25th, 2024
Gene Product: April 26th, 2021
Gene Model: April 26th, 2021
|
| 44 days ago | nhx12 | Na+/H+ antiporter 12: | | GRMZM2G051032
| Amaal Maghraby et al. 2024. Genome-wide identification, characterization and evolutionary analysis of betaine aldehyde dehydrogenase (BADH), mitogen-activated protein kinase (MAPK) and sodium/hydrogen exchanger (NHX) genes in maize (Zea mays) under salt stress Genet Resour Crop Evol. :doi: 10.1007/s10722-024-01930-7. | | Reference: March 25th, 2024
Gene Product: April 26th, 2021
Gene Model: April 26th, 2021
|
| 44 days ago | glpx7 | glutathione peroxidase7: | | GRMZM2G144153
| Namuun Altansambar et al. 2024. The combined application of rutin and silicon alleviates osmotic stress in maize seedlings by triggering accumulation of osmolytes and antioxidants’ defense mechanisms Physiol Mol Biol Plants. :doi: 10.1007/s12298-024-01430-z. | | Reference: March 25th, 2024
Gene Product: March 4th, 2022
Gene Model: November 22nd, 2021
|
| 44 days ago | saur64 | small auxin up RNA64: | | GRMZM2G095839
| Chuanxi Peng et al. 2024. Unveiling the Regulatory Role of miRNAs in Internode Elongation: Integrated Analysis of MicroRNA and mRNA Expression Profiles across Diverse Dwarfing Treatments in Maize (Zea mays L.) J Agric Food Chem. :doi: 10.1021/acs.jafc.3c09507. | | Reference: March 25th, 2024
Gene Product: November 26th, 2021
Gene Model: November 26th, 2021
|
| 44 days ago | jih4 | jasmonoyl-l-isoleucine hydrolase4: | | GRMZM2G476538
| Chuanxi Peng et al. 2024. Unveiling the Regulatory Role of miRNAs in Internode Elongation: Integrated Analysis of MicroRNA and mRNA Expression Profiles across Diverse Dwarfing Treatments in Maize (Zea mays L.) J Agric Food Chem. :doi: 10.1021/acs.jafc.3c09507. | | Reference: March 25th, 2024
Gene Product: June 10th, 2022
Gene Model: June 10th, 2022
|
| 44 days ago | mpk14 | MAP kinase14: | 5.03 | GRMZM2G062914
| Amaal Maghraby et al. 2024. Genome-wide identification, characterization and evolutionary analysis of betaine aldehyde dehydrogenase (BADH), mitogen-activated protein kinase (MAPK) and sodium/hydrogen exchanger (NHX) genes in maize (Zea mays) under salt stress Genet Resour Crop Evol. :doi: 10.1007/s10722-024-01930-7. | | Reference: March 25th, 2024
Gene Product: July 12th, 2013
Gene Model: July 12th, 2013
|
| 44 days ago | mpk5 | MAP kinase5: | 5.03 | GRMZM2G048455
| Amaal Maghraby et al. 2024. Genome-wide identification, characterization and evolutionary analysis of betaine aldehyde dehydrogenase (BADH), mitogen-activated protein kinase (MAPK) and sodium/hydrogen exchanger (NHX) genes in maize (Zea mays) under salt stress Genet Resour Crop Evol. :doi: 10.1007/s10722-024-01930-7. | | Reference: March 25th, 2024
Gene Product: July 12th, 2013
Variation: August 5th, 2021
Gene Model: December 13th, 2019
|
| 44 days ago | mpk12 | MAP kinase12: | 6.07 | GRMZM2G062761
| Amaal Maghraby et al. 2024. Genome-wide identification, characterization and evolutionary analysis of betaine aldehyde dehydrogenase (BADH), mitogen-activated protein kinase (MAPK) and sodium/hydrogen exchanger (NHX) genes in maize (Zea mays) under salt stress Genet Resour Crop Evol. :doi: 10.1007/s10722-024-01930-7. | | Reference: March 25th, 2024
Gene Product: July 12th, 2013
Gene Model: December 13th, 2019
|
| 44 days ago | nhx5 | Na+/H+ antiporter 5: | 7.05 | GRMZM2G027851
| Amaal Maghraby et al. 2024. Genome-wide identification, characterization and evolutionary analysis of betaine aldehyde dehydrogenase (BADH), mitogen-activated protein kinase (MAPK) and sodium/hydrogen exchanger (NHX) genes in maize (Zea mays) under salt stress Genet Resour Crop Evol. :doi: 10.1007/s10722-024-01930-7. | | Reference: March 25th, 2024
Gene Product: April 26th, 2021
Variation: April 26th, 2021
Gene Model: August 20th, 2018
|
| 44 days ago | nhx14 | Na+/H+ antiporter 14: | 9.03 | GRMZM2G118019
| Amaal Maghraby et al. 2024. Genome-wide identification, characterization and evolutionary analysis of betaine aldehyde dehydrogenase (BADH), mitogen-activated protein kinase (MAPK) and sodium/hydrogen exchanger (NHX) genes in maize (Zea mays) under salt stress Genet Resour Crop Evol. :doi: 10.1007/s10722-024-01930-7. | | Reference: March 25th, 2024
Gene Product: April 26th, 2021
Variation: September 25th, 2007
Gene Model: August 23rd, 2019
|
| 44 days ago | mpk6 | MAP kinase6: | 10.03 | GRMZM2G089484
| Amaal Maghraby et al. 2024. Genome-wide identification, characterization and evolutionary analysis of betaine aldehyde dehydrogenase (BADH), mitogen-activated protein kinase (MAPK) and sodium/hydrogen exchanger (NHX) genes in maize (Zea mays) under salt stress Genet Resour Crop Evol. :doi: 10.1007/s10722-024-01930-7. | | Reference: March 25th, 2024
Gene Product: July 12th, 2013
Variation: March 8th, 2024
Gene Model: July 9th, 2013
|
| 44 days ago | nhx17 | Na+/H+ antiporter 17: | 1.03 | GRMZM2G311165
| Amaal Maghraby et al. 2024. Genome-wide identification, characterization and evolutionary analysis of betaine aldehyde dehydrogenase (BADH), mitogen-activated protein kinase (MAPK) and sodium/hydrogen exchanger (NHX) genes in maize (Zea mays) under salt stress Genet Resour Crop Evol. :doi: 10.1007/s10722-024-01930-7. | | Reference: March 25th, 2024
Gene Product: April 26th, 2021
Variation: March 31st, 2005
Gene Model: February 11th, 2019
|
| 44 days ago | nhx1 | Na+/H+ antiporter 1: | | GRMZM2G037342
| Amaal Maghraby et al. 2024. Genome-wide identification, characterization and evolutionary analysis of betaine aldehyde dehydrogenase (BADH), mitogen-activated protein kinase (MAPK) and sodium/hydrogen exchanger (NHX) genes in maize (Zea mays) under salt stress Genet Resour Crop Evol. :doi: 10.1007/s10722-024-01930-7. | | Reference: March 25th, 2024
Gene Product: April 26th, 2021
Gene Model: April 26th, 2021
|
| 44 days ago | nhx2 | Na+/H+ antiporter 2: | | GRMZM2G063492
| Amaal Maghraby et al. 2024. Genome-wide identification, characterization and evolutionary analysis of betaine aldehyde dehydrogenase (BADH), mitogen-activated protein kinase (MAPK) and sodium/hydrogen exchanger (NHX) genes in maize (Zea mays) under salt stress Genet Resour Crop Evol. :doi: 10.1007/s10722-024-01930-7. | | Reference: March 25th, 2024
Gene Product: April 26th, 2021
Gene Model: August 20th, 2018
|
| 44 days ago | omt1 | Caffeoyl-CoA O-methyltransferase1: | 6.02 | GRMZM2G127948
| Chuanxi Peng et al. 2024. Unveiling the Regulatory Role of miRNAs in Internode Elongation: Integrated Analysis of MicroRNA and mRNA Expression Profiles across Diverse Dwarfing Treatments in Maize (Zea mays L.) J Agric Food Chem. :doi: 10.1021/acs.jafc.3c09507. | | Reference: March 25th, 2024
Gene Product: January 5th, 2014
Variation: December 26th, 2016
Gene Model: September 17th, 2014
|
| 44 days ago | mpk3 | MAP kinase3: | 1.03 | GRMZM2G017792
| Amaal Maghraby et al. 2024. Genome-wide identification, characterization and evolutionary analysis of betaine aldehyde dehydrogenase (BADH), mitogen-activated protein kinase (MAPK) and sodium/hydrogen exchanger (NHX) genes in maize (Zea mays) under salt stress Genet Resour Crop Evol. :doi: 10.1007/s10722-024-01930-7. | | Reference: March 25th, 2024
Gene Product: July 9th, 2013
Variation: July 12th, 2013
Gene Model: July 9th, 2013
|
| 44 days ago | mpk8 | MAP kinase8: | 8.06 | GRMZM2G131334
| Amaal Maghraby et al. 2024. Genome-wide identification, characterization and evolutionary analysis of betaine aldehyde dehydrogenase (BADH), mitogen-activated protein kinase (MAPK) and sodium/hydrogen exchanger (NHX) genes in maize (Zea mays) under salt stress Genet Resour Crop Evol. :doi: 10.1007/s10722-024-01930-7. | | Reference: March 25th, 2024
Gene Product: July 12th, 2013
Gene Model: September 5th, 2021
|
| 44 days ago | xth3 | xyloglucan endo-transglycosylase/hydrolase3: | 10.03 | GRMZM2G364748
| Chuanxi Peng et al. 2024. Unveiling the Regulatory Role of miRNAs in Internode Elongation: Integrated Analysis of MicroRNA and mRNA Expression Profiles across Diverse Dwarfing Treatments in Maize (Zea mays L.) J Agric Food Chem. :doi: 10.1021/acs.jafc.3c09507. | | Reference: March 25th, 2024
Gene Product: March 23rd, 2024
Gene Model: July 2nd, 2020
|
| 44 days ago | mpk21 | MAP kinase21: | 2.08 | | Amaal Maghraby et al. 2024. Genome-wide identification, characterization and evolutionary analysis of betaine aldehyde dehydrogenase (BADH), mitogen-activated protein kinase (MAPK) and sodium/hydrogen exchanger (NHX) genes in maize (Zea mays) under salt stress Genet Resour Crop Evol. :doi: 10.1007/s10722-024-01930-7. | | Reference: March 25th, 2024
Gene Product: July 12th, 2013
Variation: September 25th, 2007
|
| 44 days ago | mpk15 | MAP kinase15: | 6.01 | GRMZM2G306028
| Amaal Maghraby et al. 2024. Genome-wide identification, characterization and evolutionary analysis of betaine aldehyde dehydrogenase (BADH), mitogen-activated protein kinase (MAPK) and sodium/hydrogen exchanger (NHX) genes in maize (Zea mays) under salt stress Genet Resour Crop Evol. :doi: 10.1007/s10722-024-01930-7. | | Reference: March 25th, 2024
Gene Product: July 12th, 2013
Gene Model: December 13th, 2019
|
| 44 days ago | mpk9 | MAP kinase9: | 5.03 | GRMZM2G135904
| Amaal Maghraby et al. 2024. Genome-wide identification, characterization and evolutionary analysis of betaine aldehyde dehydrogenase (BADH), mitogen-activated protein kinase (MAPK) and sodium/hydrogen exchanger (NHX) genes in maize (Zea mays) under salt stress Genet Resour Crop Evol. :doi: 10.1007/s10722-024-01930-7. | | Reference: March 25th, 2024
Gene Product: July 12th, 2013
Gene Model: December 13th, 2019
|
| 46 days ago | xth18 | xyloglucan endotransglucosylase/hydrolase18: | | | Weichao Fu et al. 2024. Genome-wide identification and characterization of xyloglucan endotransglucosylase/hydrolase gene family in maize (Zea mays L.) and the function of ZmXTH30 in response to drought stress Environ Exp Bot. :doi: 10.1016/j.envexpbot.2024.105744. | | Reference: March 23rd, 2024
Gene Product: March 23rd, 2024
|
| 46 days ago | xth19 | xyloglucan endotransglucosylase/hydrolase19: | | | Weichao Fu et al. 2024. Genome-wide identification and characterization of xyloglucan endotransglucosylase/hydrolase gene family in maize (Zea mays L.) and the function of ZmXTH30 in response to drought stress Environ Exp Bot. :doi: 10.1016/j.envexpbot.2024.105744. | | Reference: March 23rd, 2024
Gene Product: March 23rd, 2024
|
| 46 days ago | xth23 | xyloglucan endotransglucosylase/hydrolase23: | | | Weichao Fu et al. 2024. Genome-wide identification and characterization of xyloglucan endotransglucosylase/hydrolase gene family in maize (Zea mays L.) and the function of ZmXTH30 in response to drought stress Environ Exp Bot. :doi: 10.1016/j.envexpbot.2024.105744. | | Reference: March 23rd, 2024
Gene Product: March 23rd, 2024
|
| 46 days ago | xth20 | xyloglucan endotransglucosylase/hydrolase20: | | | Weichao Fu et al. 2024. Genome-wide identification and characterization of xyloglucan endotransglucosylase/hydrolase gene family in maize (Zea mays L.) and the function of ZmXTH30 in response to drought stress Environ Exp Bot. :doi: 10.1016/j.envexpbot.2024.105744. | | Reference: March 23rd, 2024
Gene Product: March 23rd, 2024
|
| 46 days ago | xth14 | xyloglucan endotransglucosylase/hydrolase14: | | | Weichao Fu et al. 2024. Genome-wide identification and characterization of xyloglucan endotransglucosylase/hydrolase gene family in maize (Zea mays L.) and the function of ZmXTH30 in response to drought stress Environ Exp Bot. :doi: 10.1016/j.envexpbot.2024.105744. | | Reference: March 23rd, 2024
Gene Product: March 23rd, 2024
|
| 46 days ago | xth10 | xyloglucan endotransglucosylase/hydrolase10: | | | Weichao Fu et al. 2024. Genome-wide identification and characterization of xyloglucan endotransglucosylase/hydrolase gene family in maize (Zea mays L.) and the function of ZmXTH30 in response to drought stress Environ Exp Bot. :doi: 10.1016/j.envexpbot.2024.105744. | | Reference: March 23rd, 2024
Gene Product: March 23rd, 2024
|
| 46 days ago | xth11 | xyloglucan endotransglucosylase/hydrolase11: | | | Weichao Fu et al. 2024. Genome-wide identification and characterization of xyloglucan endotransglucosylase/hydrolase gene family in maize (Zea mays L.) and the function of ZmXTH30 in response to drought stress Environ Exp Bot. :doi: 10.1016/j.envexpbot.2024.105744. | | Reference: March 23rd, 2024
Gene Product: March 23rd, 2024
|
| 46 days ago | xth12 | xyloglucan endotransglucosylase/hydrolase12: | | | Weichao Fu et al. 2024. Genome-wide identification and characterization of xyloglucan endotransglucosylase/hydrolase gene family in maize (Zea mays L.) and the function of ZmXTH30 in response to drought stress Environ Exp Bot. :doi: 10.1016/j.envexpbot.2024.105744. | | Reference: March 23rd, 2024
Gene Product: March 23rd, 2024
|
| 46 days ago | xth16 | xyloglucan endotransglucosylase/hydrolase16: | | | Weichao Fu et al. 2024. Genome-wide identification and characterization of xyloglucan endotransglucosylase/hydrolase gene family in maize (Zea mays L.) and the function of ZmXTH30 in response to drought stress Environ Exp Bot. :doi: 10.1016/j.envexpbot.2024.105744. | | Reference: March 23rd, 2024
Gene Product: March 23rd, 2024
|
| 46 days ago | xth22 | xyloglucan endotransglucosylase/hydrolase22: | | | Weichao Fu et al. 2024. Genome-wide identification and characterization of xyloglucan endotransglucosylase/hydrolase gene family in maize (Zea mays L.) and the function of ZmXTH30 in response to drought stress Environ Exp Bot. :doi: 10.1016/j.envexpbot.2024.105744. | | Reference: March 23rd, 2024
Gene Product: March 23rd, 2024
|
| 46 days ago | xth24 | xyloglucan endotransglucosylase/hydrolase24: | | | Weichao Fu et al. 2024. Genome-wide identification and characterization of xyloglucan endotransglucosylase/hydrolase gene family in maize (Zea mays L.) and the function of ZmXTH30 in response to drought stress Environ Exp Bot. :doi: 10.1016/j.envexpbot.2024.105744. | | Reference: March 23rd, 2024
Gene Product: March 23rd, 2024
|
| 46 days ago | xth25 | xyloglucan endotransglucosylase/hydrolase25: | | | Weichao Fu et al. 2024. Genome-wide identification and characterization of xyloglucan endotransglucosylase/hydrolase gene family in maize (Zea mays L.) and the function of ZmXTH30 in response to drought stress Environ Exp Bot. :doi: 10.1016/j.envexpbot.2024.105744. | | Reference: March 23rd, 2024
Gene Product: March 23rd, 2024
|
| 46 days ago | xth26 | xyloglucan endotransglucosylase/hydrolase26: | | | Weichao Fu et al. 2024. Genome-wide identification and characterization of xyloglucan endotransglucosylase/hydrolase gene family in maize (Zea mays L.) and the function of ZmXTH30 in response to drought stress Environ Exp Bot. :doi: 10.1016/j.envexpbot.2024.105744. | | Reference: March 23rd, 2024
Gene Product: March 23rd, 2024
|
| 46 days ago | xth29 | xyloglucan endotransglucosylase/hydrolase29: | | | Weichao Fu et al. 2024. Genome-wide identification and characterization of xyloglucan endotransglucosylase/hydrolase gene family in maize (Zea mays L.) and the function of ZmXTH30 in response to drought stress Environ Exp Bot. :doi: 10.1016/j.envexpbot.2024.105744. | | Reference: March 23rd, 2024
Gene Product: March 23rd, 2024
|
| 46 days ago | xth30 | xyloglucan endotransglucosylase/hydrolase30: | | | Weichao Fu et al. 2024. Genome-wide identification and characterization of xyloglucan endotransglucosylase/hydrolase gene family in maize (Zea mays L.) and the function of ZmXTH30 in response to drought stress Environ Exp Bot. :doi: 10.1016/j.envexpbot.2024.105744. | | Reference: March 23rd, 2024
Gene Product: March 23rd, 2024
|
| 46 days ago | xet1 | xyloglucan endotransglycosylase homolog1: | 5.03 | GRMZM2G026980
| Weichao Fu et al. 2024. Genome-wide identification and characterization of xyloglucan endotransglucosylase/hydrolase gene family in maize (Zea mays L.) and the function of ZmXTH30 in response to drought stress Environ Exp Bot. :doi: 10.1016/j.envexpbot.2024.105744. | | Reference: March 23rd, 2024
Gene Product: September 5th, 2012
Gene Model: September 5th, 2012
|
| 46 days ago | bx2 | benzoxazinone synthesis2: | 4.01 | GRMZM2G085661
| Yohannes Besufekad Setotaw et al. 2024. Salicylic acid positively regulates maize defenses against lepidopteran insects Plant Divers. :doi: 10.1016/j.pld.2024.03.004. | | Reference: March 23rd, 2024
Gene Product: April 8th, 2013
Variation: April 12th, 2019
Gene Model: October 24th, 2011
|
| 46 days ago | xth31 | xyloglucan endotransglucosylase/hydrolase31: | | GRMZM2G388684
| Weichao Fu et al. 2024. Genome-wide identification and characterization of xyloglucan endotransglucosylase/hydrolase gene family in maize (Zea mays L.) and the function of ZmXTH30 in response to drought stress Environ Exp Bot. :doi: 10.1016/j.envexpbot.2024.105744. | | Reference: March 23rd, 2024
Gene Product: March 23rd, 2024
Gene Model: July 24th, 2022
|
| 46 days ago | xth21 | xyloglucan endotransglucosylase/hydrolase21: | 4.10 | GRMZM5G808290
| Weichao Fu et al. 2024. Genome-wide identification and characterization of xyloglucan endotransglucosylase/hydrolase gene family in maize (Zea mays L.) and the function of ZmXTH30 in response to drought stress Environ Exp Bot. :doi: 10.1016/j.envexpbot.2024.105744. | | Reference: March 23rd, 2024
Gene Product: March 23rd, 2024
Gene Model: April 27th, 2020
|
| 46 days ago | xth15 | xyloglucan endotransglucosylase/hydrolase15: | | GRMZM2G319798
| Weichao Fu et al. 2024. Genome-wide identification and characterization of xyloglucan endotransglucosylase/hydrolase gene family in maize (Zea mays L.) and the function of ZmXTH30 in response to drought stress Environ Exp Bot. :doi: 10.1016/j.envexpbot.2024.105744. | | Reference: March 23rd, 2024
Gene Product: March 23rd, 2024
Gene Model: June 30th, 2020
|
| 46 days ago | xth8 | xyloglucan endo-transglycosylase/hydrolase8: | | GRMZM2G091118
| Weichao Fu et al. 2024. Genome-wide identification and characterization of xyloglucan endotransglucosylase/hydrolase gene family in maize (Zea mays L.) and the function of ZmXTH30 in response to drought stress Environ Exp Bot. :doi: 10.1016/j.envexpbot.2024.105744. | | Reference: March 23rd, 2024
Gene Product: March 23rd, 2024
Gene Model: January 9th, 2021
|
| 46 days ago | xth7 | xyloglucan endo-transglycosylase/hydrolase7: | | GRMZM2G063566
| Weichao Fu et al. 2024. Genome-wide identification and characterization of xyloglucan endotransglucosylase/hydrolase gene family in maize (Zea mays L.) and the function of ZmXTH30 in response to drought stress Environ Exp Bot. :doi: 10.1016/j.envexpbot.2024.105744. | | Reference: March 23rd, 2024
Gene Product: March 23rd, 2024
Gene Model: January 9th, 2021
|
| 46 days ago | xth2 | xyloglucan endo-transglycosylase/hydrolase2: | | GRMZM2G128876
| Weichao Fu et al. 2024. Genome-wide identification and characterization of xyloglucan endotransglucosylase/hydrolase gene family in maize (Zea mays L.) and the function of ZmXTH30 in response to drought stress Environ Exp Bot. :doi: 10.1016/j.envexpbot.2024.105744. | | Reference: March 23rd, 2024
Gene Product: March 23rd, 2024
Gene Model: January 9th, 2021
|
| 46 days ago | xth4 | xyloglucan endo-transglycosylase/hydrolase4: | | GRMZM2G166944
| Weichao Fu et al. 2024. Genome-wide identification and characterization of xyloglucan endotransglucosylase/hydrolase gene family in maize (Zea mays L.) and the function of ZmXTH30 in response to drought stress Environ Exp Bot. :doi: 10.1016/j.envexpbot.2024.105744. | | Reference: March 23rd, 2024
Gene Product: March 23rd, 2024
Gene Model: January 9th, 2021
|
| 46 days ago | xth9 | xyloglucan endo-transglycosylase/hydrolase9: | | GRMZM2G174855
| Weichao Fu et al. 2024. Genome-wide identification and characterization of xyloglucan endotransglucosylase/hydrolase gene family in maize (Zea mays L.) and the function of ZmXTH30 in response to drought stress Environ Exp Bot. :doi: 10.1016/j.envexpbot.2024.105744. | | Reference: March 23rd, 2024
Gene Product: March 23rd, 2024
Gene Model: July 29th, 2021
|
| 46 days ago | xth6 | xyloglucan endo-transglycosylase/hydrolase6: | 4.08 | GRMZM2G004699
| Weichao Fu et al. 2024. Genome-wide identification and characterization of xyloglucan endotransglucosylase/hydrolase gene family in maize (Zea mays L.) and the function of ZmXTH30 in response to drought stress Environ Exp Bot. :doi: 10.1016/j.envexpbot.2024.105744. | | Reference: March 23rd, 2024
Gene Product: March 23rd, 2024
Gene Model: April 24th, 2020
|
| 46 days ago | xth17 | xyloglucan endotransglucosylase/hydrolase17: | 5.04 | GRMZM5G886185
| Weichao Fu et al. 2024. Genome-wide identification and characterization of xyloglucan endotransglucosylase/hydrolase gene family in maize (Zea mays L.) and the function of ZmXTH30 in response to drought stress Environ Exp Bot. :doi: 10.1016/j.envexpbot.2024.105744. | | Reference: March 23rd, 2024
Gene Product: March 23rd, 2024
Gene Model: May 16th, 2020
|
| 47 days ago | myb40 | myb transcription factor40: | 3.04 | GRMZM2G051256
| Wang, HH et al. 2024. An ARF gene mutation creates flint kernel architecture in dent maize Nat Commun. 15:2565. | | Reference: March 22nd, 2024
Variation: February 18th, 2011
Gene Model: July 28th, 2016
|
| 47 days ago | p1 | pericarp color1: | 1.03 | | Wang, HH et al. 2024. An ARF gene mutation creates flint kernel architecture in dent maize Nat Commun. 15:2565. | | Reference: March 22nd, 2024
Gene Product: October 13th, 2010
Variation: January 3rd, 2024
|
| 47 days ago | tua4 | alpha tubulin4: | 5.01 | | Wang, HH et al. 2024. An ARF gene mutation creates flint kernel architecture in dent maize Nat Commun. 15:2565. | | Reference: March 22nd, 2024
Gene Product: September 1st, 2003
Variation: September 1st, 2003
|
| 47 days ago | arftf17 | ARF-transcription factor 17: | | | Wang, HH et al. 2024. An ARF gene mutation creates flint kernel architecture in dent maize Nat Commun. 15:2565. | | Reference: March 22nd, 2024
Gene Product: January 29th, 2022
Variation: March 22nd, 2024
|
| 47 days ago | arftf19 | ARF-transcription factor 19: | | GRMZM2G013663
| Wang, HH et al. 2024. An ARF gene mutation creates flint kernel architecture in dent maize Nat Commun. 15:2565. | | Reference: March 22nd, 2024
Gene Product: January 29th, 2022
Variation: June 22nd, 2021
Gene Model: August 9th, 2018
|
| 47 days ago | arftf2 | ARF-transcription factor 2: | | | Wang, HH et al. 2024. An ARF gene mutation creates flint kernel architecture in dent maize Nat Commun. 15:2565. | | Reference: March 22nd, 2024
Gene Product: January 29th, 2022
|
| 47 days ago | arftf21 | ARF-transcription factor 21: | | | Wang, HH et al. 2024. An ARF gene mutation creates flint kernel architecture in dent maize Nat Commun. 15:2565. | | Reference: March 22nd, 2024
Gene Product: January 29th, 2022
|
| 47 days ago | glk36 | G2-like-transcription factor 36: | | | Gongjian Li et al. 2024. Gene pyramiding of ZmGLK36 and ZmGDIα-hel for rough dwarf disease resistance in maize Mol Breed. 44:25. | | Reference: March 22nd, 2024
Variation: September 14th, 2023
|
| 47 days ago | p2 | pericarp color2: | 1.03 | GRMZM2G057027
| Wang, HH et al. 2024. An ARF gene mutation creates flint kernel architecture in dent maize Nat Commun. 15:2565. | | Reference: March 22nd, 2024
Variation: April 18th, 2023
Gene Model: August 6th, 2014
|
| 47 days ago | phs1 | poor homologous synapsis1: | 9.00 | GRMZM2G100103
| Meilin Zou et al. 2024. Molecular mechanisms and regulation of recombination frequency and distribution in plants Theor Appl Genet. 137:86. | | Reference: March 22nd, 2024
Gene Product: September 5th, 2006
Variation: August 7th, 2012
Gene Model: August 7th, 2012
|
| 47 days ago | myb95 | myb transcription factor95: | | GRMZM2G051528
| Wang, HH et al. 2024. An ARF gene mutation creates flint kernel architecture in dent maize Nat Commun. 15:2565. | | Reference: March 22nd, 2024
Variation: February 17th, 2011
Gene Model: May 28th, 2015
|
| 47 days ago | srph1 | SGT1 disease resistance protein homolog1: | 3.09 | GRMZM2G105019
| Wang, HH et al. 2024. An ARF gene mutation creates flint kernel architecture in dent maize Nat Commun. 15:2565. | | Reference: March 22nd, 2024
Variation: March 31st, 2005
Gene Model: March 23rd, 2015
|
| 47 days ago | rad51b | recombination protein51 gene b: | 3.05 | GRMZM2G084762
| Meilin Zou et al. 2024. Molecular mechanisms and regulation of recombination frequency and distribution in plants Theor Appl Genet. 137:86. | | Reference: March 22nd, 2024
Gene Product: August 12th, 2016
Variation: May 13th, 2012
Gene Model: June 19th, 2014
|
| 47 days ago | rad51a | recombination protein51 gene a: | 7.04 | GRMZM2G121543
| Meilin Zou et al. 2024. Molecular mechanisms and regulation of recombination frequency and distribution in plants Theor Appl Genet. 137:86. | | Reference: March 22nd, 2024
Gene Product: August 12th, 2016
Variation: April 19th, 2012
Gene Model: June 19th, 2014
|
| 47 days ago | gdi1 | guanosine nucleotide diphosphate dissociation inhibitor1: | 8.03 | | Gongjian Li et al. 2024. Gene pyramiding of ZmGLK36 and ZmGDIα-hel for rough dwarf disease resistance in maize Mol Breed. 44:25. | | Reference: March 22nd, 2024
Gene Product: January 24th, 2020
Variation: February 18th, 2022
|
| 48 days ago | LOC100284943 | : | | | Sun, XR et al. 2024. Cloning, Expression, and Functional Characterization of Two Highly Efficient Flavonoid-di-O-glycosyltransferases ZmUGT84A1 and ZmUGT84A2 from Maize (Zea mays L.). J Agric Food Chem. :doi: 10.1021/acs.jafc.3c06327. | AT4G15480 (TAIR) | Reference: March 21st, 2024
Gene Product: September 24th, 2018
|
| 48 days ago | Zm00001d048945 | : | | | He, XM et al. 2024. Heritable microbiome variation is correlated with source environment in locally adapted maize varieties Nature Plants. :doi: 10.1038/s41477-024-01654-7. | AT3G23090 (TAIR) | Reference: March 21st, 2024
Variation: March 21st, 2024
|
| 48 days ago | GRMZM2G304712 | : | | GRMZM2G304712
| Sun, XR et al. 2024. Cloning, Expression, and Functional Characterization of Two Highly Efficient Flavonoid-di-O-glycosyltransferases ZmUGT84A1 and ZmUGT84A2 from Maize (Zea mays L.). J Agric Food Chem. :doi: 10.1021/acs.jafc.3c06327. | AT4G15480 (TAIR) | Reference: March 21st, 2024
Gene Product: September 24th, 2018
Gene Model: June 21st, 2018
|
| 49 days ago | krp13 | kinesin-related protein13: | 1.08 | GRMZM2G034828
| Youqiang Li et al. 2024. Transcriptome Analysis of Potential Regulatory Genes under Chemical Doubling in Maize Haploids Agronomy. 14:624. | AT3G20150 (TAIR) | Reference: March 20th, 2024
Gene Product: September 18th, 2023
Gene Model: February 1st, 2015
|
| 50 days ago | LOC103655445 | : | | | | | Gene Product: March 19th, 2024
|
| 50 days ago | grf13 | general regulatory factor13: | 2.09 | GRMZM2G408768
| Niu, LJ et al. 2024. Maize multi-omics reveal leaf water status controlling of differential transcriptomes, proteomes and hormones as mechanisms of age-dependent osmotic stress response in leaves. Stress Biol. 4:19. | | Reference: March 19th, 2024
Gene Product: March 6th, 2023
Gene Model: February 20th, 2019
|
| 50 days ago | pebp2 | phosphatidylethanolamine-binding protein2: | | | Danilevskaya, O; Ananiev, E; Simmons, CR. 2008. Plant Physiol. 146:250-264 | | Reference: March 19th, 2024
Gene Product: March 19th, 2024
Variation: December 15th, 2010
|
| 50 days ago | pebp4 | phosphatidylethanolamine-binding protein4: | | | Danilevskaya, O; Ananiev, E; Simmons, CR. 2008. Plant Physiol. 146:250-264 | | Reference: March 19th, 2024
Gene Product: March 19th, 2024
Variation: December 15th, 2010
|
| 50 days ago | pebp7 | phosphatidylethanolamine-binding protein7: | | | Danilevskaya, O; Ananiev, E; Simmons, CR. 2008. Plant Physiol. 146:250-264 | | Reference: March 19th, 2024
Gene Product: March 19th, 2024
Variation: June 19th, 2015
|
| 50 days ago | pebp12 | phosphatidylethanolamine-binding protein12: | | | Chardon, F et al. 2005. Phylogenomic analysis of the PEBP gene family in cereals. J Mol Evol. 61:579-90. | | Reference: March 19th, 2024
Gene Product: March 19th, 2024
Variation: December 10th, 2010
|
| 50 days ago | pebp13 | phosphatidylethanolamine-binding protein13: | | | Chardon, F et al. 2005. Phylogenomic analysis of the PEBP gene family in cereals. J Mol Evol. 61:579-90. | | Reference: March 19th, 2024
Gene Product: March 19th, 2024
Variation: December 10th, 2010
|
| 50 days ago | pebp14 | phosphatidylethanolamine-binding protein: | | | Chardon, F et al. 2005. Phylogenomic analysis of the PEBP gene family in cereals. J Mol Evol. 61:579-90. | | Reference: March 19th, 2024
Gene Product: March 19th, 2024
Variation: December 15th, 2010
|
| 50 days ago | pebp15 | phosphatidylethanolamine-binding protein15: | | | Chardon, F et al. 2005. Phylogenomic analysis of the PEBP gene family in cereals. J Mol Evol. 61:579-90. | | Reference: March 19th, 2024
Gene Product: March 19th, 2024
Variation: December 15th, 2010
|
| 50 days ago | pebp16 | phosphatidylethanolamine-binding protein16: | | | Danilevskaya, O; Ananiev, E; Simmons, CR. 2008. Plant Physiol. 146:250-264 | | Reference: March 19th, 2024
Gene Product: March 19th, 2024
Variation: December 15th, 2010
|
| 50 days ago | pebp17 | phosphatidylethanolamine-binding protein17: | | | Danilevskaya, O; Ananiev, E; Simmons, CR. 2008. Plant Physiol. 146:250-264 | | Reference: March 19th, 2024
Gene Product: March 19th, 2024
Variation: December 15th, 2010
|
| 50 days ago | pebp18 | phosphatidylethanolamine-binding protein18: | | | Chardon, F et al. 2005. Phylogenomic analysis of the PEBP gene family in cereals. J Mol Evol. 61:579-90. | | Reference: March 19th, 2024
Gene Product: March 19th, 2024
Variation: December 13th, 2010
|
| 50 days ago | pebp20 | phosphatidylethanolamine-binding protein20: | | | Chardon, F et al. 2005. Phylogenomic analysis of the PEBP gene family in cereals. J Mol Evol. 61:579-90. | | Reference: March 19th, 2024
Gene Product: March 19th, 2024
Variation: December 13th, 2010
|
| 50 days ago | pebp24 | phosphatidylethanolamine-binding protein24: | | GRMZM2G440005
| Chardon, F et al. 2005. Phylogenomic analysis of the PEBP gene family in cereals. J Mol Evol. 61:579-90. | | Reference: March 19th, 2024
Gene Product: March 19th, 2024
Variation: December 14th, 2010
Gene Model: July 28th, 2016
|
| 50 days ago | pebp25 | phosphatidylethanolamine-binding protein25: | | GRMZM2G021560
| Chardon, F et al. 2005. Phylogenomic analysis of the PEBP gene family in cereals. J Mol Evol. 61:579-90. | | Reference: March 19th, 2024
Gene Product: March 19th, 2024
Variation: December 15th, 2010
Gene Model: July 28th, 2016
|
| 50 days ago | pebp26 | phosphatidylethanolamine-binding protein26: | | GRMZM2G400167
| Chardon, F et al. 2005. Phylogenomic analysis of the PEBP gene family in cereals. J Mol Evol. 61:579-90. | | Reference: March 19th, 2024
Gene Product: March 19th, 2024
Variation: December 14th, 2010
Gene Model: July 28th, 2016
|
| 50 days ago | gi1 | gigantea1: | 8.03 | GRMZM2G107101
| Suhui Chen et al. 2024. FKF1b controls reproductive transition associated with adaptation to geographical distribution in maize. J Integr Plant Biol. :doi: 10.1111/jipb.13639. | | Reference: March 19th, 2024
Gene Product: September 19th, 2012
Variation: April 23rd, 2013
Gene Model: September 18th, 2012
|
| 50 days ago | bzip68 | bZIP-transcription factor 68: | | | Niu, LJ et al. 2024. Maize multi-omics reveal leaf water status controlling of differential transcriptomes, proteomes and hormones as mechanisms of age-dependent osmotic stress response in leaves. Stress Biol. 4:19. | | Reference: March 19th, 2024
Variation: May 11th, 2022
|
| 50 days ago | nip2a | NOD26-like membrane intrinsic protein2: | 5.07 | GRMZM2G028325
| Luis Felipe Lata-Tenesaca et al. 2024. Physiological and Biochemical Aspects of Silicon-Mediated Resistance in Maize against Maydis Leaf Blight. Plants. 13:531. | | Reference: March 19th, 2024
Gene Product: January 27th, 2022
Variation: May 28th, 2013
Gene Model: June 3rd, 2015
|
| 50 days ago | nip2b | NOD26-like membrane intrinsic protein2: | 6.04 | GRMZM2G137108
| Luis Felipe Lata-Tenesaca et al. 2024. Physiological and Biochemical Aspects of Silicon-Mediated Resistance in Maize against Maydis Leaf Blight. Plants. 13:531. | | Reference: March 19th, 2024
Gene Product: January 22nd, 2021
Variation: July 3rd, 2015
Gene Model: June 3rd, 2015
|
| 50 days ago | sut7 | sucrose transporter7: | 9.07 | GRMZM2G087901
| Niu, LJ et al. 2024. Maize multi-omics reveal leaf water status controlling of differential transcriptomes, proteomes and hormones as mechanisms of age-dependent osmotic stress response in leaves. Stress Biol. 4:19. | | Reference: March 19th, 2024
Gene Product: September 14th, 2013
Variation: April 13th, 2017
Gene Model: April 17th, 2013
|
| 50 days ago | lhcb4 | light harvesting complex a/b protein4: | 5.07 | GRMZM2G103101
| Niu, LJ et al. 2024. Maize multi-omics reveal leaf water status controlling of differential transcriptomes, proteomes and hormones as mechanisms of age-dependent osmotic stress response in leaves. Stress Biol. 4:19. | | Reference: March 19th, 2024
Gene Product: January 8th, 2005
Variation: September 1st, 2003
Gene Model: October 9th, 2015
|
| 50 days ago | fkf1 | flavin-binding kelch repeat f-box1: | | GRMZM2G107945
| Suhui Chen et al. 2024. FKF1b controls reproductive transition associated with adaptation to geographical distribution in maize. J Integr Plant Biol. :doi: 10.1111/jipb.13639. | AT1G68050 (TAIR) | Reference: March 19th, 2024
Gene Product: April 27th, 2022
Variation: March 19th, 2024
Gene Model: December 12th, 2017
|
| 50 days ago | fkf2 | flavin-binding kelch repeat f-box2: | | GRMZM2G106363
| Suhui Chen et al. 2024. FKF1b controls reproductive transition associated with adaptation to geographical distribution in maize. J Integr Plant Biol. :doi: 10.1111/jipb.13639. | AT1G68050 (TAIR) | Reference: March 19th, 2024
Gene Product: April 27th, 2022
Variation: March 19th, 2024
Gene Model: December 12th, 2017
|
| 50 days ago | uce9 | ubiquitin conjugating enzyme9: | | GRMZM2G027378
| Niu, LJ et al. 2024. Maize multi-omics reveal leaf water status controlling of differential transcriptomes, proteomes and hormones as mechanisms of age-dependent osmotic stress response in leaves. Stress Biol. 4:19. | | Reference: March 19th, 2024
Gene Product: December 19th, 2019
Gene Model: May 10th, 2018
|
| 50 days ago | cyc16 | cyclin16: | | GRMZM2G007130
| Niu, LJ et al. 2024. Maize multi-omics reveal leaf water status controlling of differential transcriptomes, proteomes and hormones as mechanisms of age-dependent osmotic stress response in leaves. Stress Biol. 4:19. | | Reference: March 19th, 2024
Gene Product: June 26th, 2009
Gene Model: December 21st, 2018
|
| 50 days ago | lsi2 | low silicon2: | | GRMZM2G158378
| Luis Felipe Lata-Tenesaca et al. 2024. Physiological and Biochemical Aspects of Silicon-Mediated Resistance in Maize against Maydis Leaf Blight. Plants. 13:531. | | Reference: March 19th, 2024
Gene Product: January 22nd, 2021
Gene Model: January 22nd, 2021
|
| 50 days ago | B6UH30 | : | | AC197705.4_FG003
| Leyla Nazari et al. 2023. Transcriptional survey of abiotic stress response in maize (Zea mays L.) in the level of gene co-expression network and differential gene correlation analysis AoB Plants. :doi: 10.1093/aobpla/plad087. | | Reference: December 22nd, 2023
Gene Product: March 19th, 2024
Gene Model: November 4th, 2021
|
| 50 days ago | IDP62 | : | 6.04 | GRMZM2G012276
| Niu, LJ et al. 2024. Maize multi-omics reveal leaf water status controlling of differential transcriptomes, proteomes and hormones as mechanisms of age-dependent osmotic stress response in leaves. Stress Biol. 4:19. | | Reference: March 19th, 2024
Variation: March 31st, 2005
Gene Model: June 30th, 2021
|
| 50 days ago | cenH3 | centromeric histone H3: | 6.06 | GRMZM2G158526
| Bortiri, E et al. 2024. Cyto-swapping in maize by haploid induction with a cenh3 mutant Nature Plants. :doi: 10.1038/s41477-024-01630-1. | | Reference: March 19th, 2024
Gene Product: December 24th, 2015
Variation: March 18th, 2024
Gene Model: October 24th, 2011
|
| 50 days ago | sus2 | sucrose synthase2: | 1.04 | GRMZM2G318780
| Niu, LJ et al. 2024. Maize multi-omics reveal leaf water status controlling of differential transcriptomes, proteomes and hormones as mechanisms of age-dependent osmotic stress response in leaves. Stress Biol. 4:19. | | Reference: March 19th, 2024
Gene Product: October 25th, 2006
Variation: February 1st, 2020
Gene Model: August 3rd, 2013
|
| 51 days ago | GRMZM2G047656 | : | | | Dongying Zhou et al. 2024. Integrated Transcriptomic and Metabolomic Analysis of Exogenous NAA Effects on Maize Seedling Root Systems under Potassium Deficiency Int J Mol Sci. 25:3366. | | Reference: March 18th, 2024
Gene Product: September 18th, 2015
|
| 51 days ago | GRMZM2G136042 | : | | | Dongying Zhou et al. 2024. Integrated Transcriptomic and Metabolomic Analysis of Exogenous NAA Effects on Maize Seedling Root Systems under Potassium Deficiency Int J Mol Sci. 25:3366. | | Reference: March 18th, 2024
Gene Product: September 18th, 2015
|
| 51 days ago | GRMZM2G150731 | : | | | Dongying Zhou et al. 2024. Integrated Transcriptomic and Metabolomic Analysis of Exogenous NAA Effects on Maize Seedling Root Systems under Potassium Deficiency Int J Mol Sci. 25:3366. | | Reference: March 18th, 2024
Gene Product: September 18th, 2015
|
| 51 days ago | Zm00001eb292010 | : | | | Dongying Zhou et al. 2024. Integrated Transcriptomic and Metabolomic Analysis of Exogenous NAA Effects on Maize Seedling Root Systems under Potassium Deficiency Int J Mol Sci. 25:3366. | | Reference: March 18th, 2024
Gene Product: November 27th, 2023
|
| 51 days ago | mha2 | plasma-membrane H+ATPase2: | 2.02 | | Dongying Zhou et al. 2024. Integrated Transcriptomic and Metabolomic Analysis of Exogenous NAA Effects on Maize Seedling Root Systems under Potassium Deficiency Int J Mol Sci. 25:3366. | | Reference: March 18th, 2024
Gene Product: September 1st, 2003
Variation: May 13th, 2009
|
| 51 days ago | mha4 | proton-exporting ATPase4: | 10.07 | GRMZM2G006894
| Dongying Zhou et al. 2024. Integrated Transcriptomic and Metabolomic Analysis of Exogenous NAA Effects on Maize Seedling Root Systems under Potassium Deficiency Int J Mol Sci. 25:3366. | | Reference: March 18th, 2024
Gene Product: September 1st, 2003
Variation: December 14th, 2017
Gene Model: December 14th, 2017
|
| 51 days ago | glu4 | beta-glucosidase4: | 8.06 | AC155376.2_FG005
| Dongying Zhou et al. 2024. Integrated Transcriptomic and Metabolomic Analysis of Exogenous NAA Effects on Maize Seedling Root Systems under Potassium Deficiency Int J Mol Sci. 25:3366. | AT5G36890 (TAIR)
LOC_Os01g67220 (MSU/TIGR) | Reference: March 18th, 2024
Gene Product: June 26th, 2019
Gene Model: September 24th, 2018
|
| 51 days ago | hak1 | potassium high-affinity transporter1: | 2.04 | GRMZM2G093826
| Dongying Zhou et al. 2024. Integrated Transcriptomic and Metabolomic Analysis of Exogenous NAA Effects on Maize Seedling Root Systems under Potassium Deficiency Int J Mol Sci. 25:3366. | | Reference: March 18th, 2024
Gene Product: March 12th, 2020
Gene Model: February 23rd, 2018
|
| 51 days ago | px14 | peroxidase14: | 2.03 | GRMZM2G108219
| Dongying Zhou et al. 2024. Integrated Transcriptomic and Metabolomic Analysis of Exogenous NAA Effects on Maize Seedling Root Systems under Potassium Deficiency Int J Mol Sci. 25:3366. | | Reference: March 18th, 2024
Gene Product: September 18th, 2015
Variation: February 22nd, 2015
Gene Model: February 23rd, 2015
|
| 51 days ago | pox2 | guaiacol peroxidase2: | 1.04 | GRMZM2G040638
| Dongying Zhou et al. 2024. Integrated Transcriptomic and Metabolomic Analysis of Exogenous NAA Effects on Maize Seedling Root Systems under Potassium Deficiency Int J Mol Sci. 25:3366. | | Reference: March 18th, 2024
Gene Product: September 1st, 2003
Gene Model: February 9th, 2015
|
| 51 days ago | lrs1 | liguleless related sequence1: | 8.07 | AC232238.2_FG004
| Langham, RJ, et al. 2004. Genetics. 166:935-945 | | Reference: March 18th, 2024
Gene Product: August 21st, 2018
Variation: August 22nd, 2014
Gene Model: August 22nd, 2014
|
| 51 days ago | pht5 | phosphate transporter protein5: | | GRMZM2G041595
| Vasconcelos, MJV et al. 2024. Gaspé Flint corn as a seed-to-seed model to study the effect of phosphorus on maize growth and development Genet Mol Res. 23:doi: 10.4238/gmr19213. | | Reference: March 18th, 2024
Gene Product: June 16th, 2016
Gene Model: September 13th, 2018
|
| 51 days ago | prx64 | peroxidase64: | | GRMZM2G076562
| Dongying Zhou et al. 2024. Integrated Transcriptomic and Metabolomic Analysis of Exogenous NAA Effects on Maize Seedling Root Systems under Potassium Deficiency Int J Mol Sci. 25:3366. | | Reference: March 18th, 2024
Gene Product: September 18th, 2015
Gene Model: September 22nd, 2018
|
| 51 days ago | hak20 | potassium high-affinity transporter20: | | GRMZM2G395267
| Dongying Zhou et al. 2024. Integrated Transcriptomic and Metabolomic Analysis of Exogenous NAA Effects on Maize Seedling Root Systems under Potassium Deficiency Int J Mol Sci. 25:3366. | | Reference: March 18th, 2024
Gene Product: March 12th, 2020
Gene Model: March 12th, 2020
|
| 51 days ago | px15 | peroxidase15: | | GRMZM2G108123
| Dongying Zhou et al. 2024. Integrated Transcriptomic and Metabolomic Analysis of Exogenous NAA Effects on Maize Seedling Root Systems under Potassium Deficiency Int J Mol Sci. 25:3366. | | Reference: March 18th, 2024
Gene Product: September 18th, 2015
Gene Model: June 22nd, 2020
|
| 51 days ago | chx13 | cation/H+ antiporter 13: | | | Dongying Zhou et al. 2024. Integrated Transcriptomic and Metabolomic Analysis of Exogenous NAA Effects on Maize Seedling Root Systems under Potassium Deficiency Int J Mol Sci. 25:3366. | | Reference: March 18th, 2024
Gene Product: April 26th, 2021
|
| 51 days ago | px26 | peroxidase26: | 7.05 | GRMZM2G126261
| Dongying Zhou et al. 2024. Integrated Transcriptomic and Metabolomic Analysis of Exogenous NAA Effects on Maize Seedling Root Systems under Potassium Deficiency Int J Mol Sci. 25:3366. | | Reference: March 18th, 2024
Gene Product: September 18th, 2015
Gene Model: July 30th, 2020
|
| 51 days ago | cipk23 | calcineurin B-like-interacting protein kinase23: | 7.01 | GRMZM2G013236
| Dongying Zhou et al. 2024. Integrated Transcriptomic and Metabolomic Analysis of Exogenous NAA Effects on Maize Seedling Root Systems under Potassium Deficiency Int J Mol Sci. 25:3366. | | Reference: March 18th, 2024
Gene Product: August 25th, 2018
Gene Model: December 15th, 2018
|
| 51 days ago | gpm465 | : | 3.04 | | Dongying Zhou et al. 2024. Integrated Transcriptomic and Metabolomic Analysis of Exogenous NAA Effects on Maize Seedling Root Systems under Potassium Deficiency Int J Mol Sci. 25:3366. | | Reference: March 18th, 2024
Variation: September 25th, 2007
|
| 51 days ago | kch5 | potassium channel5: | 8.06 | | Dongying Zhou et al. 2024. Integrated Transcriptomic and Metabolomic Analysis of Exogenous NAA Effects on Maize Seedling Root Systems under Potassium Deficiency Int J Mol Sci. 25:3366. | | Reference: March 18th, 2024
Gene Product: November 27th, 2023
Variation: July 22nd, 2014
|
| 52 days ago | cdpk50 | calcium dependent protein kinase50: | | | Zhu, M et al. 2024. The maize ZmCPK39-ZmKnox2 module regulates plant height aBIOTECH. :doi: 10.1007/s42994-024-00150-y. | | Reference: March 17th, 2024
Gene Product: December 3rd, 2013
|
| 52 days ago | cdpk51 | calcium dependent protein kinase51: | | | Zhu, M et al. 2024. The maize ZmCPK39-ZmKnox2 module regulates plant height aBIOTECH. :doi: 10.1007/s42994-024-00150-y. | | Reference: March 17th, 2024
Gene Product: December 3rd, 2013
|
| 52 days ago | cdpk3 | calcium dependent protein kinase3: | 2.07 | GRMZM2G168706
| Zhu, M et al. 2024. The maize ZmCPK39-ZmKnox2 module regulates plant height aBIOTECH. :doi: 10.1007/s42994-024-00150-y. | | Reference: March 17th, 2024
Gene Product: December 3rd, 2013
Variation: September 1st, 2003
Gene Model: December 3rd, 2013
|
| 52 days ago | cdpk6 | calcium dependent protein kinase6: | 4.09 | GRMZM2G035843
| Zhu, M et al. 2024. The maize ZmCPK39-ZmKnox2 module regulates plant height aBIOTECH. :doi: 10.1007/s42994-024-00150-y. | | Reference: March 17th, 2024
Gene Product: December 3rd, 2013
Variation: September 1st, 2003
Gene Model: December 19th, 2017
|
| 52 days ago | cdpk4 | calcium dependent protein kinase4: | 10.06 | GRMZM2G321239
| Zhu, M et al. 2024. The maize ZmCPK39-ZmKnox2 module regulates plant height aBIOTECH. :doi: 10.1007/s42994-024-00150-y. | | Reference: March 17th, 2024
Gene Product: December 3rd, 2013
Variation: January 10th, 2018
Gene Model: December 3rd, 2013
|
| 52 days ago | cdpk8 | calcium dependent protein kinase8: | 7.03 | GRMZM2G154489
| Zhu, M et al. 2024. The maize ZmCPK39-ZmKnox2 module regulates plant height aBIOTECH. :doi: 10.1007/s42994-024-00150-y. | | Reference: March 17th, 2024
Gene Product: December 3rd, 2013
Variation: July 22nd, 2015
Gene Model: March 31st, 2015
|
| 52 days ago | cdpk27 | calcium dependent protein kinase27: | 8.08 | GRMZM2G311220
| Zhu, M et al. 2024. The maize ZmCPK39-ZmKnox2 module regulates plant height aBIOTECH. :doi: 10.1007/s42994-024-00150-y. | | Reference: March 17th, 2024
Gene Product: December 3rd, 2013
Variation: September 1st, 2003
Gene Model: January 10th, 2018
|
| 52 days ago | cdpk5 | calcium dependent protein kinase5: | 2.02 | GRMZM2G314396
| Zhu, M et al. 2024. The maize ZmCPK39-ZmKnox2 module regulates plant height aBIOTECH. :doi: 10.1007/s42994-024-00150-y. | | Reference: March 17th, 2024
Gene Product: December 3rd, 2013
Variation: February 16th, 2015
Gene Model: February 16th, 2015
|
| 52 days ago | knox2 | knotted related homeobox2: | 9.03 | GRMZM2G055243
| Zhu, M et al. 2024. The maize ZmCPK39-ZmKnox2 module regulates plant height aBIOTECH. :doi: 10.1007/s42994-024-00150-y. | | Reference: March 17th, 2024
Gene Product: September 1st, 2003
Variation: March 17th, 2024
Gene Model: September 17th, 2015
|
| 52 days ago | cdpk7 | calcium dependent protein kinase7: | 4.06 | GRMZM2G081310
| Zhu, M et al. 2024. The maize ZmCPK39-ZmKnox2 module regulates plant height aBIOTECH. :doi: 10.1007/s42994-024-00150-y. | | Reference: March 17th, 2024
Gene Product: December 3rd, 2013
Variation: September 1st, 2003
Gene Model: March 31st, 2015
|
| 52 days ago | cdpk35 | calcium-dependent protein kinase35: | 2.09 | GRMZM2G012326
| Zhu, M et al. 2024. The maize ZmCPK39-ZmKnox2 module regulates plant height aBIOTECH. :doi: 10.1007/s42994-024-00150-y. | | Reference: March 17th, 2024
Gene Product: December 3rd, 2013
Variation: September 25th, 2007
Gene Model: January 31st, 2018
|
| 52 days ago | rbap2 | WD-repeat protein RBAP2: | 3.07 | GRMZM2G137965
| Poretsky, E et al. 2024. Harnessing the predicted maize pan-interactome for putative gene function prediction and prioritization of candidate genes for important traits. G3. :doi: 10.1093/g3journal/jkae059. | | Reference: March 17th, 2024
Variation: September 1st, 2003
Gene Model: December 10th, 2012
|
| 52 days ago | cdpk34 | calcium dependent protein kinase34: | 1.11 | GRMZM2G104125
| Zhu, M et al. 2024. The maize ZmCPK39-ZmKnox2 module regulates plant height aBIOTECH. :doi: 10.1007/s42994-024-00150-y. | | Reference: March 17th, 2024
Gene Product: December 3rd, 2013
Gene Model: December 19th, 2019
|
| 52 days ago | cdpk33 | calcium dependent protein kinase33: | 2.06 | GRMZM2G365035
| Zhu, M et al. 2024. The maize ZmCPK39-ZmKnox2 module regulates plant height aBIOTECH. :doi: 10.1007/s42994-024-00150-y. | | Reference: March 17th, 2024
Gene Product: December 3rd, 2013
Gene Model: December 13th, 2019
|
| 52 days ago | cdpk11 | calcium dependent protein kinase11: | | GRMZM2G047486
| Zhu, M et al. 2024. The maize ZmCPK39-ZmKnox2 module regulates plant height aBIOTECH. :doi: 10.1007/s42994-024-00150-y. | | Reference: March 17th, 2024
Gene Product: July 9th, 2013
Variation: April 3rd, 2015
Gene Model: July 9th, 2013
|
| 52 days ago | cdpk16 | calcium dependent protein kinase16: | | GRMZM2G006404
| Zhu, M et al. 2024. The maize ZmCPK39-ZmKnox2 module regulates plant height aBIOTECH. :doi: 10.1007/s42994-024-00150-y. | | Reference: March 17th, 2024
Gene Product: December 3rd, 2013
Gene Model: January 10th, 2018
|
| 52 days ago | cdpk17 | calcium dependent protein kinase17: | | GRMZM2G025387
| Zhu, M et al. 2024. The maize ZmCPK39-ZmKnox2 module regulates plant height aBIOTECH. :doi: 10.1007/s42994-024-00150-y. | | Reference: March 17th, 2024
Gene Product: December 3rd, 2013
Gene Model: January 10th, 2018
|
| 52 days ago | cdpk18 | calcium dependent protein kinase18: | | GRMZM2G027351
| Zhu, M et al. 2024. The maize ZmCPK39-ZmKnox2 module regulates plant height aBIOTECH. :doi: 10.1007/s42994-024-00150-y. | | Reference: March 17th, 2024
Gene Product: December 3rd, 2013
Gene Model: January 10th, 2018
|
| 52 days ago | cdpk19 | calcium dependent protein kinase19: | | GRMZM2G028086
| Zhu, M et al. 2024. The maize ZmCPK39-ZmKnox2 module regulates plant height aBIOTECH. :doi: 10.1007/s42994-024-00150-y. | | Reference: March 17th, 2024
Gene Product: December 3rd, 2013
Gene Model: January 10th, 2018
|
| 52 days ago | cdpk22 | calcium dependent protein kinase22: | | GRMZM2G053868
| Zhu, M et al. 2024. The maize ZmCPK39-ZmKnox2 module regulates plant height aBIOTECH. :doi: 10.1007/s42994-024-00150-y. | | Reference: March 17th, 2024
Gene Product: December 3rd, 2013
Variation: March 17th, 2024
Gene Model: January 10th, 2018
|
| 52 days ago | cdpk23 | calcium dependent protein kinase23: | | GRMZM2G058305
| Zhu, M et al. 2024. The maize ZmCPK39-ZmKnox2 module regulates plant height aBIOTECH. :doi: 10.1007/s42994-024-00150-y. | | Reference: March 17th, 2024
Gene Product: December 3rd, 2013
Gene Model: January 10th, 2018
|
| 52 days ago | cdpk24 | calcium dependent protein kinase24: | | GRMZM2G088361
| Zhu, M et al. 2024. The maize ZmCPK39-ZmKnox2 module regulates plant height aBIOTECH. :doi: 10.1007/s42994-024-00150-y. | | Reference: March 17th, 2024
Gene Product: December 3rd, 2013
Gene Model: January 10th, 2018
|
| 52 days ago | cdpk26 | calcium dependent protein kinase26: | | GRMZM2G167276
| Zhu, M et al. 2024. The maize ZmCPK39-ZmKnox2 module regulates plant height aBIOTECH. :doi: 10.1007/s42994-024-00150-y. | | Reference: March 17th, 2024
Gene Product: December 3rd, 2013
Gene Model: January 10th, 2018
|
| 52 days ago | cdpk28 | calcium dependent protein kinase28: | | GRMZM2G340224
| Zhu, M et al. 2024. The maize ZmCPK39-ZmKnox2 module regulates plant height aBIOTECH. :doi: 10.1007/s42994-024-00150-y. | | Reference: March 17th, 2024
Gene Product: December 3rd, 2013
Gene Model: January 10th, 2018
|
| 52 days ago | cdpk29 | calcium dependent protein kinase29: | | GRMZM2G332660
| Zhu, M et al. 2024. The maize ZmCPK39-ZmKnox2 module regulates plant height aBIOTECH. :doi: 10.1007/s42994-024-00150-y. | | Reference: March 17th, 2024
Gene Product: December 3rd, 2013
Gene Model: May 30th, 2018
|
| 52 days ago | cdpk30 | calcium dependent protein kinase30: | | GRMZM2G112057
| Zhu, M et al. 2024. The maize ZmCPK39-ZmKnox2 module regulates plant height aBIOTECH. :doi: 10.1007/s42994-024-00150-y. | | Reference: March 17th, 2024
Gene Product: December 3rd, 2013
Gene Model: November 8th, 2019
|
| 52 days ago | cdpk36 | calcium dependent protein kinase36: | | GRMZM2G032852
| Zhu, M et al. 2024. The maize ZmCPK39-ZmKnox2 module regulates plant height aBIOTECH. :doi: 10.1007/s42994-024-00150-y. | | Reference: March 17th, 2024
Gene Product: December 3rd, 2013
Gene Model: December 17th, 2020
|
| 52 days ago | cdpk37 | calcium dependent protein kinase37: | | GRMZM2G040743
| Zhu, M et al. 2024. The maize ZmCPK39-ZmKnox2 module regulates plant height aBIOTECH. :doi: 10.1007/s42994-024-00150-y. | | Reference: March 17th, 2024
Gene Product: December 3rd, 2013
Gene Model: December 17th, 2020
|
| 52 days ago | cdpk9 | calcium dependent protein kinase9: | | GRMZM2G076634
| Zhu, M et al. 2024. The maize ZmCPK39-ZmKnox2 module regulates plant height aBIOTECH. :doi: 10.1007/s42994-024-00150-y. | | Reference: March 17th, 2024
Gene Product: December 3rd, 2013
Gene Model: December 17th, 2020
|
| 52 days ago | cdpk40 | calcium dependent protein kinase40: | | GRMZM5G856738
| Zhu, M et al. 2024. The maize ZmCPK39-ZmKnox2 module regulates plant height aBIOTECH. :doi: 10.1007/s42994-024-00150-y. | | Reference: March 17th, 2024
Gene Product: December 3rd, 2013
Gene Model: December 18th, 2020
|
| 52 days ago | cdpk41 | calcium dependent protein kinase41: | | GRMZM2G472311
| Zhu, M et al. 2024. The maize ZmCPK39-ZmKnox2 module regulates plant height aBIOTECH. :doi: 10.1007/s42994-024-00150-y. | | Reference: March 17th, 2024
Gene Product: December 3rd, 2013
Gene Model: December 18th, 2020
|
| 52 days ago | cdpk42 | calcium dependent protein kinase42: | | GRMZM2G121228
| Zhu, M et al. 2024. The maize ZmCPK39-ZmKnox2 module regulates plant height aBIOTECH. :doi: 10.1007/s42994-024-00150-y. | | Reference: March 17th, 2024
Gene Product: December 3rd, 2013
Gene Model: December 18th, 2020
|
| 52 days ago | cdpk43 | calcium dependent protein kinase43: | | GRMZM2G080871
| Zhu, M et al. 2024. The maize ZmCPK39-ZmKnox2 module regulates plant height aBIOTECH. :doi: 10.1007/s42994-024-00150-y. | | Reference: March 17th, 2024
Gene Product: December 3rd, 2013
Gene Model: December 18th, 2020
|
| 52 days ago | cdpk45 | calcium dependent protein kinase45: | | GRMZM2G353957
| Zhu, M et al. 2024. The maize ZmCPK39-ZmKnox2 module regulates plant height aBIOTECH. :doi: 10.1007/s42994-024-00150-y. | | Reference: March 17th, 2024
Gene Product: December 3rd, 2013
Gene Model: December 18th, 2020
|
| 52 days ago | cdpk46 | calcium dependent protein kinase46: | | GRMZM2G347226
| Zhu, M et al. 2024. The maize ZmCPK39-ZmKnox2 module regulates plant height aBIOTECH. :doi: 10.1007/s42994-024-00150-y. | | Reference: March 17th, 2024
Gene Product: December 3rd, 2013
Gene Model: December 18th, 2020
|
| 52 days ago | cdpk47 | calcium dependent protein kinase47: | | GRMZM2G097533
| Zhu, M et al. 2024. The maize ZmCPK39-ZmKnox2 module regulates plant height aBIOTECH. :doi: 10.1007/s42994-024-00150-y. | | Reference: March 17th, 2024
Gene Product: December 3rd, 2013
Variation: May 13th, 2021
Gene Model: December 18th, 2020
|
| 52 days ago | cdpk48 | calcium dependent protein kinase48: | | AC210013.4_FG014
| Zhu, M et al. 2024. The maize ZmCPK39-ZmKnox2 module regulates plant height aBIOTECH. :doi: 10.1007/s42994-024-00150-y. | | Reference: March 17th, 2024
Gene Product: December 3rd, 2013
Gene Model: December 18th, 2020
|
| 52 days ago | cdpk49 | calcium dependent protein kinase49: | | AC203294.3_FG001
| Zhu, M et al. 2024. The maize ZmCPK39-ZmKnox2 module regulates plant height aBIOTECH. :doi: 10.1007/s42994-024-00150-y. | | Reference: March 17th, 2024
Gene Product: December 3rd, 2013
Gene Model: December 18th, 2020
|
| 52 days ago | cdpk39 | calcium dependent protein kinase39: | | GRMZM2G003059
| Zhu, M et al. 2024. The maize ZmCPK39-ZmKnox2 module regulates plant height aBIOTECH. :doi: 10.1007/s42994-024-00150-y. | | Reference: March 17th, 2024
Gene Product: December 3rd, 2013
Gene Model: December 18th, 2020
|
| 52 days ago | cdpk10 | calcium-dependent protein kinase 10: | | GRMZM2G320506
| Zhu, M et al. 2024. The maize ZmCPK39-ZmKnox2 module regulates plant height aBIOTECH. :doi: 10.1007/s42994-024-00150-y. | | Reference: March 17th, 2024
Gene Product: December 3rd, 2013
Variation: February 13th, 2008
Gene Model: March 31st, 2015
|
| 52 days ago | cdpk32 | calcium dependent protein kinase32: | 2.08 | GRMZM2G099425
| Zhu, M et al. 2024. The maize ZmCPK39-ZmKnox2 module regulates plant height aBIOTECH. :doi: 10.1007/s42994-024-00150-y. | | Reference: March 17th, 2024
Gene Product: December 3rd, 2013
Variation: September 9th, 2021
Gene Model: December 13th, 2019
|
| 52 days ago | cdpk2 | calcium dependent protein kinase2: | 2.05 | GRMZM2G365815
| Zhu, M et al. 2024. The maize ZmCPK39-ZmKnox2 module regulates plant height aBIOTECH. :doi: 10.1007/s42994-024-00150-y. | | Reference: March 17th, 2024
Gene Product: December 3rd, 2013
Variation: November 21st, 2013
Gene Model: March 31st, 2015
|
| 54 days ago | cdc2 | cell division control protein homolog2: | 1.01 | GRMZM2G008327
| Lulu Bao et al. 2024. ZmSMR10 Increases the Level of Endoreplication of Plants through Its Interactions with ZmPCNA2 and ZmCSN5B Int J Mol Sci. 25:3356. | | Reference: March 15th, 2024
Gene Product: October 19th, 2022
Variation: April 23rd, 2010
Gene Model: March 30th, 2015
|
| 54 days ago | ppr103 | pentatricopeptide repeat-containing protein103: | | GRMZM2G170896
| Tyra N McCray et al. 2024. The dicot homolog of maize PPR103 carries a C-terminal DYW domain and may have a role in C-to-U editing of some chloroplast RNA transcripts. Plant Mol Biol. 114:28. | AT5G03800 (TAIR) | Reference: March 15th, 2024
Gene Product: December 27th, 2016
Variation: April 21st, 2016
Gene Model: April 21st, 2016
|
| 54 days ago | smr10 | siamese-related10: | | GRMZM2G493549
| Lulu Bao et al. 2024. ZmSMR10 Increases the Level of Endoreplication of Plants through Its Interactions with ZmPCNA2 and ZmCSN5B Int J Mol Sci. 25:3356. | | Reference: March 15th, 2024
Gene Product: March 8th, 2017
Gene Model: July 30th, 2020
|
| 54 days ago | pcna2 | proliferating cell nuclear antigen2: | 4.07 | GRMZM2G108712
| Lulu Bao et al. 2024. ZmSMR10 Increases the Level of Endoreplication of Plants through Its Interactions with ZmPCNA2 and ZmCSN5B Int J Mol Sci. 25:3356. | | Reference: March 15th, 2024
Gene Product: September 1st, 2003
Variation: August 23rd, 2014
Gene Model: August 23rd, 2014
|
| 54 days ago | cdc1 | cell division control protein homolog1: | 4.10 | GRMZM2G174596
| Lulu Bao et al. 2024. ZmSMR10 Increases the Level of Endoreplication of Plants through Its Interactions with ZmPCNA2 and ZmCSN5B Int J Mol Sci. 25:3356. | | Reference: March 15th, 2024
Gene Product: October 19th, 2022
Gene Model: December 21st, 2018
|
| 54 days ago | pco066126 | : | 2.02 | | Lulu Bao et al. 2024. ZmSMR10 Increases the Level of Endoreplication of Plants through Its Interactions with ZmPCNA2 and ZmCSN5B Int J Mol Sci. 25:3356. | AT1G22920 (TAIR) | Reference: March 15th, 2024
Variation: September 25th, 2007
|
| 55 days ago | wakl40 | wall associated kinase like40: | | | Wang, P et al. 2024. The symphony of maize signaling quartet defending against gray leaf spot. Stress Biol. 4:18. | | Reference: March 14th, 2024
Gene Product: December 7th, 2023
Variation: January 18th, 2024
|
| 55 days ago | ccp2 | cysteine protease2: | 7.02 | | Yuan, W et al. 2024. NIa-Pro of sugarcane mosaic virus targets Corn Cysteine Protease 1 (CCP1) to undermine salicylic acid-mediated defense in maize. PloS Pathogens. 20:e1012086. | | Reference: March 14th, 2024
Gene Product: October 11th, 2021
Variation: July 30th, 2011
|
| 55 days ago | ms23 | male sterile23: | 8.01 - 8.02 | GRMZM2G021276
| Cao, SA et al. 2024. Cytoplasmic genome contributions to domestication and improvement of modern maize BMC Biology. 22:64. | | Reference: March 14th, 2024
Gene Product: September 14th, 2016
Variation: September 6th, 2019
Gene Model: December 4th, 2016
|
| 55 days ago | rf3 | restorer of fertility3: | 2.09 | | Cao, SA et al. 2024. Cytoplasmic genome contributions to domestication and improvement of modern maize BMC Biology. 22:64. | | Reference: March 14th, 2024
Gene Product: December 27th, 2016
Variation: September 1st, 2003
|
| 55 days ago | rboh4 | respiratory burst oxidase4: | 4.08 | GRMZM2G441541
| Wang, P et al. 2024. The symphony of maize signaling quartet defending against gray leaf spot. Stress Biol. 4:18. | | Reference: March 14th, 2024
Gene Product: February 18th, 2023
Variation: September 1st, 2003
Gene Model: July 2nd, 2013
|
| 55 days ago | umc1060 | : | 5.04 | GRMZM2G346133
| Rumit Patel et al. 2024. Genetic Diversity and Population Structure of Maize (Zea mays L.) Inbred Lines in Association with Phenotypic and Grain Qualitative Traits Using SSR Genotyping Plants. 13:823. | | Reference: March 14th, 2024
Variation: September 1st, 2003
Gene Model: October 14th, 2018
|
| 55 days ago | umc1135 | : | 3.07 | GRMZM2G105863
| Rumit Patel et al. 2024. Genetic Diversity and Population Structure of Maize (Zea mays L.) Inbred Lines in Association with Phenotypic and Grain Qualitative Traits Using SSR Genotyping Plants. 13:823. | | Reference: March 14th, 2024
Variation: September 1st, 2003
Gene Model: March 30th, 2018
|
| 55 days ago | sert2 | serrate ortholog2: | 4.05 | GRMZM2G377165
| Rumit Patel et al. 2024. Genetic Diversity and Population Structure of Maize (Zea mays L.) Inbred Lines in Association with Phenotypic and Grain Qualitative Traits Using SSR Genotyping Plants. 13:823. | AT2G27100 (TAIR) | Reference: March 14th, 2024
Gene Product: November 14th, 2022
Variation: September 1st, 2003
Gene Model: June 7th, 2018
|
| 55 days ago | hsbp1 | herbicide safener binding protein1: | 2.05 | | Rumit Patel et al. 2024. Genetic Diversity and Population Structure of Maize (Zea mays L.) Inbred Lines in Association with Phenotypic and Grain Qualitative Traits Using SSR Genotyping Plants. 13:823. | | Reference: March 14th, 2024
Gene Product: September 1st, 2003
Variation: September 1st, 2003
|
| 55 days ago | tga1 | teosinte glume architecture1: | 4.05 | GRMZM2G101511
| Cao, SA et al. 2024. Cytoplasmic genome contributions to domestication and improvement of modern maize BMC Biology. 22:64. | | Reference: March 14th, 2024
Gene Product: July 5th, 2019
Variation: May 7th, 2015
Gene Model: October 28th, 2011
|
| 55 days ago | umc2226 | : | 1.02 | GRMZM2G110847
| Rumit Patel et al. 2024. Genetic Diversity and Population Structure of Maize (Zea mays L.) Inbred Lines in Association with Phenotypic and Grain Qualitative Traits Using SSR Genotyping Plants. 13:823. | | Reference: March 14th, 2024
Variation: January 6th, 2017
Gene Model: June 15th, 2017
|
| 55 days ago | wrky16 | WRKY-transcription factor 16: | 4.08 | GRMZM2G063216
| Rumit Patel et al. 2024. Genetic Diversity and Population Structure of Maize (Zea mays L.) Inbred Lines in Association with Phenotypic and Grain Qualitative Traits Using SSR Genotyping Plants. 13:823. | | Reference: March 14th, 2024
Gene Product: July 24th, 2017
Gene Model: December 6th, 2016
|
| 55 days ago | urf13(mtT) | : | | | Cao, SA et al. 2024. Cytoplasmic genome contributions to domestication and improvement of modern maize BMC Biology. 22:64. | | Reference: March 14th, 2024
Gene Product: September 1st, 2003
Variation: September 1st, 2003
|
| 55 days ago | wik1 | wall immune-related kinase1: | 1.03 | GRMZM5G886952
| Wang, P et al. 2024. The symphony of maize signaling quartet defending against gray leaf spot. Stress Biol. 4:18. | | Reference: March 14th, 2024
Gene Product: July 10th, 2019
Variation: January 18th, 2024
Gene Model: February 5th, 2020
|
| 55 days ago | ccp1 | cysteine protease1: | 5.04 | | Yuan, W et al. 2024. NIa-Pro of sugarcane mosaic virus targets Corn Cysteine Protease 1 (CCP1) to undermine salicylic acid-mediated defense in maize. PloS Pathogens. 20:e1012086. | | Reference: March 14th, 2024
Gene Product: October 11th, 2021
Variation: May 20th, 2015
|
| 55 days ago | atp6(mt) | ATP synthase subunit 6: | | GRMZM5G836952
| Cao, SA et al. 2024. Cytoplasmic genome contributions to domestication and improvement of modern maize BMC Biology. 22:64. | | Reference: March 14th, 2024
Variation: March 11th, 2022
Gene Model: March 11th, 2022
|
| 56 days ago | nrg15 | nitrate regulatory gene15: | | | Shuna Li et al. 2024. NRG2 family members of Arabidopsis and maize regulate nitrate signalling and promote nitrogen use efficiency. Physiol Plant. 176:e14251. | | Reference: March 13th, 2024
Gene Product: March 13th, 2024
|
| 56 days ago | nrg21 | nitrate regulatory gene21: | | | Shuna Li et al. 2024. NRG2 family members of Arabidopsis and maize regulate nitrate signalling and promote nitrogen use efficiency. Physiol Plant. 176:e14251. | | Reference: March 13th, 2024
Gene Product: March 13th, 2024
|
| 56 days ago | cel4 | cellulase4: | | | Yuanyuan Liang et al. 2024. Fulvic acid alleviates the stress of low nitrogen on maize by promoting root development and nitrogen metabolism. Physiol Plant. 176:e14249. | | Reference: March 13th, 2024
Gene Product: March 20th, 2023
|
| 56 days ago | GRMZM2G010640 | : | | | Yuanyuan Liang et al. 2024. Fulvic acid alleviates the stress of low nitrogen on maize by promoting root development and nitrogen metabolism. Physiol Plant. 176:e14249. | | Reference: March 13th, 2024
Gene Product: September 18th, 2015
|
| 56 days ago | nrg1 | nitrate regulatory gene1: | | | Shuna Li et al. 2024. NRG2 family members of Arabidopsis and maize regulate nitrate signalling and promote nitrogen use efficiency. Physiol Plant. 176:e14251. | | Reference: March 13th, 2024
Gene Product: March 13th, 2024
|
| 56 days ago | nrg2 | nitrate regulatory gene2: | | | Shuna Li et al. 2024. NRG2 family members of Arabidopsis and maize regulate nitrate signalling and promote nitrogen use efficiency. Physiol Plant. 176:e14251. | | Reference: March 13th, 2024
Gene Product: March 13th, 2024
|
| 56 days ago | nrg3 | nitrate regulatory gene3: | | | Shuna Li et al. 2024. NRG2 family members of Arabidopsis and maize regulate nitrate signalling and promote nitrogen use efficiency. Physiol Plant. 176:e14251. | | Reference: March 13th, 2024
Gene Product: March 13th, 2024
|
| 56 days ago | nrg4 | nitrate regulatory gene4: | | | Shuna Li et al. 2024. NRG2 family members of Arabidopsis and maize regulate nitrate signalling and promote nitrogen use efficiency. Physiol Plant. 176:e14251. | | Reference: March 13th, 2024
Gene Product: March 13th, 2024
|
| 56 days ago | nrg5 | nitrate regulatory gene5: | | | Shuna Li et al. 2024. NRG2 family members of Arabidopsis and maize regulate nitrate signalling and promote nitrogen use efficiency. Physiol Plant. 176:e14251. | | Reference: March 13th, 2024
Gene Product: March 13th, 2024
|
| 56 days ago | nrg8 | nitrate regulatory gene8: | | | Shuna Li et al. 2024. NRG2 family members of Arabidopsis and maize regulate nitrate signalling and promote nitrogen use efficiency. Physiol Plant. 176:e14251. | | Reference: March 13th, 2024
Gene Product: March 13th, 2024
|
| 56 days ago | nrg9 | nitrate regulatory gene9: | | | Shuna Li et al. 2024. NRG2 family members of Arabidopsis and maize regulate nitrate signalling and promote nitrogen use efficiency. Physiol Plant. 176:e14251. | | Reference: March 13th, 2024
Gene Product: March 13th, 2024
|
| 56 days ago | nrg10 | nitrate regulatory gene10: | | | Shuna Li et al. 2024. NRG2 family members of Arabidopsis and maize regulate nitrate signalling and promote nitrogen use efficiency. Physiol Plant. 176:e14251. | | Reference: March 13th, 2024
Gene Product: March 13th, 2024
|
| 56 days ago | nrg11 | nitrate regulatory gene11: | | | Shuna Li et al. 2024. NRG2 family members of Arabidopsis and maize regulate nitrate signalling and promote nitrogen use efficiency. Physiol Plant. 176:e14251. | | Reference: March 13th, 2024
Gene Product: March 13th, 2024
|
| 56 days ago | nrg12 | nitrate regulatory gene12: | | | Shuna Li et al. 2024. NRG2 family members of Arabidopsis and maize regulate nitrate signalling and promote nitrogen use efficiency. Physiol Plant. 176:e14251. | | Reference: March 13th, 2024
Gene Product: March 13th, 2024
|
| 56 days ago | nrg13 | nitrate regulatory gene13: | | | Shuna Li et al. 2024. NRG2 family members of Arabidopsis and maize regulate nitrate signalling and promote nitrogen use efficiency. Physiol Plant. 176:e14251. | | Reference: March 13th, 2024
Gene Product: March 13th, 2024
|
| 56 days ago | nrg14 | nitrate regulatory gene14: | | | Shuna Li et al. 2024. NRG2 family members of Arabidopsis and maize regulate nitrate signalling and promote nitrogen use efficiency. Physiol Plant. 176:e14251. | | Reference: March 13th, 2024
Gene Product: March 13th, 2024
|
| 56 days ago | nrg17 | nitrate regulatory gene17: | | | Shuna Li et al. 2024. NRG2 family members of Arabidopsis and maize regulate nitrate signalling and promote nitrogen use efficiency. Physiol Plant. 176:e14251. | | Reference: March 13th, 2024
Gene Product: March 13th, 2024
|
| 56 days ago | nrg18 | nitrate regulatory gene18: | | | Shuna Li et al. 2024. NRG2 family members of Arabidopsis and maize regulate nitrate signalling and promote nitrogen use efficiency. Physiol Plant. 176:e14251. | | Reference: March 13th, 2024
Gene Product: March 13th, 2024
|
| 56 days ago | nrg22 | nitrate regulatory gene22: | 9.04 | GRMZM2G125513
| Shuna Li et al. 2024. NRG2 family members of Arabidopsis and maize regulate nitrate signalling and promote nitrogen use efficiency. Physiol Plant. 176:e14251. | | Reference: March 13th, 2024
Gene Product: March 13th, 2024
Gene Model: July 15th, 2021
|
| 56 days ago | nrg20 | nitrate regulatory gene20: | 8.04 | GRMZM2G074377
| Shuna Li et al. 2024. NRG2 family members of Arabidopsis and maize regulate nitrate signalling and promote nitrogen use efficiency. Physiol Plant. 176:e14251. | | Reference: March 13th, 2024
Gene Product: March 13th, 2024
Gene Model: August 30th, 2019
|
| 56 days ago | gdh2 | glutamic dehydrogenase2: | 10.02 - 10.04 | GRMZM2G427097
| Yuanyuan Liang et al. 2024. Fulvic acid alleviates the stress of low nitrogen on maize by promoting root development and nitrogen metabolism. Physiol Plant. 176:e14249. | | Reference: March 13th, 2024
Gene Product: September 1st, 2003
Variation: July 11th, 2023
Gene Model: October 6th, 2015
|
| 56 days ago | nrg16 | nitrate regulatory gene16: | 7.02 | AC235546.1_FG001
| Shuna Li et al. 2024. NRG2 family members of Arabidopsis and maize regulate nitrate signalling and promote nitrogen use efficiency. Physiol Plant. 176:e14251. | | Reference: March 13th, 2024
Gene Product: March 13th, 2024
Variation: September 1st, 2003
Gene Model: September 5th, 2018
|
| 56 days ago | cko5 | cytokinin oxidase 5: | 8.03 | GRMZM2G325612
| Yuanyuan Liang et al. 2024. Fulvic acid alleviates the stress of low nitrogen on maize by promoting root development and nitrogen metabolism. Physiol Plant. 176:e14249. | | Reference: March 13th, 2024
Gene Product: July 19th, 2021
Variation: September 1st, 2003
Gene Model: September 17th, 2018
|
| 56 days ago | hsftf9 | HSF-transcription factor 9: | | | Shashidhar B Reddappa et al. 2024. Characterization of Sub-Tropically Adapted Maize Breeding Lines for Loci Governing Kernel Amylose and Resistant Starch Starch. :doi: 10.1002/star.202300289. | | Reference: March 13th, 2024
Gene Product: May 15th, 2020
|
| 56 days ago | npi394 | : | 7.03 | GRMZM2G043254
| Yuanyuan Liang et al. 2024. Fulvic acid alleviates the stress of low nitrogen on maize by promoting root development and nitrogen metabolism. Physiol Plant. 176:e14249. | | Reference: March 13th, 2024
Variation: September 1st, 2003
Gene Model: September 8th, 2018
|
| 56 days ago | umc15a | : | 4.08 | GRMZM2G013128
| Junqiao Song et al. 2024. Genome-wide association mapping and genomic prediction of stalk rot in two mid-altitude tropical maize populations Crop J. :doi: 10.1016/j.cj.2024.02.004. | | Reference: March 13th, 2024
Variation: September 1st, 2003
Gene Model: June 7th, 2018
|
| 56 days ago | ckx6 | cytokinin oxidase6: | 1.08 | GRMZM2G404443
| Yuanyuan Liang et al. 2024. Fulvic acid alleviates the stress of low nitrogen on maize by promoting root development and nitrogen metabolism. Physiol Plant. 176:e14249. | | Reference: March 13th, 2024
Gene Product: July 19th, 2021
Gene Model: January 27th, 2017
|
| 56 days ago | gst26 | glutathione transferase26: | 4.05 | GRMZM2G363540
| Shashidhar B Reddappa et al. 2024. Characterization of Sub-Tropically Adapted Maize Breeding Lines for Loci Governing Kernel Amylose and Resistant Starch Starch. :doi: 10.1002/star.202300289. | | Reference: March 13th, 2024
Gene Product: September 1st, 2003
Gene Model: April 18th, 2017
|
| 56 days ago | gss1 | starch synthase homolog1: | 5.06 | GRMZM2G105791
| Xiuling Wang et al. 2024. Integrated transcriptomics and metabolomics analysis provide insights into the alleviation of waterlogging stress in maize by exogenous spermidine application J Integr Agric. :doi: 10.1016/j.jia.2024.03.041. | | Reference: March 13th, 2024
Gene Product: September 1st, 2003
Variation: October 7th, 2010
Gene Model: July 12th, 2018
|
| 56 days ago | hag101 | histone acetyl transferase GNAT/MYST 101: | 5.03 | GRMZM2G046021
| Junqiao Song et al. 2024. Genome-wide association mapping and genomic prediction of stalk rot in two mid-altitude tropical maize populations Crop J. :doi: 10.1016/j.cj.2024.02.004. | | Reference: March 13th, 2024
Gene Product: January 4th, 2018
Variation: December 14th, 2012
Gene Model: July 27th, 2016
|
| 56 days ago | nrg6 | nitrate regulatory gene6: | 3.04 | | Shuna Li et al. 2024. NRG2 family members of Arabidopsis and maize regulate nitrate signalling and promote nitrogen use efficiency. Physiol Plant. 176:e14251. | | Reference: March 13th, 2024
Gene Product: March 13th, 2024
|
| 56 days ago | acco20 | 1-aminocyclopropane-1-carboxylate oxidase20: | 4.07 | GRMZM2G126732
| Xiuling Wang et al. 2024. Integrated transcriptomics and metabolomics analysis provide insights into the alleviation of waterlogging stress in maize by exogenous spermidine application J Integr Agric. :doi: 10.1016/j.jia.2024.03.041. | | Reference: March 13th, 2024
Gene Product: May 16th, 2016
Variation: March 25th, 2015
Gene Model: March 25th, 2015
|
| 56 days ago | abh1 | abscisic acid 8'-hydroxylase1: | | GRMZM2G179147
| Yuanyuan Liang et al. 2024. Fulvic acid alleviates the stress of low nitrogen on maize by promoting root development and nitrogen metabolism. Physiol Plant. 176:e14249. | | Reference: March 13th, 2024
Gene Product: February 15th, 2013
Variation: September 1st, 2011
Gene Model: February 15th, 2013
|
| 56 days ago | amt2 | ammonium transporter2: | | GRMZM2G028736
| Yuanyuan Liang et al. 2024. Fulvic acid alleviates the stress of low nitrogen on maize by promoting root development and nitrogen metabolism. Physiol Plant. 176:e14249. | | Reference: March 13th, 2024
Gene Product: July 8th, 2013
Gene Model: July 8th, 2013
|
| 56 days ago | ipt4 | isopentenyl transferase4: | | GRMZM2G104559
| Yuanyuan Liang et al. 2024. Fulvic acid alleviates the stress of low nitrogen on maize by promoting root development and nitrogen metabolism. Physiol Plant. 176:e14249. | | Reference: March 13th, 2024
Gene Product: March 19th, 2014
Gene Model: July 10th, 2013
|
| 56 days ago | ga2ox12 | gibberellin 2-oxidase12: | | GRMZM2G177104
| Yuanyuan Liang et al. 2024. Fulvic acid alleviates the stress of low nitrogen on maize by promoting root development and nitrogen metabolism. Physiol Plant. 176:e14249. | | Reference: March 13th, 2024
Gene Product: October 27th, 2014
Gene Model: October 30th, 2014
|
| 56 days ago | acco1 | 1-aminocyclopropane-1-carboxylate oxidase1: | | GRMZM2G164883
| Xiuling Wang et al. 2024. Integrated transcriptomics and metabolomics analysis provide insights into the alleviation of waterlogging stress in maize by exogenous spermidine application J Integr Agric. :doi: 10.1016/j.jia.2024.03.041. | | Reference: March 13th, 2024
Gene Product: May 16th, 2016
Gene Model: May 16th, 2016
|
| 56 days ago | acco4 | 1-aminocyclopropane-1-carboxylate oxidase4: | | GRMZM2G332423
| Xiuling Wang et al. 2024. Integrated transcriptomics and metabolomics analysis provide insights into the alleviation of waterlogging stress in maize by exogenous spermidine application J Integr Agric. :doi: 10.1016/j.jia.2024.03.041. | | Reference: March 13th, 2024
Gene Product: May 16th, 2016
Gene Model: May 16th, 2016
|
| 56 days ago | aasr10 | abscisic acid stress ripening10: | | GRMZM2G009792
| Yuanyuan Liang et al. 2024. Fulvic acid alleviates the stress of low nitrogen on maize by promoting root development and nitrogen metabolism. Physiol Plant. 176:e14249. | | Reference: March 13th, 2024
Gene Product: January 2nd, 2019
Gene Model: January 2nd, 2019
|
| 56 days ago | npf11 | nitrate transporter/peptide transporter family11: | | GRMZM2G061303
| Yuanyuan Liang et al. 2024. Fulvic acid alleviates the stress of low nitrogen on maize by promoting root development and nitrogen metabolism. Physiol Plant. 176:e14249. | | Reference: March 13th, 2024
Gene Product: September 1st, 2003
Gene Model: May 21st, 2019
|
| 56 days ago | ppr237 | pentatricopeptide repeat protein237: | | GRMZM2G110483
| Shashidhar B Reddappa et al. 2024. Characterization of Sub-Tropically Adapted Maize Breeding Lines for Loci Governing Kernel Amylose and Resistant Starch Starch. :doi: 10.1002/star.202300289. | | Reference: March 13th, 2024
Gene Product: December 27th, 2016
Variation: November 13th, 2023
Gene Model: June 12th, 2020
|
| 56 days ago | ga20ox6 | gibberellin 20-oxidase6: | | GRMZM2G127232
| Yuanyuan Liang et al. 2024. Fulvic acid alleviates the stress of low nitrogen on maize by promoting root development and nitrogen metabolism. Physiol Plant. 176:e14249. | | Reference: March 13th, 2024
Gene Product: October 28th, 2014
Gene Model: July 6th, 2020
|
| 56 days ago | sam3 | S-adenosylmethionine decarboxylase3: | | GRMZM2G060369
| Xiuling Wang et al. 2024. Integrated transcriptomics and metabolomics analysis provide insights into the alleviation of waterlogging stress in maize by exogenous spermidine application J Integr Agric. :doi: 10.1016/j.jia.2024.03.041. | | Reference: March 13th, 2024
Gene Product: September 1st, 2003
Gene Model: August 18th, 2020
|
| 56 days ago | pao9 | polyamine oxidase9: | | GRMZM2G071343
| Xiuling Wang et al. 2024. Integrated transcriptomics and metabolomics analysis provide insights into the alleviation of waterlogging stress in maize by exogenous spermidine application J Integr Agric. :doi: 10.1016/j.jia.2024.03.041. | | Reference: March 13th, 2024
Gene Product: June 10th, 2020
Gene Model: August 4th, 2022
|
| 56 days ago | pao10 | polyamine oxidase9: | | GRMZM2G137820
| Xiuling Wang et al. 2024. Integrated transcriptomics and metabolomics analysis provide insights into the alleviation of waterlogging stress in maize by exogenous spermidine application J Integr Agric. :doi: 10.1016/j.jia.2024.03.041. | | Reference: March 13th, 2024
Gene Product: June 10th, 2020
Gene Model: August 4th, 2022
|
| 56 days ago | nrg19 | nitrate regulatory gene19: | 7.06 | GRMZM2G071599
| Shuna Li et al. 2024. NRG2 family members of Arabidopsis and maize regulate nitrate signalling and promote nitrogen use efficiency. Physiol Plant. 176:e14251. | | Reference: March 13th, 2024
Gene Product: March 13th, 2024
Gene Model: July 30th, 2020
|
| 56 days ago | sams2 | S-adenosylmethionine synthetase2: | 8.03 | GRMZM2G054123
| Xiuling Wang et al. 2024. Integrated transcriptomics and metabolomics analysis provide insights into the alleviation of waterlogging stress in maize by exogenous spermidine application J Integr Agric. :doi: 10.1016/j.jia.2024.03.041. | | Reference: March 13th, 2024
Gene Product: January 27th, 2020
Gene Model: January 27th, 2020
|
| 56 days ago | nrg23 | nitrate regulatory gene23: | 10.05 | | Shuna Li et al. 2024. NRG2 family members of Arabidopsis and maize regulate nitrate signalling and promote nitrogen use efficiency. Physiol Plant. 176:e14251. | | Reference: March 13th, 2024
Gene Product: March 13th, 2024
|
| 56 days ago | IDP3970 | : | 1.02 | | Xiuling Wang et al. 2024. Integrated transcriptomics and metabolomics analysis provide insights into the alleviation of waterlogging stress in maize by exogenous spermidine application J Integr Agric. :doi: 10.1016/j.jia.2024.03.041. | | Reference: March 13th, 2024
Variation: March 31st, 2005
|
| 56 days ago | nrg7 | nitrate regulatory gene7: | 3.09 | | Shuna Li et al. 2024. NRG2 family members of Arabidopsis and maize regulate nitrate signalling and promote nitrogen use efficiency. Physiol Plant. 176:e14251. | | Reference: March 13th, 2024
Gene Product: March 13th, 2024
|
| 56 days ago | asg62 | : | 1.07 | GRMZM2G379237
| Yuanyuan Liang et al. 2024. Fulvic acid alleviates the stress of low nitrogen on maize by promoting root development and nitrogen metabolism. Physiol Plant. 176:e14249. | | Reference: March 13th, 2024
Variation: February 15th, 2017
Gene Model: July 24th, 2018
|
| 57 days ago | bm3 | brown midrib3: | 4.04 | GRMZM5G814904
| Tian-li He et al. 2021. Gene Cloning and Transcriptome Analysis of Maize Brown Midrid Mutant bm-like1 J Plant Genet Resour. 22:1375-1382. | | Reference: March 12th, 2024
Gene Product: February 16th, 2011
Variation: March 12th, 2024
Gene Model: May 21st, 2020
|
| 57 days ago | pgk3 | phosphoglycerate kinase3: | 5.04 | GRMZM2G382914
| Chloee M McLaughlin et al. 2024. Evidence that variation in root anatomy contributes to local adaptation in Mexican native maize. Evol Appl. 17:e13673. | | Reference: March 12th, 2024
Gene Product: November 24th, 2020
Variation: September 1st, 2003
Gene Model: May 14th, 2020
|
| 57 days ago | AY110540 | : | 3.08 | GRMZM2G130358
| Chloee M McLaughlin et al. 2024. Evidence that variation in root anatomy contributes to local adaptation in Mexican native maize. Evol Appl. 17:e13673. | | Reference: March 12th, 2024
Variation: March 17th, 2021
Gene Model: March 20th, 2018
|
| 57 days ago | pdi3 | protein disulfide isomerase3: | 4.11 | GRMZM2G134889
| Chloee M McLaughlin et al. 2024. Evidence that variation in root anatomy contributes to local adaptation in Mexican native maize. Evol Appl. 17:e13673. | | Reference: March 12th, 2024
Gene Product: September 1st, 2003
Variation: January 5th, 2016
Gene Model: December 18th, 2015
|
| 57 days ago | bx10 | benzoxazinone synthesis10: | | GRMZM2G311036
| Batool, R et al. 2024. Endophytic Fungi-Mediated Defense Signaling in Maize: Unraveling the Role of WRKY36 in Regulating Immunity against Spodoptera frugiperda. Physiol Plant. 176:e14243. | | Reference: March 12th, 2024
Gene Product: July 8th, 2013
Gene Model: July 8th, 2013
|
| 57 days ago | bx11 | benzoxazinone synthesis11: | | GRMZM2G336824
| Batool, R et al. 2024. Endophytic Fungi-Mediated Defense Signaling in Maize: Unraveling the Role of WRKY36 in Regulating Immunity against Spodoptera frugiperda. Physiol Plant. 176:e14243. | | Reference: March 12th, 2024
Gene Product: July 8th, 2013
Gene Model: July 8th, 2013
|
| 57 days ago | sacd8 | stearoyl-acyl-carrier-protein desaturase8: | | GRMZM5G883417
| Chloee M McLaughlin et al. 2024. Evidence that variation in root anatomy contributes to local adaptation in Mexican native maize. Evol Appl. 17:e13673. | | Reference: March 12th, 2024
Gene Product: October 10th, 2016
Variation: March 17th, 2021
Gene Model: October 10th, 2016
|
| 57 days ago | aomt8 | anthranilate O-methyltransferase8: | | GRMZM2G010731
| Tian-li He et al. 2021. Gene Cloning and Transcriptome Analysis of Maize Brown Midrid Mutant bm-like1 J Plant Genet Resour. 22:1375-1382. | | Reference: March 12th, 2024
Gene Product: December 23rd, 2020
Gene Model: December 23rd, 2020
|
| 57 days ago | hpc1 | High PhosphatidylCholine1: | | GRMZM2G353444
| Chloee M McLaughlin et al. 2024. Evidence that variation in root anatomy contributes to local adaptation in Mexican native maize. Evol Appl. 17:e13673. | | Reference: March 12th, 2024
Gene Product: June 12th, 2020
Gene Model: March 26th, 2022
|
| 58 days ago | tpi4 | triose phosphate isomerase4: | 3.04 | GRMZM2G030784
| Wenyu Li et al. 2024. The cytosolic isoform of triosephosphate isomerase, ZmTPI4, is required for kernel development and starch synthesis in maize (Zea mays L.) Crop J. :doi: 10.1016/j.cj.2024.02.001. | | Reference: March 11th, 2024
Gene Product: September 1st, 2003
Variation: March 11th, 2024
Gene Model: January 15th, 2015
|
| 61 days ago | lhca1 | light harvesting complex A1: | 2.08 | GRMZM2G038519
| Guihua Lv et al. 2024. Mechanisms Underlying the Differential Sensitivity to Mesotrione in Sweet Corn Agronomy. 14:555. | | Reference: March 8th, 2024
Gene Product: September 1st, 2003
Variation: February 18th, 2015
Gene Model: February 18th, 2015
|
| 61 days ago | bon3 | bonzai3: | 6.05 | GRMZM2G176995
| Jing, T et al. 2024. Copine proteins are required for brassinosteroid signaling in maize and Arabidopsis Nat Commun. 15:2028. | AT1G08860 (TAIR) | Reference: March 8th, 2024
Gene Product: January 3rd, 2023
Gene Model: January 8th, 2020
|
| 61 days ago | lhcb6 | light harvesting chlorophyll a/b binding protein6: | | GRMZM2G092427
| Guihua Lv et al. 2024. Mechanisms Underlying the Differential Sensitivity to Mesotrione in Sweet Corn Agronomy. 14:555. | | Reference: March 8th, 2024
Gene Product: January 8th, 2005
Variation: October 8th, 2010
Gene Model: October 9th, 2015
|
| 61 days ago | psb29 | photosystem II subunit29: | 7.04 | GRMZM2G033885
| Guihua Lv et al. 2024. Mechanisms Underlying the Differential Sensitivity to Mesotrione in Sweet Corn Agronomy. 14:555. | | Reference: March 8th, 2024
Gene Product: September 1st, 2003
Variation: January 8th, 2015
Gene Model: January 8th, 2015
|
| 61 days ago | umc1267 | : | 9.03 - 9.04 | GRMZM2G010884
| Guihua Lv et al. 2024. Mechanisms Underlying the Differential Sensitivity to Mesotrione in Sweet Corn Agronomy. 14:555. | | Reference: March 8th, 2024
Variation: September 1st, 2003
Gene Model: March 7th, 2018
|
| 61 days ago | lhcb2 | light harvesting chlorophyll a/b binding protein2: | 7.03 | | Guihua Lv et al. 2024. Mechanisms Underlying the Differential Sensitivity to Mesotrione in Sweet Corn Agronomy. 14:555. | | Reference: March 8th, 2024
Gene Product: January 8th, 2005
Variation: August 20th, 2014
|
| 61 days ago | lhcb7 | light harvesting complex mesophyll7: | 6.07 | | Guihua Lv et al. 2024. Mechanisms Underlying the Differential Sensitivity to Mesotrione in Sweet Corn Agronomy. 14:555. | | Reference: March 8th, 2024
Gene Product: January 8th, 2005
Variation: January 5th, 2013
|
| 61 days ago | lhcb9 | light harvesting chlorophyll binding protein9: | 1.08 | GRMZM2G414192
| Guihua Lv et al. 2024. Mechanisms Underlying the Differential Sensitivity to Mesotrione in Sweet Corn Agronomy. 14:555. | | Reference: March 8th, 2024
Gene Product: January 8th, 2005
Variation: October 27th, 2016
Gene Model: October 27th, 2016
|
| 61 days ago | rgd2 | ragged seedling2: | 1.04 | GRMZM5G892991
| Jing, T et al. 2024. Copine proteins are required for brassinosteroid signaling in maize and Arabidopsis Nat Commun. 15:2028. | | Reference: March 8th, 2024
Gene Product: August 12th, 2016
Variation: July 6th, 2010
Gene Model: September 11th, 2013
|
| 61 days ago | hma3 | heavy metal ATPase3: | | GRMZM2G175576
| Juan Xin et al. 2024. Variations in grain yield and nutrient status of different maize cultivars by application of zinc sulfate. PLoS One. 19:e0295391. | | Reference: March 8th, 2024
Gene Product: October 23rd, 2019
Variation: June 4th, 2021
Gene Model: January 27th, 2018
|
| 61 days ago | hma4 | heavy metal ATPase4: | | GRMZM2G455491
| Juan Xin et al. 2024. Variations in grain yield and nutrient status of different maize cultivars by application of zinc sulfate. PLoS One. 19:e0295391. | | Reference: March 8th, 2024
Gene Product: October 23rd, 2019
Variation: June 12th, 2020
Gene Model: January 27th, 2018
|
| 61 days ago | lhcb10 | light harvesting chlorophyll a/b binding protein10: | | GRMZM2G351977
| Guihua Lv et al. 2024. Mechanisms Underlying the Differential Sensitivity to Mesotrione in Sweet Corn Agronomy. 14:555. | | Reference: March 8th, 2024
Gene Product: September 1st, 2003
Gene Model: August 3rd, 2018
|
| 61 days ago | bon1 | bonzai1: | | GRMZM2G494514
| Jing, T et al. 2024. Copine proteins are required for brassinosteroid signaling in maize and Arabidopsis Nat Commun. 15:2028. | AT5G61900 (TAIR) | Reference: March 8th, 2024
Gene Product: January 3rd, 2023
Gene Model: July 10th, 2019
|
| 61 days ago | lhca2 | light harvesting complex A2: | | GRMZM2G072280
| Guihua Lv et al. 2024. Mechanisms Underlying the Differential Sensitivity to Mesotrione in Sweet Corn Agronomy. 14:555. | | Reference: March 8th, 2024
Gene Product: January 8th, 2005
Gene Model: April 8th, 2021
|
| 61 days ago | irt2 | iron-regulated transporter2: | | GRMZM2G115190
| Juan Xin et al. 2024. Variations in grain yield and nutrient status of different maize cultivars by application of zinc sulfate. PLoS One. 19:e0295391. | | Reference: March 8th, 2024
Gene Product: June 5th, 2019
Gene Model: February 7th, 2022
|
| 61 days ago | IDP518 | : | 3.09 | GRMZM2G120619
| Guihua Lv et al. 2024. Mechanisms Underlying the Differential Sensitivity to Mesotrione in Sweet Corn Agronomy. 14:555. | | Reference: March 8th, 2024
Variation: March 31st, 2005
Gene Model: February 25th, 2019
|
| 61 days ago | lhcb5 | light harvesting chlorophyll a/b binding protein5: | 2.08 | GRMZM2G149428
| Guihua Lv et al. 2024. Mechanisms Underlying the Differential Sensitivity to Mesotrione in Sweet Corn Agronomy. 14:555. | | Reference: March 8th, 2024
Variation: February 19th, 2015
Gene Model: February 19th, 2015
|
| 61 days ago | ivr2 | invertase2: | 5.03 | | Noel Ndlovu et al. 2024. Linkage mapping and genomic prediction of grain quality traits in tropical maize (Zea mays L.). Frontiers in Genetics. 15:1353289. | | Reference: March 8th, 2024
Gene Product: June 12th, 2018
Variation: May 18th, 2012
|
| 62 days ago | gl17 | glossy17: | 5.03 | | Wang, D et al. 2010. Plant J 63:939-951 | | Reference: January 18th, 2023
Variation: March 7th, 2024
|
| 62 days ago | o1 | opaque endosperm1: | 4.08 - 4.08 | GRMZM2G449909
| Gallagher, Kimberly and Smith, LG. 1999. Development 126:4623-4633 | | Reference: March 7th, 2024
Gene Product: September 1st, 2003
Variation: October 9th, 2017
Gene Model: August 28th, 2012
|
| 62 days ago | dcd1 | discordia1: | 10.03 | | Gallagher, Kimberly and Smith, LG. 1999. Development 126:4623-4633 | | Reference: March 7th, 2024
Variation: March 7th, 2024
|
| 62 days ago | pdi13 | protein disulfide isomerase13: | | GRMZM2G376542
| Feng, XJ et al. 2024. Profiling the selected hotspots for ear traits in two maize–teosinte populations Theor Appl Genet. 137:74. | | Reference: March 7th, 2024
Gene Product: September 1st, 2003
Gene Model: August 4th, 2020
|
| 63 days ago | pan1 | pangloss1: | | GRMZM5G836190
| Facette, MR et al. 2015. Nature Plants 0:Article number: 14024 | | Reference: March 6th, 2024
Gene Product: November 27th, 2012
Variation: July 11th, 2014
Gene Model: November 2nd, 2011
|
| 63 days ago | brk2 | brick2: | 1.01 | | Facette, MR et al. 2015. Nature Plants 0:Article number: 14024 | | Reference: March 6th, 2024
Variation: March 5th, 2024
|
| 63 days ago | brk3 | brick3: | 10.01 - 10.02 | GRMZM2G180150
| Facette, MR et al. 2015. Nature Plants 0:Article number: 14024 | AT2G35110 (TAIR)
Os08G0544500 (Gramene) | Reference: March 6th, 2024
Gene Product: August 12th, 2015
Variation: March 6th, 2024
Gene Model: August 11th, 2015
|
| 63 days ago | cesa8 | cellulose synthase8: | 7.02 | | Sarah Tepler Drobnitch et al. 2024. Searching for mechanisms driving root pressure in Zea mays—a transcriptomic approach J Plant Physiol. :doi: 10.1016/j.jplph.2024.154209. | | Reference: March 6th, 2024
Gene Product: October 7th, 2016
Variation: January 3rd, 2014
|
| 63 days ago | pip2f | plasma membrane intrinsic protein2: | 7.02 | | Sarah Tepler Drobnitch et al. 2024. Searching for mechanisms driving root pressure in Zea mays—a transcriptomic approach J Plant Physiol. :doi: 10.1016/j.jplph.2024.154209. | | Reference: March 6th, 2024
Gene Product: September 1st, 2003
Variation: March 26th, 2013
|
| 63 days ago | tip2 | tonoplast intrinsic protein2: | 8.06 | GRMZM2G168439
| Sarah Tepler Drobnitch et al. 2024. Searching for mechanisms driving root pressure in Zea mays—a transcriptomic approach J Plant Physiol. :doi: 10.1016/j.jplph.2024.154209. | | Reference: March 6th, 2024
Gene Product: September 1st, 2003
Variation: August 27th, 2015
Gene Model: May 15th, 2015
|
| 63 days ago | sut1 | sucrose transporter1: | 1.02 | GRMZM2G034302
| Sarah Tepler Drobnitch et al. 2024. Searching for mechanisms driving root pressure in Zea mays—a transcriptomic approach J Plant Physiol. :doi: 10.1016/j.jplph.2024.154209. | | Reference: March 6th, 2024
Gene Product: September 14th, 2013
Variation: April 16th, 2013
Gene Model: April 16th, 2013
|
| 63 days ago | vpp8 | vacuolar proton pump8: | 7.04 | GRMZM2G019999
| Sarah Tepler Drobnitch et al. 2024. Searching for mechanisms driving root pressure in Zea mays—a transcriptomic approach J Plant Physiol. :doi: 10.1016/j.jplph.2024.154209. | | Reference: March 6th, 2024
Gene Product: September 1st, 2003
Gene Model: August 25th, 2018
|
| 63 days ago | brk1 | brick1: | 5.08 | GRMZM5G842058
| Facette, MR et al. 2015. Nature Plants 0:Article number: 14024 | | Reference: March 6th, 2024
Gene Product: August 12th, 2015
Variation: August 11th, 2015
Gene Model: October 28th, 2013
|
| 63 days ago | sut3 | sucrose transporter3: | 1.08 | GRMZM2G083248
| Sarah Tepler Drobnitch et al. 2024. Searching for mechanisms driving root pressure in Zea mays—a transcriptomic approach J Plant Physiol. :doi: 10.1016/j.jplph.2024.154209. | | Reference: March 6th, 2024
Gene Product: September 14th, 2013
Variation: April 13th, 2017
Gene Model: November 3rd, 2015
|
| 63 days ago | mlo4 | barley mlo defense gene homolog4: | 4.09 | | Sarah Tepler Drobnitch et al. 2024. Searching for mechanisms driving root pressure in Zea mays—a transcriptomic approach J Plant Physiol. :doi: 10.1016/j.jplph.2024.154209. | | Reference: March 6th, 2024
Variation: April 14th, 2012
|
| 63 days ago | sut4 | sucrose transporter4: | 5.09 | GRMZM2G145107
| Sarah Tepler Drobnitch et al. 2024. Searching for mechanisms driving root pressure in Zea mays—a transcriptomic approach J Plant Physiol. :doi: 10.1016/j.jplph.2024.154209. | | Reference: March 6th, 2024
Gene Product: September 14th, 2013
Variation: February 17th, 2017
Gene Model: April 17th, 2013
|
| 63 days ago | mrpa2 | multidrug resistance associated protein2: | 7.02 | GRMZM5G832772
| Sarah Tepler Drobnitch et al. 2024. Searching for mechanisms driving root pressure in Zea mays—a transcriptomic approach J Plant Physiol. :doi: 10.1016/j.jplph.2024.154209. | | Reference: March 6th, 2024
Gene Product: July 11th, 2019
Variation: January 12th, 2016
Gene Model: January 12th, 2016
|
| 63 days ago | mrpa6 | multidrug resistance associated protein6: | | GRMZM2G142870
| Sarah Tepler Drobnitch et al. 2024. Searching for mechanisms driving root pressure in Zea mays—a transcriptomic approach J Plant Physiol. :doi: 10.1016/j.jplph.2024.154209. | | Reference: March 6th, 2024
Gene Product: July 11th, 2019
Gene Model: January 12th, 2016
|
| 63 days ago | mrpa9 | multidrug resistance associated protein9: | | GRMZM2G365957
| Sarah Tepler Drobnitch et al. 2024. Searching for mechanisms driving root pressure in Zea mays—a transcriptomic approach J Plant Physiol. :doi: 10.1016/j.jplph.2024.154209. | | Reference: March 6th, 2024
Gene Product: July 11th, 2019
Gene Model: July 11th, 2019
|
| 63 days ago | pan2 | pangloss2: | | GRMZM2G034572
| Facette, MR et al. 2015. Nature Plants 0:Article number: 14024 | | Reference: March 6th, 2024
Gene Product: November 27th, 2012
Variation: November 27th, 2012
Gene Model: November 27th, 2012
|
| 63 days ago | dct1 | dicarboxylic acid transporter1: | | GRMZM2G040933
| Sarah Tepler Drobnitch et al. 2024. Searching for mechanisms driving root pressure in Zea mays—a transcriptomic approach J Plant Physiol. :doi: 10.1016/j.jplph.2024.154209. | | Reference: March 6th, 2024
Gene Product: August 18th, 2014
Gene Model: August 18th, 2014
|
| 63 days ago | laz4 | lazarus ortholog4: | | GRMZM2G100419
| Sarah Tepler Drobnitch et al. 2024. Searching for mechanisms driving root pressure in Zea mays—a transcriptomic approach J Plant Physiol. :doi: 10.1016/j.jplph.2024.154209. | | Reference: March 6th, 2024
Gene Product: July 27th, 2019
Gene Model: July 27th, 2019
|
| 63 days ago | laz5 | lazarus ortholog5: | | GRMZM2G035445
| Sarah Tepler Drobnitch et al. 2024. Searching for mechanisms driving root pressure in Zea mays—a transcriptomic approach J Plant Physiol. :doi: 10.1016/j.jplph.2024.154209. | | Reference: March 6th, 2024
Gene Product: July 27th, 2019
Gene Model: July 27th, 2019
|
| 63 days ago | thx44 | Trihelix-transcription factor 44: | | GRMZM2G122277
| Sarah Tepler Drobnitch et al. 2024. Searching for mechanisms driving root pressure in Zea mays—a transcriptomic approach J Plant Physiol. :doi: 10.1016/j.jplph.2024.154209. | | Reference: March 6th, 2024
Gene Product: November 9th, 2021
Gene Model: August 7th, 2019
|
| 63 days ago | cipk4 | calcineurin B-like-interacting protein kinase4: | | GRMZM2G472643
| Xiuzhen Kong et al. 2024. Ethylene regulates auxin-mediated root gravitropic machinery and controls root angle in cereal crops. Plant Physiol. :doi: 10.1093/plphys/kiae134. | AT4G14580 (TAIR) | Reference: March 6th, 2024
Gene Product: August 25th, 2018
Variation: June 25th, 2021
Gene Model: November 21st, 2019
|
| 63 days ago | pme12 | pectin methylesterase12: | | GRMZM2G158240
| Sarah Tepler Drobnitch et al. 2024. Searching for mechanisms driving root pressure in Zea mays—a transcriptomic approach J Plant Physiol. :doi: 10.1016/j.jplph.2024.154209. | | Reference: March 6th, 2024
Gene Product: September 10th, 2018
Gene Model: December 28th, 2019
|
| 63 days ago | pme13 | pectin methylesterase13: | | GRMZM2G008593
| Sarah Tepler Drobnitch et al. 2024. Searching for mechanisms driving root pressure in Zea mays—a transcriptomic approach J Plant Physiol. :doi: 10.1016/j.jplph.2024.154209. | | Reference: March 6th, 2024
Gene Product: September 10th, 2018
Gene Model: December 28th, 2019
|
| 63 days ago | pme19 | pectin methylesterase19: | | GRMZM2G136106
| Sarah Tepler Drobnitch et al. 2024. Searching for mechanisms driving root pressure in Zea mays—a transcriptomic approach J Plant Physiol. :doi: 10.1016/j.jplph.2024.154209. | | Reference: March 6th, 2024
Gene Product: September 10th, 2018
Gene Model: December 28th, 2019
|
| 63 days ago | pme20 | pectin methylesterase20: | | GRMZM2G025182
| Sarah Tepler Drobnitch et al. 2024. Searching for mechanisms driving root pressure in Zea mays—a transcriptomic approach J Plant Physiol. :doi: 10.1016/j.jplph.2024.154209. | | Reference: March 6th, 2024
Gene Product: September 10th, 2018
Gene Model: December 28th, 2019
|
| 63 days ago | pme22 | pectin methylesterase22: | | GRMZM2G167637
| Sarah Tepler Drobnitch et al. 2024. Searching for mechanisms driving root pressure in Zea mays—a transcriptomic approach J Plant Physiol. :doi: 10.1016/j.jplph.2024.154209. | | Reference: March 6th, 2024
Gene Product: September 10th, 2018
Gene Model: December 28th, 2019
|
| 63 days ago | hak19 | potassium high-affinity transporter19: | | GRMZM2G021725
| Sarah Tepler Drobnitch et al. 2024. Searching for mechanisms driving root pressure in Zea mays—a transcriptomic approach J Plant Physiol. :doi: 10.1016/j.jplph.2024.154209. | | Reference: March 6th, 2024
Gene Product: March 12th, 2020
Gene Model: March 12th, 2020
|
| 63 days ago | hak23 | potassium high-affinity transporter23: | | GRMZM2G036916
| Sarah Tepler Drobnitch et al. 2024. Searching for mechanisms driving root pressure in Zea mays—a transcriptomic approach J Plant Physiol. :doi: 10.1016/j.jplph.2024.154209. | | Reference: March 6th, 2024
Gene Product: March 12th, 2020
Gene Model: March 12th, 2020
|
| 63 days ago | fax2 | fatty acid export2: | | GRMZM2G143389
| Sarah Tepler Drobnitch et al. 2024. Searching for mechanisms driving root pressure in Zea mays—a transcriptomic approach J Plant Physiol. :doi: 10.1016/j.jplph.2024.154209. | | Reference: March 6th, 2024
Gene Product: March 14th, 2020
Gene Model: March 14th, 2020
|
| 63 days ago | sfr2 | sensitivity to freezing2: | | AC148152.3_FG008
| Sarah Tepler Drobnitch et al. 2024. Searching for mechanisms driving root pressure in Zea mays—a transcriptomic approach J Plant Physiol. :doi: 10.1016/j.jplph.2024.154209. | AT3G06510 (TAIR) | Reference: March 6th, 2024
Gene Product: June 26th, 2019
Gene Model: March 24th, 2020
|
| 63 days ago | msl3 | mechanosensitive channel of small conductance-like3: | | GRMZM2G027891
| Sarah Tepler Drobnitch et al. 2024. Searching for mechanisms driving root pressure in Zea mays—a transcriptomic approach J Plant Physiol. :doi: 10.1016/j.jplph.2024.154209. | | Reference: March 6th, 2024
Gene Product: October 8th, 2020
Gene Model: October 8th, 2020
|
| 63 days ago | pco066521 | : | | GRMZM2G410812
| Facette, MR et al. 2015. Nature Plants 0:Article number: 14024 | | Reference: March 6th, 2024
Gene Product: August 12th, 2015
Gene Model: August 12th, 2015
|
| 63 days ago | IDP1437a | : | 1.01 | GRMZM2G103599
| Facette, MR et al. 2015. Nature Plants 0:Article number: 14024 | AT5G18410 (TAIR)
LOC_Os03g05020 (MSU/TIGR) | Reference: March 6th, 2024
Variation: March 31st, 2005
Gene Model: February 14th, 2019
|
| 63 days ago | IDP778 | : | 6.01 | GRMZM2G099619
| Sarah Tepler Drobnitch et al. 2024. Searching for mechanisms driving root pressure in Zea mays—a transcriptomic approach J Plant Physiol. :doi: 10.1016/j.jplph.2024.154209. | | Reference: March 6th, 2024
Variation: March 31st, 2005
Gene Model: February 19th, 2021
|
| 64 days ago | sci2 | subtilisin-chymotrypsin inhibitor homolog2: | | | Yuanlong Chen et al. 2024. Salicylic acid inducing the expression of maize anti-insect gene SPI: a potential control strategy for Ostrinia furnacalis BMC Plant Biology. 24:152. | | Reference: March 5th, 2024
Gene Product: March 5th, 2024
|
| 64 days ago | cchh25 | Cys2His2 Zinc Finger25: | | | Ji, XZ et al. 2024. WGCNA analysis of the effect of exogenous BR on leaf angle of maize mutant lpa1 Sci. Rep.. :doi: 10.1038/s41598-024-55835-7. | AT2G01940 (TAIR)
LOC_Os03g13400 (MSU/TIGR)
Os03g0237250 (Gramene) | Reference: March 5th, 2024
Gene Product: November 14th, 2022
Variation: April 28th, 2022
|
| 64 days ago | zim29 | ZIM-transcription factor 29: | | | Yuanlong Chen et al. 2024. Salicylic acid inducing the expression of maize anti-insect gene SPI: a potential control strategy for Ostrinia furnacalis BMC Plant Biology. 24:152. | | Reference: March 5th, 2024
Gene Product: February 24th, 2021
|
| 64 days ago | cesa3 | cellulose synthase3: | 3.03 | | Yuting Zhang et al. 2024. Characterization of ZmCesAs for Secondary Cell Wall Biosynthesis in Maize J Plant Biol. :doi: 10.1007/s12374-023-09420-6. | | Reference: March 5th, 2024
Gene Product: October 7th, 2016
Variation: February 27th, 2015
|
| 64 days ago | cesa4 | cellulose synthase4: | 7.02 | GRMZM2G424832
| Yuting Zhang et al. 2024. Characterization of ZmCesAs for Secondary Cell Wall Biosynthesis in Maize J Plant Biol. :doi: 10.1007/s12374-023-09420-6. | | Reference: March 5th, 2024
Gene Product: October 7th, 2016
Variation: January 3rd, 2014
Gene Model: July 22nd, 2015
|
| 64 days ago | cesa5 | cellulose synthase5: | 1.11 | | Yuting Zhang et al. 2024. Characterization of ZmCesAs for Secondary Cell Wall Biosynthesis in Maize J Plant Biol. :doi: 10.1007/s12374-023-09420-6. | | Reference: March 5th, 2024
Gene Product: October 7th, 2016
Variation: September 1st, 2003
|
| 64 days ago | cesa6 | cellulose synthase6: | 1.11 | | Yuting Zhang et al. 2024. Characterization of ZmCesAs for Secondary Cell Wall Biosynthesis in Maize J Plant Biol. :doi: 10.1007/s12374-023-09420-6. | | Reference: March 5th, 2024
Gene Product: October 7th, 2016
Variation: November 14th, 2012
|
| 64 days ago | cesa9 | cellulose synthase9: | 2.06 | | Yuting Zhang et al. 2024. Characterization of ZmCesAs for Secondary Cell Wall Biosynthesis in Maize J Plant Biol. :doi: 10.1007/s12374-023-09420-6. | | Reference: March 5th, 2024
Gene Product: October 7th, 2016
Variation: January 3rd, 2014
|
| 64 days ago | sci1 | subtilisin-chymotrypsin inhibitor homolog1: | 8.05 | | Lukas Dorian Dittiger et al. 2023. Plant Responses of Maize to Two formae speciales of Sporisorium reilianum Support Recent Fungal Host Jump Int J Mol Sci. 24:15604. | | Reference: October 26th, 2023
Gene Product: March 5th, 2024
Variation: August 25th, 2015
|
| 64 days ago | npr1 | nonexpressor of pathogenesis-related genes homolog 1: | | GRMZM2G076450
| Yuanlong Chen et al. 2024. Salicylic acid inducing the expression of maize anti-insect gene SPI: a potential control strategy for Ostrinia furnacalis BMC Plant Biology. 24:152. | | Reference: March 5th, 2024
Gene Product: January 18th, 2021
Gene Model: January 18th, 2021
|
| 64 days ago | cesa10 | cellulose synthase10: | 1.08 | GRMZM2G445905
| Yuting Zhang et al. 2024. Characterization of ZmCesAs for Secondary Cell Wall Biosynthesis in Maize J Plant Biol. :doi: 10.1007/s12374-023-09420-6. | | Reference: March 5th, 2024
Gene Product: October 7th, 2016
Variation: March 5th, 2024
Gene Model: July 22nd, 2015
|
| 64 days ago | cesa11 | cellulose synthase 11: | 3.07 | GRMZM2G055795
| Yuting Zhang et al. 2024. Characterization of ZmCesAs for Secondary Cell Wall Biosynthesis in Maize J Plant Biol. :doi: 10.1007/s12374-023-09420-6. | | Reference: March 5th, 2024
Gene Product: October 7th, 2016
Variation: March 5th, 2024
Gene Model: July 22nd, 2015
|
| 64 days ago | cesa12 | cellulose synthase 12: | 7.02 | GRMZM2G142898
| Yuting Zhang et al. 2024. Characterization of ZmCesAs for Secondary Cell Wall Biosynthesis in Maize J Plant Biol. :doi: 10.1007/s12374-023-09420-6. | | Reference: March 5th, 2024
Gene Product: October 7th, 2016
Variation: March 5th, 2024
Gene Model: July 22nd, 2015
|
| 65 days ago | umc1722 | : | 5.05 | GRMZM2G153368
| Richard F Davis et al. 2024. A QTL on Maize Chromosome 5 is Associated with Root-Knot Nematode Resistance. Phytopathology. :doi: 10.1094/PHYTO-08-23-0286-R. | | Reference: March 4th, 2024
Variation: September 1st, 2003
Gene Model: March 12th, 2021
|
| 65 days ago | def4 | defensin-like protein4: | | GRMZM2G153488
| Richard F Davis et al. 2024. A QTL on Maize Chromosome 5 is Associated with Root-Knot Nematode Resistance. Phytopathology. :doi: 10.1094/PHYTO-08-23-0286-R. | | Reference: March 4th, 2024
Gene Product: December 12th, 2022
Gene Model: September 16th, 2017
|
| 72 days ago | prd3 | putative recombination initiation defect3: | | | Chen, XY et al. 2024. Molecular Mechanisms of Male Sterility in Maize Plant Mol Biol Rep. :doi: 10.1007/s11105-024-01441-w. | AT1G01690 (TAIR)
LOC_Os03g01590 (MSU/TIGR) | Reference: February 26th, 2024
Variation: October 12th, 2022
|
| 72 days ago | figl1 | fidgetin-like1: | | | Chen, XY et al. 2024. Molecular Mechanisms of Male Sterility in Maize Plant Mol Biol Rep. :doi: 10.1007/s11105-024-01441-w. | | Reference: February 26th, 2024
Variation: June 9th, 2023
|
| 72 days ago | ms45 | male sterile45: | 9.06 | | Chen, XY et al. 2024. Molecular Mechanisms of Male Sterility in Maize Plant Mol Biol Rep. :doi: 10.1007/s11105-024-01441-w. | | Reference: February 26th, 2024
Gene Product: September 29th, 2023
Variation: June 27th, 2014
|
| 72 days ago | ms33 | male sterile33: | 2.09 | GRMZM2G070304
| Chen, XY et al. 2024. Molecular Mechanisms of Male Sterility in Maize Plant Mol Biol Rep. :doi: 10.1007/s11105-024-01441-w. | LOC_Os11g45400 (MSU/TIGR) | Reference: February 26th, 2024
Gene Product: March 25th, 2019
Variation: December 4th, 2018
Gene Model: March 17th, 2018
|
| 72 days ago | invan6 | invertase alkaline neutral6: | 5.03 | GRMZM2G477236
| Chen, XY et al. 2024. Molecular Mechanisms of Male Sterility in Maize Plant Mol Biol Rep. :doi: 10.1007/s11105-024-01441-w. | | Reference: February 26th, 2024
Gene Product: June 12th, 2018
Variation: September 15th, 2022
Gene Model: August 28th, 2021
|
| 72 days ago | rf8 | restorer of fertility8: | 2.05 - 2.10 | | Chen, XY et al. 2024. Molecular Mechanisms of Male Sterility in Maize Plant Mol Biol Rep. :doi: 10.1007/s11105-024-01441-w. | | Reference: February 26th, 2024
Variation: September 1st, 2003
|
| 72 days ago | lox3 | lipoxygenase3: | 3.06 | | Yao, QQ et al. 2024. Integrated Metabolome and Transcriptome Analysis of Gibberellins Mediated the Circadian Rhythm of Leaf Elongation by Regulating Lignin Synthesis in Maize Int J Mol Sci. 25:2705. | | Reference: February 26th, 2024
Gene Product: January 3rd, 2018
Variation: November 16th, 2020
|
| 72 days ago | ga2ox6 | gibberellin 2-oxidase6: | 6.05 | | Yao, QQ et al. 2024. Integrated Metabolome and Transcriptome Analysis of Gibberellins Mediated the Circadian Rhythm of Leaf Elongation by Regulating Lignin Synthesis in Maize Int J Mol Sci. 25:2705. | | Reference: February 26th, 2024
Gene Product: October 27th, 2014
|
| 72 days ago | abp1 | auxin binding protein1: | 3.05 - 3.05 | | Gentzel, IN et al. 2024. Effects of Maize Chlorotic Mottle Virus and Potyvirus Resistance on Maize Lethal Necrosis Disease. Phytopathology. :doi: 10.1094/PHYTO-05-23-0171-R. | | Reference: February 26th, 2024
Gene Product: September 1st, 2003
Variation: August 23rd, 2017
|
| 72 days ago | afd1 | absence of first division1: | 6.07 | GRMZM2G059037
| Chen, XY et al. 2024. Molecular Mechanisms of Male Sterility in Maize Plant Mol Biol Rep. :doi: 10.1007/s11105-024-01441-w. | AT5G05490 (TAIR)
LOC_Os05g50410 (MSU/TIGR)
Os05g0580500 (Gramene) | Reference: February 26th, 2024
Gene Product: July 30th, 2009
Variation: August 11th, 2011
Gene Model: July 14th, 2011
|
| 72 days ago | am1 | ameiotic1: | 5.02 | | Chen, XY et al. 2024. Molecular Mechanisms of Male Sterility in Maize Plant Mol Biol Rep. :doi: 10.1007/s11105-024-01441-w. | | Reference: February 26th, 2024
Variation: August 11th, 2011
|
| 72 days ago | as1 | asynaptic1: | 1.05 | | Chen, XY et al. 2024. Molecular Mechanisms of Male Sterility in Maize Plant Mol Biol Rep. :doi: 10.1007/s11105-024-01441-w. | | Reference: February 26th, 2024
Variation: December 4th, 2012
|
| 72 days ago | dsy2 | desynaptic2: | 5.03 - 5.04 | AC210848.3_FG004
| Chen, XY et al. 2024. Molecular Mechanisms of Male Sterility in Maize Plant Mol Biol Rep. :doi: 10.1007/s11105-024-01441-w. | AT2G46980 (TAIR)
LOC_Os10g26560 (MSU/TIGR) | Reference: February 26th, 2024
Gene Product: August 25th, 2015
Variation: August 25th, 2015
Gene Model: August 25th, 2015
|
| 72 days ago | et1 | etched1: | 3.09 | | Yao, QQ et al. 2024. Integrated Metabolome and Transcriptome Analysis of Gibberellins Mediated the Circadian Rhythm of Leaf Elongation by Regulating Lignin Synthesis in Maize Int J Mol Sci. 25:2705. | | Reference: February 26th, 2024
Variation: November 11th, 2010
|
| 72 days ago | ms10 | male sterile10: | 10.04 - 10.05 | GRMZM5G830329
| Chen, XY et al. 2024. Molecular Mechanisms of Male Sterility in Maize Plant Mol Biol Rep. :doi: 10.1007/s11105-024-01441-w. | AT1G01280 (TAIR)
LOC_Os08g03682 (MSU/TIGR) | Reference: February 26th, 2024
Gene Product: January 20th, 2017
Variation: January 19th, 2017
Gene Model: January 19th, 2017
|
| 72 days ago | ms13 | male sterile13: | 5.00 - 5.01 | | Chen, XY et al. 2024. Molecular Mechanisms of Male Sterility in Maize Plant Mol Biol Rep. :doi: 10.1007/s11105-024-01441-w. | | Reference: February 26th, 2024
Gene Product: December 28th, 2015
Variation: September 19th, 2022
|
| 72 days ago | ms2 | male sterile2: | 9.03 | GRMZM2G076526
| Chen, XY et al. 2024. Molecular Mechanisms of Male Sterility in Maize Plant Mol Biol Rep. :doi: 10.1007/s11105-024-01441-w. | | Reference: February 26th, 2024
Gene Product: December 28th, 2015
Variation: April 23rd, 2021
Gene Model: April 23rd, 2021
|
| 72 days ago | ms22 | male sterile22: | 7.02 | GRMZM2G442791
| Chen, XY et al. 2024. Molecular Mechanisms of Male Sterility in Maize Plant Mol Biol Rep. :doi: 10.1007/s11105-024-01441-w. | | Reference: February 26th, 2024
Gene Product: January 21st, 2021
Variation: February 12th, 2013
Gene Model: August 11th, 2012
|
| 72 days ago | ms5 | male sterile5: | 5.04 - 5.05 | GRMZM2G166330
| Chen, XY et al. 2024. Molecular Mechanisms of Male Sterility in Maize Plant Mol Biol Rep. :doi: 10.1007/s11105-024-01441-w. | | Reference: February 26th, 2024
Gene Product: January 25th, 2019
Variation: September 16th, 2020
Gene Model: September 16th, 2020
|
| 72 days ago | ms7 | male sterile7: | 7.02 | GRMZM5G890224
| Chen, XY et al. 2024. Molecular Mechanisms of Male Sterility in Maize Plant Mol Biol Rep. :doi: 10.1007/s11105-024-01441-w. | AT5G22260 (TAIR)
LOC_Os09g27620 (MSU/TIGR)
Os09g0449000 (Gramene) | Reference: February 26th, 2024
Gene Product: July 8th, 2017
Variation: September 9th, 2020
Gene Model: July 6th, 2017
|
| 72 days ago | rf1 | restorer of fertility1: | 3.04 | | Chen, XY et al. 2024. Molecular Mechanisms of Male Sterility in Maize Plant Mol Biol Rep. :doi: 10.1007/s11105-024-01441-w. | | Reference: February 26th, 2024
Variation: September 1st, 2003
|
| 72 days ago | rf5 | restorer of fertility5: | | | Chen, XY et al. 2024. Molecular Mechanisms of Male Sterility in Maize Plant Mol Biol Rep. :doi: 10.1007/s11105-024-01441-w. | | Reference: February 26th, 2024
Variation: September 1st, 2003
|
| 72 days ago | ms30 | male sterile30: | 4.08 | GRMZM2G174782
| Chen, XY et al. 2024. Molecular Mechanisms of Male Sterility in Maize Plant Mol Biol Rep. :doi: 10.1007/s11105-024-01441-w. | | Reference: February 26th, 2024
Gene Product: January 25th, 2019
Variation: January 25th, 2019
Gene Model: January 25th, 2019
|
| 72 days ago | zyp1 | synaptonemal complex protein ZIPPER1: | | GRMZM2G143590
| Chen, XY et al. 2024. Molecular Mechanisms of Male Sterility in Maize Plant Mol Biol Rep. :doi: 10.1007/s11105-024-01441-w. | | Reference: February 26th, 2024
Gene Product: March 2nd, 2011
Variation: March 2nd, 2011
Gene Model: June 19th, 2014
|
| 72 days ago | zim28 | ZIM-transcription factor 28: | 7.02 | GRMZM2G116614
| Yao, QQ et al. 2024. Integrated Metabolome and Transcriptome Analysis of Gibberellins Mediated the Circadian Rhythm of Leaf Elongation by Regulating Lignin Synthesis in Maize Int J Mol Sci. 25:2705. | | Reference: February 26th, 2024
Gene Product: February 24th, 2021
Variation: July 6th, 2021
Gene Model: December 6th, 2016
|
| 72 days ago | scmv1 | resistance to sugarcane mosaic virus1: | 6.00 - 6.01 | GRMZM2G014055
| Gentzel, IN et al. 2024. Effects of Maize Chlorotic Mottle Virus and Potyvirus Resistance on Maize Lethal Necrosis Disease. Phytopathology. :doi: 10.1094/PHYTO-05-23-0171-R. | | Reference: February 26th, 2024
Gene Product: September 1st, 2003
Variation: June 29th, 2005
Gene Model: September 7th, 2017
|
| 72 days ago | dof47 | C2C2-Dof-transcription factor 1: | | | Yao, QQ et al. 2024. Integrated Metabolome and Transcriptome Analysis of Gibberellins Mediated the Circadian Rhythm of Leaf Elongation by Regulating Lignin Synthesis in Maize Int J Mol Sci. 25:2705. | | Reference: February 26th, 2024
Variation: July 8th, 2017
|
| 72 days ago | zim30 | ZIM-transcription factor 30: | | | Yao, QQ et al. 2024. Integrated Metabolome and Transcriptome Analysis of Gibberellins Mediated the Circadian Rhythm of Leaf Elongation by Regulating Lignin Synthesis in Maize Int J Mol Sci. 25:2705. | | Reference: February 26th, 2024
Gene Product: February 24th, 2021
|
| 72 days ago | bhlh122 | bHLH-transcription factor 122: | | | Chen, XY et al. 2024. Molecular Mechanisms of Male Sterility in Maize Plant Mol Biol Rep. :doi: 10.1007/s11105-024-01441-w. | LOC_Os04g51070 (MSU/TIGR) | Reference: February 26th, 2024
Variation: January 10th, 2022
|
| 72 days ago | bhlh51 | bHLH-transcription factor 51: | | | Chen, XY et al. 2024. Molecular Mechanisms of Male Sterility in Maize Plant Mol Biol Rep. :doi: 10.1007/s11105-024-01441-w. | | Reference: February 26th, 2024
Gene Product: September 14th, 2016
Variation: January 10th, 2022
|
| 72 days ago | expa4 | alpha-expansin4: | 1.11 | GRMZM2G368886
| Yao, QQ et al. 2024. Integrated Metabolome and Transcriptome Analysis of Gibberellins Mediated the Circadian Rhythm of Leaf Elongation by Regulating Lignin Synthesis in Maize Int J Mol Sci. 25:2705. | | Reference: February 26th, 2024
Variation: December 1st, 2016
Gene Model: December 1st, 2016
|
| 72 days ago | iaa22 | Aux/IAA-transcription factor 22: | 5.03 | GRMZM2G128421
| Yao, QQ et al. 2024. Integrated Metabolome and Transcriptome Analysis of Gibberellins Mediated the Circadian Rhythm of Leaf Elongation by Regulating Lignin Synthesis in Maize Int J Mol Sci. 25:2705. | | Reference: February 26th, 2024
Variation: September 1st, 2003
Gene Model: June 16th, 2018
|
| 72 days ago | ms32 | male sterile32: | 2.00 - 2.10 | GRMZM2G163233
| Chen, XY et al. 2024. Molecular Mechanisms of Male Sterility in Maize Plant Mol Biol Rep. :doi: 10.1007/s11105-024-01441-w. | | Reference: February 26th, 2024
Gene Product: September 2nd, 2013
Variation: December 4th, 2016
Gene Model: September 2nd, 2013
|
| 72 days ago | gid1 | gibberellin-insensitive dwarf protein homolog1: | 6.05 | GRMZM2G173630
| Yao, QQ et al. 2024. Integrated Metabolome and Transcriptome Analysis of Gibberellins Mediated the Circadian Rhythm of Leaf Elongation by Regulating Lignin Synthesis in Maize Int J Mol Sci. 25:2705. | | Reference: February 26th, 2024
Gene Product: October 6th, 2021
Gene Model: August 28th, 2018
|
| 72 days ago | laz1 | lazarus ortholog1: | 7.03 | GRMZM2G025242
| Lu, XF et al. 2024. Joint-GWAS, Linkage Mapping, and Transcriptome Analysis to Reveal the Genetic Basis of Plant Architecture-Related Traits in Maize Int J Mol Sci. 25:2694. | | Reference: February 26th, 2024
Gene Product: July 27th, 2019
Gene Model: September 10th, 2018
|
| 72 days ago | ga20ox4 | gibberellin 20-oxidase4: | 5.03 - 5.03 | GRMZM2G060940
| Yao, QQ et al. 2024. Integrated Metabolome and Transcriptome Analysis of Gibberellins Mediated the Circadian Rhythm of Leaf Elongation by Regulating Lignin Synthesis in Maize Int J Mol Sci. 25:2705. | | Reference: February 26th, 2024
Gene Product: October 28th, 2014
Gene Model: October 27th, 2014
|
| 72 days ago | dv1 | divergent spindle1: | 2.02 | GRMZM2G114861
| Chen, XY et al. 2024. Molecular Mechanisms of Male Sterility in Maize Plant Mol Biol Rep. :doi: 10.1007/s11105-024-01441-w. | | Reference: February 26th, 2024
Gene Product: September 18th, 2023
Variation: August 17th, 2016
Gene Model: August 13th, 2014
|
| 72 days ago | ms42 | male sterile42: | 6.07 | | Chen, XY et al. 2024. Molecular Mechanisms of Male Sterility in Maize Plant Mol Biol Rep. :doi: 10.1007/s11105-024-01441-w. | | Reference: February 26th, 2024
Gene Product: September 1st, 2003
Variation: December 22nd, 2012
|
| 72 days ago | mac1 | multiple archesporial cells1: | 10.03 | GRMZM2G027522
| Chen, XY et al. 2024. Molecular Mechanisms of Male Sterility in Maize Plant Mol Biol Rep. :doi: 10.1007/s11105-024-01441-w. | | Reference: February 26th, 2024
Gene Product: August 2nd, 2012
Variation: August 10th, 2012
Gene Model: July 26th, 2012
|
| 72 days ago | sgo1 | shugoshin centromeric cohesion1: | 7.02 | GRMZM2G074082
| Chen, XY et al. 2024. Molecular Mechanisms of Male Sterility in Maize Plant Mol Biol Rep. :doi: 10.1007/s11105-024-01441-w. | | Reference: February 26th, 2024
Gene Product: July 29th, 2009
Variation: August 13th, 2011
Gene Model: July 14th, 2011
|
| 72 days ago | ga20ox1 | gibberellin 20-oxidase1: | 1.12 | AC203966.5_FG005
| Yao, QQ et al. 2024. Integrated Metabolome and Transcriptome Analysis of Gibberellins Mediated the Circadian Rhythm of Leaf Elongation by Regulating Lignin Synthesis in Maize Int J Mol Sci. 25:2705. | | Reference: February 26th, 2024
Gene Product: October 28th, 2014
Gene Model: October 27th, 2014
|
| 72 days ago | expb4 | beta expansin4: | 7.02 | GRMZM2G154178
| Yao, QQ et al. 2024. Integrated Metabolome and Transcriptome Analysis of Gibberellins Mediated the Circadian Rhythm of Leaf Elongation by Regulating Lignin Synthesis in Maize Int J Mol Sci. 25:2705. | | Reference: February 26th, 2024
Variation: May 31st, 2010
Gene Model: March 2nd, 2016
|
| 72 days ago | pme2 | pectin methylesterase2: | | GRMZM2G046618
| Yao, QQ et al. 2024. Integrated Metabolome and Transcriptome Analysis of Gibberellins Mediated the Circadian Rhythm of Leaf Elongation by Regulating Lignin Synthesis in Maize Int J Mol Sci. 25:2705. | | Reference: February 26th, 2024
Gene Product: September 10th, 2018
Gene Model: April 26th, 2014
|
| 72 days ago | rad51c | recombination protein51 gene c: | | GRMZM2G123089
| Chen, XY et al. 2024. Molecular Mechanisms of Male Sterility in Maize Plant Mol Biol Rep. :doi: 10.1007/s11105-024-01441-w. | | Reference: February 26th, 2024
Gene Product: August 12th, 2016
Variation: November 5th, 2019
Gene Model: June 19th, 2014
|
| 72 days ago | tms5 | thermosensitive male-sterile5: | 4.01 | GRMZM2G147727
| Chen, XY et al. 2024. Molecular Mechanisms of Male Sterility in Maize Plant Mol Biol Rep. :doi: 10.1007/s11105-024-01441-w. | LOC_Os02g12290 (MSU/TIGR)
Os02g0214300 (Gramene) | Reference: February 26th, 2024
Variation: February 24th, 2017
Gene Model: February 24th, 2017
|
| 72 days ago | ga20ox5 | gibberellin 20-oxidase5: | | GRMZM2G060940
| Yao, QQ et al. 2024. Integrated Metabolome and Transcriptome Analysis of Gibberellins Mediated the Circadian Rhythm of Leaf Elongation by Regulating Lignin Synthesis in Maize Int J Mol Sci. 25:2705. | | Reference: February 26th, 2024
Gene Product: October 28th, 2014
Variation: July 6th, 2017
Gene Model: October 27th, 2014
|
| 72 days ago | ga2ox2 | gibberellin 2-oxidase2: | | GRMZM2G006964
| Yao, QQ et al. 2024. Integrated Metabolome and Transcriptome Analysis of Gibberellins Mediated the Circadian Rhythm of Leaf Elongation by Regulating Lignin Synthesis in Maize Int J Mol Sci. 25:2705. | | Reference: February 26th, 2024
Gene Product: October 27th, 2014
Gene Model: October 27th, 2014
|
| 72 days ago | hct8 | hydroxycinnamoyltransferase8: | | GRMZM2G178769
| Yao, QQ et al. 2024. Integrated Metabolome and Transcriptome Analysis of Gibberellins Mediated the Circadian Rhythm of Leaf Elongation by Regulating Lignin Synthesis in Maize Int J Mol Sci. 25:2705. | | Reference: February 26th, 2024
Gene Product: November 7th, 2015
Gene Model: November 7th, 2015
|
| 72 days ago | msp1 | multiple sporocyte1: | | GRMZM2G447447
| Chen, XY et al. 2024. Molecular Mechanisms of Male Sterility in Maize Plant Mol Biol Rep. :doi: 10.1007/s11105-024-01441-w. | AT5G07280 (TAIR)
LOC_Os01g68870 (MSU/TIGR) | Reference: February 26th, 2024
Gene Product: July 10th, 2019
Gene Model: February 17th, 2018
|
| 72 days ago | ms39 | male sterile39: | | GRMZM5G804976
| Chen, XY et al. 2024. Molecular Mechanisms of Male Sterility in Maize Plant Mol Biol Rep. :doi: 10.1007/s11105-024-01441-w. | | Reference: February 26th, 2024
Gene Product: July 5th, 2021
Variation: October 14th, 2022
Gene Model: September 28th, 2018
|
| 72 days ago | ili1 | increased leaf inclination1: | | GRMZM2G072820
| Yao, QQ et al. 2024. Integrated Metabolome and Transcriptome Analysis of Gibberellins Mediated the Circadian Rhythm of Leaf Elongation by Regulating Lignin Synthesis in Maize Int J Mol Sci. 25:2705. | LOC_Os04g54900 (MSU/TIGR)
Os04g0641700 (Gramene) | Reference: February 26th, 2024
Gene Product: September 14th, 2016
Variation: September 19th, 2019
Gene Model: September 19th, 2019
|
| 72 days ago | prd1 | putative recombination initiation defect1: | | GRMZM2G308884
| Chen, XY et al. 2024. Molecular Mechanisms of Male Sterility in Maize Plant Mol Biol Rep. :doi: 10.1007/s11105-024-01441-w. | | Reference: February 26th, 2024
Variation: February 24th, 2022
Gene Model: November 5th, 2019
|
| 72 days ago | smc3 | structural maintenance of chromosomes3: | | GRMZM2G456570
| Chen, XY et al. 2024. Molecular Mechanisms of Male Sterility in Maize Plant Mol Biol Rep. :doi: 10.1007/s11105-024-01441-w. | | Reference: February 26th, 2024
Gene Product: December 10th, 2019
Variation: January 30th, 2020
Gene Model: January 30th, 2020
|
| 72 days ago | chls1 | chalcone synthase1: | | GRMZM2G108894
| Chen, XY et al. 2024. Molecular Mechanisms of Male Sterility in Maize Plant Mol Biol Rep. :doi: 10.1007/s11105-024-01441-w. | | Reference: February 26th, 2024
Gene Product: September 1st, 2003
Variation: August 17th, 2022
Gene Model: September 9th, 2020
|
| 72 days ago | mtopvib1 | meiotic TopoVI B subunit1: | | GRMZM2G439198
| Chen, XY et al. 2024. Molecular Mechanisms of Male Sterility in Maize Plant Mol Biol Rep. :doi: 10.1007/s11105-024-01441-w. | | Reference: February 26th, 2024
Gene Product: October 21st, 2020
Variation: October 23rd, 2020
Gene Model: October 21st, 2020
|
| 72 days ago | pal11 | phenylalanine ammonia lyase11: | | | Yao, QQ et al. 2024. Integrated Metabolome and Transcriptome Analysis of Gibberellins Mediated the Circadian Rhythm of Leaf Elongation by Regulating Lignin Synthesis in Maize Int J Mol Sci. 25:2705. | | Reference: February 26th, 2024
Gene Product: August 13th, 2022
|
| 72 days ago | pgl16 | polygalacturonase16: | | GRMZM2G174598
| Yao, QQ et al. 2024. Integrated Metabolome and Transcriptome Analysis of Gibberellins Mediated the Circadian Rhythm of Leaf Elongation by Regulating Lignin Synthesis in Maize Int J Mol Sci. 25:2705. | | Reference: February 26th, 2024
Gene Product: October 4th, 2021
Gene Model: October 4th, 2021
|
| 72 days ago | bm5 | brown midrib5: | 5.04 | GRMZM2G075333
| Yao, QQ et al. 2024. Integrated Metabolome and Transcriptome Analysis of Gibberellins Mediated the Circadian Rhythm of Leaf Elongation by Regulating Lignin Synthesis in Maize Int J Mol Sci. 25:2705. | | Reference: February 26th, 2024
Gene Product: April 1st, 2017
Variation: April 10th, 2019
Gene Model: June 23rd, 2016
|
| 72 days ago | brca2 | breast cancer susceptibility2 homolog: | | GRMZM5G857087
| Chen, XY et al. 2024. Molecular Mechanisms of Male Sterility in Maize Plant Mol Biol Rep. :doi: 10.1007/s11105-024-01441-w. | | Reference: February 26th, 2024
Variation: June 9th, 2023
Gene Model: March 14th, 2022
|
| 72 days ago | acoz1 | abnormal chromosome organization in zygotene1: | | GRMZM2G135481
| Chen, XY et al. 2024. Molecular Mechanisms of Male Sterility in Maize Plant Mol Biol Rep. :doi: 10.1007/s11105-024-01441-w. | | Reference: February 26th, 2024
Gene Product: April 27th, 2022
Variation: March 24th, 2022
Gene Model: March 24th, 2022
|
| 72 days ago | Zm00001d012510 | : | | GRMZM2G010468
| Yao, QQ et al. 2024. Integrated Metabolome and Transcriptome Analysis of Gibberellins Mediated the Circadian Rhythm of Leaf Elongation by Regulating Lignin Synthesis in Maize Int J Mol Sci. 25:2705. | AT2G30490 (TAIR) | Reference: February 26th, 2024
Gene Product: December 29th, 2022
Gene Model: August 14th, 2022
|
| 72 days ago | Zm00001d037849 | : | | GRMZM2G147245
| Yao, QQ et al. 2024. Integrated Metabolome and Transcriptome Analysis of Gibberellins Mediated the Circadian Rhythm of Leaf Elongation by Regulating Lignin Synthesis in Maize Int J Mol Sci. 25:2705. | AT2G30490 (TAIR) | Reference: February 26th, 2024
Gene Product: December 29th, 2022
Gene Model: August 14th, 2022
|
| 72 days ago | Zm00001d016471 | : | | GRMZM2G028677
| Yao, QQ et al. 2024. Integrated Metabolome and Transcriptome Analysis of Gibberellins Mediated the Circadian Rhythm of Leaf Elongation by Regulating Lignin Synthesis in Maize Int J Mol Sci. 25:2705. | AT2G30490 (TAIR) | Reference: February 26th, 2024
Gene Product: December 29th, 2022
Gene Model: August 14th, 2022
|
| 72 days ago | smc6 | structural maintenance of chromosomes6: | 7.02 | GRMZM2G025340
| Chen, XY et al. 2024. Molecular Mechanisms of Male Sterility in Maize Plant Mol Biol Rep. :doi: 10.1007/s11105-024-01441-w. | | Reference: February 26th, 2024
Gene Product: December 10th, 2019
Gene Model: June 7th, 2022
|
| 72 days ago | cyp47 | cytochrome P450 47: | 8.03 | GRMZM2G139874
| Yao, QQ et al. 2024. Integrated Metabolome and Transcriptome Analysis of Gibberellins Mediated the Circadian Rhythm of Leaf Elongation by Regulating Lignin Synthesis in Maize Int J Mol Sci. 25:2705. | AT2G30490 (TAIR) | Reference: February 26th, 2024
Gene Product: December 30th, 2022
Gene Model: September 5th, 2021
|
| 72 days ago | rad17 | RAD17 DNA repair protein homolog: | 9.06 | GRMZM2G051138
| Chen, XY et al. 2024. Molecular Mechanisms of Male Sterility in Maize Plant Mol Biol Rep. :doi: 10.1007/s11105-024-01441-w. | LOC_Os03g13850 (MSU/TIGR) | Reference: February 26th, 2024
Gene Product: February 27th, 2021
Variation: February 27th, 2021
Gene Model: June 26th, 2020
|
| 72 days ago | dcl102 | dicer-like 102: | 1.07 | GRMZM2G413853
| Chen, XY et al. 2024. Molecular Mechanisms of Male Sterility in Maize Plant Mol Biol Rep. :doi: 10.1007/s11105-024-01441-w. | | Reference: February 26th, 2024
Gene Product: September 5th, 2006
Variation: June 9th, 2020
Gene Model: January 29th, 2015
|
| 72 days ago | rf9 | restorer of fertility9: | | | Chen, XY et al. 2024. Molecular Mechanisms of Male Sterility in Maize Plant Mol Biol Rep. :doi: 10.1007/s11105-024-01441-w. | | Reference: February 26th, 2024
Variation: May 16th, 2013
|
| 74 days ago | adf16 | actin depolymerizing factor16: | | | Liu, BJ et al. 2024. ZmADF5, a Maize Actin-Depolymerizing Factor Conferring Enhanced Drought Tolerance in Maize Plants. 13:619. | | Reference: February 24th, 2024
Gene Product: March 4th, 2020
|
| 75 days ago | prh56 | protein phosphatase homolog56: | 7.02 | GRMZM2G135444
| Bai, Y et al. 2024. ZmNF-YC1-ZmAPRG pathway modulates low phosphorus tolerance in maize J Exp Bot. :doi: 10.1093/jxb/erae068. | | Reference: February 23rd, 2024
Gene Product: October 25th, 2021
Gene Model: February 4th, 2019
|
| 75 days ago | cadtfr8 | CCAAT-DR1-transcription factor 8: | 8.07 | GRMZM5G866699
| Bai, Y et al. 2024. ZmNF-YC1-ZmAPRG pathway modulates low phosphorus tolerance in maize J Exp Bot. :doi: 10.1093/jxb/erae068. | | Reference: February 23rd, 2024
Gene Product: June 18th, 2018
Variation: September 1st, 2003
Gene Model: September 24th, 2018
|
| 75 days ago | fea5 | fasciated ear5: | 4.02 | GRMZM2G154523
| Bai, Y et al. 2024. ZmNF-YC1-ZmAPRG pathway modulates low phosphorus tolerance in maize J Exp Bot. :doi: 10.1093/jxb/erae068. | | Reference: February 23rd, 2024
Gene Product: January 7th, 2023
Variation: January 7th, 2023
Gene Model: May 16th, 2017
|
| 75 days ago | iaa4 | Aux/IAA-transcription factor4: | 1.10 | GRMZM2G159285
| Gwendolyn K Kirschner et al. 2024. Genetic regulation of the root angle in cereals Trends Plant Sci. :doi: 10.1016/j.tplants.2024.01.008. | | Reference: February 23rd, 2024
Variation: November 15th, 2016
Gene Model: November 15th, 2016
|
| 75 days ago | nfya1 | nuclear transcription factor y subunit a1: | 1.02 | GRMZM2G000686
| Bai, Y et al. 2024. ZmNF-YC1-ZmAPRG pathway modulates low phosphorus tolerance in maize J Exp Bot. :doi: 10.1093/jxb/erae068. | | Reference: February 23rd, 2024
Gene Product: August 9th, 2016
Variation: July 21st, 2022
Gene Model: May 18th, 2016
|
| 75 days ago | arftf29 | ARF-transcription factor 29: | | | Gwendolyn K Kirschner et al. 2024. Genetic regulation of the root angle in cereals Trends Plant Sci. :doi: 10.1016/j.tplants.2024.01.008. | | Reference: February 23rd, 2024
Gene Product: January 29th, 2022
|
| 75 days ago | arftf30 | ARF-transcription factor 30: | | | Gwendolyn K Kirschner et al. 2024. Genetic regulation of the root angle in cereals Trends Plant Sci. :doi: 10.1016/j.tplants.2024.01.008. | | Reference: February 23rd, 2024
Gene Product: January 29th, 2022
|
| 75 days ago | arftf38 | ARF-transcription factor 38: | | | Gwendolyn K Kirschner et al. 2024. Genetic regulation of the root angle in cereals Trends Plant Sci. :doi: 10.1016/j.tplants.2024.01.008. | | Reference: February 23rd, 2024
Gene Product: January 29th, 2022
|
| 75 days ago | cadtfr11 | CCAAT-DR1-transcription factor 11: | | | Bai, Y et al. 2024. ZmNF-YC1-ZmAPRG pathway modulates low phosphorus tolerance in maize J Exp Bot. :doi: 10.1093/jxb/erae068. | | Reference: February 23rd, 2024
Gene Product: August 9th, 2016
|
| 75 days ago | cadtfr14 | CCAAT-DR1-transcription factor 14: | | | Bai, Y et al. 2024. ZmNF-YC1-ZmAPRG pathway modulates low phosphorus tolerance in maize J Exp Bot. :doi: 10.1093/jxb/erae068. | | Reference: February 23rd, 2024
Gene Product: August 9th, 2016
|
| 75 days ago | cadtfr16 | CCAAT-DR1-transcription factor 16: | | | Bai, Y et al. 2024. ZmNF-YC1-ZmAPRG pathway modulates low phosphorus tolerance in maize J Exp Bot. :doi: 10.1093/jxb/erae068. | | Reference: February 23rd, 2024
Gene Product: August 9th, 2016
|
| 75 days ago | cadtfr2 | CCAAT-DR1-transcription factor 2: | | | Bai, Y et al. 2024. ZmNF-YC1-ZmAPRG pathway modulates low phosphorus tolerance in maize J Exp Bot. :doi: 10.1093/jxb/erae068. | | Reference: February 23rd, 2024
Gene Product: August 9th, 2016
|
| 75 days ago | cadtfr3 | CCAAT-DR1-transcription factor 3: | | | Bai, Y et al. 2024. ZmNF-YC1-ZmAPRG pathway modulates low phosphorus tolerance in maize J Exp Bot. :doi: 10.1093/jxb/erae068. | | Reference: February 23rd, 2024
Gene Product: August 9th, 2016
|
| 75 days ago | cadtfr5 | CCAAT-DR1-transcription factor 5: | | | Bai, Y et al. 2024. ZmNF-YC1-ZmAPRG pathway modulates low phosphorus tolerance in maize J Exp Bot. :doi: 10.1093/jxb/erae068. | | Reference: February 23rd, 2024
Gene Product: August 9th, 2016
|
| 75 days ago | cadtfr6 | CCAAT-DR1-transcription factor 6: | | | Bai, Y et al. 2024. ZmNF-YC1-ZmAPRG pathway modulates low phosphorus tolerance in maize J Exp Bot. :doi: 10.1093/jxb/erae068. | | Reference: February 23rd, 2024
Gene Product: August 9th, 2016
|
| 75 days ago | cadtfr7 | CCAAT-DR1-transcription factor 7: | | | Bai, Y et al. 2024. ZmNF-YC1-ZmAPRG pathway modulates low phosphorus tolerance in maize J Exp Bot. :doi: 10.1093/jxb/erae068. | | Reference: February 23rd, 2024
Gene Product: August 9th, 2016
|
| 75 days ago | ca2p10 | CCAAT-HAP2-transcription factor 210: | | | Bai, Y et al. 2024. ZmNF-YC1-ZmAPRG pathway modulates low phosphorus tolerance in maize J Exp Bot. :doi: 10.1093/jxb/erae068. | | Reference: February 23rd, 2024
Gene Product: August 9th, 2016
|
| 75 days ago | ca2p12 | CCAAT-HAP2-transcription factor 212: | | | Bai, Y et al. 2024. ZmNF-YC1-ZmAPRG pathway modulates low phosphorus tolerance in maize J Exp Bot. :doi: 10.1093/jxb/erae068. | | Reference: February 23rd, 2024
Gene Product: August 9th, 2016
|
| 75 days ago | ca2p13 | CCAAT-HAP2-transcription factor 213: | | | Bai, Y et al. 2024. ZmNF-YC1-ZmAPRG pathway modulates low phosphorus tolerance in maize J Exp Bot. :doi: 10.1093/jxb/erae068. | | Reference: February 23rd, 2024
Gene Product: August 9th, 2016
|
| 75 days ago | ca2p14 | CCAAT-HAP2-transcription factor 214: | | | Bai, Y et al. 2024. ZmNF-YC1-ZmAPRG pathway modulates low phosphorus tolerance in maize J Exp Bot. :doi: 10.1093/jxb/erae068. | | Reference: February 23rd, 2024
Gene Product: August 9th, 2016
|
| 75 days ago | ca2p15 | CCAAT-HAP2-transcription factor 215: | | | Bai, Y et al. 2024. ZmNF-YC1-ZmAPRG pathway modulates low phosphorus tolerance in maize J Exp Bot. :doi: 10.1093/jxb/erae068. | | Reference: February 23rd, 2024
Gene Product: August 9th, 2016
|
| 75 days ago | ca2p16 | CCAAT-HAP2-transcription factor 216: | | | Bai, Y et al. 2024. ZmNF-YC1-ZmAPRG pathway modulates low phosphorus tolerance in maize J Exp Bot. :doi: 10.1093/jxb/erae068. | | Reference: February 23rd, 2024
Gene Product: August 9th, 2016
|
| 75 days ago | ca2p4 | CCAAT-HAP2-transcription factor4: | | | Bai, Y et al. 2024. ZmNF-YC1-ZmAPRG pathway modulates low phosphorus tolerance in maize J Exp Bot. :doi: 10.1093/jxb/erae068. | | Reference: February 23rd, 2024
Gene Product: August 9th, 2016
Variation: September 24th, 2021
|
| 75 days ago | ca2p5 | CCAAT-HAP2-transcription factor 25: | | | Bai, Y et al. 2024. ZmNF-YC1-ZmAPRG pathway modulates low phosphorus tolerance in maize J Exp Bot. :doi: 10.1093/jxb/erae068. | | Reference: February 23rd, 2024
Gene Product: August 9th, 2016
|
| 75 days ago | ca2p7 | CCAAT-HAP2-transcription factor 27: | | | Bai, Y et al. 2024. ZmNF-YC1-ZmAPRG pathway modulates low phosphorus tolerance in maize J Exp Bot. :doi: 10.1093/jxb/erae068. | | Reference: February 23rd, 2024
Gene Product: August 9th, 2016
|
| 75 days ago | ca3p1 | CCAAT-HAP3-transcription factor 31: | | | Bai, Y et al. 2024. ZmNF-YC1-ZmAPRG pathway modulates low phosphorus tolerance in maize J Exp Bot. :doi: 10.1093/jxb/erae068. | | Reference: February 23rd, 2024
Gene Product: August 9th, 2016
|
| 75 days ago | ca3p3 | CCAAT-HAP3-transcription factor 33: | | | Bai, Y et al. 2024. ZmNF-YC1-ZmAPRG pathway modulates low phosphorus tolerance in maize J Exp Bot. :doi: 10.1093/jxb/erae068. | | Reference: February 23rd, 2024
Gene Product: August 9th, 2016
|
| 75 days ago | ca3p4 | CCAAT-HAP3-transcription factor 34: | | | Bai, Y et al. 2024. ZmNF-YC1-ZmAPRG pathway modulates low phosphorus tolerance in maize J Exp Bot. :doi: 10.1093/jxb/erae068. | | Reference: February 23rd, 2024
Gene Product: August 9th, 2016
|
| 75 days ago | ca5p11 | CCAAT-HAP5-transcription factor 511: | | | Bai, Y et al. 2024. ZmNF-YC1-ZmAPRG pathway modulates low phosphorus tolerance in maize J Exp Bot. :doi: 10.1093/jxb/erae068. | | Reference: February 23rd, 2024
Gene Product: August 9th, 2016
|
| 75 days ago | umc1562 | : | 8.05 | GRMZM2G059693
| Bai, Y et al. 2024. ZmNF-YC1-ZmAPRG pathway modulates low phosphorus tolerance in maize J Exp Bot. :doi: 10.1093/jxb/erae068. | | Reference: February 23rd, 2024
Variation: September 19th, 2018
Gene Model: September 19th, 2018
|
| 75 days ago | nfy2 | NF-YB homolog: | 6.05 | GRMZM5G804893
| Bai, Y et al. 2024. ZmNF-YC1-ZmAPRG pathway modulates low phosphorus tolerance in maize J Exp Bot. :doi: 10.1093/jxb/erae068. | | Reference: February 23rd, 2024
Gene Product: August 9th, 2016
Variation: September 1st, 2003
Gene Model: September 10th, 2014
|
| 75 days ago | cadtfr15 | CCAAT-DR1-transcription factor 15: | 8.04 | GRMZM2G064426
| Bai, Y et al. 2024. ZmNF-YC1-ZmAPRG pathway modulates low phosphorus tolerance in maize J Exp Bot. :doi: 10.1093/jxb/erae068. | | Reference: February 23rd, 2024
Gene Product: August 9th, 2016
Variation: September 1st, 2003
Gene Model: September 19th, 2018
|
| 75 days ago | lec1 | LEC1 transcription factor1: | 5.06 | GRMZM2G490094
| Bai, Y et al. 2024. ZmNF-YC1-ZmAPRG pathway modulates low phosphorus tolerance in maize J Exp Bot. :doi: 10.1093/jxb/erae068. | | Reference: February 23rd, 2024
Gene Product: August 9th, 2016
Gene Model: April 8th, 2011
|
| 75 days ago | agal1 | alpha-galactosidase1: | 1.07 | GRMZM2G346455
| Bai, Y et al. 2024. ZmNF-YC1-ZmAPRG pathway modulates low phosphorus tolerance in maize J Exp Bot. :doi: 10.1093/jxb/erae068. | | Reference: February 23rd, 2024
Gene Product: September 1st, 2003
Variation: February 14th, 2019
Gene Model: April 14th, 2016
|
| 75 days ago | gpat3 | glycerol-3-phosphate acyltransferase3: | | GRMZM2G156729
| Bai, Y et al. 2024. ZmNF-YC1-ZmAPRG pathway modulates low phosphorus tolerance in maize J Exp Bot. :doi: 10.1093/jxb/erae068. | | Reference: February 23rd, 2024
Gene Product: March 25th, 2019
Gene Model: March 25th, 2019
|
| 75 days ago | gpat8 | glycerol-3-phosphate acyltransferase8: | | GRMZM2G065203
| Bai, Y et al. 2024. ZmNF-YC1-ZmAPRG pathway modulates low phosphorus tolerance in maize J Exp Bot. :doi: 10.1093/jxb/erae068. | | Reference: February 23rd, 2024
Gene Product: March 25th, 2019
Gene Model: March 25th, 2019
|
| 75 days ago | aomt9 | anthranilate O-methyltransferase9: | | GRMZM2G303419
| Bai, Y et al. 2024. ZmNF-YC1-ZmAPRG pathway modulates low phosphorus tolerance in maize J Exp Bot. :doi: 10.1093/jxb/erae068. | | Reference: February 23rd, 2024
Gene Product: December 23rd, 2020
Gene Model: December 23rd, 2020
|
| 75 days ago | plc5 | phospholipase C5: | | GRMZM2G157760
| Bai, Y et al. 2024. ZmNF-YC1-ZmAPRG pathway modulates low phosphorus tolerance in maize J Exp Bot. :doi: 10.1093/jxb/erae068. | | Reference: February 23rd, 2024
Gene Product: January 12th, 2021
Gene Model: January 12th, 2021
|
| 75 days ago | glpx2 | glutathione peroxidase2: | | GRMZM2G013299
| Bai, Y et al. 2024. ZmNF-YC1-ZmAPRG pathway modulates low phosphorus tolerance in maize J Exp Bot. :doi: 10.1093/jxb/erae068. | | Reference: February 23rd, 2024
Gene Product: March 4th, 2022
Gene Model: March 4th, 2022
|
| 75 days ago | plt52 | phospholipid transfer protein52: | 8.08 | GRMZM2G379035
| Bai, Y et al. 2024. ZmNF-YC1-ZmAPRG pathway modulates low phosphorus tolerance in maize J Exp Bot. :doi: 10.1093/jxb/erae068. | | Reference: February 23rd, 2024
Gene Product: September 1st, 2003
Gene Model: September 3rd, 2019
|
| 75 days ago | cadtfr12 | CCAAT-DR1-transcription factor 12: | 9.03 | GRMZM2G167576
| Bai, Y et al. 2024. ZmNF-YC1-ZmAPRG pathway modulates low phosphorus tolerance in maize J Exp Bot. :doi: 10.1093/jxb/erae068. | | Reference: February 23rd, 2024
Gene Product: August 9th, 2016
Gene Model: August 8th, 2016
|
| 75 days ago | AY110240 | : | 1.03 | GRMZM2G013957
| Bai, Y et al. 2024. ZmNF-YC1-ZmAPRG pathway modulates low phosphorus tolerance in maize J Exp Bot. :doi: 10.1093/jxb/erae068. | | Reference: February 23rd, 2024
Variation: July 29th, 2004
Gene Model: February 12th, 2019
|
| 75 days ago | dbb4 | double B-box zinc finger protein4: | 4.05 | GRMZM2G019335
| Bai, Y et al. 2024. ZmNF-YC1-ZmAPRG pathway modulates low phosphorus tolerance in maize J Exp Bot. :doi: 10.1093/jxb/erae068. | | Reference: February 23rd, 2024
Gene Product: May 10th, 2017
Variation: May 10th, 2017
Gene Model: May 10th, 2017
|
| 76 days ago | Zm00001d045313 | : | | | Quaggiotti, S et al. 2024. Strigolactone roles in maize tolerance to low nitrogen involve shifts in acquisition and partitioning of protein, sulfur, and iron Plant Soil. :dpi: 10.1007/s11104-024-06561-6. | | Reference: February 22nd, 2024
Gene Product: April 27th, 2022
|
| 76 days ago | pdr1 | pleiotropic drug resistance protein1: | | | Quaggiotti, S et al. 2024. Strigolactone roles in maize tolerance to low nitrogen involve shifts in acquisition and partitioning of protein, sulfur, and iron Plant Soil. :dpi: 10.1007/s11104-024-06561-6. | | Reference: February 22nd, 2024
Gene Product: December 28th, 2015
|
| 76 days ago | tps10 | terpene synthase10: | 10.03 | GRMZM2G179092
| Jamie M Waterman et al. 2024. High-resolution kinetics of herbivore-induced plant volatile transfer reveal clocked response patterns in neighboring plants. Elife. 12:RP89855. | | Reference: February 22nd, 2024
Gene Product: September 4th, 2008
Variation: April 2nd, 2023
Gene Model: May 28th, 2012
|
| 76 days ago | umc1336 | : | 10.03 | GRMZM2G061135
| Quaggiotti, S et al. 2024. Strigolactone roles in maize tolerance to low nitrogen involve shifts in acquisition and partitioning of protein, sulfur, and iron Plant Soil. :dpi: 10.1007/s11104-024-06561-6. | | Reference: February 22nd, 2024
Gene Product: January 27th, 2020
Variation: September 1st, 2003
Gene Model: December 12th, 2017
|
| 76 days ago | hb1 | hemoglobin1: | 9.06 | GRMZM2G067402
| Quaggiotti, S et al. 2024. Strigolactone roles in maize tolerance to low nitrogen involve shifts in acquisition and partitioning of protein, sulfur, and iron Plant Soil. :dpi: 10.1007/s11104-024-06561-6. | | Reference: February 22nd, 2024
Gene Product: February 20th, 2018
Variation: September 24th, 2010
Gene Model: May 15th, 2014
|
| 76 days ago | sfp5 | sulfate transporter5: | 9.02 | GRMZM2G444801
| Quaggiotti, S et al. 2024. Strigolactone roles in maize tolerance to low nitrogen involve shifts in acquisition and partitioning of protein, sulfur, and iron Plant Soil. :dpi: 10.1007/s11104-024-06561-6. | | Reference: February 22nd, 2024
Gene Product: May 8th, 2020
Gene Model: March 14th, 2018
|
| 76 days ago | opr7 | 12-oxo-phytodienoic acid reductase7: | | GRMZM2G148281
| Jamie M Waterman et al. 2024. High-resolution kinetics of herbivore-induced plant volatile transfer reveal clocked response patterns in neighboring plants. Elife. 12:RP89855. | | Reference: February 22nd, 2024
Gene Product: September 3rd, 2010
Variation: December 16th, 2019
Gene Model: November 25th, 2013
|
| 76 days ago | lhy1 | late hypocotyl elongation protein ortholog1: | 10.03 | GRMZM2G175265
| Sangam Lal Dwivedi et al. 2024. Unlocking allelic variation in circadian clock genes to develop environmentally robust and productive crops. Planta. 259:72. | | Reference: February 22nd, 2024
Gene Product: July 31st, 2016
Variation: December 28th, 2016
Gene Model: November 7th, 2018
|
| 76 days ago | cca1 | circadian clock associated1: | | GRMZM2G014902
| Sangam Lal Dwivedi et al. 2024. Unlocking allelic variation in circadian clock genes to develop environmentally robust and productive crops. Planta. 259:72. | | Reference: February 22nd, 2024
Gene Product: July 31st, 2016
Variation: March 18th, 2011
Gene Model: July 30th, 2016
|
| 76 days ago | tps2 | terpene synthase2: | | GRMZM2G046615
| Jamie M Waterman et al. 2024. High-resolution kinetics of herbivore-induced plant volatile transfer reveal clocked response patterns in neighboring plants. Elife. 12:RP89855. | | Reference: February 22nd, 2024
Gene Product: December 6th, 2023
Variation: May 28th, 2012
Gene Model: May 28th, 2012
|
| 76 days ago | nas4 | nicotianamine synthase 4: | | GRMZM2G439195
| Quaggiotti, S et al. 2024. Strigolactone roles in maize tolerance to low nitrogen involve shifts in acquisition and partitioning of protein, sulfur, and iron Plant Soil. :dpi: 10.1007/s11104-024-06561-6. | | Reference: February 22nd, 2024
Gene Product: July 26th, 2013
Gene Model: July 26th, 2013
|
| 76 days ago | nas6 | nicotianamine synthase6: | | GRMZM2G704488
| Quaggiotti, S et al. 2024. Strigolactone roles in maize tolerance to low nitrogen involve shifts in acquisition and partitioning of protein, sulfur, and iron Plant Soil. :dpi: 10.1007/s11104-024-06561-6. | | Reference: February 22nd, 2024
Gene Product: July 26th, 2013
Gene Model: July 26th, 2013
|
| 76 days ago | cyp19 | cytochrome P-450 19: | | GRMZM2G102079
| Jamie M Waterman et al. 2024. High-resolution kinetics of herbivore-induced plant volatile transfer reveal clocked response patterns in neighboring plants. Elife. 12:RP89855. | | Reference: February 22nd, 2024
Gene Product: September 26th, 2016
Gene Model: September 26th, 2016
|
| 76 days ago | npf2 | nitrate transporter/peptide transporter family2: | | GRMZM2G161459
| Quaggiotti, S et al. 2024. Strigolactone roles in maize tolerance to low nitrogen involve shifts in acquisition and partitioning of protein, sulfur, and iron Plant Soil. :dpi: 10.1007/s11104-024-06561-6. | AT1G12110 (TAIR) | Reference: February 22nd, 2024
Gene Product: September 1st, 2003
Variation: September 11th, 2017
Gene Model: September 11th, 2017
|
| 76 days ago | sfp4 | sulfate transporter4: | | GRMZM2G154211
| Quaggiotti, S et al. 2024. Strigolactone roles in maize tolerance to low nitrogen involve shifts in acquisition and partitioning of protein, sulfur, and iron Plant Soil. :dpi: 10.1007/s11104-024-06561-6. | | Reference: February 22nd, 2024
Gene Product: May 8th, 2020
Gene Model: November 13th, 2017
|
| 76 days ago | sfp6 | sulfate transporter6: | | GRMZM2G158013
| Quaggiotti, S et al. 2024. Strigolactone roles in maize tolerance to low nitrogen involve shifts in acquisition and partitioning of protein, sulfur, and iron Plant Soil. :dpi: 10.1007/s11104-024-06561-6. | | Reference: February 22nd, 2024
Gene Product: May 8th, 2020
Gene Model: November 13th, 2017
|
| 76 days ago | npf5 | nitrate transporter/peptide transporter family5: | | GRMZM2G179294
| Quaggiotti, S et al. 2024. Strigolactone roles in maize tolerance to low nitrogen involve shifts in acquisition and partitioning of protein, sulfur, and iron Plant Soil. :dpi: 10.1007/s11104-024-06561-6. | | Reference: February 22nd, 2024
Gene Product: September 1st, 2003
Gene Model: May 10th, 2018
|
| 76 days ago | nrt7 | nitrate transport7: | | GRMZM5G811593
| Quaggiotti, S et al. 2024. Strigolactone roles in maize tolerance to low nitrogen involve shifts in acquisition and partitioning of protein, sulfur, and iron Plant Soil. :dpi: 10.1007/s11104-024-06561-6. | | Reference: February 22nd, 2024
Gene Product: September 1st, 2003
Gene Model: March 2nd, 2021
|
| 76 days ago | aaap10 | amino acid/auxin permease10: | | GRMZM2G114523
| Quaggiotti, S et al. 2024. Strigolactone roles in maize tolerance to low nitrogen involve shifts in acquisition and partitioning of protein, sulfur, and iron Plant Soil. :dpi: 10.1007/s11104-024-06561-6. | | Reference: February 22nd, 2024
Gene Product: March 31st, 2021
Gene Model: March 30th, 2021
|
| 76 days ago | nas2 | nicotianamine synthase2: | 1.03 | GRMZM2G030036
| Quaggiotti, S et al. 2024. Strigolactone roles in maize tolerance to low nitrogen involve shifts in acquisition and partitioning of protein, sulfur, and iron Plant Soil. :dpi: 10.1007/s11104-024-06561-6. | | Reference: February 22nd, 2024
Gene Product: July 26th, 2013
Variation: March 19th, 2008
Gene Model: July 26th, 2013
|
| 77 days ago | phyC2 | phytochromeC2: | 5.01 | GRMZM2G129889
| Wang, P-X et al. 2024. Fine-Tuning Quantitative Trait Loci Identified in Immortalized F2 Population Are Essential for Genomic Prediction of Hybrid Performance in Maize Agriculture. 14:340. | | Reference: February 21st, 2024
Gene Product: June 30th, 2009
Variation: August 26th, 2021
Gene Model: August 26th, 2021
|
| 77 days ago | ca5p16 | CCAAT-HAP5-transcription factor 516: | 7.03 | GRMZM2G078691
| Wang, P-X et al. 2024. Fine-Tuning Quantitative Trait Loci Identified in Immortalized F2 Population Are Essential for Genomic Prediction of Hybrid Performance in Maize Agriculture. 14:340. | | Reference: February 21st, 2024
Gene Product: August 9th, 2016
Gene Model: August 8th, 2016
|
| 77 days ago | bv1 | brevis plant1: | 5.04 - 5.05 | GRMZM2G366698
| Wang, P-X et al. 2024. Fine-Tuning Quantitative Trait Loci Identified in Immortalized F2 Population Are Essential for Genomic Prediction of Hybrid Performance in Maize Agriculture. 14:340. | LOC_Os02g27620 (MSU/TIGR)
Os02g0477700 (Gramene) | Reference: February 21st, 2024
Gene Product: January 16th, 2016
Variation: January 16th, 2016
Gene Model: January 16th, 2016
|
| 77 days ago | te1 | terminal ear1: | 3.05 | | Wang, P-X et al. 2024. Fine-Tuning Quantitative Trait Loci Identified in Immortalized F2 Population Are Essential for Genomic Prediction of Hybrid Performance in Maize Agriculture. 14:340. | | Reference: February 21st, 2024
Gene Product: September 1st, 2003
Variation: October 25th, 2021
|
| 77 days ago | vp8 | viviparous8: | 1.11 | | Wang, P-X et al. 2024. Fine-Tuning Quantitative Trait Loci Identified in Immortalized F2 Population Are Essential for Genomic Prediction of Hybrid Performance in Maize Agriculture. 14:340. | AT3G54720 (TAIR) | Reference: February 21st, 2024
Gene Product: November 29th, 2012
Variation: July 6th, 2022
|
| 77 days ago | col3 | C2C2-CO-like-transcription factor 3: | | | Wang, P-X et al. 2024. Fine-Tuning Quantitative Trait Loci Identified in Immortalized F2 Population Are Essential for Genomic Prediction of Hybrid Performance in Maize Agriculture. 14:340. | | Reference: February 21st, 2024
Gene Product: June 18th, 2018
|
| 77 days ago | phyB1 | phytochromeB1: | 1.03 | | Wang, P-X et al. 2024. Fine-Tuning Quantitative Trait Loci Identified in Immortalized F2 Population Are Essential for Genomic Prediction of Hybrid Performance in Maize Agriculture. 14:340. | | Reference: February 21st, 2024
Gene Product: October 24th, 2007
Variation: May 19th, 2020
|
| 77 days ago | zfl2 | Zea floricaula leafy2: | 2.02 | | Wang, P-X et al. 2024. Fine-Tuning Quantitative Trait Loci Identified in Immortalized F2 Population Are Essential for Genomic Prediction of Hybrid Performance in Maize Agriculture. 14:340. | | Reference: February 21st, 2024
Variation: October 9th, 2014
|
| 77 days ago | psaA (cp) | psaA: | | | Elbasan, F et al. 2024. Hesperidin and chlorogenic acid mitigate arsenic-induced oxidative stress via redox regulation, photosystems-related gene expression, and antioxidant efficiency in the chloroplasts of Zea mays Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2024.108445. | | Reference: February 21st, 2024
Gene Product: September 1st, 2003
|
| 77 days ago | psaB (cp) | psaB: | | | Elbasan, F et al. 2024. Hesperidin and chlorogenic acid mitigate arsenic-induced oxidative stress via redox regulation, photosystems-related gene expression, and antioxidant efficiency in the chloroplasts of Zea mays Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2024.108445. | | Reference: February 21st, 2024
Gene Product: September 1st, 2003
|
| 77 days ago | mads1 | MADS1: | 9.07 | | Wang, P-X et al. 2024. Fine-Tuning Quantitative Trait Loci Identified in Immortalized F2 Population Are Essential for Genomic Prediction of Hybrid Performance in Maize Agriculture. 14:340. | | Reference: February 21st, 2024
Gene Product: September 10th, 2021
Variation: April 15th, 2008
|
| 77 days ago | psbD (cp) | : | | | Elbasan, F et al. 2024. Hesperidin and chlorogenic acid mitigate arsenic-induced oxidative stress via redox regulation, photosystems-related gene expression, and antioxidant efficiency in the chloroplasts of Zea mays Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2024.108445. | | Reference: February 21st, 2024
Gene Product: September 1st, 2003
|
| 77 days ago | psbA (cp) | : | | | Elbasan, F et al. 2024. Hesperidin and chlorogenic acid mitigate arsenic-induced oxidative stress via redox regulation, photosystems-related gene expression, and antioxidant efficiency in the chloroplasts of Zea mays Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2024.108445. | | Reference: February 21st, 2024
Gene Product: September 1st, 2003
|
| 77 days ago | sbp12 | SBP-transcription factor 12: | 5.04 | GRMZM2G156621
| Wang, P-X et al. 2024. Fine-Tuning Quantitative Trait Loci Identified in Immortalized F2 Population Are Essential for Genomic Prediction of Hybrid Performance in Maize Agriculture. 14:340. | | Reference: February 21st, 2024
Gene Product: July 5th, 2019
Gene Model: June 27th, 2018
|
| 77 days ago | mads3 | MADS3: | 7.00 | GRMZM2G072582
| Wang, P-X et al. 2024. Fine-Tuning Quantitative Trait Loci Identified in Immortalized F2 Population Are Essential for Genomic Prediction of Hybrid Performance in Maize Agriculture. 14:340. | | Reference: February 21st, 2024
Variation: July 31st, 2015
Gene Model: July 31st, 2015
|
| 77 days ago | ga20ox3 | gibberellin 20-oxidase3: | | GRMZM2G368411
| Wang, P-X et al. 2024. Fine-Tuning Quantitative Trait Loci Identified in Immortalized F2 Population Are Essential for Genomic Prediction of Hybrid Performance in Maize Agriculture. 14:340. | | Reference: February 21st, 2024
Gene Product: October 28th, 2014
Variation: July 10th, 2020
Gene Model: October 29th, 2014
|
| 77 days ago | nod1 | narrow odd dwarf1: | | GRMZM2G027821
| Wang, P-X et al. 2024. Fine-Tuning Quantitative Trait Loci Identified in Immortalized F2 Population Are Essential for Genomic Prediction of Hybrid Performance in Maize Agriculture. 14:340. | AT4G35920 (TAIR)
LOC_Os03g06120 (MSU/TIGR) | Reference: February 21st, 2024
Gene Product: August 10th, 2022
Variation: September 8th, 2018
Gene Model: March 4th, 2017
|
| 77 days ago | rdph1 | reducing plant height1: | | GRMZM2G114190
| Wang, P-X et al. 2024. Fine-Tuning Quantitative Trait Loci Identified in Immortalized F2 Population Are Essential for Genomic Prediction of Hybrid Performance in Maize Agriculture. 14:340. | | Reference: February 21st, 2024
Gene Product: November 7th, 2019
Gene Model: November 7th, 2019
|
| 77 days ago | prrtf1 | pseudo-response regulator transcription factor1: | | GRMZM2G095727
| Wang, P-X et al. 2024. Fine-Tuning Quantitative Trait Loci Identified in Immortalized F2 Population Are Essential for Genomic Prediction of Hybrid Performance in Maize Agriculture. 14:340. | AT5G02810 (TAIR) | Reference: February 21st, 2024
Gene Product: June 18th, 2018
Gene Model: April 10th, 2021
|
| 77 days ago | mads67 | MADS-transcription factor 67: | 7.04 | GRMZM2G147716
| Wang, P-X et al. 2024. Fine-Tuning Quantitative Trait Loci Identified in Immortalized F2 Population Are Essential for Genomic Prediction of Hybrid Performance in Maize Agriculture. 14:340. | | Reference: February 21st, 2024
Gene Product: September 10th, 2021
Gene Model: February 7th, 2019
|
| 77 days ago | phyC1 | phytochromeC1: | 1.10 | | Wang, P-X et al. 2024. Fine-Tuning Quantitative Trait Loci Identified in Immortalized F2 Population Are Essential for Genomic Prediction of Hybrid Performance in Maize Agriculture. 14:340. | | Reference: February 21st, 2024
Gene Product: June 30th, 2009
Variation: June 30th, 2009
|
| 78 days ago | plt15 | phospholipid transfer protein15: | | | Shweta Meshram et al. 2024. Investigation on comparative transcriptome profiling of resistant and susceptible non-CMS maize genotypes during Bipolaris maydis race O infection Heliyon. :doi: 10.1016/j.heliyon.2024.e26538. | | Reference: February 20th, 2024
Gene Product: September 1st, 2003
|
| 78 days ago | pza00131 | : | 1.07 | | Shweta Meshram et al. 2024. Investigation on comparative transcriptome profiling of resistant and susceptible non-CMS maize genotypes during Bipolaris maydis race O infection Heliyon. :doi: 10.1016/j.heliyon.2024.e26538. | | Reference: February 20th, 2024
Variation: September 25th, 2007
|
| 78 days ago | arftf4 | ARF-transcription factor 4: | | | Shweta Meshram et al. 2024. Investigation on comparative transcriptome profiling of resistant and susceptible non-CMS maize genotypes during Bipolaris maydis race O infection Heliyon. :doi: 10.1016/j.heliyon.2024.e26538. | | Reference: February 20th, 2024
Gene Product: January 29th, 2022
|
| 78 days ago | wrky83 | WRKY-transcription factor 83: | | | Shweta Meshram et al. 2024. Investigation on comparative transcriptome profiling of resistant and susceptible non-CMS maize genotypes during Bipolaris maydis race O infection Heliyon. :doi: 10.1016/j.heliyon.2024.e26538. | | Reference: February 20th, 2024
Variation: July 2nd, 2021
|
| 78 days ago | cyp16 | cytochrome P450 16: | | | Shweta Meshram et al. 2024. Investigation on comparative transcriptome profiling of resistant and susceptible non-CMS maize genotypes during Bipolaris maydis race O infection Heliyon. :doi: 10.1016/j.heliyon.2024.e26538. | | Reference: February 20th, 2024
Gene Product: September 26th, 2016
Variation: February 15th, 2014
|
| 78 days ago | cal5 | calmodulin5: | | GRMZM2G155822
| Shweta Meshram et al. 2024. Investigation on comparative transcriptome profiling of resistant and susceptible non-CMS maize genotypes during Bipolaris maydis race O infection Heliyon. :doi: 10.1016/j.heliyon.2024.e26538. | | Reference: February 20th, 2024
Gene Product: September 1st, 2003
Gene Model: December 19th, 2019
|
| 78 days ago | glp2 | germin-like protein2: | | GRMZM2G045809
| Shweta Meshram et al. 2024. Investigation on comparative transcriptome profiling of resistant and susceptible non-CMS maize genotypes during Bipolaris maydis race O infection Heliyon. :doi: 10.1016/j.heliyon.2024.e26538. | | Reference: February 20th, 2024
Gene Product: December 24th, 2015
Gene Model: September 11th, 2020
|
| 78 days ago | tps13 | terpene synthase13: | | GRMZM2G028306
| Shweta Meshram et al. 2024. Investigation on comparative transcriptome profiling of resistant and susceptible non-CMS maize genotypes during Bipolaris maydis race O infection Heliyon. :doi: 10.1016/j.heliyon.2024.e26538. | | Reference: February 20th, 2024
Gene Product: September 3rd, 2008
Gene Model: October 27th, 2020
|
| 78 days ago | geb3 | glucan endo-1,3-beta-glucosidase homolog3: | | GRMZM2G061403
| Shweta Meshram et al. 2024. Investigation on comparative transcriptome profiling of resistant and susceptible non-CMS maize genotypes during Bipolaris maydis race O infection Heliyon. :doi: 10.1016/j.heliyon.2024.e26538. | | Reference: February 20th, 2024
Gene Product: September 1st, 2003
Gene Model: February 1st, 2021
|
| 78 days ago | ccp9 | cysteine protease9: | | GRMZM2G049882
| Shweta Meshram et al. 2024. Investigation on comparative transcriptome profiling of resistant and susceptible non-CMS maize genotypes during Bipolaris maydis race O infection Heliyon. :doi: 10.1016/j.heliyon.2024.e26538. | | Reference: February 20th, 2024
Gene Product: October 11th, 2021
Gene Model: October 11th, 2021
|
| 78 days ago | acs2 | 1-aminocyclopropane-1-carboxylate synthase2: | 2.02 | GRMZM2G164405
| Shweta Meshram et al. 2024. Investigation on comparative transcriptome profiling of resistant and susceptible non-CMS maize genotypes during Bipolaris maydis race O infection Heliyon. :doi: 10.1016/j.heliyon.2024.e26538. | | Reference: February 20th, 2024
Gene Product: May 16th, 2016
Variation: May 3rd, 2007
Gene Model: January 21st, 2016
|
| 79 days ago | cyp46 | cytochrome P450 46: | | | Gao, JH et al. 2024. Identification of Novel QTL for Mercury Accumulation in Maize Using an Enlarged SNP Panel Genes. 15:257. | | Reference: February 19th, 2024
Gene Product: December 30th, 2022
|
| 79 days ago | ppr230 | pentatricopeptide repeat protein230: | | | Meichen Liu et al. 2024. Genome-Wide Association Study and Prediction of Tassel Weight of Tropical Maize Germplasm in Multi-Parent Population Int J Mol Sci. 25:1756. | | Reference: February 19th, 2024
Gene Product: December 27th, 2016
|
| 79 days ago | dnaJ10 | DnaJ/Hsp40 10: | | | Meichen Liu et al. 2024. Genome-Wide Association Study and Prediction of Tassel Weight of Tropical Maize Germplasm in Multi-Parent Population Int J Mol Sci. 25:1756. | | Reference: February 19th, 2024
Gene Product: September 1st, 2003
|
| 79 days ago | cel26 | cellulase26: | 4.07 | GRMZM2G125991
| Gao, JH et al. 2024. Identification of Novel QTL for Mercury Accumulation in Maize Using an Enlarged SNP Panel Genes. 15:257. | | Reference: February 19th, 2024
Gene Product: March 20th, 2023
Gene Model: May 23rd, 2021
|
| 79 days ago | ca5p10 | CCAAT-HAP5-transcription factor 510: | | | Gao, JH et al. 2024. Identification of Novel QTL for Mercury Accumulation in Maize Using an Enlarged SNP Panel Genes. 15:257. | | Reference: February 19th, 2024
Gene Product: August 9th, 2016
|
| 79 days ago | hsftf18 | HSF-transcription factor 18: | | | Roopashree Byregowda et al. 2024. Comparative regulatory network of transcripts behind radicle emergence and seedling stage of maize (Zea mays L.). Heliyon. 10:e25683. | | Reference: February 19th, 2024
Gene Product: May 15th, 2020
|
| 79 days ago | thx22 | Trihelix-transcription factor 22: | | | Roopashree Byregowda et al. 2024. Comparative regulatory network of transcripts behind radicle emergence and seedling stage of maize (Zea mays L.). Heliyon. 10:e25683. | | Reference: February 19th, 2024
Gene Product: November 9th, 2021
|
| 79 days ago | wrky79 | WRKY-transcription factor 79: | | GRMZM2G061408
| Roopashree Byregowda et al. 2024. Comparative regulatory network of transcripts behind radicle emergence and seedling stage of maize (Zea mays L.). Heliyon. 10:e25683. | | Reference: February 19th, 2024
Gene Product: July 24th, 2017
Gene Model: July 21st, 2020
|
| 79 days ago | bhlh130 | bHLH-transcription factor 130: | | | Roopashree Byregowda et al. 2024. Comparative regulatory network of transcripts behind radicle emergence and seedling stage of maize (Zea mays L.). Heliyon. 10:e25683. | AT3G26744 (TAIR) | Reference: February 19th, 2024
Gene Product: September 14th, 2016
|
| 79 days ago | bzip49 | bZIP-transcription factor 49: | | | Roopashree Byregowda et al. 2024. Comparative regulatory network of transcripts behind radicle emergence and seedling stage of maize (Zea mays L.). Heliyon. 10:e25683. | | Reference: February 19th, 2024
Variation: April 8th, 2021
|
| 79 days ago | ctb1 | chitinase B1: | 10.04 | GRMZM2G005633
| Gao, JH et al. 2024. Identification of Novel QTL for Mercury Accumulation in Maize Using an Enlarged SNP Panel Genes. 15:257. | | Reference: February 19th, 2024
Gene Product: May 31st, 2021
Variation: September 1st, 2003
Gene Model: October 21st, 2018
|
| 79 days ago | mybr68 | MYB-related-transcription factor 68: | 10.04 - 10.05 | GRMZM2G410083
| Roopashree Byregowda et al. 2024. Comparative regulatory network of transcripts behind radicle emergence and seedling stage of maize (Zea mays L.). Heliyon. 10:e25683. | | Reference: February 19th, 2024
Variation: September 1st, 2003
Gene Model: January 18th, 2018
|
| 79 days ago | grftf8 | GRF-transcription factor 8: | 2.02 | GRMZM2G041223
| Roopashree Byregowda et al. 2024. Comparative regulatory network of transcripts behind radicle emergence and seedling stage of maize (Zea mays L.). Heliyon. 10:e25683. | | Reference: February 19th, 2024
Variation: September 1st, 2003
Gene Model: February 22nd, 2018
|
| 79 days ago | hk6 | histidine kinase6: | | GRMZM2G125943
| Gao, JH et al. 2024. Identification of Novel QTL for Mercury Accumulation in Maize Using an Enlarged SNP Panel Genes. 15:257. | | Reference: February 19th, 2024
Gene Product: May 20th, 2016
Gene Model: May 20th, 2016
|
| 79 days ago | hak4 | high-affinity potassium transporter4: | | GRMZM2G425999
| Meichen Liu et al. 2024. Genome-Wide Association Study and Prediction of Tassel Weight of Tropical Maize Germplasm in Multi-Parent Population Int J Mol Sci. 25:1756. | | Reference: February 19th, 2024
Gene Product: March 12th, 2020
Gene Model: December 10th, 2019
|
| 79 days ago | hsftf30 | HSF-transcription factor 30: | | | Roopashree Byregowda et al. 2024. Comparative regulatory network of transcripts behind radicle emergence and seedling stage of maize (Zea mays L.). Heliyon. 10:e25683. | | Reference: February 19th, 2024
Gene Product: May 15th, 2020
|
| 79 days ago | bhlh199 | bHLH-transcription factor 199: | | GRMZM2G137426
| Roopashree Byregowda et al. 2024. Comparative regulatory network of transcripts behind radicle emergence and seedling stage of maize (Zea mays L.). Heliyon. 10:e25683. | | Reference: February 19th, 2024
Gene Product: September 14th, 2016
Gene Model: July 2nd, 2021
|
| 79 days ago | psei3 | cystatin3: | 6.06 | GRMZM2G440968
| Gao, JH et al. 2024. Identification of Novel QTL for Mercury Accumulation in Maize Using an Enlarged SNP Panel Genes. 15:257. | | Reference: February 19th, 2024
Gene Product: April 21st, 2008
Variation: February 24th, 2009
Gene Model: July 28th, 2016
|
| 81 days ago | b1 | colored plant1: | 2.03 | GRMZM2G172795
| Hövel, I et al. 2024. RNA-directed DNA methylation mutants reduce histone at the paramutated maize booster1 enhancer. Plant Physiol. doi: 10.1093/plphys/kiae072 | | Reference: February 17th, 2024
Gene Product: October 13th, 2010
Variation: February 14th, 2013
Gene Model: September 22nd, 2011
|
| 81 days ago | nrpd2/e2 | nuclear RNA polymerase D2/E2: | 2.02 | GRMZM2G054225
| Hövel, I et al. 2024. RNA-directed DNA methylation mutants reduce histone at the paramutated maize booster1 enhancer. Plant Physiol. doi: 10.1093/plphys/kiae072 | | Reference: February 17th, 2024
Gene Product: November 9th, 2012
Variation: November 3rd, 2012
Gene Model: November 9th, 2012
|
| 81 days ago | se1 | sugary-enhancer1: | 2.10 - 2.10 | AC217415.3_FG004
| Shah Mohammad Usman et al. 2024. Unveiling the sweetness: evaluating yield and quality attributes of early generation sweet corn (Zea mays subsp. sachharata) inbred lines through morphological, biochemical and marker-based approaches Mol Biol Rep. 51:307. | | Reference: February 17th, 2024
Gene Product: September 24th, 2019
Variation: May 4th, 2015
Gene Model: May 2nd, 2015
|
| 81 days ago | mop1 | mediator of paramutation1: | 2.04 | GRMZM2G042443
| Hövel, I et al. 2024. RNA-directed DNA methylation mutants reduce histone at the paramutated maize booster1 enhancer. Plant Physiol. doi: 10.1093/plphys/kiae072 | | Reference: February 17th, 2024
Gene Product: August 8th, 2006
Variation: August 8th, 2006
Gene Model: April 24th, 2013
|
| 81 days ago | rmr6 | required to maintain repression6: | 1.06 | GRMZM2G007681
| Hövel, I et al. 2024. RNA-directed DNA methylation mutants reduce histone at the paramutated maize booster1 enhancer. Plant Physiol. doi: 10.1093/plphys/kiae072 | | Reference: February 17th, 2024
Gene Product: March 27th, 2013
Variation: March 28th, 2013
Gene Model: March 27th, 2013
|
| 82 days ago | mis12a | minichromosome instability12a: | 10.07 | GRMZM2G173660
| Li, XL et al. 2024. Heat stress at the bicellular stage inhibits sperm cell development and transport into pollen tubes Plant Physiol. :doi: 10.1093/plphys/kiae087. | AT5G35520 (TAIR)
LOC_Os02g40680 (MSU/TIGR)
Os02G0620100 (Gramene) | Reference: February 16th, 2024
Gene Product: December 24th, 2015
Variation: October 16th, 2010
Gene Model: December 24th, 2015
|
| 82 days ago | mtl3 | metallothionein3: | 4.05 | GRMZM2G099340
| Dowd, PF et al. 2023. Potential role of a maize metallothionein gene in pest resistance Plant Gene. 34:100409. | | Reference: February 16th, 2024
Gene Product: September 1st, 2003
Variation: September 1st, 2003
Gene Model: June 1st, 2017
|
| 82 days ago | mdr1 | maternal derepression of R1: | 4.09 - 4.09 | GRMZM2G422464
| Zeng, YB et al. 2024. Potent pollen gene regulation by DNA glycosylases in maize bioRxiv preprint. :doi: 10.1101/2024.02.13.580204. | AT5G04560 (TAIR) | Reference: February 16th, 2024
Gene Product: October 5th, 2021
Variation: October 5th, 2021
Gene Model: October 5th, 2021
|
| 82 days ago | cyc14 | cyclin14: | 1.07 | GRMZM2G133413
| Li, XL et al. 2024. Heat stress at the bicellular stage inhibits sperm cell development and transport into pollen tubes Plant Physiol. :doi: 10.1093/plphys/kiae087. | | Reference: February 16th, 2024
Gene Product: June 26th, 2009
Variation: January 19th, 2017
Gene Model: January 19th, 2017
|
| 82 days ago | hsp70-4 | heat shock protein70-4: | 3.05 | | Li, XL et al. 2024. Heat stress at the bicellular stage inhibits sperm cell development and transport into pollen tubes Plant Physiol. :doi: 10.1093/plphys/kiae087. | | Reference: February 16th, 2024
Gene Product: September 1st, 2003
Variation: January 2nd, 2013
|
| 82 days ago | mad2 | mitotic arrest deficient homolog2: | | GRMZM2G047143
| Li, XL et al. 2024. Heat stress at the bicellular stage inhibits sperm cell development and transport into pollen tubes Plant Physiol. :doi: 10.1093/plphys/kiae087. | | Reference: February 16th, 2024
Gene Product: July 6th, 2020
Gene Model: July 6th, 2020
|
| 82 days ago | AW216329 | : | 9.08 | GRMZM2G055785
| Li, XL et al. 2024. Heat stress at the bicellular stage inhibits sperm cell development and transport into pollen tubes Plant Physiol. :doi: 10.1093/plphys/kiae087. | | Reference: February 16th, 2024
Variation: July 29th, 2004
Gene Model: February 27th, 2018
|
| 82 days ago | samba1 | SAMBA ortholog1: | 1.05 | GRMZM2G157878
| Li, XL et al. 2024. Heat stress at the bicellular stage inhibits sperm cell development and transport into pollen tubes Plant Physiol. :doi: 10.1093/plphys/kiae087. | AT1G32310 (TAIR) | Reference: February 16th, 2024
Gene Product: November 18th, 2021
Variation: November 18th, 2021
Gene Model: February 8th, 2020
|
| 82 days ago | limtf11 | LIM-transcription factor 11: | | GRMZM2G017845
| Li, XL et al. 2024. Heat stress at the bicellular stage inhibits sperm cell development and transport into pollen tubes Plant Physiol. :doi: 10.1093/plphys/kiae087. | | Reference: February 16th, 2024
Gene Product: June 24th, 2019
Variation: June 24th, 2019
Gene Model: October 10th, 2012
|
| 82 days ago | cyc9 | cyclin9: | | GRMZM2G017081
| Li, XL et al. 2024. Heat stress at the bicellular stage inhibits sperm cell development and transport into pollen tubes Plant Physiol. :doi: 10.1093/plphys/kiae087. | | Reference: February 16th, 2024
Gene Product: June 26th, 2009
Variation: June 6th, 2016
Gene Model: June 6th, 2016
|
| 82 days ago | hsp11 | heat shock protein11: | | GRMZM2G306679
| Li, XL et al. 2024. Heat stress at the bicellular stage inhibits sperm cell development and transport into pollen tubes Plant Physiol. :doi: 10.1093/plphys/kiae087. | | Reference: February 16th, 2024
Gene Product: January 15th, 2019
Gene Model: January 14th, 2019
|
| 82 days ago | hsp70-3 | heat shock protein70-3: | | GRMZM2G145275
| Li, XL et al. 2024. Heat stress at the bicellular stage inhibits sperm cell development and transport into pollen tubes Plant Physiol. :doi: 10.1093/plphys/kiae087. | | Reference: February 16th, 2024
Gene Product: September 1st, 2003
Gene Model: December 18th, 2020
|
| 82 days ago | hsp70-6 | heat shock protein70-6: | | GRMZM2G428391
| Li, XL et al. 2024. Heat stress at the bicellular stage inhibits sperm cell development and transport into pollen tubes Plant Physiol. :doi: 10.1093/plphys/kiae087. | | Reference: February 16th, 2024
Gene Product: September 1st, 2003
Gene Model: December 18th, 2020
|
| 82 days ago | dng102 | DNA glycosylase102: | | GRMZM2G123587
| Zeng, YB et al. 2024. Potent pollen gene regulation by DNA glycosylases in maize bioRxiv preprint. :doi: 10.1101/2024.02.13.580204. | | Reference: February 16th, 2024
Gene Product: October 5th, 2021
Variation: October 5th, 2021
Gene Model: May 15th, 2021
|
| 82 days ago | cdc5 | cell division control protein homolog5: | | GRMZM2G068193
| Li, XL et al. 2024. Heat stress at the bicellular stage inhibits sperm cell development and transport into pollen tubes Plant Physiol. :doi: 10.1093/plphys/kiae087. | | Reference: February 16th, 2024
Gene Product: October 19th, 2022
Gene Model: March 24th, 2022
|
| 82 days ago | amt1 | ammonium transporter1: | 10.04 | GRMZM2G175140
| Shambhu Krishan Lal et al. 2024. Recent Advancements in Nitrogen Use Efficiency in Crop Plants Achieved by Genomics and Targeted Genetic Engineering Approaches Plant Mol Biol Rep. :doi: 10.1007/s11105-024-01439-4. | | Reference: February 16th, 2024
Gene Product: July 8th, 2013
Variation: September 25th, 2007
Gene Model: September 11th, 2021
|
| 83 days ago | sr2 | striate leaves2: | 10.07 | | Brady, MJ et al. 2024. The maize striate leaves2 ( sr2) gene encodes a conserved DUF3732 domain and is homologous to the rice yss1 gene. Plant Direct 8:(2) e567. | AT4G33480 (TAIR)
LOC_Os04g59570 (MSU/TIGR)
Os04g0692200 (Gramene) | Reference: February 15th, 2024
Gene Product: February 15th, 2024
Variation: October 9th, 2023
|
| 85 days ago | ask2 | aspartate kinase2: | 2.06 | GRMZM2G052935
| Hriipulou Duo et al. 2024. Assessing sequence variation, haplotype analysis and molecular characterisation of aspartate kinase2 (ask2) gene regulating methionine biosynthesis in diverse maize inbreds. Mol Genet Genomics. 299:7. | | Reference: February 13th, 2024
Gene Product: September 1st, 2003
Variation: February 6th, 2018
Gene Model: February 6th, 2018
|
| 86 days ago | mrpa16 | multidrug resistance protein associated16: | | | Yaling Hou et al. 2024. Integrative analysis of the transcriptome and metabolome reveals Bacillus atrophaeus WZYH01-mediated salt stress mechanism in maize (Zea mays L.) J Biotechnol. :doi: 10.1016/j.jbiotec.2024.02.004. | | Reference: February 12th, 2024
Gene Product: July 11th, 2019
|
| 86 days ago | mam1 | mRNA adenosine methylase1: | | | Daolei Zhang et al. 2024. Epigenetic variation in maize agronomical traits for breeding and trait improvement. J Genet Genomics. | AT4G10760 (TAIR) | Reference: February 12th, 2024
Gene Product: November 24th, 2023
Variation: November 24th, 2023
|
| 86 days ago | met6 | DNA methyl transferase6: | 8.05 | | Daolei Zhang et al. 2024. Epigenetic variation in maize agronomical traits for breeding and trait improvement. J Genet Genomics. | | Reference: February 12th, 2024
Gene Product: April 6th, 2018
Variation: October 25th, 2020
|
| 86 days ago | la1 | lazy plant1: | 4.03 - 4.04 | GRMZM2G135019
| Daolei Zhang et al. 2024. Epigenetic variation in maize agronomical traits for breeding and trait improvement. J Genet Genomics. | | Reference: February 12th, 2024
Gene Product: October 9th, 2013
Variation: February 26th, 2015
Gene Model: October 8th, 2013
|
| 86 days ago | rgd1 | ragged seedling1: | 6.01 - 6.01 | | Daolei Zhang et al. 2024. Epigenetic variation in maize agronomical traits for breeding and trait improvement. J Genet Genomics. | AT5G23570 (TAIR) | Reference: February 12th, 2024
Gene Product: December 18th, 2014
Variation: June 8th, 2015
|
| 86 days ago | rpd3 | RPD3 histone deacetylase homolog: | 4.09 | GRMZM2G172883
| Daolei Zhang et al. 2024. Epigenetic variation in maize agronomical traits for breeding and trait improvement. J Genet Genomics. | | Reference: February 12th, 2024
Gene Product: February 12th, 2020
Variation: November 11th, 2014
Gene Model: November 6th, 2014
|
| 86 days ago | expb2 | beta expansin2: | 1.05 | GRMZM2G021621
| Daolei Zhang et al. 2024. Epigenetic variation in maize agronomical traits for breeding and trait improvement. J Genet Genomics. | | Reference: February 12th, 2024
Gene Product: March 12th, 2008
Variation: December 28th, 2016
Gene Model: December 28th, 2016
|
| 86 days ago | expa1 | alpha expansin1: | 3.06 | | Daolei Zhang et al. 2024. Epigenetic variation in maize agronomical traits for breeding and trait improvement. J Genet Genomics. | | Reference: February 12th, 2024
Gene Product: March 12th, 2008
Variation: September 1st, 2003
|
| 86 days ago | rbap1 | WD-repeat protein RBAP1: | 3.07 | GRMZM2G316113
| Daolei Zhang et al. 2024. Epigenetic variation in maize agronomical traits for breeding and trait improvement. J Genet Genomics. | | Reference: February 12th, 2024
Gene Product: September 1st, 2003
Variation: December 29th, 2010
Gene Model: December 10th, 2012
|
| 86 days ago | act7 | actin7: | 1.11 | GRMZM2G053299
| Daolei Zhang et al. 2024. Epigenetic variation in maize agronomical traits for breeding and trait improvement. J Genet Genomics. | | Reference: February 12th, 2024
Gene Product: September 1st, 2003
Variation: January 25th, 2017
Gene Model: January 25th, 2017
|
| 86 days ago | mez1 | enhancer of zeste1: | 6.01 | | Daolei Zhang et al. 2024. Epigenetic variation in maize agronomical traits for breeding and trait improvement. J Genet Genomics. | | Reference: February 12th, 2024
Gene Product: June 30th, 2017
Variation: July 3rd, 2015
|
| 86 days ago | msh1 | male sterile protein homolog1: | 4.08 | GRMZM2G036217
| Daolei Zhang et al. 2024. Epigenetic variation in maize agronomical traits for breeding and trait improvement. J Genet Genomics. | | Reference: February 12th, 2024
Gene Product: September 1st, 2003
Variation: September 1st, 2003
Gene Model: April 4th, 2015
|
| 86 days ago | hda102 | histone deacetylase: | 2.04 | GRMZM2G119703
| Daolei Zhang et al. 2024. Epigenetic variation in maize agronomical traits for breeding and trait improvement. J Genet Genomics. | | Reference: February 12th, 2024
Gene Product: February 12th, 2020
Variation: May 28th, 2011
Gene Model: November 6th, 2014
|
| 86 days ago | hda108 | histone deacetylase: | 4.05 | | Daolei Zhang et al. 2024. Epigenetic variation in maize agronomical traits for breeding and trait improvement. J Genet Genomics. | | Reference: February 12th, 2024
Gene Product: September 1st, 2003
Variation: February 1st, 2018
|
| 86 days ago | sdg113 | set domain gene113: | 3.06 | | Daolei Zhang et al. 2024. Epigenetic variation in maize agronomical traits for breeding and trait improvement. J Genet Genomics. | | Reference: February 12th, 2024
Gene Product: June 30th, 2017
Variation: September 1st, 2003
|
| 86 days ago | chr106 | chromatin complex subunit A 106: | 1.10 | GRMZM2G071025
| Daolei Zhang et al. 2024. Epigenetic variation in maize agronomical traits for breeding and trait improvement. J Genet Genomics. | | Reference: February 12th, 2024
Variation: June 9th, 2018
Gene Model: December 22nd, 2014
|
| 86 days ago | ros1 | repressor of silencing1: | | GRMZM2G141792
| Daolei Zhang et al. 2024. Epigenetic variation in maize agronomical traits for breeding and trait improvement. J Genet Genomics. | | Reference: February 12th, 2024
Gene Product: March 10th, 2022
Gene Model: October 16th, 2017
|
| 86 days ago | tac1 | tiller angle control1: | | GRMZM2G447987
| Daolei Zhang et al. 2024. Epigenetic variation in maize agronomical traits for breeding and trait improvement. J Genet Genomics. | LOC_Os09g35980 (MSU/TIGR) | Reference: February 12th, 2024
Variation: November 13th, 2017
Gene Model: November 11th, 2017
|
| 86 days ago | nip1c | NOD26-like membrane intrinsic protein1c: | | AC234180.1_FG004
| Yaling Hou et al. 2024. Integrative analysis of the transcriptome and metabolome reveals Bacillus atrophaeus WZYH01-mediated salt stress mechanism in maize (Zea mays L.) J Biotechnol. :doi: 10.1016/j.jbiotec.2024.02.004. | | Reference: February 12th, 2024
Gene Product: January 27th, 2022
Gene Model: January 27th, 2022
|
| 86 days ago | met4 | DNA methyl transferase4: | 8.05 | GRMZM2G157589
| Daolei Zhang et al. 2024. Epigenetic variation in maize agronomical traits for breeding and trait improvement. J Genet Genomics. | | Reference: February 12th, 2024
Gene Product: April 6th, 2018
Variation: February 10th, 2010
Gene Model: December 22nd, 2014
|
| 86 days ago | gif1 | growth-regulating-factor-interacting factor1: | 1.10 | GRMZM2G180246
| Daolei Zhang et al. 2024. Epigenetic variation in maize agronomical traits for breeding and trait improvement. J Genet Genomics. | AT5G28640 (TAIR)
LOC_Os03g52320 (MSU/TIGR) | Reference: February 12th, 2024
Gene Product: July 6th, 2015
Variation: February 6th, 2018
Gene Model: July 6th, 2015
|
| 87 days ago | pco127462a | : | 1.06 | GRMZM2G096585
| Hueros, G et al. 1998. Planta 205:121-131 | | Reference: February 11th, 2024
Gene Product: February 10th, 2024
Gene Model: February 10th, 2020
|
| 88 days ago | glp3 | germin-like protein3: | | | Shiyu Liu et al. 2024. Chlorine dioxide affects metabolism of harvested sweet corn Postharv Biol Technol. 211:112834. | | Reference: February 10th, 2024
Gene Product: December 24th, 2015
|
| 88 days ago | glp7 | germin-like protein7: | | | Shiyu Liu et al. 2024. Chlorine dioxide affects metabolism of harvested sweet corn Postharv Biol Technol. 211:112834. | | Reference: February 10th, 2024
Gene Product: December 24th, 2015
|
| 88 days ago | glp18 | germin-like protein18: | | | Shiyu Liu et al. 2024. Chlorine dioxide affects metabolism of harvested sweet corn Postharv Biol Technol. 211:112834. | | Reference: February 10th, 2024
Gene Product: December 24th, 2015
|
| 88 days ago | wakl21 | wall associated kinase like21: | | | Shiyu Liu et al. 2024. Chlorine dioxide affects metabolism of harvested sweet corn Postharv Biol Technol. 211:112834. | | Reference: February 10th, 2024
Gene Product: December 7th, 2023
|
| 88 days ago | GRMZM2G095333 | : | | | Yu, Y-L et al. 2012. Genome-wide analysis and environmental response profiling of the FK506-binding protein gene family in maize (Zea mays L.). Gene. 498:212-222. | | Reference: February 10th, 2024
Gene Product: February 10th, 2024
|
| 88 days ago | GRMZM2G153991 | : | | | Yu, Y-L et al. 2012. Genome-wide analysis and environmental response profiling of the FK506-binding protein gene family in maize (Zea mays L.). Gene. 498:212-222. | | Reference: February 10th, 2024
Gene Product: February 10th, 2024
|
| 88 days ago | GRMZM2G030494 | : | | | Yu, Y-L et al. 2012. Genome-wide analysis and environmental response profiling of the FK506-binding protein gene family in maize (Zea mays L.). Gene. 498:212-222. | | Reference: February 10th, 2024
Gene Product: February 10th, 2024
|
| 88 days ago | GRMZM2G001956 | : | | | Yu, Y-L et al. 2012. Genome-wide analysis and environmental response profiling of the FK506-binding protein gene family in maize (Zea mays L.). Gene. 498:212-222. | | Reference: February 10th, 2024
Gene Product: February 10th, 2024
|
| 88 days ago | GRMZM2G041060 | : | | | Yu, Y-L et al. 2012. Genome-wide analysis and environmental response profiling of the FK506-binding protein gene family in maize (Zea mays L.). Gene. 498:212-222. | | Reference: February 10th, 2024
Gene Product: February 10th, 2024
|
| 88 days ago | GRMZM2G488458 | : | | | Yu, Y-L et al. 2012. Genome-wide analysis and environmental response profiling of the FK506-binding protein gene family in maize (Zea mays L.). Gene. 498:212-222. | | Reference: February 10th, 2024
Gene Product: February 10th, 2024
|
| 88 days ago | GRMZM2G399313 | : | | | Yu, Y-L et al. 2012. Genome-wide analysis and environmental response profiling of the FK506-binding protein gene family in maize (Zea mays L.). Gene. 498:212-222. | | Reference: February 10th, 2024
Gene Product: February 10th, 2024
|
| 88 days ago | IDP8408 | : | 4.09 | GRMZM2G012340
| Yu, Y-L et al. 2012. Genome-wide analysis and environmental response profiling of the FK506-binding protein gene family in maize (Zea mays L.). Gene. 498:212-222. | | Reference: February 10th, 2024
Gene Product: February 10th, 2024
Gene Model: May 26th, 2021
|
| 88 days ago | IDP8238 | : | 4.10 | GRMZM2G150337
| Yu, Y-L et al. 2012. Genome-wide analysis and environmental response profiling of the FK506-binding protein gene family in maize (Zea mays L.). Gene. 498:212-222. | | Reference: February 10th, 2024
Gene Product: February 10th, 2024
Gene Model: May 27th, 2021
|
| 88 days ago | IDP8044 | : | 9.04 | GRMZM2G117746
| Yu, Y-L et al. 2012. Genome-wide analysis and environmental response profiling of the FK506-binding protein gene family in maize (Zea mays L.). Gene. 498:212-222. | | Reference: February 10th, 2024
Gene Product: February 10th, 2024
Gene Model: July 16th, 2021
|
| 88 days ago | tps23 | terpene synthase23: | 10.03 | GRMZM2G127336
| P Lakshmi Soujanya et al. 2024. Host Plant Resistance to Insect Pests in Maize :Pp 141–168. n: Kumar, S., Furlong, M. (eds) Plant Resistance to Insects in Major Field Crops. Springer, Singapore | | Reference: February 10th, 2024
Gene Product: July 21st, 2008
Variation: November 21st, 2017
Gene Model: August 22nd, 2012
|
| 88 days ago | phi1 | phosphohexose isomerase1: | 1.11 - 1.11 | GRMZM2G065083
| Shiyu Liu et al. 2024. Chlorine dioxide affects metabolism of harvested sweet corn Postharv Biol Technol. 211:112834. | | Reference: February 10th, 2024
Gene Product: September 1st, 2003
Variation: October 1st, 2014
Gene Model: August 25th, 2014
|
| 88 days ago | csu554a(rnh) | : | 1.09 | GRMZM2G057374
| Yu, Y-L et al. 2012. Genome-wide analysis and environmental response profiling of the FK506-binding protein gene family in maize (Zea mays L.). Gene. 498:212-222. | | Reference: February 10th, 2024
Gene Product: February 10th, 2024
Gene Model: September 20th, 2017
|
| 88 days ago | umc1833 | : | 1.07 | GRMZM2G155753
| Yu, Y-L et al. 2012. Genome-wide analysis and environmental response profiling of the FK506-binding protein gene family in maize (Zea mays L.). Gene. 498:212-222. | | Reference: February 10th, 2024
Gene Product: February 10th, 2024
Gene Model: February 24th, 2021
|
| 88 days ago | spp1 | sucrose-phosphatase1: | 8.04 | | Shiyu Liu et al. 2024. Chlorine dioxide affects metabolism of harvested sweet corn Postharv Biol Technol. 211:112834. | | Reference: February 10th, 2024
Gene Product: September 1st, 2003
Variation: August 2nd, 2013
|
| 88 days ago | fht1 | flavanone 3-hydroxylase1: | 2.01 - 2.02 | | Shiyu Liu et al. 2024. Chlorine dioxide affects metabolism of harvested sweet corn Postharv Biol Technol. 211:112834. | | Reference: February 10th, 2024
Gene Product: June 8th, 2012
Variation: September 1st, 2003
|
| 88 days ago | pco126622 | : | 2.05 | GRMZM2G133624
| Yu, Y-L et al. 2012. Genome-wide analysis and environmental response profiling of the FK506-binding protein gene family in maize (Zea mays L.). Gene. 498:212-222. | AT3G21640 (TAIR) | Reference: February 10th, 2024
Gene Product: February 10th, 2024
Gene Model: March 18th, 2020
|
| 88 days ago | pdrp1 | PDK regulatory protein1: | 2.07 | GRMZM2G131286
| Xie, JP et al. 2024. The C4 photosynthesis bifunctional enzymes, PDRPs, of maize are co-opted to cytoplasmic viral replication complexes to promote infection of a prevalent potyvirus sugarcane mosaic virus. Plant Biotechnol J. :doi: 10.1111/pbi.14304. | | Reference: February 10th, 2024
Gene Product: July 28th, 2014
Gene Model: July 28th, 2014
|
| 88 days ago | opr1 | 12-oxo-phytodienoic acid reductase1: | 9.01 | GRMZM2G106303
| Shiyu Liu et al. 2024. Chlorine dioxide affects metabolism of harvested sweet corn Postharv Biol Technol. 211:112834. | | Reference: February 10th, 2024
Gene Product: September 3rd, 2010
Variation: July 21st, 2008
Gene Model: November 27th, 2013
|
| 88 days ago | opr3 | 12-oxo-phytodienoic acid reductase3: | | GRMZM2G156712
| Shiyu Liu et al. 2024. Chlorine dioxide affects metabolism of harvested sweet corn Postharv Biol Technol. 211:112834. | | Reference: February 10th, 2024
Gene Product: September 3rd, 2010
Variation: June 29th, 2012
Gene Model: November 27th, 2013
|
| 88 days ago | mkk4 | MAP kinase kinase4: | | GRMZM5G878379
| Sahito, JH et al. 2024. Advancements and Prospects of Genome-Wide Association Studies (GWAS) in Maize. Int J Mol Sci. 25:1918. | | Reference: February 10th, 2024
Gene Product: July 10th, 2013
Gene Model: July 12th, 2013
|
| 88 days ago | pdrp2 | PDK regulatory protein2: | | GRMZM2G004880
| Xie, JP et al. 2024. The C4 photosynthesis bifunctional enzymes, PDRPs, of maize are co-opted to cytoplasmic viral replication complexes to promote infection of a prevalent potyvirus sugarcane mosaic virus. Plant Biotechnol J. :doi: 10.1111/pbi.14304. | | Reference: February 10th, 2024
Gene Product: July 28th, 2014
Gene Model: December 22nd, 2017
|
| 88 days ago | invan1 | invertase alkaline neutral1: | | GRMZM2G136139
| Shiyu Liu et al. 2024. Chlorine dioxide affects metabolism of harvested sweet corn Postharv Biol Technol. 211:112834. | | Reference: February 10th, 2024
Gene Product: June 12th, 2018
Gene Model: June 12th, 2018
|
| 88 days ago | invan10 | invertase alkaline neutral10: | | GRMZM2G084694
| Shiyu Liu et al. 2024. Chlorine dioxide affects metabolism of harvested sweet corn Postharv Biol Technol. 211:112834. | | Reference: February 10th, 2024
Gene Product: June 12th, 2018
Gene Model: June 12th, 2018
|
| 88 days ago | pao2 | polyamine oxidase2: | | GRMZM2G000052
| Sahito, JH et al. 2024. Advancements and Prospects of Genome-Wide Association Studies (GWAS) in Maize. Int J Mol Sci. 25:1918. | | Reference: February 10th, 2024
Gene Product: June 10th, 2020
Gene Model: February 3rd, 2020
|
| 88 days ago | aos5 | allene oxide synthesis5: | | GRMZM2G033098
| Shiyu Liu et al. 2024. Chlorine dioxide affects metabolism of harvested sweet corn Postharv Biol Technol. 211:112834. | | Reference: February 10th, 2024
Gene Product: September 1st, 2003
Gene Model: March 19th, 2020
|
| 88 days ago | cl61634_1 | : | 5.06 | GRMZM2G035708
| Yu, Y-L et al. 2012. Genome-wide analysis and environmental response profiling of the FK506-binding protein gene family in maize (Zea mays L.). Gene. 498:212-222. | | Reference: February 10th, 2024
Gene Product: February 10th, 2024
Gene Model: May 24th, 2020
|
| 88 days ago | prh25 | protein phosphatase homolog25: | | AC208201.3_FG002
| Shiyu Liu et al. 2024. Chlorine dioxide affects metabolism of harvested sweet corn Postharv Biol Technol. 211:112834. | | Reference: February 10th, 2024
Gene Product: October 25th, 2021
Gene Model: November 18th, 2020
|
| 88 days ago | cl38842_-2b | : | | GRMZM2G031204
| Yu, Y-L et al. 2012. Genome-wide analysis and environmental response profiling of the FK506-binding protein gene family in maize (Zea mays L.). Gene. 498:212-222. | | Reference: February 10th, 2024
Gene Product: February 10th, 2024
Gene Model: June 15th, 2021
|
| 88 days ago | GRMZM2G068963 | : | | GRMZM2G068963
| Yu, Y-L et al. 2012. Genome-wide analysis and environmental response profiling of the FK506-binding protein gene family in maize (Zea mays L.). Gene. 498:212-222. | | Reference: February 10th, 2024
Gene Product: February 10th, 2024
Gene Model: December 31st, 2021
|
| 88 days ago | prx44 | peroxidase44: | | GRMZM2G122816
| Shiyu Liu et al. 2024. Chlorine dioxide affects metabolism of harvested sweet corn Postharv Biol Technol. 211:112834. | | Reference: February 10th, 2024
Gene Product: September 18th, 2015
Gene Model: April 8th, 2022
|
| 88 days ago | pco108516 | : | 5.07 | GRMZM2G015784
| Yu, Y-L et al. 2012. Genome-wide analysis and environmental response profiling of the FK506-binding protein gene family in maize (Zea mays L.). Gene. 498:212-222. | | Reference: February 10th, 2024
Gene Product: February 10th, 2024
Gene Model: May 25th, 2020
|
| 88 days ago | chi5 | chalcone flavanone isomerase5: | 5.04 | GRMZM2G311919
| Shiyu Liu et al. 2024. Chlorine dioxide affects metabolism of harvested sweet corn Postharv Biol Technol. 211:112834. | | Reference: February 10th, 2024
Gene Product: January 26th, 2021
Gene Model: June 18th, 2018
|
| 88 days ago | ppi2 | peptidyl-prolyl cis-trans isomerase2: | 6.05 | GRMZM2G035922
| Yu, Y-L et al. 2012. Genome-wide analysis and environmental response profiling of the FK506-binding protein gene family in maize (Zea mays L.). Gene. 498:212-222. | | Reference: February 10th, 2024
Gene Product: February 10th, 2024
Gene Model: January 1st, 2020
|
| 88 days ago | pco107138 | : | 7.03 | GRMZM2G115757
| Yu, Y-L et al. 2012. Genome-wide analysis and environmental response profiling of the FK506-binding protein gene family in maize (Zea mays L.). Gene. 498:212-222. | | Reference: February 10th, 2024
Gene Product: February 10th, 2024
Gene Model: July 25th, 2020
|
| 88 days ago | cl37610_1b | : | 10.04 | GRMZM2G024811
| Yu, Y-L et al. 2012. Genome-wide analysis and environmental response profiling of the FK506-binding protein gene family in maize (Zea mays L.). Gene. 498:212-222. | | Reference: February 10th, 2024
Gene Product: February 10th, 2024
Gene Model: July 11th, 2022
|
| 88 days ago | aoc1 | allene oxide cyclase1: | 1.04 | GRMZM2G077316
| Shiyu Liu et al. 2024. Chlorine dioxide affects metabolism of harvested sweet corn Postharv Biol Technol. 211:112834. | | Reference: February 10th, 2024
Gene Product: November 29th, 2005
Gene Model: November 25th, 2013
|
| 88 days ago | acs6 | 1-aminocyclopropane-1-carboxylate synthase6: | 1.10 | GRMZM2G054361
| Shiyu Liu et al. 2024. Chlorine dioxide affects metabolism of harvested sweet corn Postharv Biol Technol. 211:112834. | | Reference: February 10th, 2024
Gene Product: May 16th, 2016
Variation: August 4th, 2008
Gene Model: January 21st, 2016
|
| 88 days ago | pco063683 | : | 5.04 | GRMZM2G336858
| Yu, Y-L et al. 2012. Genome-wide analysis and environmental response profiling of the FK506-binding protein gene family in maize (Zea mays L.). Gene. 498:212-222. | AT3G25230 (TAIR) | Reference: February 10th, 2024
Gene Product: February 10th, 2024
Gene Model: May 18th, 2020
|
| 88 days ago | sps2 | sucrose phosphate synthase2: | 3.05 | GRMZM2G140107
| Shiyu Liu et al. 2024. Chlorine dioxide affects metabolism of harvested sweet corn Postharv Biol Technol. 211:112834. | | Reference: February 10th, 2024
Gene Product: September 1st, 2003
Variation: January 22nd, 2021
Gene Model: March 18th, 2015
|
| 88 days ago | cyp48 | cytochrome P450 48: | 3.04 | GRMZM2G158342
| Shiyu Liu et al. 2024. Chlorine dioxide affects metabolism of harvested sweet corn Postharv Biol Technol. 211:112834. | | Reference: February 10th, 2024
Gene Product: December 30th, 2022
Gene Model: March 2nd, 2017
|
| 89 days ago | nc3 | Na+ content3: | | | Fang, H et al. 2024. Genetic analysis and candidate gene identification of salt tolerance-related traits in maize J Integr Agric. :doi: 10.1016/j.jia.2024.02.009. | | Reference: February 9th, 2024
Gene Product: November 15th, 2017
|
| 89 days ago | lc1 | red leaf color1: | 10.06 | GRMZM5G822829
| Peniche-Pavia, HA et al. 2024. Backcrossing Modulates the Metabolic Profiles of Anthocyanin-Pigmented 'Vitamaize' Lines Derived from Elite Maize Lines. Plant Foods Hum Nutr. | | Reference: February 9th, 2024
Gene Product: September 1st, 2003
Variation: September 1st, 2003
Gene Model: October 23rd, 2018
|
| 89 days ago | mre11a | meiotic recombination protein 11 homolog A: | | GRMZM2G106056
| Fang, H et al. 2024. Genetic analysis and candidate gene identification of salt tolerance-related traits in maize J Integr Agric. :doi: 10.1016/j.jia.2024.02.009. | | Reference: February 9th, 2024
Variation: May 10th, 2017
Gene Model: January 27th, 2017
|
| 89 days ago | nsa1 | Na+ content under saline-alkaline conditions1: | | GRMZM2G000397
| Fang, H et al. 2024. Genetic analysis and candidate gene identification of salt tolerance-related traits in maize J Integr Agric. :doi: 10.1016/j.jia.2024.02.009. | | Reference: February 9th, 2024
Gene Product: January 10th, 2020
Variation: January 10th, 2020
Gene Model: January 10th, 2020
|
| 90 days ago | prp20 | pathogenesis-related protein20: | | | Liu, Y et al. 2024. Importance of pre-mRNA splicing and its study tools in plants Adv Biotech. 2:4. | | Reference: February 8th, 2024
Gene Product: December 12th, 2022
|
| 90 days ago | hcf106c | high chlorophyll fluorescence106c: | 10.04 | | Chengxiu Wu et al. 2024. Multi-omics assists genomic prediction of maize yield with machine learning approaches Mol Breed. 44:14. | | Reference: February 8th, 2024
Gene Product: September 1st, 2003
Variation: December 17th, 2012
|
| 90 days ago | es3 | embryo sac3: | | GRMZM2G359064
| Chengxiu Wu et al. 2024. Multi-omics assists genomic prediction of maize yield with machine learning approaches Mol Breed. 44:14. | | Reference: February 8th, 2024
Gene Product: April 22nd, 2011
Gene Model: November 2nd, 2021
|
| 90 days ago | umc1620 | : | 4.07 | | Qiaolu Li et al. 2024. Strigolactones alleviate the toxicity of polystyrene nanoplastics (PS-NPs) in maize (Zea mays L.). Sci Total Environ. :doi: 10.1016/j.scitotenv.2024.170626. | | Reference: February 8th, 2024
Variation: September 1st, 2003
|
| 90 days ago | zim16 | ZIM-transcription factor 16: | | | Qiaolu Li et al. 2024. Strigolactones alleviate the toxicity of polystyrene nanoplastics (PS-NPs) in maize (Zea mays L.). Sci Total Environ. :doi: 10.1016/j.scitotenv.2024.170626. | | Reference: February 8th, 2024
Gene Product: February 24th, 2021
|
| 90 days ago | zim27 | ZIM-transcription factor 27: | | | Qiaolu Li et al. 2024. Strigolactones alleviate the toxicity of polystyrene nanoplastics (PS-NPs) in maize (Zea mays L.). Sci Total Environ. :doi: 10.1016/j.scitotenv.2024.170626. | | Reference: February 8th, 2024
Gene Product: February 24th, 2021
|
| 90 days ago | rbm48 | RNA binding motif protein 48: | | GRMZM2G163247
| Liu, Y et al. 2024. Importance of pre-mRNA splicing and its study tools in plants Adv Biotech. 2:4. | | Reference: February 8th, 2024
Gene Product: March 7th, 2019
Variation: March 7th, 2019
Gene Model: February 15th, 2019
|
| 90 days ago | rgh3 | rough endosperm3: | | GRMZM2G128228
| Liu, Y et al. 2024. Importance of pre-mRNA splicing and its study tools in plants Adv Biotech. 2:4. | | Reference: February 8th, 2024
Gene Product: December 29th, 2011
Variation: December 29th, 2011
Gene Model: April 29th, 2013
|
| 90 days ago | emp16 | empty pericarp16: | | GRMZM2G060516
| Liu, Y et al. 2024. Importance of pre-mRNA splicing and its study tools in plants Adv Biotech. 2:4. | | Reference: February 8th, 2024
Gene Product: December 27th, 2016
Variation: January 16th, 2016
Gene Model: January 16th, 2016
|
| 90 days ago | dek35 | defective kernel35: | | GRMZM2G066749
| Liu, Y et al. 2024. Importance of pre-mRNA splicing and its study tools in plants Adv Biotech. 2:4. | | Reference: February 8th, 2024
Gene Product: December 27th, 2016
Variation: September 7th, 2016
Gene Model: September 7th, 2016
|
| 90 days ago | prh7 | protein phosphatase homolog7: | | GRMZM2G082487
| Qiaolu Li et al. 2024. Strigolactones alleviate the toxicity of polystyrene nanoplastics (PS-NPs) in maize (Zea mays L.). Sci Total Environ. :doi: 10.1016/j.scitotenv.2024.170626. | | Reference: February 8th, 2024
Gene Product: October 25th, 2021
Gene Model: October 18th, 2016
|
| 90 days ago | dek37 | defective kernel37: | | GRMZM2G021319
| Liu, Y et al. 2024. Importance of pre-mRNA splicing and its study tools in plants Adv Biotech. 2:4. | | Reference: February 8th, 2024
Gene Product: December 27th, 2016
Variation: January 6th, 2018
Gene Model: January 6th, 2018
|
| 90 days ago | nad5 (mito) | NADH dehydrogenase subunit 5: | | | Liu, Y et al. 2024. Importance of pre-mRNA splicing and its study tools in plants Adv Biotech. 2:4. | | Reference: February 8th, 2024
Gene Product: September 1st, 2003
|
| 90 days ago | smk9 | small kernel9: | | GRMZM2G420723
| Liu, Y et al. 2024. Importance of pre-mRNA splicing and its study tools in plants Adv Biotech. 2:4. | | Reference: February 8th, 2024
Gene Product: December 27th, 2016
Variation: July 30th, 2019
Gene Model: July 30th, 2019
|
| 90 days ago | upl13 | ubiquitin-protein ligase13: | | GRMZM2G104920
| Chachar, Z et al. 2024. Cloned genes and genetic regulation of anthocyanin biosynthesis in maize, a comparative review. Frontiers in Plant Science. 15:1310634. | AT2G32950 (TAIR) | Reference: February 8th, 2024
Gene Product: March 26th, 2020
Variation: July 7th, 2023
Gene Model: March 26th, 2020
|
| 90 days ago | emp32 | empty pericarp32: | | GRMZM2G089959
| Liu, Y et al. 2024. Importance of pre-mRNA splicing and its study tools in plants Adv Biotech. 2:4. | At5g57250 (TAIR) | Reference: February 8th, 2024
Gene Product: December 27th, 2016
Variation: September 17th, 2020
Gene Model: June 12th, 2020
|
| 90 days ago | flr1 | feronia-like receptor1: | | GRMZM2G006080
| Chengxiu Wu et al. 2024. Multi-omics assists genomic prediction of maize yield with machine learning approaches Mol Breed. 44:14. | AT3G51550 (TAIR) | Reference: February 8th, 2024
Gene Product: July 10th, 2019
Gene Model: December 17th, 2020
|
| 90 days ago | emp603 | empty pericarp603: | | GRMZM2G069078
| Liu, Y et al. 2024. Importance of pre-mRNA splicing and its study tools in plants Adv Biotech. 2:4. | | Reference: February 8th, 2024
Gene Product: December 27th, 2016
Variation: July 19th, 2021
Gene Model: July 19th, 2021
|
| 90 days ago | ppr405 | pentatricopeptide repeat protein405: | 7.04 | GRMZM2G158452
| Liu, Y et al. 2024. Importance of pre-mRNA splicing and its study tools in plants Adv Biotech. 2:4. | | Reference: February 8th, 2024
Gene Product: December 27th, 2016
Variation: July 29th, 2019
Gene Model: July 29th, 2019
|
| 90 days ago | gols3 | galactinol synthase3: | 9.04 | GRMZM5G872256
| Chengxiu Wu et al. 2024. Multi-omics assists genomic prediction of maize yield with machine learning approaches Mol Breed. 44:14. | | Reference: February 8th, 2024
Gene Product: March 1st, 2018
Variation: January 26th, 2010
Gene Model: December 24th, 2015
|
| 90 days ago | nad2(mtNB) | NADH dehydrogenase subunit 2: | | GRMZM5G840559
| Liu, Y et al. 2024. Importance of pre-mRNA splicing and its study tools in plants Adv Biotech. 2:4. | | Reference: February 8th, 2024
Gene Product: March 22nd, 2022
Gene Model: June 12th, 2020
|
| 90 days ago | nad4(mtNB) | NADH dehydrogenase subunit 4: | | GRMZM5G804358
| Liu, Y et al. 2024. Importance of pre-mRNA splicing and its study tools in plants Adv Biotech. 2:4. | | Reference: February 8th, 2024
Gene Product: September 1st, 2003
Gene Model: June 12th, 2020
|
| 90 days ago | nad7(mtNB) | NADH dehydrogenase subunit 7: | | | Liu, Y et al. 2024. Importance of pre-mRNA splicing and its study tools in plants Adv Biotech. 2:4. | | Reference: February 8th, 2024
Gene Product: March 22nd, 2022
|
| 91 days ago | GRMZM2G370928 | : | | | Jinyao Zhang et al. 2024. Involvement of reactive oxygen species in zinc-deficiency induced inhibition of crown root growth in maize plant Plant Soil. :doi: 10.1007/s11104-024-06529-6. | | Reference: February 7th, 2024
Gene Product: September 18th, 2015
|
| 91 days ago | elfa10 | elongation factor 1-alpha10: | | GRMZM2G343543
| Jinyao Zhang et al. 2024. Involvement of reactive oxygen species in zinc-deficiency induced inhibition of crown root growth in maize plant Plant Soil. :doi: 10.1007/s11104-024-06529-6. | | Reference: February 7th, 2024
Gene Product: September 1st, 2003
Variation: April 14th, 2014
Gene Model: July 27th, 2016
|
| 91 days ago | gst58 | glutathione S-transferase58: | 1.01 | GRMZM2G096247
| Jinyao Zhang et al. 2024. Involvement of reactive oxygen species in zinc-deficiency induced inhibition of crown root growth in maize plant Plant Soil. :doi: 10.1007/s11104-024-06529-6. | | Reference: February 7th, 2024
Gene Product: September 1st, 2003
Variation: August 9th, 2010
Gene Model: April 18th, 2017
|
| 91 days ago | tufm1 | elongation factor TU mitochondrial1: | 1.12 | GRMZM2G022269
| Jinyao Zhang et al. 2024. Involvement of reactive oxygen species in zinc-deficiency induced inhibition of crown root growth in maize plant Plant Soil. :doi: 10.1007/s11104-024-06529-6. | | Reference: February 7th, 2024
Gene Product: September 1st, 2003
Variation: February 9th, 2015
Gene Model: February 9th, 2015
|
| 91 days ago | expb8 | beta expansin8: | 9.04 | GRMZM2G013002
| Jinyao Zhang et al. 2024. Involvement of reactive oxygen species in zinc-deficiency induced inhibition of crown root growth in maize plant Plant Soil. :doi: 10.1007/s11104-024-06529-6. | | Reference: February 7th, 2024
Gene Product: March 12th, 2008
Gene Model: March 2nd, 2016
|
| 91 days ago | aox2 | alternative oxidase2: | | GRMZM2G125669
| Jinyao Zhang et al. 2024. Involvement of reactive oxygen species in zinc-deficiency induced inhibition of crown root growth in maize plant Plant Soil. :doi: 10.1007/s11104-024-06529-6. | | Reference: February 7th, 2024
Gene Product: June 15th, 2023
Variation: March 1st, 2012
Gene Model: February 17th, 2012
|
| 91 days ago | ptac14 | plastid transcriptionally active14: | | GRMZM5G807767
| Shaoxiong Li et al. 2024. Utilizing Two Populations Derived from Tropical Maize for Genome-Wide Association Analysis of Banded Leaf and Sheath Blight Resistance Plants. 13:456. | | Reference: February 7th, 2024
Gene Product: December 21st, 2022
Variation: May 21st, 2017
Gene Model: February 17th, 2015
|
| 91 days ago | yuc4 | Yucca4: | | GRMZM2G141383
| Fang, X et al. 2024. The WRKY transcription factor ZmWRKY92 binds to GA synthesis-related genes to regulate maize plant height Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2024.108422. | | Reference: February 7th, 2024
Gene Product: June 18th, 2018
Gene Model: June 17th, 2016
|
| 91 days ago | cyp23 | cytochrome P-450 23: | | GRMZM2G018612
| Fang, X et al. 2024. The WRKY transcription factor ZmWRKY92 binds to GA synthesis-related genes to regulate maize plant height Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2024.108422. | | Reference: February 7th, 2024
Gene Product: December 30th, 2022
Gene Model: February 27th, 2018
|
| 91 days ago | apx6 | ascorbate peroxidase6: | | GRMZM2G004211
| Jinyao Zhang et al. 2024. Involvement of reactive oxygen species in zinc-deficiency induced inhibition of crown root growth in maize plant Plant Soil. :doi: 10.1007/s11104-024-06529-6. | | Reference: February 7th, 2024
Gene Product: October 15th, 2020
Gene Model: October 15th, 2020
|
| 91 days ago | ga20ox8 | gibberellin 20-oxidase8: | | GRMZM2G002704
| Fang, X et al. 2024. The WRKY transcription factor ZmWRKY92 binds to GA synthesis-related genes to regulate maize plant height Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2024.108422. | | Reference: February 7th, 2024
Gene Product: October 28th, 2014
Gene Model: May 8th, 2021
|
| 91 days ago | ppr435 | pentatricopeptide repeat435: | | GRMZM2G017821
| Wang, Y et al. 2024. Multiple factors interact in the editing of the PPR-E+ targeted sites in maize mitochondria and plastids Plant Commun. :doi: 10.1016/j.xplc.2024.100836. | | Reference: February 7th, 2024
Gene Product: December 27th, 2016
Gene Model: July 21st, 2021
|
| 91 days ago | saur6 | small auxin up RNA6: | | GRMZM2G059138
| Fang, X et al. 2024. The WRKY transcription factor ZmWRKY92 binds to GA synthesis-related genes to regulate maize plant height Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2024.108422. | | Reference: February 7th, 2024
Gene Product: November 26th, 2021
Gene Model: November 26th, 2021
|
| 91 days ago | nuwa1 | nuwa ortholog1: | | GRMZM2G074599
| Wang, Y et al. 2024. Multiple factors interact in the editing of the PPR-E+ targeted sites in maize mitochondria and plastids Plant Commun. :doi: 10.1016/j.xplc.2024.100836. | AT3G49240 (TAIR) | Reference: February 7th, 2024
Gene Product: December 27th, 2016
Gene Model: March 4th, 2022
|
| 91 days ago | dyw1 | dyw domain-type ppr protein1: | | GRMZM2G073551
| Wang, Y et al. 2024. Multiple factors interact in the editing of the PPR-E+ targeted sites in maize mitochondria and plastids Plant Commun. :doi: 10.1016/j.xplc.2024.100836. | AT2G15690 (TAIR) | Reference: February 7th, 2024
Gene Product: December 27th, 2016
Gene Model: March 4th, 2022
|
| 91 days ago | orrm1 | organelle RRM protein1: | 5.06 | GRMZM5G899787
| Wang, Y et al. 2024. Multiple factors interact in the editing of the PPR-E+ targeted sites in maize mitochondria and plastids Plant Commun. :doi: 10.1016/j.xplc.2024.100836. | AT3G20930 (TAIR) | Reference: February 7th, 2024
Gene Product: April 11th, 2013
Variation: April 12th, 2013
Gene Model: April 11th, 2013
|
| 91 days ago | oz1 | organelle zinc finger otholog1: | 8.08 | GRMZM2G069106
| Wang, Y et al. 2024. Multiple factors interact in the editing of the PPR-E+ targeted sites in maize mitochondria and plastids Plant Commun. :doi: 10.1016/j.xplc.2024.100836. | AT5G17790 (TAIR) | Reference: February 7th, 2024
Gene Product: February 7th, 2024
Gene Model: June 17th, 2022
|
| 91 days ago | IDP3776 | : | 7.00 | GRMZM2G108637
| Jinyao Zhang et al. 2024. Involvement of reactive oxygen species in zinc-deficiency induced inhibition of crown root growth in maize plant Plant Soil. :doi: 10.1007/s11104-024-06529-6. | | Reference: February 7th, 2024
Variation: March 31st, 2005
Gene Model: July 4th, 2021
|
| 91 days ago | morf8 | multiple organelle RNA editing factor8: | 9.07 | GRMZM2G169384
| Wang, Y et al. 2024. Multiple factors interact in the editing of the PPR-E+ targeted sites in maize mitochondria and plastids Plant Commun. :doi: 10.1016/j.xplc.2024.100836. | | Reference: February 7th, 2024
Variation: March 31st, 2005
Gene Model: January 24th, 2019
|
| 3 months ago | idd8 | indeterminate domain8: | | | Silvia Calderone et al. 2024. Diverging cell wall strategies for drought adaptation in two maize inbreds with contrasting lodging resistance Plant Cell Environ. | | Reference: February 6th, 2024
Gene Product: January 3rd, 2015
|
| 3 months ago | dnaJ38 | DnaJ/Hsp40 38: | | | Jiajie Wang et al. 2024. Integration of the Metabolome and Transcriptome Reveals Diurnal Variability in the Effects of Melatonin on Salt Tolerance in Maize Seedlings J Plant Growth Reg. :doi: 10.1007/s00344-023-11213-7. | | Reference: February 6th, 2024
Gene Product: September 1st, 2003
|
| 3 months ago | pub59 | plant U-box type E3 ubiquitin ligase59: | | | Jiajie Wang et al. 2024. Integration of the Metabolome and Transcriptome Reveals Diurnal Variability in the Effects of Melatonin on Salt Tolerance in Maize Seedlings J Plant Growth Reg. :doi: 10.1007/s00344-023-11213-7. | | Reference: February 6th, 2024
Gene Product: February 1st, 2024
|
| 3 months ago | pub83 | plant U-box type E3 ubiquitin ligase83: | | | Jiajie Wang et al. 2024. Integration of the Metabolome and Transcriptome Reveals Diurnal Variability in the Effects of Melatonin on Salt Tolerance in Maize Seedlings J Plant Growth Reg. :doi: 10.1007/s00344-023-11213-7. | | Reference: February 6th, 2024
Gene Product: February 1st, 2024
|
| 3 months ago | camta3 | CAMTA-transcription factor 3: | 3.05 | GRMZM2G171600
| Jiajie Wang et al. 2024. Integration of the Metabolome and Transcriptome Reveals Diurnal Variability in the Effects of Melatonin on Salt Tolerance in Maize Seedlings J Plant Growth Reg. :doi: 10.1007/s00344-023-11213-7. | | Reference: February 6th, 2024
Variation: September 25th, 2007
Gene Model: August 20th, 2021
|
| 3 months ago | myb89 | MYB-transcription factor 89: | 5.05 | GRMZM2G040924
| Silvia Calderone et al. 2024. Diverging cell wall strategies for drought adaptation in two maize inbreds with contrasting lodging resistance Plant Cell Environ. | | Reference: February 6th, 2024
Gene Product: July 25th, 2017
Variation: September 25th, 2007
Gene Model: August 28th, 2021
|
| 3 months ago | gbf1 | G-box binding factor1: | 6.07 | GRMZM2G011932
| Silvia Calderone et al. 2024. Diverging cell wall strategies for drought adaptation in two maize inbreds with contrasting lodging resistance Plant Cell Environ. | | Reference: February 6th, 2024
Gene Product: September 1st, 2003
Variation: December 7th, 2012
Gene Model: July 27th, 2016
|
| 3 months ago | amyb2 | beta amylase2: | 5.03 - 5.04 | GRMZM2G450125
| Jiajie Wang et al. 2024. Integration of the Metabolome and Transcriptome Reveals Diurnal Variability in the Effects of Melatonin on Salt Tolerance in Maize Seedlings J Plant Growth Reg. :doi: 10.1007/s00344-023-11213-7. | | Reference: February 6th, 2024
Gene Product: February 26th, 2021
Variation: September 23rd, 2013
Gene Model: July 27th, 2016
|
| 3 months ago | vp1 | viviparous1: | 3.05 | | Silvia Calderone et al. 2024. Diverging cell wall strategies for drought adaptation in two maize inbreds with contrasting lodging resistance Plant Cell Environ. | | Reference: February 6th, 2024
Gene Product: January 29th, 2022
Variation: August 22nd, 2013
|
| 3 months ago | umc1217 | : | | GRMZM2G001375
| Jiajie Wang et al. 2024. Integration of the Metabolome and Transcriptome Reveals Diurnal Variability in the Effects of Melatonin on Salt Tolerance in Maize Seedlings J Plant Growth Reg. :doi: 10.1007/s00344-023-11213-7. | | Reference: February 6th, 2024
Variation: September 1st, 2003
Gene Model: April 12th, 2020
|
| 3 months ago | myb31 | MYB31 transcription factor31: | | GRMZM5G892094
| Silvia Calderone et al. 2024. Diverging cell wall strategies for drought adaptation in two maize inbreds with contrasting lodging resistance Plant Cell Environ. | LOC_Os09g36730 (MSU/TIGR) | Reference: February 6th, 2024
Gene Product: February 16th, 2011
Variation: May 6th, 2011
Gene Model: March 2nd, 2021
|
| 3 months ago | abh5 | abscisic acid 8'-hydroxylase5: | | GRMZM2G002142
| Jiajie Wang et al. 2024. Integration of the Metabolome and Transcriptome Reveals Diurnal Variability in the Effects of Melatonin on Salt Tolerance in Maize Seedlings J Plant Growth Reg. :doi: 10.1007/s00344-023-11213-7. | | Reference: February 6th, 2024
Gene Product: February 15th, 2013
Gene Model: February 15th, 2013
|
| 3 months ago | abi19 | ABI3-VP1-transcription factor 19: | | | Silvia Calderone et al. 2024. Diverging cell wall strategies for drought adaptation in two maize inbreds with contrasting lodging resistance Plant Cell Environ. | | Reference: February 6th, 2024
Gene Product: January 29th, 2022
Variation: November 27th, 2020
|
| 3 months ago | jmj16 | JUMONJI-transcription factor 16: | | | Jiajie Wang et al. 2024. Integration of the Metabolome and Transcriptome Reveals Diurnal Variability in the Effects of Melatonin on Salt Tolerance in Maize Seedlings J Plant Growth Reg. :doi: 10.1007/s00344-023-11213-7. | | Reference: February 6th, 2024
Gene Product: April 3rd, 2019
|
| 3 months ago | zim23 | ZIM-transcription factor 23: | | | Jiajie Wang et al. 2024. Integration of the Metabolome and Transcriptome Reveals Diurnal Variability in the Effects of Melatonin on Salt Tolerance in Maize Seedlings J Plant Growth Reg. :doi: 10.1007/s00344-023-11213-7. | | Reference: February 6th, 2024
Gene Product: February 24th, 2021
|
| 3 months ago | obf1 | octopine synthase binding factor1: | 1.05 | GRMZM2G479885
| Silvia Calderone et al. 2024. Diverging cell wall strategies for drought adaptation in two maize inbreds with contrasting lodging resistance Plant Cell Environ. | | Reference: February 6th, 2024
Gene Product: September 1st, 2003
Variation: June 29th, 2012
Gene Model: July 28th, 2016
|
| 3 months ago | myb19 | MYB-transcription factor 19: | 4.06 | GRMZM5G833253
| Silvia Calderone et al. 2024. Diverging cell wall strategies for drought adaptation in two maize inbreds with contrasting lodging resistance Plant Cell Environ. | | Reference: February 6th, 2024
Gene Product: July 25th, 2017
Variation: September 1st, 2003
Gene Model: May 30th, 2018
|
| 3 months ago | ipt5 | isopentenyl transferase5: | 5.01 | AC210013.4_FG005
| Jiajie Wang et al. 2024. Integration of the Metabolome and Transcriptome Reveals Diurnal Variability in the Effects of Melatonin on Salt Tolerance in Maize Seedlings J Plant Growth Reg. :doi: 10.1007/s00344-023-11213-7. | | Reference: February 6th, 2024
Gene Product: March 19th, 2014
Variation: September 1st, 2003
Gene Model: March 23rd, 2017
|
| 3 months ago | hex7 | hexokinase7: | | GRMZM2G051806
| Jiajie Wang et al. 2024. Integration of the Metabolome and Transcriptome Reveals Diurnal Variability in the Effects of Melatonin on Salt Tolerance in Maize Seedlings J Plant Growth Reg. :doi: 10.1007/s00344-023-11213-7. | | Reference: February 6th, 2024
Gene Product: September 15th, 2013
Gene Model: September 15th, 2013
|
| 3 months ago | bbi1 | bowman-birk inhibitor1: | | GRMZM2G007928
| Jiajie Wang et al. 2024. Integration of the Metabolome and Transcriptome Reveals Diurnal Variability in the Effects of Melatonin on Salt Tolerance in Maize Seedlings J Plant Growth Reg. :doi: 10.1007/s00344-023-11213-7. | | Reference: February 6th, 2024
Gene Product: May 30th, 2014
Variation: May 30th, 2014
Gene Model: May 30th, 2014
|
| 3 months ago | prh3 | protein phosphatase homolog3: | | GRMZM2G059453
| Jiajie Wang et al. 2024. Integration of the Metabolome and Transcriptome Reveals Diurnal Variability in the Effects of Melatonin on Salt Tolerance in Maize Seedlings J Plant Growth Reg. :doi: 10.1007/s00344-023-11213-7. | | Reference: February 6th, 2024
Gene Product: October 25th, 2021
Gene Model: October 18th, 2016
|
| 3 months ago | prh4 | protein phosphatase homolog4: | | GRMZM2G166297
| Jiajie Wang et al. 2024. Integration of the Metabolome and Transcriptome Reveals Diurnal Variability in the Effects of Melatonin on Salt Tolerance in Maize Seedlings J Plant Growth Reg. :doi: 10.1007/s00344-023-11213-7. | | Reference: February 6th, 2024
Gene Product: October 25th, 2021
Gene Model: October 18th, 2016
|
| 3 months ago | arm11 | armadillo domain protein11: | | GRMZM2G315431
| Jiajie Wang et al. 2024. Integration of the Metabolome and Transcriptome Reveals Diurnal Variability in the Effects of Melatonin on Salt Tolerance in Maize Seedlings J Plant Growth Reg. :doi: 10.1007/s00344-023-11213-7. | | Reference: February 6th, 2024
Gene Product: February 1st, 2021
Gene Model: February 7th, 2017
|
| 3 months ago | saur19 | small auxin up RNA19: | | GRMZM2G429254
| Jiajie Wang et al. 2024. Integration of the Metabolome and Transcriptome Reveals Diurnal Variability in the Effects of Melatonin on Salt Tolerance in Maize Seedlings J Plant Growth Reg. :doi: 10.1007/s00344-023-11213-7. | | Reference: February 6th, 2024
Gene Product: November 26th, 2021
Gene Model: November 26th, 2021
|
| 3 months ago | tsah1 | tryptophan synthase A homolog1: | 1.11 | GRMZM2G046163
| Jiajie Wang et al. 2024. Integration of the Metabolome and Transcriptome Reveals Diurnal Variability in the Effects of Melatonin on Salt Tolerance in Maize Seedlings J Plant Growth Reg. :doi: 10.1007/s00344-023-11213-7. | | Reference: February 6th, 2024
Gene Product: October 14th, 2011
Variation: April 25th, 2023
Gene Model: September 10th, 2018
|
| 3 months ago | mybst1 | single-repeat Myb protein1: | 9.04 | GRMZM2G034110
| Silvia Calderone et al. 2024. Diverging cell wall strategies for drought adaptation in two maize inbreds with contrasting lodging resistance Plant Cell Environ. | | Reference: February 6th, 2024
Gene Product: December 24th, 2015
Variation: January 26th, 2010
Gene Model: December 24th, 2015
|
| 3 months ago | dbf1 | DRE-binding protein 1: | 1.07 | GRMZM2G061487
| Jiajie Wang et al. 2024. Integration of the Metabolome and Transcriptome Reveals Diurnal Variability in the Effects of Melatonin on Salt Tolerance in Maize Seedlings J Plant Growth Reg. :doi: 10.1007/s00344-023-11213-7. | | Reference: February 6th, 2024
Gene Product: April 10th, 2013
Variation: July 27th, 2005
Gene Model: July 27th, 2016
|
| 3 months ago | iddp1 | indeterminate domain p1: | 1.08 | GRMZM2G179677
| Silvia Calderone et al. 2024. Diverging cell wall strategies for drought adaptation in two maize inbreds with contrasting lodging resistance Plant Cell Environ. | | Reference: February 6th, 2024
Gene Product: January 3rd, 2015
Gene Model: January 3rd, 2015
|
| 3 months ago | znf13 | zinc finger protein13: | 2.07 | GRMZM2G134334
| Jiajie Wang et al. 2024. Integration of the Metabolome and Transcriptome Reveals Diurnal Variability in the Effects of Melatonin on Salt Tolerance in Maize Seedlings J Plant Growth Reg. :doi: 10.1007/s00344-023-11213-7. | | Reference: February 6th, 2024
Gene Product: November 14th, 2022
Gene Model: March 2nd, 2021
|
| 3 months ago | remo4 | remorin4: | 7.04 | GRMZM2G081949
| Wu, FK et al. 2024. ZmARF1 positively regulates low phosphorus stress tolerance via modulating lateral root development in maize PLoS Genetics. :doi: 10.1371/journal.pgen.1011135. | | Reference: February 5th, 2024
Variation: September 1st, 2003
Gene Model: September 11th, 2018
|
| 3 months ago | umc1052 | : | 3.09 | GRMZM2G071154
| Wu, FK et al. 2024. ZmARF1 positively regulates low phosphorus stress tolerance via modulating lateral root development in maize PLoS Genetics. :doi: 10.1371/journal.pgen.1011135. | | Reference: February 5th, 2024
Variation: March 18th, 2021
Gene Model: March 4th, 2021
|
| 3 months ago | arftf1 | ARF-transcription factor 1: | | | Wu, FK et al. 2024. ZmARF1 positively regulates low phosphorus stress tolerance via modulating lateral root development in maize PLoS Genetics. :doi: 10.1371/journal.pgen.1011135. | | Reference: February 5th, 2024
Gene Product: January 29th, 2022
|
| 3 months ago | umc2181 | : | 1.08 | GRMZM2G008290
| Wu, FK et al. 2024. ZmARF1 positively regulates low phosphorus stress tolerance via modulating lateral root development in maize PLoS Genetics. :doi: 10.1371/journal.pgen.1011135. | | Reference: February 5th, 2024
Variation: January 4th, 2017
Gene Model: January 4th, 2017
|
| 3 months ago | uce10 | ubiquitin conjugating enzyme10: | 6.07 | GRMZM2G085849
| Wu, FK et al. 2024. ZmARF1 positively regulates low phosphorus stress tolerance via modulating lateral root development in maize PLoS Genetics. :doi: 10.1371/journal.pgen.1011135. | AT2G33770 (TAIR) | Reference: February 5th, 2024
Gene Product: December 19th, 2019
Variation: July 29th, 2004
Gene Model: August 29th, 2018
|
| 3 months ago | spms1 | spermine synthase1: | | GRMZM2G047867
| Wu, FK et al. 2024. ZmARF1 positively regulates low phosphorus stress tolerance via modulating lateral root development in maize PLoS Genetics. :doi: 10.1371/journal.pgen.1011135. | | Reference: February 5th, 2024
Gene Product: June 19th, 2020
Gene Model: June 19th, 2020
|
| 3 months ago | sid1 | sister of indeterminate spikelet1: | | GRMZM2G176175
| Lindsay, PL et al. 2024. Cultivating potential: Harnessing plant stem cells for agricultural crop improvement. Molecular Plant. 17:50-74. | | Reference: February 3rd, 2024
Gene Product: July 5th, 2019
Variation: October 17th, 2014
Gene Model: October 16th, 2014
|
| 3 months ago | bd1 | branched silkless1: | 7.05 | GRMZM2G307119
| Lindsay, PL et al. 2024. Cultivating potential: Harnessing plant stem cells for agricultural crop improvement. Molecular Plant. 17:50-74. | At5g18560 (TAIR)
LOC_Os01g21820 (MSU/TIGR)
Os07g0669500 (Gramene) | Reference: February 3rd, 2024
Gene Product: July 27th, 2009
Variation: August 13th, 2011
Gene Model: July 14th, 2011
|
| 3 months ago | cg1 | corngrass1: | 3.02 | GRMZM2G022489
| Lindsay, PL et al. 2024. Cultivating potential: Harnessing plant stem cells for agricultural crop improvement. Molecular Plant. 17:50-74. | | Reference: February 3rd, 2024
Gene Product: June 17th, 2016
Variation: August 25th, 2011
Gene Model: April 5th, 2013
|
| 3 months ago | gt1 | grassy tillers1: | 1.04 | GRMZM2G005624
| Lindsay, PL et al. 2024. Cultivating potential: Harnessing plant stem cells for agricultural crop improvement. Molecular Plant. 17:50-74. | | Reference: February 3rd, 2024
Gene Product: March 5th, 2012
Variation: December 14th, 2023
Gene Model: March 5th, 2012
|
| 3 months ago | ts6 | tasselseed6: | 1.11 | GRMZM5G862109
| Lindsay, PL et al. 2024. Cultivating potential: Harnessing plant stem cells for agricultural crop improvement. Molecular Plant. 17:50-74. | | Reference: February 3rd, 2024
Gene Product: July 5th, 2019
Variation: December 4th, 2013
Gene Model: July 14th, 2011
|
| 3 months ago | tsh4 | tassel sheath4: | 7.03 | GRMZM2G307588
| Lindsay, PL et al. 2024. Cultivating potential: Harnessing plant stem cells for agricultural crop improvement. Molecular Plant. 17:50-74. | | Reference: February 3rd, 2024
Gene Product: July 5th, 2019
Variation: October 8th, 2011
Gene Model: October 6th, 2011
|
| 3 months ago | tcptf30 | TCP-transcription factor 30: | | | Lindsay, PL et al. 2024. Cultivating potential: Harnessing plant stem cells for agricultural crop improvement. Molecular Plant. 17:50-74. | | Reference: February 3rd, 2024
Gene Product: September 27th, 2019
|
| 3 months ago | fea3 | fasciated ear3: | | GRMZM2G166524
| Lindsay, PL et al. 2024. Cultivating potential: Harnessing plant stem cells for agricultural crop improvement. Molecular Plant. 17:50-74. | At3g25670 (TAIR)
LOC_Os01g02060 (MSU/TIGR) | Reference: February 3rd, 2024
Gene Product: February 1st, 2023
Variation: May 18th, 2016
Gene Model: May 18th, 2016
|
| 3 months ago | krn4 | kernel row number4: | | GRMZM2G001541
| Lindsay, PL et al. 2024. Cultivating potential: Harnessing plant stem cells for agricultural crop improvement. Molecular Plant. 17:50-74. | | Reference: February 3rd, 2024
Variation: April 24th, 2020
Gene Model: August 11th, 2021
|
| 3 months ago | tin1 | tiller number1: | | GRMZM2G059088
| Lindsay, PL et al. 2024. Cultivating potential: Harnessing plant stem cells for agricultural crop improvement. Molecular Plant. 17:50-74. | | Reference: February 3rd, 2024
Gene Product: November 14th, 2022
Variation: December 6th, 2019
Gene Model: December 6th, 2019
|
| 3 months ago | acco2 | 1-aminocyclopropane-1-carboxylate oxidase2: | 7.02 | GRMZM2G007249
| Lindsay, PL et al. 2024. Cultivating potential: Harnessing plant stem cells for agricultural crop improvement. Molecular Plant. 17:50-74. | | Reference: February 3rd, 2024
Gene Product: May 16th, 2016
Variation: October 5th, 2021
Gene Model: May 16th, 2016
|
| 3 months ago | pub54 | plant U-box type E3 ubiquitin ligase54: | | | Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2024
|
| 3 months ago | pub10 | plant U-box type E3 ubiquitin ligase10: | | | Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2024
|
| 3 months ago | arm1 | armadillo domain protein1: | | | Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2021
|
| 3 months ago | arm5 | armadillo domain protein5: | | | Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2021
|
| 3 months ago | arm6 | armadillo domain protein6: | | | Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2021
|
| 3 months ago | arm8 | armadillo domain protein8: | | | Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2021
|
| 3 months ago | arm9 | armadillo domain protein9: | | | Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2021
|
| 3 months ago | arm10 | armadillo domain protein10: | | | Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2021
|
| 3 months ago | arm12 | armadillo domain protein12: | | | Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2021
|
| 3 months ago | arm13 | armadillo domain protein13: | | | Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2021
|
| 3 months ago | arm14 | armadillo domain protein14: | | | Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2021
|
| 3 months ago | arm15 | armadillo domain protein15: | | | Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2021
|
| 3 months ago | arm16 | armadillo domain protein16: | | | Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2021
|
| 3 months ago | arm22 | armadillo domain protein22: | | | Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2021
|
| 3 months ago | arm47 | armadillo domain protein47: | | | Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2021
|
| 3 months ago | arm53 | armadillo domain protein53: | | | Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2021
|
| 3 months ago | pub46 | plant U-box type E3 ubiquitin ligase46: | | | Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2024
|
| 3 months ago | pub1 | plant U-box type E3 ubiquitin ligase1: | | | Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2024
|
| 3 months ago | pub3 | plant U-box type E3 ubiquitin ligase3: | | | Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2024
|
| 3 months ago | pub4 | plant U-box type E3 ubiquitin ligase4: | | | Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2024
|
| 3 months ago | pub6 | plant U-box type E3 ubiquitin ligase6: | | | Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2024
|
| 3 months ago | pub13 | plant U-box type E3 ubiquitin ligase13: | | | Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2024
|
| 3 months ago | pub14 | plant U-box type E3 ubiquitin ligase14: | | | Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2024
|
| 3 months ago | pub15 | plant U-box type E3 ubiquitin ligase15: | | | Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2024
|
| 3 months ago | pub16 | plant U-box type E3 ubiquitin ligase16: | | | Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2024
|
| 3 months ago | pub17 | plant U-box type E3 ubiquitin ligase17: | | | Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2024
|
| 3 months ago | pub18 | plant U-box type E3 ubiquitin ligase18: | | | Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2024
|
| 3 months ago | pub19 | plant U-box type E3 ubiquitin ligase19: | | | Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2024
|
| 3 months ago | pub21 | plant U-box type E3 ubiquitin ligase21: | | | Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2024
|
| 3 months ago | pub23 | plant U-box type E3 ubiquitin ligase23: | | | Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2024
|
| 3 months ago | pub26 | plant U-box type E3 ubiquitin ligase26: | | | Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2024
|
| 3 months ago | pub27 | plant U-box type E3 ubiquitin ligase27: | | | Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2024
|
| 3 months ago | pub28 | plant U-box type E3 ubiquitin ligase28: | | | Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2024
|
| 3 months ago | pub29 | plant U-box type E3 ubiquitin ligase29: | | | Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2024
|
| 3 months ago | pub31 | plant U-box type E3 ubiquitin ligase31: | | | Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2024
|
| 3 months ago | pub32 | plant U-box type E3 ubiquitin ligase32: | | | Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2024
|
| 3 months ago | pub35 | plant U-box type E3 ubiquitin ligase35: | | | Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2024
|
| 3 months ago | pub36 | plant U-box type E3 ubiquitin ligase36: | | | Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2024
|
| 3 months ago | pub38 | plant U-box type E3 ubiquitin ligase38: | | | Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2024
|
| 3 months ago | pub42 | plant U-box type E3 ubiquitin ligase42: | | | Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2024
|
| 3 months ago | pub43 | plant U-box type E3 ubiquitin ligase43: | | | Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2024
|
| 3 months ago | pub44 | plant U-box type E3 ubiquitin ligase44: | | | Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2024
|
| 3 months ago | pub45 | plant U-box type E3 ubiquitin ligase45: | | | Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2024
|
| 3 months ago | pub48 | plant U-box type E3 ubiquitin ligase48: | | | Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2024
|
| 3 months ago | pub49 | plant U-box type E3 ubiquitin ligase49: | | | Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2024
|
| 3 months ago | pub50 | plant U-box type E3 ubiquitin ligase50: | | | Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2024
|
| 3 months ago | pub51 | plant U-box type E3 ubiquitin ligase51: | | | Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2024
|
| 3 months ago | pub53 | plant U-box type E3 ubiquitin ligase53: | | | Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2024
|
| 3 months ago | pub56 | plant U-box type E3 ubiquitin ligase56: | | | Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2024
|
| 3 months ago | pub57 | plant U-box type E3 ubiquitin ligase57: | | | Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2024
|
| 3 months ago | pub58 | plant U-box type E3 ubiquitin ligase58: | | | Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2024
|
| 3 months ago | pub62 | plant U-box type E3 ubiquitin ligase62: | | | Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2024
|
| 3 months ago | pub65 | plant U-box type E3 ubiquitin ligase65: | | | Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2024
|
| 3 months ago | pub66 | plant U-box type E3 ubiquitin ligase66: | | | Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2024
|
| 3 months ago | pub67 | plant U-box type E3 ubiquitin ligase67: | | | Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2024
|
| 3 months ago | pub69 | plant U-box type E3 ubiquitin ligase69: | | | Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2024
|
| 3 months ago | pub73 | plant U-box type E3 ubiquitin ligase73: | | | Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2024
|
| 3 months ago | pub74 | plant U-box type E3 ubiquitin ligase74: | | | Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2024
|
| 3 months ago | pub76 | plant U-box type E3 ubiquitin ligase76: | | | Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2024
|
| 3 months ago | pub81 | plant U-box type E3 ubiquitin ligase81: | | | Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2024
|
| 3 months ago | pub85 | plant U-box type E3 ubiquitin ligase85: | | | Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2024
|
| 3 months ago | arm54 | armadillo domain protein54: | 2.06 | GRMZM2G425965
| Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2021
Gene Model: March 20th, 2020
|
| 3 months ago | pza01677 | : | 10.03 | | Zhang, YQ et al. 2024. Readthrough events in plants reveal plasticity of stop codons. Cell Reports. 43:113723. | | Reference: February 2nd, 2024
Variation: November 8th, 2017
|
| 3 months ago | pub61 | plant U-box type E3 ubiquitin ligase61: | 9.03 | | Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2024
|
| 3 months ago | pub70 | plant U-box type E3 ubiquitin ligase70: | 1.05 | GRMZM2G373329
| Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2024
Gene Model: March 28th, 2021
|
| 3 months ago | pub33 | plant U-box type E3 ubiquitin ligase33: | 7.02 | GRMZM2G092550
| Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2024
Gene Model: July 6th, 2021
|
| 3 months ago | pub30 | plant U-box type E3 ubiquitin ligase30: | 9.04 | GRMZM2G075104
| Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2024
Gene Model: July 5th, 2021
|
| 3 months ago | lrp1 | lateral root primordia1: | | | Tanya Singh et al. 2024. Paenibacillus lentimorbus alleviates nutrient deficiency-induced stress in Zea mays by modulating root system architecture, auxin signaling, and metabolic pathways. Plant Cell Rep. 43:49. | AT5G12330 (TAIR) | Reference: February 2nd, 2024
Gene Product: April 27th, 2015
|
| 3 months ago | pub52 | plant U-box type E3 ubiquitin ligase52: | 3.01 | GRMZM2G153127
| Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2024
Variation: September 1st, 2003
Gene Model: March 1st, 2017
|
| 3 months ago | pub60 | plant U-box type E3 ubiquitin ligase60: | 10.03 | GRMZM2G304010
| Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2024
Variation: September 1st, 2003
Gene Model: October 22nd, 2018
|
| 3 months ago | rth1 | roothair defective1: | 1.09 | | Tanya Singh et al. 2024. Paenibacillus lentimorbus alleviates nutrient deficiency-induced stress in Zea mays by modulating root system architecture, auxin signaling, and metabolic pathways. Plant Cell Rep. 43:49. | | Reference: February 2nd, 2024
Variation: April 2nd, 2007
|
| 3 months ago | rth3 | roothair defective3: | 1.03 | | Tanya Singh et al. 2024. Paenibacillus lentimorbus alleviates nutrient deficiency-induced stress in Zea mays by modulating root system architecture, auxin signaling, and metabolic pathways. Plant Cell Rep. 43:49. | | Reference: February 2nd, 2024
Gene Product: March 31st, 2021
Variation: June 30th, 2012
|
| 3 months ago | chr124 | chromatin complex subunit A: | 1.08 | GRMZM2G435541
| Zhang, YQ et al. 2024. Readthrough events in plants reveal plasticity of stop codons. Cell Reports. 43:113723. | | Reference: February 2nd, 2024
Variation: September 1st, 2003
Gene Model: July 27th, 2016
|
| 3 months ago | impb15 | importin beta15: | 1.12 | GRMZM2G167031
| Zhang, YQ et al. 2024. Readthrough events in plants reveal plasticity of stop codons. Cell Reports. 43:113723. | | Reference: February 2nd, 2024
Gene Product: November 15th, 2022
Gene Model: March 11th, 2022
|
| 3 months ago | pub12 | plant U-box type E3 ubiquitin ligase12: | 1.04 | GRMZM2G030805
| Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2024
Gene Model: March 16th, 2022
|
| 3 months ago | pub40 | plant U-box type E3 ubiquitin ligase40: | 3.05 | | Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2024
|
| 3 months ago | rum1 | rootless with undetectable meristems1: | | GRMZM2G037368
| Tanya Singh et al. 2024. Paenibacillus lentimorbus alleviates nutrient deficiency-induced stress in Zea mays by modulating root system architecture, auxin signaling, and metabolic pathways. Plant Cell Rep. 43:49. | | Reference: February 2nd, 2024
Gene Product: June 16th, 2014
Variation: June 16th, 2014
Gene Model: June 16th, 2014
|
| 3 months ago | btf3 | basic transcription factor 3 homolog: | 1.01 | GRMZM2G041881
| Zhang, YQ et al. 2024. Readthrough events in plants reveal plasticity of stop codons. Cell Reports. 43:113723. | AT1G17880 (TAIR) | Reference: February 2nd, 2024
Variation: October 30th, 2012
Gene Model: June 9th, 2014
|
| 3 months ago | rul1 | rum1-like1: | | GRMZM2G163848
| Tanya Singh et al. 2024. Paenibacillus lentimorbus alleviates nutrient deficiency-induced stress in Zea mays by modulating root system architecture, auxin signaling, and metabolic pathways. Plant Cell Rep. 43:49. | | Reference: February 2nd, 2024
Variation: November 18th, 2011
Gene Model: November 17th, 2011
|
| 3 months ago | arm24 | armadillo domain protein24: | 4.05 | | Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2021
|
| 3 months ago | mgt1 | magnesium transporter1: | | GRMZM2G108477
| Zhang, YQ et al. 2024. Readthrough events in plants reveal plasticity of stop codons. Cell Reports. 43:113723. | | Reference: February 2nd, 2024
Gene Product: April 18th, 2016
Gene Model: April 18th, 2016
|
| 3 months ago | rth6 | roothairless6: | | GRMZM2G436299
| Tanya Singh et al. 2024. Paenibacillus lentimorbus alleviates nutrient deficiency-induced stress in Zea mays by modulating root system architecture, auxin signaling, and metabolic pathways. Plant Cell Rep. 43:49. | | Reference: February 2nd, 2024
Gene Product: October 7th, 2016
Variation: October 7th, 2016
Gene Model: October 7th, 2016
|
| 3 months ago | arm104 | armadillo domain protein104: | | GRMZM2G144042
| Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2021
Gene Model: October 10th, 2020
|
| 3 months ago | pub20 | plant U-box type E3 ubiquitin ligase20: | 5.06 | GRMZM2G050734
| Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2024
Gene Model: May 23rd, 2020
|
| 3 months ago | pub39 | plant U-box type E3 ubiquitin ligase39: | | | Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2024
|
| 3 months ago | arm7 | armadillo domain protein7: | 5.04 | GRMZM2G062499
| Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2021
Gene Model: May 18th, 2020
|
| 3 months ago | pub80 | plant U-box type E3 ubiquitin ligase80: | | GRMZM2G476914
| Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2024
Gene Model: May 16th, 2022
|
| 3 months ago | pub64 | plant U-box type E3 ubiquitin ligase64: | 5.03 | | Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2024
Variation: September 25th, 2007
|
| 3 months ago | arm23 | armadillo domain protein23: | 6.00 | | Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2021
|
| 3 months ago | pub82 | plant U-box type E3 ubiquitin ligase82: | 8.06 | | Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2024
|
| 3 months ago | pub25 | plant U-box type E3 ubiquitin ligase25: | 10.02 | GRMZM2G063394
| Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2024
Gene Model: July 9th, 2022
|
| 3 months ago | arm3 | armadillo domain protein3: | 1.05 | GRMZM2G092652
| Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2021
Gene Model: February 13th, 2019
|
| 3 months ago | IDP3898 | : | 8.05 | GRMZM2G020096
| Zhang, YQ et al. 2024. Readthrough events in plants reveal plasticity of stop codons. Cell Reports. 43:113723. | | Reference: February 2nd, 2024
Variation: March 31st, 2005
Gene Model: July 12th, 2021
|
| 3 months ago | pub2 | plant U-box type E3 ubiquitin ligase2: | 1.02 | GRMZM2G007486
| Yongle Liu et al. 2024. Genome-wide identification and transcriptome profiling expression analysis of the U-box E3 ubiquitin ligase gene family related to abiotic stress in maize (Zea mays L.) BMC Genomics. 25:132. | | Reference: February 2nd, 2024
Gene Product: February 1st, 2024
Gene Model: July 26th, 2021
|
| 3 months ago | fbl41 | F-box protein41: | | GRMZM2G109140
| Zhangshuai Yang et al. 2024. The F-box protein ZmFBL41 negatively regulates disease resistance to Rhizoctonia solani by degrading the abscisic acid synthase ZmNCED6 in maize. Plant Cell Rep. 43:48. | | Reference: February 1st, 2024
Gene Product: April 27th, 2022
Variation: September 30th, 2019
Gene Model: September 30th, 2019
|
| 3 months ago | dnaJ63 | DnaJ/Hsp40 63: | | | Xu, F et al. 2024. iFLAS: positive-unlabeled learning facilitates full-length transcriptome-based identification and functional exploration of alternatively spliced isoforms in maize. New Phytol. :doi: 10.1111/nph.19554. | | Reference: January 31st, 2024
Gene Product: September 1st, 2003
|
| 3 months ago | hcp101b | : | 4.10 | | Xu, F et al. 2024. iFLAS: positive-unlabeled learning facilitates full-length transcriptome-based identification and functional exploration of alternatively spliced isoforms in maize. New Phytol. :doi: 10.1111/nph.19554. | | Reference: January 31st, 2024
Variation: January 13th, 2021
|
| 3 months ago | crr8 | cytokinin response regulator8: | 1.02 | | Xu, F et al. 2024. iFLAS: positive-unlabeled learning facilitates full-length transcriptome-based identification and functional exploration of alternatively spliced isoforms in maize. New Phytol. :doi: 10.1111/nph.19554. | | Reference: January 31st, 2024
Gene Product: June 30th, 2017
Variation: April 25th, 2008
|
| 3 months ago | adh1 | alcohol dehydrogenase1: | 1.10 | | Xu, F et al. 2024. iFLAS: positive-unlabeled learning facilitates full-length transcriptome-based identification and functional exploration of alternatively spliced isoforms in maize. New Phytol. :doi: 10.1111/nph.19554. | | Reference: January 31st, 2024
Gene Product: July 8th, 2009
Variation: March 22nd, 2006
|
| 3 months ago | als2 | acetolactate synthase2: | 5.04 | GRMZM2G143008
| Boyu Lu et al. 2023. Distinctive physiological and molecular responses of foxtail millet and maize to nicosulfuron. 14:1308584. | | Reference: January 31st, 2024
Gene Product: September 1st, 2003
Variation: October 7th, 2020
Gene Model: July 27th, 2016
|
| 3 months ago | als1 | acetolactate synthase1: | 4.05 | | Boyu Lu et al. 2023. Distinctive physiological and molecular responses of foxtail millet and maize to nicosulfuron. 14:1308584. | | Reference: January 31st, 2024
Gene Product: September 1st, 2003
Variation: October 7th, 2020
|
| 3 months ago | iaa28 | Aux/IAA-transcription factor 28: | | | Xu, F et al. 2024. iFLAS: positive-unlabeled learning facilitates full-length transcriptome-based identification and functional exploration of alternatively spliced isoforms in maize. New Phytol. :doi: 10.1111/nph.19554. | | Reference: January 31st, 2024
Variation: July 8th, 2017
|
| 3 months ago | myb56 | MYB-transcription factor 56: | | | Li, BZ et al. 2024. ZmMYB56 Regulates Stomatal Closure and Drought Tolerance in Maize Seedlings by Regulating ZmTOM7 Expression at the Transcriptional Level New Crops. :doi: 10.1016/j.ncrops.2024.100012. | | Reference: January 31st, 2024
Gene Product: July 25th, 2017
|
| 3 months ago | cdc202 | cell division cycle202: | 5.04 | GRMZM2G130425
| Xu, F et al. 2024. iFLAS: positive-unlabeled learning facilitates full-length transcriptome-based identification and functional exploration of alternatively spliced isoforms in maize. New Phytol. :doi: 10.1111/nph.19554. | | Reference: January 31st, 2024
Variation: June 28th, 2018
Gene Model: June 28th, 2018
|
| 3 months ago | adxr1 | adrenodoxin reductase1: | | GRMZM2G158163
| Xu, F et al. 2024. iFLAS: positive-unlabeled learning facilitates full-length transcriptome-based identification and functional exploration of alternatively spliced isoforms in maize. New Phytol. :doi: 10.1111/nph.19554. | At4g32360 (TAIR) | Reference: January 31st, 2024
Gene Product: October 30th, 2012
Gene Model: May 13th, 2015
|
| 3 months ago | dek40 | defective kernel40: | | GRMZM2G019538
| Xu, F et al. 2024. iFLAS: positive-unlabeled learning facilitates full-length transcriptome-based identification and functional exploration of alternatively spliced isoforms in maize. New Phytol. :doi: 10.1111/nph.19554. | | Reference: January 31st, 2024
Gene Product: June 13th, 2019
Variation: June 13th, 2019
Gene Model: June 13th, 2019
|
| 3 months ago | Zm00001d037315 | : | | | Xu, F et al. 2024. iFLAS: positive-unlabeled learning facilitates full-length transcriptome-based identification and functional exploration of alternatively spliced isoforms in maize. New Phytol. :doi: 10.1111/nph.19554. | | Reference: January 31st, 2024
Gene Product: July 8th, 2019
|
| 3 months ago | sr45_3 | splicing regulator45_3: | | GRMZM2G073567
| Xu, F et al. 2024. iFLAS: positive-unlabeled learning facilitates full-length transcriptome-based identification and functional exploration of alternatively spliced isoforms in maize. New Phytol. :doi: 10.1111/nph.19554. | | Reference: January 31st, 2024
Gene Product: October 18th, 2023
Gene Model: March 12th, 2021
|
| 3 months ago | iqd11 | IQ-domain 11: | | AC207628.4_FG011
| Xu, F et al. 2024. iFLAS: positive-unlabeled learning facilitates full-length transcriptome-based identification and functional exploration of alternatively spliced isoforms in maize. New Phytol. :doi: 10.1111/nph.19554. | | Reference: January 31st, 2024
Gene Product: May 23rd, 2021
Gene Model: May 23rd, 2021
|
| 3 months ago | prh101 | protein phosphatase homolog101: | | AC155624.2_FG006
| Xu, F et al. 2024. iFLAS: positive-unlabeled learning facilitates full-length transcriptome-based identification and functional exploration of alternatively spliced isoforms in maize. New Phytol. :doi: 10.1111/nph.19554. | | Reference: January 31st, 2024
Gene Product: October 25th, 2021
Gene Model: November 24th, 2021
|
| 3 months ago | IDP2140 | : | 5.05 | GRMZM2G128902
| Xu, F et al. 2024. iFLAS: positive-unlabeled learning facilitates full-length transcriptome-based identification and functional exploration of alternatively spliced isoforms in maize. New Phytol. :doi: 10.1111/nph.19554. | | Reference: January 31st, 2024
Variation: March 31st, 2005
Gene Model: May 20th, 2020
|
| 3 months ago | IDP441 | : | 6.01 | | Xu, F et al. 2024. iFLAS: positive-unlabeled learning facilitates full-length transcriptome-based identification and functional exploration of alternatively spliced isoforms in maize. New Phytol. :doi: 10.1111/nph.19554. | | Reference: January 31st, 2024
Variation: March 31st, 2005
|
| 3 months ago | arf4 | ADP-ribosylation factor homolog4: | 8.01 | GRMZM2G015361
| Xu, F et al. 2024. iFLAS: positive-unlabeled learning facilitates full-length transcriptome-based identification and functional exploration of alternatively spliced isoforms in maize. New Phytol. :doi: 10.1111/nph.19554. | | Reference: January 31st, 2024
Gene Product: December 27th, 2021
Gene Model: September 30th, 2021
|
| 3 months ago | GRMZM2G313184 | : | | | Shidong He et al. 2024. Nanopore Direct RNA Sequencing Reveals the Short-Term Salt Stress Response in Maize Roots Plants. 13:405. | | Reference: January 30th, 2024
Gene Product: September 18th, 2015
|
| 3 months ago | myb88 | MYB-transcription factor 88: | 4.00 | | Shidong He et al. 2024. Nanopore Direct RNA Sequencing Reveals the Short-Term Salt Stress Response in Maize Roots Plants. 13:405. | | Reference: January 30th, 2024
Gene Product: July 25th, 2017
|
| 3 months ago | fcr1 | ferric-chelate reductase (NADH)1: | 3.06 | GRMZM2G133213
| Chowdhury, NB et al. 2023. A multi-organ maize metabolic model connects temperature stress with energy production and reducing power generation. iScience. 26:108400. | | Reference: January 30th, 2024
Gene Product: September 1st, 2003
Variation: July 9th, 2008
Gene Model: June 3rd, 2017
|
| 3 months ago | fcr2 | ferric-chelate reductase (NADH)2: | 6.06 | GRMZM2G157263
| Chowdhury, NB et al. 2023. A multi-organ maize metabolic model connects temperature stress with energy production and reducing power generation. iScience. 26:108400. | | Reference: January 30th, 2024
Variation: June 27th, 2021
Gene Model: July 27th, 2016
|
| 3 months ago | nip2c | NOD26-like membrane intrinsic protein2: | 9.01 | GRMZM2G081239
| Pu Zhao et al. 2024. Integrated Transcriptomics and Metabolomics Analysis of Two Maize Hybrids (ZD309 and XY335) under Heat Stress at the Flowering Stage Genes. 15:189. | | Reference: January 30th, 2024
Gene Product: January 27th, 2022
Variation: September 1st, 2003
Gene Model: June 3rd, 2015
|
| 3 months ago | bx3 | benzoxazinone synthesis3: | 4.01 | GRMZM2G167549
| Pu Zhao et al. 2024. Integrated Transcriptomics and Metabolomics Analysis of Two Maize Hybrids (ZD309 and XY335) under Heat Stress at the Flowering Stage Genes. 15:189. | | Reference: January 30th, 2024
Gene Product: October 19th, 2011
Variation: November 12th, 2013
Gene Model: October 24th, 2011
|
| 3 months ago | wip1 | wound induced protein1: | 8.01 | | Pu Zhao et al. 2024. Integrated Transcriptomics and Metabolomics Analysis of Two Maize Hybrids (ZD309 and XY335) under Heat Stress at the Flowering Stage Genes. 15:189. | | Reference: January 30th, 2024
Gene Product: May 30th, 2014
Variation: September 1st, 2003
|
| 3 months ago | glp1 | germin-like protein1: | 6.05 | GRMZM2G064096
| Ganesan Govindan et al. 2024. Role of Germin-Like Proteins (GLPs) in Biotic and Abiotic Stress Responses in Major Crops: A Review on Plant Defense Mechanisms and Stress Tolerance Plant Mol Biol Rep. :doi: 10.1007/s11105-024-01434-9. | | Reference: January 30th, 2024
Gene Product: December 24th, 2015
Variation: August 25th, 2018
Gene Model: August 24th, 2018
|
| 3 months ago | me6 | NADP-dependent malic enzyme6: | 3.07 | GRMZM2G159724
| Chowdhury, NB et al. 2023. A multi-organ maize metabolic model connects temperature stress with energy production and reducing power generation. iScience. 26:108400. | | Reference: January 30th, 2024
Gene Product: June 27th, 2019
Variation: August 16th, 2011
Gene Model: August 21st, 2014
|
| 3 months ago | aldh5 | aldehyde dehydrogenase5: | 3.09 | GRMZM2G097706
| Chowdhury, NB et al. 2023. A multi-organ maize metabolic model connects temperature stress with energy production and reducing power generation. iScience. 26:108400. | | Reference: January 30th, 2024
Gene Product: June 28th, 2005
Variation: June 20th, 2012
Gene Model: September 30th, 2015
|
| 3 months ago | me7 | malic enzyme7: | | | Chowdhury, NB et al. 2023. A multi-organ maize metabolic model connects temperature stress with energy production and reducing power generation. iScience. 26:108400. | | Reference: January 30th, 2024
Gene Product: June 27th, 2019
|
| 3 months ago | copt1 | copper transporter1: | | GRMZM2G003179
| Pu Zhao et al. 2024. Integrated Transcriptomics and Metabolomics Analysis of Two Maize Hybrids (ZD309 and XY335) under Heat Stress at the Flowering Stage Genes. 15:189. | | Reference: January 30th, 2024
Gene Product: July 24th, 2018
Gene Model: July 24th, 2018
|
| 3 months ago | aldh18 | aldehyde dehydrogenase18: | | GRMZM2G122172
| Chowdhury, NB et al. 2023. A multi-organ maize metabolic model connects temperature stress with energy production and reducing power generation. iScience. 26:108400. | | Reference: January 30th, 2024
Gene Product: January 5th, 2024
Gene Model: October 2nd, 2019
|
| 3 months ago | aldh23 | aldehyde dehydrogenase23: | | GRMZM2G407949
| Chowdhury, NB et al. 2023. A multi-organ maize metabolic model connects temperature stress with energy production and reducing power generation. iScience. 26:108400. | | Reference: January 30th, 2024
Gene Product: January 5th, 2024
Gene Model: October 2nd, 2019
|
| 3 months ago | xat3 | xylan α-1,3-arabinofuranosyl-transferase3: | | GRMZM2G447347
| Pu Zhao et al. 2024. Integrated Transcriptomics and Metabolomics Analysis of Two Maize Hybrids (ZD309 and XY335) under Heat Stress at the Flowering Stage Genes. 15:189. | | Reference: January 30th, 2024
Gene Product: July 3rd, 2020
Gene Model: July 2nd, 2020
|
| 3 months ago | chls6 | chalcone synthase6: | | GRMZM2G346095
| Pu Zhao et al. 2024. Integrated Transcriptomics and Metabolomics Analysis of Two Maize Hybrids (ZD309 and XY335) under Heat Stress at the Flowering Stage Genes. 15:189. | | Reference: January 30th, 2024
Gene Product: September 1st, 2003
Gene Model: December 20th, 2020
|
| 3 months ago | mtl4 | metallothionein4: | | GRMZM2G070912
| Pu Zhao et al. 2024. Integrated Transcriptomics and Metabolomics Analysis of Two Maize Hybrids (ZD309 and XY335) under Heat Stress at the Flowering Stage Genes. 15:189. | | Reference: January 30th, 2024
Gene Product: September 1st, 2003
Gene Model: March 5th, 2021
|
| 3 months ago | chx11 | cation/H+ antiporter 11: | | GRMZM2G047835
| Shidong He et al. 2024. Nanopore Direct RNA Sequencing Reveals the Short-Term Salt Stress Response in Maize Roots Plants. 13:405. | | Reference: January 30th, 2024
Gene Product: April 26th, 2021
Gene Model: April 26th, 2021
|
| 3 months ago | wrky138 | WRKY-transcription factor 138: | | | Pu Zhao et al. 2024. Integrated Transcriptomics and Metabolomics Analysis of Two Maize Hybrids (ZD309 and XY335) under Heat Stress at the Flowering Stage Genes. 15:189. | | Reference: January 30th, 2024
Gene Product: July 24th, 2017
|
| 3 months ago | IDP3822 | : | 7.04 | GRMZM2G092669
| Pu Zhao et al. 2024. Integrated Transcriptomics and Metabolomics Analysis of Two Maize Hybrids (ZD309 and XY335) under Heat Stress at the Flowering Stage Genes. 15:189. | | Reference: January 30th, 2024
Variation: March 31st, 2005
Gene Model: July 7th, 2021
|
| 3 months ago | me4 | malic enzyme4: | | GRMZM2G118770
| Chowdhury, NB et al. 2023. A multi-organ maize metabolic model connects temperature stress with energy production and reducing power generation. iScience. 26:108400. | | Reference: January 30th, 2024
Gene Product: June 27th, 2019
Variation: October 15th, 2010
Gene Model: August 21st, 2014
|
| 3 months ago | aldh3 | aldehyde dehydrogenase3: | 3.09 | GRMZM2G071021
| Chowdhury, NB et al. 2023. A multi-organ maize metabolic model connects temperature stress with energy production and reducing power generation. iScience. 26:108400. | | Reference: January 30th, 2024
Gene Product: June 28th, 2005
Variation: May 20th, 2009
Gene Model: October 6th, 2015
|
| 3 months ago | ugt3 | uridine diphosphate glycosyltransferase3: | | | Zhao Ke et al. 2024. Functional identification and characterization of two flavonoid glycosyltransferases ZmUGT84A3 and ZmUGT84A4 from maize J Plant Biochem. :doi: 10.1007/s13562-024-00874-4. | | Reference: January 29th, 2024
Gene Product: September 24th, 2018
|
| 3 months ago | ugt2 | uridine diphosphate glycosyltransferase2: | | | Zhao Ke et al. 2024. Functional identification and characterization of two flavonoid glycosyltransferases ZmUGT84A3 and ZmUGT84A4 from maize J Plant Biochem. :doi: 10.1007/s13562-024-00874-4. | | Reference: January 29th, 2024
Gene Product: September 24th, 2018
|
| 3 months ago | dzs10 | delta zein structural10: | 9.03 - 9.03 | | Veena Devi et al. 2024. Unraveling the role of δ-zeins in methionine bio-fortification of maize Cereal Chem. :doi: 10.1002/cche.10762. | | Reference: January 29th, 2024
Gene Product: September 1st, 2003
Variation: November 21st, 2012
|
| 3 months ago | ereb197 | AP2-EREBP-transcription factor 197: | 2.02 | GRMZM2G174784
| Dou, DD et al. 2024. ZmILI1 confers salt stress tolerance by regulating genes of phytohormone response in maize Environ Exp Bot. :doi: 10.1016/j.envexpbot.2024.105673. | | Reference: January 29th, 2024
Variation: September 1st, 2003
Gene Model: February 17th, 2018
|
| 3 months ago | zp15 | zein protein, 15kDa15: | 6.01 - 6.02 | GRMZM2G086294
| Veena Devi et al. 2024. Unraveling the role of δ-zeins in methionine bio-fortification of maize Cereal Chem. :doi: 10.1002/cche.10762. | | Reference: January 29th, 2024
Gene Product: July 8th, 2013
Variation: August 27th, 2013
Gene Model: July 8th, 2013
|
| 3 months ago | dzs18 | delta zein structural18: | 6.04 | | Veena Devi et al. 2024. Unraveling the role of δ-zeins in methionine bio-fortification of maize Cereal Chem. :doi: 10.1002/cche.10762. | | Reference: January 29th, 2024
Gene Product: September 1st, 2003
Variation: February 16th, 2014
|
| 3 months ago | cbl8 | calcineurin B-like8: | | GRMZM2G110080
| Ruilin Wang et al. 2024. Calcineurin B-like protein ZmCBL8-1 promotes salt stress resistance in Arabidopsis. Planta. 259:49. | | Reference: January 29th, 2024
Gene Product: October 19th, 2016
Gene Model: October 19th, 2016
|
| 3 months ago | chld1 | Mg chelataseD1: | 5.00 | | Yancai Zhi et al. 2024. Photosynthesis promotion mechanisms of artificial humic acid depend on plant types: A hydroponic study on C3 and C4 plants. Sci Total Environ. :170404. | | Reference: January 29th, 2024
Gene Product: June 11th, 2007
Variation: December 14th, 2020
|
| 3 months ago | fdx7 | ferredoxin7: | | | Xiao, N et al. 2024. Overexpression of ZmSUS1 increased drought resistance of maize (Zea mays L.) by regulating sucrose metabolism and soluble sugar content. Planta. 259:43. | | Reference: January 26th, 2024
Gene Product: September 1st, 2003
|
| 3 months ago | psb3 | photosystem II3: | 4.04 | GRMZM2G174984
| Xiao, N et al. 2024. Overexpression of ZmSUS1 increased drought resistance of maize (Zea mays L.) by regulating sucrose metabolism and soluble sugar content. Planta. 259:43. | | Reference: January 26th, 2024
Variation: April 14th, 2015
Gene Model: April 14th, 2015
|
| 3 months ago | fdx2 | ferredoxin2: | 6.00 | GRMZM2G048313
| Xiao, N et al. 2024. Overexpression of ZmSUS1 increased drought resistance of maize (Zea mays L.) by regulating sucrose metabolism and soluble sugar content. Planta. 259:43. | | Reference: January 26th, 2024
Gene Product: September 1st, 2003
Variation: September 1st, 2003
Gene Model: July 27th, 2016
|
| 3 months ago | psbs1 | photosystem II subunit PsbS1: | 3.06 | GRMZM2G077333
| Xiao, N et al. 2024. Overexpression of ZmSUS1 increased drought resistance of maize (Zea mays L.) by regulating sucrose metabolism and soluble sugar content. Planta. 259:43. | | Reference: January 26th, 2024
Variation: April 19th, 2012
Gene Model: October 10th, 2014
|
| 3 months ago | psad1 | photosystem I subunit d1: | 5.01 | GRMZM2G024150
| Xiao, N et al. 2024. Overexpression of ZmSUS1 increased drought resistance of maize (Zea mays L.) by regulating sucrose metabolism and soluble sugar content. Planta. 259:43. | | Reference: January 26th, 2024
Gene Product: September 1st, 2003
Variation: December 19th, 2014
Gene Model: December 19th, 2014
|
| 3 months ago | cchh26 | Cys2His2 Zinc Finger26: | | | Ruidong Sun et al. 2024. QTL Mapping and Candidate Genes Analysis for Ear Length in Maize Population Derived from High-Generation Sister Lines J Plant Genet Resour. 25:270-278. | | Reference: January 26th, 2024
Gene Product: November 14th, 2022
|
| 3 months ago | fdx3 | ferredoxin3: | 1.11 | GRMZM2G053458
| Xiao, N et al. 2024. Overexpression of ZmSUS1 increased drought resistance of maize (Zea mays L.) by regulating sucrose metabolism and soluble sugar content. Planta. 259:43. | | Reference: January 26th, 2024
Gene Product: September 1st, 2003
Variation: January 29th, 2015
Gene Model: July 25th, 2017
|
| 3 months ago | oec33 | oxygen evolving complex, 33kDa subunit: | 6.02 | GRMZM2G175562
| Xiao, N et al. 2024. Overexpression of ZmSUS1 increased drought resistance of maize (Zea mays L.) by regulating sucrose metabolism and soluble sugar content. Planta. 259:43. | | Reference: January 26th, 2024
Gene Product: September 1st, 2003
Variation: September 16th, 2014
Gene Model: September 16th, 2014
|
| 3 months ago | psa6 | photosystem I reaction center6: | 7.01 | GRMZM2G012397
| Xiao, N et al. 2024. Overexpression of ZmSUS1 increased drought resistance of maize (Zea mays L.) by regulating sucrose metabolism and soluble sugar content. Planta. 259:43. | | Reference: January 26th, 2024
Gene Product: September 1st, 2003
Variation: September 1st, 2003
Gene Model: January 8th, 2015
|
| 3 months ago | ploc1 | plastocyanin homolog1: | 6.01 | GRMZM2G071450
| Xiao, N et al. 2024. Overexpression of ZmSUS1 increased drought resistance of maize (Zea mays L.) by regulating sucrose metabolism and soluble sugar content. Planta. 259:43. | | Reference: January 26th, 2024
Gene Product: September 1st, 2003
Variation: August 18th, 2018
Gene Model: August 19th, 2018
|
| 3 months ago | atpc1 | ATP synthase chloroplast subunit1: | 5.07 | GRMZM5G862663
| Xiao, N et al. 2024. Overexpression of ZmSUS1 increased drought resistance of maize (Zea mays L.) by regulating sucrose metabolism and soluble sugar content. Planta. 259:43. | | Reference: January 26th, 2024
Gene Product: September 1st, 2003
Variation: May 28th, 2013
Gene Model: February 18th, 2015
|
| 3 months ago | fdx1 | ferredoxin1: | 6.00 | GRMZM2G122337
| Xiao, N et al. 2024. Overexpression of ZmSUS1 increased drought resistance of maize (Zea mays L.) by regulating sucrose metabolism and soluble sugar content. Planta. 259:43. | | Reference: January 26th, 2024
Gene Product: September 1st, 2003
Variation: September 1st, 2003
Gene Model: December 27th, 2016
|
| 3 months ago | nta1 | N-terminal amidase1: | 9.08 | GRMZM2G110258
| Xiao, N et al. 2024. Overexpression of ZmSUS1 increased drought resistance of maize (Zea mays L.) by regulating sucrose metabolism and soluble sugar content. Planta. 259:43. | At4g34090 (TAIR)
LOC_Os03g01920 (MSU/TIGR) | Reference: January 26th, 2024
Variation: August 18th, 2020
Gene Model: April 21st, 2017
|
| 3 months ago | oec17 | oxygen evolving complex, 17kDa homolog: | 7.03 | GRMZM2G058070
| Xiao, N et al. 2024. Overexpression of ZmSUS1 increased drought resistance of maize (Zea mays L.) by regulating sucrose metabolism and soluble sugar content. Planta. 259:43. | | Reference: January 26th, 2024
Gene Product: September 1st, 2003
Variation: July 18th, 2012
Gene Model: September 11th, 2018
|
| 3 months ago | fdx6 | ferredoxin6: | | GRMZM2G106190
| Xiao, N et al. 2024. Overexpression of ZmSUS1 increased drought resistance of maize (Zea mays L.) by regulating sucrose metabolism and soluble sugar content. Planta. 259:43. | | Reference: January 26th, 2024
Gene Product: September 1st, 2003
Variation: November 18th, 2011
Gene Model: July 27th, 2016
|
| 3 months ago | atpc2 | ATP synthase chloroplast subunit2: | | GRMZM2G048907
| Xiao, N et al. 2024. Overexpression of ZmSUS1 increased drought resistance of maize (Zea mays L.) by regulating sucrose metabolism and soluble sugar content. Planta. 259:43. | | Reference: January 26th, 2024
Gene Product: July 17th, 2006
Variation: December 30th, 2015
Gene Model: February 17th, 2015
|
| 3 months ago | pyg7 | pale yellowgreen7: | | GRMZM5G809292
| Xiao, N et al. 2024. Overexpression of ZmSUS1 increased drought resistance of maize (Zea mays L.) by regulating sucrose metabolism and soluble sugar content. Planta. 259:43. | AT1G22700 (TAIR) | Reference: January 26th, 2024
Gene Product: May 20th, 2017
Variation: May 20th, 2017
Gene Model: May 20th, 2017
|
| 3 months ago | pspb1 | photosystem II oxygen evolving polypeptide1: | | GRMZM2G016677
| Xiao, N et al. 2024. Overexpression of ZmSUS1 increased drought resistance of maize (Zea mays L.) by regulating sucrose metabolism and soluble sugar content. Planta. 259:43. | | Reference: January 26th, 2024
Gene Product: September 1st, 2003
Gene Model: July 15th, 2017
|
| 3 months ago | incw7 | invertase cell wall7: | | GRMZM2G018716
| Xiao, N et al. 2024. Overexpression of ZmSUS1 increased drought resistance of maize (Zea mays L.) by regulating sucrose metabolism and soluble sugar content. Planta. 259:43. | | Reference: January 26th, 2024
Gene Product: June 12th, 2018
Gene Model: June 12th, 2018
|
| 3 months ago | fdx5 | ferredoxin5: | | GRMZM2G122327
| Xiao, N et al. 2024. Overexpression of ZmSUS1 increased drought resistance of maize (Zea mays L.) by regulating sucrose metabolism and soluble sugar content. Planta. 259:43. | | Reference: January 26th, 2024
Gene Product: September 1st, 2003
Variation: August 3rd, 2018
Gene Model: August 1st, 2018
|
| 3 months ago | psb28 | photosystem II subunit28: | | GRMZM2G005433
| Xiao, N et al. 2024. Overexpression of ZmSUS1 increased drought resistance of maize (Zea mays L.) by regulating sucrose metabolism and soluble sugar content. Planta. 259:43. | | Reference: January 26th, 2024
Variation: June 18th, 2021
Gene Model: February 26th, 2021
|
| 3 months ago | pas1 | pale and small1: | | GRMZM2G002754
| Xiao, N et al. 2024. Overexpression of ZmSUS1 increased drought resistance of maize (Zea mays L.) by regulating sucrose metabolism and soluble sugar content. Planta. 259:43. | | Reference: January 26th, 2024
Gene Product: September 1st, 2003
Variation: May 11th, 2021
Gene Model: May 11th, 2021
|
| 3 months ago | pet7 | photosynthetic electron transport7: | | GRMZM2G013342
| Xiao, N et al. 2024. Overexpression of ZmSUS1 increased drought resistance of maize (Zea mays L.) by regulating sucrose metabolism and soluble sugar content. Planta. 259:43. | | Reference: January 26th, 2024
Gene Product: May 11th, 2021
Gene Model: May 11th, 2021
|
| 3 months ago | fdx4 | ferredoxin4: | | GRMZM2G146395
| Xiao, N et al. 2024. Overexpression of ZmSUS1 increased drought resistance of maize (Zea mays L.) by regulating sucrose metabolism and soluble sugar content. Planta. 259:43. | | Reference: January 26th, 2024
Gene Product: September 1st, 2003
Gene Model: August 27th, 2021
|
| 3 months ago | ptac3 | plastid transcriptionally active3: | | GRMZM2G116526
| Xiao, N et al. 2024. Overexpression of ZmSUS1 increased drought resistance of maize (Zea mays L.) by regulating sucrose metabolism and soluble sugar content. Planta. 259:43. | | Reference: January 26th, 2024
Gene Product: December 21st, 2022
Gene Model: November 16th, 2021
|
| 3 months ago | pspb2 | photosystem II oxygen evolving polypeptide2: | 7.01 | GRMZM2G047954
| Xiao, N et al. 2024. Overexpression of ZmSUS1 increased drought resistance of maize (Zea mays L.) by regulating sucrose metabolism and soluble sugar content. Planta. 259:43. | | Reference: January 26th, 2024
Gene Product: September 1st, 2003
Variation: March 31st, 2005
Gene Model: January 30th, 2019
|
| 3 months ago | psei9 | cystatin9: | 4.03 | AC196110.4_FG004
| Xiao, N et al. 2024. Overexpression of ZmSUS1 increased drought resistance of maize (Zea mays L.) by regulating sucrose metabolism and soluble sugar content. Planta. 259:43. | | Reference: January 26th, 2024
Gene Product: April 21st, 2008
Variation: April 21st, 2008
Gene Model: February 12th, 2014
|
| 3 months ago | zim22 | ZIM-transcription factor 22: | | | Jianjun Sun et al. 2024. Transcriptomic and Metabolomic Analyses Reveal the Role of Phenylalanine Metabolism in the Maize Response to Stalk Rot Caused by Fusarium proliferatum. Int J Mol Sci. 25:1492. | | Reference: January 25th, 2024
Gene Product: February 24th, 2021
|
| 3 months ago | alm3 | aluminum tolerance3: | | GRMZM5G886177
| Jianjun Sun et al. 2024. Transcriptomic and Metabolomic Analyses Reveal the Role of Phenylalanine Metabolism in the Maize Response to Stalk Rot Caused by Fusarium proliferatum. Int J Mol Sci. 25:1492. | | Reference: January 25th, 2024
Gene Product: September 28th, 2005
Gene Model: July 9th, 2020
|
| 3 months ago | naat2 | nicotianamine aminotransferase2: | | GRMZM2G006480
| Jianjun Sun et al. 2024. Transcriptomic and Metabolomic Analyses Reveal the Role of Phenylalanine Metabolism in the Maize Response to Stalk Rot Caused by Fusarium proliferatum. Int J Mol Sci. 25:1492. | | Reference: January 25th, 2024
Gene Product: January 18th, 2022
Gene Model: January 18th, 2022
|
| 3 months ago | gen1 | GEN1 Holliday junction 5' flap endonuclease homolog1: | | | Jiang, LG et al. 2024. MSH7 confers quantitative variation in pollen fertility and boosts grain yield in maize. Plant Biotechnol J. | AT1G01880 (TAIR) | Reference: January 24th, 2024
Gene Product: January 24th, 2024
Variation: January 24th, 2024
|
| 3 months ago | gen2 | GEN1 Holliday junction 5' flap endonuclease homolog2: | | | Jiang, LG et al. 2024. MSH7 confers quantitative variation in pollen fertility and boosts grain yield in maize. Plant Biotechnol J. | AT1G01880 (TAIR) | Reference: January 24th, 2024
Gene Product: January 24th, 2024
Variation: January 24th, 2024
|
| 3 months ago | mus2 | MutS homolog2: | 3.02 - 3.03 | GRMZM2G110212
| Jiang, LG et al. 2024. MSH7 confers quantitative variation in pollen fertility and boosts grain yield in maize. Plant Biotechnol J. | AT3G24495 (TAIR) | Reference: January 24th, 2024
Gene Product: August 15th, 2005
Variation: January 24th, 2024
Gene Model: August 5th, 2015
|
| 3 months ago | fen1 | flap endonuclease1: | 6.07 | GRMZM2G121262
| Dresselhaus, T et al. 2006. Plant Physiol 140:512-527 | AT5G26680 (TAIR) | Reference: July 31st, 2017
Gene Product: January 24th, 2024
Variation: July 31st, 2017
Gene Model: July 31st, 2017
|
| 3 months ago | prh130 | protein phosphatase homolog130: | | | Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
|
| 3 months ago | prh131 | protein phosphatase homolog131: | | | Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
|
| 3 months ago | prh132 | protein phosphatase homolog132: | | | Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
|
| 3 months ago | prh135 | protein phosphatase homolog135: | | | Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
|
| 3 months ago | prh136 | protein phosphatase homolog136: | | | Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
|
| 3 months ago | kpp1 | kinase associated protein phosphatase1: | 7.02 | GRMZM2G042627
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: September 1st, 2003
Variation: September 1st, 2003
Gene Model: July 30th, 2015
|
| 3 months ago | prh36 | protein phosphatase homolog36: | 1.04 | GRMZM2G077960
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Gene Model: March 31st, 2021
|
| 3 months ago | prh63 | protein phosphatase homolog63: | 2.06 | GRMZM2G153675
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Gene Model: May 1st, 2021
|
| 3 months ago | prh46 | protein phosphatase homolog46: | 10.04 | GRMZM2G109496
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Gene Model: July 20th, 2021
|
| 3 months ago | prh47 | protein phosphatase homolog47: | 2.02 | GRMZM2G111232
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Gene Model: April 23rd, 2021
|
| 3 months ago | prh106 | protein phosphatase homolog106: | 9.05 | GRMZM2G006429
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Variation: April 20th, 2017
Gene Model: April 20th, 2017
|
| 3 months ago | prh115 | protein phosphatase homolog115: | 2.08 | GRMZM2G021610
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Variation: September 1st, 2003
Gene Model: March 22nd, 2020
|
| 3 months ago | prh88 | protein phosphatase homolog88: | 6.08 - 6.08 | GRMZM2G412937
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Variation: September 1st, 2003
Gene Model: August 30th, 2018
|
| 3 months ago | prh16 | putative protein phosphatase 2C 16: | 2.01 | GRMZM2G056572
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Variation: February 17th, 2017
Gene Model: March 6th, 2017
|
| 3 months ago | prh24 | protein phosphatase homolog24: | 5.00 | GRMZM2G144109
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Variation: September 1st, 2003
Gene Model: June 13th, 2018
|
| 3 months ago | dbptf1 | DBP-transcription factor 1: | | | Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
|
| 3 months ago | dbptf2 | DBP-transcription factor 2: | | | Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Variation: March 17th, 2021
|
| 3 months ago | dbptf3 | DBP-transcription factor 3: | | | Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
|
| 3 months ago | dbptf4 | DBP-transcription factor 4: | | | Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
|
| 3 months ago | myb18 | MYB-transcription factor 18: | | | Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
|
| 3 months ago | prh128 | protein phosphatase homolog128: | 9.04 - 9.05 | GRMZM2G072573
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Variation: September 1st, 2003
Gene Model: February 28th, 2018
|
| 3 months ago | prh133 | protein phosphatase homolog133: | 1.11 | GRMZM2G093776
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Gene Model: February 1st, 2017
|
| 3 months ago | prh73 | protein phosphatase homolog73: | 3.04 | GRMZM2G173734
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Gene Model: April 1st, 2020
|
| 3 months ago | prh8 | protein phosphatase homolog8: | | GRMZM2G122228
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Gene Model: October 18th, 2016
|
| 3 months ago | prh9 | protein phosphatase homolog9: | | GRMZM5G818101
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Gene Model: October 18th, 2016
|
| 3 months ago | prh10 | protein phosphatase homolog10: | | GRMZM2G019819
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Gene Model: October 18th, 2016
|
| 3 months ago | prh11 | protein phosphatase homolog11: | | GRMZM2G159811
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Gene Model: October 18th, 2016
|
| 3 months ago | prh13 | protein phosphatase homolog13: | | GRMZM2G134628
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Gene Model: October 18th, 2016
|
| 3 months ago | prh14 | protein phosphatase homolog14: | | GRMZM2G102255
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Gene Model: October 18th, 2016
|
| 3 months ago | prh18 | protein phosphatase homolog18: | | GRMZM2G437575
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Gene Model: January 19th, 2018
|
| 3 months ago | prh19 | protein phosphatase homolog19: | | GRMZM2G001243
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Gene Model: January 19th, 2018
|
| 3 months ago | prh20 | protein phosphatase homolog20: | | GRMZM2G300125
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Gene Model: January 19th, 2018
|
| 3 months ago | prh22 | protein phosphatase homolog 22: | | GRMZM2G069713
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Gene Model: January 7th, 2020
|
| 3 months ago | prh23 | protein phosphatase homolog23: | | GRMZM2G047376
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Gene Model: June 22nd, 2020
|
| 3 months ago | prh129 | protein phosphatase homolog129: | | GRMZM2G469012
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: January 31st, 2021
Gene Model: January 31st, 2021
|
| 3 months ago | prh42 | protein phosphatase homolog42: | | GRMZM2G104076
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: January 31st, 2021
Gene Model: November 24th, 2021
|
| 3 months ago | prh82 | protein phosphatase homolog82: | | GRMZM2G372297
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Gene Model: January 31st, 2021
|
| 3 months ago | prh91 | protein phosphatase homolog91: | | GRMZM2G465287
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Gene Model: August 19th, 2021
|
| 3 months ago | prh103 | protein phosphatase homolog103: | | GRMZM2G000603
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Gene Model: November 24th, 2021
|
| 3 months ago | prh107 | protein phosphatase homolog107: | | GRMZM2G009163
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Gene Model: November 24th, 2021
|
| 3 months ago | prh108 | protein phosphatase homolog108: | | GRMZM2G010017
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Gene Model: November 24th, 2021
|
| 3 months ago | prh116 | protein phosphatase homolog116: | | GRMZM2G040452
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Gene Model: November 24th, 2021
|
| 3 months ago | prh117 | protein phosphatase homolog117: | | GRMZM2G040642
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Gene Model: November 24th, 2021
|
| 3 months ago | prh121 | protein phosphatase homolog121: | | GRMZM2G050512
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Gene Model: November 24th, 2021
|
| 3 months ago | prh122 | protein phosphatase homolog122: | | GRMZM2G052699
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Gene Model: November 24th, 2021
|
| 3 months ago | prh126 | protein phosphatase homolog126: | | GRMZM2G057768
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Gene Model: November 24th, 2021
|
| 3 months ago | prh30 | protein phosphatase homolog30: | | GRMZM2G067910
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Gene Model: November 24th, 2021
|
| 3 months ago | prh33 | protein phosphatase homolog33: | | GRMZM2G071196
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Gene Model: November 24th, 2021
|
| 3 months ago | prh34 | protein phosphatase homolog34: | | GRMZM2G073788
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Gene Model: November 24th, 2021
|
| 3 months ago | prh35 | protein phosphatase homolog35: | | GRMZM2G074489
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Gene Model: November 24th, 2021
|
| 3 months ago | prh37 | protein phosphatase homolog37: | | GRMZM2G081359
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Gene Model: November 24th, 2021
|
| 3 months ago | prh40 | protein phosphatase homolog40: | | GRMZM2G102560
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Gene Model: November 24th, 2021
|
| 3 months ago | prh49 | protein phosphatase homolog49: | | GRMZM2G113016
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Gene Model: November 24th, 2021
|
| 3 months ago | prh50 | protein phosphatase homolog50: | | GRMZM2G119623
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Gene Model: November 24th, 2021
|
| 3 months ago | prh51 | protein phosphatase homolog51: | | GRMZM2G120246
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Gene Model: November 24th, 2021
|
| 3 months ago | prh58 | protein phosphatase homolog58: | | GRMZM2G141859
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Gene Model: November 24th, 2021
|
| 3 months ago | prh60 | protein phosphatase homolog60: | | GRMZM2G150213
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Gene Model: November 24th, 2021
|
| 3 months ago | prh62 | protein phosphatase homolog62: | | GRMZM2G151254
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Gene Model: November 24th, 2021
|
| 3 months ago | prh64 | protein phosphatase homolog64: | | GRMZM2G155991
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Gene Model: November 24th, 2021
|
| 3 months ago | prh65 | protein phosphatase homolog65: | | GRMZM2G156543
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Gene Model: November 24th, 2021
|
| 3 months ago | prh67 | protein phosphatase homolog67: | | GRMZM2G158818
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Gene Model: November 24th, 2021
|
| 3 months ago | prh69 | protein phosphatase homolog69: | | GRMZM2G161544
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Gene Model: November 24th, 2021
|
| 3 months ago | prh79 | protein phosphatase homolog79: | | GRMZM2G311187
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Gene Model: November 24th, 2021
|
| 3 months ago | prh80 | protein phosphatase homolog80: | | GRMZM2G342197
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Gene Model: November 24th, 2021
|
| 3 months ago | prh86 | protein phosphatase homolog86: | | GRMZM2G407605
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Gene Model: November 24th, 2021
|
| 3 months ago | prh89 | protein phosphatase homolog89: | | GRMZM2G442404
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Gene Model: November 26th, 2021
|
| 3 months ago | prh92 | protein phosphatase homolog92: | | GRMZM2G479665
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Gene Model: November 26th, 2021
|
| 3 months ago | prh94 | protein phosphatase homolog94: | | GRMZM5G829894
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Gene Model: November 26th, 2021
|
| 3 months ago | prh95 | protein phosphatase homolog95: | | GRMZM5G833774
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Gene Model: November 26th, 2021
|
| 3 months ago | prh96 | protein phosphatase homolog96: | | GRMZM5G836628
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Gene Model: November 26th, 2021
|
| 3 months ago | prh97 | protein phosphatase homolog97: | | GRMZM5G891266
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Gene Model: November 26th, 2021
|
| 3 months ago | prh12 | protein phosphatase homolog12: | 6.07 | | Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Variation: October 18th, 2016
|
| 3 months ago | iaa46 | Aux/IAA-transcription factor 46: | 6.05 | | Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
|
| 3 months ago | prh109 | protein phosphatase homolog109: | 7.03 | GRMZM2G010298
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Gene Model: July 27th, 2020
|
| 3 months ago | prh53 | protein phosphatase homolog53: | 7.02 | GRMZM2G126832
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Gene Model: July 21st, 2020
|
| 3 months ago | prh43 | protein phosphatase homolog43: | 7.04 | GRMZM2G107565
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Gene Model: July 28th, 2020
|
| 3 months ago | prh105 | protein phosphatase homolog105: | 7.03 | GRMZM2G006416
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Gene Model: November 24th, 2021
|
| 3 months ago | prh57 | protein phosphatase homolog57: | 8.05 | GRMZM2G136765
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Gene Model: September 2nd, 2019
|
| 3 months ago | prh54 | protein phosphatase homolog54: | 9.06 | GRMZM2G130943
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Gene Model: June 27th, 2020
|
| 3 months ago | prh29 | protein phosphatase homolog29: | 10.03 | GRMZM2G060798
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Gene Model: July 3rd, 2020
|
| 3 months ago | prh119 | protein phosphatase homolog119: | 10.04 | GRMZM2G044382
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Gene Model: September 12th, 2021
|
| 3 months ago | prh76 | protein phosphatase homolog76: | 10.07 | | Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Variation: September 25th, 2007
|
| 3 months ago | prh72 | protein phosphatase homolog72: | 1.06 | GRMZM2G170299
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Variation: March 31st, 2005
Gene Model: February 13th, 2019
|
| 3 months ago | prh113 | protein phosphatase homolog113: | 6.02 | GRMZM2G019812
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Variation: March 31st, 2005
Gene Model: January 16th, 2020
|
| 3 months ago | prh70 | protein phosphatase homolog70: | 4.10 | GRMZM2G166035
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Gene Model: April 9th, 2013
|
| 3 months ago | prh32 | protein phosphatase homolog32: | 5.03 | GRMZM2G069970
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Gene Model: May 11th, 2020
|
| 3 months ago | prh112 | protein phosphatase homolog112: | 2.04 | GRMZM2G016749
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Gene Model: February 21st, 2020
|
| 3 months ago | prh45 | protein phosphatase homolog45: | | GRMZM2G108309
| Yunyun Pang et al. 2024. Identification of the Maize PP2C Gene Family and Functional Studies on the Role of ZmPP2C15 in Drought Tolerance Plants. 13:340. | | Reference: January 23rd, 2024
Gene Product: October 25th, 2021
Gene Model: June 24th, 2020
|
| 3 months ago | cepr2 | constitutive expresser of pathogenesis-related genes2: | | | Zhou, Y et al. 2024. Genetic regulation of self-organizing azimuthal canopy orientations and their impacts on light interception in maize Plant Cell. :doi: 10.1093/plcell/koae007. | AT5G64930 (TAIR) | Reference: January 22nd, 2024
Gene Product: September 15th, 2022
Variation: January 22nd, 2024
|
| 3 months ago | d14b | dwarf14 ortholog-b: | | | Zhang, C et al. 2024. The Overexpression of Zea mays Strigolactone Receptor Gene D14 Enhances Drought Resistance in Arabidopsis thaliana L. Int J Mol Sci. 25:1327. | AT3G03990 (TAIR) | Reference: January 22nd, 2024
Gene Product: December 27th, 2022
Variation: December 27th, 2022
|
| 3 months ago | glu21 | beta-glucosidase21: | | | Zhou, Y et al. 2024. Genetic regulation of self-organizing azimuthal canopy orientations and their impacts on light interception in maize Plant Cell. :doi: 10.1093/plcell/koae007. | | Reference: January 22nd, 2024
Gene Product: June 26th, 2019
|
| 3 months ago | cry4 | cryptochrome4: | 4.05 | | Zhou, Y et al. 2024. Genetic regulation of self-organizing azimuthal canopy orientations and their impacts on light interception in maize Plant Cell. :doi: 10.1093/plcell/koae007. | | Reference: January 22nd, 2024
Gene Product: August 31st, 2018
|
| 3 months ago | nrat5 | nramp aluminum transporter5: | 7.02 | GRMZM2G147560
| Gu, L et al. 2024. The maize WRKY transcription factor ZmWRKY64 confers cadmium tolerance in Arabidopsis and maize (Zea mays L.). Plant Cell Rep. 43:44. | | Reference: January 22nd, 2024
Gene Product: August 17th, 2015
Gene Model: July 6th, 2021
|
| 3 months ago | phyA2 | phytochromeA2: | 5.01 | GRMZM2G181028
| Zhou, Y et al. 2024. Genetic regulation of self-organizing azimuthal canopy orientations and their impacts on light interception in maize Plant Cell. :doi: 10.1093/plcell/koae007. | | Reference: January 22nd, 2024
Gene Product: June 30th, 2009
Variation: September 1st, 2003
Gene Model: August 13th, 2014
|
| 3 months ago | d14a | dwarf14 ortholog-a: | 1.00 | GRMZM2G077127
| Zhang, C et al. 2024. The Overexpression of Zea mays Strigolactone Receptor Gene D14 Enhances Drought Resistance in Arabidopsis thaliana L. Int J Mol Sci. 25:1327. | AT3G03990 (TAIR) | Reference: January 22nd, 2024
Gene Product: December 27th, 2022
Variation: December 27th, 2022
Gene Model: February 4th, 2020
|
| 3 months ago | alt7 | alanine aminotransferase7: | 7.00 | GRMZM2G120563
| Zhou, Y et al. 2024. Genetic regulation of self-organizing azimuthal canopy orientations and their impacts on light interception in maize Plant Cell. :doi: 10.1093/plcell/koae007. | | Reference: January 22nd, 2024
Gene Product: October 2nd, 2020
Gene Model: July 23rd, 2014
|
| 3 months ago | phot2 | blue-light receptor phototropin 2: | | GRMZM2G032351
| Zhou, Y et al. 2024. Genetic regulation of self-organizing azimuthal canopy orientations and their impacts on light interception in maize Plant Cell. :doi: 10.1093/plcell/koae007. | | Reference: January 22nd, 2024
Gene Product: May 13th, 2014
Gene Model: May 13th, 2014
|
| 3 months ago | dnaJ23 | DnaJ/Hsp40 23: | | | Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 1st, 2003
|
| 3 months ago | dnaJ46 | DnaJ/Hsp40 46: | | | Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 1st, 2003
|
| 3 months ago | hsp31 | heat shock protein31: | | | Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: January 15th, 2019
|
| 3 months ago | dnaJ16 | DnaJ/Hsp40 16: | | | Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 1st, 2003
|
| 3 months ago | dnaJ13 | DnaJ/Hsp40 13: | | | Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 1st, 2003
|
| 3 months ago | dnaJ22 | DnaJ/Hsp40 22: | | | Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 1st, 2003
|
| 3 months ago | dnaJ24 | DnaJ/Hsp40 24: | | | Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 1st, 2003
|
| 3 months ago | dnaJ26 | DnaJ/Hsp40 26: | | | Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 1st, 2003
|
| 3 months ago | dnaJ28 | DnaJ/Hsp40 28: | | | Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 1st, 2003
|
| 3 months ago | dnaJ29 | DnaJ/Hsp40 29: | | | Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 1st, 2003
|
| 3 months ago | dnaJ30 | DnaJ/Hsp40 30: | | | Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 1st, 2003
|
| 3 months ago | dnaJ32 | DnaJ/Hsp40 32: | | | Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 1st, 2003
|
| 3 months ago | dnaJ37 | DnaJ/Hsp40 37: | | | Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 1st, 2003
|
| 3 months ago | dnaJ40 | DnaJ/Hsp40 40: | | | Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 1st, 2003
|
| 3 months ago | dnaJ44 | DnaJ/Hsp40 44: | | | Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 1st, 2003
|
| 3 months ago | dnaJ62 | DnaJ/Hsp40 62: | | | Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 1st, 2003
|
| 3 months ago | dnaJ67 | DnaJ/Hsp40 67: | | | Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 1st, 2003
|
| 3 months ago | dnaJ74 | DnaJ/Hsp40 74: | | | Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 1st, 2003
|
| 3 months ago | dnaJ75 | DnaJ/Hsp40 75: | | | Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 1st, 2003
|
| 3 months ago | dnaJ76 | DnaJ/Hsp40 76: | | | Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 1st, 2003
|
| 3 months ago | dnaJ81 | DnaJ/Hsp40 81: | | | Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 1st, 2003
|
| 3 months ago | dnaJ82 | DnaJ/Hsp40 82: | | | Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 1st, 2003
|
| 3 months ago | dnaJ85 | DnaJ/Hsp40 85: | | | Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 1st, 2003
|
| 3 months ago | dnaJ88 | DnaJ/Hsp40 88: | | | Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 1st, 2003
|
| 3 months ago | dnaJ93 | DnaJ/Hsp40 93: | | | Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 1st, 2003
|
| 3 months ago | dnaJ95 | DnaJ/Hsp40 95: | | | Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 1st, 2003
|
| 3 months ago | hsp17.2 | heat shock protein17.2: | 3.04 | GRMZM2G158232
| Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 1st, 2003
Variation: September 1st, 2003
Gene Model: March 3rd, 2015
|
| 3 months ago | cdj3 | chaperone DNA J3: | 5.03 | GRMZM2G134980
| Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 1st, 2003
Variation: August 27th, 2021
Gene Model: August 27th, 2021
|
| 3 months ago | dnaJ42 | DnaJ/Hsp40 42: | 4.07 | GRMZM2G054076
| Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 1st, 2003
Gene Model: May 24th, 2021
|
| 3 months ago | dnaJ1 | DnaJ/Hsp40 1: | 1.03 | GRMZM2G040561
| Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 1st, 2003
Gene Model: March 30th, 2021
|
| 3 months ago | hsp10 | heat shock protein10: | 1.03 | GRMZM2G481529
| Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: January 15th, 2019
Variation: August 8th, 2017
Gene Model: August 8th, 2017
|
| 3 months ago | dnaJ66 | DnaJ/Hsp40 66: | 6.07 | GRMZM5G851710
| Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 1st, 2003
Gene Model: May 27th, 2022
|
| 3 months ago | dnaJ96 | DnaJ/Hsp40 96: | 10.03 | GRMZM5G856084
| Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 1st, 2003
Gene Model: July 19th, 2021
|
| 3 months ago | hsp70-5 | heat shock protein70-5: | 2.07 | GRMZM2G365374
| Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 1st, 2003
Gene Model: February 20th, 2019
|
| 3 months ago | cpn2 | chaperonin2: | 1.08 | GRMZM2G416120
| Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 1st, 2003
Variation: September 1st, 2003
Gene Model: May 20th, 2015
|
| 3 months ago | hsp70-22 | heat shock protein70-22: | 10.03 | GRMZM2G001500
| Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 1st, 2003
Gene Model: January 11th, 2018
|
| 3 months ago | bip2 | Binding protein homolog2: | 4.11 | GRMZM2G415007
| Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 1st, 2003
Variation: September 1st, 2003
Gene Model: March 30th, 2015
|
| 3 months ago | umc1278 | : | 1.07 | GRMZM2G092595
| Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Variation: September 1st, 2003
Gene Model: October 6th, 2016
|
| 3 months ago | umc1329 | : | 4.06 | GRMZM2G122767
| Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Variation: September 1st, 2003
Gene Model: April 21st, 2020
|
| 3 months ago | hsp1 | heat shock protein1: | 8.01 | | Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 1st, 2003
Variation: September 1st, 2003
|
| 3 months ago | hsp70-16 | heat shock protein70-16: | 8.03 | GRMZM2G063676
| Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 1st, 2003
Variation: September 1st, 2003
Gene Model: September 18th, 2018
|
| 3 months ago | umc1454 | : | 2.04 | AC235541.1_FG002
| Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Variation: March 18th, 2021
Gene Model: February 21st, 2018
|
| 3 months ago | umc1461 | : | 1.05 | AC202185.4_FG004
| Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Variation: September 1st, 2003
Gene Model: November 8th, 2016
|
| 3 months ago | cps2 | chloroplast protein synthesis2: | 6.01 - 6.08 | AC215201.3_FG005
| Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: October 3rd, 2011
Variation: December 30th, 2015
Gene Model: September 6th, 2011
|
| 3 months ago | hsp3 | heat shock protein3: | 7.00 | | Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 1st, 2003
Variation: September 1st, 2003
|
| 3 months ago | tcptf22 | TCP-transcription factor 22: | | | Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 27th, 2019
|
| 3 months ago | tcptf27 | TCP-transcription factor 27: | | | Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 27th, 2019
|
| 3 months ago | umc1641 | : | 3.09 | GRMZM2G064031
| Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Variation: March 7th, 2017
Gene Model: March 7th, 2017
|
| 3 months ago | umc1679 | : | 5.01 | AC210013.4_FG018
| Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Variation: September 1st, 2003
Gene Model: June 15th, 2018
|
| 3 months ago | hsp19 | heat shock protein19: | 9.06 | GRMZM2G024718
| Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 1st, 2003
Variation: September 1st, 2003
Gene Model: February 28th, 2018
|
| 3 months ago | hsp18a | 18 kda heat shock protein18a: | 9.04 - 9.05 | GRMZM2G404249
| Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 1st, 2003
Variation: June 27th, 2014
Gene Model: June 27th, 2014
|
| 3 months ago | hsp90 | heat shock protein, 90 kDa: | 10.04 | GRMZM5G833699
| Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: May 18th, 2021
Variation: September 1st, 2003
Gene Model: November 3rd, 2014
|
| 3 months ago | cip1 | cytokinin inducible protease1: | 3.04 | | Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: June 3rd, 2014
Variation: January 10th, 2014
|
| 3 months ago | cdj1 | chaperone DNA J homolog1: | 1.11 | GRMZM2G134917
| Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 1st, 2003
Variation: September 29th, 2012
Gene Model: July 27th, 2016
|
| 3 months ago | cpn1 | chaperonin 1: | 5.03 | GRMZM2G111477
| Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 1st, 2003
Variation: May 20th, 2015
Gene Model: May 20th, 2015
|
| 3 months ago | bip1 | Binding protein homolog1: | 5.03 | | Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 1st, 2003
Variation: October 30th, 2012
|
| 3 months ago | hsp18c | heat shock protein18c: | 8.02 | | Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 1st, 2003
Variation: January 2nd, 2013
|
| 3 months ago | hsp18f | heat shock protein18f: | 3.02 | | Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 1st, 2003
Variation: July 18th, 2014
|
| 3 months ago | shpl1 | shepherd-like1: | 5.03 | GRMZM2G399073
| Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Variation: June 23rd, 2015
Gene Model: June 23rd, 2015
|
| 3 months ago | dnaJ6 | DnaJ/Hsp40 6: | 1.04 | GRMZM2G125304
| Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 1st, 2003
Variation: October 5th, 2016
Gene Model: November 4th, 2016
|
| 3 months ago | dnaJ25 | DnaJ/Hsp40 25: | 2.04 | | Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 1st, 2003
|
| 3 months ago | bip3 | binding protein3: | | GRMZM2G471196
| Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 1st, 2003
Gene Model: July 7th, 2017
|
| 3 months ago | hsp22 | heat shock protein22: | 4.07 | GRMZM2G007729
| Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: January 15th, 2019
Gene Model: October 18th, 2013
|
| 3 months ago | dnaJ70 | DnaJ/Hsp40 70: | | GRMZM2G145152
| Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 1st, 2003
Gene Model: September 28th, 2016
|
| 3 months ago | hsp6 | heat shock protein6: | | AC209784.3_FG007
| Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 1st, 2003
Gene Model: January 14th, 2019
|
| 3 months ago | hsp7 | heat shock protein7: | | GRMZM5G802801
| Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 1st, 2003
Gene Model: January 14th, 2019
|
| 3 months ago | hsp8 | heat shock protein8: | | GRMZM2G080724
| Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: January 15th, 2019
Variation: January 22nd, 2021
Gene Model: January 14th, 2019
|
| 3 months ago | hsp9 | heat shock protein9: | | GRMZM2G046382
| Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: January 15th, 2019
Gene Model: January 14th, 2019
|
| 3 months ago | hsp12 | heat shock protein12: | | GRMZM2G158232
| Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: January 15th, 2019
Gene Model: January 14th, 2019
|
| 3 months ago | dnaJ77 | DnaJ/Hsp40 77: | | GRMZM2G086964
| Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 1st, 2003
Gene Model: September 16th, 2019
|
| 3 months ago | cpn10 | : | | GRMZM2G091189
| Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 1st, 2003
Variation: March 18th, 2021
Gene Model: April 22nd, 2020
|
| 3 months ago | hsp20 | heat shock protein20: | | GRMZM2G399136
| Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: January 15th, 2019
Gene Model: August 26th, 2020
|
| 3 months ago | cdj4 | chaperone DNA J4: | | GRMZM2G399136
| Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 1st, 2003
Gene Model: August 26th, 2020
|
| 3 months ago | hsp24 | heat shock protein24: | | GRMZM2G375517
| Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: January 15th, 2019
Gene Model: August 26th, 2020
|
| 3 months ago | hsp27 | heat shock protein27: | | GRMZM2G335242
| Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: January 15th, 2019
Gene Model: September 14th, 2020
|
| 3 months ago | hsp28 | heat shock protein28: | | GRMZM2G098167
| Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: January 15th, 2019
Gene Model: September 14th, 2020
|
| 3 months ago | hsp13 | heat shock protein13: | | GRMZM2G012631
| Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: May 18th, 2021
Gene Model: October 10th, 2020
|
| 3 months ago | hsp70-1 | heat shock protein70-1: | | GRMZM2G056039
| Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 1st, 2003
Gene Model: December 18th, 2020
|
| 3 months ago | hsp70-2 | heat shock protein70-2: | | GRMZM2G079668
| Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 1st, 2003
Gene Model: December 18th, 2020
|
| 3 months ago | hsp70-7 | heat shock protein70-7: | | GRMZM2G158093
| Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 1st, 2003
Gene Model: December 18th, 2020
|
| 3 months ago | hsp70-9 | heat shock protein70-9: | | GRMZM2G020040
| Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 1st, 2003
Gene Model: December 18th, 2020
|
| 3 months ago | hsp70-10 | heat shock protein70-10: | | GRMZM2G056766
| Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 1st, 2003
Gene Model: December 18th, 2020
|
| 3 months ago | hsp70-12 | heat shock protein70-12: | | GRMZM2G153815
| Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 1st, 2003
Gene Model: December 18th, 2020
|
| 3 months ago | hsp70-14 | heat shock protein70-14: | | GRMZM2G023232
| Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 1st, 2003
Gene Model: December 18th, 2020
|
| 3 months ago | dnaJ57 | DnaJ/Hsp40 57: | 5.08 | | Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 1st, 2003
|
| 3 months ago | hsp29 | heat shock protein29: | | GRMZM5G803365
| Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: January 15th, 2019
Gene Model: March 1st, 2022
|
| 3 months ago | hsp30 | heat shock protein30: | | GRMZM2G429396
| Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: January 15th, 2019
Gene Model: March 1st, 2022
|
| 3 months ago | dnaJ65 | DnaJ/Hsp40 65: | | GRMZM2G175860
| Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 1st, 2003
Gene Model: July 18th, 2022
|
| 3 months ago | fabc1 | forms aploid and binucleate cells 1a ortholog1: | 6.04 | GRMZM2G132373
| Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | AT4G33240 (TAIR) | Reference: January 20th, 2024
Gene Product: October 20th, 2021
Variation: November 1st, 2021
Gene Model: January 13th, 2020
|
| 3 months ago | dnaJ61 | DnaJ/Hsp40 61: | 6.01 | GRMZM2G473367
| Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 1st, 2003
Gene Model: July 10th, 2020
|
| 3 months ago | dnaJ79 | DnaJ/Hsp40 79: | 8.05 | GRMZM2G119483
| Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 1st, 2003
Gene Model: September 1st, 2019
|
| 3 months ago | dnaJ89 | DnaJ/Hsp40 89: | 9.04 | GRMZM2G013934
| Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 1st, 2003
Gene Model: July 7th, 2022
|
| 3 months ago | hsp5 | heat shock protein5: | 9.06 | GRMZM2G366532
| Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 1st, 2003
Gene Model: January 14th, 2019
|
| 3 months ago | dnaJ94 | DnaJ/Hsp40 94: | 10.02 | | Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 1st, 2003
Variation: September 25th, 2007
|
| 3 months ago | dnaJ52 | DnaJ/Hsp40 52: | 5.04 | GRMZM2G137495
| Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 1st, 2003
Gene Model: May 17th, 2020
|
| 3 months ago | hsp4 | heat shock protein4: | 7.02 | GRMZM2G069651
| Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: May 18th, 2021
Gene Model: January 14th, 2019
|
| 3 months ago | dnaJ15 | DnaJ/Hsp40 15: | 1.09 | GRMZM2G081910
| Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 1st, 2003
Gene Model: February 14th, 2020
|
| 3 months ago | dnaJ54 | DnaJ/Hsp40 54: | | GRMZM2G118731
| Rubens Diogo Jr et al. 2023. Maize heat shock proteins—prospection, validation, categorization and in silico analysis of the different ZmHSP families Stress Biol. :doi: 10.1007/s44154-023-00104-2. | | Reference: January 20th, 2024
Gene Product: September 1st, 2003
Gene Model: March 13th, 2021
|
| 3 months ago | dnaJ78 | DnaJ/Hsp40 78: | | | Cao, LR et al. 2024. Comprehensive Analysis of the DnaJ/HSP40 Gene Family in Maize (Zea mays L.) Reveals that ZmDnaJ96 Enhances Abiotic Stress Tolerance J Plant Growth Reg. :doi: 10.1007/s00344-023-11206-6. | | Reference: January 19th, 2024
Gene Product: September 1st, 2003
|
| 3 months ago | dnaJ33 | DnaJ/Hsp40 33: | | | Cao, LR et al. 2024. Comprehensive Analysis of the DnaJ/HSP40 Gene Family in Maize (Zea mays L.) Reveals that ZmDnaJ96 Enhances Abiotic Stress Tolerance J Plant Growth Reg. :doi: 10.1007/s00344-023-11206-6. | | Reference: January 19th, 2024
Gene Product: September 1st, 2003
|
| 3 months ago | dnaJ60 | DnaJ/Hsp40 60: | | | Cao, LR et al. 2024. Comprehensive Analysis of the DnaJ/HSP40 Gene Family in Maize (Zea mays L.) Reveals that ZmDnaJ96 Enhances Abiotic Stress Tolerance J Plant Growth Reg. :doi: 10.1007/s00344-023-11206-6. | | Reference: January 19th, 2024
Gene Product: September 1st, 2003
|
| 3 months ago | dnaJ83 | DnaJ/Hsp40 83: | | | Cao, LR et al. 2024. Comprehensive Analysis of the DnaJ/HSP40 Gene Family in Maize (Zea mays L.) Reveals that ZmDnaJ96 Enhances Abiotic Stress Tolerance J Plant Growth Reg. :doi: 10.1007/s00344-023-11206-6. | | Reference: January 19th, 2024
Gene Product: September 1st, 2003
|
| 3 months ago | dnaJ3 | DnaJ/Hsp40 3: | | | Cao, LR et al. 2024. Comprehensive Analysis of the DnaJ/HSP40 Gene Family in Maize (Zea mays L.) Reveals that ZmDnaJ96 Enhances Abiotic Stress Tolerance J Plant Growth Reg. :doi: 10.1007/s00344-023-11206-6. | | Reference: January 19th, 2024
Gene Product: September 1st, 2003
|
| 3 months ago | dnaJ4 | DnaJ/Hsp40 4: | | | Cao, LR et al. 2024. Comprehensive Analysis of the DnaJ/HSP40 Gene Family in Maize (Zea mays L.) Reveals that ZmDnaJ96 Enhances Abiotic Stress Tolerance J Plant Growth Reg. :doi: 10.1007/s00344-023-11206-6. | | Reference: January 19th, 2024
Gene Product: September 1st, 2003
|
| 3 months ago | dnaJ7 | DnaJ/Hsp40 7: | | | Cao, LR et al. 2024. Comprehensive Analysis of the DnaJ/HSP40 Gene Family in Maize (Zea mays L.) Reveals that ZmDnaJ96 Enhances Abiotic Stress Tolerance J Plant Growth Reg. :doi: 10.1007/s00344-023-11206-6. | | Reference: January 19th, 2024
Gene Product: September 1st, 2003
|
| 3 months ago | dnaJ9 | DnaJ/Hsp40 9: | | | Cao, LR et al. 2024. Comprehensive Analysis of the DnaJ/HSP40 Gene Family in Maize (Zea mays L.) Reveals that ZmDnaJ96 Enhances Abiotic Stress Tolerance J Plant Growth Reg. :doi: 10.1007/s00344-023-11206-6. | | Reference: January 19th, 2024
Gene Product: September 1st, 2003
|
| 3 months ago | dnaJ12 | DnaJ/Hsp40 12: | | | Cao, LR et al. 2024. Comprehensive Analysis of the DnaJ/HSP40 Gene Family in Maize (Zea mays L.) Reveals that ZmDnaJ96 Enhances Abiotic Stress Tolerance J Plant Growth Reg. :doi: 10.1007/s00344-023-11206-6. | | Reference: January 19th, 2024
Gene Product: September 1st, 2003
|
| 3 months ago | dnaJ18 | DnaJ/Hsp40 18: | | | Cao, LR et al. 2024. Comprehensive Analysis of the DnaJ/HSP40 Gene Family in Maize (Zea mays L.) Reveals that ZmDnaJ96 Enhances Abiotic Stress Tolerance J Plant Growth Reg. :doi: 10.1007/s00344-023-11206-6. | | Reference: January 19th, 2024
Gene Product: September 1st, 2003
|
| 3 months ago | dnaJ20 | DnaJ/Hsp40 20: | | | Cao, LR et al. 2024. Comprehensive Analysis of the DnaJ/HSP40 Gene Family in Maize (Zea mays L.) Reveals that ZmDnaJ96 Enhances Abiotic Stress Tolerance J Plant Growth Reg. :doi: 10.1007/s00344-023-11206-6. | | Reference: January 19th, 2024
Gene Product: September 1st, 2003
|
| 3 months ago | dnaJ27 | DnaJ/Hsp40 27: | | | Cao, LR et al. 2024. Comprehensive Analysis of the DnaJ/HSP40 Gene Family in Maize (Zea mays L.) Reveals that ZmDnaJ96 Enhances Abiotic Stress Tolerance J Plant Growth Reg. :doi: 10.1007/s00344-023-11206-6. | | Reference: January 19th, 2024
Gene Product: September 1st, 2003
|
| 3 months ago | dnaJ34 | DnaJ/Hsp40 34: | | | Cao, LR et al. 2024. Comprehensive Analysis of the DnaJ/HSP40 Gene Family in Maize (Zea mays L.) Reveals that ZmDnaJ96 Enhances Abiotic Stress Tolerance J Plant Growth Reg. :doi: 10.1007/s00344-023-11206-6. | | Reference: January 19th, 2024
Gene Product: September 1st, 2003
|
| 3 months ago | dnaJ35 | DnaJ/Hsp40 35: | | | Cao, LR et al. 2024. Comprehensive Analysis of the DnaJ/HSP40 Gene Family in Maize (Zea mays L.) Reveals that ZmDnaJ96 Enhances Abiotic Stress Tolerance J Plant Growth Reg. :doi: 10.1007/s00344-023-11206-6. | | Reference: January 19th, 2024
Gene Product: September 1st, 2003
|
| 3 months ago | dnaJ41 | DnaJ/Hsp40 41: | | | Cao, LR et al. 2024. Comprehensive Analysis of the DnaJ/HSP40 Gene Family in Maize (Zea mays L.) Reveals that ZmDnaJ96 Enhances Abiotic Stress Tolerance J Plant Growth Reg. :doi: 10.1007/s00344-023-11206-6. | | Reference: January 19th, 2024
Gene Product: September 1st, 2003
|
| 3 months ago | dnaJ43 | DnaJ/Hsp40 43: | | | Cao, LR et al. 2024. Comprehensive Analysis of the DnaJ/HSP40 Gene Family in Maize (Zea mays L.) Reveals that ZmDnaJ96 Enhances Abiotic Stress Tolerance J Plant Growth Reg. :doi: 10.1007/s00344-023-11206-6. | | Reference: January 19th, 2024
Gene Product: September 1st, 2003
|
| 3 months ago | dnaJ47 | DnaJ/Hsp40 47: | | | Cao, LR et al. 2024. Comprehensive Analysis of the DnaJ/HSP40 Gene Family in Maize (Zea mays L.) Reveals that ZmDnaJ96 Enhances Abiotic Stress Tolerance J Plant Growth Reg. :doi: 10.1007/s00344-023-11206-6. | | Reference: January 19th, 2024
Gene Product: September 1st, 2003
|
| 3 months ago | dnaJ49 | DnaJ/Hsp40 49: | | | Cao, LR et al. 2024. Comprehensive Analysis of the DnaJ/HSP40 Gene Family in Maize (Zea mays L.) Reveals that ZmDnaJ96 Enhances Abiotic Stress Tolerance J Plant Growth Reg. :doi: 10.1007/s00344-023-11206-6. | | Reference: January 19th, 2024
Gene Product: September 1st, 2003
|
| 3 months ago | dnaJ55 | DnaJ/Hsp40 55: | | | Cao, LR et al. 2024. Comprehensive Analysis of the DnaJ/HSP40 Gene Family in Maize (Zea mays L.) Reveals that ZmDnaJ96 Enhances Abiotic Stress Tolerance J Plant Growth Reg. :doi: 10.1007/s00344-023-11206-6. | | Reference: January 19th, 2024
Gene Product: September 1st, 2003
|
| 3 months ago | dnaJ64 | DnaJ/Hsp40 64: | | | Cao, LR et al. 2024. Comprehensive Analysis of the DnaJ/HSP40 Gene Family in Maize (Zea mays L.) Reveals that ZmDnaJ96 Enhances Abiotic Stress Tolerance J Plant Growth Reg. :doi: 10.1007/s00344-023-11206-6. | | Reference: January 19th, 2024
Gene Product: September 1st, 2003
|
| 3 months ago | dnaJ68 | DnaJ/Hsp40 68: | | | Cao, LR et al. 2024. Comprehensive Analysis of the DnaJ/HSP40 Gene Family in Maize (Zea mays L.) Reveals that ZmDnaJ96 Enhances Abiotic Stress Tolerance J Plant Growth Reg. :doi: 10.1007/s00344-023-11206-6. | | Reference: January 19th, 2024
Gene Product: September 1st, 2003
|
| 3 months ago | dnaJ69 | DnaJ/Hsp40 69: | | | Cao, LR et al. 2024. Comprehensive Analysis of the DnaJ/HSP40 Gene Family in Maize (Zea mays L.) Reveals that ZmDnaJ96 Enhances Abiotic Stress Tolerance J Plant Growth Reg. :doi: 10.1007/s00344-023-11206-6. | | Reference: January 19th, 2024
Gene Product: September 1st, 2003
|
| 3 months ago | dnaJ71 | DnaJ/Hsp40 71: | | | Cao, LR et al. 2024. Comprehensive Analysis of the DnaJ/HSP40 Gene Family in Maize (Zea mays L.) Reveals that ZmDnaJ96 Enhances Abiotic Stress Tolerance J Plant Growth Reg. :doi: 10.1007/s00344-023-11206-6. | | Reference: January 19th, 2024
Gene Product: September 1st, 2003
|
| 3 months ago | dnaJ72 | DnaJ/Hsp40 72: | | | Cao, LR et al. 2024. Comprehensive Analysis of the DnaJ/HSP40 Gene Family in Maize (Zea mays L.) Reveals that ZmDnaJ96 Enhances Abiotic Stress Tolerance J Plant Growth Reg. :doi: 10.1007/s00344-023-11206-6. | | Reference: January 19th, 2024
Gene Product: September 1st, 2003
|
| 3 months ago | dnaJ84 | DnaJ/Hsp40 84: | | | Cao, LR et al. 2024. Comprehensive Analysis of the DnaJ/HSP40 Gene Family in Maize (Zea mays L.) Reveals that ZmDnaJ96 Enhances Abiotic Stress Tolerance J Plant Growth Reg. :doi: 10.1007/s00344-023-11206-6. | | Reference: January 19th, 2024
Gene Product: September 1st, 2003
|
| 3 months ago | dnaJ86 | DnaJ/Hsp40 86: | | | Cao, LR et al. 2024. Comprehensive Analysis of the DnaJ/HSP40 Gene Family in Maize (Zea mays L.) Reveals that ZmDnaJ96 Enhances Abiotic Stress Tolerance J Plant Growth Reg. :doi: 10.1007/s00344-023-11206-6. | | Reference: January 19th, 2024
Gene Product: September 1st, 2003
|
| 3 months ago | dnaJ87 | DnaJ/Hsp40 87: | | | Cao, LR et al. 2024. Comprehensive Analysis of the DnaJ/HSP40 Gene Family in Maize (Zea mays L.) Reveals that ZmDnaJ96 Enhances Abiotic Stress Tolerance J Plant Growth Reg. :doi: 10.1007/s00344-023-11206-6. | | Reference: January 19th, 2024
Gene Product: September 1st, 2003
|
| 3 months ago | dnaJ90 | DnaJ/Hsp40 90: | | | Cao, LR et al. 2024. Comprehensive Analysis of the DnaJ/HSP40 Gene Family in Maize (Zea mays L.) Reveals that ZmDnaJ96 Enhances Abiotic Stress Tolerance J Plant Growth Reg. :doi: 10.1007/s00344-023-11206-6. | | Reference: January 19th, 2024
Gene Product: September 1st, 2003
|
| 3 months ago | dnaJ97 | DnaJ/Hsp40 97: | | | Cao, LR et al. 2024. Comprehensive Analysis of the DnaJ/HSP40 Gene Family in Maize (Zea mays L.) Reveals that ZmDnaJ96 Enhances Abiotic Stress Tolerance J Plant Growth Reg. :doi: 10.1007/s00344-023-11206-6. | | Reference: January 19th, 2024
Gene Product: September 1st, 2003
|
| 3 months ago | dnaJ99 | DnaJ/Hsp40 99: | | | Cao, LR et al. 2024. Comprehensive Analysis of the DnaJ/HSP40 Gene Family in Maize (Zea mays L.) Reveals that ZmDnaJ96 Enhances Abiotic Stress Tolerance J Plant Growth Reg. :doi: 10.1007/s00344-023-11206-6. | | Reference: January 19th, 2024
Gene Product: September 1st, 2003
|
| 3 months ago | bsd2 | bundle sheath defective2: | 1.05 | | Cao, LR et al. 2024. Comprehensive Analysis of the DnaJ/HSP40 Gene Family in Maize (Zea mays L.) Reveals that ZmDnaJ96 Enhances Abiotic Stress Tolerance J Plant Growth Reg. :doi: 10.1007/s00344-023-11206-6. | | Reference: January 19th, 2024
Gene Product: September 1st, 2003
Variation: October 14th, 2009
|
| 3 months ago | dnaJ39 | DnaJ/Hsp40 39: | 3.09 | | Cao, LR et al. 2024. Comprehensive Analysis of the DnaJ/HSP40 Gene Family in Maize (Zea mays L.) Reveals that ZmDnaJ96 Enhances Abiotic Stress Tolerance J Plant Growth Reg. :doi: 10.1007/s00344-023-11206-6. | | Reference: January 19th, 2024
Gene Product: September 1st, 2003
|
| 3 months ago | dnaJ56 | DnaJ/Hsp40 56: | 5.08 | GRMZM2G098058
| Cao, LR et al. 2024. Comprehensive Analysis of the DnaJ/HSP40 Gene Family in Maize (Zea mays L.) Reveals that ZmDnaJ96 Enhances Abiotic Stress Tolerance J Plant Growth Reg. :doi: 10.1007/s00344-023-11206-6. | | Reference: January 19th, 2024
Gene Product: September 1st, 2003
Gene Model: August 29th, 2021
|
| 3 months ago | dnaJ36 | DnaJ/Hsp40 36: | 3.04 | GRMZM2G104045
| Cao, LR et al. 2024. Comprehensive Analysis of the DnaJ/HSP40 Gene Family in Maize (Zea mays L.) Reveals that ZmDnaJ96 Enhances Abiotic Stress Tolerance J Plant Growth Reg. :doi: 10.1007/s00344-023-11206-6. | | Reference: January 19th, 2024
Gene Product: September 1st, 2003
Gene Model: May 14th, 2021
|
| 3 months ago | dnaJ45 | DnaJ/Hsp40 45: | 5.00 | GRMZM2G138511
| Cao, LR et al. 2024. Comprehensive Analysis of the DnaJ/HSP40 Gene Family in Maize (Zea mays L.) Reveals that ZmDnaJ96 Enhances Abiotic Stress Tolerance J Plant Growth Reg. :doi: 10.1007/s00344-023-11206-6. | | Reference: January 19th, 2024
Gene Product: September 1st, 2003
Gene Model: July 23rd, 2021
|
| 3 months ago | psa2 | photosystemI2: | | GRMZM2G021687
| Cao, LR et al. 2024. Comprehensive Analysis of the DnaJ/HSP40 Gene Family in Maize (Zea mays L.) Reveals that ZmDnaJ96 Enhances Abiotic Stress Tolerance J Plant Growth Reg. :doi: 10.1007/s00344-023-11206-6. | | Reference: January 19th, 2024
Gene Product: September 1st, 2003
Variation: September 18th, 2014
Gene Model: September 18th, 2014
|
| 3 months ago | dnaJ80 | DnaJ/Hsp40 80: | 8.05 | GRMZM2G168590
| Cao, LR et al. 2024. Comprehensive Analysis of the DnaJ/HSP40 Gene Family in Maize (Zea mays L.) Reveals that ZmDnaJ96 Enhances Abiotic Stress Tolerance J Plant Growth Reg. :doi: 10.1007/s00344-023-11206-6. | | Reference: January 19th, 2024
Gene Product: September 1st, 2003
Variation: September 1st, 2003
Gene Model: September 1st, 2019
|
| 3 months ago | dnaJ19 | DnaJ/Hsp40 19: | 2.02 | | Cao, LR et al. 2024. Comprehensive Analysis of the DnaJ/HSP40 Gene Family in Maize (Zea mays L.) Reveals that ZmDnaJ96 Enhances Abiotic Stress Tolerance J Plant Growth Reg. :doi: 10.1007/s00344-023-11206-6. | | Reference: January 19th, 2024
Gene Product: September 1st, 2003
Variation: September 25th, 2007
|
| 3 months ago | dnaJ21 | DnaJ/Hsp40 21: | 2.04 | GRMZM2G071996
| Cao, LR et al. 2024. Comprehensive Analysis of the DnaJ/HSP40 Gene Family in Maize (Zea mays L.) Reveals that ZmDnaJ96 Enhances Abiotic Stress Tolerance J Plant Growth Reg. :doi: 10.1007/s00344-023-11206-6. | | Reference: January 19th, 2024
Gene Product: September 1st, 2003
Gene Model: March 14th, 2020
|
| 3 months ago | dnaJ53 | DnaJ/Hsp40 53: | 5.04 | GRMZM2G039089
| Cao, LR et al. 2024. Comprehensive Analysis of the DnaJ/HSP40 Gene Family in Maize (Zea mays L.) Reveals that ZmDnaJ96 Enhances Abiotic Stress Tolerance J Plant Growth Reg. :doi: 10.1007/s00344-023-11206-6. | | Reference: January 19th, 2024
Gene Product: September 1st, 2003
Gene Model: May 18th, 2020
|
| 3 months ago | dnaJ48 | DnaJ/Hsp40 48: | 5.02 | GRMZM2G129700
| Cao, LR et al. 2024. Comprehensive Analysis of the DnaJ/HSP40 Gene Family in Maize (Zea mays L.) Reveals that ZmDnaJ96 Enhances Abiotic Stress Tolerance J Plant Growth Reg. :doi: 10.1007/s00344-023-11206-6. | | Reference: January 19th, 2024
Gene Product: September 1st, 2003
Gene Model: May 4th, 2020
|
| 3 months ago | dnaJ51 | DnaJ/Hsp40 51: | 5.03 | GRMZM5G862277
| Cao, LR et al. 2024. Comprehensive Analysis of the DnaJ/HSP40 Gene Family in Maize (Zea mays L.) Reveals that ZmDnaJ96 Enhances Abiotic Stress Tolerance J Plant Growth Reg. :doi: 10.1007/s00344-023-11206-6. | | Reference: January 19th, 2024
Gene Product: September 1st, 2003
Gene Model: May 13th, 2022
|
| 3 months ago | dnaJ92 | DnaJ/Hsp40 92: | | GRMZM5G898471
| Cao, LR et al. 2024. Comprehensive Analysis of the DnaJ/HSP40 Gene Family in Maize (Zea mays L.) Reveals that ZmDnaJ96 Enhances Abiotic Stress Tolerance J Plant Growth Reg. :doi: 10.1007/s00344-023-11206-6. | | Reference: January 19th, 2024
Gene Product: September 1st, 2003
Gene Model: August 4th, 2020
|
| 3 months ago | dnaJ58 | DnaJ/Hsp40 58: | 5.08 | GRMZM2G092632
| Cao, LR et al. 2024. Comprehensive Analysis of the DnaJ/HSP40 Gene Family in Maize (Zea mays L.) Reveals that ZmDnaJ96 Enhances Abiotic Stress Tolerance J Plant Growth Reg. :doi: 10.1007/s00344-023-11206-6. | | Reference: January 19th, 2024
Gene Product: September 1st, 2003
Gene Model: May 25th, 2020
|
| 3 months ago | dnaJ91 | DnaJ/Hsp40 91: | 9.05 | GRMZM2G134476
| Cao, LR et al. 2024. Comprehensive Analysis of the DnaJ/HSP40 Gene Family in Maize (Zea mays L.) Reveals that ZmDnaJ96 Enhances Abiotic Stress Tolerance J Plant Growth Reg. :doi: 10.1007/s00344-023-11206-6. | | Reference: January 19th, 2024
Gene Product: September 1st, 2003
Gene Model: June 25th, 2020
|
| 3 months ago | dnaJ98 | DnaJ/Hsp40 98: | 10.04 | | Cao, LR et al. 2024. Comprehensive Analysis of the DnaJ/HSP40 Gene Family in Maize (Zea mays L.) Reveals that ZmDnaJ96 Enhances Abiotic Stress Tolerance J Plant Growth Reg. :doi: 10.1007/s00344-023-11206-6. | | Reference: January 19th, 2024
Gene Product: September 1st, 2003
|
| 3 months ago | dnaJ73 | DnaJ/Hsp40 73: | 7.04 | GRMZM2G382106
| Cao, LR et al. 2024. Comprehensive Analysis of the DnaJ/HSP40 Gene Family in Maize (Zea mays L.) Reveals that ZmDnaJ96 Enhances Abiotic Stress Tolerance J Plant Growth Reg. :doi: 10.1007/s00344-023-11206-6. | | Reference: January 19th, 2024
Gene Product: September 1st, 2003
Variation: March 31st, 2005
Gene Model: February 6th, 2019
|
| 3 months ago | dnaJ5 | DnaJ/Hsp40 5: | 1.04 | GRMZM2G382717
| Cao, LR et al. 2024. Comprehensive Analysis of the DnaJ/HSP40 Gene Family in Maize (Zea mays L.) Reveals that ZmDnaJ96 Enhances Abiotic Stress Tolerance J Plant Growth Reg. :doi: 10.1007/s00344-023-11206-6. | | Reference: January 19th, 2024
Gene Product: September 1st, 2003
Gene Model: January 24th, 2021
|
| 3 months ago | dnaJ31 | DnaJ/Hsp40 31: | 2.08 | GRMZM5G812660
| Cao, LR et al. 2024. Comprehensive Analysis of the DnaJ/HSP40 Gene Family in Maize (Zea mays L.) Reveals that ZmDnaJ96 Enhances Abiotic Stress Tolerance J Plant Growth Reg. :doi: 10.1007/s00344-023-11206-6. | | Reference: January 19th, 2024
Gene Product: September 1st, 2003
Gene Model: March 22nd, 2020
|
| 3 months ago | dnaJ59 | DnaJ/Hsp40 59: | 6.01 | GRMZM2G406268
| Cao, LR et al. 2024. Comprehensive Analysis of the DnaJ/HSP40 Gene Family in Maize (Zea mays L.) Reveals that ZmDnaJ96 Enhances Abiotic Stress Tolerance J Plant Growth Reg. :doi: 10.1007/s00344-023-11206-6. | | Reference: January 19th, 2024
Gene Product: September 1st, 2003
Gene Model: July 9th, 2020
|
| 3 months ago | wakl39 | wall associated kinase like39: | 8.01 | GRMZM2G079219
| Zhong, T et al. 2024. The ZmWAKL–ZmWIK–ZmBLK1–ZmRBOH4 module provides quantitative resistance to gray leaf spot in maize Nature Genetics. :doi: 10.1038/s41588-023-01644-z. | | Reference: January 18th, 2024
Gene Product: December 7th, 2023
Gene Model: July 9th, 2021
|
| 3 months ago | rrb3 | retinoblastoma family3: | | GRMZM2G033828
| Ledesma, A et al. 2023. Genome-wide association analysis of plant architecture traits using doubled haploid lines derived from different cycles of the Iowa Stiff Stalk Synthetic maize population. Frontiers in Plant Science. 14:1294507. | | Reference: January 18th, 2024
Variation: January 22nd, 2021
Gene Model: April 17th, 2015
|
| 3 months ago | ca5p12 | CCAAT-HAP5-transcription factor 512: | | | Ledesma, A et al. 2023. Genome-wide association analysis of plant architecture traits using doubled haploid lines derived from different cycles of the Iowa Stiff Stalk Synthetic maize population. Frontiers in Plant Science. 14:1294507. | | Reference: January 18th, 2024
Gene Product: August 9th, 2016
|
| 3 months ago | sbp23 | SBP-transcription factor 23: | | | Ledesma, A et al. 2023. Genome-wide association analysis of plant architecture traits using doubled haploid lines derived from different cycles of the Iowa Stiff Stalk Synthetic maize population. Frontiers in Plant Science. 14:1294507. | | Reference: January 18th, 2024
Gene Product: July 5th, 2019
|
| 3 months ago | col16 | C2C2-CO-like-transcription factor 16: | 1.06 | GRMZM2G159996
| Ledesma, A et al. 2023. Genome-wide association analysis of plant architecture traits using doubled haploid lines derived from different cycles of the Iowa Stiff Stalk Synthetic maize population. Frontiers in Plant Science. 14:1294507. | | Reference: January 18th, 2024
Gene Product: June 18th, 2018
Variation: December 7th, 2016
Gene Model: December 7th, 2016
|
| 3 months ago | upl1 | ubiquitin-protein ligase1: | 2.07 | GRMZM2G080439
| Ledesma, A et al. 2023. Genome-wide association analysis of plant architecture traits using doubled haploid lines derived from different cycles of the Iowa Stiff Stalk Synthetic maize population. Frontiers in Plant Science. 14:1294507. | | Reference: January 18th, 2024
Gene Product: November 26th, 2019
Gene Model: February 14th, 2018
|
| 3 months ago | pap15 | purple acid phosphatase15: | 1.06 | GRMZM2G136453
| Ledesma, A et al. 2023. Genome-wide association analysis of plant architecture traits using doubled haploid lines derived from different cycles of the Iowa Stiff Stalk Synthetic maize population. Frontiers in Plant Science. 14:1294507. | | Reference: January 18th, 2024
Gene Product: November 21st, 2018
Gene Model: June 21st, 2017
|
| 3 months ago | gpx3 | glycerophosphodiester phosphodiesterase3: | 1.06 | GRMZM2G064962
| Ledesma, A et al. 2023. Genome-wide association analysis of plant architecture traits using doubled haploid lines derived from different cycles of the Iowa Stiff Stalk Synthetic maize population. Frontiers in Plant Science. 14:1294507. | | Reference: January 18th, 2024
Gene Product: June 24th, 2020
Gene Model: February 10th, 2020
|
| 3 months ago | sweet11a | sugars will eventually be exported transporter11: | 1.06 | GRMZM2G368827
| Ledesma, A et al. 2023. Genome-wide association analysis of plant architecture traits using doubled haploid lines derived from different cycles of the Iowa Stiff Stalk Synthetic maize population. Frontiers in Plant Science. 14:1294507. | | Reference: January 18th, 2024
Gene Product: November 4th, 2015
Gene Model: November 3rd, 2015
|
| 3 months ago | pk5 | protein kinase5: | | GRMZM2G144042
| Zhong, T et al. 2024. The ZmWAKL–ZmWIK–ZmBLK1–ZmRBOH4 module provides quantitative resistance to gray leaf spot in maize Nature Genetics. :doi: 10.1038/s41588-023-01644-z. | | Reference: January 18th, 2024
Gene Product: July 10th, 2019
Gene Model: October 10th, 2020
|
| 3 months ago | blk1 | bik1-like kinase1: | 1.11 | | Zhong, T et al. 2024. The ZmWAKL–ZmWIK–ZmBLK1–ZmRBOH4 module provides quantitative resistance to gray leaf spot in maize Nature Genetics. :doi: 10.1038/s41588-023-01644-z. | | Reference: January 18th, 2024
Gene Product: July 10th, 2019
Variation: September 25th, 2007
|
| 3 months ago | pat4 | protein S-acyltransferase4: | 1.06 | GRMZM2G068657
| Ledesma, A et al. 2023. Genome-wide association analysis of plant architecture traits using doubled haploid lines derived from different cycles of the Iowa Stiff Stalk Synthetic maize population. Frontiers in Plant Science. 14:1294507. | | Reference: January 18th, 2024
Gene Product: February 26th, 2022
Variation: March 31st, 2005
Gene Model: February 14th, 2019
|
| 3 months ago | Zm00001d026578 | : | | | Li, CX et al. 2024. GWAS analysis reveals candidate genes associated with dense tolerance (ear leaf structure) in maize (Zea mays L.) J Integr Agric. :doi: 10.1016/j.jia.2024.01.023. | | Reference: January 17th, 2024
Gene Product: September 1st, 2003
|
| 3 months ago | thx65 | Trihelix-transcription factor 65: | | | Chenglin Zou et al. 2024. Physiological Characteristic Changes and Transcriptome Analysis of Maize (Zea mays L.) Roots under Drought Stress Int J Genomics. 2024:5681174. | | Reference: January 17th, 2024
Gene Product: November 9th, 2021
|
| 3 months ago | pdc2 | pyruvate decarboxylase2: | 8.02 | | Li, CX et al. 2024. GWAS analysis reveals candidate genes associated with dense tolerance (ear leaf structure) in maize (Zea mays L.) J Integr Agric. :doi: 10.1016/j.jia.2024.01.023. | | Reference: January 17th, 2024
Gene Product: September 1st, 2003
Variation: March 30th, 2007
|
| 3 months ago | abi48 | ABI3-VP1-transcription factor 48: | | | Chenglin Zou et al. 2024. Physiological Characteristic Changes and Transcriptome Analysis of Maize (Zea mays L.) Roots under Drought Stress Int J Genomics. 2024:5681174. | | Reference: January 17th, 2024
Gene Product: January 29th, 2022
|
| 3 months ago | hsftf28 | HSF-transcription factor 28: | | | Chenglin Zou et al. 2024. Physiological Characteristic Changes and Transcriptome Analysis of Maize (Zea mays L.) Roots under Drought Stress Int J Genomics. 2024:5681174. | | Reference: January 17th, 2024
Gene Product: May 15th, 2020
|
| 3 months ago | mrpa27 | multidrug resistance associated protein27: | | | Kun Zhang et al. 2024. Root Morphological Identification and Candidate Gene Discovery of Maize Inbred Lines at Seedling Stage J Plant Genet Resour. 25:84-96. | | Reference: January 16th, 2024
Gene Product: July 11th, 2019
|
| 3 months ago | mate13 | multidrug and toxic compound extrusion13: | | | Kun Zhang et al. 2024. Root Morphological Identification and Candidate Gene Discovery of Maize Inbred Lines at Seedling Stage J Plant Genet Resour. 25:84-96. | | Reference: January 16th, 2024
Gene Product: August 17th, 2015
|
| 3 months ago | hsf1 | hairy sheath frayed1: | 5.06 - 5.07 | GRMZM2G151223
| Bocianowski, J 2024. Using NGS Technology and Association Mapping to Identify Candidate Genes Associated with Fusarium Stalk Rot Resistance Genes. 15:106. | | Reference: January 16th, 2024
Gene Product: May 20th, 2016
Variation: August 23rd, 2019
Gene Model: August 23rd, 2019
|
| 3 months ago | arftf27 | ARF-transcription factor 27: | | | Kun Zhang et al. 2024. Root Morphological Identification and Candidate Gene Discovery of Maize Inbred Lines at Seedling Stage J Plant Genet Resour. 25:84-96. | | Reference: January 16th, 2024
Gene Product: January 29th, 2022
|
| 3 months ago | grp3 | glycine-rich protein3: | 5.03 | | Bocianowski, J 2024. Using NGS Technology and Association Mapping to Identify Candidate Genes Associated with Fusarium Stalk Rot Resistance Genes. 15:106. | | Reference: January 16th, 2024
Gene Product: September 18th, 2020
Variation: September 1st, 2003
|
| 3 months ago | mate11 | multidrug and toxic compound extrusion11: | 1.08 | GRMZM5G800723
| Kun Zhang et al. 2024. Root Morphological Identification and Candidate Gene Discovery of Maize Inbred Lines at Seedling Stage J Plant Genet Resour. 25:84-96. | | Reference: January 16th, 2024
Gene Product: August 17th, 2015
Gene Model: March 23rd, 2022
|
| 3 months ago | nas9 | nicotianamine synthase9: | | GRMZM2G124785
| Kun Zhang et al. 2024. Root Morphological Identification and Candidate Gene Discovery of Maize Inbred Lines at Seedling Stage J Plant Genet Resour. 25:84-96. | | Reference: January 16th, 2024
Gene Product: July 26th, 2013
Gene Model: July 26th, 2013
|
| 3 months ago | cpps3 | copalyl diphosphate synthase3: | | GRMZM2G068808
| Kun Zhang et al. 2024. Root Morphological Identification and Candidate Gene Discovery of Maize Inbred Lines at Seedling Stage J Plant Genet Resour. 25:84-96. | | Reference: January 16th, 2024
Gene Product: August 16th, 2012
Gene Model: October 27th, 2014
|
| 3 months ago | gpat12 | glycerol-3-phosphate acyltransferase12: | | GRMZM2G166176
| Kun Zhang et al. 2024. Root Morphological Identification and Candidate Gene Discovery of Maize Inbred Lines at Seedling Stage J Plant Genet Resour. 25:84-96. | | Reference: January 16th, 2024
Gene Product: March 25th, 2019
Gene Model: March 25th, 2019
|
| 3 months ago | mrpa10 | multidrug resistance protein associated10: | | AC234203.1_FG004
| Bocianowski, J 2024. Using NGS Technology and Association Mapping to Identify Candidate Genes Associated with Fusarium Stalk Rot Resistance Genes. 15:106. | | Reference: January 16th, 2024
Gene Product: July 11th, 2019
Gene Model: July 12th, 2019
|
| 3 months ago | ysl13 | yellow stripe-like transporter13: | | GRMZM2G024196
| Kun Zhang et al. 2024. Root Morphological Identification and Candidate Gene Discovery of Maize Inbred Lines at Seedling Stage J Plant Genet Resour. 25:84-96. | | Reference: January 16th, 2024
Gene Product: September 1st, 2003
Gene Model: July 8th, 2020
|
| 3 months ago | chls3 | chalcone synthase3: | | GRMZM2G175812
| Kun Zhang et al. 2024. Root Morphological Identification and Candidate Gene Discovery of Maize Inbred Lines at Seedling Stage J Plant Genet Resour. 25:84-96. | | Reference: January 16th, 2024
Gene Product: September 1st, 2003
Gene Model: December 20th, 2020
|
| 3 months ago | bsk5 | brassinosteroid-signaling kinase5: | | GRMZM2G382104
| Bocianowski, J 2024. Using NGS Technology and Association Mapping to Identify Candidate Genes Associated with Fusarium Stalk Rot Resistance Genes. 15:106. | | Reference: January 16th, 2024
Gene Product: May 13th, 2014
Gene Model: April 20th, 2021
|
| 3 months ago | chn28 | chitinase28: | | GRMZM2G057766
| Sadaf Anwaar et al. 2024. Cloning of maize chitinase 1 gene and its expression in genetically transformed rice to confer resistance against rice blast caused by Pyricularia oryzae PLoS One. 19:e0291939. | | Reference: January 16th, 2024
Gene Product: May 31st, 2021
Gene Model: May 31st, 2021
|
| 3 months ago | srt101 | sirtuin 101: | 10.04 | GRMZM2G058573
| Kun Zhang et al. 2024. Root Morphological Identification and Candidate Gene Discovery of Maize Inbred Lines at Seedling Stage J Plant Genet Resour. 25:84-96. | | Reference: January 16th, 2024
Gene Product: February 12th, 2020
Variation: February 12th, 2020
Gene Model: February 12th, 2020
|
| 3 months ago | cka2 | CK2 protein kinase alpha 2: | 1.10 | | Kun Zhang et al. 2024. Root Morphological Identification and Candidate Gene Discovery of Maize Inbred Lines at Seedling Stage J Plant Genet Resour. 25:84-96. | | Reference: January 16th, 2024
Gene Product: December 3rd, 2013
Variation: November 16th, 2012
|
| 3 months ago | bm4 | brown midrib4: | 9.08 | GRMZM2G393334
| Maksim Suslov et al. 2024. Real-Time Dynamics of Water Transport in the Roots of Intact Maize Plants in Response to Water Stress: The Role of Aquaporins and the Contribution of Different Water Transport Pathways Cells. 13:154. | | Reference: January 15th, 2024
Gene Product: December 17th, 2014
Variation: December 17th, 2014
Gene Model: December 17th, 2014
|
| 3 months ago | rpp9 | resistance to Puccinia polysora and Puccinia sorghi9: | 10.01 | | He, B et al. 2024. Maize Improvement Based on Modern Breeding Strategies: Progress and Perspective ACS Agric Sci Technol. :doi: 10.1021/acsagscitech.3c00427. | | Reference: January 15th, 2024
Gene Product: January 17th, 2022
Variation: January 17th, 2022
|
| 3 months ago | sod3 | superoxide dismutase3: | 6.05 | | Wang, YH et al. 2024. Physiological Mechanisms Underlying Tassel Symptom Formation in Maize Infected with Sporisorium reilianum Plants. 13:238. | | Reference: January 15th, 2024
Gene Product: October 4th, 2021
Variation: July 10th, 2015
|
| 3 months ago | tip1 | tonoplast intrinsic protein1: | 10.04 | GRMZM2G168439
| Maksim Suslov et al. 2024. Real-Time Dynamics of Water Transport in the Roots of Intact Maize Plants in Response to Water Stress: The Role of Aquaporins and the Contribution of Different Water Transport Pathways Cells. 13:154. | | Reference: January 15th, 2024
Gene Product: January 27th, 2022
Variation: September 1st, 2003
Gene Model: February 5th, 2015
|
| 3 months ago | pip1a | plasma membrane intrinsic protein1: | 2.03 | GRMZM2G174807
| Maksim Suslov et al. 2024. Real-Time Dynamics of Water Transport in the Roots of Intact Maize Plants in Response to Water Stress: The Role of Aquaporins and the Contribution of Different Water Transport Pathways Cells. 13:154. | | Reference: January 15th, 2024
Gene Product: January 27th, 2022
Variation: June 6th, 2005
Gene Model: October 29th, 2014
|
| 3 months ago | pip1d | plasma membrane intrinsic protein1: | 4.06 | GRMZM2G392975
| Virginia Protto et al. 2024. Primary, seminal and lateral roots of maize show type-specific growth and hydraulic responses to water deficit. Plant Physiol. :doi: 10.1093/plphys/kiad675. | | Reference: January 15th, 2024
Gene Product: January 27th, 2022
Variation: October 29th, 2014
Gene Model: October 29th, 2014
|
| 3 months ago | pip1e | plasma membrane intrinsic protein1: | 4.06 | | Maksim Suslov et al. 2024. Real-Time Dynamics of Water Transport in the Roots of Intact Maize Plants in Response to Water Stress: The Role of Aquaporins and the Contribution of Different Water Transport Pathways Cells. 13:154. | | Reference: January 15th, 2024
Gene Product: January 27th, 2022
Variation: October 24th, 2014
|
| 3 months ago | pip1f | plasma membrane intrinsic protein1: | 9.01 | GRMZM2G136032
| Virginia Protto et al. 2024. Primary, seminal and lateral roots of maize show type-specific growth and hydraulic responses to water deficit. Plant Physiol. :doi: 10.1093/plphys/kiad675. | | Reference: January 15th, 2024
Gene Product: January 27th, 2022
Variation: September 1st, 2003
Gene Model: January 25th, 2020
|
| 3 months ago | pip2e | plasma membrane intrinsic protein2: | 7.02 | | Maksim Suslov et al. 2024. Real-Time Dynamics of Water Transport in the Roots of Intact Maize Plants in Response to Water Stress: The Role of Aquaporins and the Contribution of Different Water Transport Pathways Cells. 13:154. | | Reference: January 15th, 2024
Gene Product: September 1st, 2003
Variation: June 6th, 2005
|
| 3 months ago | pip2b | plasma membrane intrinsic protein2: | 2.06 | | Maksim Suslov et al. 2024. Real-Time Dynamics of Water Transport in the Roots of Intact Maize Plants in Response to Water Stress: The Role of Aquaporins and the Contribution of Different Water Transport Pathways Cells. 13:154. | | Reference: January 15th, 2024
Gene Product: September 1st, 2003
Variation: March 19th, 2013
|
| 3 months ago | pip2c | plasma membrane intrinsic protein2: | 4.06 | | Maksim Suslov et al. 2024. Real-Time Dynamics of Water Transport in the Roots of Intact Maize Plants in Response to Water Stress: The Role of Aquaporins and the Contribution of Different Water Transport Pathways Cells. 13:154. | | Reference: January 15th, 2024
Gene Product: September 1st, 2003
Variation: March 25th, 2013
|
| 3 months ago | pip2d | plasma membrane intrinsic protein2: | 5.05 | | Maksim Suslov et al. 2024. Real-Time Dynamics of Water Transport in the Roots of Intact Maize Plants in Response to Water Stress: The Role of Aquaporins and the Contribution of Different Water Transport Pathways Cells. 13:154. | | Reference: January 15th, 2024
Gene Product: September 1st, 2003
Variation: March 7th, 2007
|
| 3 months ago | tip2a | tonoplast intrinsic protein2: | 4.06 | GRMZM2G027098
| Maksim Suslov et al. 2024. Real-Time Dynamics of Water Transport in the Roots of Intact Maize Plants in Response to Water Stress: The Role of Aquaporins and the Contribution of Different Water Transport Pathways Cells. 13:154. | | Reference: January 15th, 2024
Gene Product: January 27th, 2022
Variation: September 1st, 2003
Gene Model: February 5th, 2015
|
| 3 months ago | pip2g | plasma membrane intrinsic protein2: | | | Virginia Protto et al. 2024. Primary, seminal and lateral roots of maize show type-specific growth and hydraulic responses to water deficit. Plant Physiol. :doi: 10.1093/plphys/kiad675. | | Reference: January 15th, 2024
Gene Product: September 1st, 2003
Variation: September 1st, 2003
|
| 3 months ago | uce4 | ubiquitin conjugating enzyme4: | 2.01 | | Maksim Suslov et al. 2024. Real-Time Dynamics of Water Transport in the Roots of Intact Maize Plants in Response to Water Stress: The Role of Aquaporins and the Contribution of Different Water Transport Pathways Cells. 13:154. | | Reference: January 15th, 2024
Gene Product: December 19th, 2019
Variation: July 29th, 2004
|
| 3 months ago | zar8 | Zea mays ARGOS8: | | GRMZM2G354338
| He, B et al. 2024. Maize Improvement Based on Modern Breeding Strategies: Progress and Perspective ACS Agric Sci Technol. :doi: 10.1021/acsagscitech.3c00427. | | Reference: January 15th, 2024
Gene Product: August 3rd, 2015
Gene Model: August 1st, 2015
|
| 3 months ago | myb72 | MYB-transcription factor 72: | 2.04 | | Wu, HY et al. 2023. Identification and characterization of waterlogging-responsive genes in the parental line of maize hybrid An’nong 876 Genet Mol Biol. 46:e20230026. | | Reference: January 12th, 2024
Variation: September 25th, 2007
|
| 3 months ago | mybr96 | MYB-related-transcription factor 96: | 5.03 | | Wu, HY et al. 2023. Identification and characterization of waterlogging-responsive genes in the parental line of maize hybrid An’nong 876 Genet Mol Biol. 46:e20230026. | | Reference: January 12th, 2024
Variation: September 25th, 2007
|
| 3 months ago | col4 | C2C2-CO-like-transcription factor 4: | | | Wu, HY et al. 2023. Identification and characterization of waterlogging-responsive genes in the parental line of maize hybrid An’nong 876 Genet Mol Biol. 46:e20230026. | | Reference: January 12th, 2024
Gene Product: June 18th, 2018
|
| 3 months ago | pap25 | purple acid phosphatase25: | | | Wu, HY et al. 2023. Identification and characterization of waterlogging-responsive genes in the parental line of maize hybrid An’nong 876 Genet Mol Biol. 46:e20230026. | | Reference: January 12th, 2024
Gene Product: November 21st, 2018
|
| 3 months ago | pap28 | purple acid phosphatase28: | | | Wu, HY et al. 2023. Identification and characterization of waterlogging-responsive genes in the parental line of maize hybrid An’nong 876 Genet Mol Biol. 46:e20230026. | | Reference: January 12th, 2024
Gene Product: November 21st, 2018
|
| 3 months ago | hsftf25 | HSF-transcription factor 25: | | | Wu, HY et al. 2023. Identification and characterization of waterlogging-responsive genes in the parental line of maize hybrid An’nong 876 Genet Mol Biol. 46:e20230026. | | Reference: January 12th, 2024
Gene Product: May 15th, 2020
|
| 3 months ago | nlp17 | NLP-transcription factor 17: | | | Wu, HY et al. 2023. Identification and characterization of waterlogging-responsive genes in the parental line of maize hybrid An’nong 876 Genet Mol Biol. 46:e20230026. | | Reference: January 12th, 2024
Gene Product: December 3rd, 2019
|
| 3 months ago | zhd6 | ZF-HD-transcription factor 6: | | | Wu, HY et al. 2023. Identification and characterization of waterlogging-responsive genes in the parental line of maize hybrid An’nong 876 Genet Mol Biol. 46:e20230026. | | Reference: January 12th, 2024
Gene Product: August 24th, 2022
|
| 3 months ago | bhlh96 | bHLH-transcription factor 96: | | | Wu, HY et al. 2023. Identification and characterization of waterlogging-responsive genes in the parental line of maize hybrid An’nong 876 Genet Mol Biol. 46:e20230026. | AT3G26744 (TAIR) | Reference: January 12th, 2024
Gene Product: September 14th, 2016
|
| 3 months ago | dcl4 | dicer-like4: | 1.09 | GRMZM2G050869
| Eliandro Espindula et al. 2024. Maize—Azospirillum brasilense interaction: accessing maize’s miRNA expression under the effect of an inhibitor of indole-3-acetic acid production by the plant Braz J Microbiol. :doi: 10.1007/s42770-023-01236-3. | | Reference: January 12th, 2024
Gene Product: September 5th, 2006
Variation: July 27th, 2015
Gene Model: July 27th, 2015
|
| 3 months ago | cyp26 | cytochrome P-450 26: | | GRMZM2G087875
| Wu, HY et al. 2023. Identification and characterization of waterlogging-responsive genes in the parental line of maize hybrid An’nong 876 Genet Mol Biol. 46:e20230026. | | Reference: January 12th, 2024
Gene Product: December 30th, 2022
Gene Model: November 30th, 2018
|
| 3 months ago | npf10 | nitrate transporter/peptide transporter family10: | | GRMZM2G044851
| Wu, HY et al. 2023. Identification and characterization of waterlogging-responsive genes in the parental line of maize hybrid An’nong 876 Genet Mol Biol. 46:e20230026. | | Reference: January 12th, 2024
Gene Product: September 1st, 2003
Gene Model: May 21st, 2019
|
| 3 months ago | laz6 | lazarus ortholog6: | | GRMZM2G071688
| Wu, HY et al. 2023. Identification and characterization of waterlogging-responsive genes in the parental line of maize hybrid An’nong 876 Genet Mol Biol. 46:e20230026. | | Reference: January 12th, 2024
Gene Product: July 27th, 2019
Gene Model: July 27th, 2019
|
| 3 months ago | nlp15 | NLP-transcription factor 15: | 5.03 | GRMZM2G042278
| Wu, HY et al. 2023. Identification and characterization of waterlogging-responsive genes in the parental line of maize hybrid An’nong 876 Genet Mol Biol. 46:e20230026. | | Reference: January 12th, 2024
Gene Product: December 3rd, 2019
Variation: December 3rd, 2019
Gene Model: October 7th, 2017
|
| 3 months ago | fae2 | fatty acid elongase2: | 9.03 | | Stenback, KE et al. 2022. Modifying the yeast very long chain fatty acid biosynthetic machinery by the expression of plant 3-ketoacyl CoA synthase isozymes. Sci. Rep.. 12:13235. | | Reference: January 11th, 2024
Variation: January 9th, 2019
|
| 3 months ago | ad1 | adherent1: | 1.08 | GRMZM2G167438
| Stenback, KE et al. 2022. Modifying the yeast very long chain fatty acid biosynthetic machinery by the expression of plant 3-ketoacyl CoA synthase isozymes. Sci. Rep.. 12:13235. | | Reference: January 11th, 2024
Gene Product: November 1st, 2018
Variation: February 13th, 2020
Gene Model: February 13th, 2020
|
| 3 months ago | gl4 | glossy4: | 4.06 | GRMZM2G003501
| Stenback, KE et al. 2022. Modifying the yeast very long chain fatty acid biosynthetic machinery by the expression of plant 3-ketoacyl CoA synthase isozymes. Sci. Rep.. 12:13235. | | Reference: January 11th, 2024
Gene Product: November 1st, 2018
Variation: November 1st, 2018
Gene Model: October 31st, 2018
|
| 3 months ago | kcs15 | 3-ketoacyl-CoA synthase15: | 1.08 | GRMZM2G162508
| Stenback, KE et al. 2022. Modifying the yeast very long chain fatty acid biosynthetic machinery by the expression of plant 3-ketoacyl CoA synthase isozymes. Sci. Rep.. 12:13235. | | Reference: January 11th, 2024
Gene Product: November 1st, 2018
Variation: November 4th, 2016
Gene Model: November 4th, 2016
|
| 3 months ago | kcs31 | 3-ketoacyl-CoA synthase31: | 5.03 | GRMZM2G137694
| Stenback, KE et al. 2022. Modifying the yeast very long chain fatty acid biosynthetic machinery by the expression of plant 3-ketoacyl CoA synthase isozymes. Sci. Rep.. 12:13235. | | Reference: January 11th, 2024
Gene Product: November 1st, 2018
Variation: September 1st, 2003
Gene Model: June 23rd, 2018
|
| 3 months ago | kcs35 | 3-ketoacyl-CoA synthase35: | 3.09 | GRMZM2G409312
| Stenback, KE et al. 2022. Modifying the yeast very long chain fatty acid biosynthetic machinery by the expression of plant 3-ketoacyl CoA synthase isozymes. Sci. Rep.. 12:13235. | | Reference: January 11th, 2024
Gene Product: November 1st, 2018
Gene Model: April 10th, 2020
|
| 3 months ago | kcs19 | 3-ketoacyl-CoA synthase19: | | GRMZM2G062718
| Stenback, KE et al. 2022. Modifying the yeast very long chain fatty acid biosynthetic machinery by the expression of plant 3-ketoacyl CoA synthase isozymes. Sci. Rep.. 12:13235. | | Reference: January 11th, 2024
Gene Product: November 1st, 2018
Gene Model: February 13th, 2020
|
| 3 months ago | kcs9 | 3-ketoacyl-CoA synthase9: | | GRMZM2G104626
| Stenback, KE et al. 2022. Modifying the yeast very long chain fatty acid biosynthetic machinery by the expression of plant 3-ketoacyl CoA synthase isozymes. Sci. Rep.. 12:13235. | | Reference: January 11th, 2024
Gene Product: November 1st, 2018
Gene Model: February 13th, 2020
|
| 3 months ago | kcs11 | 3-ketoacyl-CoA synthase11: | | GRMZM2G149636
| Stenback, KE et al. 2022. Modifying the yeast very long chain fatty acid biosynthetic machinery by the expression of plant 3-ketoacyl CoA synthase isozymes. Sci. Rep.. 12:13235. | | Reference: January 11th, 2024
Gene Product: November 1st, 2018
Gene Model: February 13th, 2020
|
| 3 months ago | kcs18 | 3-ketoacyl-CoA synthase18: | | GRMZM2G156620
| Stenback, KE et al. 2022. Modifying the yeast very long chain fatty acid biosynthetic machinery by the expression of plant 3-ketoacyl CoA synthase isozymes. Sci. Rep.. 12:13235. | | Reference: January 11th, 2024
Gene Product: November 1st, 2018
Gene Model: February 13th, 2020
|
| 3 months ago | kcs16 | 3-ketoacyl-CoA synthase16: | | GRMZM2G160417
| Stenback, KE et al. 2022. Modifying the yeast very long chain fatty acid biosynthetic machinery by the expression of plant 3-ketoacyl CoA synthase isozymes. Sci. Rep.. 12:13235. | | Reference: January 11th, 2024
Gene Product: November 1st, 2018
Gene Model: February 13th, 2020
|
| 3 months ago | kcs28 | 3-ketoacyl-CoA synthase28: | | GRMZM2G164974
| Stenback, KE et al. 2022. Modifying the yeast very long chain fatty acid biosynthetic machinery by the expression of plant 3-ketoacyl CoA synthase isozymes. Sci. Rep.. 12:13235. | | Reference: January 11th, 2024
Gene Product: November 1st, 2018
Gene Model: February 13th, 2020
|
| 3 months ago | kcs24 | 3-ketoacyl-CoA synthase24: | | GRMZM5G894016
| Stenback, KE et al. 2022. Modifying the yeast very long chain fatty acid biosynthetic machinery by the expression of plant 3-ketoacyl CoA synthase isozymes. Sci. Rep.. 12:13235. | | Reference: January 11th, 2024
Gene Product: November 1st, 2018
Variation: January 11th, 2024
Gene Model: February 13th, 2020
|
| 3 months ago | kcs36 | 3-ketoacyl-CoA synthase36: | | AC233893.1_FG003
| Stenback, KE et al. 2022. Modifying the yeast very long chain fatty acid biosynthetic machinery by the expression of plant 3-ketoacyl CoA synthase isozymes. Sci. Rep.. 12:13235. | | Reference: January 11th, 2024
Gene Product: November 1st, 2018
Gene Model: May 19th, 2020
|
| 3 months ago | kcs34 | 3-ketoacyl-CoA synthase34: | | GRMZM2G060481
| Stenback, KE et al. 2022. Modifying the yeast very long chain fatty acid biosynthetic machinery by the expression of plant 3-ketoacyl CoA synthase isozymes. Sci. Rep.. 12:13235. | | Reference: January 11th, 2024
Gene Product: November 1st, 2018
Gene Model: May 19th, 2020
|
| 3 months ago | kcs29 | 3-ketoacyl-CoA synthase29: | | GRMZM2G569948
| Stenback, KE et al. 2022. Modifying the yeast very long chain fatty acid biosynthetic machinery by the expression of plant 3-ketoacyl CoA synthase isozymes. Sci. Rep.. 12:13235. | | Reference: January 11th, 2024
Gene Product: November 1st, 2018
Gene Model: March 23rd, 2022
|
| 3 months ago | kcs30 | 3-ketoacyl-CoA synthase30: | | GRMZM2G031790
| Stenback, KE et al. 2022. Modifying the yeast very long chain fatty acid biosynthetic machinery by the expression of plant 3-ketoacyl CoA synthase isozymes. Sci. Rep.. 12:13235. | AT1G04220 (TAIR) | Reference: January 11th, 2024
Gene Product: November 1st, 2018
Gene Model: March 23rd, 2022
|
| 3 months ago | kcs33 | 3-ketoacyl-CoA synthase33: | | GRMZM2G168304
| Stenback, KE et al. 2022. Modifying the yeast very long chain fatty acid biosynthetic machinery by the expression of plant 3-ketoacyl CoA synthase isozymes. Sci. Rep.. 12:13235. | | Reference: January 11th, 2024
Gene Product: November 1st, 2018
Gene Model: March 23rd, 2022
|
| 3 months ago | kcs37 | 3-ketoacyl-CoA synthase37: | | GRMZM2G032095
| Stenback, KE et al. 2022. Modifying the yeast very long chain fatty acid biosynthetic machinery by the expression of plant 3-ketoacyl CoA synthase isozymes. Sci. Rep.. 12:13235. | | Reference: January 11th, 2024
Gene Product: November 1st, 2018
Variation: January 11th, 2024
Gene Model: March 23rd, 2022
|
| 3 months ago | kcs38 | 3-ketoacyl-CoA synthase38: | | GRMZM2G020740
| Stenback, KE et al. 2022. Modifying the yeast very long chain fatty acid biosynthetic machinery by the expression of plant 3-ketoacyl CoA synthase isozymes. Sci. Rep.. 12:13235. | | Reference: January 11th, 2024
Gene Product: November 1st, 2018
Gene Model: March 23rd, 2022
|
| 3 months ago | kcs39 | 3-ketoacyl-CoA synthase39: | | GRMZM2G003138
| Stenback, KE et al. 2022. Modifying the yeast very long chain fatty acid biosynthetic machinery by the expression of plant 3-ketoacyl CoA synthase isozymes. Sci. Rep.. 12:13235. | | Reference: January 11th, 2024
Gene Product: November 1st, 2018
Gene Model: March 23rd, 2022
|
| 3 months ago | kcs40 | 3-ketoacyl-CoA synthase40: | | GRMZM2G151476
| Stenback, KE et al. 2022. Modifying the yeast very long chain fatty acid biosynthetic machinery by the expression of plant 3-ketoacyl CoA synthase isozymes. Sci. Rep.. 12:13235. | | Reference: January 11th, 2024
Gene Product: November 1st, 2018
Gene Model: March 23rd, 2022
|
| 3 months ago | kcs1 | 3-ketoacyl-CoA synthase1: | 8.03 | GRMZM2G393897
| Stenback, KE et al. 2022. Modifying the yeast very long chain fatty acid biosynthetic machinery by the expression of plant 3-ketoacyl CoA synthase isozymes. Sci. Rep.. 12:13235. | | Reference: January 11th, 2024
Gene Product: November 1st, 2018
Gene Model: March 12th, 2019
|
| 3 months ago | gl15 | glossy15: | 9.03 | | Poethig, RS et al. 2024. Temporal regulation of vegetative phase change in plants. Dev Cell. 59:4-19. | | Reference: January 10th, 2024
Variation: October 5th, 2012
|
| 3 months ago | tp1 | teopod1: | 7.03 | | Poethig, RS et al. 2024. Temporal regulation of vegetative phase change in plants. Dev Cell. 59:4-19. | | Reference: January 10th, 2024
Variation: October 24th, 2005
|
| 3 months ago | tp2 | teopod2: | 10.04 - 10.05 | | Poethig, RS et al. 2024. Temporal regulation of vegetative phase change in plants. Dev Cell. 59:4-19. | | Reference: January 10th, 2024
Variation: October 24th, 2005
|
| 3 months ago | ts4 | tasselseed4: | 3.05 - 3.05 | | Poethig, RS et al. 2024. Temporal regulation of vegetative phase change in plants. Dev Cell. 59:4-19. | | Reference: January 10th, 2024
Gene Product: June 17th, 2016
Variation: October 25th, 2023
|
| 3 months ago | wrky111 | WRKY-transcription factor 111: | | | Niharika Sharma et al. 2024. Molecular Basis and Engineering Strategies for Transcription Factor-Mediated Reproductive-Stage Heat Tolerance in Crop Plants Agronomy. 14:159. | | Reference: January 10th, 2024
Gene Product: July 24th, 2017
Variation: July 24th, 2017
|
| 4 months ago | tcptf24 | TCP-transcription factor 24: | | | Xuanlong Lv et al. 2024. Heat stress and sexual reproduction in maize: unveiling the most pivotal factors and the biggest opportunities. J Exp Bot. :doi: 10.1093/jxb/erad506. | | Reference: January 8th, 2024
Gene Product: September 27th, 2019
|
| 4 months ago | tcptf7 | TCP-transcription factor 7: | | | Xuanlong Lv et al. 2024. Heat stress and sexual reproduction in maize: unveiling the most pivotal factors and the biggest opportunities. J Exp Bot. :doi: 10.1093/jxb/erad506. | | Reference: January 8th, 2024
Gene Product: September 27th, 2019
|
| 4 months ago | trx2 | thioredoxin2: | | GRMZM2G082886
| Xuanlong Lv et al. 2024. Heat stress and sexual reproduction in maize: unveiling the most pivotal factors and the biggest opportunities. J Exp Bot. :doi: 10.1093/jxb/erad506. | | Reference: January 8th, 2024
Gene Product: August 31st, 2020
Gene Model: August 31st, 2020
|
| 4 months ago | ea1 | egg apparatus1: | 7.04 | | Xuanlong Lv et al. 2024. Heat stress and sexual reproduction in maize: unveiling the most pivotal factors and the biggest opportunities. J Exp Bot. :doi: 10.1093/jxb/erad506. | | Reference: January 8th, 2024
Gene Product: December 4th, 2021
|
| 4 months ago | aldh31 | aldehyde dehydrogenase31: | | | Zhang, SW et al. 2024. Genome-Wide Characterization of the Aldehyde Dehydrogenase Gene Superfamily in Maize and Its Potential Role in Anther Development ACS Agric Sci Technol. :doi: 10.1021/acsagscitech.3c00430. | | Reference: January 5th, 2024
Gene Product: June 28th, 2005
|
| 4 months ago | aldh35 | aldehyde dehydrogenase35: | | | Zhang, SW et al. 2024. Genome-Wide Characterization of the Aldehyde Dehydrogenase Gene Superfamily in Maize and Its Potential Role in Anther Development ACS Agric Sci Technol. :doi: 10.1021/acsagscitech.3c00430. | | Reference: January 5th, 2024
Gene Product: June 28th, 2005
|
| 4 months ago | aldh32 | aldehyde dehydrogenase32: | | | Zhang, SW et al. 2024. Genome-Wide Characterization of the Aldehyde Dehydrogenase Gene Superfamily in Maize and Its Potential Role in Anther Development ACS Agric Sci Technol. :doi: 10.1021/acsagscitech.3c00430. | | Reference: January 5th, 2024
Gene Product: January 5th, 2024
|
| 4 months ago | aldh22 | aldehyde dehydrogenase22: | 7.06 | GRMZM2G135341
| Zhang, SW et al. 2024. Genome-Wide Characterization of the Aldehyde Dehydrogenase Gene Superfamily in Maize and Its Potential Role in Anther Development ACS Agric Sci Technol. :doi: 10.1021/acsagscitech.3c00430. | | Reference: January 5th, 2024
Gene Product: January 5th, 2024
Variation: April 11th, 2017
Gene Model: April 11th, 2017
|
| 4 months ago | gpn1 | glyceraldehyde-3-phosphate deHaseN1: | 4.05 | GRMZM2G035268
| Zhang, SW et al. 2024. Genome-Wide Characterization of the Aldehyde Dehydrogenase Gene Superfamily in Maize and Its Potential Role in Anther Development ACS Agric Sci Technol. :doi: 10.1021/acsagscitech.3c00430. | | Reference: January 5th, 2024
Gene Product: September 1st, 2003
Variation: June 8th, 2010
Gene Model: July 27th, 2016
|
| 4 months ago | mis1 | putative aldehyde dehydrogenase MIS1: | | GRMZM2G090087
| Zhang, SW et al. 2024. Genome-Wide Characterization of the Aldehyde Dehydrogenase Gene Superfamily in Maize and Its Potential Role in Anther Development ACS Agric Sci Technol. :doi: 10.1021/acsagscitech.3c00430. | | Reference: January 5th, 2024
Gene Product: January 5th, 2024
Variation: January 15th, 2011
Gene Model: January 22nd, 2016
|
| 4 months ago | aldh8 | aldehyde dehydrogenase8: | | GRMZM2G325115
| Zhang, SW et al. 2024. Genome-Wide Characterization of the Aldehyde Dehydrogenase Gene Superfamily in Maize and Its Potential Role in Anther Development ACS Agric Sci Technol. :doi: 10.1021/acsagscitech.3c00430. | | Reference: January 5th, 2024
Gene Product: January 5th, 2024
Gene Model: October 2nd, 2019
|
| 4 months ago | aldh14 | aldehyde dehydrogenase14: | | GRMZM2G060800
| Zhang, SW et al. 2024. Genome-Wide Characterization of the Aldehyde Dehydrogenase Gene Superfamily in Maize and Its Potential Role in Anther Development ACS Agric Sci Technol. :doi: 10.1021/acsagscitech.3c00430. | | Reference: January 5th, 2024
Gene Product: January 5th, 2024
Gene Model: October 2nd, 2019
|
| 4 months ago | aldh15 | aldehyde dehydrogenase15: | | GRMZM2G119482
| Zhang, SW et al. 2024. Genome-Wide Characterization of the Aldehyde Dehydrogenase Gene Superfamily in Maize and Its Potential Role in Anther Development ACS Agric Sci Technol. :doi: 10.1021/acsagscitech.3c00430. | | Reference: January 5th, 2024
Gene Product: January 5th, 2024
Gene Model: October 2nd, 2019
|
| 4 months ago | aldh16 | aldehyde dehydrogenase16: | | GRMZM2G128114
| Zhang, SW et al. 2024. Genome-Wide Characterization of the Aldehyde Dehydrogenase Gene Superfamily in Maize and Its Potential Role in Anther Development ACS Agric Sci Technol. :doi: 10.1021/acsagscitech.3c00430. | | Reference: January 5th, 2024
Gene Product: January 5th, 2024
Gene Model: October 2nd, 2019
|
| 4 months ago | aldh19 | aldehyde dehydrogenase19: | | GRMZM2G365440
| Zhang, SW et al. 2024. Genome-Wide Characterization of the Aldehyde Dehydrogenase Gene Superfamily in Maize and Its Potential Role in Anther Development ACS Agric Sci Technol. :doi: 10.1021/acsagscitech.3c00430. | | Reference: January 5th, 2024
Gene Product: January 5th, 2024
Gene Model: October 2nd, 2019
|
| 4 months ago | aldh25 | aldehyde dehydrogenase25: | | GRMZM2G103546
| Zhang, SW et al. 2024. Genome-Wide Characterization of the Aldehyde Dehydrogenase Gene Superfamily in Maize and Its Potential Role in Anther Development ACS Agric Sci Technol. :doi: 10.1021/acsagscitech.3c00430. | | Reference: January 5th, 2024
Gene Product: January 5th, 2024
Gene Model: October 2nd, 2019
|
| 4 months ago | aldh28 | aldehyde dehydrogenase28: | | GRMZM2G354187
| Zhang, SW et al. 2024. Genome-Wide Characterization of the Aldehyde Dehydrogenase Gene Superfamily in Maize and Its Potential Role in Anther Development ACS Agric Sci Technol. :doi: 10.1021/acsagscitech.3c00430. | | Reference: January 5th, 2024
Gene Product: January 5th, 2024
Gene Model: October 2nd, 2019
|
| 4 months ago | aldh10 | aldehyde dehydrogenase10: | | GRMZM5G811837
| Zhou, ML et al. 2012. Funct Integr Genomics 12:683-691 | | Reference: October 2nd, 2019
Gene Product: January 5th, 2024
Gene Model: October 2nd, 2019
|
| 4 months ago | aldh12 | aldehyde dehydrogenase12: | | GRMZM5G820733
| Zhang, SW et al. 2024. Genome-Wide Characterization of the Aldehyde Dehydrogenase Gene Superfamily in Maize and Its Potential Role in Anther Development ACS Agric Sci Technol. :doi: 10.1021/acsagscitech.3c00430. | | Reference: January 5th, 2024
Gene Product: January 5th, 2024
Gene Model: October 2nd, 2019
|
| 4 months ago | aldh20 | aldehyde dehydrogenase20: | | GRMZM2G130440
| Zhang, SW et al. 2024. Genome-Wide Characterization of the Aldehyde Dehydrogenase Gene Superfamily in Maize and Its Potential Role in Anther Development ACS Agric Sci Technol. :doi: 10.1021/acsagscitech.3c00430. | | Reference: January 5th, 2024
Gene Product: January 5th, 2024
Gene Model: October 2nd, 2019
|
| 4 months ago | aldh21 | aldehyde dehydrogenase21: | 7.02 | GRMZM2G108076
| Zhang, SW et al. 2024. Genome-Wide Characterization of the Aldehyde Dehydrogenase Gene Superfamily in Maize and Its Potential Role in Anther Development ACS Agric Sci Technol. :doi: 10.1021/acsagscitech.3c00430. | | Reference: January 5th, 2024
Gene Product: January 5th, 2024
Gene Model: October 2nd, 2019
|
| 4 months ago | LOC100383797 | : | | | Zhu, L et al. 2024. Receptor-like kinases and their signaling cascades for plant male fertility: loyal messengers New Phytol. :doi: 10.1111/nph.19527. | | Reference: January 4th, 2024
Gene Product: February 1st, 2023
|
| 4 months ago | flr10 | feronia-like receptor10: | | | Zhu, L et al. 2024. Receptor-like kinases and their signaling cascades for plant male fertility: loyal messengers New Phytol. :doi: 10.1111/nph.19527. | | Reference: January 4th, 2024
Gene Product: July 10th, 2019
|
| 4 months ago | flr7 | feronia-like receptor7: | | | Zhu, L et al. 2024. Receptor-like kinases and their signaling cascades for plant male fertility: loyal messengers New Phytol. :doi: 10.1111/nph.19527. | | Reference: January 4th, 2024
Gene Product: July 10th, 2019
|
| 4 months ago | Zm00001d034240 | : | | | Zhu, L et al. 2024. Receptor-like kinases and their signaling cascades for plant male fertility: loyal messengers New Phytol. :doi: 10.1111/nph.19527. | | Reference: January 4th, 2024
Gene Product: February 1st, 2023
|
| 4 months ago | flr4 | feronia-like receptor4: | | | Zhu, L et al. 2024. Receptor-like kinases and their signaling cascades for plant male fertility: loyal messengers New Phytol. :doi: 10.1111/nph.19527. | | Reference: January 4th, 2024
Gene Product: July 10th, 2019
|
| 4 months ago | flr5 | feronia-like receptor5: | | | Zhu, L et al. 2024. Receptor-like kinases and their signaling cascades for plant male fertility: loyal messengers New Phytol. :doi: 10.1111/nph.19527. | | Reference: January 4th, 2024
Gene Product: July 10th, 2019
|
| 4 months ago | Zm00001d015971 | : | | | Zhu, L et al. 2024. Receptor-like kinases and their signaling cascades for plant male fertility: loyal messengers New Phytol. :doi: 10.1111/nph.19527. | | Reference: January 4th, 2024
Gene Product: February 1st, 2023
|
| 4 months ago | Zm00001d033652 | : | | | Zhu, L et al. 2024. Receptor-like kinases and their signaling cascades for plant male fertility: loyal messengers New Phytol. :doi: 10.1111/nph.19527. | | Reference: January 4th, 2024
Gene Product: February 1st, 2023
|
| 4 months ago | Zm00001d022066 | : | | | Zhu, L et al. 2024. Receptor-like kinases and their signaling cascades for plant male fertility: loyal messengers New Phytol. :doi: 10.1111/nph.19527. | | Reference: January 4th, 2024
Gene Product: February 1st, 2023
|
| 4 months ago | Zm00001d048822 | : | | | Zhu, L et al. 2024. Receptor-like kinases and their signaling cascades for plant male fertility: loyal messengers New Phytol. :doi: 10.1111/nph.19527. | | Reference: January 4th, 2024
Gene Product: February 1st, 2023
|
| 4 months ago | Zm00001d045013 | : | | | Zhu, L et al. 2024. Receptor-like kinases and their signaling cascades for plant male fertility: loyal messengers New Phytol. :doi: 10.1111/nph.19527. | | Reference: January 4th, 2024
Gene Product: February 1st, 2023
|
| 4 months ago | Zm00001d013162 | : | | | Zhu, L et al. 2024. Receptor-like kinases and their signaling cascades for plant male fertility: loyal messengers New Phytol. :doi: 10.1111/nph.19527. | | Reference: January 4th, 2024
Gene Product: February 1st, 2023
|
| 4 months ago | Zm00001d006420 | : | | | Zhu, L et al. 2024. Receptor-like kinases and their signaling cascades for plant male fertility: loyal messengers New Phytol. :doi: 10.1111/nph.19527. | | Reference: January 4th, 2024
Gene Product: February 1st, 2023
|
| 4 months ago | Zm00001d014971 | : | | | Zhu, L et al. 2024. Receptor-like kinases and their signaling cascades for plant male fertility: loyal messengers New Phytol. :doi: 10.1111/nph.19527. | | Reference: January 4th, 2024
Gene Product: February 1st, 2023
|
| 4 months ago | Zm00001d014063 | : | | | Zhu, L et al. 2024. Receptor-like kinases and their signaling cascades for plant male fertility: loyal messengers New Phytol. :doi: 10.1111/nph.19527. | | Reference: January 4th, 2024
Gene Product: February 1st, 2023
|
| 4 months ago | Zm00001d015891 | : | | | Zhu, L et al. 2024. Receptor-like kinases and their signaling cascades for plant male fertility: loyal messengers New Phytol. :doi: 10.1111/nph.19527. | | Reference: January 4th, 2024
Gene Product: February 1st, 2023
|
| 4 months ago | pza02462 | : | 5.01 | | Zhu, L et al. 2024. Receptor-like kinases and their signaling cascades for plant male fertility: loyal messengers New Phytol. :doi: 10.1111/nph.19527. | | Reference: January 4th, 2024
Gene Product: February 1st, 2023
Variation: September 25th, 2007
|
| 4 months ago | er3 | erecta-like3: | 9.03 | | Zhu, L et al. 2024. Receptor-like kinases and their signaling cascades for plant male fertility: loyal messengers New Phytol. :doi: 10.1111/nph.19527. | | Reference: January 4th, 2024
Gene Product: July 10th, 2019
|
| 4 months ago | bnlg2271 | : | 7.03 | GRMZM2G313643
| Zhu, L et al. 2024. Receptor-like kinases and their signaling cascades for plant male fertility: loyal messengers New Phytol. :doi: 10.1111/nph.19527. | | Reference: January 4th, 2024
Gene Product: February 1st, 2023
Variation: September 1st, 2003
Gene Model: September 10th, 2018
|
| 4 months ago | eno1 | enolase1: | 9.02 | | Zhu, L et al. 2024. Receptor-like kinases and their signaling cascades for plant male fertility: loyal messengers New Phytol. :doi: 10.1111/nph.19527. | | Reference: January 4th, 2024
Gene Product: September 1st, 2003
Variation: September 25th, 2007
|
| 4 months ago | umc83a | : | 1.08 | GRMZM2G001812
| Zhu, L et al. 2024. Receptor-like kinases and their signaling cascades for plant male fertility: loyal messengers New Phytol. :doi: 10.1111/nph.19527. | | Reference: January 4th, 2024
Gene Product: February 1st, 2023
Gene Model: January 31st, 2017
|
| 4 months ago | mmp150 | : | 6.05 | GRMZM2G095588
| Zhu, L et al. 2024. Receptor-like kinases and their signaling cascades for plant male fertility: loyal messengers New Phytol. :doi: 10.1111/nph.19527. | | Reference: January 4th, 2024
Gene Product: February 1st, 2023
Gene Model: August 29th, 2018
|
| 4 months ago | hdt103 | histone deacetylase103: | 6.07 | GRMZM2G159032
| Wang, XD et al. 2024. ZmHDT103 Negatively Regulates Drought Stress Tolerance in Maize Seedlings Agronomy. 14:134. | | Reference: January 4th, 2024
Gene Product: February 12th, 2020
Variation: January 4th, 2024
Gene Model: July 27th, 2016
|
| 4 months ago | stk2 | serine-threonine kinase2: | 2.04 | GRMZM2G179268
| Zhu, L et al. 2024. Receptor-like kinases and their signaling cascades for plant male fertility: loyal messengers New Phytol. :doi: 10.1111/nph.19527. | | Reference: January 4th, 2024
Gene Product: May 13th, 2014
Gene Model: January 9th, 2017
|
| 4 months ago | brl2 | bri1-like receptor kinase2: | | GRMZM2G002515
| Zhu, L et al. 2024. Receptor-like kinases and their signaling cascades for plant male fertility: loyal messengers New Phytol. :doi: 10.1111/nph.19527. | AT2G01950 (TAIR)
LOC_Os10g02500 (MSU/TIGR) | Reference: January 4th, 2024
Gene Product: February 1st, 2023
Variation: July 17th, 2015
Gene Model: July 16th, 2015
|
| 4 months ago | flr6 | feronia-like receptor6: | | GRMZM2G180071
| Zhu, L et al. 2024. Receptor-like kinases and their signaling cascades for plant male fertility: loyal messengers New Phytol. :doi: 10.1111/nph.19527. | | Reference: January 4th, 2024
Gene Product: July 10th, 2019
Gene Model: February 8th, 2019
|
| 4 months ago | er1 | erecta-like1: | | GRMZM2G463904
| Zhu, L et al. 2024. Receptor-like kinases and their signaling cascades for plant male fertility: loyal messengers New Phytol. :doi: 10.1111/nph.19527. | | Reference: January 4th, 2024
Gene Product: July 10th, 2019
Gene Model: July 10th, 2019
|
| 4 months ago | flr3 | feronia-like receptor3: | | GRMZM2G042055
| Zhu, L et al. 2024. Receptor-like kinases and their signaling cascades for plant male fertility: loyal messengers New Phytol. :doi: 10.1111/nph.19527. | AT3G51550 (TAIR) | Reference: January 4th, 2024
Gene Product: July 10th, 2019
Gene Model: March 17th, 2020
|
| 4 months ago | rlk7 | receptor-like protein kinase7: | | GRMZM2G149051
| Zhu, L et al. 2024. Receptor-like kinases and their signaling cascades for plant male fertility: loyal messengers New Phytol. :doi: 10.1111/nph.19527. | LOC_Os09g30190 (MSU/TIGR) | Reference: January 4th, 2024
Gene Product: July 10th, 2019
Gene Model: November 11th, 2020
|
| 4 months ago | rlk2 | receptor-like protein kinase2: | | GRMZM2G039431
| Zhu, L et al. 2024. Receptor-like kinases and their signaling cascades for plant male fertility: loyal messengers New Phytol. :doi: 10.1111/nph.19527. | | Reference: January 4th, 2024
Gene Product: July 10th, 2019
Gene Model: November 11th, 2020
|
| 4 months ago | rlk5 | receptor-like protein kinase5: | | AC233861.1_FG001
| Zhu, L et al. 2024. Receptor-like kinases and their signaling cascades for plant male fertility: loyal messengers New Phytol. :doi: 10.1111/nph.19527. | | Reference: January 4th, 2024
Gene Product: July 10th, 2019
Gene Model: November 11th, 2020
|
| 4 months ago | Zm00001d049588 | : | | GRMZM2G039934
| Zhu, L et al. 2024. Receptor-like kinases and their signaling cascades for plant male fertility: loyal messengers New Phytol. :doi: 10.1111/nph.19527. | | Reference: January 4th, 2024
Gene Product: February 1st, 2023
Gene Model: February 22nd, 2021
|
| 4 months ago | flr2 | feronia-like receptor2: | | GRMZM2G100288
| Zhu, L et al. 2024. Receptor-like kinases and their signaling cascades for plant male fertility: loyal messengers New Phytol. :doi: 10.1111/nph.19527. | AT3G51550 (TAIR) | Reference: January 4th, 2024
Gene Product: July 10th, 2019
Gene Model: May 21st, 2022
|
| 4 months ago | er2 | erecta-like2: | 6.05 | GRMZM5G809695
| Zhu, L et al. 2024. Receptor-like kinases and their signaling cascades for plant male fertility: loyal messengers New Phytol. :doi: 10.1111/nph.19527. | | Reference: January 4th, 2024
Gene Product: July 10th, 2019
Gene Model: July 10th, 2019
|
| 4 months ago | flr9 | feronia-like receptor9: | 9.03 | | Zhu, L et al. 2024. Receptor-like kinases and their signaling cascades for plant male fertility: loyal messengers New Phytol. :doi: 10.1111/nph.19527. | | Reference: January 4th, 2024
Gene Product: July 10th, 2019
|
| 4 months ago | stk1 | serine threonine kinase1: | 9.02 | | Zhu, L et al. 2024. Receptor-like kinases and their signaling cascades for plant male fertility: loyal messengers New Phytol. :doi: 10.1111/nph.19527. | | Reference: January 4th, 2024
Gene Product: May 13th, 2014
Variation: October 10th, 2018
|
| 4 months ago | eno2 | enolase2: | 1.05 | GRMZM2G048371
| Zhu, L et al. 2024. Receptor-like kinases and their signaling cascades for plant male fertility: loyal messengers New Phytol. :doi: 10.1111/nph.19527. | | Reference: January 4th, 2024
Gene Product: September 1st, 2003
Variation: May 1st, 2014
Gene Model: September 5th, 2012
|
| 4 months ago | flr12 | feronia-like receptor12: | 6.05 | GRMZM5G897958
| Zhu, L et al. 2024. Receptor-like kinases and their signaling cascades for plant male fertility: loyal messengers New Phytol. :doi: 10.1111/nph.19527. | | Reference: January 4th, 2024
Gene Product: July 10th, 2019
Gene Model: January 11th, 2020
|
| 4 months ago | a2 | anthocyaninless2: | 5.03 | | Chen, WW et al. 2024. Genome-wide association study of kernel colour traits and mining of elite alleles from the major loci in maize BMC Plant Biology. 24:25. | | Reference: January 3rd, 2024
Gene Product: June 7th, 2012
Variation: September 1st, 2003
|
| 4 months ago | chi3 | chalcone flavanone isomerase3: | 5.00 | GRMZM2G119186
| Chen, WW et al. 2024. Genome-wide association study of kernel colour traits and mining of elite alleles from the major loci in maize BMC Plant Biology. 24:25. | | Reference: January 3rd, 2024
Gene Product: January 26th, 2021
Variation: May 13th, 2012
Gene Model: May 9th, 2012
|
| 4 months ago | chi1 | chalcone flavanone isomerase1: | 1.11 | GRMZM2G155329
| Chen, WW et al. 2024. Genome-wide association study of kernel colour traits and mining of elite alleles from the major loci in maize BMC Plant Biology. 24:25. | | Reference: January 3rd, 2024
Gene Product: January 26th, 2021
Variation: October 10th, 2012
Gene Model: May 9th, 2012
|
| 4 months ago | cgt1 | C-glucosyl transferase1: | | GRMZM2G162783
| Chen, WW et al. 2024. Genome-wide association study of kernel colour traits and mining of elite alleles from the major loci in maize BMC Plant Biology. 24:25. | | Reference: January 3rd, 2024
Gene Product: September 24th, 2018
Gene Model: September 24th, 2018
|
| 4 months ago | prp25 | pathogenesis-related protein25: | | | Bangtai Wang et al. 2024. Genome-wide association study for stalk lodging resistance related traits in maize (Zea mays L.) BMC Genomics. 25:19. | | Reference: January 2nd, 2024
Gene Product: December 12th, 2022
|
| 4 months ago | rpn10 | regulatory particle non-ATPase 10: | | | Zhang, L et al. 2024. Genetic variation in ZmKW1 contributes to kernel weight and size in dent corn and popcorn. Plant Biotechnol J. | AT4G38630 (TAIR) | Reference: January 2nd, 2024
Variation: December 22nd, 2022
|
| 4 months ago | plt30 | phospholipid transfer protein30: | | | Zhang, L et al. 2024. Genetic variation in ZmKW1 contributes to kernel weight and size in dent corn and popcorn. Plant Biotechnol J. | | Reference: January 2nd, 2024
Gene Product: September 1st, 2003
|
| 4 months ago | Zm00001eb057120 | : | | | Zhang, H et al. 2024. Reveal the kernel dehydration mechanisms in maize based on proteomic and metabolomic analysis. BMC Plant Biology. 24:15. | | Reference: January 2nd, 2024
Gene Product: January 31st, 2019
|
| 4 months ago | Zm00001d019358 | : | | | Zainab M Almutairi 2022. In Silico Identification and Characterization of B12D Family Proteins in Viridiplantae. Evol Bioinform. 18:11769343221106795. | | Reference: January 2nd, 2024
Gene Product: January 2nd, 2024
|
| 4 months ago | Zm00001d005500 | : | | | Zainab M Almutairi 2022. In Silico Identification and Characterization of B12D Family Proteins in Viridiplantae. Evol Bioinform. 18:11769343221106795. | | Reference: January 2nd, 2024
Gene Product: January 2nd, 2024
|
| 4 months ago | ysl21 | yellow stripe-like transporter21: | | | Song, ZZ et al. 2024. Identification and characterization of yellow stripe-like genes in maize suggest their roles in the uptake and transport of zinc and iron. BMC Plant Biology. 24:3. | | Reference: January 2nd, 2024
Gene Product: September 1st, 2003
|
| 4 months ago | ysl22 | yellow stripe-like transporter22: | | | Song, ZZ et al. 2024. Identification and characterization of yellow stripe-like genes in maize suggest their roles in the uptake and transport of zinc and iron. BMC Plant Biology. 24:3. | | Reference: January 2nd, 2024
Gene Product: September 1st, 2003
|
| 4 months ago | ysl23 | yellow stripe-like transporter23: | | | Song, ZZ et al. 2024. Identification and characterization of yellow stripe-like genes in maize suggest their roles in the uptake and transport of zinc and iron. BMC Plant Biology. 24:3. | | Reference: January 2nd, 2024
Gene Product: September 1st, 2003
|
| 4 months ago | ysl19 | yellow stripe-like transporter19: | | | Song, ZZ et al. 2024. Identification and characterization of yellow stripe-like genes in maize suggest their roles in the uptake and transport of zinc and iron. BMC Plant Biology. 24:3. | | Reference: January 2nd, 2024
Gene Product: September 1st, 2003
|
| 4 months ago | myb63 | MYB-transcription factor 63: | 4.08 | | Bangtai Wang et al. 2024. Genome-wide association study for stalk lodging resistance related traits in maize (Zea mays L.) BMC Genomics. 25:19. | | Reference: January 2nd, 2024
Gene Product: July 25th, 2017
Variation: August 24th, 2017
|
| 4 months ago | IDP4955 | : | 10.06 | GRMZM2G402027
| Liu, HF et al. 2024. ZmC2H2-149 negatively regulates drought tolerance by repressing ZmHSD1 in maize. Plant Cell Environ. :doi: 10.1111/pce.14798. | | Reference: January 2nd, 2024
Variation: January 2nd, 2024
Gene Model: July 21st, 2021
|
| 4 months ago | fl3 | floury3: | 8.03 | GRMZM2G006585
| Yuan, Y et al. 2024. Decoding the gene regulatory network of endosperm differentiation in maize Nat Commun. 15:34. | | Reference: January 2nd, 2024
Gene Product: September 7th, 2017
Variation: September 7th, 2017
Gene Model: September 7th, 2017
|
| 4 months ago | al9 | aleurone9: | 8.08 | GRMZM2G091054
| Yuan, Y et al. 2024. Decoding the gene regulatory network of endosperm differentiation in maize Nat Commun. 15:34. | | Reference: January 2nd, 2024
Variation: October 14th, 2009
Gene Model: January 14th, 2016
|
| 4 months ago | esr6 | embryo surrounding region6: | 4.09 | GRMZM2G048353
| Yuan, Y et al. 2024. Decoding the gene regulatory network of endosperm differentiation in maize Nat Commun. 15:34. | | Reference: January 2nd, 2024
Gene Product: December 12th, 2022
Variation: January 5th, 2016
Gene Model: January 5th, 2016
|
| 4 months ago | mc1 | mucronate1: | 2.06 | GRMZM2G518638
| Yuan, Y et al. 2024. Decoding the gene regulatory network of endosperm differentiation in maize Nat Commun. 15:34. | | Reference: January 2nd, 2024
Gene Product: September 17th, 2010
Variation: September 16th, 2010
Gene Model: July 8th, 2013
|
| 4 months ago | mch1 | maize CRY1 homolog1: | | GRMZM5G805627
| Zhang, H et al. 2024. Reveal the kernel dehydration mechanisms in maize based on proteomic and metabolomic analysis. BMC Plant Biology. 24:15. | | Reference: January 2nd, 2024
Gene Product: September 1st, 2003
Variation: October 14th, 2010
Gene Model: August 31st, 2018
|
| 4 months ago | mn1 | miniature seed1: | 2.04 | | Yuan, Y et al. 2024. Decoding the gene regulatory network of endosperm differentiation in maize Nat Commun. 15:34. | | Reference: January 2nd, 2024
Gene Product: June 12th, 2018
Variation: April 13th, 2015
|
| 4 months ago | ms8 | male sterile8: | 8.06 | GRMZM2G119265
| Yuan, Y et al. 2024. Decoding the gene regulatory network of endosperm differentiation in maize Nat Commun. 15:34. | | Reference: January 2nd, 2024
Gene Product: July 29th, 2013
Variation: July 29th, 2013
Gene Model: July 29th, 2013
|
| 4 months ago | o11 | opaque endosperm11: | | GRMZM2G147685
| Yuan, Y et al. 2024. Decoding the gene regulatory network of endosperm differentiation in maize Nat Commun. 15:34. | AT1G49770 (TAIR) | Reference: January 2nd, 2024
Gene Product: September 14th, 2016
Variation: February 8th, 2018
Gene Model: February 8th, 2018
|
| 4 months ago | sh4 | shrunken4: | 5.05 | GRMZM2G135291
| Song, ZZ et al. 2024. Identification and characterization of yellow stripe-like genes in maize suggest their roles in the uptake and transport of zinc and iron. BMC Plant Biology. 24:3. | | Reference: January 2nd, 2024
Gene Product: September 1st, 2003
Variation: November 29th, 2023
Gene Model: May 8th, 2021
|
| 4 months ago | ys1 | yellow stripe1: | 5.05 - 5.06 | | Song, ZZ et al. 2024. Identification and characterization of yellow stripe-like genes in maize suggest their roles in the uptake and transport of zinc and iron. BMC Plant Biology. 24:3. | | Reference: January 2nd, 2024
Gene Product: September 1st, 2003
Variation: March 9th, 2018
|
| 4 months ago | esr1 | embryo surrounding region1: | 1.02 | GRMZM2G046086
| Yuan, Y et al. 2024. Decoding the gene regulatory network of endosperm differentiation in maize Nat Commun. 15:34. | | Reference: January 2nd, 2024
Gene Product: September 1st, 2003
Variation: June 12th, 2012
Gene Model: January 5th, 2016
|
| 4 months ago | esr2 | embryo surrounding region2: | 1.02 | GRMZM2G315601
| Yuan, Y et al. 2024. Decoding the gene regulatory network of endosperm differentiation in maize Nat Commun. 15:34. | | Reference: January 2nd, 2024
Gene Product: September 1st, 2003
Variation: June 12th, 2012
Gene Model: January 5th, 2016
|
| 4 months ago | sam2 | S-adenosyl methionine decarboxylase2: | 2.04 | | Bangtai Wang et al. 2024. Genome-wide association study for stalk lodging resistance related traits in maize (Zea mays L.) BMC Genomics. 25:19. | | Reference: January 2nd, 2024
Gene Product: September 1st, 2003
Variation: July 13th, 2013
|
| 4 months ago | arftf7 | ARF-transcription factor 7: | | | Yuan, Y et al. 2024. Decoding the gene regulatory network of endosperm differentiation in maize Nat Commun. 15:34. | | Reference: January 2nd, 2024
Gene Product: January 29th, 2022
|
| 4 months ago | farl1 | FAR1-like-transcription factor 1: | | | Huaijun Tang et al. 2024. Genome-Wide Identification and Expression Analyses of the FAR1/FHY3 Gene Family Provide Insight into Inflorescence Development in Maize Curr Issues Mol Biol. 46:430-449. | | Reference: January 2nd, 2024
Gene Product: June 28th, 2019
|
| 4 months ago | farl10 | FAR1-like-transcription factor 10: | | | Huaijun Tang et al. 2024. Genome-Wide Identification and Expression Analyses of the FAR1/FHY3 Gene Family Provide Insight into Inflorescence Development in Maize Curr Issues Mol Biol. 46:430-449. | | Reference: January 2nd, 2024
Gene Product: June 28th, 2019
|
| 4 months ago | farl12 | FAR1-like-transcription factor 12: | | | Huaijun Tang et al. 2024. Genome-Wide Identification and Expression Analyses of the FAR1/FHY3 Gene Family Provide Insight into Inflorescence Development in Maize Curr Issues Mol Biol. 46:430-449. | | Reference: January 2nd, 2024
Gene Product: June 28th, 2019
|
| 4 months ago | farl13 | FAR1-like-transcription factor 13: | | | Huaijun Tang et al. 2024. Genome-Wide Identification and Expression Analyses of the FAR1/FHY3 Gene Family Provide Insight into Inflorescence Development in Maize Curr Issues Mol Biol. 46:430-449. | | Reference: January 2nd, 2024
Gene Product: June 28th, 2019
|
| 4 months ago | farl14 | FAR1-like-transcription factor 14: | | | Huaijun Tang et al. 2024. Genome-Wide Identification and Expression Analyses of the FAR1/FHY3 Gene Family Provide Insight into Inflorescence Development in Maize Curr Issues Mol Biol. 46:430-449. | | Reference: January 2nd, 2024
Gene Product: June 28th, 2019
|
| 4 months ago | farl15 | FAR1-like-transcription factor 15: | | | Huaijun Tang et al. 2024. Genome-Wide Identification and Expression Analyses of the FAR1/FHY3 Gene Family Provide Insight into Inflorescence Development in Maize Curr Issues Mol Biol. 46:430-449. | | Reference: January 2nd, 2024
Gene Product: June 28th, 2019
|
| 4 months ago | farl2 | FAR1-like-transcription factor 2: | | | Huaijun Tang et al. 2024. Genome-Wide Identification and Expression Analyses of the FAR1/FHY3 Gene Family Provide Insight into Inflorescence Development in Maize Curr Issues Mol Biol. 46:430-449. | | Reference: January 2nd, 2024
Gene Product: June 28th, 2019
|
| 4 months ago | farl3 | FAR1-like-transcription factor 3: | | | Huaijun Tang et al. 2024. Genome-Wide Identification and Expression Analyses of the FAR1/FHY3 Gene Family Provide Insight into Inflorescence Development in Maize Curr Issues Mol Biol. 46:430-449. | | Reference: January 2nd, 2024
Gene Product: June 28th, 2019
|
| 4 months ago | farl5 | FAR1-like-transcription factor 5: | | | Huaijun Tang et al. 2024. Genome-Wide Identification and Expression Analyses of the FAR1/FHY3 Gene Family Provide Insight into Inflorescence Development in Maize Curr Issues Mol Biol. 46:430-449. | | Reference: January 2nd, 2024
Gene Product: June 28th, 2019
|
| 4 months ago | farl6 | FAR1-like-transcription factor 6: | | | Huaijun Tang et al. 2024. Genome-Wide Identification and Expression Analyses of the FAR1/FHY3 Gene Family Provide Insight into Inflorescence Development in Maize Curr Issues Mol Biol. 46:430-449. | | Reference: January 2nd, 2024
Gene Product: June 28th, 2019
|
| 4 months ago | farl7 | FAR1-like-transcription factor 7: | | | Huaijun Tang et al. 2024. Genome-Wide Identification and Expression Analyses of the FAR1/FHY3 Gene Family Provide Insight into Inflorescence Development in Maize Curr Issues Mol Biol. 46:430-449. | | Reference: January 2nd, 2024
Gene Product: June 28th, 2019
|
| 4 months ago | farl8 | FAR1-like-transcription factor 8: | | | Huaijun Tang et al. 2024. Genome-Wide Identification and Expression Analyses of the FAR1/FHY3 Gene Family Provide Insight into Inflorescence Development in Maize Curr Issues Mol Biol. 46:430-449. | | Reference: January 2nd, 2024
Gene Product: June 28th, 2019
|
| 4 months ago | farl9 | FAR1-like-transcription factor 9: | | | Huaijun Tang et al. 2024. Genome-Wide Identification and Expression Analyses of the FAR1/FHY3 Gene Family Provide Insight into Inflorescence Development in Maize Curr Issues Mol Biol. 46:430-449. | | Reference: January 2nd, 2024
Gene Product: June 28th, 2019
|
| 4 months ago | wrky15 | WRKY-transcription factor 15: | | | Gu, L et al. 2023. ZmB12D, a target of transcription factor ZmWRKY70, enhances the tolerance of Arabidopsis to submergence Plant Physiol Biochem. 206:108322. | | Reference: January 2nd, 2024
Gene Product: July 24th, 2017
|
| 4 months ago | sweet15a | sugars will eventually be exported transporter15a: | 4.05 | GRMZM2G168365
| Yuan, Y et al. 2024. Decoding the gene regulatory network of endosperm differentiation in maize Nat Commun. 15:34. | | Reference: January 2nd, 2024
Gene Product: November 4th, 2015
Variation: September 1st, 2003
Gene Model: November 3rd, 2015
|
| 4 months ago | nkd2 | naked endosperm2: | 10.06 | GRMZM5G884137
| Yuan, Y et al. 2024. Decoding the gene regulatory network of endosperm differentiation in maize Nat Commun. 15:34. | | Reference: January 2nd, 2024
Gene Product: January 3rd, 2015
Variation: December 21st, 2017
Gene Model: December 21st, 2017
|
| 4 months ago | zp27 | 27-kDa zein protein: | 7.02 | | Yuan, Y et al. 2024. Decoding the gene regulatory network of endosperm differentiation in maize Nat Commun. 15:34. | | Reference: January 2nd, 2024
Gene Product: September 17th, 2010
Variation: December 10th, 2019
|
| 4 months ago | tar1 | tryptophan aminotransferase related1: | 6.05 | GRMZM2G127160
| Yuan, Y et al. 2024. Decoding the gene regulatory network of endosperm differentiation in maize Nat Commun. 15:34. | | Reference: January 2nd, 2024
Gene Product: April 30th, 2011
Gene Model: June 4th, 2012
|
| 4 months ago | ole1 | oleosin1: | 2.03 | | Zhang, L et al. 2024. Genetic variation in ZmKW1 contributes to kernel weight and size in dent corn and popcorn. Plant Biotechnol J. | | Reference: January 2nd, 2024
Gene Product: July 23rd, 2018
Variation: February 20th, 2015
|
| 4 months ago | AY110393 | : | 1.04 | GRMZM2G084783
| Bangtai Wang et al. 2024. Genome-wide association study for stalk lodging resistance related traits in maize (Zea mays L.) BMC Genomics. 25:19. | | Reference: January 2nd, 2024
Variation: September 25th, 2007
Gene Model: February 10th, 2017
|
| 4 months ago | farl16 | FAR1-like-transcription factor 16: | 2.04 | | Huaijun Tang et al. 2024. Genome-Wide Identification and Expression Analyses of the FAR1/FHY3 Gene Family Provide Insight into Inflorescence Development in Maize Curr Issues Mol Biol. 46:430-449. | | Reference: January 2nd, 2024
Gene Product: June 28th, 2019
Variation: May 20th, 2006
|
| 4 months ago | hag103a | histone acetyl transferase GNAT/MYST103a: | 2.04 | GRMZM2G100872
| Can Hu et al. 2024. Genetic dissection of resistance to gray leaf spot by genome-wide association study in a multi-parent maize population. BMC Plant Biology. 24:10. | | Reference: January 2nd, 2024
Gene Product: January 4th, 2018
Variation: September 1st, 2003
Gene Model: January 4th, 2018
|
| 4 months ago | hmg9 | HMG-transcription factor 9: | 5.04 | GRMZM2G060253
| Yuan, Y et al. 2024. Decoding the gene regulatory network of endosperm differentiation in maize Nat Commun. 15:34. | | Reference: January 2nd, 2024
Variation: September 1st, 2003
Gene Model: August 28th, 2021
|
| 4 months ago | sina4 | seven in absentia4: | 1.04 | GRMZM2G061624
| Zhang, L et al. 2024. Genetic variation in ZmKW1 contributes to kernel weight and size in dent corn and popcorn. Plant Biotechnol J. | | Reference: January 2nd, 2024
Gene Product: January 24th, 2021
Variation: January 2nd, 2024
Gene Model: February 7th, 2020
|
| 4 months ago | pco099353 | : | 2.08 | GRMZM2G151826
| Zhang, L et al. 2024. Genetic variation in ZmKW1 contributes to kernel weight and size in dent corn and popcorn. Plant Biotechnol J. | | Reference: January 2nd, 2024
Variation: September 25th, 2007
Gene Model: March 21st, 2020
|
| 4 months ago | apt1 | aberrant pollen transmission1: | 9.04 | GRMZM2G448687
| Zhang, H et al. 2024. Reveal the kernel dehydration mechanisms in maize based on proteomic and metabolomic analysis. BMC Plant Biology. 24:15. | | Reference: January 2nd, 2024
Variation: October 15th, 2012
Gene Model: May 31st, 2014
|
| 4 months ago | de18 | defective18: | 10.03 | GRMZM2G091819
| Yuan, Y et al. 2024. Decoding the gene regulatory network of endosperm differentiation in maize Nat Commun. 15:34. | | Reference: January 2nd, 2024
Gene Product: June 18th, 2018
Variation: January 21st, 2016
Gene Model: September 11th, 2012
|
| 4 months ago | meg14 | maternally expressed gene14: | | GRMZM2G145466
| Yuan, Y et al. 2024. Decoding the gene regulatory network of endosperm differentiation in maize Nat Commun. 15:34. | | Reference: January 2nd, 2024
Variation: August 29th, 2014
Gene Model: August 29th, 2014
|
| 4 months ago | ysl15 | yellow stripe-like transporter15: | 4.06 | GRMZM2G368398
| Song, ZZ et al. 2024. Identification and characterization of yellow stripe-like genes in maize suggest their roles in the uptake and transport of zinc and iron. BMC Plant Biology. 24:3. | | Reference: January 2nd, 2024
Gene Product: September 1st, 2003
Gene Model: April 18th, 2020
|
| 4 months ago | def2 | defensin-like protein2: | | GRMZM2G368861
| Yuan, Y et al. 2024. Decoding the gene regulatory network of endosperm differentiation in maize Nat Commun. 15:34. | | Reference: January 2nd, 2024
Gene Product: December 12th, 2022
Gene Model: June 10th, 2016
|
| 4 months ago | sbt1 | subtilisin1: | | GRMZM2G437435
| Yuan, Y et al. 2024. Decoding the gene regulatory network of endosperm differentiation in maize Nat Commun. 15:34. | | Reference: January 2nd, 2024
Gene Product: November 11th, 2016
Variation: November 11th, 2016
Gene Model: November 11th, 2016
|
| 4 months ago | vpp7 | vacuolar proton pump7: | | GRMZM2G069095
| Yuan, Y et al. 2024. Decoding the gene regulatory network of endosperm differentiation in maize Nat Commun. 15:34. | | Reference: January 2nd, 2024
Gene Product: September 1st, 2003
Gene Model: August 25th, 2018
|
| 4 months ago | lea14 | late embryogenesis abundant protein14: | | GRMZM2G050607
| Zhang, H et al. 2024. Reveal the kernel dehydration mechanisms in maize based on proteomic and metabolomic analysis. BMC Plant Biology. 24:15. | | Reference: January 2nd, 2024
Gene Product: January 31st, 2019
Gene Model: January 31st, 2019
|
| 4 months ago | ysl20 | yellow stripe-like transporter20: | | GRMZM2G358051
| Song, ZZ et al. 2024. Identification and characterization of yellow stripe-like genes in maize suggest their roles in the uptake and transport of zinc and iron. BMC Plant Biology. 24:3. | | Reference: January 2nd, 2024
Gene Product: September 1st, 2003
Gene Model: July 10th, 2019
|
| 4 months ago | thx35 | Trihelix-transcription factor 35: | | GRMZM2G081445
| Yuan, Y et al. 2024. Decoding the gene regulatory network of endosperm differentiation in maize Nat Commun. 15:34. | | Reference: January 2nd, 2024
Gene Product: November 9th, 2021
Gene Model: August 7th, 2019
|
| 4 months ago | kw9 | kernel weight9: | | GRMZM2G171994
| Zhang, L et al. 2024. Genetic variation in ZmKW1 contributes to kernel weight and size in dent corn and popcorn. Plant Biotechnol J. | | Reference: January 2nd, 2024
Gene Product: December 27th, 2016
Gene Model: June 2nd, 2020
|
| 4 months ago | ysl1 | yellow stripe-like transporter1: | | GRMZM2G051179
| Song, ZZ et al. 2024. Identification and characterization of yellow stripe-like genes in maize suggest their roles in the uptake and transport of zinc and iron. BMC Plant Biology. 24:3. | | Reference: January 2nd, 2024
Gene Product: September 1st, 2003
Gene Model: July 8th, 2020
|
| 4 months ago | ysl6 | yellow stripe-like transporter6: | | GRMZM2G085833
| Song, ZZ et al. 2024. Identification and characterization of yellow stripe-like genes in maize suggest their roles in the uptake and transport of zinc and iron. BMC Plant Biology. 24:3. | | Reference: January 2nd, 2024
Gene Product: September 1st, 2003
Gene Model: July 8th, 2020
|
| 4 months ago | ysl11 | yellow stripe-like transporter11: | | GRMZM5G812538
| Song, ZZ et al. 2024. Identification and characterization of yellow stripe-like genes in maize suggest their roles in the uptake and transport of zinc and iron. BMC Plant Biology. 24:3. | | Reference: January 2nd, 2024
Gene Product: September 1st, 2003
Gene Model: July 8th, 2020
|
| 4 months ago | ysl9 | yellow stripe-like transporter9: | | GRMZM5G814926
| Song, ZZ et al. 2024. Identification and characterization of yellow stripe-like genes in maize suggest their roles in the uptake and transport of zinc and iron. BMC Plant Biology. 24:3. | | Reference: January 2nd, 2024
Gene Product: September 1st, 2003
Gene Model: July 8th, 2020
|
| 4 months ago | ysl12 | yellow stripe-like transporter12: | | GRMZM5G893444
| Song, ZZ et al. 2024. Identification and characterization of yellow stripe-like genes in maize suggest their roles in the uptake and transport of zinc and iron. BMC Plant Biology. 24:3. | | Reference: January 2nd, 2024
Gene Product: September 1st, 2003
Gene Model: July 8th, 2020
|
| 4 months ago | ysl17 | yellow stripe-like transporter17: | | GRMZM2G049238
| Song, ZZ et al. 2024. Identification and characterization of yellow stripe-like genes in maize suggest their roles in the uptake and transport of zinc and iron. BMC Plant Biology. 24:3. | | Reference: January 2nd, 2024
Gene Product: September 1st, 2003
Gene Model: July 8th, 2020
|
| 4 months ago | ysl10 | yellow stripe-like transporter10: | | GRMZM2G062844
| Song, ZZ et al. 2024. Identification and characterization of yellow stripe-like genes in maize suggest their roles in the uptake and transport of zinc and iron. BMC Plant Biology. 24:3. | | Reference: January 2nd, 2024
Gene Product: September 1st, 2003
Gene Model: July 8th, 2020
|
| 4 months ago | ysl14 | yellow stripe-like transporter14: | | GRMZM2G120922
| Song, ZZ et al. 2024. Identification and characterization of yellow stripe-like genes in maize suggest their roles in the uptake and transport of zinc and iron. BMC Plant Biology. 24:3. | | Reference: January 2nd, 2024
Gene Product: September 1st, 2003
Gene Model: July 8th, 2020
|
| 4 months ago | ysl18 | yellow stripe-like transporter18: | | GRMZM2G004440
| Song, ZZ et al. 2024. Identification and characterization of yellow stripe-like genes in maize suggest their roles in the uptake and transport of zinc and iron. BMC Plant Biology. 24:3. | | Reference: January 2nd, 2024
Gene Product: September 1st, 2003
Gene Model: July 8th, 2020
|
| 4 months ago | ysl8 | yellow stripe-like transporter8: | | GRMZM2G018148
| Song, ZZ et al. 2024. Identification and characterization of yellow stripe-like genes in maize suggest their roles in the uptake and transport of zinc and iron. BMC Plant Biology. 24:3. | | Reference: January 2nd, 2024
Gene Product: September 1st, 2003
Gene Model: July 9th, 2020
|
| 4 months ago | Zm00001d022084 | : | | GRMZM2G045155
| Zainab M Almutairi 2022. In Silico Identification and Characterization of B12D Family Proteins in Viridiplantae. Evol Bioinform. 18:11769343221106795. | AT3G29970 (TAIR) | Reference: January 2nd, 2024
Gene Product: January 2nd, 2024
Gene Model: August 27th, 2021
|
| 4 months ago | Zm00001d039695 | : | | GRMZM2G033126
| Bangtai Wang et al. 2024. Genome-wide association study for stalk lodging resistance related traits in maize (Zea mays L.) BMC Genomics. 25:19. | At4g36470 (TAIR) | Reference: January 2nd, 2024
Gene Product: January 5th, 2023
Gene Model: November 1st, 2021
|
| 4 months ago | pco110104 | : | 6.04 | GRMZM2G360339
| Zainab M Almutairi 2022. In Silico Identification and Characterization of B12D Family Proteins in Viridiplantae. Evol Bioinform. 18:11769343221106795. | | Reference: January 2nd, 2024
Gene Product: January 2nd, 2024
Gene Model: January 13th, 2020
|
| 4 months ago | def1 | defensin-like protein1: | 10.03 | GRMZM2G368890
| Yuan, Y et al. 2024. Decoding the gene regulatory network of endosperm differentiation in maize Nat Commun. 15:34. | | Reference: January 2nd, 2024
Gene Product: December 12th, 2022
Gene Model: June 10th, 2016
|
| 4 months ago | AY103944 | : | 2.04 | GRMZM2G352129
| Zhang, L et al. 2024. Genetic variation in ZmKW1 contributes to kernel weight and size in dent corn and popcorn. Plant Biotechnol J. | | Reference: January 2nd, 2024
Variation: September 25th, 2007
Gene Model: May 30th, 2017
|
| 4 months ago | AY106518 | : | 3.07 | GRMZM2G425629
| Zhang, H et al. 2024. Reveal the kernel dehydration mechanisms in maize based on proteomic and metabolomic analysis. BMC Plant Biology. 24:15. | | Reference: January 2nd, 2024
Gene Product: January 31st, 2019
Gene Model: April 8th, 2020
|
| 4 months ago | crd101 | chromdomain-containing protein101: | 5.03 | GRMZM2G117100
| Bangtai Wang et al. 2024. Genome-wide association study for stalk lodging resistance related traits in maize (Zea mays L.) BMC Genomics. 25:19. | | Reference: January 2nd, 2024
Gene Product: July 7th, 2022
Gene Model: May 10th, 2020
|
| 4 months ago | IDP694 | : | 9.00 | GRMZM2G027392
| Zainab M Almutairi 2022. In Silico Identification and Characterization of B12D Family Proteins in Viridiplantae. Evol Bioinform. 18:11769343221106795. | | Reference: January 2nd, 2024
Gene Product: January 2nd, 2024
Variation: March 31st, 2005
Gene Model: January 22nd, 2019
|
| 4 months ago | bi1 | bax inhibitor1: | 5.03 | GRMZM2G029087
| Yuan, Y et al. 2024. Decoding the gene regulatory network of endosperm differentiation in maize Nat Commun. 15:34. | | Reference: January 2nd, 2024
Gene Product: October 26th, 2020
Gene Model: October 26th, 2020
|
| 4 months ago | rboh11 | respiratory burst oxidase11: | | | Li, J et al. 2023. Identification of ZmRBOHD1 interacting with ZmCDPK32 in maize J Beijing Normal Univ (Nat Sci). 59:629-636. | | Reference: December 29th, 2023
Gene Product: February 18th, 2023
|
| 4 months ago | rboh12 | respiratory burst oxidase12: | | | Li, J et al. 2023. Identification of ZmRBOHD1 interacting with ZmCDPK32 in maize J Beijing Normal Univ (Nat Sci). 59:629-636. | | Reference: December 29th, 2023
Gene Product: February 18th, 2023
|
| 4 months ago | rboh13 | respiratory burst oxidase13: | | | Li, J et al. 2023. Identification of ZmRBOHD1 interacting with ZmCDPK32 in maize J Beijing Normal Univ (Nat Sci). 59:629-636. | | Reference: December 29th, 2023
Gene Product: February 18th, 2023
|
| 4 months ago | rboh15 | respiratory burst oxidase15: | | | Li, J et al. 2023. Identification of ZmRBOHD1 interacting with ZmCDPK32 in maize J Beijing Normal Univ (Nat Sci). 59:629-636. | | Reference: December 29th, 2023
Gene Product: February 18th, 2023
|
| 4 months ago | LOC103654750 | : | | | Nowak, B et al. 2024. Identification and Analysis of Candidate Genes Associated with Yield Structure Traits and Maize Yield Using Next-Generation Sequencing Technology Genes. 15:56. | AT1G17110 (TAIR) | Reference: December 29th, 2023
Gene Product: November 16th, 2023
|
| 4 months ago | bx14 | benzoxazinone synthesis14: | 2.05 | GRMZM2G127418
| Zhang, L et al. 2023. Genome-wide identification and functional study of caffeic acid O-methyltransferase in maize Fujian J Agric Sci. 38:1−9. | | Reference: December 29th, 2023
Gene Product: July 8th, 2013
Variation: June 20th, 2016
Gene Model: June 20th, 2016
|
| 4 months ago | rboh9 | respiratory burst oxidase9: | 2.09 | GRMZM2G358619
| Li, J et al. 2023. Identification of ZmRBOHD1 interacting with ZmCDPK32 in maize J Beijing Normal Univ (Nat Sci). 59:629-636. | | Reference: December 29th, 2023
Gene Product: February 18th, 2023
Gene Model: May 5th, 2021
|
| 4 months ago | hb120 | Homeobox-transcription factor 120: | | | Nowak, B et al. 2024. Identification and Analysis of Candidate Genes Associated with Yield Structure Traits and Maize Yield Using Next-Generation Sequencing Technology Genes. 15:56. | | Reference: December 29th, 2023
Variation: August 26th, 2023
|
| 4 months ago | bhlh81 | bHLH-transcription factor 81: | | | Nowak, B et al. 2024. Identification and Analysis of Candidate Genes Associated with Yield Structure Traits and Maize Yield Using Next-Generation Sequencing Technology Genes. 15:56. | | Reference: December 29th, 2023
Variation: July 24th, 2018
|
| 4 months ago | bx7 | benzoxazinone synthesis7: | 4.03 | GRMZM2G441753
| Zhang, L et al. 2023. Genome-wide identification and functional study of caffeic acid O-methyltransferase in maize Fujian J Agric Sci. 38:1−9. | | Reference: December 29th, 2023
Gene Product: October 31st, 2011
Variation: October 26th, 2011
Gene Model: October 19th, 2011
|
| 4 months ago | rtp1 | root preferential1: | 4.03 - 4.04 | | Zhang, L et al. 2023. Genome-wide identification and functional study of caffeic acid O-methyltransferase in maize Fujian J Agric Sci. 38:1−9. | | Reference: December 29th, 2023
Gene Product: September 1st, 2003
Variation: July 7th, 2013
|
| 4 months ago | rboh1 | respiratory burst oxidase1: | 3.06 | GRMZM2G426953
| Li, J et al. 2023. Identification of ZmRBOHD1 interacting with ZmCDPK32 in maize J Beijing Normal Univ (Nat Sci). 59:629-636. | | Reference: December 29th, 2023
Gene Product: February 18th, 2023
Variation: June 7th, 2014
Gene Model: July 2nd, 2013
|
| 4 months ago | rboh3 | respiratory burst oxidase3: | | GRMZM2G043435
| Li, J et al. 2023. Identification of ZmRBOHD1 interacting with ZmCDPK32 in maize J Beijing Normal Univ (Nat Sci). 59:629-636. | | Reference: December 29th, 2023
Gene Product: February 18th, 2023
Gene Model: July 2nd, 2013
|
| 4 months ago | nanmt1 | nicotinate N-methyltransferase1: | 4.06 | GRMZM2G082007
| Zhang, L et al. 2023. Genome-wide identification and functional study of caffeic acid O-methyltransferase in maize Fujian J Agric Sci. 38:1−9. | | Reference: December 29th, 2023
Gene Product: March 10th, 2021
Gene Model: June 23rd, 2016
|
| 4 months ago | rboh7 | respiratory burst oxidase7: | | GRMZM2G300965
| Li, J et al. 2023. Identification of ZmRBOHD1 interacting with ZmCDPK32 in maize J Beijing Normal Univ (Nat Sci). 59:629-636. | | Reference: December 29th, 2023
Gene Product: February 18th, 2023
Gene Model: June 24th, 2021
|
| 4 months ago | fomt3 | flavonoid O-methyltransferase 3: | | GRMZM2G106172
| Zhang, L et al. 2023. Genome-wide identification and functional study of caffeic acid O-methyltransferase in maize Fujian J Agric Sci. 38:1−9. | | Reference: December 29th, 2023
Gene Product: February 16th, 2011
Gene Model: November 1st, 2021
|
| 4 months ago | rboh5 | respiratory burst oxidase5: | | GRMZM2G323731
| Li, J et al. 2023. Identification of ZmRBOHD1 interacting with ZmCDPK32 in maize J Beijing Normal Univ (Nat Sci). 59:629-636. | | Reference: December 29th, 2023
Gene Product: February 18th, 2023
Gene Model: January 5th, 2022
|
| 4 months ago | rboh6 | respiratory burst oxidase6: | | GRMZM2G401179
| Li, J et al. 2023. Identification of ZmRBOHD1 interacting with ZmCDPK32 in maize J Beijing Normal Univ (Nat Sci). 59:629-636. | | Reference: December 29th, 2023
Gene Product: February 18th, 2023
Gene Model: January 5th, 2022
|
| 4 months ago | rboh8 | respiratory burst oxidase8: | | GRMZM2G448185
| Li, J et al. 2023. Identification of ZmRBOHD1 interacting with ZmCDPK32 in maize J Beijing Normal Univ (Nat Sci). 59:629-636. | | Reference: December 29th, 2023
Gene Product: February 18th, 2023
Gene Model: February 15th, 2022
|
| 4 months ago | fomt5 | flavonoid O-methyltransferase 5: | 4.07 | GRMZM2G099297
| Zhang, L et al. 2023. Genome-wide identification and functional study of caffeic acid O-methyltransferase in maize Fujian J Agric Sci. 38:1−9. | | Reference: December 29th, 2023
Gene Product: February 16th, 2011
Variation: March 31st, 2005
Gene Model: May 24th, 2021
|
| 4 months ago | rboh2 | respiratory burst oxidase2: | 3.07 | GRMZM2G138152
| Li, J et al. 2023. Identification of ZmRBOHD1 interacting with ZmCDPK32 in maize J Beijing Normal Univ (Nat Sci). 59:629-636. | | Reference: December 29th, 2023
Gene Product: February 18th, 2023
Gene Model: July 2nd, 2013
|
| 4 months ago | hb151 | homeobox-transcription factor 151: | | | Xuanxuan Chen et al. 2024. A Comprehensive Identification and Expression Analysis of the WUSCHEL Homeobox-Containing Protein Family Reveals Their Special Role in Development and Abiotic Stress Response in Zea mays L. Int J Mol Sci. 25:441. | | Reference: December 28th, 2023
Gene Product: August 25th, 2017
|
| 4 months ago | ns2 | narrow sheath2: | 4.08 | | Xuanxuan Chen et al. 2024. A Comprehensive Identification and Expression Analysis of the WUSCHEL Homeobox-Containing Protein Family Reveals Their Special Role in Development and Abiotic Stress Response in Zea mays L. Int J Mol Sci. 25:441. | | Reference: December 28th, 2023
Gene Product: August 25th, 2017
Variation: June 29th, 2005
|
| 4 months ago | wox9c | WUSCHEL related homeobox 9c: | | GRMZM2G409881
| Xuanxuan Chen et al. 2024. A Comprehensive Identification and Expression Analysis of the WUSCHEL Homeobox-Containing Protein Family Reveals Their Special Role in Development and Abiotic Stress Response in Zea mays L. Int J Mol Sci. 25:441. | | Reference: December 28th, 2023
Gene Product: August 25th, 2017
Variation: September 6th, 2007
Gene Model: December 21st, 2015
|
| 4 months ago | wox9b | WUSCHEL related homeobox 9b: | | GRMZM2G031882
| Xuanxuan Chen et al. 2024. A Comprehensive Identification and Expression Analysis of the WUSCHEL Homeobox-Containing Protein Family Reveals Their Special Role in Development and Abiotic Stress Response in Zea mays L. Int J Mol Sci. 25:441. | | Reference: December 28th, 2023
Gene Product: August 25th, 2017
Variation: September 6th, 2007
Gene Model: December 21st, 2015
|
| 4 months ago | myb152 | MYB-transcription factor 152: | 7.03 | GRMZM2G104551
| Wang, LP et al. 2024. Functional identification of maize transcription factor ZmMYB12 to enhance drought resistance and low phosphorus tolerance in plants Acta Agron Sin. 50:76-88. | | Reference: December 28th, 2023
Variation: September 1st, 2003
Gene Model: September 9th, 2018
|
| 4 months ago | wox11 | WUSCHEL-related homeobox transcription factor 11: | | | Xuanxuan Chen et al. 2024. A Comprehensive Identification and Expression Analysis of the WUSCHEL Homeobox-Containing Protein Family Reveals Their Special Role in Development and Abiotic Stress Response in Zea mays L. Int J Mol Sci. 25:441. | | Reference: December 28th, 2023
Gene Product: August 25th, 2017
|
| 4 months ago | wox13b | WUSCHEL-related homeobox transcription factor 13b: | | | Xuanxuan Chen et al. 2024. A Comprehensive Identification and Expression Analysis of the WUSCHEL Homeobox-Containing Protein Family Reveals Their Special Role in Development and Abiotic Stress Response in Zea mays L. Int J Mol Sci. 25:441. | | Reference: December 28th, 2023
Gene Product: August 25th, 2017
|
| 4 months ago | wox13a | WUSCHEL-related homeobox-transcription factor 13a: | | | Xuanxuan Chen et al. 2024. A Comprehensive Identification and Expression Analysis of the WUSCHEL Homeobox-Containing Protein Family Reveals Their Special Role in Development and Abiotic Stress Response in Zea mays L. Int J Mol Sci. 25:441. | | Reference: December 28th, 2023
Gene Product: August 25th, 2017
|
| 4 months ago | wox3b | WUSCHEL-related homeobox 3b: | | | Xuanxuan Chen et al. 2024. A Comprehensive Identification and Expression Analysis of the WUSCHEL Homeobox-Containing Protein Family Reveals Their Special Role in Development and Abiotic Stress Response in Zea mays L. Int J Mol Sci. 25:441. | | Reference: December 28th, 2023
Gene Product: August 25th, 2017
|
| 4 months ago | wox5a | WUSCHEL-homeobox-transcription factor 5A: | | | Xuanxuan Chen et al. 2024. A Comprehensive Identification and Expression Analysis of the WUSCHEL Homeobox-Containing Protein Family Reveals Their Special Role in Development and Abiotic Stress Response in Zea mays L. Int J Mol Sci. 25:441. | | Reference: December 28th, 2023
Gene Product: August 25th, 2017
|
| 4 months ago | wox5b | WUSCHEL-homeobox-transcription factor 5b: | | | Xuanxuan Chen et al. 2024. A Comprehensive Identification and Expression Analysis of the WUSCHEL Homeobox-Containing Protein Family Reveals Their Special Role in Development and Abiotic Stress Response in Zea mays L. Int J Mol Sci. 25:441. | | Reference: December 28th, 2023
Gene Product: August 25th, 2017
|
| 4 months ago | wox2b | WUSCHEL-related homeobox 2b: | | | Xuanxuan Chen et al. 2024. A Comprehensive Identification and Expression Analysis of the WUSCHEL Homeobox-Containing Protein Family Reveals Their Special Role in Development and Abiotic Stress Response in Zea mays L. Int J Mol Sci. 25:441. | | Reference: December 28th, 2023
Gene Product: August 25th, 2017
|
| 4 months ago | fdl1 | fused leaves1: | 7.04 | GRMZM2G056407
| Wang, LP et al. 2024. Functional identification of maize transcription factor ZmMYB12 to enhance drought resistance and low phosphorus tolerance in plants Acta Agron Sin. 50:76-88. | | Reference: December 28th, 2023
Gene Product: September 1st, 2003
Variation: February 13th, 2020
Gene Model: September 12th, 2018
|
| 4 months ago | wox9a | WUSCHEL related homeobox 9a: | | GRMZM2G133972
| Xuanxuan Chen et al. 2024. A Comprehensive Identification and Expression Analysis of the WUSCHEL Homeobox-Containing Protein Family Reveals Their Special Role in Development and Abiotic Stress Response in Zea mays L. Int J Mol Sci. 25:441. | | Reference: December 28th, 2023
Gene Product: August 25th, 2017
Variation: January 31st, 2011
Gene Model: December 21st, 2015
|
| 4 months ago | wox4 | wuschel-related homeobox4: | | | Xuanxuan Chen et al. 2024. A Comprehensive Identification and Expression Analysis of the WUSCHEL Homeobox-Containing Protein Family Reveals Their Special Role in Development and Abiotic Stress Response in Zea mays L. Int J Mol Sci. 25:441. | | Reference: December 28th, 2023
Gene Product: August 25th, 2017
Variation: May 1st, 2016
|
| 4 months ago | wox12a | wuschel-related homeobox12A: | | | Xuanxuan Chen et al. 2024. A Comprehensive Identification and Expression Analysis of the WUSCHEL Homeobox-Containing Protein Family Reveals Their Special Role in Development and Abiotic Stress Response in Zea mays L. Int J Mol Sci. 25:441. | | Reference: December 28th, 2023
Gene Product: August 25th, 2017
|
| 4 months ago | zip6 | zinc-regulated, iron-regulated transporter-like protein6: | | GRMZM2G034551
| An, TT et al. 2023. Unveiling Si’s shield: A holistic examination of Cd stress alleviation in maize through physiological and transcriptomic insights Environ Exp Bot. :doi: 10.1016/j.envexpbot.2023.105626. | | Reference: December 28th, 2023
Gene Product: June 5th, 2019
Gene Model: June 5th, 2019
|
| 4 months ago | sod10 | superoxide dismutase10: | | GRMZM2G124455
| An, TT et al. 2023. Unveiling Si’s shield: A holistic examination of Cd stress alleviation in maize through physiological and transcriptomic insights Environ Exp Bot. :doi: 10.1016/j.envexpbot.2023.105626. | | Reference: December 28th, 2023
Gene Product: October 4th, 2021
Gene Model: June 22nd, 2020
|
| 4 months ago | flz32 | FCS-like zinc finger32: | | GRMZM2G125020
| An, TT et al. 2023. Unveiling Si’s shield: A holistic examination of Cd stress alleviation in maize through physiological and transcriptomic insights Environ Exp Bot. :doi: 10.1016/j.envexpbot.2023.105626. | | Reference: December 28th, 2023
Gene Product: March 29th, 2021
Gene Model: March 30th, 2021
|
| 4 months ago | cyp51 | cytochrome P450 51: | | | Yactayo-Chang, JP et al. 2023. Maize terpene synthase 1 impacts insect behavior via the production of monoterpene volatiles β-myrcene and linalool Phytochemistry. :doi: 10.1016/j.phytochem.2023.113957. | | Reference: December 27th, 2023
Gene Product: December 30th, 2022
|
| 4 months ago | tps1 | terpene synthase1: | 2.02 | GRMZM2G049538
| Yactayo-Chang, JP et al. 2023. Maize terpene synthase 1 impacts insect behavior via the production of monoterpene volatiles β-myrcene and linalool Phytochemistry. :doi: 10.1016/j.phytochem.2023.113957. | | Reference: December 27th, 2023
Gene Product: May 28th, 2012
Variation: December 27th, 2023
Gene Model: May 28th, 2012
|
| 4 months ago | coi2 | coronatine insensitive2: | | GRMZM2G151536
| Yactayo-Chang, JP et al. 2023. Maize terpene synthase 1 impacts insect behavior via the production of monoterpene volatiles β-myrcene and linalool Phytochemistry. :doi: 10.1016/j.phytochem.2023.113957. | | Reference: December 27th, 2023
Gene Product: November 2nd, 2018
Gene Model: November 2nd, 2018
|
| 4 months ago | flr11 | feronia-like receptor11: | | | Zhou, LZ et al. 2023. The RALF signaling pathway regulates cell wall integrity during pollen tube growth in maize. Plant Cell. :doi: 10.1093/plcell/koad324. | | Reference: December 25th, 2023
Gene Product: July 10th, 2019
|
| 4 months ago | flr14 | feronia-like receptor14: | | | Zhou, LZ et al. 2023. The RALF signaling pathway regulates cell wall integrity during pollen tube growth in maize. Plant Cell. :doi: 10.1093/plcell/koad324. | | Reference: December 25th, 2023
Gene Product: July 10th, 2019
|
| 4 months ago | flr13 | feronia-like receptor13: | | | Zhou, LZ et al. 2023. The RALF signaling pathway regulates cell wall integrity during pollen tube growth in maize. Plant Cell. :doi: 10.1093/plcell/koad324. | | Reference: December 25th, 2023
Gene Product: July 10th, 2019
|
| 4 months ago | flr8 | feronia-like receptor8: | | | Zhou, LZ et al. 2023. The RALF signaling pathway regulates cell wall integrity during pollen tube growth in maize. Plant Cell. :doi: 10.1093/plcell/koad324. | | Reference: December 25th, 2023
Gene Product: July 10th, 2019
|
| 4 months ago | flr15 | feronia-like receptor15: | | | Zhou, LZ et al. 2023. The RALF signaling pathway regulates cell wall integrity during pollen tube growth in maize. Plant Cell. :doi: 10.1093/plcell/koad324. | | Reference: December 25th, 2023
Gene Product: July 10th, 2019
|
| 4 months ago | ralf1 | rapid alkalinization factor1: | | | Zhou, LZ et al. 2023. The RALF signaling pathway regulates cell wall integrity during pollen tube growth in maize. Plant Cell. :doi: 10.1093/plcell/koad324. | | Reference: December 25th, 2023
Gene Product: December 24th, 2023
|
| 4 months ago | ralf2 | rapid alkalinization factor2: | | | Zhou, LZ et al. 2023. The RALF signaling pathway regulates cell wall integrity during pollen tube growth in maize. Plant Cell. :doi: 10.1093/plcell/koad324. | | Reference: December 25th, 2023
Gene Product: December 24th, 2023
|
| 4 months ago | ralf5 | rapid alkalinization factor5: | | | Zhou, LZ et al. 2023. The RALF signaling pathway regulates cell wall integrity during pollen tube growth in maize. Plant Cell. :doi: 10.1093/plcell/koad324. | | Reference: December 25th, 2023
Gene Product: December 24th, 2023
|
| 4 months ago | llg4 | lorelei-like glycosylphosphatidylinositol-anchor: | | | Zhou, LZ et al. 2023. The RALF signaling pathway regulates cell wall integrity during pollen tube growth in maize. Plant Cell. :doi: 10.1093/plcell/koad324. | | Reference: December 25th, 2023
Gene Product: December 24th, 2023
|
| 4 months ago | pex4 | pollen extensin-like4: | | | Zhou, LZ et al. 2023. The RALF signaling pathway regulates cell wall integrity during pollen tube growth in maize. Plant Cell. :doi: 10.1093/plcell/koad324. | | Reference: December 25th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | ralf4 | rapid alkalinization factor4: | | | Zhou, LZ et al. 2023. The RALF signaling pathway regulates cell wall integrity during pollen tube growth in maize. Plant Cell. :doi: 10.1093/plcell/koad324. | | Reference: December 25th, 2023
Gene Product: December 24th, 2023
|
| 4 months ago | ralf6 | rapid alkalinization factor6: | | | Zhou, LZ et al. 2023. The RALF signaling pathway regulates cell wall integrity during pollen tube growth in maize. Plant Cell. :doi: 10.1093/plcell/koad324. | | Reference: December 25th, 2023
Gene Product: December 24th, 2023
|
| 4 months ago | ralf8 | rapid alkalinization factor8: | | | Zhou, LZ et al. 2023. The RALF signaling pathway regulates cell wall integrity during pollen tube growth in maize. Plant Cell. :doi: 10.1093/plcell/koad324. | | Reference: December 25th, 2023
Gene Product: December 24th, 2023
|
| 4 months ago | ralf10 | rapid alkalinization factor10: | | | Zhou, LZ et al. 2023. The RALF signaling pathway regulates cell wall integrity during pollen tube growth in maize. Plant Cell. :doi: 10.1093/plcell/koad324. | | Reference: December 25th, 2023
Gene Product: December 24th, 2023
|
| 4 months ago | ralf11 | rapid alkalinization factor11: | | | Zhou, LZ et al. 2023. The RALF signaling pathway regulates cell wall integrity during pollen tube growth in maize. Plant Cell. :doi: 10.1093/plcell/koad324. | | Reference: December 25th, 2023
Gene Product: December 24th, 2023
|
| 4 months ago | ralf13 | rapid alkalinization factor13: | | | Zhou, LZ et al. 2023. The RALF signaling pathway regulates cell wall integrity during pollen tube growth in maize. Plant Cell. :doi: 10.1093/plcell/koad324. | | Reference: December 25th, 2023
Gene Product: December 24th, 2023
|
| 4 months ago | ralf14 | rapid alkalinization factor14: | | | Zhou, LZ et al. 2023. The RALF signaling pathway regulates cell wall integrity during pollen tube growth in maize. Plant Cell. :doi: 10.1093/plcell/koad324. | | Reference: December 25th, 2023
Gene Product: December 24th, 2023
|
| 4 months ago | ralf15 | rapid alkalinization factor15: | | | Zhou, LZ et al. 2023. The RALF signaling pathway regulates cell wall integrity during pollen tube growth in maize. Plant Cell. :doi: 10.1093/plcell/koad324. | | Reference: December 25th, 2023
Gene Product: December 24th, 2023
|
| 4 months ago | ralf16 | rapid alkalinization factor16: | | | Zhou, LZ et al. 2023. The RALF signaling pathway regulates cell wall integrity during pollen tube growth in maize. Plant Cell. :doi: 10.1093/plcell/koad324. | | Reference: December 25th, 2023
Gene Product: December 24th, 2023
|
| 4 months ago | ralf17 | rapid alkalinization factor17: | | | Zhou, LZ et al. 2023. The RALF signaling pathway regulates cell wall integrity during pollen tube growth in maize. Plant Cell. :doi: 10.1093/plcell/koad324. | | Reference: December 25th, 2023
Gene Product: December 24th, 2023
|
| 4 months ago | ralf18 | rapid alkalinization factor18: | | | Zhou, LZ et al. 2023. The RALF signaling pathway regulates cell wall integrity during pollen tube growth in maize. Plant Cell. :doi: 10.1093/plcell/koad324. | | Reference: December 25th, 2023
Gene Product: December 24th, 2023
|
| 4 months ago | ralf19 | rapid alkalinization factor19: | | | Zhou, LZ et al. 2023. The RALF signaling pathway regulates cell wall integrity during pollen tube growth in maize. Plant Cell. :doi: 10.1093/plcell/koad324. | | Reference: December 25th, 2023
Gene Product: December 24th, 2023
|
| 4 months ago | ralf20 | rapid alkalinization factor20: | | | Zhou, LZ et al. 2023. The RALF signaling pathway regulates cell wall integrity during pollen tube growth in maize. Plant Cell. :doi: 10.1093/plcell/koad324. | | Reference: December 25th, 2023
Gene Product: December 24th, 2023
|
| 4 months ago | ralf21 | rapid alkalinization factor21: | | | Zhou, LZ et al. 2023. The RALF signaling pathway regulates cell wall integrity during pollen tube growth in maize. Plant Cell. :doi: 10.1093/plcell/koad324. | | Reference: December 25th, 2023
Gene Product: December 24th, 2023
|
| 4 months ago | ralf22 | rapid alkalinization factor22: | | | Zhou, LZ et al. 2023. The RALF signaling pathway regulates cell wall integrity during pollen tube growth in maize. Plant Cell. :doi: 10.1093/plcell/koad324. | | Reference: December 25th, 2023
Gene Product: December 24th, 2023
|
| 4 months ago | ralf23 | rapid alkalinization factor23: | | | Zhou, LZ et al. 2023. The RALF signaling pathway regulates cell wall integrity during pollen tube growth in maize. Plant Cell. :doi: 10.1093/plcell/koad324. | | Reference: December 25th, 2023
Gene Product: December 24th, 2023
|
| 4 months ago | ralf33 | rapid alkalinization factor33: | | | Zhou, LZ et al. 2023. The RALF signaling pathway regulates cell wall integrity during pollen tube growth in maize. Plant Cell. :doi: 10.1093/plcell/koad324. | | Reference: December 25th, 2023
Gene Product: December 24th, 2023
|
| 4 months ago | lrx15 | leucine-rich repeat/extensin-like chimera protein15: | | | Zhou, LZ et al. 2023. The RALF signaling pathway regulates cell wall integrity during pollen tube growth in maize. Plant Cell. :doi: 10.1093/plcell/koad324. | | Reference: December 25th, 2023
Gene Product: December 25th, 2023
|
| 4 months ago | lrx8 | leucine-rich repeat/extensin-like chimera protein8: | | | Zhou, LZ et al. 2023. The RALF signaling pathway regulates cell wall integrity during pollen tube growth in maize. Plant Cell. :doi: 10.1093/plcell/koad324. | | Reference: December 25th, 2023
Gene Product: December 25th, 2023
|
| 4 months ago | lrx11 | leucine-rich repeat/extensin-like chimera protein11: | | | Zhou, LZ et al. 2023. The RALF signaling pathway regulates cell wall integrity during pollen tube growth in maize. Plant Cell. :doi: 10.1093/plcell/koad324. | | Reference: December 25th, 2023
Gene Product: December 25th, 2023
|
| 4 months ago | lrx10 | leucine-rich repeat/extensin-like chimera protein10: | | | Zhou, LZ et al. 2023. The RALF signaling pathway regulates cell wall integrity during pollen tube growth in maize. Plant Cell. :doi: 10.1093/plcell/koad324. | | Reference: December 25th, 2023
Gene Product: December 25th, 2023
|
| 4 months ago | lrx13 | leucine-rich repeat/extensin-like chimera protein13: | | | Zhou, LZ et al. 2023. The RALF signaling pathway regulates cell wall integrity during pollen tube growth in maize. Plant Cell. :doi: 10.1093/plcell/koad324. | | Reference: December 25th, 2023
Gene Product: December 25th, 2023
|
| 4 months ago | lrx9 | leucine-rich repeat/extensin-like chimera protein9: | | | Zhou, LZ et al. 2023. The RALF signaling pathway regulates cell wall integrity during pollen tube growth in maize. Plant Cell. :doi: 10.1093/plcell/koad324. | | Reference: December 25th, 2023
Gene Product: December 25th, 2023
|
| 4 months ago | lrx6 | leucine-rich repeat/extensin-like chimera protein6: | | | Zhou, LZ et al. 2023. The RALF signaling pathway regulates cell wall integrity during pollen tube growth in maize. Plant Cell. :doi: 10.1093/plcell/koad324. | | Reference: December 25th, 2023
Gene Product: December 25th, 2023
|
| 4 months ago | lrx1 | leucine-rich repeat/extensin-like chimera protein1: | | | Zhou, LZ et al. 2023. The RALF signaling pathway regulates cell wall integrity during pollen tube growth in maize. Plant Cell. :doi: 10.1093/plcell/koad324. | | Reference: December 25th, 2023
Gene Product: December 25th, 2023
|
| 4 months ago | lrx4 | leucine-rich repeat/extensin-like chimera protein4: | | | Zhou, LZ et al. 2023. The RALF signaling pathway regulates cell wall integrity during pollen tube growth in maize. Plant Cell. :doi: 10.1093/plcell/koad324. | | Reference: December 25th, 2023
Gene Product: December 25th, 2023
|
| 4 months ago | lrx7 | leucine-rich repeat/extensin-like chimera protein7: | | | Zhou, LZ et al. 2023. The RALF signaling pathway regulates cell wall integrity during pollen tube growth in maize. Plant Cell. :doi: 10.1093/plcell/koad324. | | Reference: December 25th, 2023
Gene Product: December 25th, 2023
|
| 4 months ago | lrx12 | leucine-rich repeat/extensin-like chimera protein12: | | | Zhou, LZ et al. 2023. The RALF signaling pathway regulates cell wall integrity during pollen tube growth in maize. Plant Cell. :doi: 10.1093/plcell/koad324. | | Reference: December 25th, 2023
Gene Product: December 25th, 2023
|
| 4 months ago | lrx5 | leucine-rich repeat/extensin-like chimera protein5: | | | Zhou, LZ et al. 2023. The RALF signaling pathway regulates cell wall integrity during pollen tube growth in maize. Plant Cell. :doi: 10.1093/plcell/koad324. | | Reference: December 25th, 2023
Gene Product: December 25th, 2023
|
| 4 months ago | lrx2 | leucine-rich repeat/extensin-like chimera protein2: | | | Zhou, LZ et al. 2023. The RALF signaling pathway regulates cell wall integrity during pollen tube growth in maize. Plant Cell. :doi: 10.1093/plcell/koad324. | | Reference: December 25th, 2023
Gene Product: December 25th, 2023
|
| 4 months ago | pex1 | pollen extensin-like1: | 2.09 | | Zhou, LZ et al. 2023. The RALF signaling pathway regulates cell wall integrity during pollen tube growth in maize. Plant Cell. :doi: 10.1093/plcell/koad324. | | Reference: December 25th, 2023
Gene Product: September 1st, 2003
Variation: September 1st, 2003
|
| 4 months ago | pex2 | pollen extensin-like2: | 4.01 | GRMZM2G478929
| Zhou, LZ et al. 2023. The RALF signaling pathway regulates cell wall integrity during pollen tube growth in maize. Plant Cell. :doi: 10.1093/plcell/koad324. | | Reference: December 25th, 2023
Gene Product: September 1st, 2003
Variation: September 1st, 2003
Gene Model: December 28th, 2016
|
| 4 months ago | ralf9 | rapid alkalinization factor9: | 3.04 | | Zhou, LZ et al. 2023. The RALF signaling pathway regulates cell wall integrity during pollen tube growth in maize. Plant Cell. :doi: 10.1093/plcell/koad324. | | Reference: December 25th, 2023
Gene Product: December 24th, 2023
Variation: September 1st, 2003
|
| 4 months ago | lrx14 | leucine-rich repeat/extensin-like chimera protein14: | 3.04 | GRMZM2G169182
| Zhou, LZ et al. 2023. The RALF signaling pathway regulates cell wall integrity during pollen tube growth in maize. Plant Cell. :doi: 10.1093/plcell/koad324. | | Reference: December 25th, 2023
Gene Product: December 25th, 2023
Variation: September 1st, 2003
Gene Model: March 4th, 2021
|
| 4 months ago | ralf12 | rapid alkalinization factor12: | 10.03 | GRMZM2G153206
| Zhou, LZ et al. 2023. The RALF signaling pathway regulates cell wall integrity during pollen tube growth in maize. Plant Cell. :doi: 10.1093/plcell/koad324. | AT3G16570 (TAIR) | Reference: December 25th, 2023
Gene Product: December 24th, 2023
Variation: September 1st, 2003
Gene Model: December 14th, 2017
|
| 4 months ago | pex3 | pollen extensin-like3: | 10.03 | GRMZM2G300969
| Zhou, LZ et al. 2023. The RALF signaling pathway regulates cell wall integrity during pollen tube growth in maize. Plant Cell. :doi: 10.1093/plcell/koad324. | | Reference: December 25th, 2023
Gene Product: September 1st, 2003
Variation: September 1st, 2003
Gene Model: December 15th, 2017
|
| 4 months ago | llg1 | lorelei-like glycosylphosphatidylinositol-anchor1: | 2.04 | GRMZM2G121256
| Zhou, LZ et al. 2023. The RALF signaling pathway regulates cell wall integrity during pollen tube growth in maize. Plant Cell. :doi: 10.1093/plcell/koad324. | | Reference: December 25th, 2023
Gene Product: December 24th, 2023
Gene Model: February 23rd, 2018
|
| 4 months ago | clpp2 | chloroplast protease complex P2: | 1.09 | GRMZM2G056373
| José Hernandes-Lopes et al. 2023. Enabling genome editing in tropical maize lines through an improved, morphogenic regulator-assisted transformation protocol. Frontiers in Genome Editing. 5:1241035. | | Reference: December 25th, 2023
Gene Product: June 3rd, 2014
Variation: June 2nd, 2014
Gene Model: May 9th, 2013
|
| 4 months ago | ralf3 | rapid alkalinization factor3: | 3.02 | GRMZM2G357124
| Zhou, LZ et al. 2023. The RALF signaling pathway regulates cell wall integrity during pollen tube growth in maize. Plant Cell. :doi: 10.1093/plcell/koad324. | | Reference: December 25th, 2023
Gene Product: December 24th, 2023
Gene Model: March 25th, 2020
|
| 4 months ago | cul2 | cullin2: | | GRMZM2G166694
| Zhou, LZ et al. 2023. The RALF signaling pathway regulates cell wall integrity during pollen tube growth in maize. Plant Cell. :doi: 10.1093/plcell/koad324. | | Reference: December 25th, 2023
Gene Product: May 10th, 2018
Gene Model: May 10th, 2018
|
| 4 months ago | ralf7 | rapid alkalinization factor7: | 6.05 | GRMZM2G424509
| Zhou, LZ et al. 2023. The RALF signaling pathway regulates cell wall integrity during pollen tube growth in maize. Plant Cell. :doi: 10.1093/plcell/koad324. | AT1G28270 (TAIR) | Reference: December 25th, 2023
Gene Product: December 24th, 2023
Gene Model: January 10th, 2020
|
| 4 months ago | llg2 | lorelei-like glycosylphosphatidylinositol-anchor2: | 7.03 | GRMZM2G079499
| Zhou, LZ et al. 2023. The RALF signaling pathway regulates cell wall integrity during pollen tube growth in maize. Plant Cell. :doi: 10.1093/plcell/koad324. | | Reference: December 25th, 2023
Gene Product: December 24th, 2023
Gene Model: June 8th, 2022
|
| 4 months ago | lrx3 | leucine-rich repeat/extensin-like chimera protein3: | 8.03 | | Zhou, LZ et al. 2023. The RALF signaling pathway regulates cell wall integrity during pollen tube growth in maize. Plant Cell. :doi: 10.1093/plcell/koad324. | | Reference: December 25th, 2023
Gene Product: December 25th, 2023
|
| 4 months ago | v30 | virescent30: | 9.05 | GRMZM2G121456
| José Hernandes-Lopes et al. 2023. Enabling genome editing in tropical maize lines through an improved, morphogenic regulator-assisted transformation protocol. Frontiers in Genome Editing. 5:1241035. | | Reference: December 25th, 2023
Gene Product: June 3rd, 2014
Variation: October 13th, 2014
Gene Model: May 9th, 2013
|
| 4 months ago | llg3 | lorelei-like glycosylphosphatidylinositol-anchor3: | 4.06 | GRMZM2G014994
| Zhou, LZ et al. 2023. The RALF signaling pathway regulates cell wall integrity during pollen tube growth in maize. Plant Cell. :doi: 10.1093/plcell/koad324. | | Reference: December 25th, 2023
Gene Product: December 24th, 2023
Gene Model: April 20th, 2020
|
| 4 months ago | expa8 | alpha expansin8: | | | Xingjie Zhang et al. 2024. Hotspot Regions of Quantitative Trait Loci and Candidate Genes for Ear-Related Traits in Maize: A Literature Review Genes. 15:15. | | Reference: December 22nd, 2023
Gene Product: March 12th, 2008
|
| 4 months ago | ppr503 | pentatricopeptide repeat protein503: | | | Xingjie Zhang et al. 2024. Hotspot Regions of Quantitative Trait Loci and Candidate Genes for Ear-Related Traits in Maize: A Literature Review Genes. 15:15. | | Reference: December 22nd, 2023
Gene Product: December 27th, 2016
|
| 4 months ago | zmm4 | Zea mays MADS4: | 1.10 | GRMZM2G032339
| Fereshteh Jafari et al. 2023. Breeding maize of ideal plant architecture for high-density planting tolerance through modulating shade avoidance response and beyond. J Integr Plant Biol. :doi: 10.1111/jipb.13603. | | Reference: December 22nd, 2023
Gene Product: September 10th, 2021
Gene Model: November 18th, 2021
|
| 4 months ago | cry2 | cryptochrome2: | 2.04 | GRMZM2G049549
| Fereshteh Jafari et al. 2023. Breeding maize of ideal plant architecture for high-density planting tolerance through modulating shade avoidance response and beyond. J Integr Plant Biol. :doi: 10.1111/jipb.13603. | | Reference: December 22nd, 2023
Gene Product: August 31st, 2018
Variation: November 6th, 2023
Gene Model: September 5th, 2014
|
| 4 months ago | matK (cp) | maturase K: | | | Rehab M Rizk et al. 2024. Effectiveness of DNA barcoding, SCOT markers and phytochemical characterization in biodiversity assessment of some Zea mays hybrids S Afr J Bot. 165:59-69. | | Reference: December 22nd, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | ba1 | barren stalk1: | 3.06 | | Fereshteh Jafari et al. 2023. Breeding maize of ideal plant architecture for high-density planting tolerance through modulating shade avoidance response and beyond. J Integr Plant Biol. :doi: 10.1111/jipb.13603. | | Reference: December 22nd, 2023
Gene Product: July 19th, 2012
Variation: March 18th, 2015
|
| 4 months ago | bif1 | barren inflorescence1: | 8.03 - 8.03 | GRMZM2G130953
| Xingjie Zhang et al. 2024. Hotspot Regions of Quantitative Trait Loci and Candidate Genes for Ear-Related Traits in Maize: A Literature Review Genes. 15:15. | | Reference: December 22nd, 2023
Gene Product: October 16th, 2015
Variation: October 16th, 2015
Gene Model: October 16th, 2015
|
| 4 months ago | d5 | dwarf plant5: | 2.02 | | Fereshteh Jafari et al. 2023. Breeding maize of ideal plant architecture for high-density planting tolerance through modulating shade avoidance response and beyond. J Integr Plant Biol. :doi: 10.1111/jipb.13603. | | Reference: December 22nd, 2023
Gene Product: September 1st, 2003
Variation: December 3rd, 2015
|
| 4 months ago | spi1 | sparse inflorescence1: | 3.08 | GRMZM2G025222
| Fereshteh Jafari et al. 2023. Breeding maize of ideal plant architecture for high-density planting tolerance through modulating shade avoidance response and beyond. J Integr Plant Biol. :doi: 10.1111/jipb.13603. | | Reference: December 22nd, 2023
Gene Product: June 18th, 2018
Variation: September 5th, 2019
Gene Model: April 24th, 2013
|
| 4 months ago | lgn1 | liguleless narrow1: | | GRMZM2G134382
| Fereshteh Jafari et al. 2023. Breeding maize of ideal plant architecture for high-density planting tolerance through modulating shade avoidance response and beyond. J Integr Plant Biol. :doi: 10.1111/jipb.13603. | | Reference: December 22nd, 2023
Gene Product: July 10th, 2019
Variation: January 15th, 2016
Gene Model: January 3rd, 2013
|
| 4 months ago | tan1 | tangled1: | 6.05 | | Fereshteh Jafari et al. 2023. Breeding maize of ideal plant architecture for high-density planting tolerance through modulating shade avoidance response and beyond. J Integr Plant Biol. :doi: 10.1111/jipb.13603. | | Reference: December 22nd, 2023
Variation: June 29th, 2005
|
| 4 months ago | rpot1 | RNA polymerase T phage-like 1: | 7.04 | | Xingjie Zhang et al. 2024. Hotspot Regions of Quantitative Trait Loci and Candidate Genes for Ear-Related Traits in Maize: A Literature Review Genes. 15:15. | | Reference: December 22nd, 2023
Gene Product: September 1st, 2003
Variation: June 27th, 2013
|
| 4 months ago | bige1 | big embryo1: | 5.00 | GRMZM2G148937
| Fereshteh Jafari et al. 2023. Breeding maize of ideal plant architecture for high-density planting tolerance through modulating shade avoidance response and beyond. J Integr Plant Biol. :doi: 10.1111/jipb.13603. | At1g71870 (TAIR)
LOC_Os03g62270 (MSU/TIGR) | Reference: December 22nd, 2023
Gene Product: August 17th, 2015
Variation: August 27th, 2015
Gene Model: August 16th, 2015
|
| 4 months ago | ereb24 | AP2-EREBP-transcription factor 24: | 2.02 | GRMZM2G086573
| Ren, ZZ et al. 2023. Analysis of the molecular mechanisms regulating how ZmEREB24 improves drought tolerance in maize (Zea mays) seedlings Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2023.108292. | | Reference: December 22nd, 2023
Variation: September 1st, 2003
Gene Model: February 21st, 2018
|
| 4 months ago | hb48 | Homeobox-transcription factor 48: | | | Fereshteh Jafari et al. 2023. Breeding maize of ideal plant architecture for high-density planting tolerance through modulating shade avoidance response and beyond. J Integr Plant Biol. :doi: 10.1111/jipb.13603. | | Reference: December 22nd, 2023
Variation: April 7th, 2017
|
| 4 months ago | hb76 | Homeobox-transcription factor 76: | | | Fereshteh Jafari et al. 2023. Breeding maize of ideal plant architecture for high-density planting tolerance through modulating shade avoidance response and beyond. J Integr Plant Biol. :doi: 10.1111/jipb.13603. | | Reference: December 22nd, 2023
Variation: April 7th, 2017
|
| 4 months ago | sbp13 | SBP-transcription factor 13: | | | Fereshteh Jafari et al. 2023. Breeding maize of ideal plant architecture for high-density planting tolerance through modulating shade avoidance response and beyond. J Integr Plant Biol. :doi: 10.1111/jipb.13603. | | Reference: December 22nd, 2023
Gene Product: July 5th, 2019
Variation: June 5th, 2023
|
| 4 months ago | wrky98 | WRKY-transcription factor 98: | 4.06 | GRMZM2G377217
| Xingjie Zhang et al. 2024. Hotspot Regions of Quantitative Trait Loci and Candidate Genes for Ear-Related Traits in Maize: A Literature Review Genes. 15:15. | | Reference: December 22nd, 2023
Gene Product: July 24th, 2017
Variation: March 15th, 2017
Gene Model: March 15th, 2017
|
| 4 months ago | bif2 | barren inflorescence2: | 1.05 | | Fereshteh Jafari et al. 2023. Breeding maize of ideal plant architecture for high-density planting tolerance through modulating shade avoidance response and beyond. J Integr Plant Biol. :doi: 10.1111/jipb.13603. | AT2G34650 (TAIR) | Reference: December 22nd, 2023
Gene Product: July 19th, 2012
Variation: October 23rd, 2013
|
| 4 months ago | prh2 | protein phosphatase homolog2: | 7.04 | GRMZM2G140288
| Xingjie Zhang et al. 2024. Hotspot Regions of Quantitative Trait Loci and Candidate Genes for Ear-Related Traits in Maize: A Literature Review Genes. 15:15. | | Reference: December 22nd, 2023
Gene Product: October 18th, 2016
Variation: December 14th, 2012
Gene Model: May 9th, 2013
|
| 4 months ago | abp4 | auxin binding protein homolog4: | 10.03 | | Xingjie Zhang et al. 2024. Hotspot Regions of Quantitative Trait Loci and Candidate Genes for Ear-Related Traits in Maize: A Literature Review Genes. 15:15. | | Reference: December 22nd, 2023
Gene Product: September 1st, 2003
Variation: May 26th, 2005
|
| 4 months ago | mmp245 | : | 3.05 | | Fereshteh Jafari et al. 2023. Breeding maize of ideal plant architecture for high-density planting tolerance through modulating shade avoidance response and beyond. J Integr Plant Biol. :doi: 10.1111/jipb.13603. | | Reference: December 22nd, 2023
Gene Product: June 23rd, 2021
|
| 4 months ago | drl2 | drooping leaf2: | 9.06 | GRMZM2G102218
| Fereshteh Jafari et al. 2023. Breeding maize of ideal plant architecture for high-density planting tolerance through modulating shade avoidance response and beyond. J Integr Plant Biol. :doi: 10.1111/jipb.13603. | AT1G69180 (TAIR)
LOC_Os03g11600 (MSU/TIGR) | Reference: December 22nd, 2023
Gene Product: October 16th, 2015
Variation: July 12th, 2017
Gene Model: October 16th, 2015
|
| 4 months ago | vt2 | vanishing tassel2: | | GRMZM2G127308
| Xingjie Zhang et al. 2024. Hotspot Regions of Quantitative Trait Loci and Candidate Genes for Ear-Related Traits in Maize: A Literature Review Genes. 15:15. | AT1G70560 (TAIR) | Reference: December 22nd, 2023
Gene Product: April 30th, 2011
Variation: June 24th, 2011
Gene Model: May 2nd, 2012
|
| 4 months ago | yuc2 | Yucca2: | | GRMZM2G159393
| Fereshteh Jafari et al. 2023. Breeding maize of ideal plant architecture for high-density planting tolerance through modulating shade avoidance response and beyond. J Integr Plant Biol. :doi: 10.1111/jipb.13603. | | Reference: December 22nd, 2023
Gene Product: June 18th, 2018
Gene Model: September 12th, 2012
|
| 4 months ago | pin4 | PIN-formed protein4: | 4.08 | GRMZM2G171702
| Xingjie Zhang et al. 2024. Hotspot Regions of Quantitative Trait Loci and Candidate Genes for Ear-Related Traits in Maize: A Literature Review Genes. 15:15. | | Reference: December 22nd, 2023
Gene Product: April 21st, 2014
Gene Model: January 24th, 2013
|
| 4 months ago | ga2ox10 | gibberellin 2-oxidase10: | | GRMZM2G031724
| Fereshteh Jafari et al. 2023. Breeding maize of ideal plant architecture for high-density planting tolerance through modulating shade avoidance response and beyond. J Integr Plant Biol. :doi: 10.1111/jipb.13603. | | Reference: December 22nd, 2023
Gene Product: October 27th, 2014
Gene Model: October 29th, 2014
|
| 4 months ago | knr6 | kernel number per row6: | | GRMZM2G119714
| Xingjie Zhang et al. 2024. Hotspot Regions of Quantitative Trait Loci and Candidate Genes for Ear-Related Traits in Maize: A Literature Review Genes. 15:15. | | Reference: December 22nd, 2023
Gene Product: May 13th, 2014
Variation: February 20th, 2020
Gene Model: February 20th, 2020
|
| 4 months ago | csu60a | : | | GRMZM2G084719
| Xingjie Zhang et al. 2024. Hotspot Regions of Quantitative Trait Loci and Candidate Genes for Ear-Related Traits in Maize: A Literature Review Genes. 15:15. | | Reference: December 22nd, 2023
Gene Product: December 27th, 2016
Gene Model: October 14th, 2020
|
| 4 months ago | at1 | alkali tolerance1: | | GRMZM2G139878
| Xingjie Zhang et al. 2024. Hotspot Regions of Quantitative Trait Loci and Candidate Genes for Ear-Related Traits in Maize: A Literature Review Genes. 15:15. | Os03g0407400 (Gramene) | Reference: December 22nd, 2023
Gene Product: April 15th, 2021
Variation: March 23rd, 2023
Gene Model: January 28th, 2021
|
| 4 months ago | yige1 | yige1: | | GRMZM2G008490
| Xingjie Zhang et al. 2024. Hotspot Regions of Quantitative Trait Loci and Candidate Genes for Ear-Related Traits in Maize: A Literature Review Genes. 15:15. | | Reference: December 22nd, 2023
Gene Product: November 29th, 2021
Variation: November 29th, 2021
Gene Model: November 29th, 2021
|
| 4 months ago | dro1 | deeper rooting1: | | GRMZM2G700200
| Fereshteh Jafari et al. 2023. Breeding maize of ideal plant architecture for high-density planting tolerance through modulating shade avoidance response and beyond. J Integr Plant Biol. :doi: 10.1111/jipb.13603. | LOC_Os09g26840 (MSU/TIGR)
Os09g0439800 (Gramene) | Reference: December 22nd, 2023
Variation: July 7th, 2022
Gene Model: July 7th, 2022
|
| 4 months ago | sbp29 | SBP-transcription factor 29: | 7.03 | GRMZM2G067624
| Fereshteh Jafari et al. 2023. Breeding maize of ideal plant architecture for high-density planting tolerance through modulating shade avoidance response and beyond. J Integr Plant Biol. :doi: 10.1111/jipb.13603. | | Reference: December 22nd, 2023
Gene Product: July 5th, 2019
Variation: July 7th, 2021
Gene Model: July 11th, 2018
|
| 4 months ago | IDP689 | : | 8.05 | GRMZM2G141922
| Xingjie Zhang et al. 2024. Hotspot Regions of Quantitative Trait Loci and Candidate Genes for Ear-Related Traits in Maize: A Literature Review Genes. 15:15. | | Reference: December 22nd, 2023
Variation: March 31st, 2005
Gene Model: June 10th, 2020
|
| 4 months ago | elm1 | elongated mesocotyl1: | 8.06 | | Fereshteh Jafari et al. 2023. Breeding maize of ideal plant architecture for high-density planting tolerance through modulating shade avoidance response and beyond. J Integr Plant Biol. :doi: 10.1111/jipb.13603. | AT3G09150 (TAIR) | Reference: December 22nd, 2023
Gene Product: May 7th, 2006
Variation: March 30th, 2009
|
| 4 months ago | gpdh1 | glucose-6-phosphate dehydrogenase1: | 2.04 | GRMZM2G130230
| Xingjie Zhang et al. 2024. Hotspot Regions of Quantitative Trait Loci and Candidate Genes for Ear-Related Traits in Maize: A Literature Review Genes. 15:15. | | Reference: December 22nd, 2023
Gene Product: September 1st, 2003
Gene Model: April 10th, 2015
|
| 4 months ago | dcl101 | dicer-like 101: | 1.01 | GRMZM2G040762
| Xingjie Zhang et al. 2024. Hotspot Regions of Quantitative Trait Loci and Candidate Genes for Ear-Related Traits in Maize: A Literature Review Genes. 15:15. | | Reference: December 22nd, 2023
Gene Product: September 5th, 2006
Variation: February 20th, 2023
Gene Model: November 12th, 2014
|
| 4 months ago | ppr130 | pentatricopeptide repeat protein130: | | | M Regina Scarpin et al. 2022. An updated nomenclature for plant ribosomal protein genes. Plant Cell. :doi: 10.1093/plcell/koac333. | | Reference: December 21st, 2023
Gene Product: December 27th, 2016
|
| 4 months ago | ppr193 | pentatricopeptide repeat protein193: | | | M Regina Scarpin et al. 2022. An updated nomenclature for plant ribosomal protein genes. Plant Cell. :doi: 10.1093/plcell/koac333. | | Reference: December 21st, 2023
Gene Product: December 27th, 2016
|
| 4 months ago | ppr469 | pentatricopeptide repeat protein469: | | | M Regina Scarpin et al. 2022. An updated nomenclature for plant ribosomal protein genes. Plant Cell. :doi: 10.1093/plcell/koac333. | | Reference: December 21st, 2023
Gene Product: December 27th, 2016
|
| 4 months ago | ppr456 | pentatricopeptide repeat protein456: | | | M Regina Scarpin et al. 2022. An updated nomenclature for plant ribosomal protein genes. Plant Cell. :doi: 10.1093/plcell/koac333. | | Reference: December 21st, 2023
Gene Product: December 27th, 2016
|
| 4 months ago | Zm00001d020006 | : | | | Yi-Hsuan Lin et al. 2023. Exogenous Methylglyoxal Alleviates Drought-Induced ''Plant Diabetes'' and Leaf Senescence in Maize. J Exp Bot. :doi: 10.1093/jxb/erad503. | | Reference: December 21st, 2023
Gene Product: August 12th, 2016
|
| 4 months ago | LOC541869 | : | | | M Regina Scarpin et al. 2022. An updated nomenclature for plant ribosomal protein genes. Plant Cell. :doi: 10.1093/plcell/koac333. | | Reference: December 21st, 2023
Gene Product: February 13th, 2008
|
| 4 months ago | hcf60 | high chlorophyll fluorescence60: | | | M Regina Scarpin et al. 2022. An updated nomenclature for plant ribosomal protein genes. Plant Cell. :doi: 10.1093/plcell/koac333. | At1g79850 (TAIR) | Reference: December 21st, 2023
Variation: August 23rd, 2023
|
| 4 months ago | GRMZM2G149273 | : | | | Yi-Hsuan Lin et al. 2023. Exogenous Methylglyoxal Alleviates Drought-Induced ''Plant Diabetes'' and Leaf Senescence in Maize. J Exp Bot. :doi: 10.1093/jxb/erad503. | | Reference: December 21st, 2023
Gene Product: September 18th, 2015
|
| 4 months ago | GRMZM2G329300 | : | | | Zhou, Y et al. 2022. Genes 13:456 | | Reference: December 21st, 2023
Gene Product: June 1st, 2022
|
| 4 months ago | ppr182 | pentatricopeptide repeat protein182: | 3.05 | GRMZM2G118362
| M Regina Scarpin et al. 2022. An updated nomenclature for plant ribosomal protein genes. Plant Cell. :doi: 10.1093/plcell/koac333. | | Reference: December 21st, 2023
Gene Product: December 27th, 2016
Gene Model: February 24th, 2019
|
| 4 months ago | uaz251b(rpS11) | : | 2.02 | GRMZM2G044800
| M Regina Scarpin et al. 2022. An updated nomenclature for plant ribosomal protein genes. Plant Cell. :doi: 10.1093/plcell/koac333. | | Reference: December 21st, 2023
Gene Product: September 1st, 2003
Gene Model: January 12th, 2018
|
| 4 months ago | phm4880 | : | 2.05 | GRMZM2G325749
| M Regina Scarpin et al. 2022. An updated nomenclature for plant ribosomal protein genes. Plant Cell. :doi: 10.1093/plcell/koac333. | | Reference: December 21st, 2023
Variation: November 3rd, 2017
Gene Model: April 29th, 2021
|
| 4 months ago | rpl13 | 60S ribosomal protein L13: | 6.05 | GRMZM2G409407
| M Regina Scarpin et al. 2022. An updated nomenclature for plant ribosomal protein genes. Plant Cell. :doi: 10.1093/plcell/koac333. | | Reference: December 21st, 2023
Gene Product: January 13th, 2020
Gene Model: January 11th, 2020
|
| 4 months ago | magi53573 | : | 1.07 | GRMZM2G144387
| M Regina Scarpin et al. 2022. An updated nomenclature for plant ribosomal protein genes. Plant Cell. :doi: 10.1093/plcell/koac333. | | Reference: December 21st, 2023
Variation: April 7th, 2021
Gene Model: February 14th, 2019
|
| 4 months ago | rps21b | 40S ribosomal protein S21b: | | GRMZM2G134109
| M Regina Scarpin et al. 2022. An updated nomenclature for plant ribosomal protein genes. Plant Cell. :doi: 10.1093/plcell/koac333. | | Reference: December 21st, 2023
Gene Product: September 1st, 2003
Variation: July 14th, 2008
Gene Model: January 8th, 2020
|
| 4 months ago | rpl19 | ribosomal protein L19: | 5.06 | GRMZM2G171444
| M Regina Scarpin et al. 2022. An updated nomenclature for plant ribosomal protein genes. Plant Cell. :doi: 10.1093/plcell/koac333. | | Reference: December 21st, 2023
Gene Product: September 1st, 2003
Variation: September 1st, 2003
Gene Model: July 28th, 2016
|
| 4 months ago | gl2 | glossy2: | 2.02 | | Delzer, B et al. 2023. Elite, transformable haploid inducers in maize Crop J. :doi: 10.1016/j.cj.2023.10.016. | AT4G24510 (TAIR) | Reference: December 21st, 2023
Gene Product: February 28th, 2020
Variation: December 7th, 2012
|
| 4 months ago | rps27c | ribosomal protein S27c: | 5.01 | GRMZM2G132121
| M Regina Scarpin et al. 2022. An updated nomenclature for plant ribosomal protein genes. Plant Cell. :doi: 10.1093/plcell/koac333. | | Reference: December 21st, 2023
Variation: March 14th, 2015
Gene Model: March 14th, 2015
|
| 4 months ago | rpl29 | ribosomal protein L29: | 4.08 | GRMZM2G028216
| M Regina Scarpin et al. 2022. An updated nomenclature for plant ribosomal protein genes. Plant Cell. :doi: 10.1093/plcell/koac333. | | Reference: December 21st, 2023
Gene Product: September 1st, 2003
Gene Model: July 28th, 2016
|
| 4 months ago | umc1313 | : | 4.09 | GRMZM2G054149
| M Regina Scarpin et al. 2022. An updated nomenclature for plant ribosomal protein genes. Plant Cell. :doi: 10.1093/plcell/koac333. | | Reference: December 21st, 2023
Variation: September 1st, 2003
Gene Model: March 6th, 2021
|
| 4 months ago | rps8 | ribosomal protein S8 homolog: | 4.09 | GRMZM2G336875
| M Regina Scarpin et al. 2022. An updated nomenclature for plant ribosomal protein genes. Plant Cell. :doi: 10.1093/plcell/koac333. | | Reference: December 21st, 2023
Gene Product: September 1st, 2003
Variation: April 17th, 2015
Gene Model: April 15th, 2015
|
| 4 months ago | omt2 | Caffeoyl CoA O-methyltransferase2: | 9.02 | GRMZM2G099363
| Yi-Hsuan Lin et al. 2023. Exogenous Methylglyoxal Alleviates Drought-Induced ''Plant Diabetes'' and Leaf Senescence in Maize. J Exp Bot. :doi: 10.1093/jxb/erad503. | | Reference: December 21st, 2023
Gene Product: January 5th, 2014
Variation: May 13th, 2016
Gene Model: September 17th, 2014
|
| 4 months ago | rpl40 | 50S ribosomal protein L40: | 8.01 | GRMZM2G157007
| M Regina Scarpin et al. 2022. An updated nomenclature for plant ribosomal protein genes. Plant Cell. :doi: 10.1093/plcell/koac333. | | Reference: December 21st, 2023
Variation: April 12th, 2017
Gene Model: April 12th, 2017
|
| 4 months ago | csu36b(rpL19) | : | 5.04 | GRMZM5G887054
| M Regina Scarpin et al. 2022. An updated nomenclature for plant ribosomal protein genes. Plant Cell. :doi: 10.1093/plcell/koac333. | | Reference: December 21st, 2023
Gene Product: September 1st, 2003
Gene Model: May 13th, 2020
|
| 4 months ago | rps8 (cp) | 30S ribosomal protein S8 gene: | | GRMZM5G845244
| M Regina Scarpin et al. 2022. An updated nomenclature for plant ribosomal protein genes. Plant Cell. :doi: 10.1093/plcell/koac333. | | Reference: December 21st, 2023
Gene Product: September 1st, 2003
Gene Model: December 26th, 2016
|
| 4 months ago | rps4 (cp) | 30S ribosomal protein S4 gene: | | | M Regina Scarpin et al. 2022. An updated nomenclature for plant ribosomal protein genes. Plant Cell. :doi: 10.1093/plcell/koac333. | | Reference: December 21st, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | rps2 (cp) | 30S ribosomal protein S2 gene: | | | M Regina Scarpin et al. 2022. An updated nomenclature for plant ribosomal protein genes. Plant Cell. :doi: 10.1093/plcell/koac333. | | Reference: December 21st, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | rps16 (cp) | 30S ribosomal protein S16 gene: | | | M Regina Scarpin et al. 2022. An updated nomenclature for plant ribosomal protein genes. Plant Cell. :doi: 10.1093/plcell/koac333. | | Reference: December 21st, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | LOC103642224 | : | | GRMZM2G038013
| M Regina Scarpin et al. 2022. An updated nomenclature for plant ribosomal protein genes. Plant Cell. :doi: 10.1093/plcell/koac333. | At1g79850 (TAIR) | Reference: December 21st, 2023
Gene Product: September 1st, 2003
Gene Model: February 17th, 2015
|
| 4 months ago | rpl5a | 60S ribosomal protein L5-1 homolog a: | 3.05 | GRMZM5G815894
| M Regina Scarpin et al. 2022. An updated nomenclature for plant ribosomal protein genes. Plant Cell. :doi: 10.1093/plcell/koac333. | | Reference: December 21st, 2023
Gene Product: December 1st, 2019
Variation: April 9th, 2011
Gene Model: December 28th, 2016
|
| 4 months ago | nzp1 | non-zein protein1: | 8.05 | GRMZM2G024838
| M Regina Scarpin et al. 2022. An updated nomenclature for plant ribosomal protein genes. Plant Cell. :doi: 10.1093/plcell/koac333. | | Reference: December 21st, 2023
Gene Product: October 13th, 2021
Variation: October 13th, 2021
Gene Model: September 20th, 2018
|
| 4 months ago | emb18 | embryo specific18: | 9.03 | GRMZM2G136559
| M Regina Scarpin et al. 2022. An updated nomenclature for plant ribosomal protein genes. Plant Cell. :doi: 10.1093/plcell/koac333. | | Reference: December 21st, 2023
Gene Product: March 9th, 2013
Variation: August 22nd, 2013
Gene Model: March 9th, 2013
|
| 4 months ago | qm1 | QM1 homolog1: | 5.03 | | M Regina Scarpin et al. 2022. An updated nomenclature for plant ribosomal protein genes. Plant Cell. :doi: 10.1093/plcell/koac333. | | Reference: December 21st, 2023
Gene Product: October 2nd, 2006
Variation: September 1st, 2003
|
| 4 months ago | rps5 | ribosomal protein S5: | 8.01 | GRMZM2G156673
| M Regina Scarpin et al. 2022. An updated nomenclature for plant ribosomal protein genes. Plant Cell. :doi: 10.1093/plcell/koac333. | | Reference: December 21st, 2023
Gene Product: September 1st, 2003
Variation: August 25th, 2015
Gene Model: April 15th, 2015
|
| 4 months ago | rps12 | ribosomal proteinS12 (homolog): | 7.02 | GRMZM2G063340
| M Regina Scarpin et al. 2022. An updated nomenclature for plant ribosomal protein genes. Plant Cell. :doi: 10.1093/plcell/koac333. | | Reference: December 21st, 2023
Gene Product: September 1st, 2003
Variation: July 14th, 2008
Gene Model: April 15th, 2015
|
| 4 months ago | rpl35 | 60S ribosomal protein L35: | 5.04 | GRMZM2G043279
| M Regina Scarpin et al. 2022. An updated nomenclature for plant ribosomal protein genes. Plant Cell. :doi: 10.1093/plcell/koac333. | | Reference: December 21st, 2023
Gene Product: August 22nd, 2019
Gene Model: June 19th, 2017
|
| 4 months ago | AY109733 | : | 5.01 | GRMZM2G130544
| M Regina Scarpin et al. 2022. An updated nomenclature for plant ribosomal protein genes. Plant Cell. :doi: 10.1093/plcell/koac333. | | Reference: December 21st, 2023
Variation: July 29th, 2004
Gene Model: June 15th, 2018
|
| 4 months ago | arpp2a-2 | acidic ribosomal protein P2a-2: | 8.03 | GRMZM2G102891
| M Regina Scarpin et al. 2022. An updated nomenclature for plant ribosomal protein genes. Plant Cell. :doi: 10.1093/plcell/koac333. | | Reference: December 21st, 2023
Variation: January 14th, 2016
Gene Model: August 28th, 2015
|
| 4 months ago | rpl17c | ribosomal protein L17c: | | GRMZM2G148744
| M Regina Scarpin et al. 2022. An updated nomenclature for plant ribosomal protein genes. Plant Cell. :doi: 10.1093/plcell/koac333. | | Reference: December 21st, 2023
Variation: June 7th, 2013
Gene Model: July 28th, 2016
|
| 4 months ago | trps5 | trehalose-6-phosphate synthase5: | | GRMZM2G527891
| Yi-Hsuan Lin et al. 2023. Exogenous Methylglyoxal Alleviates Drought-Induced ''Plant Diabetes'' and Leaf Senescence in Maize. J Exp Bot. :doi: 10.1093/jxb/erad503. | | Reference: December 21st, 2023
Gene Product: October 3rd, 2020
Gene Model: September 15th, 2013
|
| 4 months ago | trps13 | trehalose-6-phosphate synthase13: | | GRMZM2G019183
| Yi-Hsuan Lin et al. 2023. Exogenous Methylglyoxal Alleviates Drought-Induced ''Plant Diabetes'' and Leaf Senescence in Maize. J Exp Bot. :doi: 10.1093/jxb/erad503. | | Reference: December 21st, 2023
Gene Product: October 3rd, 2020
Gene Model: September 15th, 2013
|
| 4 months ago | ppr315 | pentatricopeptide repeat protein315: | 5.05 | GRMZM2G165290
| M Regina Scarpin et al. 2022. An updated nomenclature for plant ribosomal protein genes. Plant Cell. :doi: 10.1093/plcell/koac333. | | Reference: December 21st, 2023
Gene Product: December 27th, 2016
Gene Model: May 21st, 2020
|
| 4 months ago | upl2 | ubiquitin-protein ligase2: | | GRMZM2G049141
| Delzer, B et al. 2023. Elite, transformable haploid inducers in maize Crop J. :doi: 10.1016/j.cj.2023.10.016. | | Reference: December 21st, 2023
Gene Product: November 26th, 2019
Gene Model: November 19th, 2019
|
| 4 months ago | GRMZM2G059392 | : | | GRMZM2G059392
| Zhou, Y et al. 2022. Genes 13:456 | AT3G53450 (TAIR) | Reference: December 21st, 2023
Gene Product: November 21st, 2019
Gene Model: November 21st, 2019
|
| 4 months ago | rpl5c | 60S ribosomal protein L5, mitochondrial-like homolog c: | | GRMZM5G831780
| M Regina Scarpin et al. 2022. An updated nomenclature for plant ribosomal protein genes. Plant Cell. :doi: 10.1093/plcell/koac333. | | Reference: December 21st, 2023
Gene Product: December 1st, 2019
Gene Model: December 1st, 2019
|
| 4 months ago | cdpk31 | calcium dependent protein kinase31: | | GRMZM2G463464
| Srikanth Burra et al. 2023. Genome-wide identification, characterization, and phylogenetic analysis of calcium-dependent protein kinase in Zea mays Chelonian Conserv Bi. 18:1424-1434. | | Reference: December 21st, 2023
Gene Product: December 3rd, 2013
Gene Model: December 13th, 2019
|
| 4 months ago | rps21c | 40S ribosomal protein S21c: | | | M Regina Scarpin et al. 2022. An updated nomenclature for plant ribosomal protein genes. Plant Cell. :doi: 10.1093/plcell/koac333. | | Reference: December 21st, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | rpl23a | 60S ribosomal protein L23a: | | GRMZM2G166659
| M Regina Scarpin et al. 2022. An updated nomenclature for plant ribosomal protein genes. Plant Cell. :doi: 10.1093/plcell/koac333. | | Reference: December 21st, 2023
Gene Product: September 1st, 2003
Gene Model: January 12th, 2020
|
| 4 months ago | trpp6 | trehalose-6-phosphate phosphatase6: | 5.06 | GRMZM2G112830
| Yi-Hsuan Lin et al. 2023. Exogenous Methylglyoxal Alleviates Drought-Induced ''Plant Diabetes'' and Leaf Senescence in Maize. J Exp Bot. :doi: 10.1093/jxb/erad503. | | Reference: December 21st, 2023
Gene Product: October 3rd, 2020
Gene Model: February 7th, 2018
|
| 4 months ago | cdpk44 | calcium dependent protein kinase44: | | GRMZM2G347047
| Srikanth Burra et al. 2023. Genome-wide identification, characterization, and phylogenetic analysis of calcium-dependent protein kinase in Zea mays Chelonian Conserv Bi. 18:1424-1434. | | Reference: December 21st, 2023
Gene Product: December 3rd, 2013
Gene Model: December 18th, 2020
|
| 4 months ago | rpl14a | 60S ribosomal protein L14: | | GRMZM2G140116
| M Regina Scarpin et al. 2022. An updated nomenclature for plant ribosomal protein genes. Plant Cell. :doi: 10.1093/plcell/koac333. | | Reference: December 21st, 2023
Gene Product: August 18th, 2021
Gene Model: August 18th, 2021
|
| 4 months ago | pco123006 | : | 7.02 | GRMZM5G843748
| Yi-Hsuan Lin et al. 2023. Exogenous Methylglyoxal Alleviates Drought-Induced ''Plant Diabetes'' and Leaf Senescence in Maize. J Exp Bot. :doi: 10.1093/jxb/erad503. | | Reference: December 21st, 2023
Variation: September 25th, 2007
Gene Model: July 25th, 2020
|
| 4 months ago | pco154872 | : | 8.03 | | M Regina Scarpin et al. 2022. An updated nomenclature for plant ribosomal protein genes. Plant Cell. :doi: 10.1093/plcell/koac333. | | Reference: December 21st, 2023
Variation: September 25th, 2007
|
| 4 months ago | pco138567b | : | 9.04 | GRMZM5G862107
| M Regina Scarpin et al. 2022. An updated nomenclature for plant ribosomal protein genes. Plant Cell. :doi: 10.1093/plcell/koac333. | | Reference: December 21st, 2023
Variation: September 25th, 2007
Gene Model: June 25th, 2020
|
| 4 months ago | lem1 | lethal embryo mutant1: | 1.10 | | M Regina Scarpin et al. 2022. An updated nomenclature for plant ribosomal protein genes. Plant Cell. :doi: 10.1093/plcell/koac333. | | Reference: December 21st, 2023
Gene Product: March 29th, 2004
Variation: January 4th, 2013
|
| 4 months ago | magi32402 | : | 1.07 | GRMZM2G057608
| M Regina Scarpin et al. 2022. An updated nomenclature for plant ribosomal protein genes. Plant Cell. :doi: 10.1093/plcell/koac333. | | Reference: December 21st, 2023
Variation: March 31st, 2005
Gene Model: February 14th, 2019
|
| 4 months ago | IDP2420 | : | 1.01 | GRMZM2G176820
| M Regina Scarpin et al. 2022. An updated nomenclature for plant ribosomal protein genes. Plant Cell. :doi: 10.1093/plcell/koac333. | | Reference: December 21st, 2023
Variation: March 31st, 2005
Gene Model: February 10th, 2019
|
| 4 months ago | IDP644 | : | 1.07 | GRMZM2G025855
| M Regina Scarpin et al. 2022. An updated nomenclature for plant ribosomal protein genes. Plant Cell. :doi: 10.1093/plcell/koac333. | | Reference: December 21st, 2023
Variation: March 31st, 2005
Gene Model: February 14th, 2019
|
| 4 months ago | IDP810 | : | 1.02 | GRMZM2G164965
| M Regina Scarpin et al. 2022. An updated nomenclature for plant ribosomal protein genes. Plant Cell. :doi: 10.1093/plcell/koac333. | | Reference: December 21st, 2023
Variation: April 10th, 2021
Gene Model: February 11th, 2019
|
| 4 months ago | IDP3811 | : | 1.01 | GRMZM2G119471
| M Regina Scarpin et al. 2022. An updated nomenclature for plant ribosomal protein genes. Plant Cell. :doi: 10.1093/plcell/koac333. | | Reference: December 21st, 2023
Variation: April 9th, 2021
Gene Model: April 9th, 2021
|
| 4 months ago | IDP483 | : | 4.01 | GRMZM2G165208
| M Regina Scarpin et al. 2022. An updated nomenclature for plant ribosomal protein genes. Plant Cell. :doi: 10.1093/plcell/koac333. | | Reference: December 21st, 2023
Variation: March 31st, 2005
Gene Model: April 11th, 2020
|
| 4 months ago | IDP486 | : | 5.03 | GRMZM2G026216
| M Regina Scarpin et al. 2022. An updated nomenclature for plant ribosomal protein genes. Plant Cell. :doi: 10.1093/plcell/koac333. | | Reference: December 21st, 2023
Variation: March 31st, 2005
Gene Model: May 8th, 2020
|
| 4 months ago | IDP758 | : | 5.05 | GRMZM2G061938
| M Regina Scarpin et al. 2022. An updated nomenclature for plant ribosomal protein genes. Plant Cell. :doi: 10.1093/plcell/koac333. | | Reference: December 21st, 2023
Variation: March 31st, 2005
Gene Model: May 22nd, 2020
|
| 4 months ago | IDP65 | : | 9.07 | GRMZM2G150058
| M Regina Scarpin et al. 2022. An updated nomenclature for plant ribosomal protein genes. Plant Cell. :doi: 10.1093/plcell/koac333. | | Reference: December 21st, 2023
Variation: March 31st, 2005
Gene Model: February 3rd, 2020
|
| 4 months ago | IDP756 | : | 9.04 | GRMZM2G007103
| M Regina Scarpin et al. 2022. An updated nomenclature for plant ribosomal protein genes. Plant Cell. :doi: 10.1093/plcell/koac333. | | Reference: December 21st, 2023
Variation: September 25th, 2007
Gene Model: January 22nd, 2019
|
| 4 months ago | pdh3 | pyruvate dehydrogenase3: | 2.07 | GRMZM2G097226
| Yi-Hsuan Lin et al. 2023. Exogenous Methylglyoxal Alleviates Drought-Induced ''Plant Diabetes'' and Leaf Senescence in Maize. J Exp Bot. :doi: 10.1093/jxb/erad503. | | Reference: December 21st, 2023
Gene Product: February 14th, 2008
Variation: February 14th, 2008
Gene Model: April 10th, 2015
|
| 4 months ago | rpl15b | 60S ribosomal protein L15: | 7.03 | GRMZM2G180724
| M Regina Scarpin et al. 2022. An updated nomenclature for plant ribosomal protein genes. Plant Cell. :doi: 10.1093/plcell/koac333. | | Reference: December 21st, 2023
Gene Product: September 1st, 2003
Variation: June 2nd, 2013
Gene Model: July 28th, 2016
|
| 4 months ago | LOC100502532 | : | | | Tingru Zeng et al. 2017. The Cloning of ZmCLCa Gene in Maize and Its Functional Verification of Nitrogen Absorption J Plant Genet Res. 18:112-116. | AT5G40890 (TAIR) | Reference: December 19th, 2023
Gene Product: November 30th, 2021
|
| 4 months ago | clc1 | chloride channel1: | 1.09 | GRMZM2G397836
| Lulu Liu et al. 2024. The Role of Chloride Channels in Plant Responses to NaCl Int J Mol Sci. 25:19. | AT5G26240 (TAIR) | Reference: December 19th, 2023
Gene Product: November 30th, 2021
Gene Model: April 10th, 2021
|
| 4 months ago | dek1 | defective kernel1: | 1.03 | | Lid, SE et al. 2002. The defective kernel 1 (dek1) gene required for aleurone cell development in the endosperm of maize grains encodes a membrane protein of the calpain gene superfamily. Proc Natl Acad Sci, USA 99:5460-5465 | | Reference: December 19th, 2023
Gene Product: September 1st, 2003
Variation: February 18th, 2022
|
| 4 months ago | zmm31 | Zea mays MADS31: | 5.01 | GRMZM2G071620
| Binghao Zhao et al. 2023. Genetic basis of maize stalk strength decoded via linkage and association mapping. Plant J. :doi: 10.1111/tpj.16583. | | Reference: December 19th, 2023
Variation: August 7th, 2008
Gene Model: July 2nd, 2014
|
| 4 months ago | rfz1 | rat frizzled homolog1: | | GRMZM2G084812
| Binghao Zhao et al. 2023. Genetic basis of maize stalk strength decoded via linkage and association mapping. Plant J. :doi: 10.1111/tpj.16583. | | Reference: December 19th, 2023
Gene Product: September 1st, 2003
Variation: December 30th, 2010
Gene Model: November 29th, 2017
|
| 4 months ago | pyrd1 | pyrimidine deaminase1: | 1.01 | GRMZM2G320099
| Binghao Zhao et al. 2023. Genetic basis of maize stalk strength decoded via linkage and association mapping. Plant J. :doi: 10.1111/tpj.16583. | | Reference: December 19th, 2023
Gene Product: January 29th, 2013
Variation: June 24th, 2016
Gene Model: January 29th, 2013
|
| 4 months ago | stiff1 | stiff stalk1: | | GRMZM2G360081
| Binghao Zhao et al. 2023. Genetic basis of maize stalk strength decoded via linkage and association mapping. Plant J. :doi: 10.1111/tpj.16583. | AT1G30950 (TAIR)
LOC_Os06g45460 (MSU/TIGR)
Os06g0665400 (Gramene) | Reference: December 19th, 2023
Gene Product: April 27th, 2022
Variation: November 5th, 2019
Gene Model: November 5th, 2019
|
| 4 months ago | mate29 | multidrug and toxic compound extrusion29: | | | Liang, XY et al. 2023. Designing salt stress-resilient crops: Current progress and future challenges. J Integr Plant Biol. :doi: 10.1111/jipb.13599. | | Reference: December 18th, 2023
Gene Product: August 17th, 2015
|
| 4 months ago | px22 | peroxidase22: | 7.00 | | Liang, XY et al. 2023. Designing salt stress-resilient crops: Current progress and future challenges. J Integr Plant Biol. :doi: 10.1111/jipb.13599. | | Reference: December 18th, 2023
Gene Product: September 18th, 2015
|
| 4 months ago | bnlg1176a | : | 8.05 | GRMZM2G375222
| Liu, BB et al. 2023. Heritable changes of epialleles near genes in maize can be triggered in the absence of CHH methylatio Plant Physiol. :doi: 10.1093/plphys/kiad668. | | Reference: December 18th, 2023
Variation: September 1st, 2003
Gene Model: September 19th, 2018
|
| 4 months ago | rmr1 | required to maintain repression1: | 6.07 | | Liu, BB et al. 2023. Heritable changes of epialleles near genes in maize can be triggered in the absence of CHH methylatio Plant Physiol. :doi: 10.1093/plphys/kiad668. | | Reference: December 18th, 2023
Gene Product: April 30th, 2008
Variation: May 10th, 2013
|
| 4 months ago | hb102 | Homeobox-transcription factor 102: | 1.02 | GRMZM2G139963
| Jiao, P et al. 2023. Zmhdz9, an HD-Zip transcription factor, promotes drought stress resistance in maize by modulating ABA and lignin accumulation Int J Biol Macromol. :doi: 10.1016/j.ijbiomac.2023.128849. | | Reference: December 18th, 2023
Variation: September 1st, 2003
Gene Model: March 9th, 2016
|
| 4 months ago | hp2 | histidine-containing phosphotransfer protein2: | 2.06 | GRMZM2G014154
| Liang, XY et al. 2023. Designing salt stress-resilient crops: Current progress and future challenges. J Integr Plant Biol. :doi: 10.1111/jipb.13599. | | Reference: December 18th, 2023
Gene Product: September 1st, 2003
Variation: June 26th, 2014
Gene Model: June 26th, 2014
|
| 4 months ago | tcptf19 | TCP-transcription factor 19: | | | Jiao, P et al. 2023. Zmhdz9, an HD-Zip transcription factor, promotes drought stress resistance in maize by modulating ABA and lignin accumulation Int J Biol Macromol. :doi: 10.1016/j.ijbiomac.2023.128849. | | Reference: December 18th, 2023
Gene Product: September 27th, 2019
|
| 4 months ago | phyA1 | phytochromeA1: | 1.10 | GRMZM2G157727
| Cao, Y et al. 2023. Molecular characterization and functional analyses of maize phytochrome A photoreceptors. Plant Physiol. :doi: 10.1093/plphys/kiad667. | | Reference: December 18th, 2023
Gene Product: June 30th, 2009
Variation: September 25th, 2007
Gene Model: August 13th, 2014
|
| 4 months ago | gbp2 | GTP binding protein2: | 1.09 | GRMZM2G045314
| Liang, XY et al. 2023. Designing salt stress-resilient crops: Current progress and future challenges. J Integr Plant Biol. :doi: 10.1111/jipb.13599. | | Reference: December 18th, 2023
Gene Product: May 1st, 2018
Variation: December 19th, 2019
Gene Model: July 27th, 2016
|
| 4 months ago | sdg105 | set domain gene105: | 8.05 - 8.05 | | Liu, BB et al. 2023. Heritable changes of epialleles near genes in maize can be triggered in the absence of CHH methylatio Plant Physiol. :doi: 10.1093/plphys/kiad668. | | Reference: December 18th, 2023
Gene Product: June 30th, 2017
Variation: June 29th, 2017
|
| 4 months ago | ago4a | argonaute4a: | | GRMZM2G589579
| Liu, BB et al. 2023. Heritable changes of epialleles near genes in maize can be triggered in the absence of CHH methylatio Plant Physiol. :doi: 10.1093/plphys/kiad668. | | Reference: December 18th, 2023
Gene Product: August 12th, 2016
Gene Model: August 13th, 2016
|
| 4 months ago | ago6 | argonaute6: | | GRMZM2G347402
| Liu, BB et al. 2023. Heritable changes of epialleles near genes in maize can be triggered in the absence of CHH methylatio Plant Physiol. :doi: 10.1093/plphys/kiad668. | | Reference: December 18th, 2023
Gene Product: August 12th, 2016
Gene Model: August 13th, 2016
|
| 4 months ago | lac9 | laccase9: | | GRMZM2G132169
| Liang, XY et al. 2023. Designing salt stress-resilient crops: Current progress and future challenges. J Integr Plant Biol. :doi: 10.1111/jipb.13599. | | Reference: December 18th, 2023
Gene Product: March 31st, 2018
Gene Model: September 28th, 2016
|
| 4 months ago | nc1 | Na+ content1: | | GRMZM2G047616
| Liang, XY et al. 2023. Designing salt stress-resilient crops: Current progress and future challenges. J Integr Plant Biol. :doi: 10.1111/jipb.13599. | | Reference: December 18th, 2023
Gene Product: November 15th, 2017
Variation: November 15th, 2017
Gene Model: November 15th, 2017
|
| 4 months ago | nc2 | Na+ content2: | | GRMZM2G135674
| Liang, XY et al. 2023. Designing salt stress-resilient crops: Current progress and future challenges. J Integr Plant Biol. :doi: 10.1111/jipb.13599. | | Reference: December 18th, 2023
Gene Product: November 15th, 2017
Gene Model: November 15th, 2017
|
| 4 months ago | nhx7 | Na+/H+ antiporter 7: | | GRMZM2G098494
| Liang, XY et al. 2023. Designing salt stress-resilient crops: Current progress and future challenges. J Integr Plant Biol. :doi: 10.1111/jipb.13599. | AT1G14660 (TAIR) | Reference: December 18th, 2023
Gene Product: April 26th, 2021
Gene Model: August 20th, 2018
|
| 4 months ago | lac18 | laccase18: | | GRMZM2G388587
| Liang, XY et al. 2023. Designing salt stress-resilient crops: Current progress and future challenges. J Integr Plant Biol. :doi: 10.1111/jipb.13599. | | Reference: December 18th, 2023
Gene Product: March 31st, 2018
Gene Model: March 3rd, 2020
|
| 4 months ago | nhx9 | Na+/H+ antiporter 9: | | GRMZM2G171507
| Liang, XY et al. 2023. Designing salt stress-resilient crops: Current progress and future challenges. J Integr Plant Biol. :doi: 10.1111/jipb.13599. | | Reference: December 18th, 2023
Gene Product: April 26th, 2021
Gene Model: March 23rd, 2020
|
| 4 months ago | cyp40 | cytochrome P450 40: | | GRMZM2G013956
| Liang, XY et al. 2023. Designing salt stress-resilient crops: Current progress and future challenges. J Integr Plant Biol. :doi: 10.1111/jipb.13599. | | Reference: December 18th, 2023
Gene Product: December 30th, 2022
Gene Model: December 3rd, 2020
|
| 4 months ago | GRMZM2G071119 | : | | GRMZM2G071119
| Liang, XY et al. 2023. Designing salt stress-resilient crops: Current progress and future challenges. J Integr Plant Biol. :doi: 10.1111/jipb.13599. | | Reference: December 18th, 2023
Gene Product: November 30th, 2021
Gene Model: May 3rd, 2021
|
| 4 months ago | stl1 | salt-tolerant locus1: | | GRMZM2G472278
| Liang, XY et al. 2023. Designing salt stress-resilient crops: Current progress and future challenges. J Integr Plant Biol. :doi: 10.1111/jipb.13599. | | Reference: December 18th, 2023
Gene Product: April 25th, 2022
Variation: April 25th, 2022
Gene Model: April 25th, 2022
|
| 4 months ago | cbl4 | calcineurin B-like2: | 6.06 | GRMZM2G001221
| Liang, XY et al. 2023. Designing salt stress-resilient crops: Current progress and future challenges. J Integr Plant Biol. :doi: 10.1111/jipb.13599. | | Reference: December 18th, 2023
Gene Product: October 19th, 2016
Gene Model: October 19th, 2016
|
| 4 months ago | cgt2 | C-glucosyl transferase2: | 6.05 | | Liang, XY et al. 2023. Designing salt stress-resilient crops: Current progress and future challenges. J Integr Plant Biol. :doi: 10.1111/jipb.13599. | | Reference: December 18th, 2023
Gene Product: November 18th, 2020
Variation: September 25th, 2007
|
| 4 months ago | cl54662_1 | : | 3.09 | | Leyla Nazari et al. 2023. Identification of biomarker genes from multiple studies for abiotic stress in maize through machine learning J Biosciences. 49:1. | | Reference: December 16th, 2023
Variation: September 25th, 2007
|
| 4 months ago | hrg1 | hydroxyproline rich glycoprotein1: | 2.04 | GRMZM2G168651
| Leyla Nazari et al. 2023. Identification of biomarker genes from multiple studies for abiotic stress in maize through machine learning J Biosciences. 49:1. | | Reference: December 16th, 2023
Gene Product: September 1st, 2003
Variation: September 1st, 2003
Gene Model: February 6th, 2018
|
| 4 months ago | abh2 | abscisic acid 8'-hydroxylase2: | | GRMZM2G126505
| Dating Zhong et al. 2023. Targeted A-to-T and A-to-C base replacement in maize using an optimized adenine base editor Plant Biotechnol J. :doi: 10.1111/pbi.14256. | | Reference: December 16th, 2023
Gene Product: February 15th, 2013
Variation: September 1st, 2011
Gene Model: February 15th, 2013
|
| 4 months ago | IDP183 | : | 2.05 | GRMZM2G152089
| Leyla Nazari et al. 2023. Identification of biomarker genes from multiple studies for abiotic stress in maize through machine learning J Biosciences. 49:1. | | Reference: December 16th, 2023
Variation: March 31st, 2005
Gene Model: February 19th, 2019
|
| 4 months ago | bhlh202 | bHLH-transcription factor 202: | | | Corinna Thoben et al. 2023. Automatic annotation of the bHLH gene family in plants BMC Genomics. 24:780. | | Reference: December 15th, 2023
Gene Product: September 14th, 2016
|
| 4 months ago | bhlh204 | bHLH-transcription factor 204: | | | Corinna Thoben et al. 2023. Automatic annotation of the bHLH gene family in plants BMC Genomics. 24:780. | | Reference: December 15th, 2023
Gene Product: September 14th, 2016
Variation: October 24th, 2022
|
| 4 months ago | bhlh190 | bHLH-transcription factor 190: | | | Corinna Thoben et al. 2023. Automatic annotation of the bHLH gene family in plants BMC Genomics. 24:780. | | Reference: December 15th, 2023
Gene Product: September 14th, 2016
|
| 4 months ago | bhlh148 | bHLH-transcription factor 148: | 2.02 | | Corinna Thoben et al. 2023. Automatic annotation of the bHLH gene family in plants BMC Genomics. 24:780. | | Reference: December 15th, 2023
Variation: September 25th, 2007
|
| 4 months ago | csu845 | : | 3.09 | GRMZM2G364528
| Corinna Thoben et al. 2023. Automatic annotation of the bHLH gene family in plants BMC Genomics. 24:780. | | Reference: December 15th, 2023
Variation: September 1st, 2003
Gene Model: March 23rd, 2018
|
| 4 months ago | bhlh19 | bHLH-transcription factor 19: | 8.01 - 8.02 | GRMZM2G066057
| Corinna Thoben et al. 2023. Automatic annotation of the bHLH gene family in plants BMC Genomics. 24:780. | | Reference: December 15th, 2023
Variation: September 1st, 2003
Gene Model: September 16th, 2018
|
| 4 months ago | bnlg1754 | : | 3.09 | GRMZM2G087769
| Carvalho, VP et al. 2023. Recurrent selection effects on the genetic structure of maize landrace assessed by SSR markers Cuad Edu Desarrollo. 15:16063–16081. | | Reference: December 15th, 2023
Variation: September 1st, 2003
Gene Model: March 22nd, 2018
|
| 4 months ago | bnlg2323 | : | 5.04 | GRMZM2G121366
| Carvalho, VP et al. 2023. Recurrent selection effects on the genetic structure of maize landrace assessed by SSR markers Cuad Edu Desarrollo. 15:16063–16081. | | Reference: December 15th, 2023
Variation: September 1st, 2003
Gene Model: June 29th, 2018
|
| 4 months ago | bhlh104 | : | 3.04 | GRMZM5G821755
| Corinna Thoben et al. 2023. Automatic annotation of the bHLH gene family in plants BMC Genomics. 24:780. | | Reference: December 15th, 2023
Variation: April 5th, 2018
Gene Model: March 30th, 2018
|
| 4 months ago | umc1252 | : | 2.09 | GRMZM2G023585
| Carvalho, VP et al. 2023. Recurrent selection effects on the genetic structure of maize landrace assessed by SSR markers Cuad Edu Desarrollo. 15:16063–16081. | | Reference: December 15th, 2023
Variation: May 5th, 2021
Gene Model: February 16th, 2018
|
| 4 months ago | umc1352a | : | 6.05 | GRMZM2G032896
| Carvalho, VP et al. 2023. Recurrent selection effects on the genetic structure of maize landrace assessed by SSR markers Cuad Edu Desarrollo. 15:16063–16081. | | Reference: December 15th, 2023
Variation: August 26th, 2018
Gene Model: August 27th, 2018
|
| 4 months ago | umc1354 | : | 1.00 | | Carvalho, VP et al. 2023. Recurrent selection effects on the genetic structure of maize landrace assessed by SSR markers Cuad Edu Desarrollo. 15:16063–16081. | | Reference: December 15th, 2023
Variation: September 1st, 2003
|
| 4 months ago | umc1394 | : | 3.01 | GRMZM2G097959
| Carvalho, VP et al. 2023. Recurrent selection effects on the genetic structure of maize landrace assessed by SSR markers Cuad Edu Desarrollo. 15:16063–16081. | | Reference: December 15th, 2023
Variation: September 1st, 2003
Gene Model: April 2nd, 2018
|
| 4 months ago | umc1486 | : | 1.07 | GRMZM2G389567
| Corinna Thoben et al. 2023. Automatic annotation of the bHLH gene family in plants BMC Genomics. 24:780. | | Reference: December 15th, 2023
Variation: September 1st, 2003
Gene Model: November 10th, 2016
|
| 4 months ago | umc1524 | : | 5.06 | AC185464.3_FG003
| Carvalho, VP et al. 2023. Recurrent selection effects on the genetic structure of maize landrace assessed by SSR markers Cuad Edu Desarrollo. 15:16063–16081. | | Reference: December 15th, 2023
Variation: September 1st, 2003
Gene Model: July 12th, 2018
|
| 4 months ago | umc1538a | : | 1.11 | GRMZM5G831951
| Carvalho, VP et al. 2023. Recurrent selection effects on the genetic structure of maize landrace assessed by SSR markers Cuad Edu Desarrollo. 15:16063–16081. | | Reference: December 15th, 2023
Variation: September 1st, 2003
Gene Model: November 16th, 2016
|
| 4 months ago | bhlh10 | bHLH-transcription factor 10: | | | Corinna Thoben et al. 2023. Automatic annotation of the bHLH gene family in plants BMC Genomics. 24:780. | | Reference: December 15th, 2023
Gene Product: September 14th, 2016
Variation: December 17th, 2018
|
| 4 months ago | bhlh12 | bHLH-transcription factor 12: | | | Corinna Thoben et al. 2023. Automatic annotation of the bHLH gene family in plants BMC Genomics. 24:780. | | Reference: December 15th, 2023
Gene Product: September 14th, 2016
|
| 4 months ago | bhlh121 | bHLH-transcription factor 121: | | | Corinna Thoben et al. 2023. Automatic annotation of the bHLH gene family in plants BMC Genomics. 24:780. | | Reference: December 15th, 2023
Variation: March 20th, 2023
|
| 4 months ago | bhlh136 | bHLH-transcription factor 136: | | | Corinna Thoben et al. 2023. Automatic annotation of the bHLH gene family in plants BMC Genomics. 24:780. | | Reference: December 15th, 2023
Variation: March 17th, 2021
|
| 4 months ago | bhlh172 | bHLH-transcription factor 172: | | | Corinna Thoben et al. 2023. Automatic annotation of the bHLH gene family in plants BMC Genomics. 24:780. | AT1G51070 (TAIR) | Reference: December 15th, 2023
Gene Product: September 14th, 2016
|
| 4 months ago | bhlh175 | bHLH-transcription factor 175: | | | Corinna Thoben et al. 2023. Automatic annotation of the bHLH gene family in plants BMC Genomics. 24:780. | AT3G26744 (TAIR) | Reference: December 15th, 2023
Gene Product: September 14th, 2016
|
| 4 months ago | bhlh35 | bHLH-transcription factor 35: | | | Corinna Thoben et al. 2023. Automatic annotation of the bHLH gene family in plants BMC Genomics. 24:780. | | Reference: December 15th, 2023
Variation: May 10th, 2016
|
| 4 months ago | bhlh36 | bHLH-transcription factor 36: | | | Corinna Thoben et al. 2023. Automatic annotation of the bHLH gene family in plants BMC Genomics. 24:780. | | Reference: December 15th, 2023
Variation: August 9th, 2018
|
| 4 months ago | bhlh52 | bHLH-transcription factor 52: | | | Corinna Thoben et al. 2023. Automatic annotation of the bHLH gene family in plants BMC Genomics. 24:780. | | Reference: December 15th, 2023
Gene Product: September 14th, 2016
|
| 4 months ago | bhlh59 | bHLH-transcription factor 59: | | | Corinna Thoben et al. 2023. Automatic annotation of the bHLH gene family in plants BMC Genomics. 24:780. | | Reference: December 15th, 2023
Gene Product: September 14th, 2016
|
| 4 months ago | bhlh61 | bHLH-transcription factor 61: | | | Corinna Thoben et al. 2023. Automatic annotation of the bHLH gene family in plants BMC Genomics. 24:780. | | Reference: December 15th, 2023
Gene Product: September 14th, 2016
|
| 4 months ago | bhlh68 | bHLH-transcription factor 68: | | | Corinna Thoben et al. 2023. Automatic annotation of the bHLH gene family in plants BMC Genomics. 24:780. | | Reference: December 15th, 2023
Variation: August 5th, 2022
|
| 4 months ago | bhlh82 | bHLH-transcription factor 82: | | | Corinna Thoben et al. 2023. Automatic annotation of the bHLH gene family in plants BMC Genomics. 24:780. | | Reference: December 15th, 2023
Gene Product: September 14th, 2016
Variation: August 30th, 2019
|
| 4 months ago | bhlh85 | bHLH-transcription factor 85: | | | Corinna Thoben et al. 2023. Automatic annotation of the bHLH gene family in plants BMC Genomics. 24:780. | | Reference: December 15th, 2023
Gene Product: September 14th, 2016
|
| 4 months ago | bhlh87 | bHLH-transcription factor 87: | | | Corinna Thoben et al. 2023. Automatic annotation of the bHLH gene family in plants BMC Genomics. 24:780. | | Reference: December 15th, 2023
Gene Product: September 14th, 2016
|
| 4 months ago | bhlh88 | bHLH-transcription factor 88: | | | Corinna Thoben et al. 2023. Automatic annotation of the bHLH gene family in plants BMC Genomics. 24:780. | | Reference: December 15th, 2023
Gene Product: September 14th, 2016
|
| 4 months ago | bhlh93 | bHLH-transcription factor 93: | | | Corinna Thoben et al. 2023. Automatic annotation of the bHLH gene family in plants BMC Genomics. 24:780. | | Reference: December 15th, 2023
Gene Product: September 14th, 2016
|
| 4 months ago | bhlh97 | bHLH-transcription factor 97: | 9.07 | AC149829.2_FG004
| Corinna Thoben et al. 2023. Automatic annotation of the bHLH gene family in plants BMC Genomics. 24:780. | | Reference: December 15th, 2023
Variation: September 1st, 2003
Gene Model: March 8th, 2018
|
| 4 months ago | umc1961 | : | 2.02 | GRMZM2G155217
| Corinna Thoben et al. 2023. Automatic annotation of the bHLH gene family in plants BMC Genomics. 24:780. | | Reference: December 15th, 2023
Variation: March 17th, 2021
Gene Model: February 27th, 2018
|
| 4 months ago | umc2227 | : | 1.04 | GRMZM2G412430
| Corinna Thoben et al. 2023. Automatic annotation of the bHLH gene family in plants BMC Genomics. 24:780. | | Reference: December 15th, 2023
Variation: January 6th, 2017
Gene Model: January 6th, 2017
|
| 4 months ago | bhlh141 | bHLH-transcription factor 141: | 4.03 | GRMZM2G080168
| Corinna Thoben et al. 2023. Automatic annotation of the bHLH gene family in plants BMC Genomics. 24:780. | | Reference: December 15th, 2023
Variation: June 11th, 2018
Gene Model: June 11th, 2018
|
| 4 months ago | ptf1 | Pi starvation-induced transcription factor1: | 9.01 - 9.02 | GRMZM2G024530
| Corinna Thoben et al. 2023. Automatic annotation of the bHLH gene family in plants BMC Genomics. 24:780. | LOC_Os02g35660 (MSU/TIGR)
Os02g0564700 (Gramene) | Reference: December 15th, 2023
Gene Product: September 14th, 2016
Variation: April 23rd, 2011
Gene Model: April 19th, 2011
|
| 4 months ago | bhlh132 | bHLH-transcription factor 132: | 3.05 | GRMZM2G114873
| Corinna Thoben et al. 2023. Automatic annotation of the bHLH gene family in plants BMC Genomics. 24:780. | | Reference: December 15th, 2023
Gene Product: September 14th, 2016
Gene Model: September 12th, 2016
|
| 4 months ago | upb1 | upbeat1: | | GRMZM2G040364
| Corinna Thoben et al. 2023. Automatic annotation of the bHLH gene family in plants BMC Genomics. 24:780. | AT2G47270 (TAIR) | Reference: December 15th, 2023
Gene Product: September 14th, 2016
Gene Model: September 22nd, 2018
|
| 4 months ago | lrl3 | ljrhl1-like3: | 5.08 | GRMZM5G832135
| Corinna Thoben et al. 2023. Automatic annotation of the bHLH gene family in plants BMC Genomics. 24:780. | AT5G58010 (TAIR) | Reference: December 15th, 2023
Gene Product: September 14th, 2016
Gene Model: December 17th, 2018
|
| 4 months ago | bhlh185 | bHLH-transcription factor 185: | | GRMZM2G350312
| Corinna Thoben et al. 2023. Automatic annotation of the bHLH gene family in plants BMC Genomics. 24:780. | AT3G47640 (TAIR)
LOC_Os03g26210 (MSU/TIGR)
Os03g0379300 (Gramene) | Reference: December 15th, 2023
Gene Product: September 14th, 2016
Gene Model: May 2nd, 2022
|
| 4 months ago | pco129491 | : | 8.07 | | Corinna Thoben et al. 2023. Automatic annotation of the bHLH gene family in plants BMC Genomics. 24:780. | | Reference: December 15th, 2023
Variation: September 25th, 2007
|
| 4 months ago | mn7 | miniature seed7: | 2.04 | GRMZM2G018059
| Jianrui Li et al. 2023. ZmELP1, an Elongator complex subunit, is required for the maintenance of histone acetylation and RNA Pol II phosphorylation in maize kernels. Plant Biotechnol J. :doi: 10.1111/pbi.14262. | | Reference: December 15th, 2023
Gene Product: December 15th, 2023
Variation: December 15th, 2023
Gene Model: February 19th, 2019
|
| 4 months ago | impb9 | importin beta9: | | | Huang, X et al. 2023. Maize DDK1 encoding an Importin-4 β protein is essential for seed development and grain filling by mediating nuclear exporting of eIF1A. New Phytol. | | Reference: December 14th, 2023
Gene Product: November 15th, 2022
Variation: December 14th, 2023
|
| 4 months ago | cdk3 | cyclin-dependent kinase3: | | | Xinran Gao et al. 2023. Identification of ceRNA-vsiRNA-mRNA network for exploring the mechanism underlying pathogenesis of sugarcane mosaic virus in resistant and susceptible maize inbred lines Phytopathol Res. 5:60. | | Reference: December 14th, 2023
Gene Product: October 19th, 2022
|
| 4 months ago | les8 | lesion8: | 9.02 | | Li, JK et al. 2023. Characterization and fine mapping of a maize lesion mimic mutant (Les8) with enhanced resistance to Curvularia leaf spot and southern leaf blight. Theor Appl Genet. 137:7. | | Reference: December 14th, 2023
Variation: September 1st, 2003
|
| 4 months ago | umc1204 | : | | GRMZM2G164088
| Xinran Gao et al. 2023. Identification of ceRNA-vsiRNA-mRNA network for exploring the mechanism underlying pathogenesis of sugarcane mosaic virus in resistant and susceptible maize inbred lines Phytopathol Res. 5:60. | | Reference: December 14th, 2023
Variation: September 1st, 2003
Gene Model: February 15th, 2020
|
| 4 months ago | arftf11 | ARF-transcription factor 11: | | | Xinran Gao et al. 2023. Identification of ceRNA-vsiRNA-mRNA network for exploring the mechanism underlying pathogenesis of sugarcane mosaic virus in resistant and susceptible maize inbred lines Phytopathol Res. 5:60. | | Reference: December 14th, 2023
Gene Product: January 29th, 2022
Variation: July 7th, 2017
|
| 4 months ago | hb13 | Homeobox-transcription factor 13: | | | Gallagher, JP et al. 2023. GRASSY TILLERS1 (GT1) and SIX-ROWED SPIKE1 (VRS1) homologs share conserved roles in growth repression Proc Natl Acad Sci, USA. 120:e2311961120. | | Reference: December 14th, 2023
Variation: December 14th, 2023
|
| 4 months ago | ftr1 | ferredoxin-thioredoxin1: | 9.01 | GRMZM2G122793
| Li, JK et al. 2023. Characterization and fine mapping of a maize lesion mimic mutant (Les8) with enhanced resistance to Curvularia leaf spot and southern leaf blight. Theor Appl Genet. 137:7. | | Reference: December 14th, 2023
Gene Product: August 31st, 2020
Variation: September 2nd, 2015
Gene Model: September 2nd, 2015
|
| 4 months ago | sdg127 | set domain gene127: | | GRMZM2G473138
| Shu, GP et al. 2023. Identification of QTNs, QTN-by-environment interactions for plant height and ear height in maize multi-environment GWAS. Frontiers in Plant Science. 14:1284403. | | Reference: December 14th, 2023
Gene Product: June 30th, 2017
Gene Model: June 29th, 2017
|
| 4 months ago | mkk2 | mitogen-activated protein kinase kinase2: | | GRMZM2G400470
| Li, JK et al. 2023. Characterization and fine mapping of a maize lesion mimic mutant (Les8) with enhanced resistance to Curvularia leaf spot and southern leaf blight. Theor Appl Genet. 137:7. | AT4G29810 (TAIR) | Reference: December 14th, 2023
Gene Product: July 12th, 2013
Gene Model: September 22nd, 2018
|
| 4 months ago | saur76 | small auxin up RNA76: | | GRMZM2G425072
| Shu, GP et al. 2023. Identification of QTNs, QTN-by-environment interactions for plant height and ear height in maize multi-environment GWAS. Frontiers in Plant Science. 14:1284403. | | Reference: December 14th, 2023
Gene Product: November 26th, 2021
Gene Model: November 15th, 2019
|
| 4 months ago | gogat1 | glutamate synthase1: | | GRMZM2G077054
| Stefania Fortunato et al. 2023. The Role of Glutamine Synthetase (GS) and Glutamate Synthase (GOGAT) in the Improvement of Nitrogen Use Efficiency in Cereals Biomolecules. 13:1771. | | Reference: December 14th, 2023
Gene Product: January 2nd, 2022
Gene Model: January 2nd, 2022
|
| 4 months ago | eif1 | eukaryotic initiation factor1: | | GRMZM2G101859
| Huang, X et al. 2023. Maize DDK1 encoding an Importin-4 β protein is essential for seed development and grain filling by mediating nuclear exporting of eIF1A. New Phytol. | | Reference: December 14th, 2023
Gene Product: March 4th, 2022
Gene Model: March 4th, 2022
|
| 4 months ago | hug1 | heat up-regulated gene1: | | GRMZM2G103179
| Li, JK et al. 2023. Characterization and fine mapping of a maize lesion mimic mutant (Les8) with enhanced resistance to Curvularia leaf spot and southern leaf blight. Theor Appl Genet. 137:7. | | Reference: December 14th, 2023
Gene Product: June 17th, 2022
Variation: June 17th, 2022
Gene Model: June 17th, 2022
|
| 4 months ago | atpB (cp) | : | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | ndhB-II (cp) | nicotinamide adenine dinucleotide dehydrogenaseB2: | | GRMZM5G810298
| Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
Gene Model: June 2nd, 2020
|
| 4 months ago | atpE (cp) | : | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | ndhF (cp) | : | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | psbK (cp) | : | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | psbI (cp) | : | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | trnT (cp) | : | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | trnD (cp) | : | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | trnE (cp) | : | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | psbM (cp) | : | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | ndhJ (cp) | : | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | ORF185 (cp) | : | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | cemA (cp) | : | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | psbT (cp) | : | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | psbN (cp) | : | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | infA (cp) | : | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | ORF321 (cp) | : | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | ndhG (cp) | : | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | mus1 | MutS homolog1: | 7.04 | GRMZM2G056075
| Xinran Gao et al. 2023. Whole-transcriptome characterization and functional analysis of lncRNA-miRNA-mRNA regulatory networks responsive to sugarcane mosaic virus in maize resistant and susceptible inbred lines Int J Biol Macromol. :doi: 10.1016/j.ijbiomac.2023.128685. | | Reference: December 13th, 2023
Gene Product: August 15th, 2005
Variation: January 28th, 2013
Gene Model: August 5th, 2015
|
| 4 months ago | tpi5 | triose phosphate isomerase5: | 8.07 - 8.08 | GRMZM2G146206
| Xinran Gao et al. 2023. Whole-transcriptome characterization and functional analysis of lncRNA-miRNA-mRNA regulatory networks responsive to sugarcane mosaic virus in maize resistant and susceptible inbred lines Int J Biol Macromol. :doi: 10.1016/j.ijbiomac.2023.128685. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
Gene Model: January 15th, 2015
|
| 4 months ago | chn1 | chitinase chem1: | 3.08 | GRMZM2G453805
| Guo, HL et al. 2023. Phenotypic and Proteomic Insights into Differential Cadmium Accumulation in Maize Kernels Genes. 14:2204. | | Reference: December 13th, 2023
Gene Product: May 31st, 2021
Variation: November 30th, 2007
Gene Model: June 21st, 2015
|
| 4 months ago | cta1 | chitinase A1: | 2.04 | | Guo, HL et al. 2023. Phenotypic and Proteomic Insights into Differential Cadmium Accumulation in Maize Kernels Genes. 14:2204. | | Reference: December 13th, 2023
Gene Product: May 31st, 2021
Variation: September 1st, 2003
|
| 4 months ago | sbp25 | SBP-transcription factor 25: | | | Xinran Gao et al. 2023. Whole-transcriptome characterization and functional analysis of lncRNA-miRNA-mRNA regulatory networks responsive to sugarcane mosaic virus in maize resistant and susceptible inbred lines Int J Biol Macromol. :doi: 10.1016/j.ijbiomac.2023.128685. | | Reference: December 13th, 2023
Gene Product: July 5th, 2019
|
| 4 months ago | atpH (cp) | ATPaseH: | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: October 21st, 2003
|
| 4 months ago | psbB (cp) | : | | GRMZM5G808939
| Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
Gene Model: June 16th, 2020
|
| 4 months ago | psbF (cp) | : | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | petD (cp) | : | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | petB (cp) | : | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | petA (cp) | : | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | petL (cp) | ORF of 31 residues: | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | petG (cp) | : | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | psaC (cp) | psaC: | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | ndhD (cp) | : | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | trnA(UGC)-I (cp) | plastid Ala tDNA isoacceptor (UGC): | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | trnI(GAU)-I (cp) | plastid Ile tDNA isoacceptor (GAU): | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | trnfM(CAU) (cp) | plastid initiator Met tDNA isoacceptor (CAU): | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | trnG(GCC) (cp) | plastid Gly tDNA isoacceptor (GCC): | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | trnG(UCC) (cp) | plastid Gly tDNA isoacceptor (UCC): | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | trnR(UCU) (cp) | plastid Arg tDNA isoacceptor (UCU): | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | trnS(GCU) (cp) | plastid Ser tDNA isoacceptor (GCU): | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | trnP(UGG) (cp) | plastid Pro tDNA isoacceptor (UGG): | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | trnW(CCA) (cp) | plastid Trp tDNA isoacceptor (CCA): | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | trnS(GGA) (cp) | plastid Ser tDNA isoacceptor (GGA): | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | trnF(GAA) (cp) | plastid Phe tDNA isoacceptor (GAA): | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | trnT(UGU) (cp) | plastid Thr tDNA isoacceptor (UGU): | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | trnL(CAA)-I (cp) | plastid Leu tDNA isoacceptor (CAA): | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | trnV(UAC) (cp) | plastid Val tDNA isoacceptor (UAC): | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | trnL(UAA) (cp) | plastid Leu tDNA isoacceptor (UAA): | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | trnS(UGA) (cp) | plastid Ser tDNA isoacceptor (UGA): | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | trnR(ACG)-I (cp) | plastid Arg tDNA isoacceptor (ACG): | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | trnN(GUU)-I (cp) | plastid Asn tDNA isoacceptor (GUU): | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | trnH(GUG)-I (cp) | plastid His tDNA isoacceptor (GUG)a: | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | trnV(GAC)-I (cp) | plastid Val tDNA isoacceptor (GAC): | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | ndhE (cp) | NADH-plastoquinone oxidoreductase, chain 4L, plast: | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | ndhA (cp) | NADH-plastoquinone oxidoreductase chain 1, plastid: | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | rps7-I (cp) | 30S ribosomal protein S7 gene: | | GRMZM5G806488
| Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
Gene Model: June 23rd, 2021
|
| 4 months ago | rps7-II (cp) | 30S ribosomal protein S7 gene: | | GRMZM5G844628
| Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
Gene Model: June 23rd, 2021
|
| 4 months ago | rpl22 (cp) | 50S ribosomal protein L22 gene: | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | rpl16 (cp) | 50S ribosomal protein L16 gene: | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | rpoA (cp) | Plastid DNA-directed RNA polymerase alpha chain: | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | psbH (cp) | : | | GRMZM5G831399
| Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
Gene Model: September 3rd, 2021
|
| 4 months ago | rpl20 (cp) | 50S ribosomal protein L20 gene: | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | psbE (cp) | : | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | psbL (cp) | : | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | ndhC (cp) | : | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | ndhK (cp) | : | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | rps14 (cp) | 30S ribosomal protein S14 gene: | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | atpA (cp) | : | | GRMZM5G875287
| Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
Gene Model: July 7th, 2022
|
| 4 months ago | atpF (cp) | : | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | atpI (cp) | : | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | rpoC2 (cp) | plastid DNA-directed RNA polymerase beta'' chain: | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | rpoC1 (cp) | plastid DNA-directed RNA polymerase beta' chain: | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | rpoB (cp) | plastid DNA-directed RNA polymerase beta chain: | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | psbC (cp) | : | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | trnA(UGC)-II (cp) | plastid Ala tDNA isoacceptor (UGC): | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | trnH(GUG)-II (cp) | plastid His tDNA isoacceptor (GUG): | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | trnI(GAU)-II (cp) | plastid Ile tDNA isoacceptor (GAU): | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | trnL(CAA)-II (cp) | plastid Leu tDNA isoacceptor (CAA): | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | trnN(GUU)-II (cp) | plastid Asn tDNA isoacceptor (GUU): | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | trnR(ACG)-II (cp) | plastid Arg tDNA isoacceptor (ACG): | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | trnV(GAC)-II (cp) | plastid Val tDNA isoacceptor (GAC): | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | ndhB-I (cp) | nicotinamide adenine dinucleotide dehydrogenaseB1: | | GRMZM5G876106
| Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
Gene Model: June 2nd, 2020
|
| 4 months ago | rps3 (cp) | 30S ribosomal protein S3 gene: | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | rpl32 (cp) | 50S ribosomal protein L32 gene: | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | ndhI (cp) | : | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | psaJ (cp) | photosystemI, subunitJ: | | | Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
|
| 4 months ago | psbJ (cp) | : | | GRMZM5G834496
| Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
Gene Model: December 26th, 2016
|
| 4 months ago | cbp2 | calmodulin binding protein2: | 4.09 | GRMZM2G018837
| Xinran Gao et al. 2023. Whole-transcriptome characterization and functional analysis of lncRNA-miRNA-mRNA regulatory networks responsive to sugarcane mosaic virus in maize resistant and susceptible inbred lines Int J Biol Macromol. :doi: 10.1016/j.ijbiomac.2023.128685. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
Variation: September 26th, 2012
Gene Model: July 27th, 2016
|
| 4 months ago | hmt4 | homocysteine S-methyltransferase4: | 3.07 | GRMZM2G039166
| Guo, HL et al. 2023. Phenotypic and Proteomic Insights into Differential Cadmium Accumulation in Maize Kernels Genes. 14:2204. | | Reference: December 13th, 2023
Gene Product: July 19th, 2004
Variation: September 25th, 2007
Gene Model: March 3rd, 2015
|
| 4 months ago | pdi8 | protein disulfide isomerase8: | 7.02 | GRMZM2G389173
| Guo, HL et al. 2023. Phenotypic and Proteomic Insights into Differential Cadmium Accumulation in Maize Kernels Genes. 14:2204. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
Variation: January 13th, 2016
Gene Model: December 18th, 2015
|
| 4 months ago | prdx1 | peroxiredoxin1: | | GRMZM2G129761
| Guo, HL et al. 2023. Phenotypic and Proteomic Insights into Differential Cadmium Accumulation in Maize Kernels Genes. 14:2204. | | Reference: December 13th, 2023
Gene Product: February 4th, 2021
Gene Model: June 22nd, 2021
|
| 4 months ago | rps19-III (cp) | chloroplast 30S ribosomal protein S19: | | GRMZM2G427404
| Hope Y Hua et al. 2023. RIP-Seq analysis of non-PPR chloroplast editing factors reveals broad RNA interactions and enrichment of less efficiently translated RNAs by OZ1 and ORRM1 complexes. Plant J. :doi: 10.1111/tpj.16581. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
Gene Model: August 28th, 2021
|
| 4 months ago | px20 | peroxidase20: | | GRMZM2G320269
| Guo, HL et al. 2023. Phenotypic and Proteomic Insights into Differential Cadmium Accumulation in Maize Kernels Genes. 14:2204. | | Reference: December 13th, 2023
Gene Product: September 18th, 2015
Gene Model: September 1st, 2021
|
| 4 months ago | mmt1 | methionine S-methyltransferase1: | 8.05 | GRMZM2G098031
| Xinran Gao et al. 2023. Whole-transcriptome characterization and functional analysis of lncRNA-miRNA-mRNA regulatory networks responsive to sugarcane mosaic virus in maize resistant and susceptible inbred lines Int J Biol Macromol. :doi: 10.1016/j.ijbiomac.2023.128685. | | Reference: December 13th, 2023
Gene Product: October 25th, 2019
Variation: September 20th, 2018
Gene Model: September 20th, 2018
|
| 4 months ago | cel10 | cellulase10: | 8.03 | GRMZM2G331566
| Guo, HL et al. 2023. Phenotypic and Proteomic Insights into Differential Cadmium Accumulation in Maize Kernels Genes. 14:2204. | | Reference: December 13th, 2023
Gene Product: March 20th, 2023
Gene Model: June 24th, 2022
|
| 4 months ago | msf1 | mRNA splicing factor1: | 4.00 | GRMZM2G057450
| Xinran Gao et al. 2023. Whole-transcriptome characterization and functional analysis of lncRNA-miRNA-mRNA regulatory networks responsive to sugarcane mosaic virus in maize resistant and susceptible inbred lines Int J Biol Macromol. :doi: 10.1016/j.ijbiomac.2023.128685. | | Reference: December 13th, 2023
Gene Product: September 1st, 2003
Variation: January 27th, 2013
Gene Model: July 28th, 2016
|
| 4 months ago | wakl54 | wall associated kinase like54: | | | Hu, K et al. 2023. Insights into ZmWAKL in maize kernel development: genome-wide investigation and GA-mediated transcription BMC Genomics. 24:760. | | Reference: December 12th, 2023
Gene Product: December 7th, 2023
|
| 4 months ago | rlk12 | receptor-like protein kinase12: | | | Hu, K et al. 2023. Insights into ZmWAKL in maize kernel development: genome-wide investigation and GA-mediated transcription BMC Genomics. 24:760. | | Reference: December 12th, 2023
Gene Product: July 10th, 2019
Variation: December 29th, 2022
|
| 4 months ago | rlk13 | receptor-like protein kinase13: | | | Hu, K et al. 2023. Insights into ZmWAKL in maize kernel development: genome-wide investigation and GA-mediated transcription BMC Genomics. 24:760. | | Reference: December 12th, 2023
Gene Product: July 10th, 2019
|
| 4 months ago | Zm00001eb257480 | : | | | Duan, HY et al. 2023. Identification of novel loci associated with starch content in maize kernels by a genome-wide association study using an enlarged SNP panel Mol Breed. 43:91. | | Reference: December 12th, 2023
Gene Product: November 27th, 2023
|
| 4 months ago | wakl3 | wall-associated receptor kinase-like3: | | | Hu, K et al. 2023. Insights into ZmWAKL in maize kernel development: genome-wide investigation and GA-mediated transcription BMC Genomics. 24:760. | | Reference: December 12th, 2023
Gene Product: December 7th, 2023
|
| 4 months ago | wakl1 | wall associated kinase like1: | | | Hu, K et al. 2023. Insights into ZmWAKL in maize kernel development: genome-wide investigation and GA-mediated transcription BMC Genomics. 24:760. | | Reference: December 12th, 2023
Gene Product: December 7th, 2023
|
| 4 months ago | wakl4 | wall associated kinase like4: | | | Hu, K et al. 2023. Insights into ZmWAKL in maize kernel development: genome-wide investigation and GA-mediated transcription BMC Genomics. 24:760. | | Reference: December 12th, 2023
Gene Product: December 7th, 2023
|
| 4 months ago | wakl6 | wall associated kinase like6: | | | Hu, K et al. 2023. Insights into ZmWAKL in maize kernel development: genome-wide investigation and GA-mediated transcription BMC Genomics. 24:760. | | Reference: December 12th, 2023
Gene Product: December 7th, 2023
|
| 4 months ago | wakl8 | wall associated kinase like8: | | | Hu, K et al. 2023. Insights into ZmWAKL in maize kernel development: genome-wide investigation and GA-mediated transcription BMC Genomics. 24:760. | | Reference: December 12th, 2023
Gene Product: December 7th, 2023
|
| 4 months ago | wakl9 | wall associated kinase like9: | | | Hu, K et al. 2023. Insights into ZmWAKL in maize kernel development: genome-wide investigation and GA-mediated transcription BMC Genomics. 24:760. | | Reference: December 12th, 2023
Gene Product: December 7th, 2023
|
| 4 months ago | wakl10 | wall associated kinase like10: | | | Hu, K et al. 2023. Insights into ZmWAKL in maize kernel development: genome-wide investigation and GA-mediated transcription BMC Genomics. 24:760. | | Reference: December 12th, 2023
Gene Product: December 7th, 2023
|
| 4 months ago | wakl13 | wall associated kinase like13: | | | Hu, K et al. 2023. Insights into ZmWAKL in maize kernel development: genome-wide investigation and GA-mediated transcription BMC Genomics. 24:760. | | Reference: December 12th, 2023
Gene Product: December 7th, 2023
|
| 4 months ago | wakl15 | wall associated kinase like15: | | | Hu, K et al. 2023. Insights into ZmWAKL in maize kernel development: genome-wide investigation and GA-mediated transcription BMC Genomics. 24:760. | | Reference: December 12th, 2023
Gene Product: December 7th, 2023
|
| 4 months ago | wakl17 | wall associated kinase like17: | | | Hu, K et al. 2023. Insights into ZmWAKL in maize kernel development: genome-wide investigation and GA-mediated transcription BMC Genomics. 24:760. | | Reference: December 12th, 2023
Gene Product: December 7th, 2023
|
| 4 months ago | wakl18 | wall associated kinase like18: | | | Hu, K et al. 2023. Insights into ZmWAKL in maize kernel development: genome-wide investigation and GA-mediated transcription BMC Genomics. 24:760. | | Reference: December 12th, 2023
Gene Product: December 7th, 2023
|
| 4 months ago | wakl20 | wall associated kinase like20: | | | Hu, K et al. 2023. Insights into ZmWAKL in maize kernel development: genome-wide investigation and GA-mediated transcription BMC Genomics. 24:760. | | Reference: December 12th, 2023
Gene Product: December 7th, 2023
|
| 4 months ago | wakl23 | wall associated kinase like23: | | | Hu, K et al. 2023. Insights into ZmWAKL in maize kernel development: genome-wide investigation and GA-mediated transcription BMC Genomics. 24:760. | | Reference: December 12th, 2023
Gene Product: December 7th, 2023
|
| 4 months ago | wakl26 | wall associated kinase like26: | | | Hu, K et al. 2023. Insights into ZmWAKL in maize kernel development: genome-wide investigation and GA-mediated transcription BMC Genomics. 24:760. | | Reference: December 12th, 2023
Gene Product: December 7th, 2023
|
| 4 months ago | wakl27 | wall associated kinase like27: | | | Hu, K et al. 2023. Insights into ZmWAKL in maize kernel development: genome-wide investigation and GA-mediated transcription BMC Genomics. 24:760. | | Reference: December 12th, 2023
Gene Product: December 7th, 2023
|
| 4 months ago | wakl28 | wall associated kinase like28: | | | Hu, K et al. 2023. Insights into ZmWAKL in maize kernel development: genome-wide investigation and GA-mediated transcription BMC Genomics. 24:760. | | Reference: December 12th, 2023
Gene Product: December 7th, 2023
|
| 4 months ago | wakl29 | wall associated kinase like29: | | | Hu, K et al. 2023. Insights into ZmWAKL in maize kernel development: genome-wide investigation and GA-mediated transcription BMC Genomics. 24:760. | | Reference: December 12th, 2023
Gene Product: December 7th, 2023
|
| 4 months ago | wakl31 | wall associated kinase like31: | | | Hu, K et al. 2023. Insights into ZmWAKL in maize kernel development: genome-wide investigation and GA-mediated transcription BMC Genomics. 24:760. | | Reference: December 12th, 2023
Gene Product: December 7th, 2023
|
| 4 months ago | wakl32 | wall associated kinase like32: | | | Hu, K et al. 2023. Insights into ZmWAKL in maize kernel development: genome-wide investigation and GA-mediated transcription BMC Genomics. 24:760. | | Reference: December 12th, 2023
Gene Product: December 7th, 2023
|
| 4 months ago | wakl33 | wall associated kinase like33: | | | Hu, K et al. 2023. Insights into ZmWAKL in maize kernel development: genome-wide investigation and GA-mediated transcription BMC Genomics. 24:760. | | Reference: December 12th, 2023
Gene Product: December 7th, 2023
|
| 4 months ago | wakl34 | wall associated kinase like34: | | | Hu, K et al. 2023. Insights into ZmWAKL in maize kernel development: genome-wide investigation and GA-mediated transcription BMC Genomics. 24:760. | | Reference: December 12th, 2023
Gene Product: December 7th, 2023
|
| 4 months ago | wakl35 | wall associated kinase like35: | | | Hu, K et al. 2023. Insights into ZmWAKL in maize kernel development: genome-wide investigation and GA-mediated transcription BMC Genomics. 24:760. | | Reference: December 12th, 2023
Gene Product: December 7th, 2023
|
| 4 months ago | wakl36 | wall associated kinase like36: | | | Hu, K et al. 2023. Insights into ZmWAKL in maize kernel development: genome-wide investigation and GA-mediated transcription BMC Genomics. 24:760. | | Reference: December 12th, 2023
Gene Product: December 7th, 2023
|
| 4 months ago | wakl38 | wall associated kinase like38: | | | Hu, K et al. 2023. Insights into ZmWAKL in maize kernel development: genome-wide investigation and GA-mediated transcription BMC Genomics. 24:760. | | Reference: December 12th, 2023
Gene Product: December 7th, 2023
|
| 4 months ago | wakl41 | wall associated kinase like41: | | | Hu, K et al. 2023. Insights into ZmWAKL in maize kernel development: genome-wide investigation and GA-mediated transcription BMC Genomics. 24:760. | | Reference: December 12th, 2023
Gene Product: December 7th, 2023
|
| 4 months ago | wakl43 | wall associated kinase like43: | | | Hu, K et al. 2023. Insights into ZmWAKL in maize kernel development: genome-wide investigation and GA-mediated transcription BMC Genomics. 24:760. | | Reference: December 12th, 2023
Gene Product: December 7th, 2023
|
| 4 months ago | wakl45 | wall associated kinase like45: | | | Hu, K et al. 2023. Insights into ZmWAKL in maize kernel development: genome-wide investigation and GA-mediated transcription BMC Genomics. 24:760. | | Reference: December 12th, 2023
Gene Product: December 7th, 2023
|
| 4 months ago | wakl46 | wall associated kinase like46: | | | Hu, K et al. 2023. Insights into ZmWAKL in maize kernel development: genome-wide investigation and GA-mediated transcription BMC Genomics. 24:760. | | Reference: December 12th, 2023
Gene Product: December 7th, 2023
|
| 4 months ago | wakl48 | wall associated kinase like48: | | | Hu, K et al. 2023. Insights into ZmWAKL in maize kernel development: genome-wide investigation and GA-mediated transcription BMC Genomics. 24:760. | | Reference: December 12th, 2023
Gene Product: December 7th, 2023
|
| 4 months ago | wakl51 | wall associated kinase like51: | | | Hu, K et al. 2023. Insights into ZmWAKL in maize kernel development: genome-wide investigation and GA-mediated transcription BMC Genomics. 24:760. | | Reference: December 12th, 2023
Gene Product: December 7th, 2023
|
| 4 months ago | wakl55 | wall associated kinase like55: | | | Hu, K et al. 2023. Insights into ZmWAKL in maize kernel development: genome-wide investigation and GA-mediated transcription BMC Genomics. 24:760. | | Reference: December 12th, 2023
Gene Product: December 7th, 2023
|
| 4 months ago | wakl56 | wall associated kinase like56: | | | Hu, K et al. 2023. Insights into ZmWAKL in maize kernel development: genome-wide investigation and GA-mediated transcription BMC Genomics. 24:760. | | Reference: December 12th, 2023
Gene Product: December 7th, 2023
|
| 4 months ago | wakl57 | wall associated kinase like57: | | | Hu, K et al. 2023. Insights into ZmWAKL in maize kernel development: genome-wide investigation and GA-mediated transcription BMC Genomics. 24:760. | | Reference: December 12th, 2023
Gene Product: December 7th, 2023
|
| 4 months ago | wakl58 | wall associated kinase like58: | | | Hu, K et al. 2023. Insights into ZmWAKL in maize kernel development: genome-wide investigation and GA-mediated transcription BMC Genomics. 24:760. | | Reference: December 12th, 2023
Gene Product: December 7th, 2023
|
| 4 months ago | srk1 | S-receptor kinase1: | 2.09 | AC217293.3_FG007
| Hu, K et al. 2023. Insights into ZmWAKL in maize kernel development: genome-wide investigation and GA-mediated transcription BMC Genomics. 24:760. | | Reference: December 12th, 2023
Gene Product: July 10th, 2019
Variation: September 1st, 2003
Gene Model: July 1st, 2015
|
| 4 months ago | wakl37 | wall associated kinase like37: | 6.07 | GRMZM2G017157
| Hu, K et al. 2023. Insights into ZmWAKL in maize kernel development: genome-wide investigation and GA-mediated transcription BMC Genomics. 24:760. | | Reference: December 12th, 2023
Gene Product: December 7th, 2023
Gene Model: July 3rd, 2021
|
| 4 months ago | wakl14 | wall associated kinase like14: | 2.04 | GRMZM2G145045
| Hu, K et al. 2023. Insights into ZmWAKL in maize kernel development: genome-wide investigation and GA-mediated transcription BMC Genomics. 24:760. | | Reference: December 12th, 2023
Gene Product: December 7th, 2023
Gene Model: April 24th, 2021
|
| 4 months ago | wakl50 | wall associated kinase like50: | 8.02 | GRMZM2G172368
| Hu, K et al. 2023. Insights into ZmWAKL in maize kernel development: genome-wide investigation and GA-mediated transcription BMC Genomics. 24:760. | | Reference: December 12th, 2023
Gene Product: December 7th, 2023
Gene Model: July 9th, 2021
|
| 4 months ago | wakl22 | wall associated kinase like22: | 3.04 | GRMZM2G013790
| Hu, K et al. 2023. Insights into ZmWAKL in maize kernel development: genome-wide investigation and GA-mediated transcription BMC Genomics. 24:760. | | Reference: December 12th, 2023
Gene Product: December 7th, 2023
Gene Model: May 10th, 2021
|
| 4 months ago | wakl2a | wall associated kinase like2a: | 1.06 | | Hu, K et al. 2023. Insights into ZmWAKL in maize kernel development: genome-wide investigation and GA-mediated transcription BMC Genomics. 24:760. | | Reference: December 12th, 2023
Gene Product: December 7th, 2023
|
| 4 months ago | clx2 | calnexin homolog2: | 10.04 | GRMZM2G022180
| Duan, HY et al. 2023. Identification of novel loci associated with starch content in maize kernels by a genome-wide association study using an enlarged SNP panel Mol Breed. 43:91. | | Reference: December 12th, 2023
Gene Product: September 1st, 2003
Variation: September 29th, 2015
Gene Model: September 29th, 2015
|
| 4 months ago | bnlg1740 | : | 6.07 | GRMZM2G023133
| Duan, HY et al. 2023. Identification of novel loci associated with starch content in maize kernels by a genome-wide association study using an enlarged SNP panel Mol Breed. 43:91. | | Reference: December 12th, 2023
Variation: September 1st, 2003
Gene Model: August 29th, 2018
|
| 4 months ago | ptk5 | receptor-like kinase4: | 8.02 | GRMZM2G473511
| Hu, K et al. 2023. Insights into ZmWAKL in maize kernel development: genome-wide investigation and GA-mediated transcription BMC Genomics. 24:760. | | Reference: December 12th, 2023
Gene Product: July 10th, 2019
Gene Model: July 1st, 2015
|
| 4 months ago | abi35 | ABI3-VP1-transcription factor 35: | | | Hu, K et al. 2023. Insights into ZmWAKL in maize kernel development: genome-wide investigation and GA-mediated transcription BMC Genomics. 24:760. | | Reference: December 12th, 2023
Gene Product: January 29th, 2022
|
| 4 months ago | htn1 | Helminthosporium turcicum resistanceN1: | 8.06 | GRMZM2G164640
| Hu, K et al. 2023. Insights into ZmWAKL in maize kernel development: genome-wide investigation and GA-mediated transcription BMC Genomics. 24:760. | At1g66980 (TAIR)
LOC_Os01g49580 (MSU/TIGR) | Reference: December 12th, 2023
Gene Product: July 10th, 2019
Variation: July 14th, 2015
Gene Model: February 3rd, 2021
|
| 4 months ago | ohp2 | opaque2 heterodimerizing protein2: | 5.01 | | Hu, K et al. 2023. Insights into ZmWAKL in maize kernel development: genome-wide investigation and GA-mediated transcription BMC Genomics. 24:760. | | Reference: December 12th, 2023
Gene Product: September 1st, 2003
Variation: April 25th, 2015
|
| 4 months ago | wakl2 | wall associated kinase like2: | 1.06 | GRMZM2G115981
| Hu, K et al. 2023. Insights into ZmWAKL in maize kernel development: genome-wide investigation and GA-mediated transcription BMC Genomics. 24:760. | | Reference: December 12th, 2023
Gene Product: December 7th, 2023
Variation: March 21st, 2006
Gene Model: June 7th, 2017
|
| 4 months ago | lrk1 | Ser/Thr receptor-like kinase1: | 8.02 | GRMZM2G064750
| Hu, K et al. 2023. Insights into ZmWAKL in maize kernel development: genome-wide investigation and GA-mediated transcription BMC Genomics. 24:760. | | Reference: December 12th, 2023
Gene Product: December 7th, 2023
Variation: January 8th, 2013
Gene Model: August 21st, 2015
|
| 4 months ago | wakl25 | wall associated kinase like25: | | GRMZM2G028568
| Hu, K et al. 2023. Insights into ZmWAKL in maize kernel development: genome-wide investigation and GA-mediated transcription BMC Genomics. 24:760. | | Reference: December 12th, 2023
Gene Product: December 7th, 2023
Gene Model: May 5th, 2020
|
| 4 months ago | RSZ20 | : | | GRMZM2G080930
| Duan, HY et al. 2023. Identification of novel loci associated with starch content in maize kernels by a genome-wide association study using an enlarged SNP panel Mol Breed. 43:91. | | Reference: December 12th, 2023
Gene Product: October 18th, 2023
Gene Model: January 25th, 2021
|
| 4 months ago | rlk8 | receptor-like protein kinase8: | | GRMZM2G144028
| Hu, K et al. 2023. Insights into ZmWAKL in maize kernel development: genome-wide investigation and GA-mediated transcription BMC Genomics. 24:760. | | Reference: December 12th, 2023
Gene Product: July 10th, 2019
Gene Model: February 3rd, 2021
|
| 4 months ago | aaap38 | amino acid/auxin permease38: | | GRMZM2G080843
| Duan, HY et al. 2023. Identification of novel loci associated with starch content in maize kernels by a genome-wide association study using an enlarged SNP panel Mol Breed. 43:91. | | Reference: December 12th, 2023
Gene Product: March 31st, 2021
Gene Model: March 30th, 2021
|
| 4 months ago | wakl42 | wall associated kinase like42: | | GRMZM2G333045
| Hu, K et al. 2023. Insights into ZmWAKL in maize kernel development: genome-wide investigation and GA-mediated transcription BMC Genomics. 24:760. | | Reference: December 12th, 2023
Gene Product: December 7th, 2023
Gene Model: April 9th, 2021
|
| 4 months ago | wakl24 | wall associated kinase like24: | | GRMZM2G041544
| Hu, K et al. 2023. Insights into ZmWAKL in maize kernel development: genome-wide investigation and GA-mediated transcription BMC Genomics. 24:760. | | Reference: December 12th, 2023
Gene Product: December 7th, 2023
Gene Model: April 24th, 2021
|
| 4 months ago | saur62 | small auxin up RNA62: | | GRMZM2G021049
| Duan, HY et al. 2023. Identification of novel loci associated with starch content in maize kernels by a genome-wide association study using an enlarged SNP panel Mol Breed. 43:91. | | Reference: December 12th, 2023
Gene Product: November 26th, 2021
Gene Model: November 26th, 2021
|
| 4 months ago | nip3b | NOD26-like membrane intrinsic protein3b: | | GRMZM2G358161
| Duan, HY et al. 2023. Identification of novel loci associated with starch content in maize kernels by a genome-wide association study using an enlarged SNP panel Mol Breed. 43:91. | | Reference: December 12th, 2023
Gene Product: January 27th, 2022
Gene Model: January 27th, 2022
|
| 4 months ago | wakl7 | wall associated kinase like7: | | GRMZM2G059012
| Hu, K et al. 2023. Insights into ZmWAKL in maize kernel development: genome-wide investigation and GA-mediated transcription BMC Genomics. 24:760. | | Reference: December 12th, 2023
Gene Product: December 7th, 2023
Gene Model: March 24th, 2022
|
| 4 months ago | wakl49 | wall associated kinase like49: | | GRMZM2G172396
| Hu, K et al. 2023. Insights into ZmWAKL in maize kernel development: genome-wide investigation and GA-mediated transcription BMC Genomics. 24:760. | | Reference: December 12th, 2023
Gene Product: December 7th, 2023
Gene Model: June 27th, 2022
|
| 4 months ago | dar3 | monodehydroascorbate reductase3: | 10.03 | GRMZM5G828229
| Duan, HY et al. 2023. Identification of novel loci associated with starch content in maize kernels by a genome-wide association study using an enlarged SNP panel Mol Breed. 43:91. | | Reference: December 12th, 2023
Gene Product: October 15th, 2020
Variation: March 31st, 2005
Gene Model: January 3rd, 2018
|
| 4 months ago | wakl5 | wall-associated receptor kinase-like5: | 1.06 | GRMZM2G134205
| Hu, K et al. 2023. Insights into ZmWAKL in maize kernel development: genome-wide investigation and GA-mediated transcription BMC Genomics. 24:760. | | Reference: December 12th, 2023
Gene Product: December 7th, 2023
Gene Model: August 25th, 2017
|
| 4 months ago | FJ184378 | : | | | Lin, YN et al. 2023. A P-type pentatricopeptide repeat protein ZmRF5 promotes 5' region partial cleavages of atp6c transcripts to restore the fertility of CMS-C maize by recruiting a splicing factor. Plant Biotechnol J. :doi: 10.1111/pbi.14263. | | Reference: December 11th, 2023
Gene Product: December 27th, 2016
|
| 5 months ago | glpdh1 | glycerol-3-phosphate dehydrogenase1: | | GRMZM2G155348
| Zhu, H et al. 2023. Genetic dissection of maize (Zea maysL.) trace element traits using genome-wide association studies. BMC Plant Biology. 23:631. | | Reference: December 8th, 2023
Gene Product: July 12th, 2018
Gene Model: July 11th, 2018
|
| 5 months ago | magi62468 | : | 1.12 | GRMZM2G023242
| Zhu, H et al. 2023. Genetic dissection of maize (Zea maysL.) trace element traits using genome-wide association studies. BMC Plant Biology. 23:631. | | Reference: December 8th, 2023
Variation: March 31st, 2005
Gene Model: February 16th, 2019
|
| 5 months ago | cdk2 | cyclin-dependent kinase2: | 8.04 | GRMZM2G149286
| Zhu, H et al. 2023. Genetic dissection of maize (Zea maysL.) trace element traits using genome-wide association studies. BMC Plant Biology. 23:631. | | Reference: December 8th, 2023
Gene Product: October 19th, 2022
Gene Model: August 30th, 2019
|
| 5 months ago | tps29 | terpene synthase29: | | | Kollner, TG et al. 2023. The terpene synthase gene family in maize – a clarification of existing community nomenclature BMC Genomics. 24:744. | | Reference: December 7th, 2023
Gene Product: December 6th, 2023
|
| 5 months ago | tps30 | terpene synthase30: | | | Kollner, TG et al. 2023. The terpene synthase gene family in maize – a clarification of existing community nomenclature BMC Genomics. 24:744. | | Reference: December 7th, 2023
Gene Product: December 6th, 2023
|
| 5 months ago | tps31 | terpene synthase31: | | | Kollner, TG et al. 2023. The terpene synthase gene family in maize – a clarification of existing community nomenclature BMC Genomics. 24:744. | | Reference: December 7th, 2023
Gene Product: December 6th, 2023
|
| 5 months ago | tps22 | terpene synthase22: | | | Kollner, TG et al. 2023. The terpene synthase gene family in maize – a clarification of existing community nomenclature BMC Genomics. 24:744. | | Reference: December 7th, 2023
Gene Product: December 6th, 2023
|
| 5 months ago | tps16 | terpene synthase16: | | | Kollner, TG et al. 2023. The terpene synthase gene family in maize – a clarification of existing community nomenclature BMC Genomics. 24:744. | | Reference: December 7th, 2023
Gene Product: December 6th, 2023
|
| 5 months ago | tps32 | terpene synthase32: | | | Kollner, TG et al. 2023. The terpene synthase gene family in maize – a clarification of existing community nomenclature BMC Genomics. 24:744. | | Reference: December 7th, 2023
Gene Product: December 6th, 2023
|
| 5 months ago | tps35 | terpene synthase35: | | | Kollner, TG et al. 2023. The terpene synthase gene family in maize – a clarification of existing community nomenclature BMC Genomics. 24:744. | | Reference: December 7th, 2023
Gene Product: December 6th, 2023
|
| 5 months ago | tps25 | terpene synthase25: | | | Kollner, TG et al. 2023. The terpene synthase gene family in maize – a clarification of existing community nomenclature BMC Genomics. 24:744. | | Reference: December 7th, 2023
Gene Product: December 6th, 2023
|
| 5 months ago | tps36 | terpene synthase36: | | | Kollner, TG et al. 2023. The terpene synthase gene family in maize – a clarification of existing community nomenclature BMC Genomics. 24:744. | | Reference: December 7th, 2023
Gene Product: December 6th, 2023
|
| 5 months ago | tps34 | terpene synthase34: | | | Kollner, TG et al. 2023. The terpene synthase gene family in maize – a clarification of existing community nomenclature BMC Genomics. 24:744. | | Reference: December 7th, 2023
Gene Product: December 6th, 2023
|
| 5 months ago | tps33 | terpene synthase33: | | | Kollner, TG et al. 2023. The terpene synthase gene family in maize – a clarification of existing community nomenclature BMC Genomics. 24:744. | | Reference: December 7th, 2023
Gene Product: December 6th, 2023
|
| 5 months ago | dek58 | defective kernel58: | | | Bing Ma et al. 2023. Defective kernel 58 encodes an Rrp15p domain-containing protein essential to ribosome biogenesis and seed development in maize. New Phytol. :doi: 10.1111/nph.19460. | | Reference: December 7th, 2023
Gene Product: December 7th, 2023
Variation: December 7th, 2023
|
| 5 months ago | ssf1 | suppressor of SWI4 1: | | | Bing Ma et al. 2023. Defective kernel 58 encodes an Rrp15p domain-containing protein essential to ribosome biogenesis and seed development in maize. New Phytol. :doi: 10.1111/nph.19460. | | Reference: December 7th, 2023
Gene Product: December 7th, 2023
|
| 5 months ago | wak4 | wall-associated receptor kinase4: | | | Dai, ZK et al. 2023. ZmWAK02 encoding an RD-WAK protein confers maize resistance against gray leaf spot. New Phytol. :doi: 10.1111/nph.19465. | | Reference: December 7th, 2023
Gene Product: December 7th, 2023
|
| 5 months ago | tps4 | terpene synthase4: | 10.03 | GRMZM2G117319
| Kollner, TG et al. 2023. The terpene synthase gene family in maize – a clarification of existing community nomenclature BMC Genomics. 24:744. | | Reference: December 7th, 2023
Gene Product: September 4th, 2008
Variation: September 4th, 2008
Gene Model: May 28th, 2012
|
| 5 months ago | tps5 | terpene synthase5: | 10.03 | GRMZM2G074309
| Kollner, TG et al. 2023. The terpene synthase gene family in maize – a clarification of existing community nomenclature BMC Genomics. 24:744. | | Reference: December 7th, 2023
Gene Product: September 4th, 2008
Variation: September 4th, 2008
Gene Model: May 26th, 2012
|
| 5 months ago | tps26 | terpene synthase26: | 6.04 | GRMZM2G030583
| Kollner, TG et al. 2023. The terpene synthase gene family in maize – a clarification of existing community nomenclature BMC Genomics. 24:744. | | Reference: December 7th, 2023
Gene Product: September 5th, 2008
Variation: September 5th, 2008
Gene Model: August 22nd, 2012
|
| 5 months ago | bnlg1079 | : | 10.03 | | Muhammad Ilyas et al. 2023. Association Mapping for Evaluation of Population Structure, Genetic Diversity, and Physiochemical Traits in Drought-Stressed Maize Germplasm Using SSR Markers Plants. 12:4092. | | Reference: December 7th, 2023
Variation: September 1st, 2003
|
| 5 months ago | bnlg1484 | : | 1.03 | GRMZM2G019567
| Muhammad Ilyas et al. 2023. Association Mapping for Evaluation of Population Structure, Genetic Diversity, and Physiochemical Traits in Drought-Stressed Maize Germplasm Using SSR Markers Plants. 12:4092. | | Reference: December 7th, 2023
Variation: September 1st, 2003
Gene Model: July 12th, 2017
|
| 5 months ago | umc1134 | : | 7.03 | GRMZM2G105253
| Muhammad Ilyas et al. 2023. Association Mapping for Evaluation of Population Structure, Genetic Diversity, and Physiochemical Traits in Drought-Stressed Maize Germplasm Using SSR Markers Plants. 12:4092. | | Reference: December 7th, 2023
Variation: September 1st, 2003
Gene Model: September 10th, 2018
|
| 5 months ago | smk501 | small kernel 501: | 8.01 | GRMZM2G007915
| Muhammad Ilyas et al. 2023. Association Mapping for Evaluation of Population Structure, Genetic Diversity, and Physiochemical Traits in Drought-Stressed Maize Germplasm Using SSR Markers Plants. 12:4092. | | Reference: December 7th, 2023
Gene Product: March 23rd, 2021
Variation: March 23rd, 2021
Gene Model: September 14th, 2018
|
| 5 months ago | thx43 | Trihelix-transcription factor 43: | 10.03 | GRMZM2G110145
| Muhammad Ilyas et al. 2023. Association Mapping for Evaluation of Population Structure, Genetic Diversity, and Physiochemical Traits in Drought-Stressed Maize Germplasm Using SSR Markers Plants. 12:4092. | | Reference: December 7th, 2023
Gene Product: November 9th, 2021
Variation: September 1st, 2003
Gene Model: December 9th, 2017
|
| 5 months ago | umc1330 | : | 10.04 | AC225176.2_FG003
| Muhammad Ilyas et al. 2023. Association Mapping for Evaluation of Population Structure, Genetic Diversity, and Physiochemical Traits in Drought-Stressed Maize Germplasm Using SSR Markers Plants. 12:4092. | | Reference: December 7th, 2023
Variation: September 1st, 2003
Gene Model: December 12th, 2017
|
| 5 months ago | expa6 | expansin-like6: | 1.01 | GRMZM2G095968
| Muhammad Ilyas et al. 2023. Association Mapping for Evaluation of Population Structure, Genetic Diversity, and Physiochemical Traits in Drought-Stressed Maize Germplasm Using SSR Markers Plants. 12:4092. | | Reference: December 7th, 2023
Variation: May 3rd, 2016
Gene Model: May 3rd, 2016
|
| 5 months ago | umc1608 | : | 3.04 | GRMZM5G871336
| Muhammad Ilyas et al. 2023. Association Mapping for Evaluation of Population Structure, Genetic Diversity, and Physiochemical Traits in Drought-Stressed Maize Germplasm Using SSR Markers Plants. 12:4092. | | Reference: December 7th, 2023
Variation: September 1st, 2003
Gene Model: April 2nd, 2018
|
| 5 months ago | prp17 | pathogenesis-related protein17: | 8.03 | GRMZM2G156857
| Muhammad Ilyas et al. 2023. Association Mapping for Evaluation of Population Structure, Genetic Diversity, and Physiochemical Traits in Drought-Stressed Maize Germplasm Using SSR Markers Plants. 12:4092. | | Reference: December 7th, 2023
Gene Product: December 12th, 2022
Variation: July 13th, 2017
Gene Model: July 14th, 2015
|
| 5 months ago | trpp4 | trehalose-6-phosphate phosphatase4: | 4.08 | GRMZM2G151044
| Muhammad Ilyas et al. 2023. Association Mapping for Evaluation of Population Structure, Genetic Diversity, and Physiochemical Traits in Drought-Stressed Maize Germplasm Using SSR Markers Plants. 12:4092. | | Reference: December 7th, 2023
Gene Product: October 3rd, 2020
Variation: April 2nd, 2019
Gene Model: June 7th, 2018
|
| 5 months ago | prmt3 | protein arginine methyltransferase3: | 7.05 | GRMZM2G041328
| Muhammad Ilyas et al. 2023. Association Mapping for Evaluation of Population Structure, Genetic Diversity, and Physiochemical Traits in Drought-Stressed Maize Germplasm Using SSR Markers Plants. 12:4092. | | Reference: December 7th, 2023
Gene Product: October 24th, 2022
Variation: September 1st, 2003
Gene Model: July 30th, 2020
|
| 5 months ago | nbcs1 | nucleobase:cation symporter1: | 1.05 | GRMZM2G041050
| Muhammad Ilyas et al. 2023. Association Mapping for Evaluation of Population Structure, Genetic Diversity, and Physiochemical Traits in Drought-Stressed Maize Germplasm Using SSR Markers Plants. 12:4092. | | Reference: December 7th, 2023
Gene Product: July 14th, 2018
Gene Model: December 17th, 2016
|
| 5 months ago | umc1959 | : | 8.05 | GRMZM2G090963
| Muhammad Ilyas et al. 2023. Association Mapping for Evaluation of Population Structure, Genetic Diversity, and Physiochemical Traits in Drought-Stressed Maize Germplasm Using SSR Markers Plants. 12:4092. | | Reference: December 7th, 2023
Variation: September 1st, 2003
Gene Model: September 19th, 2018
|
| 5 months ago | gst17 | glutathione transferase17: | 5.05 | GRMZM2G064255
| Muhammad Ilyas et al. 2023. Association Mapping for Evaluation of Population Structure, Genetic Diversity, and Physiochemical Traits in Drought-Stressed Maize Germplasm Using SSR Markers Plants. 12:4092. | | Reference: December 7th, 2023
Gene Product: September 1st, 2003
Variation: August 17th, 2010
Gene Model: April 18th, 2017
|
| 5 months ago | stc1 | sesquiterpene cyclase1: | 9.01 | GRMZM2G177098
| Kollner, TG et al. 2023. The terpene synthase gene family in maize – a clarification of existing community nomenclature BMC Genomics. 24:744. | | Reference: December 7th, 2023
Gene Product: September 5th, 2008
Variation: June 30th, 2012
Gene Model: August 22nd, 2012
|
| 5 months ago | tps8 | terpene synthase8: | 1.04 - 1.04 | GRMZM2G038153
| Kollner, TG et al. 2023. The terpene synthase gene family in maize – a clarification of existing community nomenclature BMC Genomics. 24:744. | | Reference: December 7th, 2023
Gene Product: December 6th, 2023
Variation: May 29th, 2012
Gene Model: May 28th, 2012
|
| 5 months ago | pmm1 | phosphomannomutase1: | 2.00 | GRMZM2G165535
| Muhammad Ilyas et al. 2023. Association Mapping for Evaluation of Population Structure, Genetic Diversity, and Physiochemical Traits in Drought-Stressed Maize Germplasm Using SSR Markers Plants. 12:4092. | | Reference: December 7th, 2023
Gene Product: October 21st, 2020
Gene Model: February 23rd, 2018
|
| 5 months ago | umc2356 | : | 8.06 | GRMZM2G054341
| Muhammad Ilyas et al. 2023. Association Mapping for Evaluation of Population Structure, Genetic Diversity, and Physiochemical Traits in Drought-Stressed Maize Germplasm Using SSR Markers Plants. 12:4092. | | Reference: December 7th, 2023
Variation: September 23rd, 2018
Gene Model: September 23rd, 2018
|
| 5 months ago | tps3 | terpene synthase3: | | GRMZM2G064406
| Kollner, TG et al. 2023. The terpene synthase gene family in maize – a clarification of existing community nomenclature BMC Genomics. 24:744. | | Reference: December 7th, 2023
Gene Product: December 6th, 2023
Variation: May 28th, 2012
Gene Model: May 28th, 2012
|
| 5 months ago | tps7 | terpene synthase7: | | AC217050.4_FG007
| Kollner, TG et al. 2023. The terpene synthase gene family in maize – a clarification of existing community nomenclature BMC Genomics. 24:744. | | Reference: December 7th, 2023
Gene Product: July 17th, 2016
Variation: May 28th, 2012
Gene Model: June 8th, 2012
|
| 5 months ago | tps9 | terpene synthase9: | | GRMZM2G465812
| Kollner, TG et al. 2023. The terpene synthase gene family in maize – a clarification of existing community nomenclature BMC Genomics. 24:744. | | Reference: December 7th, 2023
Gene Product: September 4th, 2008
Variation: May 28th, 2012
Gene Model: May 28th, 2012
|
| 5 months ago | ks1 | kaurene synthase1: | | GRMZM2G016922
| Kollner, TG et al. 2023. The terpene synthase gene family in maize – a clarification of existing community nomenclature BMC Genomics. 24:744. | | Reference: December 7th, 2023
Gene Product: August 16th, 2012
Gene Model: October 27th, 2014
|
| 5 months ago | tps17 | terpene synthase17: | | GRMZM2G010356
| Kollner, TG et al. 2023. The terpene synthase gene family in maize – a clarification of existing community nomenclature BMC Genomics. 24:744. | | Reference: December 7th, 2023
Gene Product: December 6th, 2023
Variation: July 17th, 2016
Gene Model: July 17th, 2016
|
| 5 months ago | tps21 | terpene synthase21: | | GRMZM2G011151
| Kollner, TG et al. 2023. The terpene synthase gene family in maize – a clarification of existing community nomenclature BMC Genomics. 24:744. | | Reference: December 7th, 2023
Gene Product: December 6th, 2023
Gene Model: September 22nd, 2017
|
| 5 months ago | cpps4 | copalyl diphosphate synthase4: | | AC218998.2_FG011
| Kollner, TG et al. 2023. The terpene synthase gene family in maize – a clarification of existing community nomenclature BMC Genomics. 24:744. | | Reference: December 7th, 2023
Gene Product: August 16th, 2012
Gene Model: November 9th, 2018
|
| 5 months ago | hma8 | heavy metal ATPase8: | | GRMZM5G855347
| Yan, PS et al. 2023. Biofortification of iron content by regulating a NAC transcription factor in maize Science. 382:1159-1165. | | Reference: December 7th, 2023
Gene Product: October 23rd, 2019
Gene Model: October 23rd, 2019
|
| 5 months ago | tps14 | terpene synthase14: | | GRMZM2G319445
| Kollner, TG et al. 2023. The terpene synthase gene family in maize – a clarification of existing community nomenclature BMC Genomics. 24:744. | | Reference: December 7th, 2023
Gene Product: December 6th, 2023
Gene Model: July 20th, 2020
|
| 5 months ago | tps27 | terpene synthase27: | | AC205502.4_FG004
| Kollner, TG et al. 2023. The terpene synthase gene family in maize – a clarification of existing community nomenclature BMC Genomics. 24:744. | | Reference: December 7th, 2023
Gene Product: December 6th, 2023
Gene Model: July 20th, 2020
|
| 5 months ago | tps12 | terpene synthase12: | | | Kollner, TG et al. 2023. The terpene synthase gene family in maize – a clarification of existing community nomenclature BMC Genomics. 24:744. | | Reference: December 7th, 2023
Gene Product: September 3rd, 2008
|
| 5 months ago | erdh3 | early response to dehydration 15-homolog3: | 6.05 | GRMZM2G093325
| Muhammad Ilyas et al. 2023. Association Mapping for Evaluation of Population Structure, Genetic Diversity, and Physiochemical Traits in Drought-Stressed Maize Germplasm Using SSR Markers Plants. 12:4092. | | Reference: December 7th, 2023
Gene Product: December 23rd, 2022
Gene Model: May 26th, 2022
|
| 5 months ago | nrat3 | nramp aluminum transporter3: | 9.06 | GRMZM2G178190
| Yan, PS et al. 2023. Biofortification of iron content by regulating a NAC transcription factor in maize Science. 382:1159-1165. | | Reference: December 7th, 2023
Gene Product: August 17th, 2015
Variation: September 17th, 2022
Gene Model: June 26th, 2020
|
| 5 months ago | cka1 | CK2 protein kinase alpha 1: | 1.10 | | Bing Ma et al. 2023. Defective kernel 58 encodes an Rrp15p domain-containing protein essential to ribosome biogenesis and seed development in maize. New Phytol. :doi: 10.1111/nph.19460. | | Reference: December 7th, 2023
Gene Product: December 3rd, 2013
Variation: February 15th, 2006
|
| 5 months ago | glk28 | G2-like-transcription factor 28: | | | Qiu, YT et al. 2023. Identification of loci conferring resistance to four foliar diseases of maize G3. :doi: 10.1093/g3journal/jkad275. | | Reference: December 5th, 2023
Variation: July 15th, 2021
|
| 5 months ago | tdm1 | three division mutant1: | | | Zhang, T et al. 2023. ZmTDM1 encodes a tetratricopeptide repeat domain protein and is required for meiotic exit in maize. Plant J. :doi: 10.1111/tpj.16579. | AT4G20900 (TAIR) | Reference: December 4th, 2023
Gene Product: May 20th, 2017
Variation: December 4th, 2023
|
| 5 months ago | hpl1 | hydroperoxide lyase1: | | | Bo Lang et al. 2023. Trichoderma harzianum Cellulase Gene thph2 Affects Trichoderma Root Colonization and Induces Resistance to Southern Leaf Blight in Maize J Fungi. 9:1168. | | Reference: December 4th, 2023
Variation: August 1st, 2008
|
| 5 months ago | aos2 | allene oxide synthesis2: | | GRMZM2G002178
| Bo Lang et al. 2023. Trichoderma harzianum Cellulase Gene thph2 Affects Trichoderma Root Colonization and Induces Resistance to Southern Leaf Blight in Maize J Fungi. 9:1168. | | Reference: December 4th, 2023
Gene Product: September 1st, 2003
Gene Model: November 25th, 2013
|
| 5 months ago | nrh2 | nucleoside N-ribohydrolase2: | | GRMZM2G134149
| Eva Ľuptáková et al. 2023. Plant nucleoside N-ribohydrolases: riboside binding and role in nitrogen storage mobilization Plant J. :doi: 10.1111/tpj.16572. | | Reference: December 4th, 2023
Gene Product: April 22nd, 2020
Gene Model: April 22nd, 2020
|
| 5 months ago | nrh4 | nucleoside N-ribohydrolase4: | | GRMZM2G085960
| Eva Ľuptáková et al. 2023. Plant nucleoside N-ribohydrolases: riboside binding and role in nitrogen storage mobilization Plant J. :doi: 10.1111/tpj.16572. | | Reference: December 4th, 2023
Gene Product: April 22nd, 2020
Gene Model: April 22nd, 2020
|
| 5 months ago | nrh5 | nucleoside N-ribohydrolase5: | | GRMZM2G015344
| Eva Ľuptáková et al. 2023. Plant nucleoside N-ribohydrolases: riboside binding and role in nitrogen storage mobilization Plant J. :doi: 10.1111/tpj.16572. | | Reference: December 4th, 2023
Gene Product: April 22nd, 2020
Gene Model: April 22nd, 2020
|
| 5 months ago | sina6 | seven in absentia6: | | GRMZM2G009265
| Zhang, T et al. 2023. ZmTDM1 encodes a tetratricopeptide repeat domain protein and is required for meiotic exit in maize. Plant J. :doi: 10.1111/tpj.16579. | | Reference: December 4th, 2023
Gene Product: January 24th, 2021
Gene Model: January 24th, 2021
|
| 5 months ago | Zm00001d027649 | : | | GRMZM2G062724
| Zhang, T et al. 2023. ZmTDM1 encodes a tetratricopeptide repeat domain protein and is required for meiotic exit in maize. Plant J. :doi: 10.1111/tpj.16579. | | Reference: December 4th, 2023
Gene Product: January 9th, 2020
Gene Model: April 8th, 2021
|
| 5 months ago | nrh1 | nucleoside N-ribohydrolase1: | 8.01 | GRMZM2G029845
| Eva Ľuptáková et al. 2023. Plant nucleoside N-ribohydrolases: riboside binding and role in nitrogen storage mobilization Plant J. :doi: 10.1111/tpj.16572. | | Reference: December 4th, 2023
Gene Product: April 22nd, 2020
Gene Model: April 22nd, 2020
|
| 5 months ago | nrh3 | nucleoside N-ribohydrolase3: | 2.06 | GRMZM2G104999
| Eva Ľuptáková et al. 2023. Plant nucleoside N-ribohydrolases: riboside binding and role in nitrogen storage mobilization Plant J. :doi: 10.1111/tpj.16572. | | Reference: December 4th, 2023
Gene Product: April 22nd, 2020
Gene Model: March 19th, 2020
|
| 5 months ago | saur37 | small auxin up RNA37: | 4.04 | GRMZM2G420812
| Zhao, XQ et al. 2023. Exogenous Serotonin (5-HT) Promotes Mesocotyl and Coleoptile Elongation in Maize Seedlings under Deep-Seeding Stress through Enhancing Auxin Accumulation and Inhibiting Lignin Formation Int J Mol Sci. 24:17061. | | Reference: December 2nd, 2023
Gene Product: November 26th, 2021
Gene Model: May 22nd, 2021
|
| 5 months ago | acco3 | 1-aminocyclopropane-1-carboxylate oxidase3: | | GRMZM2G166616
| Zhiying Zhu et al. 2023. Dynamic physiological and transcriptomic changes reveal memory effects of salt stress in maize. BMC Genomics. 24:726. | | Reference: December 2nd, 2023
Gene Product: May 16th, 2016
Gene Model: May 16th, 2016
|
| 5 months ago | aas5 | auxin amido synthetase5: | | GRMZM2G060991
| Zhao, XQ et al. 2023. Exogenous Serotonin (5-HT) Promotes Mesocotyl and Coleoptile Elongation in Maize Seedlings under Deep-Seeding Stress through Enhancing Auxin Accumulation and Inhibiting Lignin Formation Int J Mol Sci. 24:17061. | | Reference: December 2nd, 2023
Gene Product: October 21st, 2019
Gene Model: October 21st, 2019
|
| 5 months ago | saur79 | small auxin up RNA79: | | GRMZM2G442000
| Zhao, XQ et al. 2023. Exogenous Serotonin (5-HT) Promotes Mesocotyl and Coleoptile Elongation in Maize Seedlings under Deep-Seeding Stress through Enhancing Auxin Accumulation and Inhibiting Lignin Formation Int J Mol Sci. 24:17061. | | Reference: December 2nd, 2023
Gene Product: November 26th, 2021
Gene Model: November 26th, 2021
|
| 5 months ago | wrky128 | WRKY-transcription factor 128: | | GRMZM2G036711
| Zhiying Zhu et al. 2023. Dynamic physiological and transcriptomic changes reveal memory effects of salt stress in maize. BMC Genomics. 24:726. | | Reference: December 2nd, 2023
Gene Product: July 24th, 2017
Gene Model: December 2nd, 2021
|
| 5 months ago | smr5 | siamese-related5: | 9.08 - 9.08 | GRMZM2G413337
| Ma, XL et al. 2023. Identification and validation of seed dormancy loci and candidate genes and construction of regulatory networks by WGCNA in maize introgression lines. Theor Appl Genet. 136:259. | | Reference: December 1st, 2023
Gene Product: March 8th, 2017
Variation: September 1st, 2003
Gene Model: June 27th, 2020
|
| 5 months ago | umc1715 | : | 1.09 | GRMZM2G171559
| Jihai Zhang et al. 2023. Kernel Bioassay Evaluation of Maize Ear Rot and Genome-Wide Association Analysis for Identifying Genetic Loci Associated with Resistance to Fusarium graminearum Infection J Fungi. 9:1157. | | Reference: December 1st, 2023
Variation: December 8th, 2016
Gene Model: December 8th, 2016
|
| 5 months ago | umc1748 | : | 1.06 | GRMZM2G386209
| Ma, XL et al. 2023. Identification and validation of seed dormancy loci and candidate genes and construction of regulatory networks by WGCNA in maize introgression lines. Theor Appl Genet. 136:259. | | Reference: December 1st, 2023
Variation: December 8th, 2016
Gene Model: December 8th, 2016
|
| 5 months ago | mtl2 | metallothionein2: | 1.05 | GRMZM2G402564
| Ma, XL et al. 2023. Identification and validation of seed dormancy loci and candidate genes and construction of regulatory networks by WGCNA in maize introgression lines. Theor Appl Genet. 136:259. | | Reference: December 1st, 2023
Gene Product: September 1st, 2003
Variation: September 1st, 2003
Gene Model: July 28th, 2016
|
| 5 months ago | hct13 | hydroxycinnamoyltransferase13: | | GRMZM2G129266
| Jihai Zhang et al. 2023. Kernel Bioassay Evaluation of Maize Ear Rot and Genome-Wide Association Analysis for Identifying Genetic Loci Associated with Resistance to Fusarium graminearum Infection J Fungi. 9:1157. | | Reference: December 1st, 2023
Gene Product: November 7th, 2015
Gene Model: May 18th, 2016
|
| 5 months ago | vq36 | VQ motif-transcription factor36: | | GRMZM2G174558
| Ma, XL et al. 2023. Identification and validation of seed dormancy loci and candidate genes and construction of regulatory networks by WGCNA in maize introgression lines. Theor Appl Genet. 136:259. | | Reference: December 1st, 2023
Gene Product: August 31st, 2019
Gene Model: August 31st, 2019
|
| 5 months ago | xgt1 | xyloglucan glycosyltransferase1: | | GRMZM2G142685
| Ma, XL et al. 2023. Identification and validation of seed dormancy loci and candidate genes and construction of regulatory networks by WGCNA in maize introgression lines. Theor Appl Genet. 136:259. | | Reference: December 1st, 2023
Gene Product: July 2nd, 2020
Gene Model: July 2nd, 2020
|
| 5 months ago | iqd24 | IQ-domain 24: | | GRMZM2G030882
| Ma, XL et al. 2023. Identification and validation of seed dormancy loci and candidate genes and construction of regulatory networks by WGCNA in maize introgression lines. Theor Appl Genet. 136:259. | | Reference: December 1st, 2023
Gene Product: May 23rd, 2021
Gene Model: May 23rd, 2021
|
| 5 months ago | stp15 | sugar transport protein15: | | GRMZM2G049372
| Ma, XL et al. 2023. Identification and validation of seed dormancy loci and candidate genes and construction of regulatory networks by WGCNA in maize introgression lines. Theor Appl Genet. 136:259. | | Reference: December 1st, 2023
Gene Product: January 2nd, 2023
Gene Model: January 12th, 2022
|
| 5 months ago | perk4 | proline-rich extensin-like receptor kinase4: | | | Mei Liu et al. 2023. Coronatine-Induced Maize Defense against Gibberella Stalk Rot by Activating Antioxidants and Phytohormone Signaling J Fungi. 9:1155. | | Reference: November 30th, 2023
Gene Product: September 7th, 2022
|
| 5 months ago | ba2 | barren stalk2: | 2.04 - 2.05 | GRMZM2G399641
| Ni, JX et al. 2023. Deploying QTL-seq rapid identification and separation of the major QTLs of tassel branch number for fine-mapping in advanced maize populations Mol Breed. 43:88. | | Reference: November 30th, 2023
Gene Product: January 26th, 2019
Variation: January 26th, 2019
Gene Model: January 26th, 2019
|
| 5 months ago | baf1 | barren stalk fastigiate1: | 9.02 | GRMZM2G072274
| Ni, JX et al. 2023. Deploying QTL-seq rapid identification and separation of the major QTLs of tassel branch number for fine-mapping in advanced maize populations Mol Breed. 43:88. | LOC_Os06g04540 (MSU/TIGR)
Os06g0136900 (Gramene) | Reference: November 30th, 2023
Gene Product: November 11th, 2017
Variation: August 15th, 2011
Gene Model: December 8th, 2014
|
| 5 months ago | ln1 | linoleic acid1: | 6.04 - 6.04 | GRMZM2G169089
| Yang, N et al. 2023. Two teosintes made modern maize. Science 282: 6674 | | Reference: November 30th, 2023
Gene Product: August 12th, 2018
Variation: August 16th, 2014
Gene Model: August 15th, 2014
|
| 5 months ago | umc1483 | : | 8.01 | GRMZM5G872442
| Yang, N et al. 2023. Two teosintes made modern maize. Science 282: 6674 | | Reference: November 30th, 2023
Variation: March 30th, 2007
Gene Model: September 14th, 2018
|
| 5 months ago | gst12 | glutathione S-transferase12: | 1.01 | GRMZM2G096269
| Mei Liu et al. 2023. Coronatine-Induced Maize Defense against Gibberella Stalk Rot by Activating Antioxidants and Phytohormone Signaling J Fungi. 9:1155. | | Reference: November 30th, 2023
Gene Product: September 1st, 2003
Variation: March 17th, 2006
Gene Model: July 27th, 2016
|
| 5 months ago | pat7 | protein S-acyltransferase7: | 2.02 | GRMZM2G010011
| Ni, JX et al. 2023. Deploying QTL-seq rapid identification and separation of the major QTLs of tassel branch number for fine-mapping in advanced maize populations Mol Breed. 43:88. | | Reference: November 30th, 2023
Gene Product: February 26th, 2022
Gene Model: December 10th, 2021
|
| 5 months ago | tif5A | eukaryotic translation initiation factor 5A: | 7.04 | | Yang, N et al. 2023. Two teosintes made modern maize. Science 282: 6674 | | Reference: November 30th, 2023
Variation: January 13th, 2016
|
| 5 months ago | atm1 | ataxia-telangiectasia mutated1: | | GRMZM2G425751
| Yang, N et al. 2023. Two teosintes made modern maize. Science 282: 6674 | (AT3G48190 (TAIR) | Reference: November 30th, 2023
Gene Product: May 13th, 2014
Variation: June 5th, 2021
Gene Model: November 23rd, 2017
|
| 5 months ago | cct43 | CO CO-LIKE TIMING OF CAB1 protein domain43: | | GRMZM2G005732
| Yang, N et al. 2023. Two teosintes made modern maize. Science 282: 6674 | | Reference: November 30th, 2023
Gene Product: January 11th, 2018
Gene Model: January 11th, 2018
|
| 5 months ago | fut2 | galactoside 2-alpha-L-fucosyltransferase2: | | GRMZM2G127184
| Yang, N et al. 2023. Two teosintes made modern maize. Science 282: 6674 | | Reference: November 30th, 2023
Gene Product: July 2nd, 2020
Gene Model: July 2nd, 2020
|
| 5 months ago | kea1 | K+ efflux antiporter 1: | | GRMZM2G169114
| Yang, N et al. 2023. Two teosintes made modern maize. Science 282: 6674 | | Reference: November 30th, 2023
Gene Product: April 26th, 2021
Gene Model: April 26th, 2021
|
| 5 months ago | acat2 | acetyl-CoA acetyltransferase2: | 8.01 | GRMZM5G860137
| Yang, N et al. 2023. Two teosintes made modern maize. Science 282: 6674 | | Reference: November 30th, 2023
Gene Product: September 1st, 2003
Variation: September 25th, 2007
Gene Model: September 5th, 2021
|
| 5 months ago | toc34 | translocon at outer membrane of chloroplast34: | 9.06 | GRMZM2G159777
| Yang, N et al. 2023. Two teosintes made modern maize. Science 282: 6674 | | Reference: November 30th, 2023
Gene Product: September 1st, 2003
Variation: August 3rd, 2013
Gene Model: July 28th, 2016
|
| 5 months ago | pmi2 | phosphomannose isomerase2: | 4.02 | GRMZM2G456471
| Zhang, HK et al. 2023. Functional analysis of ZmG6PE reveals its role in responses to low-phosphorus stress and regulation of grain yield in maize. Frontiers in Plant Science. 14:1286699. | | Reference: November 29th, 2023
Gene Product: October 21st, 2020
Gene Model: April 11th, 2020
|
| 5 months ago | amo1 | amine oxidase1: | 10.04 | GRMZM2G359298
| Zhang, HK et al. 2023. Functional analysis of ZmG6PE reveals its role in responses to low-phosphorus stress and regulation of grain yield in maize. Frontiers in Plant Science. 14:1286699. | | Reference: November 29th, 2023
Gene Product: September 1st, 2003
Gene Model: September 29th, 2015
|
| 5 months ago | chn2 | chitinase2: | 6.01 | | Rebecca M Lyon et al. 2023. Undesirable protein sequence variations in maize genes that confer resistance to fungal pathogens and insect pests Plant Gene. :doi: 10.1016/j.plgene.2023.100441. | | Reference: November 29th, 2023
Gene Product: May 31st, 2021
Variation: September 1st, 2003
|
| 5 months ago | abh3 | abscisic acid 8'-hydroxylase3: | | GRMZM2G105954
| Yu, T et al. 2023. Identification of Multiple Genetic Loci Related to Low-Temperature Tolerance during Germination in Maize (Zea maize L.) through a Genome-Wide Association Study Curr Issues Mol Biol. 45:9634-9655. | | Reference: November 29th, 2023
Gene Product: February 15th, 2013
Gene Model: February 15th, 2013
|
| 5 months ago | pao6 | polyamine oxidase6: | 2.00 | GRMZM2G078033
| Zhang, HK et al. 2023. Functional analysis of ZmG6PE reveals its role in responses to low-phosphorus stress and regulation of grain yield in maize. Frontiers in Plant Science. 14:1286699. | | Reference: November 29th, 2023
Gene Product: June 10th, 2020
Gene Model: March 7th, 2020
|
| 5 months ago | propep3 | precursor elicitor peptide3: | | GRMZM2G339117
| Wang, L et al. 2024. Feeding Assay to Study the Effect of Phytocytokines on Direct and Indirect Defense in Maize. Methods in Molecular Biology. 2731:133-142. | | Reference: November 29th, 2023
Gene Product: October 16th, 2020
Gene Model: May 17th, 2013
|
| 5 months ago | spx5 | SPX domain-containing membrane protein5: | 4.09 | GRMZM2G171423
| Zhang, HK et al. 2023. Functional analysis of ZmG6PE reveals its role in responses to low-phosphorus stress and regulation of grain yield in maize. Frontiers in Plant Science. 14:1286699. | | Reference: November 29th, 2023
Gene Product: October 9th, 2021
Gene Model: April 26th, 2020
|
| 5 months ago | hex6 | hexokinase6: | | GRMZM2G171373
| Zhang, HK et al. 2023. Functional analysis of ZmG6PE reveals its role in responses to low-phosphorus stress and regulation of grain yield in maize. Frontiers in Plant Science. 14:1286699. | | Reference: November 29th, 2023
Gene Product: September 15th, 2013
Gene Model: September 15th, 2013
|
| 5 months ago | chn33 | chitinase33: | | GRMZM2G117942
| Rebecca M Lyon et al. 2023. Undesirable protein sequence variations in maize genes that confer resistance to fungal pathogens and insect pests Plant Gene. :doi: 10.1016/j.plgene.2023.100441. | | Reference: November 29th, 2023
Gene Product: May 31st, 2021
Gene Model: September 16th, 2017
|
| 5 months ago | ggt1 | geranylgeranyl transferase1: | | GRMZM2G151087
| Rebecca M Lyon et al. 2023. Undesirable protein sequence variations in maize genes that confer resistance to fungal pathogens and insect pests Plant Gene. :doi: 10.1016/j.plgene.2023.100441. | | Reference: November 29th, 2023
Gene Product: January 9th, 2018
Gene Model: January 8th, 2018
|
| 5 months ago | chi4 | chalcone flavanone isomerase4: | | GRMZM2G095778
| Rebecca M Lyon et al. 2023. Undesirable protein sequence variations in maize genes that confer resistance to fungal pathogens and insect pests Plant Gene. :doi: 10.1016/j.plgene.2023.100441. | | Reference: November 29th, 2023
Gene Product: January 26th, 2021
Gene Model: January 15th, 2018
|
| 5 months ago | def3 | defensin-like protein3: | | GRMZM2G149869
| Rebecca M Lyon et al. 2023. Undesirable protein sequence variations in maize genes that confer resistance to fungal pathogens and insect pests Plant Gene. :doi: 10.1016/j.plgene.2023.100441. | | Reference: November 29th, 2023
Gene Product: December 12th, 2022
Variation: July 25th, 2018
Gene Model: July 25th, 2018
|
| 5 months ago | pao3 | polyamine oxidase3: | | GRMZM2G396856
| Zhang, HK et al. 2023. Functional analysis of ZmG6PE reveals its role in responses to low-phosphorus stress and regulation of grain yield in maize. Frontiers in Plant Science. 14:1286699. | | Reference: November 29th, 2023
Gene Product: June 10th, 2020
Gene Model: June 9th, 2020
|
| 5 months ago | phi2 | phosphohexose isomerase2: | | GRMZM2G076075
| Zhang, HK et al. 2023. Functional analysis of ZmG6PE reveals its role in responses to low-phosphorus stress and regulation of grain yield in maize. Frontiers in Plant Science. 14:1286699. | | Reference: November 29th, 2023
Gene Product: September 1st, 2003
Gene Model: October 21st, 2020
|
| 5 months ago | chn29 | chitinase29: | | GRMZM2G358153
| Rebecca M Lyon et al. 2023. Undesirable protein sequence variations in maize genes that confer resistance to fungal pathogens and insect pests Plant Gene. :doi: 10.1016/j.plgene.2023.100441. | | Reference: November 29th, 2023
Gene Product: May 31st, 2021
Gene Model: May 31st, 2021
|
| 5 months ago | cipk38 | calcineurin B-like-interacting protein kinase38: | | GRMZM2G170552
| Yu, T et al. 2023. Identification of Multiple Genetic Loci Related to Low-Temperature Tolerance during Germination in Maize (Zea maize L.) through a Genome-Wide Association Study Curr Issues Mol Biol. 45:9634-9655. | | Reference: November 29th, 2023
Gene Product: August 25th, 2018
Gene Model: July 12th, 2021
|
| 5 months ago | gpe1 | glucose-6-phosphate 1-epimerase1: | | GRMZM2G039588
| Zhang, HK et al. 2023. Functional analysis of ZmG6PE reveals its role in responses to low-phosphorus stress and regulation of grain yield in maize. Frontiers in Plant Science. 14:1286699. | | Reference: November 29th, 2023
Gene Product: November 29th, 2023
Gene Model: August 27th, 2021
|
| 5 months ago | alte1 | acyl-lipid thioesterase1: | | GRMZM2G170509
| Yu, T et al. 2023. Identification of Multiple Genetic Loci Related to Low-Temperature Tolerance during Germination in Maize (Zea maize L.) through a Genome-Wide Association Study Curr Issues Mol Biol. 45:9634-9655. | | Reference: November 29th, 2023
Gene Product: January 3rd, 2023
Gene Model: December 9th, 2021
|
| 5 months ago | qor1 | quinone oxidoreductase1: | 5.08 | GRMZM2G008728
| Rebecca M Lyon et al. 2023. Undesirable protein sequence variations in maize genes that confer resistance to fungal pathogens and insect pests Plant Gene. :doi: 10.1016/j.plgene.2023.100441. | | Reference: November 29th, 2023
Gene Product: July 14th, 2023
Variation: July 14th, 2023
Gene Model: May 25th, 2020
|
| 5 months ago | glu25 | beta-glucosidase25: | | | Gracia Gómez-Anduro et al. 2011. Genome-wide analysis of the beta-glucosidase gene family in maize (Zea mays L. var B73). Plant Mol Biol. 77:159-83. | | Reference: November 28th, 2023
Gene Product: June 26th, 2019
|
| 5 months ago | glu24 | beta-glucosidase24: | | | Gracia Gómez-Anduro et al. 2011. Genome-wide analysis of the beta-glucosidase gene family in maize (Zea mays L. var B73). Plant Mol Biol. 77:159-83. | | Reference: November 28th, 2023
Gene Product: June 26th, 2019
|
| 5 months ago | grf27 | general regulatory factor27: | | | Su, HH et al. 2023. ZmELF6-ZmPRR37 module regulates maize flowering and salt response. Plant Biotechnol J. :doi: 10.1111/pbi.14236. | | Reference: November 28th, 2023
Gene Product: March 6th, 2023
|
| 5 months ago | glu6 | beta-glucosidase6: | | | Gracia Gómez-Anduro et al. 2011. Genome-wide analysis of the beta-glucosidase gene family in maize (Zea mays L. var B73). Plant Mol Biol. 77:159-83. | | Reference: November 28th, 2023
Gene Product: June 26th, 2019
|
| 5 months ago | glu14 | beta-glucosidase14: | | | Gracia Gómez-Anduro et al. 2011. Genome-wide analysis of the beta-glucosidase gene family in maize (Zea mays L. var B73). Plant Mol Biol. 77:159-83. | | Reference: November 28th, 2023
Gene Product: June 26th, 2019
|
| 5 months ago | glu7 | beta-glucosidase7: | | | Gracia Gómez-Anduro et al. 2011. Genome-wide analysis of the beta-glucosidase gene family in maize (Zea mays L. var B73). Plant Mol Biol. 77:159-83. | | Reference: November 28th, 2023
Gene Product: June 26th, 2019
|
| 5 months ago | glu11 | beta-glucosidase11: | | | Gracia Gómez-Anduro et al. 2011. Genome-wide analysis of the beta-glucosidase gene family in maize (Zea mays L. var B73). Plant Mol Biol. 77:159-83. | | Reference: November 28th, 2023
Gene Product: June 26th, 2019
|
| 5 months ago | glu15 | beta-glucosidase15: | | | Gracia Gómez-Anduro et al. 2011. Genome-wide analysis of the beta-glucosidase gene family in maize (Zea mays L. var B73). Plant Mol Biol. 77:159-83. | | Reference: November 28th, 2023
Gene Product: June 26th, 2019
|
| 5 months ago | glu19 | beta-glucosidase19: | | | Gracia Gómez-Anduro et al. 2011. Genome-wide analysis of the beta-glucosidase gene family in maize (Zea mays L. var B73). Plant Mol Biol. 77:159-83. | | Reference: November 28th, 2023
Gene Product: June 26th, 2019
|
| 5 months ago | glu22 | beta-glucosidase22: | 10.04 | GRMZM2G031660
| Gracia Gómez-Anduro et al. 2011. Genome-wide analysis of the beta-glucosidase gene family in maize (Zea mays L. var B73). Plant Mol Biol. 77:159-83. | | Reference: November 28th, 2023
Gene Product: June 26th, 2019
Gene Model: July 20th, 2021
|
| 5 months ago | wri2 | wrinkled1 transcription factor2: | 4.08 | GRMZM2G174834
| Li, H et al. 2023. Multi-omics-driven advances in the understanding of triacylglycerol biosynthesis in oil seeds. Plant J. :doi: 10.1111/tpj.16545. | AT3G54320 (TAIR) | Reference: November 28th, 2023
Gene Product: July 5th, 2019
Variation: April 11th, 2011
Gene Model: April 7th, 2011
|
| 5 months ago | glu26 | beta-glucosidase26: | 9.06 | GRMZM5G828987
| Gracia Gómez-Anduro et al. 2011. Genome-wide analysis of the beta-glucosidase gene family in maize (Zea mays L. var B73). Plant Mol Biol. 77:159-83. | | Reference: November 28th, 2023
Gene Product: June 26th, 2019
Gene Model: July 17th, 2021
|
| 5 months ago | dek33 | defective kernel33: | 5.04 - 5.05 | GRMZM2G090068
| Li, H et al. 2023. Multi-omics-driven advances in the understanding of triacylglycerol biosynthesis in oil seeds. Plant J. :doi: 10.1111/tpj.16545. | | Reference: November 28th, 2023
Gene Product: November 13th, 2018
Variation: November 13th, 2018
Gene Model: November 13th, 2018
|
| 5 months ago | burp8 | BURP domain-containing protein-RD22-like8: | 4.05 | GRMZM2G147756
| Su, HH et al. 2023. ZmELF6-ZmPRR37 module regulates maize flowering and salt response. Plant Biotechnol J. :doi: 10.1111/pbi.14236. | | Reference: November 28th, 2023
Gene Product: August 18th, 2017
Variation: August 18th, 2017
Gene Model: August 18th, 2017
|
| 5 months ago | abi20 | ABI3-VP1-transcription factor 20: | | | Su, HH et al. 2023. ZmELF6-ZmPRR37 module regulates maize flowering and salt response. Plant Biotechnol J. :doi: 10.1111/pbi.14236. | | Reference: November 28th, 2023
Gene Product: January 29th, 2022
|
| 5 months ago | abi39 | ABI3-VP1-transcription factor 39: | | | Su, HH et al. 2023. ZmELF6-ZmPRR37 module regulates maize flowering and salt response. Plant Biotechnol J. :doi: 10.1111/pbi.14236. | | Reference: November 28th, 2023
Gene Product: January 29th, 2022
|
| 5 months ago | ca5p5 | CCAAT-HAP5-transcription factor 55: | | | Su, HH et al. 2023. ZmELF6-ZmPRR37 module regulates maize flowering and salt response. Plant Biotechnol J. :doi: 10.1111/pbi.14236. | | Reference: November 28th, 2023
Gene Product: August 9th, 2016
|
| 5 months ago | jmj20 | JUMONJI-transcription factor 20: | | | Su, HH et al. 2023. ZmELF6-ZmPRR37 module regulates maize flowering and salt response. Plant Biotechnol J. :doi: 10.1111/pbi.14236. | AT5G04240 (TAIR) | Reference: November 28th, 2023
Gene Product: April 3rd, 2019
Variation: November 28th, 2023
|
| 5 months ago | umc1684 | : | 7.04 | GRMZM2G057281
| Su, HH et al. 2023. ZmELF6-ZmPRR37 module regulates maize flowering and salt response. Plant Biotechnol J. :doi: 10.1111/pbi.14236. | | Reference: November 28th, 2023
Variation: September 1st, 2003
Gene Model: March 17th, 2021
|
| 5 months ago | hdt104 | histone deacetylase 104: | | GRMZM5G898314
| Moiseeva, YM et al. 2023. Analysis of Mutations of the Maize Genes of Autonomous Embryo- and Endospermogenesis Russ J Genet. 59:967–969. | | Reference: November 28th, 2023
Gene Product: February 12th, 2020
Gene Model: October 12th, 2017
|
| 5 months ago | glu2 | beta-glucosidase2: | 2.04 | | Coneva, V; Zhu, T; Colasanti, JJ. 2007. J Exp Bot. 58:3679-3693 | | Reference: November 28th, 2023
Gene Product: June 26th, 2019
Variation: April 16th, 2013
|
| 5 months ago | glu18 | beta-glucosidase18: | 1.09 | GRMZM2G118003
| Gracia Gómez-Anduro et al. 2011. Genome-wide analysis of the beta-glucosidase gene family in maize (Zea mays L. var B73). Plant Mol Biol. 77:159-83. | | Reference: November 28th, 2023
Gene Product: June 26th, 2019
Gene Model: February 15th, 2020
|
| 5 months ago | glu17 | beta-glucosidase17: | 1.09 | AC217401.3_FG001
| Chuang Liu et al. 2023. A dual-subcellular localized β-glucosidase confers pathogen and insect resistance without a yield penalty in maize. Plant Biotechnol J. :doi: 10.1111/pbi.14242. | | Reference: November 28th, 2023
Gene Product: June 26th, 2019
Variation: November 28th, 2023
Gene Model: March 18th, 2022
|
| 5 months ago | wri1 | wrinkled1 transcription factor1: | | GRMZM2G124524
| Li, H et al. 2023. Multi-omics-driven advances in the understanding of triacylglycerol biosynthesis in oil seeds. Plant J. :doi: 10.1111/tpj.16545. | AT3G54320 (TAIR) | Reference: November 28th, 2023
Gene Product: July 5th, 2019
Variation: April 11th, 2011
Gene Model: April 8th, 2011
|
| 5 months ago | glu12 | beta-glucosidase12: | 3.06 | GRMZM2G069024
| Gracia Gómez-Anduro et al. 2011. Genome-wide analysis of the beta-glucosidase gene family in maize (Zea mays L. var B73). Plant Mol Biol. 77:159-83. | | Reference: November 28th, 2023
Gene Product: June 26th, 2019
Gene Model: April 6th, 2020
|
| 5 months ago | glu3 | beta-glucosidase3: | | GRMZM2G014844
| Gracia Gómez-Anduro et al. 2011. Genome-wide analysis of the beta-glucosidase gene family in maize (Zea mays L. var B73). Plant Mol Biol. 77:159-83. | | Reference: November 28th, 2023
Gene Product: June 26th, 2019
Gene Model: January 24th, 2015
|
| 5 months ago | snrkII10 | SnRK2 serine threonine kinase10: | | GRMZM2G066867
| Su, HH et al. 2023. ZmELF6-ZmPRR37 module regulates maize flowering and salt response. Plant Biotechnol J. :doi: 10.1111/pbi.14236. | | Reference: November 28th, 2023
Gene Product: April 14th, 2018
Gene Model: February 11th, 2015
|
| 5 months ago | gcs1 | generative cell specific1: | | GRMZM2G412911
| Moiseeva, YM et al. 2023. Analysis of Mutations of the Maize Genes of Autonomous Embryo- and Endospermogenesis Russ J Genet. 59:967–969. | AT4G11720 (TAIR)
LOC_Os05g18730 (MSU/TIGR) | Reference: November 28th, 2023
Variation: May 9th, 2017
Gene Model: April 10th, 2017
|
| 5 months ago | gex2 | gamete expressed2: | | GRMZM2G036832
| Moiseeva, YM et al. 2023. Analysis of Mutations of the Maize Genes of Autonomous Embryo- and Endospermogenesis Russ J Genet. 59:967–969. | AT5G49150 (TAIR) | Reference: November 28th, 2023
Gene Product: February 25th, 2020
Variation: February 25th, 2020
Gene Model: February 25th, 2020
|
| 5 months ago | hsftf31 | HSF-transcription factor 31: | | GRMZM2G051448
| Su, HH et al. 2023. ZmELF6-ZmPRR37 module regulates maize flowering and salt response. Plant Biotechnol J. :doi: 10.1111/pbi.14236. | | Reference: November 28th, 2023
Gene Product: May 15th, 2020
Gene Model: May 15th, 2020
|
| 5 months ago | dhn15 | dehydrin15: | | GRMZM2G147014
| Su, HH et al. 2023. ZmELF6-ZmPRR37 module regulates maize flowering and salt response. Plant Biotechnol J. :doi: 10.1111/pbi.14236. | | Reference: November 28th, 2023
Gene Product: August 5th, 2017
Gene Model: July 3rd, 2020
|
| 5 months ago | glu20 | beta-glucosidase20: | 5.03 | GRMZM2G163544
| Gracia Gómez-Anduro et al. 2011. Genome-wide analysis of the beta-glucosidase gene family in maize (Zea mays L. var B73). Plant Mol Biol. 77:159-83. | | Reference: November 28th, 2023
Gene Product: June 26th, 2019
Gene Model: May 16th, 2022
|
| 5 months ago | mca11 | metacaspase11: | | GRMZM2G022799
| Su, HH et al. 2023. ZmELF6-ZmPRR37 module regulates maize flowering and salt response. Plant Biotechnol J. :doi: 10.1111/pbi.14236. | | Reference: November 28th, 2023
Gene Product: October 27th, 2020
Gene Model: October 27th, 2020
|
| 5 months ago | glu13 | beta-glucosidase13: | | GRMZM2G376416
| Gracia Gómez-Anduro et al. 2011. Genome-wide analysis of the beta-glucosidase gene family in maize (Zea mays L. var B73). Plant Mol Biol. 77:159-83. | | Reference: November 28th, 2023
Gene Product: June 26th, 2019
Gene Model: October 31st, 2020
|
| 5 months ago | aaap48 | amino acid/auxin permease48: | | GRMZM2G010433
| Su, HH et al. 2023. ZmELF6-ZmPRR37 module regulates maize flowering and salt response. Plant Biotechnol J. :doi: 10.1111/pbi.14236. | | Reference: November 28th, 2023
Gene Product: March 31st, 2021
Gene Model: March 31st, 2021
|
| 5 months ago | glu10 | beta-glucosidase 10: | | GRMZM2G362368
| Gracia Gómez-Anduro et al. 2011. Genome-wide analysis of the beta-glucosidase gene family in maize (Zea mays L. var B73). Plant Mol Biol. 77:159-83. | | Reference: November 28th, 2023
Gene Product: June 26th, 2019
Gene Model: November 30th, 2021
|
| 5 months ago | gsk6 | glycogen synthase kinase6: | | GRMZM5G835235
| Su, HH et al. 2023. ZmELF6-ZmPRR37 module regulates maize flowering and salt response. Plant Biotechnol J. :doi: 10.1111/pbi.14236. | | Reference: November 28th, 2023
Gene Product: February 22nd, 2022
Gene Model: February 22nd, 2022
|
| 5 months ago | IDP809 | : | 9.04 | GRMZM5G842855
| Su, HH et al. 2023. ZmELF6-ZmPRR37 module regulates maize flowering and salt response. Plant Biotechnol J. :doi: 10.1111/pbi.14236. | | Reference: November 28th, 2023
Variation: March 31st, 2005
Gene Model: January 24th, 2019
|
| 5 months ago | glu8 | beta-glucosidase8: | 10.03 | GRMZM2G174699
| Gracia Gómez-Anduro et al. 2011. Genome-wide analysis of the beta-glucosidase gene family in maize (Zea mays L. var B73). Plant Mol Biol. 77:159-83. | | Reference: November 28th, 2023
Gene Product: June 26th, 2019
Variation: March 31st, 2005
Gene Model: July 19th, 2021
|
| 5 months ago | sacd1 | stearoyl-acyl-carrier-protein desaturase1: | 3.05 | GRMZM5G852502
| Li, H et al. 2023. Multi-omics-driven advances in the understanding of triacylglycerol biosynthesis in oil seeds. Plant J. :doi: 10.1111/tpj.16545. | | Reference: November 28th, 2023
Gene Product: October 10th, 2016
Variation: June 15th, 2016
Gene Model: June 15th, 2016
|
| 5 months ago | chn20 | chitinase20: | 5.03 | GRMZM2G064360
| Su, HH et al. 2023. ZmELF6-ZmPRR37 module regulates maize flowering and salt response. Plant Biotechnol J. :doi: 10.1111/pbi.14236. | | Reference: November 28th, 2023
Gene Product: May 31st, 2021
Gene Model: May 11th, 2020
|
| 5 months ago | mat-r(mtNB) | maturase related: | | GRMZM5G851769
| Dharam B Khandhar et al. 2023. The Itemization of Variations in Tassel-Ear Mutant and Normal Maize (Zea mays L.) Plants: 1. Organelle Genomes Russ J Genet. 59:919–929. | | Reference: November 28th, 2023
Gene Product: September 1st, 2003
Gene Model: June 16th, 2020
|
| 5 months ago | acx1 | acyl-coenzyme A oxidase1: | | | Jiawen He et al. 2023. Proteomics Analysis Reveals Hormone Metabolic Process Involved in the Regulation of Kernel Water Content Induced by Exogenous Abscisic Acid in Maize Agronomy. 13:2897. | | Reference: November 27th, 2023
Gene Product: September 17th, 2022
|
| 5 months ago | sbt8 | subtilisin8: | | | Wang, XD et al. 2023. Genome-Wide Identification and Characterization of the SBT Gene Family in maize and Its Expression in the Various tissues Plant Mol Biol Rep. :doi: 10.1007/s11105-023-01422-5. | | Reference: November 27th, 2023
Gene Product: November 11th, 2016
|
| 5 months ago | sbt5 | subtilisin5: | | | Wang, XD et al. 2023. Genome-Wide Identification and Characterization of the SBT Gene Family in maize and Its Expression in the Various tissues Plant Mol Biol Rep. :doi: 10.1007/s11105-023-01422-5. | | Reference: November 27th, 2023
Gene Product: November 11th, 2016
|
| 5 months ago | sbt6 | subtilisin6: | | | Wang, XD et al. 2023. Genome-Wide Identification and Characterization of the SBT Gene Family in maize and Its Expression in the Various tissues Plant Mol Biol Rep. :doi: 10.1007/s11105-023-01422-5. | | Reference: November 27th, 2023
Gene Product: November 11th, 2016
|
| 5 months ago | sbt17 | subtilisin17: | | | Wang, XD et al. 2023. Genome-Wide Identification and Characterization of the SBT Gene Family in maize and Its Expression in the Various tissues Plant Mol Biol Rep. :doi: 10.1007/s11105-023-01422-5. | | Reference: November 27th, 2023
Gene Product: November 11th, 2016
|
| 5 months ago | sbt18 | subtilisin18: | | | Wang, XD et al. 2023. Genome-Wide Identification and Characterization of the SBT Gene Family in maize and Its Expression in the Various tissues Plant Mol Biol Rep. :doi: 10.1007/s11105-023-01422-5. | | Reference: November 27th, 2023
Gene Product: November 11th, 2016
|
| 5 months ago | sbt19 | subtilisin19: | | | Wang, XD et al. 2023. Genome-Wide Identification and Characterization of the SBT Gene Family in maize and Its Expression in the Various tissues Plant Mol Biol Rep. :doi: 10.1007/s11105-023-01422-5. | | Reference: November 27th, 2023
Gene Product: November 11th, 2016
|
| 5 months ago | sbt33 | subtilisin33: | | | Wang, XD et al. 2023. Genome-Wide Identification and Characterization of the SBT Gene Family in maize and Its Expression in the Various tissues Plant Mol Biol Rep. :doi: 10.1007/s11105-023-01422-5. | | Reference: November 27th, 2023
Gene Product: November 11th, 2016
|
| 5 months ago | sbt54 | subtilisin54: | | | Wang, XD et al. 2023. Genome-Wide Identification and Characterization of the SBT Gene Family in maize and Its Expression in the Various tissues Plant Mol Biol Rep. :doi: 10.1007/s11105-023-01422-5. | | Reference: November 27th, 2023
Gene Product: November 11th, 2016
|
| 5 months ago | sbt59 | subtilisin59: | | | Wang, XD et al. 2023. Genome-Wide Identification and Characterization of the SBT Gene Family in maize and Its Expression in the Various tissues Plant Mol Biol Rep. :doi: 10.1007/s11105-023-01422-5. | | Reference: November 27th, 2023
Gene Product: November 11th, 2016
|
| 5 months ago | sbt46 | subtilisin46: | | | Wang, XD et al. 2023. Genome-Wide Identification and Characterization of the SBT Gene Family in maize and Its Expression in the Various tissues Plant Mol Biol Rep. :doi: 10.1007/s11105-023-01422-5. | | Reference: November 27th, 2023
Gene Product: November 11th, 2016
|
| 5 months ago | sbt43 | subtilisin43: | | | Wang, XD et al. 2023. Genome-Wide Identification and Characterization of the SBT Gene Family in maize and Its Expression in the Various tissues Plant Mol Biol Rep. :doi: 10.1007/s11105-023-01422-5. | | Reference: November 27th, 2023
Gene Product: November 11th, 2016
|
| 5 months ago | sbt60 | subtilisin60: | | | Wang, XD et al. 2023. Genome-Wide Identification and Characterization of the SBT Gene Family in maize and Its Expression in the Various tissues Plant Mol Biol Rep. :doi: 10.1007/s11105-023-01422-5. | | Reference: November 27th, 2023
Gene Product: November 11th, 2016
|
| 5 months ago | sbt61 | subtilisin61: | | | Wang, XD et al. 2023. Genome-Wide Identification and Characterization of the SBT Gene Family in maize and Its Expression in the Various tissues Plant Mol Biol Rep. :doi: 10.1007/s11105-023-01422-5. | | Reference: November 27th, 2023
Gene Product: November 11th, 2016
|
| 5 months ago | sbt56 | subtilisin56: | | | Wang, XD et al. 2023. Genome-Wide Identification and Characterization of the SBT Gene Family in maize and Its Expression in the Various tissues Plant Mol Biol Rep. :doi: 10.1007/s11105-023-01422-5. | | Reference: November 27th, 2023
Gene Product: November 11th, 2016
|
| 5 months ago | sbt26 | subtilisin26: | | | Wang, XD et al. 2023. Genome-Wide Identification and Characterization of the SBT Gene Family in maize and Its Expression in the Various tissues Plant Mol Biol Rep. :doi: 10.1007/s11105-023-01422-5. | | Reference: November 27th, 2023
Gene Product: November 11th, 2016
|
| 5 months ago | sbt21 | subtilisin21: | | | Wang, XD et al. 2023. Genome-Wide Identification and Characterization of the SBT Gene Family in maize and Its Expression in the Various tissues Plant Mol Biol Rep. :doi: 10.1007/s11105-023-01422-5. | | Reference: November 27th, 2023
Gene Product: November 11th, 2016
|
| 5 months ago | sbt39 | subtilisin39: | | | Wang, XD et al. 2023. Genome-Wide Identification and Characterization of the SBT Gene Family in maize and Its Expression in the Various tissues Plant Mol Biol Rep. :doi: 10.1007/s11105-023-01422-5. | | Reference: November 27th, 2023
Gene Product: November 11th, 2016
|
| 5 months ago | sbt34 | subtilisin34: | | | Wang, XD et al. 2023. Genome-Wide Identification and Characterization of the SBT Gene Family in maize and Its Expression in the Various tissues Plant Mol Biol Rep. :doi: 10.1007/s11105-023-01422-5. | | Reference: November 27th, 2023
Gene Product: November 11th, 2016
|
| 5 months ago | sbt27 | subtilisin27: | | | Wang, XD et al. 2023. Genome-Wide Identification and Characterization of the SBT Gene Family in maize and Its Expression in the Various tissues Plant Mol Biol Rep. :doi: 10.1007/s11105-023-01422-5. | | Reference: November 27th, 2023
Gene Product: November 11th, 2016
|
| 5 months ago | sbt55 | subtilisin55: | | | Wang, XD et al. 2023. Genome-Wide Identification and Characterization of the SBT Gene Family in maize and Its Expression in the Various tissues Plant Mol Biol Rep. :doi: 10.1007/s11105-023-01422-5. | | Reference: November 27th, 2023
Gene Product: November 11th, 2016
|
| 5 months ago | sbt29 | subtilisin29: | | | Wang, XD et al. 2023. Genome-Wide Identification and Characterization of the SBT Gene Family in maize and Its Expression in the Various tissues Plant Mol Biol Rep. :doi: 10.1007/s11105-023-01422-5. | | Reference: November 27th, 2023
Gene Product: November 11th, 2016
|
| 5 months ago | sbt25 | subtilisin25: | | | Wang, XD et al. 2023. Genome-Wide Identification and Characterization of the SBT Gene Family in maize and Its Expression in the Various tissues Plant Mol Biol Rep. :doi: 10.1007/s11105-023-01422-5. | | Reference: November 27th, 2023
Gene Product: November 11th, 2016
|
| 5 months ago | sbt30 | subtilisin30: | | | Wang, XD et al. 2023. Genome-Wide Identification and Characterization of the SBT Gene Family in maize and Its Expression in the Various tissues Plant Mol Biol Rep. :doi: 10.1007/s11105-023-01422-5. | | Reference: November 27th, 2023
Gene Product: November 11th, 2016
|
| 5 months ago | sbt31 | subtilisin31: | | | Wang, XD et al. 2023. Genome-Wide Identification and Characterization of the SBT Gene Family in maize and Its Expression in the Various tissues Plant Mol Biol Rep. :doi: 10.1007/s11105-023-01422-5. | | Reference: November 27th, 2023
Gene Product: November 11th, 2016
|
| 5 months ago | sbt35 | subtilisin35: | | | Wang, XD et al. 2023. Genome-Wide Identification and Characterization of the SBT Gene Family in maize and Its Expression in the Various tissues Plant Mol Biol Rep. :doi: 10.1007/s11105-023-01422-5. | | Reference: November 27th, 2023
Gene Product: November 11th, 2016
|
| 5 months ago | sbt38 | subtilisin38: | | | Wang, XD et al. 2023. Genome-Wide Identification and Characterization of the SBT Gene Family in maize and Its Expression in the Various tissues Plant Mol Biol Rep. :doi: 10.1007/s11105-023-01422-5. | | Reference: November 27th, 2023
Gene Product: November 11th, 2016
|
| 5 months ago | sbt41 | subtilisin41: | | | Wang, XD et al. 2023. Genome-Wide Identification and Characterization of the SBT Gene Family in maize and Its Expression in the Various tissues Plant Mol Biol Rep. :doi: 10.1007/s11105-023-01422-5. | | Reference: November 27th, 2023
Gene Product: November 11th, 2016
|
| 5 months ago | sbt42 | subtilisin42: | | | Wang, XD et al. 2023. Genome-Wide Identification and Characterization of the SBT Gene Family in maize and Its Expression in the Various tissues Plant Mol Biol Rep. :doi: 10.1007/s11105-023-01422-5. | | Reference: November 27th, 2023
Gene Product: November 11th, 2016
|
| 5 months ago | sbt44 | subtilisin44: | | | Wang, XD et al. 2023. Genome-Wide Identification and Characterization of the SBT Gene Family in maize and Its Expression in the Various tissues Plant Mol Biol Rep. :doi: 10.1007/s11105-023-01422-5. | | Reference: November 27th, 2023
Gene Product: November 11th, 2016
|
| 5 months ago | sbt48 | subtilisin48: | | | Wang, XD et al. 2023. Genome-Wide Identification and Characterization of the SBT Gene Family in maize and Its Expression in the Various tissues Plant Mol Biol Rep. :doi: 10.1007/s11105-023-01422-5. | | Reference: November 27th, 2023
Gene Product: November 11th, 2016
|
| 5 months ago | sbt49 | subtilisin49: | | | Wang, XD et al. 2023. Genome-Wide Identification and Characterization of the SBT Gene Family in maize and Its Expression in the Various tissues Plant Mol Biol Rep. :doi: 10.1007/s11105-023-01422-5. | | Reference: November 27th, 2023
Gene Product: November 11th, 2016
|
| 5 months ago | sbt51 | subtilisin51: | | | Wang, XD et al. 2023. Genome-Wide Identification and Characterization of the SBT Gene Family in maize and Its Expression in the Various tissues Plant Mol Biol Rep. :doi: 10.1007/s11105-023-01422-5. | | Reference: November 27th, 2023
Gene Product: November 11th, 2016
|
| 5 months ago | sbt58 | subtilisin58: | | | Wang, XD et al. 2023. Genome-Wide Identification and Characterization of the SBT Gene Family in maize and Its Expression in the Various tissues Plant Mol Biol Rep. :doi: 10.1007/s11105-023-01422-5. | | Reference: November 27th, 2023
Gene Product: November 11th, 2016
|
| 5 months ago | Zm00001d018918 | : | | | Mallikarjuna, MG et al. 2023. Genome-wide identification of potassium channels in maize showed evolutionary patterns and variable functional responses to abiotic stresses Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2023.108235. | | Reference: November 27th, 2023
Gene Product: November 27th, 2023
|
| 5 months ago | Zm00001eb097780 | : | | | Mallikarjuna, MG et al. 2023. Genome-wide identification of potassium channels in maize showed evolutionary patterns and variable functional responses to abiotic stresses Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2023.108235. | | Reference: November 27th, 2023
Gene Product: November 27th, 2023
|
| 5 months ago | Zm00001eb118420 | : | | | Mallikarjuna, MG et al. 2023. Genome-wide identification of potassium channels in maize showed evolutionary patterns and variable functional responses to abiotic stresses Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2023.108235. | | Reference: November 27th, 2023
Gene Product: November 27th, 2023
|
| 5 months ago | Zm00001eb081780 | : | | | Mallikarjuna, MG et al. 2023. Genome-wide identification of potassium channels in maize showed evolutionary patterns and variable functional responses to abiotic stresses Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2023.108235. | | Reference: November 27th, 2023
Gene Product: November 27th, 2023
|
| 5 months ago | Zm00001eb134710 | : | | | Mallikarjuna, MG et al. 2023. Genome-wide identification of potassium channels in maize showed evolutionary patterns and variable functional responses to abiotic stresses Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2023.108235. | | Reference: November 27th, 2023
Gene Product: November 27th, 2023
|
| 5 months ago | Zm00001eb155880 | : | | | Mallikarjuna, MG et al. 2023. Genome-wide identification of potassium channels in maize showed evolutionary patterns and variable functional responses to abiotic stresses Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2023.108235. | | Reference: November 27th, 2023
Gene Product: November 27th, 2023
|
| 5 months ago | Zm00001eb169870 | : | | | Mallikarjuna, MG et al. 2023. Genome-wide identification of potassium channels in maize showed evolutionary patterns and variable functional responses to abiotic stresses Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2023.108235. | | Reference: November 27th, 2023
Gene Product: November 27th, 2023
|
| 5 months ago | Zm00001eb204240 | : | | | Mallikarjuna, MG et al. 2023. Genome-wide identification of potassium channels in maize showed evolutionary patterns and variable functional responses to abiotic stresses Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2023.108235. | | Reference: November 27th, 2023
Gene Product: November 27th, 2023
|
| 5 months ago | Zm00001eb218670 | : | | | Mallikarjuna, MG et al. 2023. Genome-wide identification of potassium channels in maize showed evolutionary patterns and variable functional responses to abiotic stresses Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2023.108235. | | Reference: November 27th, 2023
Gene Product: November 27th, 2023
|
| 5 months ago | Zm00001eb245270 | : | | | Mallikarjuna, MG et al. 2023. Genome-wide identification of potassium channels in maize showed evolutionary patterns and variable functional responses to abiotic stresses Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2023.108235. | | Reference: November 27th, 2023
Gene Product: November 27th, 2023
|
| 5 months ago | Zm00001eb277950 | : | | | Mallikarjuna, MG et al. 2023. Genome-wide identification of potassium channels in maize showed evolutionary patterns and variable functional responses to abiotic stresses Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2023.108235. | | Reference: November 27th, 2023
Gene Product: November 27th, 2023
|
| 5 months ago | Zm00001eb309390 | : | | | Mallikarjuna, MG et al. 2023. Genome-wide identification of potassium channels in maize showed evolutionary patterns and variable functional responses to abiotic stresses Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2023.108235. | | Reference: November 27th, 2023
Gene Product: November 27th, 2023
|
| 5 months ago | Zm00001eb301120 | : | | | Mallikarjuna, MG et al. 2023. Genome-wide identification of potassium channels in maize showed evolutionary patterns and variable functional responses to abiotic stresses Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2023.108235. | | Reference: November 27th, 2023
Gene Product: November 27th, 2023
|
| 5 months ago | Zm00001eb361580 | : | | | Mallikarjuna, MG et al. 2023. Genome-wide identification of potassium channels in maize showed evolutionary patterns and variable functional responses to abiotic stresses Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2023.108235. | | Reference: November 27th, 2023
Gene Product: November 27th, 2023
|
| 5 months ago | Zm00001eb369820 | : | | | Mallikarjuna, MG et al. 2023. Genome-wide identification of potassium channels in maize showed evolutionary patterns and variable functional responses to abiotic stresses Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2023.108235. | | Reference: November 27th, 2023
Gene Product: November 27th, 2023
|
| 5 months ago | sbt13 | subtilisin13: | 6.03 | GRMZM2G073223
| Wang, XD et al. 2023. Genome-Wide Identification and Characterization of the SBT Gene Family in maize and Its Expression in the Various tissues Plant Mol Biol Rep. :doi: 10.1007/s11105-023-01422-5. | | Reference: November 27th, 2023
Gene Product: November 11th, 2016
Gene Model: June 30th, 2021
|
| 5 months ago | sbt47 | subtilisin47: | 1.08 | GRMZM5G891371
| Wang, XD et al. 2023. Genome-Wide Identification and Characterization of the SBT Gene Family in maize and Its Expression in the Various tissues Plant Mol Biol Rep. :doi: 10.1007/s11105-023-01422-5. | | Reference: November 27th, 2023
Gene Product: November 11th, 2016
Gene Model: April 1st, 2021
|
| 5 months ago | sbt7 | subtilisin7: | 2.08 | GRMZM2G057159
| Wang, XD et al. 2023. Genome-Wide Identification and Characterization of the SBT Gene Family in maize and Its Expression in the Various tissues Plant Mol Biol Rep. :doi: 10.1007/s11105-023-01422-5. | | Reference: November 27th, 2023
Gene Product: November 11th, 2016
Gene Model: May 4th, 2021
|
| 5 months ago | pco147657 | : | 7.03 | GRMZM2G135651
| Mallikarjuna, MG et al. 2023. Genome-wide identification of potassium channels in maize showed evolutionary patterns and variable functional responses to abiotic stresses Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2023.108235. | | Reference: November 27th, 2023
Gene Product: November 27th, 2023
Gene Model: September 9th, 2018
|
| 5 months ago | sbt40 | subtilisin40: | 2.09 | GRMZM2G345622
| Wang, XD et al. 2023. Genome-Wide Identification and Characterization of the SBT Gene Family in maize and Its Expression in the Various tissues Plant Mol Biol Rep. :doi: 10.1007/s11105-023-01422-5. | | Reference: November 27th, 2023
Gene Product: November 11th, 2016
Variation: September 1st, 2003
Gene Model: March 2nd, 2021
|
| 5 months ago | sbt52 | subtilisin52: | 9.03 | GRMZM2G306915
| Wang, XD et al. 2023. Genome-Wide Identification and Characterization of the SBT Gene Family in maize and Its Expression in the Various tissues Plant Mol Biol Rep. :doi: 10.1007/s11105-023-01422-5. | | Reference: November 27th, 2023
Gene Product: November 11th, 2016
Variation: September 1st, 2003
Gene Model: October 13th, 2018
|
| 5 months ago | kch6 | potassium channel6: | 8.03 | AC234152.1_FG002
| Mallikarjuna, MG et al. 2023. Genome-wide identification of potassium channels in maize showed evolutionary patterns and variable functional responses to abiotic stresses Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2023.108235. | | Reference: November 27th, 2023
Gene Product: November 27th, 2023
Variation: April 14th, 2017
Gene Model: April 14th, 2017
|
| 5 months ago | sbt36 | subtilisin36: | 6.05 | AC204292.4_FG006
| Wang, XD et al. 2023. Genome-Wide Identification and Characterization of the SBT Gene Family in maize and Its Expression in the Various tissues Plant Mol Biol Rep. :doi: 10.1007/s11105-023-01422-5. | | Reference: November 27th, 2023
Gene Product: November 11th, 2016
Variation: July 29th, 2004
Gene Model: August 10th, 2017
|
| 5 months ago | sbt11 | subtilisin11: | 3.06 | GRMZM2G052365
| Wang, XD et al. 2023. Genome-Wide Identification and Characterization of the SBT Gene Family in maize and Its Expression in the Various tissues Plant Mol Biol Rep. :doi: 10.1007/s11105-023-01422-5. | | Reference: November 27th, 2023
Gene Product: November 11th, 2016
Variation: July 29th, 2004
Gene Model: March 16th, 2018
|
| 5 months ago | sbt62 | subtilisin62: | | GRMZM2G013986
| Wang, XD et al. 2023. Genome-Wide Identification and Characterization of the SBT Gene Family in maize and Its Expression in the Various tissues Plant Mol Biol Rep. :doi: 10.1007/s11105-023-01422-5. | | Reference: November 27th, 2023
Gene Product: November 11th, 2016
Gene Model: February 3rd, 2020
|
| 5 months ago | sbt24 | subtilisin24: | 1.10 | GRMZM2G091578
| Wang, XD et al. 2023. Genome-Wide Identification and Characterization of the SBT Gene Family in maize and Its Expression in the Various tissues Plant Mol Biol Rep. :doi: 10.1007/s11105-023-01422-5. | | Reference: November 27th, 2023
Gene Product: November 11th, 2016
Gene Model: February 15th, 2020
|
| 5 months ago | bx9 | benzoxazinone synthesis9: | 1.06 | GRMZM2G161335
| Jiawen He et al. 2023. Proteomics Analysis Reveals Hormone Metabolic Process Involved in the Regulation of Kernel Water Content Induced by Exogenous Abscisic Acid in Maize Agronomy. 13:2897. | | Reference: November 27th, 2023
Gene Product: October 11th, 2021
Variation: October 27th, 2011
Gene Model: October 20th, 2011
|
| 5 months ago | sbt22 | subtilisin22: | 3.07 | | Wang, XD et al. 2023. Genome-Wide Identification and Characterization of the SBT Gene Family in maize and Its Expression in the Various tissues Plant Mol Biol Rep. :doi: 10.1007/s11105-023-01422-5. | | Reference: November 27th, 2023
Gene Product: November 11th, 2016
|
| 5 months ago | ipt2 | isopentenyl transferase2: | | GRMZM2G084462
| Jiawen He et al. 2023. Proteomics Analysis Reveals Hormone Metabolic Process Involved in the Regulation of Kernel Water Content Induced by Exogenous Abscisic Acid in Maize Agronomy. 13:2897. | | Reference: November 27th, 2023
Gene Product: March 19th, 2014
Variation: July 11th, 2013
Gene Model: July 10th, 2013
|
| 5 months ago | sbt2 | subtilisin2: | | GRMZM2G039538
| Wang, XD et al. 2023. Genome-Wide Identification and Characterization of the SBT Gene Family in maize and Its Expression in the Various tissues Plant Mol Biol Rep. :doi: 10.1007/s11105-023-01422-5. | | Reference: November 27th, 2023
Gene Product: November 11th, 2016
Variation: November 11th, 2016
Gene Model: November 11th, 2016
|
| 5 months ago | sbt3 | subtilisin3: | | GRMZM2G363552
| Wang, XD et al. 2023. Genome-Wide Identification and Characterization of the SBT Gene Family in maize and Its Expression in the Various tissues Plant Mol Biol Rep. :doi: 10.1007/s11105-023-01422-5. | | Reference: November 27th, 2023
Gene Product: November 11th, 2016
Variation: November 6th, 2023
Gene Model: November 11th, 2016
|
| 5 months ago | mcm4 | minichromosome maintenance4: | | GRMZM2G066101
| Jiawen He et al. 2023. Proteomics Analysis Reveals Hormone Metabolic Process Involved in the Regulation of Kernel Water Content Induced by Exogenous Abscisic Acid in Maize Agronomy. 13:2897. | | Reference: November 27th, 2023
Gene Product: August 2nd, 2017
Gene Model: July 31st, 2017
|
| 5 months ago | kch7 | potassium channel7: | | GRMZM2G178356
| Mallikarjuna, MG et al. 2023. Genome-wide identification of potassium channels in maize showed evolutionary patterns and variable functional responses to abiotic stresses Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2023.108235. | | Reference: November 27th, 2023
Gene Product: November 27th, 2023
Variation: September 12th, 2017
Gene Model: September 12th, 2017
|
| 5 months ago | kch8 | potassium channel8: | | GRMZM5G838773
| Gao, Y-Q et al. 2017. Plant J pp.doi: 10.1111/tpj.13712 | | Reference: September 12th, 2017
Gene Product: November 27th, 2023
Gene Model: September 12th, 2017
|
| 5 months ago | sbt16 | subtilisin16: | | GRMZM2G157313
| Wang, XD et al. 2023. Genome-Wide Identification and Characterization of the SBT Gene Family in maize and Its Expression in the Various tissues Plant Mol Biol Rep. :doi: 10.1007/s11105-023-01422-5. | | Reference: November 27th, 2023
Gene Product: November 11th, 2016
Gene Model: March 14th, 2018
|
| 5 months ago | cl19485_1 | : | 5.07 | GRMZM2G161800
| Mallikarjuna, MG et al. 2023. Genome-wide identification of potassium channels in maize showed evolutionary patterns and variable functional responses to abiotic stresses Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2023.108235. | | Reference: November 27th, 2023
Gene Product: November 27th, 2023
Gene Model: May 9th, 2022
|
| 5 months ago | sbt4 | subtilisin4: | | GRMZM2G429842
| Wang, XD et al. 2023. Genome-Wide Identification and Characterization of the SBT Gene Family in maize and Its Expression in the Various tissues Plant Mol Biol Rep. :doi: 10.1007/s11105-023-01422-5. | | Reference: November 27th, 2023
Gene Product: November 11th, 2016
Gene Model: November 2nd, 2020
|
| 5 months ago | znf9 | zinc finger protein9: | | GRMZM2G125775
| Liu, TD et al. 2023. Transcriptome-based network analysis cell cycle-related genes in response to blue and red light in maize AoB Plants. :doi: 10.1093/aobpla/plad079. | | Reference: November 27th, 2023
Gene Product: November 14th, 2022
Gene Model: May 25th, 2021
|
| 5 months ago | sbt12 | subtilisin12: | | GRMZM5G836501
| Wang, XD et al. 2023. Genome-Wide Identification and Characterization of the SBT Gene Family in maize and Its Expression in the Various tissues Plant Mol Biol Rep. :doi: 10.1007/s11105-023-01422-5. | | Reference: November 27th, 2023
Gene Product: November 11th, 2016
Gene Model: July 7th, 2021
|
| 5 months ago | dhad2 | dihydroxy-acid dehydratase2: | | GRMZM2G014069
| Jiawen He et al. 2023. Proteomics Analysis Reveals Hormone Metabolic Process Involved in the Regulation of Kernel Water Content Induced by Exogenous Abscisic Acid in Maize Agronomy. 13:2897. | | Reference: November 27th, 2023
Gene Product: August 29th, 2021
Gene Model: August 29th, 2021
|
| 5 months ago | Zm00001d017281 | : | | GRMZM2G068904
| Mallikarjuna, MG et al. 2023. Genome-wide identification of potassium channels in maize showed evolutionary patterns and variable functional responses to abiotic stresses Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2023.108235. | | Reference: November 27th, 2023
Gene Product: November 27th, 2023
Gene Model: February 15th, 2022
|
| 5 months ago | sbt28 | subtilisin28: | 5.04 | | Wang, XD et al. 2023. Genome-Wide Identification and Characterization of the SBT Gene Family in maize and Its Expression in the Various tissues Plant Mol Biol Rep. :doi: 10.1007/s11105-023-01422-5. | | Reference: November 27th, 2023
Gene Product: November 11th, 2016
|
| 5 months ago | sbt45 | subtilisin45: | 7.03 | GRMZM2G132032
| Wang, XD et al. 2023. Genome-Wide Identification and Characterization of the SBT Gene Family in maize and Its Expression in the Various tissues Plant Mol Biol Rep. :doi: 10.1007/s11105-023-01422-5. | | Reference: November 27th, 2023
Gene Product: November 11th, 2016
Gene Model: May 15th, 2019
|
| 5 months ago | cl14040_1 | : | 8.06 | GRMZM2G080767
| Mallikarjuna, MG et al. 2023. Genome-wide identification of potassium channels in maize showed evolutionary patterns and variable functional responses to abiotic stresses Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2023.108235. | | Reference: November 27th, 2023
Gene Product: November 27th, 2023
Gene Model: June 13th, 2022
|
| 5 months ago | sbt50 | subtilisin50: | 8.08 | | Wang, XD et al. 2023. Genome-Wide Identification and Characterization of the SBT Gene Family in maize and Its Expression in the Various tissues Plant Mol Biol Rep. :doi: 10.1007/s11105-023-01422-5. | | Reference: November 27th, 2023
Gene Product: November 11th, 2016
|
| 5 months ago | si946031d03b | : | 9.02 | | Mallikarjuna, MG et al. 2023. Genome-wide identification of potassium channels in maize showed evolutionary patterns and variable functional responses to abiotic stresses Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2023.108235. | | Reference: November 27th, 2023
Gene Product: November 27th, 2023
|
| 5 months ago | sbt57 | subtilisin57: | 10.04 | GRMZM2G414915
| Wang, XD et al. 2023. Genome-Wide Identification and Characterization of the SBT Gene Family in maize and Its Expression in the Various tissues Plant Mol Biol Rep. :doi: 10.1007/s11105-023-01422-5. | | Reference: November 27th, 2023
Gene Product: November 11th, 2016
Variation: September 25th, 2007
Gene Model: July 7th, 2020
|
| 5 months ago | IDP494 | : | 3.09 | GRMZM2G049866
| Jiawen He et al. 2023. Proteomics Analysis Reveals Hormone Metabolic Process Involved in the Regulation of Kernel Water Content Induced by Exogenous Abscisic Acid in Maize Agronomy. 13:2897. | | Reference: November 27th, 2023
Variation: March 31st, 2005
Gene Model: February 25th, 2019
|
| 5 months ago | sbt14 | subtilisin14: | 5.03 | GRMZM2G099452
| Wang, XD et al. 2023. Genome-Wide Identification and Characterization of the SBT Gene Family in maize and Its Expression in the Various tissues Plant Mol Biol Rep. :doi: 10.1007/s11105-023-01422-5. | | Reference: November 27th, 2023
Gene Product: November 11th, 2016
Variation: March 31st, 2005
Gene Model: May 10th, 2020
|
| 5 months ago | kch4 | potassium channel4: | 3.02 | GRMZM2G093313
| Mallikarjuna, MG et al. 2023. Genome-wide identification of potassium channels in maize showed evolutionary patterns and variable functional responses to abiotic stresses Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2023.108235. | | Reference: November 27th, 2023
Gene Product: November 27th, 2023
Variation: February 20th, 2008
Gene Model: April 22nd, 2011
|
| 5 months ago | sbt32 | subtilisin32: | 5.07 | GRMZM2G163749
| Wang, XD et al. 2023. Genome-Wide Identification and Characterization of the SBT Gene Family in maize and Its Expression in the Various tissues Plant Mol Biol Rep. :doi: 10.1007/s11105-023-01422-5. | | Reference: November 27th, 2023
Gene Product: November 11th, 2016
Gene Model: May 25th, 2020
|
| 5 months ago | gpm871 | : | 4.09 | GRMZM2G148118
| Mallikarjuna, MG et al. 2023. Genome-wide identification of potassium channels in maize showed evolutionary patterns and variable functional responses to abiotic stresses Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2023.108235. | | Reference: November 27th, 2023
Gene Product: November 27th, 2023
Gene Model: April 25th, 2020
|
| 5 months ago | kch2 | potassium channel2: | 6.05 | GRMZM2G020859
| Li, J et al. 2023. Integrated Transcriptomic and Proteomic Analyses of Low-Nitrogen-Stress Tolerance and Function Analysis of ZmGST42 Gene in Maize Antioxidants. 12:1831. | | Reference: October 5th, 2023
Gene Product: November 27th, 2023
Variation: October 25th, 2017
Gene Model: July 23rd, 2014
|
| 5 months ago | kch1 | potassium channel 1: | 3.08 | GRMZM2G022915
| Anna Fiorillo et al. 2023. 14-3-3 Proteins and the Plasma Membrane H+-ATPase Are Involved in Maize (Zea mays) Magnetic Induction. Plants. 12:2887. | | Reference: August 12th, 2023
Gene Product: November 27th, 2023
Variation: July 22nd, 2014
Gene Model: April 22nd, 2011
|
| 5 months ago | kch3 | potassium channel3: | 2.06 | GRMZM2G081666
| Mallikarjuna, MG et al. 2023. Genome-wide identification of potassium channels in maize showed evolutionary patterns and variable functional responses to abiotic stresses Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2023.108235. | | Reference: November 27th, 2023
Gene Product: November 27th, 2023
Variation: April 22nd, 2011
Gene Model: April 22nd, 2011
|
| 5 months ago | prx69 | peroxidase69: | | | Ren, Y et al. 2023. Application of Methionine Increases the Germination Rate of Maize Seeds by Triggering Multiple Phenylpropanoid Biosynthetic Genes at Transcript Levels. Plants. 12:3802. | | Reference: November 26th, 2023
Gene Product: September 18th, 2015
|
| 5 months ago | bm2 | brown midrib2: | 1.11 | GRMZM2G347056
| Ren, Y et al. 2023. Application of Methionine Increases the Germination Rate of Maize Seeds by Triggering Multiple Phenylpropanoid Biosynthetic Genes at Transcript Levels. Plants. 12:3802. | | Reference: November 26th, 2023
Gene Product: August 28th, 2012
Variation: November 30th, 2013
Gene Model: November 30th, 2013
|
| 5 months ago | mets2 | methionine synthase2: | 5.02 | GRMZM2G112149
| Ren, Y et al. 2023. Application of Methionine Increases the Germination Rate of Maize Seeds by Triggering Multiple Phenylpropanoid Biosynthetic Genes at Transcript Levels. Plants. 12:3802. | | Reference: November 26th, 2023
Gene Product: September 1st, 2003
Variation: September 1st, 2003
Gene Model: June 27th, 2018
|
| 5 months ago | fah2 | ferulic acid 5-hydroxylase2: | | GRMZM2G100158
| Ren, Y et al. 2023. Application of Methionine Increases the Germination Rate of Maize Seeds by Triggering Multiple Phenylpropanoid Biosynthetic Genes at Transcript Levels. Plants. 12:3802. | AT4G36220 (TAIR)
LOC_Os10g36848 (MSU/TIGR) | Reference: November 26th, 2023
Gene Product: May 4th, 2018
Gene Model: May 4th, 2018
|
| 5 months ago | acco5 | 1-aminocyclopropane-1-carboxylate oxidase5: | | GRMZM2G013448
| Ren, Y et al. 2023. Application of Methionine Increases the Germination Rate of Maize Seeds by Triggering Multiple Phenylpropanoid Biosynthetic Genes at Transcript Levels. Plants. 12:3802. | | Reference: November 26th, 2023
Gene Product: May 16th, 2016
Gene Model: June 15th, 2021
|
| 5 months ago | ccp17 | cysteine protease17: | | GRMZM2G166870
| Ren, Y et al. 2023. Application of Methionine Increases the Germination Rate of Maize Seeds by Triggering Multiple Phenylpropanoid Biosynthetic Genes at Transcript Levels. Plants. 12:3802. | | Reference: November 26th, 2023
Gene Product: October 11th, 2021
Gene Model: October 11th, 2021
|
| 5 months ago | expb13 | beta expansin13: | | | Keyu Tao et al. 2023. Overexpression of ZmEXPA5 reduces anthesis-silking interval and increases grain yield under drought and well-watered conditions in maize Mol Breed. :doi: 10.1007/s11032-023-01432-x. | | Reference: November 24th, 2023
Gene Product: April 24th, 2008
|
| 5 months ago | GRMZM2G108077 | : | | | Shi, X et al. 2019. Sci. Rep. 9:212 | | Reference: November 24th, 2023
Gene Product: September 18th, 2015
|
| 5 months ago | mam2 | mRNA adenosine methylase2: | | | Luo, JH et al. 2023. RNA m6A modification facilitates DNA methylation during maize kernel development. Plant Physiol. :doi: 10.1093/plphys/kiad625. | AT4G09980 (TAIR) | Reference: November 24th, 2023
Gene Product: November 24th, 2023
|
| 5 months ago | expb18 | beta expansin18: | | | Keyu Tao et al. 2023. Overexpression of ZmEXPA5 reduces anthesis-silking interval and increases grain yield under drought and well-watered conditions in maize Mol Breed. :doi: 10.1007/s11032-023-01432-x. | | Reference: November 24th, 2023
Gene Product: April 24th, 2008
|
| 5 months ago | expb10d | beta expansin10d: | 3.04 | GRMZM2G164785
| Keyu Tao et al. 2023. Overexpression of ZmEXPA5 reduces anthesis-silking interval and increases grain yield under drought and well-watered conditions in maize Mol Breed. :doi: 10.1007/s11032-023-01432-x. | | Reference: November 24th, 2023
Gene Product: April 24th, 2008
Variation: April 23rd, 2008
Gene Model: March 2nd, 2016
|
| 5 months ago | tubtf4 | TUB-transcription factor 4: | 2.03 | GRMZM2G108228
| Shi, X et al. 2019. Sci. Rep. 9:212 | | Reference: November 24th, 2023
Gene Product: September 29th, 2015
Variation: September 1st, 2003
Gene Model: September 29th, 2015
|
| 5 months ago | arftf5 | ARF-transcription factor 5: | | | Shi, X et al. 2019. Sci. Rep. 9:212 | | Reference: November 24th, 2023
Gene Product: January 29th, 2022
|
| 5 months ago | expa2 | alpha expansin2: | 5.05 | GRMZM2G105844
| Keyu Tao et al. 2023. Overexpression of ZmEXPA5 reduces anthesis-silking interval and increases grain yield under drought and well-watered conditions in maize Mol Breed. :doi: 10.1007/s11032-023-01432-x. | | Reference: November 24th, 2023
Gene Product: March 12th, 2008
Variation: September 1st, 2003
Gene Model: March 2nd, 2016
|
| 5 months ago | expa5 | alpha expansin5: | 6.06 | GRMZM2G361064
| Keyu Tao et al. 2023. Overexpression of ZmEXPA5 reduces anthesis-silking interval and increases grain yield under drought and well-watered conditions in maize Mol Breed. :doi: 10.1007/s11032-023-01432-x. | | Reference: November 24th, 2023
Gene Product: March 12th, 2008
Variation: November 24th, 2023
Gene Model: March 2nd, 2016
|
| 5 months ago | expb10a | beta expansin10a: | 9.07 | GRMZM2G089699
| Keyu Tao et al. 2023. Overexpression of ZmEXPA5 reduces anthesis-silking interval and increases grain yield under drought and well-watered conditions in maize Mol Breed. :doi: 10.1007/s11032-023-01432-x. | | Reference: November 24th, 2023
Gene Product: April 24th, 2008
Variation: May 31st, 2010
Gene Model: March 2nd, 2016
|
| 5 months ago | expb11 | beta expansin11: | 5.06 | GRMZM2G127106
| Keyu Tao et al. 2023. Overexpression of ZmEXPA5 reduces anthesis-silking interval and increases grain yield under drought and well-watered conditions in maize Mol Breed. :doi: 10.1007/s11032-023-01432-x. | | Reference: November 24th, 2023
Gene Product: April 24th, 2008
Variation: May 22nd, 2014
Gene Model: March 2nd, 2016
|
| 5 months ago | expb14 | beta expansin14: | | GRMZM2G118873
| Keyu Tao et al. 2023. Overexpression of ZmEXPA5 reduces anthesis-silking interval and increases grain yield under drought and well-watered conditions in maize Mol Breed. :doi: 10.1007/s11032-023-01432-x. | | Reference: November 24th, 2023
Gene Product: April 24th, 2008
Gene Model: January 4th, 2019
|
| 5 months ago | expb15 | beta expansin15: | | GRMZM2G121308
| Keyu Tao et al. 2023. Overexpression of ZmEXPA5 reduces anthesis-silking interval and increases grain yield under drought and well-watered conditions in maize Mol Breed. :doi: 10.1007/s11032-023-01432-x. | | Reference: November 24th, 2023
Gene Product: April 24th, 2008
Gene Model: January 4th, 2019
|
| 5 months ago | expa7 | alpha expansin7: | | GRMZM2G127029
| Keyu Tao et al. 2023. Overexpression of ZmEXPA5 reduces anthesis-silking interval and increases grain yield under drought and well-watered conditions in maize Mol Breed. :doi: 10.1007/s11032-023-01432-x. | | Reference: November 24th, 2023
Gene Product: March 12th, 2008
Gene Model: November 9th, 2020
|
| 5 months ago | cl6407_1a | : | 2.03 | | Shi, X et al. 2019. Sci. Rep. 9:212 | | Reference: November 24th, 2023
Gene Product: November 26th, 2019
|
| 5 months ago | expb10c | beta expansin10c: | 3.04 | GRMZM2G007685
| Keyu Tao et al. 2023. Overexpression of ZmEXPA5 reduces anthesis-silking interval and increases grain yield under drought and well-watered conditions in maize Mol Breed. :doi: 10.1007/s11032-023-01432-x. | | Reference: November 24th, 2023
Gene Product: April 24th, 2008
Variation: April 23rd, 2008
Gene Model: March 2nd, 2016
|
| 5 months ago | lox4 | lipoxygenase4: | 1.09 | GRMZM2G109056
| Yequn Wu et al. 2023. DNA methylation and lipid metabolism are involved in GA-induced maize aleurone layers PCD as revealed by transcriptome analysis. 23:584. | | Reference: November 23rd, 2023
Gene Product: January 3rd, 2018
Variation: February 25th, 2021
Gene Model: June 10th, 2014
|
| 5 months ago | prx39 | peroxidase39: | | GRMZM2G085967
| Yequn Wu et al. 2023. DNA methylation and lipid metabolism are involved in GA-induced maize aleurone layers PCD as revealed by transcriptome analysis. 23:584. | | Reference: November 23rd, 2023
Gene Product: September 18th, 2015
Gene Model: September 22nd, 2018
|
| 5 months ago | sod16 | superoxide dismutase16: | | GRMZM2G173628
| Yequn Wu et al. 2023. DNA methylation and lipid metabolism are involved in GA-induced maize aleurone layers PCD as revealed by transcriptome analysis. 23:584. | | Reference: November 23rd, 2023
Gene Product: October 4th, 2021
Gene Model: October 4th, 2021
|
| 5 months ago | AF546188.1_FG006 | : | | | Hurst, JP et al. 2023. Editing the 19 kDa alpha-zein gene family generates non-opaque2-based quality protein maize. Plant Biotechnol J. :doi: 10.1111/pbi.14237. | | Reference: November 21st, 2023
Gene Product: September 1st, 2003
|
| 5 months ago | ppr264 | pentatricopeptide repeat protein264: | | | Williams, MM, II et al. 2023. First report of severe tolpyralate sensitivity in corn (Zea mays) discovers a novel genetic factor conferring crop response to an herbicide. Pest Manag Sci. | | Reference: November 21st, 2023
Gene Product: December 27th, 2016
|
| 5 months ago | zpl2b | zein polypeptidesL2b: | 7.02 | AF546188.1_FG002
| Hurst, JP et al. 2023. Editing the 19 kDa alpha-zein gene family generates non-opaque2-based quality protein maize. Plant Biotechnol J. :doi: 10.1111/pbi.14237. | | Reference: November 21st, 2023
Gene Product: September 1st, 2003
Variation: January 14th, 2015
Gene Model: January 14th, 2015
|
| 5 months ago | zpl3a | zein polypeptidesL3a: | 4.08 | | Hurst, JP et al. 2023. Editing the 19 kDa alpha-zein gene family generates non-opaque2-based quality protein maize. Plant Biotechnol J. :doi: 10.1111/pbi.14237. | | Reference: November 21st, 2023
Gene Product: September 1st, 2003
Variation: September 1st, 2003
|
| 5 months ago | umc1240 | : | 5.00 | AC220970.4_FG002
| Williams, MM, II et al. 2023. First report of severe tolpyralate sensitivity in corn (Zea mays) discovers a novel genetic factor conferring crop response to an herbicide. Pest Manag Sci. | | Reference: November 21st, 2023
Variation: September 1st, 2003
Gene Model: January 25th, 2020
|
| 5 months ago | umc1253 | : | 5.00 | GRMZM2G084164
| Williams, MM, II et al. 2023. First report of severe tolpyralate sensitivity in corn (Zea mays) discovers a novel genetic factor conferring crop response to an herbicide. Pest Manag Sci. | | Reference: November 21st, 2023
Variation: March 18th, 2021
Gene Model: June 13th, 2018
|
| 5 months ago | umc1491 | : | 5.00 | GRMZM2G019866
| Williams, MM, II et al. 2023. First report of severe tolpyralate sensitivity in corn (Zea mays) discovers a novel genetic factor conferring crop response to an herbicide. Pest Manag Sci. | | Reference: November 21st, 2023
Variation: September 1st, 2003
Gene Model: November 28th, 2017
|
| 5 months ago | hsftf22 | HSF-transcription factor 22: | | | Williams, MM, II et al. 2023. First report of severe tolpyralate sensitivity in corn (Zea mays) discovers a novel genetic factor conferring crop response to an herbicide. Pest Manag Sci. | | Reference: November 21st, 2023
Gene Product: May 15th, 2020
|
| 5 months ago | umc1811 | : | 1.06 | AC187262.4_FG007
| Hurst, JP et al. 2023. Editing the 19 kDa alpha-zein gene family generates non-opaque2-based quality protein maize. Plant Biotechnol J. :doi: 10.1111/pbi.14237. | | Reference: November 21st, 2023
Variation: February 1st, 2017
Gene Model: February 1st, 2017
|
| 5 months ago | umc1976 | : | 1.02 | GRMZM2G162535
| Hurst, JP et al. 2023. Editing the 19 kDa alpha-zein gene family generates non-opaque2-based quality protein maize. Plant Biotechnol J. :doi: 10.1111/pbi.14237. | | Reference: November 21st, 2023
Variation: December 22nd, 2016
Gene Model: December 23rd, 2016
|
| 5 months ago | ben1 | bentazon resistance1: | 5.01 | GRMZM2G090432
| Williams, MM, II et al. 2023. First report of severe tolpyralate sensitivity in corn (Zea mays) discovers a novel genetic factor conferring crop response to an herbicide. Pest Manag Sci. | | Reference: November 21st, 2023
Gene Product: December 30th, 2022
Variation: February 12th, 2010
Gene Model: July 27th, 2016
|
| 5 months ago | znod1 | Zea nodulation homolog1: | 9.02 | GRMZM2G052562
| Hurst, JP et al. 2023. Editing the 19 kDa alpha-zein gene family generates non-opaque2-based quality protein maize. Plant Biotechnol J. :doi: 10.1111/pbi.14237. | | Reference: November 21st, 2023
Variation: September 29th, 2015
Gene Model: September 29th, 2015
|
| 5 months ago | pco066796 | : | 1.06 | GRMZM2G392791
| Hurst, JP et al. 2023. Editing the 19 kDa alpha-zein gene family generates non-opaque2-based quality protein maize. Plant Biotechnol J. :doi: 10.1111/pbi.14237. | | Reference: November 21st, 2023
Variation: September 25th, 2007
Gene Model: February 9th, 2020
|
| 5 months ago | z1A-1 | alpha zein 19kDa A-1: | 4.02 | GRMZM2G026939
| Hurst, JP et al. 2023. Editing the 19 kDa alpha-zein gene family generates non-opaque2-based quality protein maize. Plant Biotechnol J. :doi: 10.1111/pbi.14237. | | Reference: November 21st, 2023
Gene Product: September 1st, 2003
Gene Model: April 28th, 2021
|
| 5 months ago | mstr4 | monosaccharide transporter4: | 9.04 | GRMZM2G034061
| Nan Sun et al. 2023. Genome-wide analysis of sugar transporter genes in maize (Zea mays L.): identification, characterization and their expression profiles during kernel development PeerJ. :doi: 10.7717/peerj.16423. | | Reference: November 21st, 2023
Gene Product: January 2nd, 2023
Variation: July 14th, 2008
Gene Model: September 17th, 2015
|
| 5 months ago | sut5 | sucrose transporter5: | | GRMZM2G081589
| Nan Sun et al. 2023. Genome-wide analysis of sugar transporter genes in maize (Zea mays L.): identification, characterization and their expression profiles during kernel development PeerJ. :doi: 10.7717/peerj.16423. | | Reference: November 21st, 2023
Gene Product: September 14th, 2013
Variation: April 13th, 2017
Gene Model: November 3rd, 2015
|
| 5 months ago | impb14 | importin beta14: | 5.00 | GRMZM2G022258
| Williams, MM, II et al. 2023. First report of severe tolpyralate sensitivity in corn (Zea mays) discovers a novel genetic factor conferring crop response to an herbicide. Pest Manag Sci. | | Reference: November 21st, 2023
Gene Product: November 15th, 2022
Gene Model: March 11th, 2022
|
| 5 months ago | akin3 | AKINbetagamma-1 protein kinase3: | | GRMZM2G014170
| Williams, MM, II et al. 2023. First report of severe tolpyralate sensitivity in corn (Zea mays) discovers a novel genetic factor conferring crop response to an herbicide. Pest Manag Sci. | | Reference: November 21st, 2023
Gene Product: December 4th, 2020
Gene Model: December 4th, 2020
|
| 5 months ago | sro4 | similar to RCD one4: | 5.00 | | Williams, MM, II et al. 2023. First report of severe tolpyralate sensitivity in corn (Zea mays) discovers a novel genetic factor conferring crop response to an herbicide. Pest Manag Sci. | | Reference: November 21st, 2023
Gene Product: September 7th, 2018
Variation: September 25th, 2007
|
| 5 months ago | sig6 | sigma-like factor6: | 5.00 | GRMZM2G144196
| Williams, MM, II et al. 2023. First report of severe tolpyralate sensitivity in corn (Zea mays) discovers a novel genetic factor conferring crop response to an herbicide. Pest Manag Sci. | | Reference: November 21st, 2023
Gene Product: December 24th, 2019
Variation: June 24th, 2015
Gene Model: May 8th, 2015
|
| 5 months ago | z1B1 | alpha zein 19kDa B1: | | AF546188.1_FG001
| Hurst, JP et al. 2023. Editing the 19 kDa alpha-zein gene family generates non-opaque2-based quality protein maize. Plant Biotechnol J. :doi: 10.1111/pbi.14237. | | Reference: November 21st, 2023
Gene Product: September 1st, 2003
Gene Model: September 20th, 2021
|
| 5 months ago | stp24 | sugar transport protein24: | | GRMZM2G159559
| Nan Sun et al. 2023. Genome-wide analysis of sugar transporter genes in maize (Zea mays L.): identification, characterization and their expression profiles during kernel development PeerJ. :doi: 10.7717/peerj.16423. | | Reference: November 21st, 2023
Gene Product: January 2nd, 2023
Gene Model: January 12th, 2022
|
| 5 months ago | andr1 | anthocyanidin reductase1: | | GRMZM2G097854
| Hurst, JP et al. 2023. Editing the 19 kDa alpha-zein gene family generates non-opaque2-based quality protein maize. Plant Biotechnol J. :doi: 10.1111/pbi.14237. | AT1G61720 (TAIR) | Reference: November 21st, 2023
Gene Product: August 14th, 2022
Gene Model: August 14th, 2022
|
| 5 months ago | mctp16 | multiple C2 domain and transmembrane region protein16: | 9.04 | GRMZM2G108149
| Hurst, JP et al. 2023. Editing the 19 kDa alpha-zein gene family generates non-opaque2-based quality protein maize. Plant Biotechnol J. :doi: 10.1111/pbi.14237. | | Reference: November 21st, 2023
Gene Product: August 3rd, 2022
Gene Model: June 20th, 2020
|
| 5 months ago | IDP669 | : | 1.08 | GRMZM2G064605
| Hurst, JP et al. 2023. Editing the 19 kDa alpha-zein gene family generates non-opaque2-based quality protein maize. Plant Biotechnol J. :doi: 10.1111/pbi.14237. | | Reference: November 21st, 2023
Variation: March 31st, 2005
Gene Model: February 14th, 2019
|
| 5 months ago | IDP3872 | : | 2.06 | GRMZM2G140041
| Hurst, JP et al. 2023. Editing the 19 kDa alpha-zein gene family generates non-opaque2-based quality protein maize. Plant Biotechnol J. :doi: 10.1111/pbi.14237. | | Reference: November 21st, 2023
Variation: March 31st, 2005
Gene Model: May 2nd, 2021
|
| 5 months ago | IDP1619 | : | 5.00 | GRMZM2G019695
| Williams, MM, II et al. 2023. First report of severe tolpyralate sensitivity in corn (Zea mays) discovers a novel genetic factor conferring crop response to an herbicide. Pest Manag Sci. | | Reference: November 21st, 2023
Variation: March 31st, 2005
Gene Model: November 28th, 2017
|
| 5 months ago | tst1 | tonoplast sugar transporter1: | 1.05 | GRMZM2G083173
| Nan Sun et al. 2023. Genome-wide analysis of sugar transporter genes in maize (Zea mays L.): identification, characterization and their expression profiles during kernel development PeerJ. :doi: 10.7717/peerj.16423. | | Reference: November 21st, 2023
Gene Product: October 28th, 2021
Gene Model: February 8th, 2020
|
| 5 months ago | npf6 | nitrate transporter/peptide transporter family6: | | GRMZM2G137421
| Mengqiu He et al. 2023. Maize genotypes regulate the feedbacks between maize nitrogen uptake and soil nitrogen transformations Soil Biol Biochem. :doi: 10.1016/j.soilbio.2023.109251. | | Reference: November 20th, 2023
Gene Product: September 1st, 2003
Gene Model: May 21st, 2019
|
| 5 months ago | amt6 | ammonium transporter6: | | GRMZM2G080045
| Mengqiu He et al. 2023. Maize genotypes regulate the feedbacks between maize nitrogen uptake and soil nitrogen transformations Soil Biol Biochem. :doi: 10.1016/j.soilbio.2023.109251. | | Reference: November 20th, 2023
Gene Product: July 8th, 2013
Gene Model: May 21st, 2019
|
| 5 months ago | Zm00001d004248 | : | 2.05 | GRMZM2G083935
| Li, HG et al. 2023. Characterization of Glycosyltransferase Family 1 (GT1) and Their Potential Roles in Anthocyanin Biosynthesis in Maize Genes. 14:2099. | | Reference: November 18th, 2023
Variation: September 25th, 2007
Gene Model: August 13th, 2021
|
| 5 months ago | sk1 | silkless ears1: | 2.03 - 2.04 | GRMZM2G021786
| Li, HG et al. 2023. Characterization of Glycosyltransferase Family 1 (GT1) and Their Potential Roles in Anthocyanin Biosynthesis in Maize Genes. 14:2099. | AT3G22250 (TAIR)
LOC_Os04g44354 (MSU/TIGR) | Reference: November 18th, 2023
Gene Product: September 24th, 2018
Variation: August 21st, 2018
Gene Model: October 31st, 2016
|
| 5 months ago | sm2 | salmon silk2: | 2.07 | GRMZM2G180283
| Li, HG et al. 2023. Characterization of Glycosyltransferase Family 1 (GT1) and Their Potential Roles in Anthocyanin Biosynthesis in Maize Genes. 14:2099. | | Reference: November 18th, 2023
Gene Product: May 26th, 2016
Variation: May 26th, 2016
Gene Model: May 26th, 2016
|
| 5 months ago | czog1 | cis-zeatin O-glucosyltransferase1: | 2.03 | GRMZM2G168474
| Li, HG et al. 2023. Characterization of Glycosyltransferase Family 1 (GT1) and Their Potential Roles in Anthocyanin Biosynthesis in Maize Genes. 14:2099. | | Reference: November 18th, 2023
Gene Product: March 20th, 2014
Variation: October 25th, 2012
Gene Model: March 20th, 2014
|
| 5 months ago | iaglu1 | indol-3-ylacetyl glucosyl transferase1: | 1.09 | GRMZM2G024131
| Li, HG et al. 2023. Characterization of Glycosyltransferase Family 1 (GT1) and Their Potential Roles in Anthocyanin Biosynthesis in Maize Genes. 14:2099. | | Reference: November 18th, 2023
Gene Product: September 1st, 2003
Variation: January 30th, 2015
Gene Model: January 30th, 2015
|
| 5 months ago | bx8 | benzoxazinone synthesis8: | 4.01 | GRMZM2G085054
| Li, HG et al. 2023. Characterization of Glycosyltransferase Family 1 (GT1) and Their Potential Roles in Anthocyanin Biosynthesis in Maize Genes. 14:2099. | | Reference: November 18th, 2023
Gene Product: October 11th, 2021
Variation: October 31st, 2011
Gene Model: October 20th, 2011
|
| 5 months ago | ugt1 | UDP-glucosyl transferase1: | | GRMZM2G162755
| Li, HG et al. 2023. Characterization of Glycosyltransferase Family 1 (GT1) and Their Potential Roles in Anthocyanin Biosynthesis in Maize Genes. 14:2099. | | Reference: November 18th, 2023
Gene Product: September 24th, 2018
Gene Model: May 6th, 2016
|
| 5 months ago | ufgt2 | UDP-flavonol-glycosyltransferase2: | | GRMZM2G117878
| Li, HG et al. 2023. Characterization of Glycosyltransferase Family 1 (GT1) and Their Potential Roles in Anthocyanin Biosynthesis in Maize Genes. 14:2099. | | Reference: November 18th, 2023
Gene Product: July 4th, 2018
Variation: July 4th, 2018
Gene Model: July 4th, 2018
|
| 5 months ago | ugt9250 | uridinediphosphate-dependent glycosyltransferase9250: | | GRMZM2G156127
| Li, HG et al. 2023. Characterization of Glycosyltransferase Family 1 (GT1) and Their Potential Roles in Anthocyanin Biosynthesis in Maize Genes. 14:2099. | | Reference: November 18th, 2023
Gene Product: October 11th, 2021
Gene Model: May 12th, 2020
|
| 5 months ago | cep2 | C-terminally encoded peptide2: | | GRMZM2G156026
| Li, HG et al. 2023. Characterization of Glycosyltransferase Family 1 (GT1) and Their Potential Roles in Anthocyanin Biosynthesis in Maize Genes. 14:2099. | | Reference: November 18th, 2023
Gene Product: October 23rd, 2020
Gene Model: October 23rd, 2020
|
| 5 months ago | ufgt4 | UDP-flavonol-glycosyltransferase4: | | GRMZM2G015709
| Li, HG et al. 2023. Characterization of Glycosyltransferase Family 1 (GT1) and Their Potential Roles in Anthocyanin Biosynthesis in Maize Genes. 14:2099. | | Reference: November 18th, 2023
Gene Product: July 4th, 2018
Gene Model: November 20th, 2020
|
| 5 months ago | ugt5174 | uridinediphosphate-dependent glycosyltransferase5174: | | GRMZM2G463996
| Li, HG et al. 2023. Characterization of Glycosyltransferase Family 1 (GT1) and Their Potential Roles in Anthocyanin Biosynthesis in Maize Genes. 14:2099. | | Reference: November 18th, 2023
Gene Product: October 11th, 2021
Gene Model: October 11th, 2021
|
| 5 months ago | IDP641 | : | 1.07 | GRMZM2G373124
| Li, HG et al. 2023. Characterization of Glycosyltransferase Family 1 (GT1) and Their Potential Roles in Anthocyanin Biosynthesis in Maize Genes. 14:2099. | | Reference: November 18th, 2023
Variation: March 31st, 2005
Gene Model: February 14th, 2019
|
| 5 months ago | czog2 | cis-zeatin O-glucosyltransferase2: | 8.07 | GRMZM2G110511
| Li, HG et al. 2023. Characterization of Glycosyltransferase Family 1 (GT1) and Their Potential Roles in Anthocyanin Biosynthesis in Maize Genes. 14:2099. | | Reference: November 18th, 2023
Gene Product: March 20th, 2014
Variation: March 25th, 2009
Gene Model: March 21st, 2014
|
| 5 months ago | gl8 | glossy8: | 5.05 | | Liu, J et al. 2023. Trade-offs between the accumulation of cuticular wax and jasmonic acid-mediated herbivory resistance in maize. J Integr Plant Biol. :doi: 10.1111/jipb.13586. | | Reference: November 17th, 2023
Gene Product: September 1st, 2003
Variation: November 17th, 2023
|
| 5 months ago | wrky29 | WRKY-transcription factor 29: | | | Fu, JY et al. 2022. ZmEREB92 interacts with ZmMYC2 to activate maize terpenoid phytoalexin biosynthesis upon Fusarium graminearum infection through Jasmonic acid/Ethylene signaling New Phytol. :doi: 10.1111/nph.18590. | | Reference: November 17th, 2023
Gene Product: July 24th, 2017
|
| 5 months ago | elfa7 | elongation factor alpha7: | 8.03 | GRMZM2G110509
| Fu, JY et al. 2023. ZmEREB92 plays a negative role in seed germination by regulating ethylene signaling and starch mobilization in maize PLoS Genetics. 19:e1011052. | | Reference: November 17th, 2023
Gene Product: September 1st, 2003
Variation: September 1st, 2003
Gene Model: July 27th, 2016
|
| 5 months ago | etr2 | ethylene receptor homolog2: | 10.04 | GRMZM2G420801
| Fu, JY et al. 2023. ZmEREB92 plays a negative role in seed germination by regulating ethylene signaling and starch mobilization in maize PLoS Genetics. 19:e1011052. | | Reference: November 17th, 2023
Variation: October 2nd, 2015
Gene Model: October 2nd, 2015
|
| 5 months ago | cyp18 | cytochrome P-450 18: | | GRMZM2G470442
| Katral, A et al. 2023. Multilocus functional characterization of indigenous and exotic inbreds for dgat1-2, fatb, ge2 and wri1a genes affecting kernel oil and fatty acid profile in maize Gene. :doi: 10.1016/j.gene.2023.148001. | LOC_Os03g30420 (MSU/TIGR) | Reference: November 17th, 2023
Gene Product: August 18th, 2015
Variation: March 25th, 2023
Gene Model: August 18th, 2015
|
| 5 months ago | cipk16 | calcineurin B-like-interacting protein kinase16: | | GRMZM2G330049
| Fu, JY et al. 2023. ZmEREB92 plays a negative role in seed germination by regulating ethylene signaling and starch mobilization in maize PLoS Genetics. 19:e1011052. | AT5G10930 (TAIR) | Reference: November 17th, 2023
Gene Product: May 13th, 2014
Gene Model: August 20th, 2018
|
| 5 months ago | snrkII3 | SnRK2 serine threonine protein kinase3: | 1.05 | GRMZM2G180916
| Fu, JY et al. 2023. ZmEREB92 plays a negative role in seed germination by regulating ethylene signaling and starch mobilization in maize PLoS Genetics. 19:e1011052. | | Reference: November 17th, 2023
Gene Product: April 14th, 2018
Gene Model: February 11th, 2015
|
| 5 months ago | vpe4 | vacuolar processing enzyme4: | | | Jihong Zhang et al. 2023. Dynamic transcriptome landscape of maize pericarp development. Plant J. :doi: 10.1111/tpj.16548. | | Reference: November 16th, 2023
Gene Product: September 29th, 2022
|
| 5 months ago | GRMZM2G048775 | : | | | Jihong Zhang et al. 2023. Dynamic transcriptome landscape of maize pericarp development. Plant J. :doi: 10.1111/tpj.16548. | | Reference: November 16th, 2023
Gene Product: September 18th, 2015
|
| 5 months ago | GRMZM2G361475 | : | | | Jihong Zhang et al. 2023. Dynamic transcriptome landscape of maize pericarp development. Plant J. :doi: 10.1111/tpj.16548. | | Reference: November 16th, 2023
Gene Product: September 18th, 2015
|
| 5 months ago | GRMZM2G150134 | : | | | Jihong Zhang et al. 2023. Dynamic transcriptome landscape of maize pericarp development. Plant J. :doi: 10.1111/tpj.16548. | | Reference: November 16th, 2023
Gene Product: September 18th, 2015
|
| 5 months ago | LOC103626998 | : | | | Jihong Zhang et al. 2023. Dynamic transcriptome landscape of maize pericarp development. Plant J. :doi: 10.1111/tpj.16548. | AT1G17110 (TAIR) | Reference: November 16th, 2023
Gene Product: November 16th, 2023
|
| 5 months ago | arftf9 | ARF-transcription factor 9: | 3.04 | | Jihong Zhang et al. 2023. Dynamic transcriptome landscape of maize pericarp development. Plant J. :doi: 10.1111/tpj.16548. | | Reference: November 16th, 2023
Gene Product: January 29th, 2022
Variation: September 25th, 2007
|
| 5 months ago | myb28 | MYB-transcription factor 28: | 4.05 | | Jihong Zhang et al. 2023. Dynamic transcriptome landscape of maize pericarp development. Plant J. :doi: 10.1111/tpj.16548. | | Reference: November 16th, 2023
Variation: September 25th, 2007
|
| 5 months ago | psei2 | cystatin2: | 8.08 | | Jihong Zhang et al. 2023. Dynamic transcriptome landscape of maize pericarp development. Plant J. :doi: 10.1111/tpj.16548. | | Reference: November 16th, 2023
Gene Product: April 21st, 2008
Variation: January 15th, 2015
|
| 5 months ago | myb83 | MYB-transcription factor 83: | 1.07 | | Jihong Zhang et al. 2023. Dynamic transcriptome landscape of maize pericarp development. Plant J. :doi: 10.1111/tpj.16548. | | Reference: November 16th, 2023
Variation: November 4th, 2016
|
| 5 months ago | see2b | senescence enhanced2b: | | GRMZM2G093032
| Jihong Zhang et al. 2023. Dynamic transcriptome landscape of maize pericarp development. Plant J. :doi: 10.1111/tpj.16548. | | Reference: November 16th, 2023
Variation: August 1st, 2011
Gene Model: November 20th, 2014
|
| 5 months ago | abi27 | ABI3-VP1-transcription factor 27: | | | Jihong Zhang et al. 2023. Dynamic transcriptome landscape of maize pericarp development. Plant J. :doi: 10.1111/tpj.16548. | | Reference: November 16th, 2023
Gene Product: January 29th, 2022
|
| 5 months ago | arftf10 | ARF-transcription factor 10: | | | Jihong Zhang et al. 2023. Dynamic transcriptome landscape of maize pericarp development. Plant J. :doi: 10.1111/tpj.16548. | | Reference: November 16th, 2023
Gene Product: January 29th, 2022
|
| 5 months ago | bzip22 | bZIP-transcription factor 22: | | | Jihong Zhang et al. 2023. Dynamic transcriptome landscape of maize pericarp development. Plant J. :doi: 10.1111/tpj.16548. | AT1G43700 (TAIR) | Reference: November 16th, 2023
Gene Product: August 21st, 2018
Variation: September 24th, 2018
|
| 5 months ago | bzip4 | bZIP-transcription factor 4: | | | Zhang, C et al. 2023. Comparative Transcriptome Analysis Reveals the Underlying Response Mechanism to Salt Stress in Maize Seedling Roots Metabolites. 13:1155. | | Reference: November 16th, 2023
Gene Product: August 21st, 2018
Variation: August 21st, 2018
|
| 5 months ago | elfa6 | elongation factor alpha6: | 7.04 | GRMZM2G057535
| Jihong Zhang et al. 2023. Dynamic transcriptome landscape of maize pericarp development. Plant J. :doi: 10.1111/tpj.16548. | | Reference: November 16th, 2023
Gene Product: September 1st, 2003
Variation: September 1st, 2003
Gene Model: February 20th, 2021
|
| 5 months ago | bb1 | big brother1: | 9.07 | GRMZM2G141084
| Jihong Zhang et al. 2023. Dynamic transcriptome landscape of maize pericarp development. Plant J. :doi: 10.1111/tpj.16548. | AT3G63530 (TAIR) | Reference: November 16th, 2023
Gene Product: March 26th, 2020
Gene Model: October 14th, 2018
|
| 5 months ago | rtl2 | reversion-to-ethylene sensitivity1 like2: | 3.08 | GRMZM2G077293
| Jihong Zhang et al. 2023. Dynamic transcriptome landscape of maize pericarp development. Plant J. :doi: 10.1111/tpj.16548. | | Reference: November 16th, 2023
Variation: June 10th, 2016
Gene Model: June 10th, 2016
|
| 5 months ago | gte102 | global transcription factor group E: | 5.05 | GRMZM2G006707
| Jihong Zhang et al. 2023. Dynamic transcriptome landscape of maize pericarp development. Plant J. :doi: 10.1111/tpj.16548. | | Reference: November 16th, 2023
Variation: September 1st, 2003
Gene Model: May 20th, 2020
|
| 5 months ago | snrkII6 | SnRK2 serine threonine protein kinase6: | 4.05 | GRMZM2G130018
| Zhang, C et al. 2023. Comparative Transcriptome Analysis Reveals the Underlying Response Mechanism to Salt Stress in Maize Seedling Roots Metabolites. 13:1155. | | Reference: November 16th, 2023
Gene Product: April 14th, 2018
Variation: November 12th, 2014
Gene Model: November 12th, 2014
|
| 5 months ago | atl1 | auxin transporter-like1: | | GRMZM2G128918
| Zhang, PY et al. 2023. Molecular mechanism analysis of ZmRL6 positively regulating drought stress tolerance in maize Stress Biol. :doi: 10.1007/s44154-023-00125-x. | AT2G38120 (TAIR)
LOC_Os01g63770 (MSU/TIGR) | Reference: November 16th, 2023
Gene Product: April 19th, 2017
Variation: April 19th, 2017
Gene Model: March 12th, 2015
|
| 5 months ago | cyp17 | cytochrome P-450 17: | | GRMZM2G138008
| Jihong Zhang et al. 2023. Dynamic transcriptome landscape of maize pericarp development. Plant J. :doi: 10.1111/tpj.16548. | LOC_Os07g41240 (MSU/TIGR)
Os07g0603700 (Gramene) | Reference: November 16th, 2023
Gene Product: August 18th, 2015
Gene Model: August 18th, 2015
|
| 5 months ago | pmei21 | pectin methylesterase inhibitor21: | | GRMZM2G458200
| Jihong Zhang et al. 2023. Dynamic transcriptome landscape of maize pericarp development. Plant J. :doi: 10.1111/tpj.16548. | | Reference: November 16th, 2023
Gene Product: January 8th, 2019
Gene Model: December 28th, 2019
|
| 5 months ago | pgl14 | polygalacturonase14: | | GRMZM5G814803
| Jihong Zhang et al. 2023. Dynamic transcriptome landscape of maize pericarp development. Plant J. :doi: 10.1111/tpj.16548. | | Reference: November 16th, 2023
Gene Product: October 4th, 2021
Gene Model: October 4th, 2021
|
| 5 months ago | pgl53 | polygalacturonase53: | | GRMZM2G435380
| Jihong Zhang et al. 2023. Dynamic transcriptome landscape of maize pericarp development. Plant J. :doi: 10.1111/tpj.16548. | | Reference: November 16th, 2023
Gene Product: October 4th, 2021
Gene Model: October 4th, 2021
|
| 5 months ago | ccp34 | cysteine protease34: | | GRMZM2G099765
| Jihong Zhang et al. 2023. Dynamic transcriptome landscape of maize pericarp development. Plant J. :doi: 10.1111/tpj.16548. | | Reference: November 16th, 2023
Gene Product: October 11th, 2021
Gene Model: October 11th, 2021
|
| 5 months ago | prh41 | protein phosphatase homolog41: | | GRMZM2G103247
| Jihong Zhang et al. 2023. Dynamic transcriptome landscape of maize pericarp development. Plant J. :doi: 10.1111/tpj.16548. | | Reference: November 16th, 2023
Gene Product: October 25th, 2021
Gene Model: November 24th, 2021
|
| 5 months ago | wrky142 | WRKY-transcription factor 142: | | | Jihong Zhang et al. 2023. Dynamic transcriptome landscape of maize pericarp development. Plant J. :doi: 10.1111/tpj.16548. | | Reference: November 16th, 2023
Gene Product: July 24th, 2017
|
| 5 months ago | asg75 | : | 1.04 | GRMZM5G882821
| Jihong Zhang et al. 2023. Dynamic transcriptome landscape of maize pericarp development. Plant J. :doi: 10.1111/tpj.16548. | | Reference: November 16th, 2023
Variation: September 19th, 2009
Gene Model: June 30th, 2017
|
| 5 months ago | ms44 | male sterile44: | 4.08 | AC225127.3_FG003
| Xing, JP et al. 2023. Mining genic resources regulating nitrogen-use efficiency based on integrative biological analyses and their breeding applications in maize and other crops. Plant J. :doi: 10.1111/tpj.16550. | | Reference: November 15th, 2023
Gene Product: September 1st, 2003
Variation: January 6th, 2017
Gene Model: January 6th, 2017
|
| 5 months ago | ts5 | tassel seed5: | 4.03 - 4.05 | GRMZM2G177668
| Cristina Guerrero-Méndez et al. 2023. Factors specifying sex determination in maize. Plant Reproduction. :doi: 10.1007/s00497-023-00485-4. | | Reference: November 15th, 2023
Gene Product: December 30th, 2022
Variation: March 25th, 2019
Gene Model: March 25th, 2019
|
| 5 months ago | pbf1 | prolamin-box binding factor1: | 2.06 | | Xing, JP et al. 2023. Mining genic resources regulating nitrogen-use efficiency based on integrative biological analyses and their breeding applications in maize and other crops. Plant J. :doi: 10.1111/tpj.16550. | | Reference: November 15th, 2023
Gene Product: September 1st, 2003
Variation: April 20th, 2005
|
| 5 months ago | bnlg2057 | : | 1.06 | GRMZM2G017629
| Xing, JP et al. 2023. Mining genic resources regulating nitrogen-use efficiency based on integrative biological analyses and their breeding applications in maize and other crops. Plant J. :doi: 10.1111/tpj.16550. | | Reference: November 15th, 2023
Variation: March 17th, 2021
Gene Model: August 25th, 2017
|
| 5 months ago | gbss1 | granule-bound starch synthase1: | | GRMZM2G008263
| Xing, JP et al. 2023. Mining genic resources regulating nitrogen-use efficiency based on integrative biological analyses and their breeding applications in maize and other crops. Plant J. :doi: 10.1111/tpj.16550. | | Reference: November 15th, 2023
Gene Product: June 4th, 2008
Variation: August 4th, 2011
Gene Model: November 20th, 2014
|
| 5 months ago | mads26 | MADS-transcription factor 26: | | | Xing, JP et al. 2023. Mining genic resources regulating nitrogen-use efficiency based on integrative biological analyses and their breeding applications in maize and other crops. Plant J. :doi: 10.1111/tpj.16550. | | Reference: November 15th, 2023
Variation: March 7th, 2022
|
| 5 months ago | nlp4 | NLP-transcription factor 4: | | | Xing, JP et al. 2023. Mining genic resources regulating nitrogen-use efficiency based on integrative biological analyses and their breeding applications in maize and other crops. Plant J. :doi: 10.1111/tpj.16550. | | Reference: November 15th, 2023
Gene Product: December 3rd, 2019
|
| 5 months ago | nlp6 | NLP-transcription factor 6: | | | Xing, JP et al. 2023. Mining genic resources regulating nitrogen-use efficiency based on integrative biological analyses and their breeding applications in maize and other crops. Plant J. :doi: 10.1111/tpj.16550. | | Reference: November 15th, 2023
Gene Product: December 3rd, 2019
|
| 5 months ago | nlp8 | NLP-transcription factor 8: | | | Xing, JP et al. 2023. Mining genic resources regulating nitrogen-use efficiency based on integrative biological analyses and their breeding applications in maize and other crops. Plant J. :doi: 10.1111/tpj.16550. | | Reference: November 15th, 2023
Gene Product: December 3rd, 2019
|
| 5 months ago | tcptf10 | TCP-transcription factor 10: | | | Xing, JP et al. 2023. Mining genic resources regulating nitrogen-use efficiency based on integrative biological analyses and their breeding applications in maize and other crops. Plant J. :doi: 10.1111/tpj.16550. | | Reference: November 15th, 2023
Gene Product: September 27th, 2019
|
| 5 months ago | tcptf26 | TCP-transcription factor 26: | | | Xing, JP et al. 2023. Mining genic resources regulating nitrogen-use efficiency based on integrative biological analyses and their breeding applications in maize and other crops. Plant J. :doi: 10.1111/tpj.16550. | | Reference: November 15th, 2023
Gene Product: September 27th, 2019
|
| 5 months ago | tcptf9 | TCP-transcription factor 9: | | | Xing, JP et al. 2023. Mining genic resources regulating nitrogen-use efficiency based on integrative biological analyses and their breeding applications in maize and other crops. Plant J. :doi: 10.1111/tpj.16550. | | Reference: November 15th, 2023
Gene Product: September 27th, 2019
|
| 5 months ago | dof1 | DNA-binding with one finger1: | 1.06 | | Xing, JP et al. 2023. Mining genic resources regulating nitrogen-use efficiency based on integrative biological analyses and their breeding applications in maize and other crops. Plant J. :doi: 10.1111/tpj.16550. | | Reference: November 15th, 2023
Gene Product: September 1st, 2003
Variation: September 1st, 2003
|
| 5 months ago | ts3 | tassel seed3: | 1.09 | | Cristina Guerrero-Méndez et al. 2023. Factors specifying sex determination in maize. Plant Reproduction. :doi: 10.1007/s00497-023-00485-4. | | Reference: November 15th, 2023
Variation: September 1st, 2003
|
| 5 months ago | amt3 | ammonium transporter3: | | GRMZM2G118950
| Xing, JP et al. 2023. Mining genic resources regulating nitrogen-use efficiency based on integrative biological analyses and their breeding applications in maize and other crops. Plant J. :doi: 10.1111/tpj.16550. | | Reference: November 15th, 2023
Gene Product: July 8th, 2013
Gene Model: July 8th, 2013
|
| 5 months ago | nrt4 | nitrate transport4: | | GRMZM2G163494
| Xing, JP et al. 2023. Mining genic resources regulating nitrogen-use efficiency based on integrative biological analyses and their breeding applications in maize and other crops. Plant J. :doi: 10.1111/tpj.16550. | | Reference: November 15th, 2023
Gene Product: September 1st, 2003
Gene Model: September 10th, 2014
|
| 5 months ago | rhcp1 | ring hc protein1: | | GRMZM2G024690
| Xing, JP et al. 2023. Mining genic resources regulating nitrogen-use efficiency based on integrative biological analyses and their breeding applications in maize and other crops. Plant J. :doi: 10.1111/tpj.16550. | | Reference: November 15th, 2023
Gene Product: November 14th, 2022
Variation: April 3rd, 2017
Gene Model: April 3rd, 2017
|
| 5 months ago | amt7 | ammonium transporter7: | | GRMZM2G335218
| Xing, JP et al. 2023. Mining genic resources regulating nitrogen-use efficiency based on integrative biological analyses and their breeding applications in maize and other crops. Plant J. :doi: 10.1111/tpj.16550. | | Reference: November 15th, 2023
Gene Product: July 8th, 2013
Gene Model: May 21st, 2019
|
| 5 months ago | xyl4 | xylanase4: | | GRMZM2G004856
| Xing, JP et al. 2023. Mining genic resources regulating nitrogen-use efficiency based on integrative biological analyses and their breeding applications in maize and other crops. Plant J. :doi: 10.1111/tpj.16550. | | Reference: November 15th, 2023
Gene Product: March 4th, 2020
Gene Model: March 4th, 2020
|
| 5 months ago | tcptf45 | TCP-transcription factor 45: | | | Xing, JP et al. 2023. Mining genic resources regulating nitrogen-use efficiency based on integrative biological analyses and their breeding applications in maize and other crops. Plant J. :doi: 10.1111/tpj.16550. | | Reference: November 15th, 2023
Gene Product: September 27th, 2019
|
| 5 months ago | npf1 | nitrate transporter/peptide transporter family1: | 10.03 | GRMZM2G086496
| Xing, JP et al. 2023. Mining genic resources regulating nitrogen-use efficiency based on integrative biological analyses and their breeding applications in maize and other crops. Plant J. :doi: 10.1111/tpj.16550. | AT1G12110 (TAIR) | Reference: November 15th, 2023
Gene Product: September 1st, 2003
Variation: September 11th, 2017
Gene Model: September 11th, 2017
|
| 5 months ago | GRMZM2G068699 | : | | | Wang, Y et al. 2015. Systematic analysis of maize class III peroxidase gene family reveals a conserved subfamily involved in abiotic stress response. Gene. 566:95-108. | | Reference: November 14th, 2023
Gene Product: September 18th, 2015
|
| 5 months ago | GRMZM2G116846 | : | | | Wang, Y et al. 2015. Systematic analysis of maize class III peroxidase gene family reveals a conserved subfamily involved in abiotic stress response. Gene. 566:95-108. | | Reference: November 14th, 2023
Gene Product: September 18th, 2015
|
| 5 months ago | GRMZM2G116902 | : | | | Wang, Y et al. 2015. Systematic analysis of maize class III peroxidase gene family reveals a conserved subfamily involved in abiotic stress response. Gene. 566:95-108. | | Reference: November 14th, 2023
Gene Product: September 18th, 2015
|
| 5 months ago | GRMZM2G136534 | : | | | Wang, Y et al. 2015. Systematic analysis of maize class III peroxidase gene family reveals a conserved subfamily involved in abiotic stress response. Gene. 566:95-108. | | Reference: November 14th, 2023
Gene Product: September 18th, 2015
|
| 5 months ago | GRMZM2G341934 | : | | | Wang, Y et al. 2015. Systematic analysis of maize class III peroxidase gene family reveals a conserved subfamily involved in abiotic stress response. Gene. 566:95-108. | | Reference: November 14th, 2023
Gene Product: September 18th, 2015
|
| 5 months ago | AC211164.5_FGT004 | : | | | Wang, Y et al. 2015. Systematic analysis of maize class III peroxidase gene family reveals a conserved subfamily involved in abiotic stress response. Gene. 566:95-108. | | Reference: November 14th, 2023
Gene Product: September 18th, 2015
|
| 5 months ago | GRMZM2G029144 | : | | | Wang, Y et al. 2015. Systematic analysis of maize class III peroxidase gene family reveals a conserved subfamily involved in abiotic stress response. Gene. 566:95-108. | | Reference: November 14th, 2023
Gene Product: September 18th, 2015
|
| 5 months ago | GRMZM2G067096 | : | | | Wang, Y et al. 2015. Systematic analysis of maize class III peroxidase gene family reveals a conserved subfamily involved in abiotic stress response. Gene. 566:95-108. | | Reference: November 14th, 2023
Gene Product: September 18th, 2015
|
| 5 months ago | GRMZM2G443885 | : | | | Wang, Y et al. 2015. Systematic analysis of maize class III peroxidase gene family reveals a conserved subfamily involved in abiotic stress response. Gene. 566:95-108. | | Reference: November 14th, 2023
Gene Product: September 18th, 2015
|
| 5 months ago | AC230013.2_FGT002 | : | | | Wang, Y et al. 2015. Systematic analysis of maize class III peroxidase gene family reveals a conserved subfamily involved in abiotic stress response. Gene. 566:95-108. | | Reference: November 14th, 2023
Gene Product: September 18th, 2015
|
| 5 months ago | GRMZM2G000107 | : | | | Wang, Y et al. 2015. Systematic analysis of maize class III peroxidase gene family reveals a conserved subfamily involved in abiotic stress response. Gene. 566:95-108. | | Reference: November 14th, 2023
Gene Product: September 18th, 2015
|
| 5 months ago | GRMZM2G029479 | : | | | Wang, Y et al. 2015. Systematic analysis of maize class III peroxidase gene family reveals a conserved subfamily involved in abiotic stress response. Gene. 566:95-108. | | Reference: November 14th, 2023
Gene Product: September 18th, 2015
|
| 5 months ago | GRMZM2G101221 | : | | | Wang, Y et al. 2015. Systematic analysis of maize class III peroxidase gene family reveals a conserved subfamily involved in abiotic stress response. Gene. 566:95-108. | | Reference: November 14th, 2023
Gene Product: September 18th, 2015
|
| 5 months ago | AC205154.3_FGT005 | : | | | Wang, Y et al. 2015. Systematic analysis of maize class III peroxidase gene family reveals a conserved subfamily involved in abiotic stress response. Gene. 566:95-108. | | Reference: November 14th, 2023
Gene Product: September 18th, 2015
|
| 5 months ago | GRMZM2G061230 | : | | | Wang, Y et al. 2015. Systematic analysis of maize class III peroxidase gene family reveals a conserved subfamily involved in abiotic stress response. Gene. 566:95-108. | | Reference: November 14th, 2023
Gene Product: September 18th, 2015
|
| 5 months ago | GRMZM2G419953 | : | | | Wang, Y et al. 2015. Systematic analysis of maize class III peroxidase gene family reveals a conserved subfamily involved in abiotic stress response. Gene. 566:95-108. | | Reference: November 14th, 2023
Gene Product: September 18th, 2015
|
| 5 months ago | GRMZM2G028219 | : | | | Wang, Y et al. 2015. Systematic analysis of maize class III peroxidase gene family reveals a conserved subfamily involved in abiotic stress response. Gene. 566:95-108. | | Reference: November 14th, 2023
Gene Product: September 18th, 2015
|
| 5 months ago | GRMZM2G035506 | : | | | Wang, Y et al. 2015. Systematic analysis of maize class III peroxidase gene family reveals a conserved subfamily involved in abiotic stress response. Gene. 566:95-108. | | Reference: November 14th, 2023
Gene Product: September 18th, 2015
|
| 5 months ago | GRMZM2G061776 | : | | | Wang, Y et al. 2015. Systematic analysis of maize class III peroxidase gene family reveals a conserved subfamily involved in abiotic stress response. Gene. 566:95-108. | | Reference: November 14th, 2023
Gene Product: September 18th, 2015
|
| 5 months ago | GRMZM2G142011 | : | | | Wang, Y et al. 2015. Systematic analysis of maize class III peroxidase gene family reveals a conserved subfamily involved in abiotic stress response. Gene. 566:95-108. | | Reference: November 14th, 2023
Gene Product: September 18th, 2015
|
| 5 months ago | GRMZM2G176085 | : | | | Wang, Y et al. 2015. Systematic analysis of maize class III peroxidase gene family reveals a conserved subfamily involved in abiotic stress response. Gene. 566:95-108. | | Reference: November 14th, 2023
Gene Product: September 18th, 2015
|
| 5 months ago | GRMZM2G081928 | : | | | Wang, Y et al. 2015. Systematic analysis of maize class III peroxidase gene family reveals a conserved subfamily involved in abiotic stress response. Gene. 566:95-108. | | Reference: November 14th, 2023
Gene Product: September 18th, 2015
|
| 5 months ago | GRMZM2G042347 | : | | | Wang, Y et al. 2015. Systematic analysis of maize class III peroxidase gene family reveals a conserved subfamily involved in abiotic stress response. Gene. 566:95-108. | | Reference: November 14th, 2023
Gene Product: September 18th, 2015
|
| 5 months ago | GRMZM2G129935 | : | | | Wang, Y et al. 2015. Systematic analysis of maize class III peroxidase gene family reveals a conserved subfamily involved in abiotic stress response. Gene. 566:95-108. | | Reference: November 14th, 2023
Gene Product: September 18th, 2015
|
| 5 months ago | GRMZM2G138450 | : | | | Wang, Y et al. 2015. Systematic analysis of maize class III peroxidase gene family reveals a conserved subfamily involved in abiotic stress response. Gene. 566:95-108. | | Reference: November 14th, 2023
Gene Product: September 18th, 2015
|
| 5 months ago | GRMZM2G150780 | : | | | Wang, Y et al. 2015. Systematic analysis of maize class III peroxidase gene family reveals a conserved subfamily involved in abiotic stress response. Gene. 566:95-108. | | Reference: November 14th, 2023
Gene Product: September 18th, 2015
|
| 5 months ago | GRMZM2G323182 | : | | | Wang, Y et al. 2015. Systematic analysis of maize class III peroxidase gene family reveals a conserved subfamily involved in abiotic stress response. Gene. 566:95-108. | | Reference: November 14th, 2023
Gene Product: September 18th, 2015
|
| 5 months ago | GRMZM2G404676 | : | | | Wang, Y et al. 2015. Systematic analysis of maize class III peroxidase gene family reveals a conserved subfamily involved in abiotic stress response. Gene. 566:95-108. | | Reference: November 14th, 2023
Gene Product: September 18th, 2015
|
| 5 months ago | AC208341.4_FGT007 | : | | | Wang, Y et al. 2015. Systematic analysis of maize class III peroxidase gene family reveals a conserved subfamily involved in abiotic stress response. Gene. 566:95-108. | | Reference: November 14th, 2023
Gene Product: September 18th, 2015
|
| 5 months ago | GRMZM2G037156 | : | | | Wang, Y et al. 2015. Systematic analysis of maize class III peroxidase gene family reveals a conserved subfamily involved in abiotic stress response. Gene. 566:95-108. | | Reference: November 14th, 2023
Gene Product: September 18th, 2015
|
| 5 months ago | GRMZM2G136158 | : | | | Wang, Y et al. 2015. Systematic analysis of maize class III peroxidase gene family reveals a conserved subfamily involved in abiotic stress response. Gene. 566:95-108. | | Reference: November 14th, 2023
Gene Product: September 18th, 2015
|
| 5 months ago | GRMZM2G365774 | : | | | Wang, Y et al. 2015. Systematic analysis of maize class III peroxidase gene family reveals a conserved subfamily involved in abiotic stress response. Gene. 566:95-108. | | Reference: November 14th, 2023
Gene Product: September 18th, 2015
|
| 5 months ago | GRMZM2G382379 | : | | | Wang, Y et al. 2015. Systematic analysis of maize class III peroxidase gene family reveals a conserved subfamily involved in abiotic stress response. Gene. 566:95-108. | | Reference: November 14th, 2023
Gene Product: September 18th, 2015
|
| 5 months ago | GRMZM2G015280 | : | | | Wang, Y et al. 2015. Systematic analysis of maize class III peroxidase gene family reveals a conserved subfamily involved in abiotic stress response. Gene. 566:95-108. | | Reference: November 14th, 2023
Gene Product: September 18th, 2015
|
| 5 months ago | GRMZM2G097934 | : | | | Wang, Y et al. 2015. Systematic analysis of maize class III peroxidase gene family reveals a conserved subfamily involved in abiotic stress response. Gene. 566:95-108. | | Reference: November 14th, 2023
Gene Product: September 18th, 2015
|
| 5 months ago | GRMZM2G116452 | : | | | Wang, Y et al. 2015. Systematic analysis of maize class III peroxidase gene family reveals a conserved subfamily involved in abiotic stress response. Gene. 566:95-108. | | Reference: November 14th, 2023
Gene Product: September 18th, 2015
|
| 5 months ago | GRMZM2G438129 | : | | | Wang, Y et al. 2015. Systematic analysis of maize class III peroxidase gene family reveals a conserved subfamily involved in abiotic stress response. Gene. 566:95-108. | | Reference: November 14th, 2023
Gene Product: September 18th, 2015
|
| 5 months ago | GRMZM2G006727 | : | | | Wang, Y et al. 2015. Systematic analysis of maize class III peroxidase gene family reveals a conserved subfamily involved in abiotic stress response. Gene. 566:95-108. | | Reference: November 14th, 2023
Gene Product: September 18th, 2015
|
| 5 months ago | GRMZM2G050829 | : | | | Wang, Y et al. 2015. Systematic analysis of maize class III peroxidase gene family reveals a conserved subfamily involved in abiotic stress response. Gene. 566:95-108. | | Reference: November 14th, 2023
Gene Product: September 18th, 2015
|
| 5 months ago | GRMZM2G136525 | : | | | Wang, Y et al. 2015. Systematic analysis of maize class III peroxidase gene family reveals a conserved subfamily involved in abiotic stress response. Gene. 566:95-108. | | Reference: November 14th, 2023
Gene Product: September 18th, 2015
|
| 5 months ago | GRMZM2G160062 | : | | | Wang, Y et al. 2015. Systematic analysis of maize class III peroxidase gene family reveals a conserved subfamily involved in abiotic stress response. Gene. 566:95-108. | | Reference: November 14th, 2023
Gene Product: September 18th, 2015
|
| 5 months ago | GRMZM2G407740 | : | | | Wang, Y et al. 2015. Systematic analysis of maize class III peroxidase gene family reveals a conserved subfamily involved in abiotic stress response. Gene. 566:95-108. | | Reference: November 14th, 2023
Gene Product: September 18th, 2015
|
| 5 months ago | GRMZM2G448051 | : | | | Wang, Y et al. 2015. Systematic analysis of maize class III peroxidase gene family reveals a conserved subfamily involved in abiotic stress response. Gene. 566:95-108. | | Reference: November 14th, 2023
Gene Product: September 18th, 2015
|
| 5 months ago | px13 | peroxidase 13: | 5.03 | GRMZM2G134947
| Wang, Y et al. 2015. Systematic analysis of maize class III peroxidase gene family reveals a conserved subfamily involved in abiotic stress response. Gene. 566:95-108. | | Reference: November 14th, 2023
Gene Product: September 18th, 2015
Variation: September 1st, 2003
Gene Model: February 23rd, 2015
|
| 5 months ago | umc1243 | : | 1.05 - 1.05 | GRMZM2G085198
| Wang, Y et al. 2015. Systematic analysis of maize class III peroxidase gene family reveals a conserved subfamily involved in abiotic stress response. Gene. 566:95-108. | | Reference: November 14th, 2023
Variation: September 30th, 2016
Gene Model: October 1st, 2016
|
| 5 months ago | prx112 | peroxidase112: | | GRMZM2G033985
| Wang, Y et al. 2015. Systematic analysis of maize class III peroxidase gene family reveals a conserved subfamily involved in abiotic stress response. Gene. 566:95-108. | | Reference: November 14th, 2023
Gene Product: September 18th, 2015
Gene Model: September 22nd, 2018
|
| 5 months ago | prx59 | peroxidase59: | | GRMZM2G130904
| Wang, Y et al. 2015. Systematic analysis of maize class III peroxidase gene family reveals a conserved subfamily involved in abiotic stress response. Gene. 566:95-108. | | Reference: November 14th, 2023
Gene Product: September 18th, 2015
Gene Model: January 5th, 2022
|
| 5 months ago | prx65 | peroxidase65: | | GRMZM2G442008
| Wang, Y et al. 2015. Systematic analysis of maize class III peroxidase gene family reveals a conserved subfamily involved in abiotic stress response. Gene. 566:95-108. | | Reference: November 14th, 2023
Gene Product: September 18th, 2015
Variation: April 8th, 2022
Gene Model: April 8th, 2022
|
| 5 months ago | prx60 | peroxidase60: | 9.07 | GRMZM2G063435
| Wang, Y et al. 2015. Systematic analysis of maize class III peroxidase gene family reveals a conserved subfamily involved in abiotic stress response. Gene. 566:95-108. | | Reference: November 14th, 2023
Gene Product: September 18th, 2015
Gene Model: July 5th, 2022
|
| 5 months ago | apx5 | Cytosolic ascorbate peroxidase5: | 6.07 | GRMZM2G093346
| Wang, Y et al. 2015. Systematic analysis of maize class III peroxidase gene family reveals a conserved subfamily involved in abiotic stress response. Gene. 566:95-108. | | Reference: November 14th, 2023
Gene Product: September 1st, 2003
Variation: August 10th, 2012
Gene Model: August 29th, 2018
|
| 5 months ago | amt8 | ammonium transporter8: | 1.11 | GRMZM2G338809
| Torres-Morales, B et al. 2023. Genetic diversity characterization of maize populations using molecular markers Ital J Agron. 18:2206. | | Reference: November 13th, 2023
Gene Product: July 8th, 2013
Gene Model: May 21st, 2019
|
| 5 months ago | phi121 | : | 8.03 | GRMZM2G136567
| Torres-Morales, B et al. 2023. Genetic diversity characterization of maize populations using molecular markers Ital J Agron. 18:2206. | | Reference: November 13th, 2023
Variation: September 1st, 2003
Gene Model: September 18th, 2018
|
| 5 months ago | mtl1 | metallothionein1: | 4.00 | GRMZM2G164229
| Torres-Morales, B et al. 2023. Genetic diversity characterization of maize populations using molecular markers Ital J Agron. 18:2206. | | Reference: November 13th, 2023
Gene Product: September 1st, 2003
Variation: September 1st, 2003
Gene Model: April 9th, 2015
|
| 5 months ago | tub1 | beta tubulin1: | 1.01 | GRMZM2G164696
| Torres-Morales, B et al. 2023. Genetic diversity characterization of maize populations using molecular markers Ital J Agron. 18:2206. | | Reference: November 13th, 2023
Gene Product: September 1st, 2003
Variation: September 1st, 2003
Gene Model: October 25th, 2013
|
| 5 months ago | arftf35 | ARF-transcription factor 35: | | | Li, PC et al. 2023. Dynamics and genetic regulation of macronutrient concentrations during grain development in maize J Integr Agric. :doi: 10.1016/j.jia.2023.11.003. | | Reference: November 13th, 2023
Gene Product: January 29th, 2022
|
| 5 months ago | umc155 | : | 10.03 | GRMZM2G101926
| Torres-Morales, B et al. 2023. Genetic diversity characterization of maize populations using molecular markers Ital J Agron. 18:2206. | | Reference: November 13th, 2023
Variation: September 1st, 2003
Gene Model: December 14th, 2017
|
| 5 months ago | gst3 | glutathione transferase3: | 3.05 | GRMZM2G146246
| Torres-Morales, B et al. 2023. Genetic diversity characterization of maize populations using molecular markers Ital J Agron. 18:2206. | | Reference: November 13th, 2023
Gene Product: September 1st, 2003
Variation: August 17th, 2010
Gene Model: February 15th, 2021
|
| 5 months ago | cyp6 | cytochrome P450: | 7.02 | | Torres-Morales, B et al. 2023. Genetic diversity characterization of maize populations using molecular markers Ital J Agron. 18:2206. | | Reference: November 13th, 2023
Gene Product: September 1st, 2003
Variation: September 1st, 2003
|
| 5 months ago | vq3 | VQ motif-transcription factor3: | | GRMZM2G318652
| Torres-Morales, B et al. 2023. Genetic diversity characterization of maize populations using molecular markers Ital J Agron. 18:2206. | | Reference: November 13th, 2023
Gene Product: August 31st, 2019
Gene Model: August 31st, 2019
|
| 5 months ago | lac11 | laccase11: | | GRMZM2G305526
| Li, PC et al. 2023. Dynamics and genetic regulation of macronutrient concentrations during grain development in maize J Integr Agric. :doi: 10.1016/j.jia.2023.11.003. | | Reference: November 13th, 2023
Gene Product: March 31st, 2018
Gene Model: March 3rd, 2020
|
| 5 months ago | lac12 | laccase12: | | GRMZM5G814718
| Li, PC et al. 2023. Dynamics and genetic regulation of macronutrient concentrations during grain development in maize J Integr Agric. :doi: 10.1016/j.jia.2023.11.003. | | Reference: November 13th, 2023
Gene Product: March 31st, 2018
Gene Model: March 3rd, 2020
|
| 5 months ago | cipk15 | calcineurin B-like-interacting protein kinase15: | | GRMZM2G113967
| Li, PC et al. 2023. Dynamics and genetic regulation of macronutrient concentrations during grain development in maize J Integr Agric. :doi: 10.1016/j.jia.2023.11.003. | | Reference: November 13th, 2023
Gene Product: August 25th, 2018
Variation: December 6th, 2021
Gene Model: September 8th, 2021
|
| 5 months ago | ppr60 | pentatricopeptide repeat protein60: | 1.08 | GRMZM2G164018
| Zang, J et al. 2023. DEFECTIVE KERNEL 56 functions in mitochondrial RNA editing and maize seed development. Plant Physiol. :doi: 10.1093/plphys/kiad598. | | Reference: November 13th, 2023
Gene Product: December 27th, 2016
Variation: March 31st, 2005
Gene Model: February 14th, 2019
|
| 5 months ago | mate15 | multidrug and toxic compound extrusion15: | | | Zhou, L et al. 2023. A carbonic anhydrase, ZmCA4, contributes to photosynthetic efficiency, and modulates CO2 signaling gene expression by interacting with aquaporin ZmPIP2;6 in maize Plant Cell Physiol. :doi: 10.1093/pcp/pcad145. | | Reference: November 11th, 2023
Gene Product: August 17th, 2015
|
| 5 months ago | cah6 | carbonic anhydrase6: | 8.06 | GRMZM2G094165
| Zhou, L et al. 2023. A carbonic anhydrase, ZmCA4, contributes to photosynthetic efficiency, and modulates CO2 signaling gene expression by interacting with aquaporin ZmPIP2;6 in maize Plant Cell Physiol. :doi: 10.1093/pcp/pcad145. | | Reference: November 11th, 2023
Gene Product: February 26th, 2019
Variation: March 2nd, 2022
Gene Model: July 31st, 2014
|
| 5 months ago | umc1039 | : | 4.09 - 4.09 | GRMZM2G046024
| Dennis O Omondi et al. 2023. Combination of linkage and association mapping with genomic prediction to infer QTL regions associated with gray leaf spot and northern corn leaf blight resistance in tropical maize Frontiers in Genetics. 14:1282673. | | Reference: November 11th, 2023
Variation: September 1st, 2003
Gene Model: March 6th, 2021
|
| 5 months ago | umc1965 | : | 3.04 | GRMZM2G100881
| Zhang, HR et al. 2023. Genome wide association analysis reveals multiple QTLs controlling root development in maize J Integr Agric. :doi: 10.1016/j.jia.2023.10.040. | | Reference: November 11th, 2023
Variation: September 1st, 2003
Gene Model: March 5th, 2021
|
| 5 months ago | cah2 | carbonic anhydrase2: | | GRMZM2G348512
| Zhou, L et al. 2023. A carbonic anhydrase, ZmCA4, contributes to photosynthetic efficiency, and modulates CO2 signaling gene expression by interacting with aquaporin ZmPIP2;6 in maize Plant Cell Physiol. :doi: 10.1093/pcp/pcad145. | | Reference: November 11th, 2023
Gene Product: February 26th, 2019
Variation: May 25th, 2018
Gene Model: July 31st, 2014
|
| 5 months ago | cah3 | carbonic anhydrase3: | | GRMZM2G348512
| Zhou, L et al. 2023. A carbonic anhydrase, ZmCA4, contributes to photosynthetic efficiency, and modulates CO2 signaling gene expression by interacting with aquaporin ZmPIP2;6 in maize Plant Cell Physiol. :doi: 10.1093/pcp/pcad145. | | Reference: November 11th, 2023
Gene Product: February 26th, 2019
Gene Model: August 5th, 2014
|
| 5 months ago | cah1 | carbonic anhydrase1: | | GRMZM2G121878
| Zhou, L et al. 2023. A carbonic anhydrase, ZmCA4, contributes to photosynthetic efficiency, and modulates CO2 signaling gene expression by interacting with aquaporin ZmPIP2;6 in maize Plant Cell Physiol. :doi: 10.1093/pcp/pcad145. | | Reference: November 11th, 2023
Gene Product: February 26th, 2019
Variation: May 25th, 2018
Gene Model: July 31st, 2014
|
| 5 months ago | cah4 | carbonic anhydrase4: | | GRMZM2G414528
| Zhou, L et al. 2023. A carbonic anhydrase, ZmCA4, contributes to photosynthetic efficiency, and modulates CO2 signaling gene expression by interacting with aquaporin ZmPIP2;6 in maize Plant Cell Physiol. :doi: 10.1093/pcp/pcad145. | | Reference: November 11th, 2023
Gene Product: February 26th, 2019
Variation: November 11th, 2023
Gene Model: July 31st, 2014
|
| 5 months ago | cah5 | carbonic anhydrase5: | | GRMZM2G145101
| Zhou, L et al. 2023. A carbonic anhydrase, ZmCA4, contributes to photosynthetic efficiency, and modulates CO2 signaling gene expression by interacting with aquaporin ZmPIP2;6 in maize Plant Cell Physiol. :doi: 10.1093/pcp/pcad145. | | Reference: November 11th, 2023
Gene Product: February 26th, 2019
Gene Model: July 31st, 2014
|
| 5 months ago | slac4 | slow anion channel-associated4: | | GRMZM2G169951
| Zhou, L et al. 2023. A carbonic anhydrase, ZmCA4, contributes to photosynthetic efficiency, and modulates CO2 signaling gene expression by interacting with aquaporin ZmPIP2;6 in maize Plant Cell Physiol. :doi: 10.1093/pcp/pcad145. | | Reference: November 11th, 2023
Gene Product: February 1st, 2018
Gene Model: February 1st, 2018
|
| 5 months ago | pgip2 | polygalacturonase-inhibiting protein2: | | GRMZM2G121312
| Dennis O Omondi et al. 2023. Combination of linkage and association mapping with genomic prediction to infer QTL regions associated with gray leaf spot and northern corn leaf blight resistance in tropical maize Frontiers in Genetics. 14:1282673. | | Reference: November 11th, 2023
Gene Product: September 4th, 2019
Gene Model: September 4th, 2019
|
| 5 months ago | snrkII11 | SnRK2 serine threonine protein kinase 11: | 6.05 | GRMZM2G063961
| Zhou, L et al. 2023. A carbonic anhydrase, ZmCA4, contributes to photosynthetic efficiency, and modulates CO2 signaling gene expression by interacting with aquaporin ZmPIP2;6 in maize Plant Cell Physiol. :doi: 10.1093/pcp/pcad145. | | Reference: November 11th, 2023
Gene Product: April 14th, 2018
Gene Model: February 11th, 2015
|
| 5 months ago | IDP2557 | : | 5.00 | GRMZM2G110881
| Dennis O Omondi et al. 2023. Combination of linkage and association mapping with genomic prediction to infer QTL regions associated with gray leaf spot and northern corn leaf blight resistance in tropical maize Frontiers in Genetics. 14:1282673. | | Reference: November 11th, 2023
Variation: March 31st, 2005
Gene Model: May 2nd, 2020
|
| 5 months ago | spk1 | stress-induced protein kinase1: | 5.05 | GRMZM2G000278
| Zhou, L et al. 2023. A carbonic anhydrase, ZmCA4, contributes to photosynthetic efficiency, and modulates CO2 signaling gene expression by interacting with aquaporin ZmPIP2;6 in maize Plant Cell Physiol. :doi: 10.1093/pcp/pcad145. | | Reference: November 11th, 2023
Gene Product: April 14th, 2018
Variation: November 12th, 2014
Gene Model: November 12th, 2014
|
| 6 months ago | crk5 | crumpled kernel5: | | | Zhang, H et al. 2023. A peptide chain release factor 2a gene regulates maize kernel development by modulating mitochondrial function Crop J. :doi: 10.1016/j.cj.2023.10.006. | AT1G56350 (TAIR) | Reference: November 10th, 2023
Gene Product: November 10th, 2023
Variation: November 10th, 2023
|
| 6 months ago | nlp7 | NLP-transcription factor 7: | 1.01 | GRMZM2G109509
| Evandrei S Rossi et al. 2020. Genomic-wide association study for white spot resistance in a tropical maize germplasm Euphytica. 216:15. | | Reference: November 10th, 2023
Gene Product: December 3rd, 2019
Gene Model: October 7th, 2017
|
| 6 months ago | omt3 | Caffeoyl CoA O-methyltransferase3: | | GRMZM2G077486
| Jatin Sharma et al. 2023. Surveying the genomic landscape of silage-quality traits in maize (Zea mays L.) Crop J. :doi: 10.1016/j.cj.2023.10.007. | | Reference: November 10th, 2023
Gene Product: January 5th, 2014
Gene Model: May 13th, 2016
|
| 6 months ago | pld9 | phospholipase D9: | | GRMZM2G133943
| Stella Bigirwa Ayesiga et al. 2023. Genome-wide association study and pathway analysis to decipher loci associated with Fusarium ear rot resistance in tropical maize germplasm Genet Resour Crop Evol. :doi: 10.1007/s10722-023-01793-4. | | Reference: November 10th, 2023
Gene Product: August 9th, 2016
Gene Model: August 9th, 2016
|
| 6 months ago | cl3313_1 | : | 5.03 | GRMZM2G089119
| Evandrei S Rossi et al. 2020. Genomic-wide association study for white spot resistance in a tropical maize germplasm Euphytica. 216:15. | | Reference: November 10th, 2023
Variation: September 25th, 2007
Gene Model: May 10th, 2020
|
| 6 months ago | gst2 | glutathione S-transferase2: | 10.03 | GRMZM2G132093
| Nengde Zeng et al. 2023. Expeditious profiling of polycyclic aromatic hydrocarbons transport and obstruction mechanisms in crop xylem sap proteins via proteomics and molecular docking. Environ Pollut. :doi: 10.1016/j.envpol.2023.122854. | | Reference: November 9th, 2023
Gene Product: September 1st, 2003
Variation: July 7th, 2010
Gene Model: October 29th, 2015
|
| 6 months ago | act5 | actin5: | 5.01 | GRMZM2G152328
| Nengde Zeng et al. 2023. Expeditious profiling of polycyclic aromatic hydrocarbons transport and obstruction mechanisms in crop xylem sap proteins via proteomics and molecular docking. Environ Pollut. :doi: 10.1016/j.envpol.2023.122854. | | Reference: November 9th, 2023
Gene Product: September 1st, 2003
Variation: April 29th, 2020
Gene Model: April 29th, 2020
|
| 6 months ago | gpa1 | glyceraldehyde-3-phosphate dehydrogenase1: | 8.03 | | Nengde Zeng et al. 2023. Expeditious profiling of polycyclic aromatic hydrocarbons transport and obstruction mechanisms in crop xylem sap proteins via proteomics and molecular docking. Environ Pollut. :doi: 10.1016/j.envpol.2023.122854. | | Reference: November 9th, 2023
Gene Product: September 1st, 2003
Variation: April 12th, 2013
|
| 6 months ago | aps1 | ATP sulfurylase1: | 1.10 | GRMZM2G149952
| Doyel Roy et al. 2023. Untying the regulatory roles of miRNAs in CuO-NPs stress response mechanism in maize: A genome-wide sRNA transcriptome analysis Chemosphere. :doi: 10.1016/j.chemosphere.2023.140628. | | Reference: November 9th, 2023
Gene Product: September 1st, 2003
Variation: September 26th, 2017
Gene Model: September 26th, 2017
|
| 6 months ago | umc1742 | : | 3.04 | GRMZM2G114552
| Nengde Zeng et al. 2023. Expeditious profiling of polycyclic aromatic hydrocarbons transport and obstruction mechanisms in crop xylem sap proteins via proteomics and molecular docking. Environ Pollut. :doi: 10.1016/j.envpol.2023.122854. | | Reference: November 9th, 2023
Variation: September 1st, 2003
Gene Model: April 2nd, 2018
|
| 6 months ago | tls1 | tasselless1: | 1.11 - 1.12 | GRMZM2G176209
| Bienert, MD et al. 2023. Boron deficiency responses in maize (Zea mays L.) roots J Plant Nutr Soil Sci. :doi: 10.1002/jpln.202300173. | | Reference: November 9th, 2023
Gene Product: January 27th, 2022
Variation: July 29th, 2014
Gene Model: April 2nd, 2014
|
| 6 months ago | tub4 | beta tubulin4: | 5.03 | | Nengde Zeng et al. 2023. Expeditious profiling of polycyclic aromatic hydrocarbons transport and obstruction mechanisms in crop xylem sap proteins via proteomics and molecular docking. Environ Pollut. :doi: 10.1016/j.envpol.2023.122854. | | Reference: November 9th, 2023
Gene Product: September 1st, 2003
Variation: August 20th, 2013
|
| 6 months ago | prp2 | pathogenesis-related protein2: | 2.04 | | Nengde Zeng et al. 2023. Expeditious profiling of polycyclic aromatic hydrocarbons transport and obstruction mechanisms in crop xylem sap proteins via proteomics and molecular docking. Environ Pollut. :doi: 10.1016/j.envpol.2023.122854. | | Reference: November 9th, 2023
Gene Product: December 12th, 2022
Variation: September 1st, 2003
|
| 6 months ago | ccp35 | cysteine protease35: | 1.07 | GRMZM2G456217
| Nengde Zeng et al. 2023. Expeditious profiling of polycyclic aromatic hydrocarbons transport and obstruction mechanisms in crop xylem sap proteins via proteomics and molecular docking. Environ Pollut. :doi: 10.1016/j.envpol.2023.122854. | | Reference: November 9th, 2023
Gene Product: October 11th, 2021
Gene Model: February 11th, 2020
|
| 6 months ago | lac22 | laccase22: | | GRMZM2G336337
| Doyel Roy et al. 2023. Untying the regulatory roles of miRNAs in CuO-NPs stress response mechanism in maize: A genome-wide sRNA transcriptome analysis Chemosphere. :doi: 10.1016/j.chemosphere.2023.140628. | | Reference: November 9th, 2023
Gene Product: March 31st, 2018
Gene Model: March 3rd, 2020
|
| 6 months ago | IDP610 | : | 2.09 | GRMZM2G152258
| Nengde Zeng et al. 2023. Expeditious profiling of polycyclic aromatic hydrocarbons transport and obstruction mechanisms in crop xylem sap proteins via proteomics and molecular docking. Environ Pollut. :doi: 10.1016/j.envpol.2023.122854. | | Reference: November 9th, 2023
Variation: March 31st, 2005
Gene Model: February 20th, 2019
|
| 6 months ago | dar2 | monodehydroascorbate reductase2: | 4.05 | GRMZM2G134708
| Nengde Zeng et al. 2023. Expeditious profiling of polycyclic aromatic hydrocarbons transport and obstruction mechanisms in crop xylem sap proteins via proteomics and molecular docking. Environ Pollut. :doi: 10.1016/j.envpol.2023.122854. | | Reference: November 9th, 2023
Gene Product: October 15th, 2020
Gene Model: April 16th, 2020
|
| 6 months ago | stsl4 | strictosidine synthase-like4: | | | Pinto, VB et al. 2023. Transcriptome-based strategies for identifying aluminum tolerance genes in popcorn (Zea mays L. var. everta). Sci. Rep.. 13:19400. | | Reference: November 8th, 2023
Gene Product: September 29th, 2023
|
| 6 months ago | bnlg149 | : | 1.00 | GRMZM5G833153
| Sen, S et al. 2023. Maize Feature Store: A centralized resource to manage and analyze curated maize multi-omics features for machine learning applications. Database. 2023:doi: 10.1093/database/baad078. | | Reference: November 8th, 2023
Variation: September 1st, 2003
Gene Model: August 1st, 2017
|
| 6 months ago | bnlg2190 | : | 10.06 | GRMZM2G019986
| Pinto, VB et al. 2023. Transcriptome-based strategies for identifying aluminum tolerance genes in popcorn (Zea mays L. var. everta). Sci. Rep.. 13:19400. | | Reference: November 8th, 2023
Variation: September 1st, 2003
Gene Model: January 16th, 2018
|
| 6 months ago | ole4 | oleosin4: | 1.09 | GRMZM2G480954
| Fu, YX et al. 2023. Spatial transcriptomics uncover sucrose post-phloem transport during maize kernel development Nat Commun. 14:7191. | | Reference: November 8th, 2023
Gene Product: September 1st, 2003
Variation: September 1st, 2003
Gene Model: October 9th, 2015
|
| 6 months ago | gst7 | glutathione transferase7: | 3.05 | GRMZM2G028556
| Pinto, VB et al. 2023. Transcriptome-based strategies for identifying aluminum tolerance genes in popcorn (Zea mays L. var. everta). Sci. Rep.. 13:19400. | | Reference: November 8th, 2023
Gene Product: September 1st, 2003
Variation: August 9th, 2010
Gene Model: July 27th, 2016
|
| 6 months ago | sodh1 | sorbitol dehydrogenase homolog1: | 1.07 | | Fu, YX et al. 2023. Spatial transcriptomics uncover sucrose post-phloem transport during maize kernel development Nat Commun. 14:7191. | | Reference: November 8th, 2023
Gene Product: September 1st, 2003
Variation: August 13th, 2013
|
| 6 months ago | mbd105 | methyl binding domain105: | 3.04 | GRMZM2G476933
| Dong, XM et al. 2023. The conservation of allelic DNA methylation and its relationship with imprinting in maize J Exp Bot. :doi: 10.1093/jxb/erad440 | | Reference: November 8th, 2023
Gene Product: December 24th, 2015
Variation: February 6th, 2010
Gene Model: December 24th, 2015
|
| 6 months ago | sweet4a | sugars will eventually be exported transporter4a: | | GRMZM2G000812
| Pinto, VB et al. 2023. Transcriptome-based strategies for identifying aluminum tolerance genes in popcorn (Zea mays L. var. everta). Sci. Rep.. 13:19400. | | Reference: November 8th, 2023
Gene Product: November 4th, 2015
Gene Model: November 3rd, 2015
|
| 6 months ago | sweet14a | sugars will eventually be exported transporter14a: | | GRMZM2G094955
| Fu, YX et al. 2023. Spatial transcriptomics uncover sucrose post-phloem transport during maize kernel development Nat Commun. 14:7191. | | Reference: November 8th, 2023
Gene Product: November 4th, 2015
Gene Model: November 3rd, 2015
|
| 6 months ago | phos3 | phosphate transporter3: | | GRMZM5G815128
| Fu, YX et al. 2023. Spatial transcriptomics uncover sucrose post-phloem transport during maize kernel development Nat Commun. 14:7191. | LOC_Os02g56510 (MSU/TIGR) | Reference: November 8th, 2023
Gene Product: February 27th, 2016
Variation: September 13th, 2017
Gene Model: September 13th, 2017
|
| 6 months ago | gbss2 | granule-bound starch synthase2: | | | Sen, S et al. 2023. Maize Feature Store: A centralized resource to manage and analyze curated maize multi-omics features for machine learning applications. Database. 2023:doi: 10.1093/database/baad078. | | Reference: November 8th, 2023
Gene Product: June 4th, 2008
|
| 6 months ago | pip2h | plasma membrane intrinsic protein, PIP2h: | | GRMZM2G432926
| Pinto, VB et al. 2023. Transcriptome-based strategies for identifying aluminum tolerance genes in popcorn (Zea mays L. var. everta). Sci. Rep.. 13:19400. | | Reference: November 8th, 2023
Gene Product: January 27th, 2022
Gene Model: November 6th, 2021
|
| 6 months ago | fad17 | fatty acid desaturase17: | | GRMZM2G169261
| Pinto, VB et al. 2023. Transcriptome-based strategies for identifying aluminum tolerance genes in popcorn (Zea mays L. var. everta). Sci. Rep.. 13:19400. | | Reference: November 8th, 2023
Gene Product: January 6th, 2022
Gene Model: January 6th, 2022
|
| 6 months ago | pip2i | plasma membrane intrinsic protein, PIP2i: | | GRMZM2G018649
| Pinto, VB et al. 2023. Transcriptome-based strategies for identifying aluminum tolerance genes in popcorn (Zea mays L. var. everta). Sci. Rep.. 13:19400. | | Reference: November 8th, 2023
Gene Product: January 27th, 2022
Gene Model: January 27th, 2022
|
| 6 months ago | tip3d | tonoplast intrinsic protein3d: | | GRMZM2G039845
| Fu, YX et al. 2023. Spatial transcriptomics uncover sucrose post-phloem transport during maize kernel development Nat Commun. 14:7191. | | Reference: November 8th, 2023
Gene Product: January 27th, 2022
Gene Model: January 27th, 2022
|
| 6 months ago | ppr408 | pentatricopeptide repeat protein408: | 7.04 | GRMZM2G044023
| Fu Qian et al. 2023. GWAS and Meta-QTL Analysis of Yield-Related Ear Traits in Maize Plants. 12:3806. | | Reference: November 8th, 2023
Gene Product: December 27th, 2016
Gene Model: August 14th, 2021
|
| 6 months ago | sacd9 | stearoyl-acyl-carrier-protein desaturase9: | 8.06 | GRMZM2G316362
| Pinto, VB et al. 2023. Transcriptome-based strategies for identifying aluminum tolerance genes in popcorn (Zea mays L. var. everta). Sci. Rep.. 13:19400. | | Reference: November 8th, 2023
Gene Product: October 10th, 2016
Gene Model: October 10th, 2016
|
| 6 months ago | gpm458 | : | 4.06 | GRMZM2G044627
| Fu, YX et al. 2023. Spatial transcriptomics uncover sucrose post-phloem transport during maize kernel development Nat Commun. 14:7191. | | Reference: November 8th, 2023
Variation: September 25th, 2007
Gene Model: August 23rd, 2021
|
| 6 months ago | cry3 | cryptochrome3: | 9.03 | GRMZM2G172152
| Shizhan Chen et al. 2023. Cryptochrome 1b represses gibberellin signaling to enhance lodging resistance in maize Plant Physiol. :doi: 10.1093/plphys/kiad546. | | Reference: November 6th, 2023
Gene Product: August 31st, 2018
Variation: September 25th, 2007
Gene Model: September 9th, 2021
|
| 6 months ago | col2 | C2C2-CO-like-transcription factor 2: | | | Shizhan Chen et al. 2023. Cryptochrome 1b represses gibberellin signaling to enhance lodging resistance in maize Plant Physiol. :doi: 10.1093/plphys/kiad546. | | Reference: November 6th, 2023
Gene Product: June 18th, 2018
|
| 6 months ago | hct9 | hydroxycinnamoyltransferase9: | | GRMZM2G131165
| Wang, Y et al. 2023. Genome-wide association and transcriptome reveal genetic basis for Southern Corn Rust in maize J Integr Agric. :doi: 10.1016/j.jia.2023.10.039. | | Reference: November 6th, 2023
Gene Product: November 7th, 2015
Gene Model: November 7th, 2015
|
| 6 months ago | bbx33 | b-box33: | | GRMZM2G085218
| Shizhan Chen et al. 2023. Cryptochrome 1b represses gibberellin signaling to enhance lodging resistance in maize Plant Physiol. :doi: 10.1093/plphys/kiad546. | | Reference: November 6th, 2023
Gene Product: January 11th, 2019
Gene Model: January 4th, 2017
|
| 6 months ago | dbb2 | double B-box zinc finger protein2: | | GRMZM2G131982
| Shizhan Chen et al. 2023. Cryptochrome 1b represses gibberellin signaling to enhance lodging resistance in maize Plant Physiol. :doi: 10.1093/plphys/kiad546. | | Reference: November 6th, 2023
Gene Product: May 10th, 2017
Variation: March 17th, 2021
Gene Model: May 10th, 2017
|
| 6 months ago | dbb3 | double B-box zinc finger protein3: | | GRMZM5G834596
| Shizhan Chen et al. 2023. Cryptochrome 1b represses gibberellin signaling to enhance lodging resistance in maize Plant Physiol. :doi: 10.1093/plphys/kiad546. | | Reference: November 6th, 2023
Gene Product: May 10th, 2017
Variation: May 10th, 2017
Gene Model: May 10th, 2017
|
| 6 months ago | dbb8 | double B-box zinc finger protein8: | | GRMZM2G070446
| Shizhan Chen et al. 2023. Cryptochrome 1b represses gibberellin signaling to enhance lodging resistance in maize Plant Physiol. :doi: 10.1093/plphys/kiad546. | | Reference: November 6th, 2023
Gene Product: May 10th, 2017
Variation: May 10th, 2017
Gene Model: May 10th, 2017
|
| 6 months ago | dbb11 | double B-box zinc finger protein11: | | GRMZM2G028594
| Shizhan Chen et al. 2023. Cryptochrome 1b represses gibberellin signaling to enhance lodging resistance in maize Plant Physiol. :doi: 10.1093/plphys/kiad546. | | Reference: November 6th, 2023
Gene Product: May 10th, 2017
Variation: May 10th, 2017
Gene Model: May 10th, 2017
|
| 6 months ago | dbb12 | double B-box zinc finger protein12: | | GRMZM2G098442
| Shizhan Chen et al. 2023. Cryptochrome 1b represses gibberellin signaling to enhance lodging resistance in maize Plant Physiol. :doi: 10.1093/plphys/kiad546. | | Reference: November 6th, 2023
Gene Product: May 10th, 2017
Gene Model: May 10th, 2017
|
| 6 months ago | bbx13 | b-box13: | | GRMZM2G438979
| Shizhan Chen et al. 2023. Cryptochrome 1b represses gibberellin signaling to enhance lodging resistance in maize Plant Physiol. :doi: 10.1093/plphys/kiad546. | | Reference: November 6th, 2023
Gene Product: January 11th, 2019
Gene Model: January 10th, 2019
|
| 6 months ago | bbx17 | b-box17: | | GRMZM2G146614
| Shizhan Chen et al. 2023. Cryptochrome 1b represses gibberellin signaling to enhance lodging resistance in maize Plant Physiol. :doi: 10.1093/plphys/kiad546. | | Reference: November 6th, 2023
Gene Product: January 11th, 2019
Gene Model: January 10th, 2019
|
| 6 months ago | bbx26 | b-box26: | | GRMZM2G415711
| Shizhan Chen et al. 2023. Cryptochrome 1b represses gibberellin signaling to enhance lodging resistance in maize Plant Physiol. :doi: 10.1093/plphys/kiad546. | | Reference: November 6th, 2023
Gene Product: January 11th, 2019
Gene Model: January 10th, 2019
|
| 6 months ago | upl14 | ubiquitin-protein ligase14: | | GRMZM2G126795
| Shizhan Chen et al. 2023. Cryptochrome 1b represses gibberellin signaling to enhance lodging resistance in maize Plant Physiol. :doi: 10.1093/plphys/kiad546. | AT2G32950 (TAIR) | Reference: November 6th, 2023
Gene Product: March 26th, 2020
Gene Model: March 26th, 2020
|
| 6 months ago | bbx10 | b-box10: | | GRMZM2G081577
| Shizhan Chen et al. 2023. Cryptochrome 1b represses gibberellin signaling to enhance lodging resistance in maize Plant Physiol. :doi: 10.1093/plphys/kiad546. | | Reference: November 6th, 2023
Gene Product: January 11th, 2019
Gene Model: August 15th, 2022
|
| 6 months ago | dof4 | C2C2-Dof-transcription factor 4: | 3.08 | GRMZM2G327189
| Zhuoyun Wei et al. 2023. The Dof transcription factor COG1 acts as a key regulator of plant biomass by promoting photosynthesis and starch accumulation Molecular Plant. 16:1759-1772. | | Reference: November 6th, 2023
Variation: March 31st, 2005
Gene Model: November 28th, 2014
|
| 6 months ago | col15 | C2C2-CO-like-transcription factor 1: | 1.04 | GRMZM2G134671
| Shizhan Chen et al. 2023. Cryptochrome 1b represses gibberellin signaling to enhance lodging resistance in maize Plant Physiol. :doi: 10.1093/plphys/kiad546. | | Reference: November 6th, 2023
Gene Product: June 18th, 2018
Gene Model: June 16th, 2018
|
| 6 months ago | imp4 | importin4: | | | Zhijia Yu et al. 2023. Exploring the roles of ZmARM gene family in maize development and abiotic stress response. PeerJ. 11:e16254. | | Reference: November 3rd, 2023
Gene Product: November 15th, 2022
|
| 6 months ago | imp6 | importin6: | | | Zhijia Yu et al. 2023. Exploring the roles of ZmARM gene family in maize development and abiotic stress response. PeerJ. 11:e16254. | | Reference: November 3rd, 2023
Gene Product: November 15th, 2022
|
| 6 months ago | imp7 | importin7: | | | Zhijia Yu et al. 2023. Exploring the roles of ZmARM gene family in maize development and abiotic stress response. PeerJ. 11:e16254. | | Reference: November 3rd, 2023
Gene Product: November 15th, 2022
|
| 6 months ago | arm50 | armadillo domain protein50: | | | Zhijia Yu et al. 2023. Exploring the roles of ZmARM gene family in maize development and abiotic stress response. PeerJ. 11:e16254. | | Reference: November 3rd, 2023
Gene Product: February 1st, 2021
|
| 6 months ago | arm2 | armadillo domain protein2: | | | Zhijia Yu et al. 2023. Exploring the roles of ZmARM gene family in maize development and abiotic stress response. PeerJ. 11:e16254. | | Reference: November 3rd, 2023
Gene Product: February 1st, 2021
|
| 6 months ago | arm17 | armadillo domain protein17: | | | Zhijia Yu et al. 2023. Exploring the roles of ZmARM gene family in maize development and abiotic stress response. PeerJ. 11:e16254. | | Reference: November 3rd, 2023
Gene Product: February 1st, 2021
|
| 6 months ago | arm18 | armadillo domain protein18: | | | Zhijia Yu et al. 2023. Exploring the roles of ZmARM gene family in maize development and abiotic stress response. PeerJ. 11:e16254. | | Reference: November 3rd, 2023
Gene Product: February 1st, 2021
|
| 6 months ago | arm19 | armadillo domain protein19: | | | Zhijia Yu et al. 2023. Exploring the roles of ZmARM gene family in maize development and abiotic stress response. PeerJ. 11:e16254. | | Reference: November 3rd, 2023
Gene Product: February 1st, 2021
|
| 6 months ago | arm20 | armadillo domain protein20: | | | Zhijia Yu et al. 2023. Exploring the roles of ZmARM gene family in maize development and abiotic stress response. PeerJ. 11:e16254. | | Reference: November 3rd, 2023
Gene Product: February 1st, 2021
|
| 6 months ago | arm21 | armadillo domain protein21: | | | Zhijia Yu et al. 2023. Exploring the roles of ZmARM gene family in maize development and abiotic stress response. PeerJ. 11:e16254. | | Reference: November 3rd, 2023
Gene Product: February 1st, 2021
|
| 6 months ago | arm27 | armadillo domain protein27: | | | Zhijia Yu et al. 2023. Exploring the roles of ZmARM gene family in maize development and abiotic stress response. PeerJ. 11:e16254. | | Reference: November 3rd, 2023
Gene Product: February 1st, 2021
|
| 6 months ago | arm30 | armadillo domain protein30: | | | Zhijia Yu et al. 2023. Exploring the roles of ZmARM gene family in maize development and abiotic stress response. PeerJ. 11:e16254. | | Reference: November 3rd, 2023
Gene Product: February 1st, 2021
|
| 6 months ago | arm31 | armadillo domain protein31: | | | Zhijia Yu et al. 2023. Exploring the roles of ZmARM gene family in maize development and abiotic stress response. PeerJ. 11:e16254. | | Reference: November 3rd, 2023
Gene Product: February 1st, 2021
|
| 6 months ago | arm32 | armadillo domain protein32: | | | Zhijia Yu et al. 2023. Exploring the roles of ZmARM gene family in maize development and abiotic stress response. PeerJ. 11:e16254. | | Reference: November 3rd, 2023
Gene Product: February 1st, 2021
|
| 6 months ago | arm33 | armadillo domain protein33: | | | Zhijia Yu et al. 2023. Exploring the roles of ZmARM gene family in maize development and abiotic stress response. PeerJ. 11:e16254. | | Reference: November 3rd, 2023
Gene Product: February 1st, 2021
|
| 6 months ago | arm34 | armadillo domain protein34: | | | Zhijia Yu et al. 2023. Exploring the roles of ZmARM gene family in maize development and abiotic stress response. PeerJ. 11:e16254. | | Reference: November 3rd, 2023
Gene Product: February 1st, 2021
|
| 6 months ago | arm35 | armadillo domain protein35: | | | Zhijia Yu et al. 2023. Exploring the roles of ZmARM gene family in maize development and abiotic stress response. PeerJ. 11:e16254. | | Reference: November 3rd, 2023
Gene Product: February 1st, 2021
|
| 6 months ago | arm37 | armadillo domain protein37: | | | Zhijia Yu et al. 2023. Exploring the roles of ZmARM gene family in maize development and abiotic stress response. PeerJ. 11:e16254. | | Reference: November 3rd, 2023
Gene Product: February 1st, 2021
|
| 6 months ago | arm45 | armadillo domain protein45: | | | Zhijia Yu et al. 2023. Exploring the roles of ZmARM gene family in maize development and abiotic stress response. PeerJ. 11:e16254. | | Reference: November 3rd, 2023
Gene Product: February 1st, 2021
|
| 6 months ago | arm48 | armadillo domain protein48: | | | Zhijia Yu et al. 2023. Exploring the roles of ZmARM gene family in maize development and abiotic stress response. PeerJ. 11:e16254. | | Reference: November 3rd, 2023
Gene Product: February 1st, 2021
|
| 6 months ago | arm51 | armadillo domain protein51: | | | Zhijia Yu et al. 2023. Exploring the roles of ZmARM gene family in maize development and abiotic stress response. PeerJ. 11:e16254. | | Reference: November 3rd, 2023
Gene Product: February 1st, 2021
|
| 6 months ago | arm52 | armadillo domain protein52: | | | Zhijia Yu et al. 2023. Exploring the roles of ZmARM gene family in maize development and abiotic stress response. PeerJ. 11:e16254. | | Reference: November 3rd, 2023
Gene Product: February 1st, 2021
|
| 6 months ago | arm56 | armadillo domain protein56: | | | Zhijia Yu et al. 2023. Exploring the roles of ZmARM gene family in maize development and abiotic stress response. PeerJ. 11:e16254. | | Reference: November 3rd, 2023
Gene Product: February 1st, 2021
|
| 6 months ago | imp3 | importin3: | 8.01 | GRMZM2G088231
| Zhijia Yu et al. 2023. Exploring the roles of ZmARM gene family in maize development and abiotic stress response. PeerJ. 11:e16254. | | Reference: November 3rd, 2023
Gene Product: November 15th, 2022
Gene Model: January 16th, 2021
|
| 6 months ago | arm28 | armadillo domain protein28: | 3.05 - 3.05 | | Zhijia Yu et al. 2023. Exploring the roles of ZmARM gene family in maize development and abiotic stress response. PeerJ. 11:e16254. | | Reference: November 3rd, 2023
Gene Product: February 1st, 2021
Variation: September 1st, 2003
|
| 6 months ago | imp1 | importin1: | 8.03 | | Zhijia Yu et al. 2023. Exploring the roles of ZmARM gene family in maize development and abiotic stress response. PeerJ. 11:e16254. | | Reference: November 3rd, 2023
Gene Product: November 15th, 2022
Variation: July 7th, 2017
|
| 6 months ago | arm36 | armadillo domain protein36: | 4.01 | | Zhijia Yu et al. 2023. Exploring the roles of ZmARM gene family in maize development and abiotic stress response. PeerJ. 11:e16254. | | Reference: November 3rd, 2023
Gene Product: February 1st, 2021
|
| 6 months ago | imp2 | importin 2: | | GRMZM2G009845
| Zhijia Yu et al. 2023. Exploring the roles of ZmARM gene family in maize development and abiotic stress response. PeerJ. 11:e16254. | | Reference: November 3rd, 2023
Gene Product: November 15th, 2022
Gene Model: January 11th, 2020
|
| 6 months ago | aro2 | armadillo repeat only2: | | GRMZM2G133282
| Zhijia Yu et al. 2023. Exploring the roles of ZmARM gene family in maize development and abiotic stress response. PeerJ. 11:e16254. | AT4G34940 (TAIR) | Reference: November 3rd, 2023
Gene Product: February 1st, 2021
Gene Model: February 1st, 2021
|
| 6 months ago | traf27 | TNF receptor-associated factor 27: | | GRMZM2G098227
| Zhijia Yu et al. 2023. Exploring the roles of ZmARM gene family in maize development and abiotic stress response. PeerJ. 11:e16254. | | Reference: November 3rd, 2023
Gene Product: June 30th, 2021
Gene Model: June 30th, 2021
|
| 6 months ago | traf28 | TNF receptor-associated factor 28: | | GRMZM2G100946
| Zhijia Yu et al. 2023. Exploring the roles of ZmARM gene family in maize development and abiotic stress response. PeerJ. 11:e16254. | | Reference: November 3rd, 2023
Gene Product: June 30th, 2021
Gene Model: June 30th, 2021
|
| 6 months ago | arm55 | armadillo domain protein55: | | GRMZM2G079031
| Zhijia Yu et al. 2023. Exploring the roles of ZmARM gene family in maize development and abiotic stress response. PeerJ. 11:e16254. | | Reference: November 3rd, 2023
Gene Product: February 1st, 2021
Gene Model: February 8th, 2022
|
| 6 months ago | arm44 | armadillo domain protein44: | | GRMZM2G094599
| Zhijia Yu et al. 2023. Exploring the roles of ZmARM gene family in maize development and abiotic stress response. PeerJ. 11:e16254. | | Reference: November 3rd, 2023
Gene Product: February 1st, 2021
Gene Model: July 19th, 2022
|
| 6 months ago | arm49 | armadillo domain protein49: | 6.01 | | Zhijia Yu et al. 2023. Exploring the roles of ZmARM gene family in maize development and abiotic stress response. PeerJ. 11:e16254. | | Reference: November 3rd, 2023
Gene Product: February 1st, 2021
|
| 6 months ago | arm29 | armadillo domain protein29: | 8.01 | | Zhijia Yu et al. 2023. Exploring the roles of ZmARM gene family in maize development and abiotic stress response. PeerJ. 11:e16254. | | Reference: November 3rd, 2023
Gene Product: February 1st, 2021
|
| 6 months ago | csu456(uce) | : | 3.08 | GRMZM5G814314
| Ma, YT et al. 2023. Genetic analysis of phenotypic plasticity identifies BBX6 as the candidate gene for maize adaptation to temperate regions Frontiers in Plant Science. 14:1280331. | | Reference: November 2nd, 2023
Gene Product: December 19th, 2019
Gene Model: November 26th, 2019
|
| 6 months ago | AY110217 | : | 9.04 | GRMZM2G131785
| Ma, B et al. 2023. Two ABCI family transporters, OsABCI15 and OsABCI16, are involved in grain-filling in rice. J Genet Genomics. :doi: 10.1016/j.jgg.2023.10.007. | | Reference: November 2nd, 2023
Variation: September 25th, 2007
Gene Model: February 28th, 2018
|
| 6 months ago | bbx6 | b-box6: | | GRMZM2G422644
| Ma, YT et al. 2023. Genetic analysis of phenotypic plasticity identifies BBX6 as the candidate gene for maize adaptation to temperate regions Frontiers in Plant Science. 14:1280331. | | Reference: November 2nd, 2023
Gene Product: January 11th, 2019
Gene Model: January 10th, 2019
|
| 6 months ago | umc1103 | : | 7.04 | GRMZM2G414043
| Ma, YT et al. 2023. Identification of Allele-Specific Expression Genes Associated with Maize Heterosis Agronomy. 13:2722. | | Reference: November 1st, 2023
Variation: August 16th, 2017
Gene Model: August 16th, 2017
|
| 6 months ago | tcptf12 | TCP-transcription factor 12: | | | Ma, YT et al. 2023. Identification of Allele-Specific Expression Genes Associated with Maize Heterosis Agronomy. 13:2722. | | Reference: November 1st, 2023
Gene Product: September 27th, 2019
|
| 6 months ago | cyc7 | cyclin7: | 3.06 | GRMZM2G073003
| Ma, YT et al. 2023. Identification of Allele-Specific Expression Genes Associated with Maize Heterosis Agronomy. 13:2722. | | Reference: November 1st, 2023
Gene Product: June 26th, 2009
Variation: October 23rd, 2012
Gene Model: August 16th, 2019
|
| 6 months ago | rtl1 | reversion-to-ethylene sensitivity1 like1: | | GRMZM5G832994
| Yang, F et al. 2023. Comparative physiological and transcriptome analysis of leaf nitrogen fluxes in stay-green maize during the vegetative stage Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2023.108147. | | Reference: November 1st, 2023
Variation: June 10th, 2016
Gene Model: June 10th, 2016
|
| 6 months ago | mpk17 | MAP kinase17: | | GRMZM2G374088
| Ma, YT et al. 2023. Identification of Allele-Specific Expression Genes Associated with Maize Heterosis Agronomy. 13:2722. | | Reference: November 1st, 2023
Gene Product: July 12th, 2013
Variation: March 18th, 2021
Gene Model: October 2nd, 2017
|
| 6 months ago | urb2 | unhealthy ribosome biogenesis2: | | GRMZM2G457178
| Ma, YT et al. 2023. Identification of Allele-Specific Expression Genes Associated with Maize Heterosis Agronomy. 13:2722. | | Reference: November 1st, 2023
Variation: February 26th, 2018
Gene Model: February 26th, 2018
|
| 6 months ago | xlg2 | extra-large guanine nucleotide-binding protein2: | | GRMZM2G016858
| Ma, YT et al. 2023. Identification of Allele-Specific Expression Genes Associated with Maize Heterosis Agronomy. 13:2722. | | Reference: November 1st, 2023
Gene Product: May 1st, 2018
Variation: May 1st, 2018
Gene Model: May 1st, 2018
|
| 6 months ago | nye1 | non-yellowing1: | | GRMZM2G091837
| Yang, F et al. 2023. Comparative physiological and transcriptome analysis of leaf nitrogen fluxes in stay-green maize during the vegetative stage Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2023.108147. | | Reference: November 1st, 2023
Gene Product: August 26th, 2020
Gene Model: August 26th, 2020
|
| 6 months ago | iqd19 | IQ-domain 19: | | GRMZM2G170766
| Ma, YT et al. 2023. Identification of Allele-Specific Expression Genes Associated with Maize Heterosis Agronomy. 13:2722. | | Reference: November 1st, 2023
Gene Product: May 23rd, 2021
Gene Model: May 23rd, 2021
|
| 6 months ago | thi2 | thiamine biosynthesis2: | 3.09 | GRMZM2G074097
| Sheng Ying et al. 2023. Multi-scale physiological responses to nitrogen supplementation of maize hybrids Plant Physiol. :doi: 10.1093/plphys/kiad583. | | Reference: October 31st, 2023
Gene Product: February 1st, 2013
Variation: August 3rd, 2013
Gene Model: January 31st, 2013
|
| 6 months ago | crr2 | cytokinin response regulator2: | 10.07 | | Sheng Ying et al. 2023. Multi-scale physiological responses to nitrogen supplementation of maize hybrids Plant Physiol. :doi: 10.1093/plphys/kiad583. | | Reference: October 31st, 2023
Gene Product: June 30th, 2017
Variation: October 1st, 2015
|
| 6 months ago | elip1 | early light inducible protein1: | | GRMZM2G355752
| Sheng Ying et al. 2023. Multi-scale physiological responses to nitrogen supplementation of maize hybrids Plant Physiol. :doi: 10.1093/plphys/kiad583. | | Reference: October 31st, 2023
Gene Product: July 27th, 2013
Gene Model: July 27th, 2013
|
| 6 months ago | lic2 | lichenase2: | | GRMZM2G137535
| Sheng Ying et al. 2023. Multi-scale physiological responses to nitrogen supplementation of maize hybrids Plant Physiol. :doi: 10.1093/plphys/kiad583. | | Reference: October 31st, 2023
Gene Product: February 1st, 2021
Variation: February 1st, 2021
Gene Model: January 7th, 2020
|
| 6 months ago | ht1 | Helminthosporium turcicum resistance1: | 2.08 | | Ludwig Navarro, B et al. 2023. Photosynthetic costs and impact on epidemiological parameters associated with Ht resistance genes in maize lines infected with Exserohilum turcicum. Phytopathology. :doi: 10.1094/PHYTO-07-23-0247-R. | | Reference: October 28th, 2023
Gene Product: February 1st, 2023
Variation: September 1st, 2003
|
| 6 months ago | ht2 | Helminthosporium turcicum resistance2: | 8.05 - 8.06 | | Ludwig Navarro, B et al. 2023. Photosynthetic costs and impact on epidemiological parameters associated with Ht resistance genes in maize lines infected with Exserohilum turcicum. Phytopathology. :doi: 10.1094/PHYTO-07-23-0247-R. | | Reference: October 28th, 2023
Variation: September 1st, 2003
|
| 6 months ago | ht3 | Helminthosporium turcicum resistance3: | | | Ludwig Navarro, B et al. 2023. Photosynthetic costs and impact on epidemiological parameters associated with Ht resistance genes in maize lines infected with Exserohilum turcicum. Phytopathology. :doi: 10.1094/PHYTO-07-23-0247-R. | | Reference: October 28th, 2023
Variation: September 1st, 2003
|
| 6 months ago | cchh150 | Cys2His2 Zinc Finger150: | | | Liu, C et al. 2023. Overexpression of ZmSTOP1-A Enhances Aluminum Tolerance in Arabidopsis by Stimulating Organic Acid Secretion and Reactive Oxygen Species Scavenging Int J Mol Sci. 24:15669. | | Reference: October 27th, 2023
Gene Product: November 14th, 2022
|
| 6 months ago | cchh35 | Cys2His2 Zinc Finger35: | 10.02 | GRMZM2G068710
| Liu, C et al. 2023. Overexpression of ZmSTOP1-A Enhances Aluminum Tolerance in Arabidopsis by Stimulating Organic Acid Secretion and Reactive Oxygen Species Scavenging Int J Mol Sci. 24:15669. | | Reference: October 27th, 2023
Gene Product: November 14th, 2022
Gene Model: January 23rd, 2018
|
| 6 months ago | cchh5 | Cys2His2 Zinc Finger5: | | | Liu, C et al. 2023. Overexpression of ZmSTOP1-A Enhances Aluminum Tolerance in Arabidopsis by Stimulating Organic Acid Secretion and Reactive Oxygen Species Scavenging Int J Mol Sci. 24:15669. | | Reference: October 27th, 2023
Gene Product: November 14th, 2022
|
| 6 months ago | cchh3 | Cys2His2 Zinc Finger3: | 5.05 | GRMZM2G023988
| Liu, C et al. 2023. Overexpression of ZmSTOP1-A Enhances Aluminum Tolerance in Arabidopsis by Stimulating Organic Acid Secretion and Reactive Oxygen Species Scavenging Int J Mol Sci. 24:15669. | | Reference: October 27th, 2023
Gene Product: November 14th, 2022
Gene Model: January 23rd, 2018
|
| 6 months ago | l15 | luteus15: | 6.02 - 6.03 | GRMZM2G177169
| Lukas Dorian Dittiger et al. 2023. Plant Responses of Maize to Two formae speciales of Sporisorium reilianum Support Recent Fungal Host Jump Int J Mol Sci. 24:15604. | AT2G18940 (TAIR)
LOC_Os05g19380 (MSU/TIGR)
Os05g0275000 (Gramene) | Reference: October 26th, 2023
Gene Product: December 30th, 2015
Variation: November 7th, 2012
Gene Model: November 6th, 2012
|
| 6 months ago | umc1246 | : | 10.04 | GRMZM2G075315
| Lukas Dorian Dittiger et al. 2023. Plant Responses of Maize to Two formae speciales of Sporisorium reilianum Support Recent Fungal Host Jump Int J Mol Sci. 24:15604. | | Reference: October 26th, 2023
Variation: September 1st, 2003
Gene Model: December 9th, 2017
|
| 6 months ago | salt1 | SalT homolog1: | 10.02 | GRMZM2G142891
| Lukas Dorian Dittiger et al. 2023. Plant Responses of Maize to Two formae speciales of Sporisorium reilianum Support Recent Fungal Host Jump Int J Mol Sci. 24:15604. | | Reference: October 26th, 2023
Gene Product: September 1st, 2003
Variation: January 9th, 2018
Gene Model: December 12th, 2017
|
| 6 months ago | prp1 | pathogenesis-related protein1: | 8.03 | | Lukas Dorian Dittiger et al. 2023. Plant Responses of Maize to Two formae speciales of Sporisorium reilianum Support Recent Fungal Host Jump Int J Mol Sci. 24:15604. | | Reference: October 26th, 2023
Gene Product: September 1st, 2003
Variation: September 1st, 2003
|
| 6 months ago | ga3ox1 | gibberellin 3-oxidase1: | | GRMZM2G044358
| Allen, EM et al. 2020. Methods and compositions for short stature plants through manipulation of gibberellin metabolism to increase harvestable yield; Patent No. US 10,724,047 B | | Reference: October 26th, 2023
Gene Product: October 25th, 2014
Variation: October 25th, 2014
Gene Model: October 25th, 2014
|
| 6 months ago | ga20ox2 | gibberellin 20-oxidase2: | | GRMZM2G021051
| Allen, EM et al. 2020. Methods and compositions for short stature plants through manipulation of gibberellin metabolism to increase harvestable yield; Patent No. US 10,724,047 B | | Reference: October 26th, 2023
Gene Product: October 28th, 2014
Gene Model: October 27th, 2014
|
| 6 months ago | ga20ox7 | gibberellin 20-oxidase7: | | AC234528.1_FG006
| Allen, EM et al. 2020. Methods and compositions for short stature plants through manipulation of gibberellin metabolism to increase harvestable yield; Patent No. US 10,724,047 B | | Reference: October 26th, 2023
Gene Product: October 28th, 2014
Gene Model: May 8th, 2021
|
| 6 months ago | ga20ox9 | gibberellin 20-oxidase9: | | GRMZM2G127668
| Allen, EM et al. 2020. Methods and compositions for short stature plants through manipulation of gibberellin metabolism to increase harvestable yield; Patent No. US 10,724,047 B | | Reference: October 26th, 2023
Gene Product: October 28th, 2014
Gene Model: May 8th, 2021
|
| 6 months ago | glk1 | G2-like1: | 9.00 | GRMZM2G026833
| Julia Lambret-Frotte et al. 2023. GOLDEN2-like is sufficient but not necessary for chloroplast biogenesis in mesophyll cells of C4 grasses. Plant J. :doi: 10.1111/tpj.16498. | | Reference: October 26th, 2023
Gene Product: July 11th, 2019
Variation: May 9th, 2009
Gene Model: September 27th, 2012
|
| 6 months ago | nhl1 | NDR1/HIN1-like 1: | | | Zhang, Yaping et al. 2023. Identification of the Maize LEA Gene Family and Its Relationship with Kernel Dehydration Plants. 12:3674. | AT3G11660 (TAIR) | Reference: October 25th, 2023
Gene Product: January 31st, 2019
|
| 6 months ago | hin13 | hairpin-induced13: | | | Zhang, Yaping et al. 2023. Identification of the Maize LEA Gene Family and Its Relationship with Kernel Dehydration Plants. 12:3674. | | Reference: October 25th, 2023
Gene Product: February 1st, 2021
|
| 6 months ago | cel19 | cellulase19: | | | Angelo Raffaele Marcotrigiano et al. 2023. Hydroxamic acids: New players in the multifactorial mechanisms of maize resistance to Striga hermonthica Plant Physiol Biochem. 204:108134. | | Reference: October 25th, 2023
Gene Product: March 20th, 2023
|
| 6 months ago | hin12 | hairpin-induced12: | | | Zhang, Yaping et al. 2023. Identification of the Maize LEA Gene Family and Its Relationship with Kernel Dehydration Plants. 12:3674. | | Reference: October 25th, 2023
Gene Product: February 1st, 2021
|
| 6 months ago | hin15 | hairpin-induced15: | | | Zhang, Yaping et al. 2023. Identification of the Maize LEA Gene Family and Its Relationship with Kernel Dehydration Plants. 12:3674. | | Reference: October 25th, 2023
Gene Product: February 1st, 2021
|
| 6 months ago | hin16 | hairpin-induced16: | | | Zhang, Yaping et al. 2023. Identification of the Maize LEA Gene Family and Its Relationship with Kernel Dehydration Plants. 12:3674. | | Reference: October 25th, 2023
Gene Product: February 1st, 2021
|
| 6 months ago | hin17 | hairpin-induced17: | | | Zhang, Yaping et al. 2023. Identification of the Maize LEA Gene Family and Its Relationship with Kernel Dehydration Plants. 12:3674. | | Reference: October 25th, 2023
Gene Product: February 1st, 2021
|
| 6 months ago | hin11 | hairpin-induced11: | | | Zhang, Yaping et al. 2023. Identification of the Maize LEA Gene Family and Its Relationship with Kernel Dehydration Plants. 12:3674. | | Reference: October 25th, 2023
Gene Product: February 1st, 2021
|
| 6 months ago | hin14 | hairpin-induced14: | | | Zhang, Yaping et al. 2023. Identification of the Maize LEA Gene Family and Its Relationship with Kernel Dehydration Plants. 12:3674. | | Reference: October 25th, 2023
Gene Product: February 1st, 2021
|
| 6 months ago | hin18 | hairpin-induced18: | | | Zhang, Yaping et al. 2023. Identification of the Maize LEA Gene Family and Its Relationship with Kernel Dehydration Plants. 12:3674. | | Reference: October 25th, 2023
Gene Product: February 1st, 2021
|
| 6 months ago | hin20 | hairpin-induced20: | | | Zhang, Yaping et al. 2023. Identification of the Maize LEA Gene Family and Its Relationship with Kernel Dehydration Plants. 12:3674. | | Reference: October 25th, 2023
Gene Product: February 1st, 2021
|
| 6 months ago | hin22 | hairpin-induced22: | | | Zhang, Yaping et al. 2023. Identification of the Maize LEA Gene Family and Its Relationship with Kernel Dehydration Plants. 12:3674. | | Reference: October 25th, 2023
Gene Product: February 1st, 2021
|
| 6 months ago | hin24 | hairpin-induced24: | | | Zhang, Yaping et al. 2023. Identification of the Maize LEA Gene Family and Its Relationship with Kernel Dehydration Plants. 12:3674. | | Reference: October 25th, 2023
Gene Product: February 1st, 2021
|
| 6 months ago | ppr9 | pentatricopeptide repeat protein9: | | | Sanchez, DL et al. 2023. Phenotypic and genome-wide association analyses for nitrogen use efficiency related traits in maize (Zea mays L.) exotic introgression lines. Frontiers in Plant Science. 14:1270166. | | Reference: October 25th, 2023
Gene Product: December 27th, 2016
|
| 6 months ago | Zm00001eb022900 | : | | | Zhang, Yaping et al. 2023. Identification of the Maize LEA Gene Family and Its Relationship with Kernel Dehydration Plants. 12:3674. | | Reference: October 25th, 2023
Gene Product: January 31st, 2019
|
| 6 months ago | Zm00001eb047600 | : | | | Zhang, Yaping et al. 2023. Identification of the Maize LEA Gene Family and Its Relationship with Kernel Dehydration Plants. 12:3674. | | Reference: October 25th, 2023
Gene Product: January 31st, 2019
|
| 6 months ago | Zm00001eb071160 | : | | | Zhang, Yaping et al. 2023. Identification of the Maize LEA Gene Family and Its Relationship with Kernel Dehydration Plants. 12:3674. | | Reference: October 25th, 2023
Gene Product: January 31st, 2019
|
| 6 months ago | Zm00001eb083540 | : | | | Zhang, Yaping et al. 2023. Identification of the Maize LEA Gene Family and Its Relationship with Kernel Dehydration Plants. 12:3674. | | Reference: October 25th, 2023
Gene Product: January 31st, 2019
|
| 6 months ago | Zm00001eb159430 | : | | | Zhang, Yaping et al. 2023. Identification of the Maize LEA Gene Family and Its Relationship with Kernel Dehydration Plants. 12:3674. | | Reference: October 25th, 2023
Gene Product: January 31st, 2019
|
| 6 months ago | Zm00001eb160190 | : | | | Zhang, Yaping et al. 2023. Identification of the Maize LEA Gene Family and Its Relationship with Kernel Dehydration Plants. 12:3674. | | Reference: October 25th, 2023
Gene Product: January 31st, 2019
|
| 6 months ago | Zm00001eb211120 | : | | | Zhang, Yaping et al. 2023. Identification of the Maize LEA Gene Family and Its Relationship with Kernel Dehydration Plants. 12:3674. | | Reference: October 25th, 2023
Gene Product: January 31st, 2019
|
| 6 months ago | Zm00001eb247790 | : | | | Zhang, Yaping et al. 2023. Identification of the Maize LEA Gene Family and Its Relationship with Kernel Dehydration Plants. 12:3674. | | Reference: October 25th, 2023
Gene Product: January 31st, 2019
|
| 6 months ago | Zm00001eb259940 | : | | | Zhang, Yaping et al. 2023. Identification of the Maize LEA Gene Family and Its Relationship with Kernel Dehydration Plants. 12:3674. | | Reference: October 25th, 2023
Gene Product: January 31st, 2019
|
| 6 months ago | Zm00001eb308610 | : | | | Zhang, Yaping et al. 2023. Identification of the Maize LEA Gene Family and Its Relationship with Kernel Dehydration Plants. 12:3674. | | Reference: October 25th, 2023
Gene Product: January 31st, 2019
|
| 6 months ago | Zm00001eb358640 | : | | | Zhang, Yaping et al. 2023. Identification of the Maize LEA Gene Family and Its Relationship with Kernel Dehydration Plants. 12:3674. | | Reference: October 25th, 2023
Gene Product: January 31st, 2019
|
| 6 months ago | Zm00001eb405330 | : | | | Zhang, Yaping et al. 2023. Identification of the Maize LEA Gene Family and Its Relationship with Kernel Dehydration Plants. 12:3674. | | Reference: October 25th, 2023
Gene Product: January 31st, 2019
|
| 6 months ago | Zm00001eb422110 | : | | | Zhang, Yaping et al. 2023. Identification of the Maize LEA Gene Family and Its Relationship with Kernel Dehydration Plants. 12:3674. | | Reference: October 25th, 2023
Gene Product: January 31st, 2019
|
| 6 months ago | pza00818 | : | 5.00 | GRMZM2G146158
| Angelo Raffaele Marcotrigiano et al. 2023. Hydroxamic acids: New players in the multifactorial mechanisms of maize resistance to Striga hermonthica Plant Physiol Biochem. 204:108134. | | Reference: October 25th, 2023
Variation: September 25th, 2007
Gene Model: May 1st, 2020
|
| 6 months ago | aco5 | aconitase5: | 2.07 | | Sanchez, DL et al. 2023. Phenotypic and genome-wide association analyses for nitrogen use efficiency related traits in maize (Zea mays L.) exotic introgression lines. Frontiers in Plant Science. 14:1270166. | | Reference: October 25th, 2023
Gene Product: September 1st, 2003
Variation: April 5th, 2019
|
| 6 months ago | esp1 | embryo specific protein1: | 6.05 | AC233879.1_FG002
| Zhang, Yaping et al. 2023. Identification of the Maize LEA Gene Family and Its Relationship with Kernel Dehydration Plants. 12:3674. | | Reference: October 25th, 2023
Gene Product: January 31st, 2019
Variation: September 1st, 2003
Gene Model: July 27th, 2016
|
| 6 months ago | rab30 | responsive to abscisic acid30: | 1.01 | GRMZM2G472236
| Zhang, Yaping et al. 2023. Identification of the Maize LEA Gene Family and Its Relationship with Kernel Dehydration Plants. 12:3674. | | Reference: October 25th, 2023
Gene Product: September 1st, 2003
Variation: May 2nd, 2011
Gene Model: June 1st, 2017
|
| 6 months ago | ccp3 | cysteine protease3: | 10.07 | GRMZM2G073465
| Angelo Raffaele Marcotrigiano et al. 2023. Hydroxamic acids: New players in the multifactorial mechanisms of maize resistance to Striga hermonthica Plant Physiol Biochem. 204:108134. | | Reference: October 25th, 2023
Gene Product: October 11th, 2021
Variation: September 1st, 2003
Gene Model: January 16th, 2018
|
| 6 months ago | bnlg1452 | : | 3.04 | GRMZM2G410916
| Angelo Raffaele Marcotrigiano et al. 2023. Hydroxamic acids: New players in the multifactorial mechanisms of maize resistance to Striga hermonthica Plant Physiol Biochem. 204:108134. | | Reference: October 25th, 2023
Variation: September 1st, 2003
Gene Model: March 21st, 2018
|
| 6 months ago | umc1128 | : | 1.07 | GRMZM2G031893
| Jiang Shi et al. 2023. Physiological, Metabolic, and Transcriptomic Analyses Reveal the Effect of Sweet Corn Plants Treated with a New Biostimulant on the Growth Enhancement, Focusing on Enhancing Gibberellin Synthesis and Signal Transduction ACS Agric Sci Technol. :doi: 10.1021/acsagscitech.3c00177. | | Reference: October 25th, 2023
Variation: September 1st, 2003
Gene Model: June 9th, 2017
|
| 6 months ago | umc1248 | : | 6.08 | GRMZM2G021794
| Angelo Raffaele Marcotrigiano et al. 2023. Hydroxamic acids: New players in the multifactorial mechanisms of maize resistance to Striga hermonthica Plant Physiol Biochem. 204:108134. | | Reference: October 25th, 2023
Variation: September 1st, 2003
Gene Model: March 14th, 2021
|
| 6 months ago | esp5 | embryo specific protein5: | 6.05 | GRMZM2G162659
| Zhang, Yaping et al. 2023. Identification of the Maize LEA Gene Family and Its Relationship with Kernel Dehydration Plants. 12:3674. | | Reference: October 25th, 2023
Variation: September 1st, 2003
Gene Model: July 27th, 2016
|
| 6 months ago | gras53 | GRAS-transcription factor 53: | | | Jiang Shi et al. 2023. Physiological, Metabolic, and Transcriptomic Analyses Reveal the Effect of Sweet Corn Plants Treated with a New Biostimulant on the Growth Enhancement, Focusing on Enhancing Gibberellin Synthesis and Signal Transduction ACS Agric Sci Technol. :doi: 10.1021/acsagscitech.3c00177. | | Reference: October 25th, 2023
Variation: August 16th, 2016
|
| 6 months ago | hsftf2 | HSF-transcription factor 2: | | | Sanchez, DL et al. 2023. Phenotypic and genome-wide association analyses for nitrogen use efficiency related traits in maize (Zea mays L.) exotic introgression lines. Frontiers in Plant Science. 14:1270166. | | Reference: October 25th, 2023
Gene Product: May 15th, 2020
|
| 6 months ago | nup58 | nucleoporin58: | 2.07 | GRMZM2G134508
| Sanchez, DL et al. 2023. Phenotypic and genome-wide association analyses for nitrogen use efficiency related traits in maize (Zea mays L.) exotic introgression lines. Frontiers in Plant Science. 14:1270166. | | Reference: October 25th, 2023
Gene Product: June 1st, 2022
Variation: June 1st, 2022
Gene Model: March 2nd, 2021
|
| 6 months ago | cyp25 | cytochrome P-450 25: | 4.09 | GRMZM2G070508
| Angelo Raffaele Marcotrigiano et al. 2023. Hydroxamic acids: New players in the multifactorial mechanisms of maize resistance to Striga hermonthica Plant Physiol Biochem. 204:108134. | | Reference: October 25th, 2023
Gene Product: December 30th, 2022
Gene Model: June 8th, 2018
|
| 6 months ago | gst21 | glutathione transferase21: | 3.05 | GRMZM2G428168
| Jiang Shi et al. 2023. Physiological, Metabolic, and Transcriptomic Analyses Reveal the Effect of Sweet Corn Plants Treated with a New Biostimulant on the Growth Enhancement, Focusing on Enhancing Gibberellin Synthesis and Signal Transduction ACS Agric Sci Technol. :doi: 10.1021/acsagscitech.3c00177. | | Reference: October 25th, 2023
Gene Product: September 1st, 2003
Variation: August 18th, 2010
Gene Model: April 18th, 2017
|
| 6 months ago | gst30 | glutathione transferase30: | 1.04 | GRMZM2G044383
| Jiang Shi et al. 2023. Physiological, Metabolic, and Transcriptomic Analyses Reveal the Effect of Sweet Corn Plants Treated with a New Biostimulant on the Growth Enhancement, Focusing on Enhancing Gibberellin Synthesis and Signal Transduction ACS Agric Sci Technol. :doi: 10.1021/acsagscitech.3c00177. | | Reference: October 25th, 2023
Gene Product: September 1st, 2003
Variation: August 21st, 2010
Gene Model: July 27th, 2016
|
| 6 months ago | gst34 | glutathione transferase34: | | GRMZM2G145069
| Jiang Shi et al. 2023. Physiological, Metabolic, and Transcriptomic Analyses Reveal the Effect of Sweet Corn Plants Treated with a New Biostimulant on the Growth Enhancement, Focusing on Enhancing Gibberellin Synthesis and Signal Transduction ACS Agric Sci Technol. :doi: 10.1021/acsagscitech.3c00177. | | Reference: October 25th, 2023
Gene Product: September 1st, 2003
Gene Model: April 18th, 2017
|
| 6 months ago | obf3 | octopine synthase binding factor3: | | GRMZM2G019907
| Jiang Shi et al. 2023. Physiological, Metabolic, and Transcriptomic Analyses Reveal the Effect of Sweet Corn Plants Treated with a New Biostimulant on the Growth Enhancement, Focusing on Enhancing Gibberellin Synthesis and Signal Transduction ACS Agric Sci Technol. :doi: 10.1021/acsagscitech.3c00177. | | Reference: October 25th, 2023
Gene Product: September 1st, 2003
Variation: October 29th, 2010
Gene Model: April 11th, 2013
|
| 6 months ago | cyp33 | cytochrome P450 CYP81A39: | 1.10 | GRMZM2G154828
| Jiang Shi et al. 2023. Physiological, Metabolic, and Transcriptomic Analyses Reveal the Effect of Sweet Corn Plants Treated with a New Biostimulant on the Growth Enhancement, Focusing on Enhancing Gibberellin Synthesis and Signal Transduction ACS Agric Sci Technol. :doi: 10.1021/acsagscitech.3c00177. | | Reference: October 25th, 2023
Gene Product: December 30th, 2022
Gene Model: February 15th, 2020
|
| 6 months ago | umc2230 | : | 1.05 | GRMZM2G070271
| Sanchez, DL et al. 2023. Phenotypic and genome-wide association analyses for nitrogen use efficiency related traits in maize (Zea mays L.) exotic introgression lines. Frontiers in Plant Science. 14:1270166. | | Reference: October 25th, 2023
Variation: January 10th, 2017
Gene Model: June 15th, 2017
|
| 6 months ago | dhn3 | dehydrin3: | 4.06 | GRMZM2G373522
| Zhang, Yaping et al. 2023. Identification of the Maize LEA Gene Family and Its Relationship with Kernel Dehydration Plants. 12:3674. | | Reference: October 25th, 2023
Gene Product: August 5th, 2017
Variation: June 18th, 2011
Gene Model: October 16th, 2016
|
| 6 months ago | chn3 | chitinase3: | 5.03 | | Jiang Shi et al. 2023. Physiological, Metabolic, and Transcriptomic Analyses Reveal the Effect of Sweet Corn Plants Treated with a New Biostimulant on the Growth Enhancement, Focusing on Enhancing Gibberellin Synthesis and Signal Transduction ACS Agric Sci Technol. :doi: 10.1021/acsagscitech.3c00177. | | Reference: October 25th, 2023
Gene Product: May 31st, 2021
Variation: September 1st, 2003
|
| 6 months ago | AY109703 | : | 7.06 | GRMZM2G386824
| Angelo Raffaele Marcotrigiano et al. 2023. Hydroxamic acids: New players in the multifactorial mechanisms of maize resistance to Striga hermonthica Plant Physiol Biochem. 204:108134. | | Reference: October 25th, 2023
Variation: September 25th, 2007
Gene Model: September 13th, 2018
|
| 6 months ago | spx12 | SPX domain-containing membrane protein12: | 1.09 | AC177897.2_FG002
| Angelo Raffaele Marcotrigiano et al. 2023. Hydroxamic acids: New players in the multifactorial mechanisms of maize resistance to Striga hermonthica Plant Physiol Biochem. 204:108134. | | Reference: October 25th, 2023
Gene Product: October 9th, 2021
Gene Model: February 15th, 2020
|
| 6 months ago | mate21 | multidrug and toxic compound extrusion21: | 2.07 | GRMZM2G470075
| Sanchez, DL et al. 2023. Phenotypic and genome-wide association analyses for nitrogen use efficiency related traits in maize (Zea mays L.) exotic introgression lines. Frontiers in Plant Science. 14:1270166. | | Reference: October 25th, 2023
Gene Product: August 17th, 2015
Gene Model: March 21st, 2020
|
| 6 months ago | snrkII4 | SnRK2 serine threonine protein kinase 4: | 3.06 | GRMZM2G110922
| Sanchez, DL et al. 2023. Phenotypic and genome-wide association analyses for nitrogen use efficiency related traits in maize (Zea mays L.) exotic introgression lines. Frontiers in Plant Science. 14:1270166. | | Reference: October 25th, 2023
Gene Product: April 14th, 2018
Gene Model: February 11th, 2015
|
| 6 months ago | mlo9 | barley mlo defense gene homolog9: | 2.01 | GRMZM2G051974
| Jiang Shi et al. 2023. Physiological, Metabolic, and Transcriptomic Analyses Reveal the Effect of Sweet Corn Plants Treated with a New Biostimulant on the Growth Enhancement, Focusing on Enhancing Gibberellin Synthesis and Signal Transduction ACS Agric Sci Technol. :doi: 10.1021/acsagscitech.3c00177. | | Reference: October 25th, 2023
Variation: September 4th, 2014
Gene Model: September 4th, 2014
|
| 6 months ago | pdi12 | protein disulfide isomerase12: | 2.07 | GRMZM2G067063
| Sanchez, DL et al. 2023. Phenotypic and genome-wide association analyses for nitrogen use efficiency related traits in maize (Zea mays L.) exotic introgression lines. Frontiers in Plant Science. 14:1270166. | | Reference: October 25th, 2023
Gene Product: September 1st, 2003
Variation: December 29th, 2015
Gene Model: December 18th, 2015
|
| 6 months ago | pal8 | phenylalanine ammonia lyase8: | | GRMZM2G334660
| Angelo Raffaele Marcotrigiano et al. 2023. Hydroxamic acids: New players in the multifactorial mechanisms of maize resistance to Striga hermonthica Plant Physiol Biochem. 204:108134. | | Reference: October 25th, 2023
Gene Product: August 13th, 2022
Gene Model: May 17th, 2016
|
| 6 months ago | cyp24 | cytochrome P-450 24: | | GRMZM2G023952
| Angelo Raffaele Marcotrigiano et al. 2023. Hydroxamic acids: New players in the multifactorial mechanisms of maize resistance to Striga hermonthica Plant Physiol Biochem. 204:108134. | | Reference: October 25th, 2023
Gene Product: December 30th, 2022
Gene Model: February 27th, 2018
|
| 6 months ago | vq6 | VQ motif-transcription factor6: | | GRMZM2G158976
| Sanchez, DL et al. 2023. Phenotypic and genome-wide association analyses for nitrogen use efficiency related traits in maize (Zea mays L.) exotic introgression lines. Frontiers in Plant Science. 14:1270166. | | Reference: October 25th, 2023
Gene Product: August 31st, 2019
Gene Model: August 31st, 2019
|
| 6 months ago | xt2 | beta-1,4-xylosyltransferase2: | | GRMZM2G448834
| Angelo Raffaele Marcotrigiano et al. 2023. Hydroxamic acids: New players in the multifactorial mechanisms of maize resistance to Striga hermonthica Plant Physiol Biochem. 204:108134. | | Reference: October 25th, 2023
Gene Product: August 12th, 2022
Gene Model: July 2nd, 2020
|
| 6 months ago | xt6 | beta-1,4-xylosyltransferase6: | | GRMZM2G000581
| Angelo Raffaele Marcotrigiano et al. 2023. Hydroxamic acids: New players in the multifactorial mechanisms of maize resistance to Striga hermonthica Plant Physiol Biochem. 204:108134. | | Reference: October 25th, 2023
Gene Product: August 12th, 2022
Gene Model: July 2nd, 2020
|
| 6 months ago | skus17 | skewed root growth similar17: | | GRMZM2G163535
| Angelo Raffaele Marcotrigiano et al. 2023. Hydroxamic acids: New players in the multifactorial mechanisms of maize resistance to Striga hermonthica Plant Physiol Biochem. 204:108134. | | Reference: October 25th, 2023
Gene Product: October 9th, 2020
Gene Model: October 9th, 2020
|
| 6 months ago | skus18 | skewed root growth similar18: | | GRMZM2G141376
| Angelo Raffaele Marcotrigiano et al. 2023. Hydroxamic acids: New players in the multifactorial mechanisms of maize resistance to Striga hermonthica Plant Physiol Biochem. 204:108134. | | Reference: October 25th, 2023
Gene Product: October 9th, 2020
Gene Model: October 9th, 2020
|
| 6 months ago | poll1 | pollux-like1: | | GRMZM2G110897
| Sanchez, DL et al. 2023. Phenotypic and genome-wide association analyses for nitrogen use efficiency related traits in maize (Zea mays L.) exotic introgression lines. Frontiers in Plant Science. 14:1270166. | | Reference: October 25th, 2023
Gene Product: November 20th, 2020
Gene Model: November 20th, 2020
|
| 6 months ago | A0A1D6JQ00 | : | | GRMZM2G063287
| Zhang, Yaping et al. 2023. Identification of the Maize LEA Gene Family and Its Relationship with Kernel Dehydration Plants. 12:3674. | | Reference: October 25th, 2023
Gene Product: January 31st, 2019
Gene Model: June 22nd, 2021
|
| 6 months ago | ccp28 | cysteine protease28: | | GRMZM2G367701
| Angelo Raffaele Marcotrigiano et al. 2023. Hydroxamic acids: New players in the multifactorial mechanisms of maize resistance to Striga hermonthica Plant Physiol Biochem. 204:108134. | | Reference: October 25th, 2023
Gene Product: October 11th, 2021
Gene Model: October 11th, 2021
|
| 6 months ago | dhn18 | dehydrin18: | | | Zhang, Yaping et al. 2023. Identification of the Maize LEA Gene Family and Its Relationship with Kernel Dehydration Plants. 12:3674. | | Reference: October 25th, 2023
Gene Product: August 5th, 2017
|
| 6 months ago | lea2 | late embryogenesis abundant protein2: | | GRMZM2G704475
| Zhang, Yaping et al. 2023. Identification of the Maize LEA Gene Family and Its Relationship with Kernel Dehydration Plants. 12:3674. | | Reference: October 25th, 2023
Gene Product: January 31st, 2019
Gene Model: January 3rd, 2022
|
| 6 months ago | lea7 | late embryogenesis abundant protein7: | | GRMZM2G412436
| Zhang, Yaping et al. 2023. Identification of the Maize LEA Gene Family and Its Relationship with Kernel Dehydration Plants. 12:3674. | | Reference: October 25th, 2023
Gene Product: January 31st, 2019
Gene Model: January 3rd, 2022
|
| 6 months ago | cel25 | cellulase25: | | GRMZM2G151257
| Angelo Raffaele Marcotrigiano et al. 2023. Hydroxamic acids: New players in the multifactorial mechanisms of maize resistance to Striga hermonthica Plant Physiol Biochem. 204:108134. | | Reference: October 25th, 2023
Gene Product: March 20th, 2023
Gene Model: February 15th, 2022
|
| 6 months ago | hin7 | hairpin-induced7: | | GRMZM2G042488
| Zhang, Yaping et al. 2023. Identification of the Maize LEA Gene Family and Its Relationship with Kernel Dehydration Plants. 12:3674. | | Reference: October 25th, 2023
Gene Product: February 1st, 2021
Gene Model: March 26th, 2022
|
| 6 months ago | IDP3824 | : | 2.07 | GRMZM2G114322
| Angelo Raffaele Marcotrigiano et al. 2023. Hydroxamic acids: New players in the multifactorial mechanisms of maize resistance to Striga hermonthica Plant Physiol Biochem. 204:108134. | | Reference: October 25th, 2023
Variation: March 31st, 2005
Gene Model: May 3rd, 2021
|
| 6 months ago | IDP3971 | : | 7.02 | GRMZM2G053637
| Zhang, Yaping et al. 2023. Identification of the Maize LEA Gene Family and Its Relationship with Kernel Dehydration Plants. 12:3674. | | Reference: October 25th, 2023
Variation: March 31st, 2005
Gene Model: July 6th, 2021
|
| 6 months ago | IDP387 | : | 8.08 | AC204359.3_FG005
| Angelo Raffaele Marcotrigiano et al. 2023. Hydroxamic acids: New players in the multifactorial mechanisms of maize resistance to Striga hermonthica Plant Physiol Biochem. 204:108134. | | Reference: October 25th, 2023
Variation: March 31st, 2005
Gene Model: September 3rd, 2019
|
| 6 months ago | IDP708 | : | 9.04 | GRMZM2G152417
| Jiang Shi et al. 2023. Physiological, Metabolic, and Transcriptomic Analyses Reveal the Effect of Sweet Corn Plants Treated with a New Biostimulant on the Growth Enhancement, Focusing on Enhancing Gibberellin Synthesis and Signal Transduction ACS Agric Sci Technol. :doi: 10.1021/acsagscitech.3c00177. | | Reference: October 25th, 2023
Variation: March 31st, 2005
Gene Model: January 22nd, 2019
|
| 6 months ago | magi2594 | : | 1.11 | GRMZM2G352415
| Zhang, Yaping et al. 2023. Identification of the Maize LEA Gene Family and Its Relationship with Kernel Dehydration Plants. 12:3674. | | Reference: October 25th, 2023
Variation: April 24th, 2006
Gene Model: February 16th, 2020
|
| 6 months ago | umi12 | ustilago maydis induced12: | 1.10 | GRMZM2G149923
| Jiang Shi et al. 2023. Physiological, Metabolic, and Transcriptomic Analyses Reveal the Effect of Sweet Corn Plants Treated with a New Biostimulant on the Growth Enhancement, Focusing on Enhancing Gibberellin Synthesis and Signal Transduction ACS Agric Sci Technol. :doi: 10.1021/acsagscitech.3c00177. | | Reference: October 25th, 2023
Gene Product: January 12th, 2015
Variation: April 17th, 2008
Gene Model: January 12th, 2015
|
| 6 months ago | cah7 | carbonic anhydrase7: | | | Qiqi Zhang et al. 2023. Regulatory NADH dehydrogenase-like complex optimizes C4 photosynthetic carbon flow and cellular redox in maize. New Phytol. :doi: 10.1111/nph.19332. | | Reference: October 24th, 2023
Gene Product: February 26th, 2019
|
| 6 months ago | rbcL2 | ribulose-1-5-bisphosphate carboxylase-large subunit2: | | | Qiqi Zhang et al. 2023. Regulatory NADH dehydrogenase-like complex optimizes C4 photosynthetic carbon flow and cellular redox in maize. New Phytol. :doi: 10.1111/nph.19332. | | Reference: October 24th, 2023
Gene Product: September 1st, 2003
|
| 6 months ago | zmm1 | Zea mays MADS1: | 10.03 | GRMZM2G010669
| Lipps, S et al. 2023. Inhibition of ethylene involved in resistance to E. turcicum in an exotic-derived double haploid maize population. Frontiers in Plant Science. 14:1272951. | | Reference: October 24th, 2023
Gene Product: September 1st, 2003
Variation: September 1st, 2003
Gene Model: July 3rd, 2012
|
| 6 months ago | ndhn1 | NADH dehydrogenase I subunit N1: | 3.06 | GRMZM2G110277
| Qiqi Zhang et al. 2023. Regulatory NADH dehydrogenase-like complex optimizes C4 photosynthetic carbon flow and cellular redox in maize. New Phytol. :doi: 10.1111/nph.19332. | | Reference: October 24th, 2023
Gene Product: March 22nd, 2022
Variation: September 3rd, 2021
Gene Model: April 5th, 2020
|
| 6 months ago | remo1 | remorin1: | | GRMZM2G107774
| Lipps, S et al. 2023. Inhibition of ethylene involved in resistance to E. turcicum in an exotic-derived double haploid maize population. Frontiers in Plant Science. 14:1272951. | | Reference: October 24th, 2023
Gene Product: September 24th, 2018
Variation: February 6th, 2016
Gene Model: February 6th, 2016
|
| 6 months ago | gpat20 | glycerol-3-phosphate acyltransferase20: | | GRMZM2G075295
| Lipps, S et al. 2023. Inhibition of ethylene involved in resistance to E. turcicum in an exotic-derived double haploid maize population. Frontiers in Plant Science. 14:1272951. | | Reference: October 24th, 2023
Gene Product: March 25th, 2019
Gene Model: April 25th, 2019
|
| 6 months ago | ndho1 | NADH-plastoquinone oxidoreductase1: | 8.06 | GRMZM2G133844
| Qiqi Zhang et al. 2023. Regulatory NADH dehydrogenase-like complex optimizes C4 photosynthetic carbon flow and cellular redox in maize. New Phytol. :doi: 10.1111/nph.19332. | | Reference: October 24th, 2023
Gene Product: September 1st, 2003
Variation: September 6th, 2021
Gene Model: September 5th, 2021
|
| 6 months ago | gtr3 | glutamyl-tRNA reductase3: | | | Yang, WZ et al. 2023. ZmGluTR1 is involved in chlorophyll biosynthesis and is essential for maize development. J Plant Physiol. 290:doi: 10.1016/j.jplph.2023.154115. | | Reference: October 23rd, 2023
Gene Product: October 23rd, 2023
|
| 6 months ago | zmm6 | Zea mays MADS6: | 1.06 | | Mirzakhmedov Mukhammadjon et al. 2023. Target genes utilized for drought tolerance enhancement in maize Plant Science Today. :doi: 10.14719/pst.2561. | | Reference: October 23rd, 2023
Gene Product: September 10th, 2021
Variation: August 8th, 2008
|
| 6 months ago | hscf1 | heat shock complementing factor1: | 9.03 | GRMZM2G139082
| Zuo, WL et al. 2023. A transcriptional activator effector of Ustilago maydis regulates hyperplasia in maize during pathogen-induced tumor formation Nat Commun. 14:6722. | | Reference: October 23rd, 2023
Variation: December 22nd, 2012
Gene Model: July 28th, 2016
|
| 6 months ago | rafs1 | raffinose synthase1: | 3.03 | GRMZM2G150906
| Mirzakhmedov Mukhammadjon et al. 2023. Target genes utilized for drought tolerance enhancement in maize Plant Science Today. :doi: 10.14719/pst.2561. | | Reference: October 23rd, 2023
Gene Product: October 25th, 2019
Variation: March 23rd, 2018
Gene Model: March 23rd, 2018
|
| 6 months ago | AY110625 | : | 5.00 | GRMZM2G305216
| Zuo, WL et al. 2023. A transcriptional activator effector of Ustilago maydis regulates hyperplasia in maize during pathogen-induced tumor formation Nat Commun. 14:6722. | | Reference: October 23rd, 2023
Variation: September 25th, 2007
Gene Model: June 13th, 2018
|
| 6 months ago | mkkk16 | MAP kinase kinase kinase16: | 2.06 | GRMZM2G098828
| Mirzakhmedov Mukhammadjon et al. 2023. Target genes utilized for drought tolerance enhancement in maize Plant Science Today. :doi: 10.14719/pst.2561. | | Reference: October 23rd, 2023
Gene Product: March 14th, 2022
Gene Model: July 11th, 2013
|
| 6 months ago | yab9 | yabby9: | 5.03 | | Zuo, WL et al. 2023. A transcriptional activator effector of Ustilago maydis regulates hyperplasia in maize during pathogen-induced tumor formation Nat Commun. 14:6722. | | Reference: October 23rd, 2023
Gene Product: October 16th, 2015
Variation: March 23rd, 2009
|
| 6 months ago | plc1 | phospholipase C1: | | GRMZM5G889467
| Mirzakhmedov Mukhammadjon et al. 2023. Target genes utilized for drought tolerance enhancement in maize Plant Science Today. :doi: 10.14719/pst.2561. | | Reference: October 23rd, 2023
Gene Product: January 12th, 2021
Gene Model: December 6th, 2016
|
| 6 months ago | slac1 | slow anion channel-associated1: | | GRMZM2G106881
| Mirzakhmedov Mukhammadjon et al. 2023. Target genes utilized for drought tolerance enhancement in maize Plant Science Today. :doi: 10.14719/pst.2561. | | Reference: October 23rd, 2023
Gene Product: February 1st, 2018
Variation: September 9th, 2021
Gene Model: February 1st, 2018
|
| 6 months ago | tipd1 | tip growth defective1: | | GRMZM2G087806
| Mirzakhmedov Mukhammadjon et al. 2023. Target genes utilized for drought tolerance enhancement in maize Plant Science Today. :doi: 10.14719/pst.2561. | AT5G20350 (TAIR) | Reference: October 23rd, 2023
Gene Product: February 26th, 2022
Variation: November 8th, 2019
Gene Model: November 8th, 2019
|
| 6 months ago | pis1 | phosphatidylinositol synthase1: | | GRMZM2G110646
| Mirzakhmedov Mukhammadjon et al. 2023. Target genes utilized for drought tolerance enhancement in maize Plant Science Today. :doi: 10.14719/pst.2561. | | Reference: October 23rd, 2023
Gene Product: September 18th, 2020
Gene Model: September 18th, 2020
|
| 6 months ago | yab15 | yabby15: | 5.05 | | Zuo, WL et al. 2023. A transcriptional activator effector of Ustilago maydis regulates hyperplasia in maize during pathogen-induced tumor formation Nat Commun. 14:6722. | | Reference: October 23rd, 2023
Gene Product: October 16th, 2015
Variation: December 30th, 2014
|
| 6 months ago | mocos1 | molybdenum cofactor sulfurase1: | | GRMZM2G048092
| Mirzakhmedov Mukhammadjon et al. 2023. Target genes utilized for drought tolerance enhancement in maize Plant Science Today. :doi: 10.14719/pst.2561. | AT1G16540 (TAIR) | Reference: October 23rd, 2023
Gene Product: January 23rd, 2021
Gene Model: January 23rd, 2021
|
| 6 months ago | Zm00001d010720 | : | | | Ran Tian et al. 2023. Identification of Morphogenesis-Related NDR Kinase Signaling Network and Its Regulation on Cold Tolerance in Maize Plants. 12:3639. | | Reference: October 21st, 2023
Variation: October 21st, 2023
|
| 6 months ago | wrky67 | WRKY-transcription factor 67: | | | Mei Zhou et al. 2023. Important Factors Controlling Gibberellin Homeostasis in Plant Height Regulation J Agric Food Chem. :doi: 10.1021/acs.jafc.3c03560. | | Reference: October 21st, 2023
Gene Product: July 24th, 2017
|
| 6 months ago | cl11011_1 | : | 1.10 | | Ran Tian et al. 2023. Identification of Morphogenesis-Related NDR Kinase Signaling Network and Its Regulation on Cold Tolerance in Maize Plants. 12:3639. | | Reference: October 21st, 2023
Variation: September 25th, 2007
|
| 6 months ago | IDP511 | : | 1.04 | GRMZM5G862467
| Ran Tian et al. 2023. Identification of Morphogenesis-Related NDR Kinase Signaling Network and Its Regulation on Cold Tolerance in Maize Plants. 12:3639. | | Reference: October 21st, 2023
Variation: March 31st, 2005
Gene Model: February 13th, 2019
|
| 6 months ago | tua5 | alpha tubulin5: | 2.08 | | Zhao, YP et al. 2022. The evening complex promotes maize flowering and adaptation to temperate regions Plant Cell. :doi: 10.1093/plcell/koac296. | | Reference: October 20th, 2023
Gene Product: September 1st, 2003
Variation: August 16th, 2013
|
| 6 months ago | alt4 | L-alanine:2-oxoglutarate aminotransferase4: | 5.03 | GRMZM2G088064
| Claeys, H et al. 2023. Coordinated gene upregulation in maize through CRISPR/Cas-mediated enhancer insertion. Plant Biotechnol J. :doi: 10.1111/pbi.14191. | | Reference: October 20th, 2023
Gene Product: October 2nd, 2020
Variation: February 26th, 2010
Gene Model: July 23rd, 2014
|
| 6 months ago | aic3 | auxin import carrier3: | 1.03 | GRMZM2G149481
| Zheng, ZG et al. 2023. Local Auxin Biosynthesis Regulates Brace Root Angle and Lodging Resistance in Maize. New Phytol. :doi: 10.1111/nph.18733. | | Reference: October 20th, 2023
Gene Product: April 19th, 2017
Gene Model: April 19th, 2017
|
| 6 months ago | yuc3 | Yucca3: | | GRMZM2G107761
| Zheng, ZG et al. 2023. Local Auxin Biosynthesis Regulates Brace Root Angle and Lodging Resistance in Maize. New Phytol. :doi: 10.1111/nph.18733. | | Reference: October 20th, 2023
Gene Product: June 18th, 2018
Gene Model: September 12th, 2012
|
| 6 months ago | yuc7 | yucca7: | | GRMZM2G480386
| Zheng, ZG et al. 2023. Local Auxin Biosynthesis Regulates Brace Root Angle and Lodging Resistance in Maize. New Phytol. :doi: 10.1111/nph.18733. | | Reference: October 20th, 2023
Gene Product: June 18th, 2018
Gene Model: August 19th, 2017
|
| 6 months ago | yuc8 | yucca8: | | GRMZM2G017193
| Zheng, ZG et al. 2023. Local Auxin Biosynthesis Regulates Brace Root Angle and Lodging Resistance in Maize. New Phytol. :doi: 10.1111/nph.18733. | | Reference: October 20th, 2023
Gene Product: June 18th, 2018
Gene Model: August 19th, 2017
|
| 6 months ago | aic4 | auxin import carrier4: | | GRMZM2G067022
| Zheng, ZG et al. 2023. Local Auxin Biosynthesis Regulates Brace Root Angle and Lodging Resistance in Maize. New Phytol. :doi: 10.1111/nph.18733. | | Reference: October 20th, 2023
Gene Product: April 19th, 2017
Gene Model: December 28th, 2018
|
| 6 months ago | alt12 | alanine aminotransferase12: | | GRMZM5G828630
| Claeys, H et al. 2023. Coordinated gene upregulation in maize through CRISPR/Cas-mediated enhancer insertion. Plant Biotechnol J. :doi: 10.1111/pbi.14191. | | Reference: October 20th, 2023
Gene Product: October 2nd, 2020
Gene Model: July 22nd, 2020
|
| 6 months ago | yuc10 | yucca10: | | GRMZM2G013045
| Zheng, ZG et al. 2023. Local Auxin Biosynthesis Regulates Brace Root Angle and Lodging Resistance in Maize. New Phytol. :doi: 10.1111/nph.18733. | | Reference: October 20th, 2023
Gene Product: June 18th, 2018
Gene Model: October 6th, 2021
|
| 6 months ago | saur42 | small auxin up RNA42: | | GRMZM2G015049
| Kong, DX et al. 2022. UB2/UB3/TSH4-anchored transcriptional networks regulate early maize inflorescence development in response to simulated shade. Plant Cell. :doi: 10.1093/plcell/koac352. | | Reference: October 20th, 2023
Gene Product: November 26th, 2021
Gene Model: November 26th, 2021
|
| 6 months ago | gogat2 | glutamate synthase2: | | GRMZM2G085078
| Claeys, H et al. 2023. Coordinated gene upregulation in maize through CRISPR/Cas-mediated enhancer insertion. Plant Biotechnol J. :doi: 10.1111/pbi.14191. | | Reference: October 20th, 2023
Gene Product: January 2nd, 2022
Gene Model: January 2nd, 2022
|
| 6 months ago | yuc11 | yucca11: | | GRMZM2G328780
| Zheng, ZG et al. 2023. Local Auxin Biosynthesis Regulates Brace Root Angle and Lodging Resistance in Maize. New Phytol. :doi: 10.1111/nph.18733. | | Reference: October 20th, 2023
Gene Product: June 18th, 2018
Gene Model: June 17th, 2022
|
| 6 months ago | yuc12 | yucca12: | | GRMZM2G025748
| Zheng, ZG et al. 2023. Local Auxin Biosynthesis Regulates Brace Root Angle and Lodging Resistance in Maize. New Phytol. :doi: 10.1111/nph.18733. | | Reference: October 20th, 2023
Gene Product: June 18th, 2018
Gene Model: June 17th, 2022
|
| 6 months ago | yuc13 | yucca13: | | GRMZM2G333035
| Zheng, ZG et al. 2023. Local Auxin Biosynthesis Regulates Brace Root Angle and Lodging Resistance in Maize. New Phytol. :doi: 10.1111/nph.18733. | | Reference: October 20th, 2023
Gene Product: June 18th, 2018
Gene Model: June 17th, 2022
|
| 6 months ago | yuc5 | Yucca5: | 7.02 | GRMZM2G132489
| Zheng, ZG et al. 2023. Local Auxin Biosynthesis Regulates Brace Root Angle and Lodging Resistance in Maize. New Phytol. :doi: 10.1111/nph.18733. | | Reference: October 20th, 2023
Gene Product: June 18th, 2018
Gene Model: June 17th, 2016
|
| 6 months ago | Zm00001eb018140 | : | | | Rui Gao et al. 2023. Comprehensive study of serine/arginine-rich (SR) gene family in rice: characterization, evolution and expression analysis. PeerJ. 11:e16193. | | Reference: October 18th, 2023
Gene Product: October 18th, 2023
|
| 6 months ago | Zm00001eb282350 | : | | | Rui Gao et al. 2023. Comprehensive study of serine/arginine-rich (SR) gene family in rice: characterization, evolution and expression analysis. PeerJ. 11:e16193. | | Reference: October 18th, 2023
Gene Product: October 18th, 2023
|
| 6 months ago | Zm00001eb208490 | : | | | Rui Gao et al. 2023. Comprehensive study of serine/arginine-rich (SR) gene family in rice: characterization, evolution and expression analysis. PeerJ. 11:e16193. | | Reference: October 18th, 2023
Gene Product: October 18th, 2023
|
| 6 months ago | phm5798 | : | 5.03 | GRMZM5G872147
| Rui Gao et al. 2023. Comprehensive study of serine/arginine-rich (SR) gene family in rice: characterization, evolution and expression analysis. PeerJ. 11:e16193. | | Reference: October 18th, 2023
Gene Product: October 18th, 2023
Gene Model: August 27th, 2021
|
| 6 months ago | RS2Z35 | : | 6.01 | | Rui Gao et al. 2023. Comprehensive study of serine/arginine-rich (SR) gene family in rice: characterization, evolution and expression analysis. PeerJ. 11:e16193. | | Reference: October 18th, 2023
Gene Product: October 18th, 2023
|
| 6 months ago | RS2Z37B | : | 6.01 | GRMZM2G099317
| Rauch, HB et al. 2013. Mol Biol Evol 31:605-613 | | Reference: January 25th, 2021
Gene Product: October 18th, 2023
Gene Model: December 17th, 2019
|
| 6 months ago | TIDP3152 | : | 2.08 | GRMZM2G077823
| Rui Gao et al. 2023. Comprehensive study of serine/arginine-rich (SR) gene family in rice: characterization, evolution and expression analysis. PeerJ. 11:e16193. | | Reference: October 18th, 2023
Gene Product: October 18th, 2023
Gene Model: February 20th, 2019
|
| 6 months ago | magi9101 | : | 4.05 | GRMZM2G107896
| Rui Gao et al. 2023. Comprehensive study of serine/arginine-rich (SR) gene family in rice: characterization, evolution and expression analysis. PeerJ. 11:e16193. | | Reference: October 18th, 2023
Gene Product: October 18th, 2023
Gene Model: April 18th, 2020
|
| 6 months ago | asrp2 | arginine/serine-rich splicing factor2: | 2.05 | GRMZM2G021223
| Rui Gao et al. 2023. Comprehensive study of serine/arginine-rich (SR) gene family in rice: characterization, evolution and expression analysis. PeerJ. 11:e16193. | | Reference: October 18th, 2023
Gene Product: October 18th, 2023
Variation: February 7th, 2009
Gene Model: February 1st, 2018
|
| 6 months ago | AY109715 | : | 4.00 | GRMZM2G145725
| Rui Gao et al. 2023. Comprehensive study of serine/arginine-rich (SR) gene family in rice: characterization, evolution and expression analysis. PeerJ. 11:e16193. | | Reference: October 18th, 2023
Gene Product: October 18th, 2023
Variation: July 29th, 2004
Gene Model: April 12th, 2018
|
| 6 months ago | SC32 | : | 1.06 | | Rui Gao et al. 2023. Comprehensive study of serine/arginine-rich (SR) gene family in rice: characterization, evolution and expression analysis. PeerJ. 11:e16193. | | Reference: October 18th, 2023
Gene Product: October 18th, 2023
Variation: September 25th, 2007
|
| 6 months ago | pco118328a | : | 4.07 | GRMZM2G070239
| Rui Gao et al. 2023. Comprehensive study of serine/arginine-rich (SR) gene family in rice: characterization, evolution and expression analysis. PeerJ. 11:e16193. | | Reference: October 18th, 2023
Gene Product: October 18th, 2023
Gene Model: April 22nd, 2020
|
| 6 months ago | srp32 | serine/ariginine domain protein32: | | GRMZM2G436092
| Rui Gao et al. 2023. Comprehensive study of serine/arginine-rich (SR) gene family in rice: characterization, evolution and expression analysis. PeerJ. 11:e16193. | | Reference: October 18th, 2023
Gene Product: October 18th, 2023
Gene Model: June 25th, 2020
|
| 6 months ago | srp30 | serine/ariginine domain protein30: | | GRMZM2G331811
| Rui Gao et al. 2023. Comprehensive study of serine/arginine-rich (SR) gene family in rice: characterization, evolution and expression analysis. PeerJ. 11:e16193. | | Reference: October 18th, 2023
Gene Product: October 18th, 2023
Gene Model: June 25th, 2020
|
| 6 months ago | RS2Z37A | : | | GRMZM2G175419
| Rauch, HB et al. 2013. Mol Biol Evol 31:605-613 | | Reference: January 25th, 2021
Gene Product: October 18th, 2023
Gene Model: January 25th, 2021
|
| 6 months ago | SC30 | : | | GRMZM2G016296
| Rui Gao et al. 2023. Comprehensive study of serine/arginine-rich (SR) gene family in rice: characterization, evolution and expression analysis. PeerJ. 11:e16193. | | Reference: October 18th, 2023
Gene Product: October 18th, 2023
Gene Model: January 25th, 2021
|
| 6 months ago | SC26 | : | | GRMZM2G104353
| Rui Gao et al. 2023. Comprehensive study of serine/arginine-rich (SR) gene family in rice: characterization, evolution and expression analysis. PeerJ. 11:e16193. | | Reference: October 18th, 2023
Gene Product: October 18th, 2023
Gene Model: January 25th, 2021
|
| 6 months ago | SCL28 | : | | | Rui Gao et al. 2023. Comprehensive study of serine/arginine-rich (SR) gene family in rice: characterization, evolution and expression analysis. PeerJ. 11:e16193. | | Reference: October 18th, 2023
Gene Product: October 18th, 2023
|
| 6 months ago | SCL25A | : | | GRMZM2G426229
| Rui Gao et al. 2023. Comprehensive study of serine/arginine-rich (SR) gene family in rice: characterization, evolution and expression analysis. PeerJ. 11:e16193. | | Reference: October 18th, 2023
Gene Product: October 18th, 2023
Gene Model: January 25th, 2021
|
| 6 months ago | sr45_1 | splicing regulator45_1: | | GRMZM2G060540
| Rui Gao et al. 2023. Comprehensive study of serine/arginine-rich (SR) gene family in rice: characterization, evolution and expression analysis. PeerJ. 11:e16193. | | Reference: October 18th, 2023
Gene Product: October 18th, 2023
Gene Model: January 25th, 2021
|
| 6 months ago | sr45_2 | splicing regulator45_2: | | GRMZM2G133926
| Rui Gao et al. 2023. Comprehensive study of serine/arginine-rich (SR) gene family in rice: characterization, evolution and expression analysis. PeerJ. 11:e16193. | | Reference: October 18th, 2023
Gene Product: October 18th, 2023
Gene Model: January 25th, 2021
|
| 6 months ago | SR30 | : | | GRMZM2G390729
| Rauch, HB et al. 2013. Mol Biol Evol 31:605-613 | | Reference: January 25th, 2021
Gene Product: October 18th, 2023
Gene Model: January 25th, 2021
|
| 6 months ago | RSZ28 | : | 5.05 | GRMZM2G027105
| Rui Gao et al. 2023. Comprehensive study of serine/arginine-rich (SR) gene family in rice: characterization, evolution and expression analysis. PeerJ. 11:e16193. | | Reference: October 18th, 2023
Gene Product: October 18th, 2023
Gene Model: May 20th, 2020
|
| 6 months ago | SCL25B | : | 7.04 | GRMZM5G867185
| Rui Gao et al. 2023. Comprehensive study of serine/arginine-rich (SR) gene family in rice: characterization, evolution and expression analysis. PeerJ. 11:e16193. | | Reference: October 18th, 2023
Gene Product: October 18th, 2023
Gene Model: January 25th, 2021
|
| 6 months ago | si618042d11 | : | 7.04 | | Rui Gao et al. 2023. Comprehensive study of serine/arginine-rich (SR) gene family in rice: characterization, evolution and expression analysis. PeerJ. 11:e16193. | | Reference: October 18th, 2023
Gene Product: October 18th, 2023
|
| 6 months ago | RSZ21 | : | 9.02 | GRMZM2G151923
| Rui Gao et al. 2023. Comprehensive study of serine/arginine-rich (SR) gene family in rice: characterization, evolution and expression analysis. PeerJ. 11:e16193. | | Reference: October 18th, 2023
Gene Product: October 18th, 2023
Gene Model: January 25th, 2021
|
| 6 months ago | RS2Z39 | : | 8.05 | GRMZM2G474658
| Rauch, HB et al. 2013. Mol Biol Evol 31:605-613 | | Reference: January 25th, 2021
Gene Product: October 18th, 2023
Gene Model: January 25th, 2021
|
| 6 months ago | asrp1 | arginine/serine-rich splicing factor1: | 10.04 | GRMZM2G052166
| Nan, G et al. 2022. Plant Cell pp.doi: 10.1093/plcell/koac007 | | Reference: January 10th, 2022
Gene Product: October 18th, 2023
Variation: February 7th, 2009
Gene Model: January 3rd, 2018
|
| 6 months ago | srp31 | serine/ariginine domain protein31: | 6.05 | GRMZM2G170365
| Rui Gao et al. 2023. Comprehensive study of serine/arginine-rich (SR) gene family in rice: characterization, evolution and expression analysis. PeerJ. 11:e16193. | | Reference: October 18th, 2023
Gene Product: October 18th, 2023
Gene Model: January 8th, 2020
|
| 6 months ago | SCL30 | : | 1.05 | GRMZM2G065066
| Rauch, HB et al. 2013. Mol Biol Evol 31:605-613 | | Reference: January 25th, 2021
Gene Product: October 18th, 2023
Gene Model: February 9th, 2020
|
| 6 months ago | bak6 | brassinosteroid insensitive1-associated receptor kinase like6: | | | Runze Di et al. 2023. Sheath Blight of Maize: An Overview and Prospects for Future Research Directions Agriculture. 13:2006. | | Reference: October 16th, 2023
Gene Product: January 18th, 2021
|
| 6 months ago | hak3 | potassium high-affinity transporter3: | | GRMZM2G477457
| Guo, S et al. 2023. Dynamic transcriptome analysis unravels key regulatory genes of maize root growth and development in response to potassium deficiency. Planta. 258:99. | | Reference: October 16th, 2023
Gene Product: March 12th, 2020
Gene Model: March 12th, 2020
|
| 6 months ago | hak6 | potassium high-affinity transporter6: | | GRMZM2G097505
| Guo, S et al. 2023. Dynamic transcriptome analysis unravels key regulatory genes of maize root growth and development in response to potassium deficiency. Planta. 258:99. | | Reference: October 16th, 2023
Gene Product: March 12th, 2020
Gene Model: March 12th, 2020
|
| 6 months ago | wrky131 | WRKY-transcription factor 131: | | GRMZM5G894568
| Guo, S et al. 2023. Dynamic transcriptome analysis unravels key regulatory genes of maize root growth and development in response to potassium deficiency. Planta. 258:99. | | Reference: October 16th, 2023
Gene Product: July 24th, 2017
Gene Model: December 2nd, 2021
|
| 6 months ago | ork1 | outward rectifying potassium channel1: | 4.05 | GRMZM2G156255
| Guo, S et al. 2023. Dynamic transcriptome analysis unravels key regulatory genes of maize root growth and development in response to potassium deficiency. Planta. 258:99. | | Reference: October 16th, 2023
Gene Product: February 19th, 2008
Variation: February 19th, 2008
Gene Model: June 3rd, 2017
|
| 6 months ago | pgl49 | polygalacturonase49: | 8.03 | GRMZM2G026804
| Yingni Huang et al. 2023. The Resistance of Maize to Ustilago maydis Infection Is Correlated with the Degree of Methyl Esterification of Pectin in the Cell Wall. Int J Mol Sci. 24:14737. | | Reference: October 14th, 2023
Gene Product: October 4th, 2021
Gene Model: July 10th, 2021
|
| 6 months ago | umc1489 | : | 3.07 | GRMZM2G077307
| Yingni Huang et al. 2023. The Resistance of Maize to Ustilago maydis Infection Is Correlated with the Degree of Methyl Esterification of Pectin in the Cell Wall. Int J Mol Sci. 24:14737. | | Reference: October 14th, 2023
Variation: September 1st, 2003
Gene Model: April 2nd, 2018
|
| 6 months ago | pme10 | pectin methylesterase10: | | GRMZM2G321870
| Yingni Huang et al. 2023. The Resistance of Maize to Ustilago maydis Infection Is Correlated with the Degree of Methyl Esterification of Pectin in the Cell Wall. Int J Mol Sci. 24:14737. | | Reference: October 14th, 2023
Gene Product: September 10th, 2018
Gene Model: December 28th, 2019
|
| 6 months ago | pme16 | pectin methylesterase16: | | GRMZM2G119864
| Yingni Huang et al. 2023. The Resistance of Maize to Ustilago maydis Infection Is Correlated with the Degree of Methyl Esterification of Pectin in the Cell Wall. Int J Mol Sci. 24:14737. | | Reference: October 14th, 2023
Gene Product: September 10th, 2018
Gene Model: December 28th, 2019
|
| 6 months ago | pme17 | pectin methylesterase17: | | GRMZM2G128682
| Yingni Huang et al. 2023. The Resistance of Maize to Ustilago maydis Infection Is Correlated with the Degree of Methyl Esterification of Pectin in the Cell Wall. Int J Mol Sci. 24:14737. | | Reference: October 14th, 2023
Gene Product: September 10th, 2018
Gene Model: December 28th, 2019
|
| 6 months ago | pmei26 | pectin methylesterase inhibitor26: | | GRMZM2G133146
| Yingni Huang et al. 2023. The Resistance of Maize to Ustilago maydis Infection Is Correlated with the Degree of Methyl Esterification of Pectin in the Cell Wall. Int J Mol Sci. 24:14737. | | Reference: October 14th, 2023
Gene Product: January 8th, 2019
Gene Model: December 28th, 2019
|
| 6 months ago | pmtr1 | phytomelatonin receptor1 : | | GRMZM2G123732
| Dipankar Barman et al. 2023. Identification of rice melatonin receptor OsPMTR and its comparative in silico analysis with arabidopsis AtCAND2 receptor S Afr J Bot. 162:813-829. | AT3G05010 (TAIR) | Reference: October 14th, 2023
Gene Product: December 20th, 2021
Variation: December 20th, 2021
Gene Model: December 20th, 2021
|
| 6 months ago | prp16 | pathogenesis-related protein116: | 5.08 | GRMZM5G852886
| Lopez-Coria, M et al. 2023. Maize plant expresses SWEET transporters differently when interacting with Trichoderma asperellum and Fusarium verticillioides, two fungi with different lifestyles. Frontiers in Plant Science. 14:1253741. | | Reference: October 13th, 2023
Gene Product: December 12th, 2022
Variation: September 1st, 2003
Gene Model: July 14th, 2018
|
| 6 months ago | aos1 | allene oxide synthase1: | 9.06 | GRMZM2G067225
| Lopez-Coria, M et al. 2023. Maize plant expresses SWEET transporters differently when interacting with Trichoderma asperellum and Fusarium verticillioides, two fungi with different lifestyles. Frontiers in Plant Science. 14:1253741. | | Reference: October 13th, 2023
Gene Product: September 1st, 2003
Variation: September 24th, 2010
Gene Model: October 29th, 2015
|
| 6 months ago | sweet2 | sugars will eventually be exported transporter2: | | GRMZM2G324903
| Lopez-Coria, M et al. 2023. Maize plant expresses SWEET transporters differently when interacting with Trichoderma asperellum and Fusarium verticillioides, two fungi with different lifestyles. Frontiers in Plant Science. 14:1253741. | | Reference: October 13th, 2023
Gene Product: November 4th, 2015
Variation: March 19th, 2021
Gene Model: November 3rd, 2015
|
| 6 months ago | sweet3b | sugars will eventually be exported transporter3b: | | GRMZM2G060974
| Lopez-Coria, M et al. 2023. Maize plant expresses SWEET transporters differently when interacting with Trichoderma asperellum and Fusarium verticillioides, two fungi with different lifestyles. Frontiers in Plant Science. 14:1253741. | | Reference: October 13th, 2023
Gene Product: November 4th, 2015
Gene Model: November 3rd, 2015
|
| 6 months ago | sweet12a | sugars will eventually be exported transporter12a: | | GRMZM2G133322
| Lopez-Coria, M et al. 2023. Maize plant expresses SWEET transporters differently when interacting with Trichoderma asperellum and Fusarium verticillioides, two fungi with different lifestyles. Frontiers in Plant Science. 14:1253741. | | Reference: October 13th, 2023
Gene Product: November 4th, 2015
Gene Model: November 3rd, 2015
|
| 6 months ago | sweet14b | sugars will eventually be exported transporter14b: | | GRMZM2G015976
| Lopez-Coria, M et al. 2023. Maize plant expresses SWEET transporters differently when interacting with Trichoderma asperellum and Fusarium verticillioides, two fungi with different lifestyles. Frontiers in Plant Science. 14:1253741. | | Reference: October 13th, 2023
Gene Product: November 4th, 2015
Gene Model: November 3rd, 2015
|
| 6 months ago | sweet17a | sugars will eventually be exported transporter17a: | | GRMZM2G106462
| Lopez-Coria, M et al. 2023. Maize plant expresses SWEET transporters differently when interacting with Trichoderma asperellum and Fusarium verticillioides, two fungi with different lifestyles. Frontiers in Plant Science. 14:1253741. | | Reference: October 13th, 2023
Gene Product: November 4th, 2015
Variation: February 23rd, 2019
Gene Model: November 3rd, 2015
|
| 6 months ago | aprt2 | adenine phosphoribosyltransferase2: | 3.04 | GRMZM2G093347
| Feizollah A Maleki et al. 2023. Stomatal closure prevents xylem transport of green leaf volatiles and impairs their systemic function in plants. Plant Cell Environ. :doi: 10.1111/pce.14735. | | Reference: October 13th, 2023
Gene Product: April 17th, 2008
Gene Model: November 7th, 2021
|
| 6 months ago | knox5 | knotted related homeobox5: | 8.05 | GRMZM5G832409
| Desbiez-Piat, A et al. 2023. Pervasive GxE interactions shape adaptive trajectories and the exploration of the phenotypic space in artificial selection experiments. Genetics. :doi:10.1093/genetics/iyad186. | | Reference: October 12th, 2023
Gene Product: September 1st, 2003
Variation: March 9th, 2012
Gene Model: March 8th, 2012
|
| 7 months ago | shki3 | shikimate kinase3: | | | Washburn, JD et al. 2023. GWAS analysis of maize host plant resistance to western corn rootworm (Coleoptera: Chrysomelidae) reveals candidate small effect loci for resistance breeding. J Econ Entomol. | AT2G21940 (TAIR) | Reference: October 11th, 2023
Gene Product: January 2nd, 2023
|
| 7 months ago | vq23 | VQ motif-transcription factor23: | | GRMZM2G322950
| Washburn, JD et al. 2023. GWAS analysis of maize host plant resistance to western corn rootworm (Coleoptera: Chrysomelidae) reveals candidate small effect loci for resistance breeding. J Econ Entomol. | | Reference: October 11th, 2023
Gene Product: August 31st, 2019
Gene Model: August 31st, 2019
|
| 7 months ago | dhn2 | dehydrin2: | 9.03 | GRMZM2G098750
| Tang, X et al. 2023. Identification and Functional Analysis of Drought-Responsive Long Noncoding RNAs in Maize Roots Int J Mol Sci. 24:15039. | | Reference: October 10th, 2023
Gene Product: September 1st, 2003
Gene Model: October 12th, 2018
|
| 7 months ago | syd1 | splayed ATPase1: | 6.05 | GRMZM2G387890
| Yan, HY et al. 2023. PlantCHRs: a comprehensive database of plant chromatin remodeling factors Comput Struct Biotechnol J. :doi: 10.1016/j.csbj.2023.10.005. | | Reference: October 10th, 2023
Variation: September 1st, 2003
Gene Model: August 15th, 2017
|
| 7 months ago | hsftf29 | HSF-transcription factor 29: | | | Erika L Ellison et al. 2023. Mutator transposon insertions within maize genes often provide a novel outward reading promoter Genetics. :doi: 10.1093/genetics/iyad171. | | Reference: October 10th, 2023
Gene Product: May 15th, 2020
|
| 7 months ago | hsftf6 | HSF-transcription factor 6: | | | Erika L Ellison et al. 2023. Mutator transposon insertions within maize genes often provide a novel outward reading promoter Genetics. :doi: 10.1093/genetics/iyad171. | | Reference: October 10th, 2023
Gene Product: May 15th, 2020
|
| 7 months ago | jmj13 | JUMONJI-transcription factor 13: | | | Erika L Ellison et al. 2023. Mutator transposon insertions within maize genes often provide a novel outward reading promoter Genetics. :doi: 10.1093/genetics/iyad171. | | Reference: October 10th, 2023
Gene Product: April 3rd, 2019
|
| 7 months ago | sbp20 | SBP-transcription factor 20: | | | Erika L Ellison et al. 2023. Mutator transposon insertions within maize genes often provide a novel outward reading promoter Genetics. :doi: 10.1093/genetics/iyad171. | | Reference: October 10th, 2023
Gene Product: July 5th, 2019
Variation: February 22nd, 2018
|
| 7 months ago | brm1 | brahma1: | | GRMZM2G163849
| Yan, HY et al. 2023. PlantCHRs: a comprehensive database of plant chromatin remodeling factors Comput Struct Biotechnol J. :doi: 10.1016/j.csbj.2023.10.005. | AT2G46020 (TAIR)
LOC_Os02g02290 (MSU/TIGR) | Reference: October 10th, 2023
Gene Product: July 7th, 2015
Variation: July 6th, 2015
Gene Model: July 6th, 2015
|
| 7 months ago | chr112a | chromatin complex subunit A: | 4.05 | GRMZM2G030768
| Yan, HY et al. 2023. PlantCHRs: a comprehensive database of plant chromatin remodeling factors Comput Struct Biotechnol J. :doi: 10.1016/j.csbj.2023.10.005. | | Reference: October 10th, 2023
Variation: September 1st, 2003
Gene Model: November 14th, 2021
|
| 7 months ago | chr118 | chromatin complex subunit A: | 6.07 | GRMZM2G168096
| Yan, HY et al. 2023. PlantCHRs: a comprehensive database of plant chromatin remodeling factors Comput Struct Biotechnol J. :doi: 10.1016/j.csbj.2023.10.005. | | Reference: October 10th, 2023
Variation: September 1st, 2003
Gene Model: November 10th, 2018
|
| 7 months ago | chr12 | chromatin complex subunit A 12: | 2.08 | GRMZM2G097289
| Yan, HY et al. 2023. PlantCHRs: a comprehensive database of plant chromatin remodeling factors Comput Struct Biotechnol J. :doi: 10.1016/j.csbj.2023.10.005. | | Reference: October 10th, 2023
Variation: September 1st, 2003
Gene Model: July 27th, 2016
|
| 7 months ago | chr125a | chromatin complex subunit A 125a: | 9.04 | GRMZM2G007922
| Yan, HY et al. 2023. PlantCHRs: a comprehensive database of plant chromatin remodeling factors Comput Struct Biotechnol J. :doi: 10.1016/j.csbj.2023.10.005. | | Reference: October 10th, 2023
Variation: September 1st, 2003
Gene Model: November 10th, 2018
|
| 7 months ago | chr125b | chromatin complex subunit A: | 1.04 | GRMZM2G469162
| Yan, HY et al. 2023. PlantCHRs: a comprehensive database of plant chromatin remodeling factors Comput Struct Biotechnol J. :doi: 10.1016/j.csbj.2023.10.005. | | Reference: October 10th, 2023
Variation: September 1st, 2003
Gene Model: November 10th, 2018
|
| 7 months ago | chr126a | chromatin complex subunit A 126a: | 8.03 | AC235535.1_FG001
| Yan, HY et al. 2023. PlantCHRs: a comprehensive database of plant chromatin remodeling factors Comput Struct Biotechnol J. :doi: 10.1016/j.csbj.2023.10.005. | | Reference: October 10th, 2023
Variation: September 1st, 2003
Gene Model: November 10th, 2018
|
| 7 months ago | chr126b | chromatin complex subunit A 126b: | 3.04 | GRMZM2G015277
| Yan, HY et al. 2023. PlantCHRs: a comprehensive database of plant chromatin remodeling factors Comput Struct Biotechnol J. :doi: 10.1016/j.csbj.2023.10.005. | | Reference: October 10th, 2023
Variation: September 1st, 2003
Gene Model: November 10th, 2018
|
| 7 months ago | chr127 | : | 4.05 | GRMZM2G574858
| Yan, HY et al. 2023. PlantCHRs: a comprehensive database of plant chromatin remodeling factors Comput Struct Biotechnol J. :doi: 10.1016/j.csbj.2023.10.005. | | Reference: October 10th, 2023
Variation: September 25th, 2007
Gene Model: August 22nd, 2021
|
| 7 months ago | IDP2558 | : | 4.04 | GRMZM2G449355
| Yan, HY et al. 2023. PlantCHRs: a comprehensive database of plant chromatin remodeling factors Comput Struct Biotechnol J. :doi: 10.1016/j.csbj.2023.10.005. | | Reference: October 10th, 2023
Variation: March 31st, 2005
Gene Model: April 13th, 2020
|
| 7 months ago | IDP1673 | : | 7.05 | GRMZM2G148249
| Yan, HY et al. 2023. PlantCHRs: a comprehensive database of plant chromatin remodeling factors Comput Struct Biotechnol J. :doi: 10.1016/j.csbj.2023.10.005. | | Reference: October 10th, 2023
Variation: March 31st, 2005
Gene Model: February 6th, 2019
|
| 7 months ago | hmg1 | high mobility group protein1: | 5.03 | | Maman, S et al. 2023. Low expression of lipoxygenase 3 (LOX3) enhances the retention of kernel tocopherols in maize during storage. Mol Biol Rep. :doi: 10.1007/s11033-023-08820-8.. | | Reference: October 9th, 2023
Gene Product: September 1st, 2003
Variation: July 26th, 2013
|
| 7 months ago | cl5926_1a | : | 1.06 | GRMZM2G075003
| Du, L et al. 2023. Transcriptome Analysis and QTL Mapping Identify Candidate Genes and Regulatory Mechanisms Related to Low-Temperature Germination Ability in Maize Genes. 14:1917. | | Reference: October 9th, 2023
Variation: September 25th, 2007
Gene Model: August 8th, 2021
|
| 7 months ago | so1 | sulfite oxidase1: | 1.06 | GRMZM2G114739
| Du, L et al. 2023. Transcriptome Analysis and QTL Mapping Identify Candidate Genes and Regulatory Mechanisms Related to Low-Temperature Germination Ability in Maize Genes. 14:1917. | | Reference: October 9th, 2023
Gene Product: April 16th, 2013
Gene Model: April 16th, 2013
|
| 7 months ago | lox7 | lipoxygenase7: | 10.04 | GRMZM2G070092
| Maman, S et al. 2023. Low expression of lipoxygenase 3 (LOX3) enhances the retention of kernel tocopherols in maize during storage. Mol Biol Rep. :doi: 10.1007/s11033-023-08820-8.. | | Reference: October 9th, 2023
Gene Product: January 3rd, 2018
Variation: April 23rd, 2009
Gene Model: June 10th, 2014
|
| 7 months ago | lox9 | lipoxygenase9: | 1.02 | GRMZM2G017616
| Maman, S et al. 2023. Low expression of lipoxygenase 3 (LOX3) enhances the retention of kernel tocopherols in maize during storage. Mol Biol Rep. :doi: 10.1007/s11033-023-08820-8.. | | Reference: October 9th, 2023
Gene Product: January 3rd, 2018
Variation: June 12th, 2014
Gene Model: October 23rd, 2013
|
| 7 months ago | dsc2 | Discolored-paralog2: | | GRMZM5G872204
| Du, L et al. 2023. Transcriptome Analysis and QTL Mapping Identify Candidate Genes and Regulatory Mechanisms Related to Low-Temperature Germination Ability in Maize Genes. 14:1917. | | Reference: October 9th, 2023
Gene Product: June 23rd, 2012
Gene Model: June 22nd, 2012
|
| 7 months ago | nbcs4 | nucleobase:cation symporter4: | | GRMZM2G045781
| Shu, GP et al. 2023. Identification of southern corn rust resistance QTNs in Chinese summer maize germplasm via multi-locus GWAS and post-GWAS analysis. Frontiers in Plant Science. 14:1221395. | | Reference: October 9th, 2023
Gene Product: July 14th, 2018
Gene Model: July 14th, 2018
|
| 7 months ago | cct23 | CO CO-LIKE TIMING OF CAB1 protein domain23: | | GRMZM2G488465
| Shu, GP et al. 2023. Identification of southern corn rust resistance QTNs in Chinese summer maize germplasm via multi-locus GWAS and post-GWAS analysis. Frontiers in Plant Science. 14:1221395. | | Reference: October 9th, 2023
Gene Product: June 18th, 2018
Gene Model: August 17th, 2021
|
| 7 months ago | rlk10 | receptor-like protein kinase10: | | GRMZM2G132212
| Shu, GP et al. 2023. Identification of southern corn rust resistance QTNs in Chinese summer maize germplasm via multi-locus GWAS and post-GWAS analysis. Frontiers in Plant Science. 14:1221395. | | Reference: October 9th, 2023
Gene Product: July 10th, 2019
Variation: September 17th, 2021
Gene Model: September 17th, 2021
|
| 7 months ago | IDP716 | : | 1.07 | GRMZM5G882446
| Du, L et al. 2023. Transcriptome Analysis and QTL Mapping Identify Candidate Genes and Regulatory Mechanisms Related to Low-Temperature Germination Ability in Maize Genes. 14:1917. | | Reference: October 9th, 2023
Variation: March 31st, 2005
Gene Model: February 14th, 2019
|
| 7 months ago | uce14 | ubiquitin conjugating enzyme14: | | GRMZM2G074479
| Dong, XM et al. 2023. Transcriptome-wide identification and characterization of genes exhibit allele-specific imprinting in maize embryo and endosperm. BMC Plant Biology. 23:470. | | Reference: October 7th, 2023
Gene Product: December 19th, 2019
Gene Model: November 26th, 2019
|
| 7 months ago | mcm5 | minichromosome maintenance5: | 5.08 | GRMZM2G075978
| Dong, XM et al. 2023. Transcriptome-wide identification and characterization of genes exhibit allele-specific imprinting in maize embryo and endosperm. BMC Plant Biology. 23:470. | | Reference: October 7th, 2023
Gene Product: August 2nd, 2017
Gene Model: July 31st, 2017
|
| 7 months ago | ctr2 | constitutive triple response2: | | GRMZM2G098187
| Dong, XM et al. 2023. Transcriptome-wide identification and characterization of genes exhibit allele-specific imprinting in maize embryo and endosperm. BMC Plant Biology. 23:470. | | Reference: October 7th, 2023
Gene Product: May 13th, 2014
Gene Model: June 24th, 2021
|
| 7 months ago | pat1 | protein S-acyltransferase1: | | GRMZM2G111191
| Dong, XM et al. 2023. Transcriptome-wide identification and characterization of genes exhibit allele-specific imprinting in maize embryo and endosperm. BMC Plant Biology. 23:470. | | Reference: October 7th, 2023
Gene Product: February 26th, 2022
Gene Model: February 26th, 2022
|
| 7 months ago | IDP2450 | : | 1.10 | GRMZM5G837018
| Dong, XM et al. 2023. Transcriptome-wide identification and characterization of genes exhibit allele-specific imprinting in maize embryo and endosperm. BMC Plant Biology. 23:470. | | Reference: October 7th, 2023
Variation: March 31st, 2005
Gene Model: February 15th, 2019
|
| 7 months ago | IDP343 | : | 1.02 | GRMZM2G023575
| Dong, XM et al. 2023. Transcriptome-wide identification and characterization of genes exhibit allele-specific imprinting in maize embryo and endosperm. BMC Plant Biology. 23:470. | | Reference: October 7th, 2023
Variation: March 31st, 2005
Gene Model: February 11th, 2019
|
| 7 months ago | IDP3835 | : | 7.05 | GRMZM2G083580
| Dong, XM et al. 2023. Transcriptome-wide identification and characterization of genes exhibit allele-specific imprinting in maize embryo and endosperm. BMC Plant Biology. 23:470. | | Reference: October 7th, 2023
Variation: March 31st, 2005
Gene Model: July 7th, 2021
|
| 7 months ago | mdh2 | malate dehydrogenase2: | 6.07 | | Qu, LL et al. 2023. Leaf photosynthetic characteristics of waxy maize in response to different degrees of heat stress during grain filling BMC Plant Biology. 23:469. | | Reference: October 6th, 2023
Gene Product: September 1st, 2003
Variation: September 1st, 2003
|
| 7 months ago | mdh4 | malate dehydrogenase4: | 1.08 | | Qu, LL et al. 2023. Leaf photosynthetic characteristics of waxy maize in response to different degrees of heat stress during grain filling BMC Plant Biology. 23:469. | | Reference: October 6th, 2023
Gene Product: September 1st, 2003
Variation: May 22nd, 2020
|
| 7 months ago | rlsb1 | rbcl rna s1-binding domain protein1: | | GRMZM2G087628
| Qu, LL et al. 2023. Leaf photosynthetic characteristics of waxy maize in response to different degrees of heat stress during grain filling BMC Plant Biology. 23:469. | AT1G71720 (TAIR) | Reference: October 6th, 2023
Gene Product: July 1st, 2016
Variation: April 10th, 2019
Gene Model: October 19th, 2013
|
| 7 months ago | rlsb2 | rbcl rna s1-binding domain protein2: | | GRMZM2G546254
| Qu, LL et al. 2023. Leaf photosynthetic characteristics of waxy maize in response to different degrees of heat stress during grain filling BMC Plant Biology. 23:469. | AT1G71720 (TAIR) | Reference: October 6th, 2023
Gene Product: July 1st, 2016
Variation: July 1st, 2016
Gene Model: July 1st, 2016
|
| 7 months ago | xgt2 | xyloglucan glycosyltransferase2: | | GRMZM2G135286
| Francesco Pancaldi et al. 2023. Highly differentiated genomic properties underpin the different cell walls of Poaceae and eudicots Plant Physiol. :doi: 10.1093/plphys/kiad267. | AT3G28180 (TAIR) | Reference: October 6th, 2023
Gene Product: July 2nd, 2020
Gene Model: July 2nd, 2020
|
| 7 months ago | cipk29 | calcineurin B-like-interacting protein kinase29: | | GRMZM2G177050
| Ningning Zhang et al. 2023. Molecular mechanisms of drought resistance using genome-wide association mapping in maize (Zea mays L.) BMC Plant Biology. 23:468. | | Reference: October 6th, 2023
Gene Product: August 25th, 2018
Gene Model: September 8th, 2021
|
| 7 months ago | plt20 | phospholipid transfer protein20: | 2.04 | GRMZM2G136364
| Ningning Zhang et al. 2023. Molecular mechanisms of drought resistance using genome-wide association mapping in maize (Zea mays L.) BMC Plant Biology. 23:468. | | Reference: October 6th, 2023
Gene Product: September 1st, 2003
Variation: March 31st, 2005
Gene Model: February 19th, 2019
|
| 7 months ago | prp18 | pathogenesis-related protein18: | | | Li, J et al. 2023. Integrated Transcriptomic and Proteomic Analyses of Low-Nitrogen-Stress Tolerance and Function Analysis of ZmGST42 Gene in Maize Antioxidants. 12:1831. | | Reference: October 5th, 2023
Gene Product: December 12th, 2022
|
| 7 months ago | plt18 | phospholipid transfer protein18: | | | Li, J et al. 2023. Integrated Transcriptomic and Proteomic Analyses of Low-Nitrogen-Stress Tolerance and Function Analysis of ZmGST42 Gene in Maize Antioxidants. 12:1831. | | Reference: October 5th, 2023
Gene Product: September 1st, 2003
|
| 7 months ago | wrky132 | WRKY-transcription factor 132: | | | Wang, Y et al. 2023. Genome-Wide Characterization of the Maize (Zea mays L.) WRKY Transcription Factor Family and Their Responses to U. maydis Int J Mol Sci. 24:14916. | | Reference: October 5th, 2023
Gene Product: July 24th, 2017
|
| 7 months ago | wrky139 | WRKY-transcription factor 139: | | | Wang, Y et al. 2023. Genome-Wide Characterization of the Maize (Zea mays L.) WRKY Transcription Factor Family and Their Responses to U. maydis Int J Mol Sci. 24:14916. | | Reference: October 5th, 2023
Gene Product: July 24th, 2017
|
| 7 months ago | cdpk13 | calcium dependent protein kinase13: | | GRMZM2G173928
| Hao Wu et al. 2023. NAKED ENDOSPERM1, NAKED ENDOSPERM2, and OPAQUE2 interact to regulate gene networks in maize endosperm development. Plant Cell. :doi: 10.1093/plcell/koad247. | | Reference: October 5th, 2023
Gene Product: December 3rd, 2013
Variation: November 15th, 2013
Gene Model: March 31st, 2015
|
| 7 months ago | gap1 | Golgi associated protein homolog: | 1.08 | GRMZM2G073725
| Hao Wu et al. 2023. NAKED ENDOSPERM1, NAKED ENDOSPERM2, and OPAQUE2 interact to regulate gene networks in maize endosperm development. Plant Cell. :doi: 10.1093/plcell/koad247. | | Reference: October 5th, 2023
Gene Product: September 1st, 2003
Variation: January 29th, 2015
Gene Model: January 29th, 2015
|
| 7 months ago | wrky22 | WRKY-transcription factor 22: | 8.09 | GRMZM2G111354
| Wang, Y et al. 2023. Genome-Wide Characterization of the Maize (Zea mays L.) WRKY Transcription Factor Family and Their Responses to U. maydis Int J Mol Sci. 24:14916. | | Reference: October 5th, 2023
Variation: September 1st, 2003
Gene Model: September 24th, 2018
|
| 7 months ago | wrky70 | WRKY-transcription factor 70: | 2.02 | GRMZM2G024898
| Wang, Y et al. 2023. Genome-Wide Characterization of the Maize (Zea mays L.) WRKY Transcription Factor Family and Their Responses to U. maydis Int J Mol Sci. 24:14916. | | Reference: October 5th, 2023
Variation: September 1st, 2003
Gene Model: October 2nd, 2018
|
| 7 months ago | wrky27 | WRKY-transcription factor 27: | 3.02 | GRMZM2G475984
| Wang, Y et al. 2023. Genome-Wide Characterization of the Maize (Zea mays L.) WRKY Transcription Factor Family and Their Responses to U. maydis Int J Mol Sci. 24:14916. | | Reference: October 5th, 2023
Variation: September 1st, 2003
Gene Model: March 22nd, 2018
|
| 7 months ago | hb75 | Homeobox-transcription factor 75: | 2.02 | GRMZM2G001289
| Hao Wu et al. 2023. NAKED ENDOSPERM1, NAKED ENDOSPERM2, and OPAQUE2 interact to regulate gene networks in maize endosperm development. Plant Cell. :doi: 10.1093/plcell/koad247. | | Reference: October 5th, 2023
Variation: September 1st, 2003
Gene Model: February 6th, 2018
|
| 7 months ago | tubtf6 | TUB-transcription factor 6: | | | Hao Wu et al. 2023. NAKED ENDOSPERM1, NAKED ENDOSPERM2, and OPAQUE2 interact to regulate gene networks in maize endosperm development. Plant Cell. :doi: 10.1093/plcell/koad247. | | Reference: October 5th, 2023
Gene Product: September 29th, 2015
|
| 7 months ago | wrky105 | WRKY-transcription factor 105: | | | Wang, Y et al. 2023. Genome-Wide Characterization of the Maize (Zea mays L.) WRKY Transcription Factor Family and Their Responses to U. maydis Int J Mol Sci. 24:14916. | | Reference: October 5th, 2023
Variation: September 2nd, 2017
|
| 7 months ago | wrky122 | WRKY-transcription factor 122: | | | Wang, Y et al. 2023. Genome-Wide Characterization of the Maize (Zea mays L.) WRKY Transcription Factor Family and Their Responses to U. maydis Int J Mol Sci. 24:14916. | | Reference: October 5th, 2023
Gene Product: July 24th, 2017
Variation: December 14th, 2016
|
| 7 months ago | wrky26 | WRKY-transcription factor 26: | | | Wang, Y et al. 2023. Genome-Wide Characterization of the Maize (Zea mays L.) WRKY Transcription Factor Family and Their Responses to U. maydis Int J Mol Sci. 24:14916. | | Reference: October 5th, 2023
Gene Product: July 24th, 2017
Variation: September 18th, 2021
|
| 7 months ago | wrky38 | WRKY-transcription factor 38: | | | Wang, Y et al. 2023. Genome-Wide Characterization of the Maize (Zea mays L.) WRKY Transcription Factor Family and Their Responses to U. maydis Int J Mol Sci. 24:14916. | | Reference: October 5th, 2023
Variation: July 21st, 2022
|
| 7 months ago | wrky54 | WRKY-transcription factor 54: | | | Wang, Y et al. 2023. Genome-Wide Characterization of the Maize (Zea mays L.) WRKY Transcription Factor Family and Their Responses to U. maydis Int J Mol Sci. 24:14916. | | Reference: October 5th, 2023
Gene Product: July 24th, 2017
|
| 7 months ago | wrky127 | WRKY-transcription factor 127: | 5.06 | | Wang, Y et al. 2023. Genome-Wide Characterization of the Maize (Zea mays L.) WRKY Transcription Factor Family and Their Responses to U. maydis Int J Mol Sci. 24:14916. | | Reference: October 5th, 2023
Gene Product: July 24th, 2017
Variation: March 30th, 2017
|
| 7 months ago | gst42 | glutathione transferase42: | 1.04 | GRMZM2G025190
| Li, J et al. 2023. Integrated Transcriptomic and Proteomic Analyses of Low-Nitrogen-Stress Tolerance and Function Analysis of ZmGST42 Gene in Maize Antioxidants. 12:1831. | | Reference: October 5th, 2023
Gene Product: September 1st, 2003
Gene Model: July 27th, 2016
|
| 7 months ago | umc2332 | : | 7.04 | GRMZM2G131243
| Li, J et al. 2023. Integrated Transcriptomic and Proteomic Analyses of Low-Nitrogen-Stress Tolerance and Function Analysis of ZmGST42 Gene in Maize Antioxidants. 12:1831. | | Reference: October 5th, 2023
Variation: September 11th, 2018
Gene Model: September 11th, 2018
|
| 7 months ago | atp2 | ATP synthase2: | 8.03 | GRMZM2G113408
| Li, J et al. 2023. Integrated Transcriptomic and Proteomic Analyses of Low-Nitrogen-Stress Tolerance and Function Analysis of ZmGST42 Gene in Maize Antioxidants. 12:1831. | | Reference: October 5th, 2023
Gene Product: September 1st, 2003
Variation: August 22nd, 2014
Gene Model: August 22nd, 2014
|
| 7 months ago | mate27 | multidrug and toxic compound extrusion27: | 4.05 | GRMZM2G043075
| Li, J et al. 2023. Integrated Transcriptomic and Proteomic Analyses of Low-Nitrogen-Stress Tolerance and Function Analysis of ZmGST42 Gene in Maize Antioxidants. 12:1831. | | Reference: October 5th, 2023
Gene Product: August 17th, 2015
Variation: September 25th, 2007
Gene Model: April 17th, 2020
|
| 7 months ago | nkd1 | naked endosperm1: | | GRMZM2G129261
| Hao Wu et al. 2023. NAKED ENDOSPERM1, NAKED ENDOSPERM2, and OPAQUE2 interact to regulate gene networks in maize endosperm development. Plant Cell. :doi: 10.1093/plcell/koad247. | | Reference: October 5th, 2023
Gene Product: January 3rd, 2015
Variation: January 3rd, 2015
Gene Model: January 2nd, 2015
|
| 7 months ago | epf2 | epidermal patterning factor-like2: | | GRMZM2G431783
| Li, J et al. 2023. Integrated Transcriptomic and Proteomic Analyses of Low-Nitrogen-Stress Tolerance and Function Analysis of ZmGST42 Gene in Maize Antioxidants. 12:1831. | | Reference: October 5th, 2023
Gene Product: July 10th, 2019
Gene Model: July 10th, 2019
|
| 7 months ago | wrky126 | WRKY-transcription factor 126: | | GRMZM5G851490
| Wang, Y et al. 2023. Genome-Wide Characterization of the Maize (Zea mays L.) WRKY Transcription Factor Family and Their Responses to U. maydis Int J Mol Sci. 24:14916. | | Reference: October 5th, 2023
Gene Product: July 24th, 2017
Gene Model: September 9th, 2020
|
| 7 months ago | wrky136 | WRKY-transcription factor 136: | | | Wang, Y et al. 2023. Genome-Wide Characterization of the Maize (Zea mays L.) WRKY Transcription Factor Family and Their Responses to U. maydis Int J Mol Sci. 24:14916. | | Reference: October 5th, 2023
Gene Product: July 24th, 2017
|
| 7 months ago | csu308 | : | 5.04 | GRMZM2G113332
| Li, J et al. 2023. Integrated Transcriptomic and Proteomic Analyses of Low-Nitrogen-Stress Tolerance and Function Analysis of ZmGST42 Gene in Maize Antioxidants. 12:1831. | | Reference: October 5th, 2023
Variation: September 25th, 2007
Gene Model: August 28th, 2021
|
| 7 months ago | wrky9 | WRKY-transcription factor 9: | 4.08 | GRMZM2G169564
| Wang, Y et al. 2023. Genome-Wide Characterization of the Maize (Zea mays L.) WRKY Transcription Factor Family and Their Responses to U. maydis Int J Mol Sci. 24:14916. | | Reference: October 5th, 2023
Gene Product: July 24th, 2017
Variation: March 31st, 2005
Gene Model: May 24th, 2021
|
| 7 months ago | IDP535 | : | 8.05 | GRMZM2G101664
| Li, J et al. 2023. Integrated Transcriptomic and Proteomic Analyses of Low-Nitrogen-Stress Tolerance and Function Analysis of ZmGST42 Gene in Maize Antioxidants. 12:1831. | | Reference: October 5th, 2023
Variation: March 31st, 2005
Gene Model: July 12th, 2021
|
| 7 months ago | IDP103 | : | 10.01 | GRMZM5G822449
| Li, J et al. 2023. Integrated Transcriptomic and Proteomic Analyses of Low-Nitrogen-Stress Tolerance and Function Analysis of ZmGST42 Gene in Maize Antioxidants. 12:1831. | | Reference: October 5th, 2023
Variation: March 31st, 2005
Gene Model: December 31st, 2017
|
| 7 months ago | pgd3 | phosphogluconate dehydrogenase3: | 4.03 | GRMZM2G440208
| Cao, HR et al. 2023. ZmNRT1.1B (ZmNPF6.6) determines nitrogen use efficiency via regulation of nitrate transport and signalling in maize. Plant Biotechnol J. | | Reference: October 3rd, 2023
Gene Product: December 16th, 2020
Variation: March 4th, 2021
Gene Model: July 28th, 2016
|
| 7 months ago | ctr1 | constitutive triple response1: | 5.04 | GRMZM2G059671
| Xie, SY et al. 2023. Striking a growth-defense balance: Stress regulators that function in maize development. J Integr Plant Biol. :doi: 10.1111/jipb.13570. | | Reference: October 3rd, 2023
Gene Product: May 13th, 2014
Gene Model: June 24th, 2021
|
| 7 months ago | vp2 | viviparous2: | 5.03 | | Xie, SY et al. 2023. Striking a growth-defense balance: Stress regulators that function in maize development. J Integr Plant Biol. :doi: 10.1111/jipb.13570. | | Reference: October 3rd, 2023
Variation: November 11th, 2010
|
| 7 months ago | w3 | white seedling3: | 2.08 - 2.07 | GRMZM2G113476
| Xie, SY et al. 2023. Striking a growth-defense balance: Stress regulators that function in maize development. J Integr Plant Biol. :doi: 10.1111/jipb.13570. | AT3G11945 (TAIR) | Reference: October 3rd, 2023
Gene Product: January 8th, 2018
Variation: January 8th, 2018
Gene Model: January 8th, 2018
|
| 7 months ago | vp10 | viviparous10: | 10.07 | | Xie, SY et al. 2023. Striking a growth-defense balance: Stress regulators that function in maize development. J Integr Plant Biol. :doi: 10.1111/jipb.13570. | | Reference: October 3rd, 2023
Gene Product: February 22nd, 2007
Variation: June 23rd, 2012
|
| 7 months ago | si1 | silky1: | 6.01 | | Xie, SY et al. 2023. Striking a growth-defense balance: Stress regulators that function in maize development. J Integr Plant Biol. :doi: 10.1111/jipb.13570. | | Reference: October 3rd, 2023
Variation: November 2nd, 2015
|
| 7 months ago | vp15 | viviparous15: | 5.05 | | Xie, SY et al. 2023. Striking a growth-defense balance: Stress regulators that function in maize development. J Integr Plant Biol. :doi: 10.1111/jipb.13570. | | Reference: October 3rd, 2023
Gene Product: February 22nd, 2007
Variation: July 27th, 2009
|
| 7 months ago | ipt6 | isopentenyl transferase6: | | GRMZM2G116878
| Cao, HR et al. 2023. ZmNRT1.1B (ZmNPF6.6) determines nitrogen use efficiency via regulation of nitrate transport and signalling in maize. Plant Biotechnol J. | | Reference: October 3rd, 2023
Gene Product: March 19th, 2014
Gene Model: July 10th, 2013
|
| 7 months ago | zar1 | Zea mays ARGOS1: | | GRMZM2G446201
| Xie, SY et al. 2023. Striking a growth-defense balance: Stress regulators that function in maize development. J Integr Plant Biol. :doi: 10.1111/jipb.13570. | | Reference: October 3rd, 2023
Gene Product: August 3rd, 2015
Gene Model: April 14th, 2014
|
| 7 months ago | npf3 | nitrate transporter/peptide transporter family3: | | GRMZM2G112154
| Cao, HR et al. 2023. ZmNRT1.1B (ZmNPF6.6) determines nitrogen use efficiency via regulation of nitrate transport and signalling in maize. Plant Biotechnol J. | | Reference: October 3rd, 2023
Gene Product: September 1st, 2003
Gene Model: May 10th, 2018
|
| 7 months ago | npf4 | nitrate transporter/peptide transporter family4: | | GRMZM2G161483
| Cao, HR et al. 2023. ZmNRT1.1B (ZmNPF6.6) determines nitrogen use efficiency via regulation of nitrate transport and signalling in maize. Plant Biotechnol J. | | Reference: October 3rd, 2023
Gene Product: September 1st, 2003
Gene Model: May 10th, 2018
|
| 7 months ago | sro6 | similar to RCD one6: | | GRMZM2G177878
| Xie, SY et al. 2023. Striking a growth-defense balance: Stress regulators that function in maize development. J Integr Plant Biol. :doi: 10.1111/jipb.13570. | | Reference: October 3rd, 2023
Gene Product: September 7th, 2018
Gene Model: August 10th, 2018
|
| 7 months ago | ndl1 | needle1: | | GRMZM2G038401
| Xie, SY et al. 2023. Striking a growth-defense balance: Stress regulators that function in maize development. J Integr Plant Biol. :doi: 10.1111/jipb.13570. | | Reference: October 3rd, 2023
Gene Product: September 10th, 2019
Variation: September 10th, 2019
Gene Model: September 10th, 2019
|
| 7 months ago | vp16 | viviparous16: | | | Xie, SY et al. 2023. Striking a growth-defense balance: Stress regulators that function in maize development. J Integr Plant Biol. :doi: 10.1111/jipb.13570. | | Reference: October 3rd, 2023
Variation: November 8th, 2019
|
| 7 months ago | drg5 | dark response gene5: | | GRMZM2G135877
| Xie, SY et al. 2023. Striking a growth-defense balance: Stress regulators that function in maize development. J Integr Plant Biol. :doi: 10.1111/jipb.13570. | | Reference: October 3rd, 2023
Gene Product: August 17th, 2015
Variation: October 3rd, 2023
Gene Model: June 6th, 2020
|
| 7 months ago | si3 | silky3: | | AC209624.2_FG001
| Xie, SY et al. 2023. Striking a growth-defense balance: Stress regulators that function in maize development. J Integr Plant Biol. :doi: 10.1111/jipb.13570. | | Reference: October 3rd, 2023
Gene Product: October 2nd, 2020
Variation: October 2nd, 2020
Gene Model: October 1st, 2020
|
| 7 months ago | grx5 | glutaredoxin5: | | GRMZM2G470756
| Xie, SY et al. 2023. Striking a growth-defense balance: Stress regulators that function in maize development. J Integr Plant Biol. :doi: 10.1111/jipb.13570. | | Reference: October 3rd, 2023
Gene Product: January 21st, 2021
Variation: December 14th, 2021
Gene Model: November 16th, 2021
|
| 7 months ago | grx2 | glutaredoxin2: | | GRMZM2G480903
| Xie, SY et al. 2023. Striking a growth-defense balance: Stress regulators that function in maize development. J Integr Plant Biol. :doi: 10.1111/jipb.13570. | | Reference: October 3rd, 2023
Gene Product: January 21st, 2021
Variation: December 14th, 2021
Gene Model: December 14th, 2021
|
| 7 months ago | mdh8 | malate dehydrogenase8: | | GRMZM2G161245
| Cao, HR et al. 2023. ZmNRT1.1B (ZmNPF6.6) determines nitrogen use efficiency via regulation of nitrate transport and signalling in maize. Plant Biotechnol J. | | Reference: October 3rd, 2023
Gene Product: September 1st, 2003
Gene Model: June 20th, 2022
|
| 7 months ago | skus1 | skewed root growth similar1: | 3.06 | GRMZM2G157929
| Xie, SY et al. 2023. Striking a growth-defense balance: Stress regulators that function in maize development. J Integr Plant Biol. :doi: 10.1111/jipb.13570. | | Reference: October 3rd, 2023
Gene Product: May 29th, 2019
Variation: October 9th, 2020
Gene Model: September 28th, 2020
|
| 7 months ago | idh6 | isocitrate dehydrogenase6: | | | Wei, NN et al. 2023. Characterization of the Isocitrate Dehydrogenase Gene Family and Their Response to Drought Stress in Maize Plants. 12:3466. | | Reference: October 2nd, 2023
Gene Product: October 2nd, 2023
|
| 7 months ago | idh4 | isocitrate dehydrogenase4: | | | Wei, NN et al. 2023. Characterization of the Isocitrate Dehydrogenase Gene Family and Their Response to Drought Stress in Maize Plants. 12:3466. | | Reference: October 2nd, 2023
Gene Product: October 2nd, 2023
|
| 7 months ago | idh5 | isocitrate dehydrogenase5: | | | Wei, NN et al. 2023. Characterization of the Isocitrate Dehydrogenase Gene Family and Their Response to Drought Stress in Maize Plants. 12:3466. | | Reference: October 2nd, 2023
Gene Product: October 2nd, 2023
|
| 7 months ago | idh9 | isocitrate dehydrogenase9: | | | Wei, NN et al. 2023. Characterization of the Isocitrate Dehydrogenase Gene Family and Their Response to Drought Stress in Maize Plants. 12:3466. | | Reference: October 2nd, 2023
Gene Product: October 2nd, 2023
|
| 7 months ago | idh1 | isocitrate dehydrogenase1: | 8.06 - 8.06 | GRMZM2G432128
| Wei, NN et al. 2023. Characterization of the Isocitrate Dehydrogenase Gene Family and Their Response to Drought Stress in Maize Plants. 12:3466. | | Reference: October 2nd, 2023
Gene Product: October 2nd, 2023
Variation: September 1st, 2003
Gene Model: July 18th, 2014
|
| 7 months ago | idh2 | isocitrate dehydrogenase2: | 6.07 | GRMZM5G829778
| Wei, NN et al. 2023. Characterization of the Isocitrate Dehydrogenase Gene Family and Their Response to Drought Stress in Maize Plants. 12:3466. | | Reference: October 2nd, 2023
Gene Product: October 2nd, 2023
Variation: September 1st, 2003
Gene Model: July 18th, 2014
|
| 7 months ago | idh8 | isocitrate dehydrogenase8: | 3.08 | GRMZM2G033515
| Wei, NN et al. 2023. Characterization of the Isocitrate Dehydrogenase Gene Family and Their Response to Drought Stress in Maize Plants. 12:3466. | | Reference: October 2nd, 2023
Gene Product: October 2nd, 2023
Gene Model: April 22nd, 2022
|
| 7 months ago | imd1 | isopropylmalate dehydrogenase1: | 1.03 | GRMZM2G120857
| Wei, NN et al. 2023. Characterization of the Isocitrate Dehydrogenase Gene Family and Their Response to Drought Stress in Maize Plants. 12:3466. | | Reference: October 2nd, 2023
Gene Product: September 1st, 2003
Variation: May 14th, 2010
Gene Model: July 18th, 2014
|
| 7 months ago | stsl10 | strictosidine synthase-like10: | | | Gu, L et al. 2023. The Genome-Wide Identification, Characterization, and Expression Analysis of the Strictosidine Synthase-like Family in Maize (Zea mays L.). 10.3390/ijms241914733 Int J Mol Sci. 24:14733. | | Reference: September 29th, 2023
Gene Product: September 29th, 2023
|
| 7 months ago | stsl5 | strictosidine synthase-like5: | | | Gu, L et al. 2023. The Genome-Wide Identification, Characterization, and Expression Analysis of the Strictosidine Synthase-like Family in Maize (Zea mays L.). 10.3390/ijms241914733 Int J Mol Sci. 24:14733. | | Reference: September 29th, 2023
Gene Product: September 29th, 2023
|
| 7 months ago | stsl7 | strictosidine synthase-like7: | | | Gu, L et al. 2023. The Genome-Wide Identification, Characterization, and Expression Analysis of the Strictosidine Synthase-like Family in Maize (Zea mays L.). 10.3390/ijms241914733 Int J Mol Sci. 24:14733. | | Reference: September 29th, 2023
Gene Product: September 29th, 2023
|
| 7 months ago | stsl9 | strictosidine synthase-like9: | | | Gu, L et al. 2023. The Genome-Wide Identification, Characterization, and Expression Analysis of the Strictosidine Synthase-like Family in Maize (Zea mays L.). 10.3390/ijms241914733 Int J Mol Sci. 24:14733. | | Reference: September 29th, 2023
Gene Product: September 29th, 2023
|
| 7 months ago | stsl1 | strictosidine synthase-like1: | | | Gu, L et al. 2023. The Genome-Wide Identification, Characterization, and Expression Analysis of the Strictosidine Synthase-like Family in Maize (Zea mays L.). 10.3390/ijms241914733 Int J Mol Sci. 24:14733. | | Reference: September 29th, 2023
Gene Product: September 29th, 2023
|
| 7 months ago | stsl2 | strictosidine synthase-like2: | | | Gu, L et al. 2023. The Genome-Wide Identification, Characterization, and Expression Analysis of the Strictosidine Synthase-like Family in Maize (Zea mays L.). 10.3390/ijms241914733 Int J Mol Sci. 24:14733. | | Reference: September 29th, 2023
Gene Product: September 29th, 2023
|
| 7 months ago | stsl3 | strictosidine synthase-like3: | | | Gu, L et al. 2023. The Genome-Wide Identification, Characterization, and Expression Analysis of the Strictosidine Synthase-like Family in Maize (Zea mays L.). 10.3390/ijms241914733 Int J Mol Sci. 24:14733. | | Reference: September 29th, 2023
Gene Product: September 29th, 2023
|
| 7 months ago | stsl6 | strictosidine synthase-like6: | | | Gu, L et al. 2023. The Genome-Wide Identification, Characterization, and Expression Analysis of the Strictosidine Synthase-like Family in Maize (Zea mays L.). 10.3390/ijms241914733 Int J Mol Sci. 24:14733. | | Reference: September 29th, 2023
Gene Product: September 29th, 2023
|
| 7 months ago | stsl8 | strictosidine synthase-like8: | | | Gu, L et al. 2023. The Genome-Wide Identification, Characterization, and Expression Analysis of the Strictosidine Synthase-like Family in Maize (Zea mays L.). 10.3390/ijms241914733 Int J Mol Sci. 24:14733. | | Reference: September 29th, 2023
Gene Product: September 29th, 2023
|
| 7 months ago | stsl11 | strictosidine synthase-like11: | | | Gu, L et al. 2023. The Genome-Wide Identification, Characterization, and Expression Analysis of the Strictosidine Synthase-like Family in Maize (Zea mays L.). 10.3390/ijms241914733 Int J Mol Sci. 24:14733. | | Reference: September 29th, 2023
Gene Product: September 29th, 2023
|
| 7 months ago | stsl12 | strictosidine synthase-like12: | | | Gu, L et al. 2023. The Genome-Wide Identification, Characterization, and Expression Analysis of the Strictosidine Synthase-like Family in Maize (Zea mays L.). 10.3390/ijms241914733 Int J Mol Sci. 24:14733. | | Reference: September 29th, 2023
Gene Product: September 29th, 2023
|
| 7 months ago | stsl13 | strictosidine synthase-like13: | | | Gu, L et al. 2023. The Genome-Wide Identification, Characterization, and Expression Analysis of the Strictosidine Synthase-like Family in Maize (Zea mays L.). 10.3390/ijms241914733 Int J Mol Sci. 24:14733. | | Reference: September 29th, 2023
Gene Product: September 29th, 2023
|
| 7 months ago | stsl14 | strictosidine synthase-like14: | | | Gu, L et al. 2023. The Genome-Wide Identification, Characterization, and Expression Analysis of the Strictosidine Synthase-like Family in Maize (Zea mays L.). 10.3390/ijms241914733 Int J Mol Sci. 24:14733. | | Reference: September 29th, 2023
Gene Product: September 29th, 2023
|
| 7 months ago | stsl15 | strictosidine synthase-like15: | | | Gu, L et al. 2023. The Genome-Wide Identification, Characterization, and Expression Analysis of the Strictosidine Synthase-like Family in Maize (Zea mays L.). 10.3390/ijms241914733 Int J Mol Sci. 24:14733. | | Reference: September 29th, 2023
Gene Product: September 29th, 2023
|
| 7 months ago | stsl16 | strictosidine synthase-like16: | | | Gu, L et al. 2023. The Genome-Wide Identification, Characterization, and Expression Analysis of the Strictosidine Synthase-like Family in Maize (Zea mays L.). 10.3390/ijms241914733 Int J Mol Sci. 24:14733. | | Reference: September 29th, 2023
Gene Product: September 29th, 2023
|
| 7 months ago | stsl17 | strictosidine synthase-like17: | | | Gu, L et al. 2023. The Genome-Wide Identification, Characterization, and Expression Analysis of the Strictosidine Synthase-like Family in Maize (Zea mays L.). 10.3390/ijms241914733 Int J Mol Sci. 24:14733. | | Reference: September 29th, 2023
Gene Product: September 29th, 2023
|
| 7 months ago | stsl18 | strictosidine synthase-like18: | | | Gu, L et al. 2023. The Genome-Wide Identification, Characterization, and Expression Analysis of the Strictosidine Synthase-like Family in Maize (Zea mays L.). 10.3390/ijms241914733 Int J Mol Sci. 24:14733. | | Reference: September 29th, 2023
Gene Product: September 29th, 2023
|
| 7 months ago | stsl19 | strictosidine synthase-like19: | | | Gu, L et al. 2023. The Genome-Wide Identification, Characterization, and Expression Analysis of the Strictosidine Synthase-like Family in Maize (Zea mays L.). 10.3390/ijms241914733 Int J Mol Sci. 24:14733. | | Reference: September 29th, 2023
Gene Product: September 29th, 2023
|
| 7 months ago | csu928 | : | 6.07 | GRMZM2G154648
| Veronica Santoro et al. 2023. Phosphorus Acquisition Efficiency and Transcriptomic Changes in Maize Plants Treated with Two Lignohumates Plants. 12:3291. | | Reference: September 29th, 2023
Variation: March 21st, 2007
Gene Model: December 27th, 2019
|
| 7 months ago | cipk44 | calcineurin B-like-interacting protein kinase44: | 3.09 | GRMZM2G181081
| Veronica Santoro et al. 2023. Phosphorus Acquisition Efficiency and Transcriptomic Changes in Maize Plants Treated with Two Lignohumates Plants. 12:3291. | | Reference: September 29th, 2023
Gene Product: August 25th, 2018
Gene Model: February 25th, 2019
|
| 7 months ago | gsht1 | glutathione transporter1: | | GRMZM2G421491
| Veronica Santoro et al. 2023. Phosphorus Acquisition Efficiency and Transcriptomic Changes in Maize Plants Treated with Two Lignohumates Plants. 12:3291. | | Reference: September 29th, 2023
Gene Product: April 23rd, 2013
Gene Model: April 23rd, 2013
|
| 7 months ago | glk8 | G2-like-transcription factor 8: | | | Veronica Santoro et al. 2023. Phosphorus Acquisition Efficiency and Transcriptomic Changes in Maize Plants Treated with Two Lignohumates Plants. 12:3291. | | Reference: September 29th, 2023
Variation: March 17th, 2021
|
| 7 months ago | nrx1 | nucleoredoxin1: | 1.04 | GRMZM2G048324
| Veronica Santoro et al. 2023. Phosphorus Acquisition Efficiency and Transcriptomic Changes in Maize Plants Treated with Two Lignohumates Plants. 12:3291. | | Reference: September 29th, 2023
Gene Product: September 1st, 2003
Variation: September 11th, 2014
Gene Model: September 11th, 2014
|
| 7 months ago | ndk1 | nucleotide diphosphate kinase1: | 7.03 | | Veronica Santoro et al. 2023. Phosphorus Acquisition Efficiency and Transcriptomic Changes in Maize Plants Treated with Two Lignohumates Plants. 12:3291. | | Reference: September 29th, 2023
Gene Product: December 23rd, 2019
Variation: September 9th, 2014
|
| 7 months ago | c3h32 | C3H-transcription factor32: | 7.04 | GRMZM5G842019
| Xiaoling Ma et al. 2023. Expression of maize OXS2a in Arabidopsis stunts plant growth but enhances heat tolerance Plant Sci. :doi: 10.1016/j.plantsci.2023.111877. | | Reference: September 29th, 2023
Variation: July 29th, 2004
Gene Model: September 11th, 2018
|
| 7 months ago | GRMZM2G095400 | : | | GRMZM2G095400
| Veronica Santoro et al. 2023. Phosphorus Acquisition Efficiency and Transcriptomic Changes in Maize Plants Treated with Two Lignohumates Plants. 12:3291. | | Reference: September 29th, 2023
Gene Product: September 16th, 2019
Gene Model: September 16th, 2019
|
| 7 months ago | ipp1 | inositol-x-phosphate phosphatase1: | | GRMZM2G029731
| Veronica Santoro et al. 2023. Phosphorus Acquisition Efficiency and Transcriptomic Changes in Maize Plants Treated with Two Lignohumates Plants. 12:3291. | | Reference: September 29th, 2023
Gene Product: December 17th, 2019
Gene Model: December 17th, 2019
|
| 7 months ago | rbp1 | ran-binding protein1: | | AC213884.3_FG001
| Veronica Santoro et al. 2023. Phosphorus Acquisition Efficiency and Transcriptomic Changes in Maize Plants Treated with Two Lignohumates Plants. 12:3291. | | Reference: September 29th, 2023
Gene Product: January 7th, 2020
Gene Model: January 7th, 2020
|
| 7 months ago | drg6 | dark response gene6: | | GRMZM2G112538
| Jiang, LY et al. 2023. ZmMPK6-1 positively regulates maize resistance to E. turcicum through enhancing ZmERF061 activity J Plant Interactions. :doi: 10.1080/17429145.2023.2261772. | | Reference: September 29th, 2023
Gene Product: December 12th, 2022
Gene Model: June 6th, 2020
|
| 7 months ago | GRMZM2G355906 | : | | GRMZM2G355906
| Veronica Santoro et al. 2023. Phosphorus Acquisition Efficiency and Transcriptomic Changes in Maize Plants Treated with Two Lignohumates Plants. 12:3291. | | Reference: September 29th, 2023
Gene Product: December 9th, 2021
Gene Model: December 6th, 2021
|
| 7 months ago | IDP683 | : | 6.06 | GRMZM2G163468
| Veronica Santoro et al. 2023. Phosphorus Acquisition Efficiency and Transcriptomic Changes in Maize Plants Treated with Two Lignohumates Plants. 12:3291. | | Reference: September 29th, 2023
Variation: March 31st, 2005
Gene Model: July 3rd, 2021
|
| 7 months ago | IDP4038 | : | 9.02 | AC231745.1_FG003
| Veronica Santoro et al. 2023. Phosphorus Acquisition Efficiency and Transcriptomic Changes in Maize Plants Treated with Two Lignohumates Plants. 12:3291. | | Reference: September 29th, 2023
Variation: March 31st, 2005
Gene Model: July 14th, 2021
|
| 7 months ago | dzr1 | zein-protein regulator: | 4.01 - 4.02 | | Taylor D Hintch et al. 2023. Development of maize inbred lines with elevated grain methionine concentration from a high methionine population Crop Sci. :doi: 10.1002/csc2.20983. | | Reference: September 28th, 2023
Variation: August 27th, 2009
|
| 7 months ago | w14 | white seedling14: | 6.05 - 6.06 | | Wang, D et al. 2010. Plant J 63:939-951 | | Reference: January 18th, 2023
Variation: September 27th, 2023
|
| 7 months ago | umc1716 | : | 4.11 | GRMZM2G119393
| Sa, KJ et al. 2023. Genetic Variation and Association Analysis of Elite Waxy Maize Inbred Lines in South Korea Plant Mol Biol Rep. :DOI: 10.1007/s11105-023-01405-6. | | Reference: September 27th, 2023
Variation: September 1st, 2003
Gene Model: March 7th, 2021
|
| 7 months ago | gdcp1 | glycine decarboxylase1: | 10.01 | GRMZM2G104310
| Huang, C-F et al. 2023. C4 leaf development and evolution. Curr Opin Plant Biol. :doi: 10.1016/j.pbi.2023.102454. | | Reference: September 25th, 2023
Gene Product: September 1st, 2003
Variation: July 18th, 2021
Gene Model: October 6th, 2015
|
| 7 months ago | ant1 | adenine nucleotide translocator1: | 5.06 | GRMZM5G837108
| Huang, C-F et al. 2023. C4 leaf development and evolution. Curr Opin Plant Biol. :doi: 10.1016/j.pbi.2023.102454. | | Reference: September 25th, 2023
Gene Product: September 1st, 2003
Variation: July 31st, 2012
Gene Model: June 2nd, 2014
|
| 7 months ago | br1 | brachytic1: | 1.07 | | Huang, C-F et al. 2023. C4 leaf development and evolution. Curr Opin Plant Biol. :doi: 10.1016/j.pbi.2023.102454. | | Reference: September 25th, 2023
Gene Product: July 25th, 2017
Variation: September 22nd, 2023
|
| 7 months ago | mdh1 | malate dehydrogenase1: | 8.03 | | Huang, C-F et al. 2023. C4 leaf development and evolution. Curr Opin Plant Biol. :doi: 10.1016/j.pbi.2023.102454. | | Reference: September 25th, 2023
Gene Product: September 1st, 2003
Variation: September 1st, 2003
|
| 7 months ago | ppt1 | plastid phosphate/phosphoenolpyruvate translocator1: | 2.06 | GRMZM2G047404
| Huang, C-F et al. 2023. C4 leaf development and evolution. Curr Opin Plant Biol. :doi: 10.1016/j.pbi.2023.102454. | | Reference: September 25th, 2023
Gene Product: September 1st, 2003
Gene Model: October 9th, 2014
|
| 7 months ago | abi17 | ABI3-VP1-transcription factor 17: | | | Huang, C-F et al. 2023. C4 leaf development and evolution. Curr Opin Plant Biol. :doi: 10.1016/j.pbi.2023.102454. | | Reference: September 25th, 2023
Gene Product: January 29th, 2022
|
| 7 months ago | gras58 | GRAS-transcription factor 58: | | | Huang, C-F et al. 2023. C4 leaf development and evolution. Curr Opin Plant Biol. :doi: 10.1016/j.pbi.2023.102454. | | Reference: September 25th, 2023
Gene Product: June 24th, 2019
Variation: April 9th, 2014
|
| 7 months ago | tcptf40 | TCP-transcription factor 40: | | | Huang, C-F et al. 2023. C4 leaf development and evolution. Curr Opin Plant Biol. :doi: 10.1016/j.pbi.2023.102454. | | Reference: September 25th, 2023
Gene Product: September 27th, 2019
|
| 7 months ago | tcptf5 | TCP-transcription factor 5: | | | Huang, C-F et al. 2023. C4 leaf development and evolution. Curr Opin Plant Biol. :doi: 10.1016/j.pbi.2023.102454. | | Reference: September 25th, 2023
Gene Product: September 27th, 2019
|
| 7 months ago | sweet3a | sugars will eventually be exported transporter3a: | 8.04 | GRMZM2G179679
| Erick Amombo et al. 2023. Insights on the SWEET Gene Role in Soluble Sugar Accumulation via the CO2 Fixation Pathway in Forage Maize Under Salt Stress J Plant Growth Reg. :doi: 10.1007/s00344-023-11112-x. | | Reference: September 25th, 2023
Gene Product: November 4th, 2015
Gene Model: September 19th, 2018
|
| 7 months ago | sweet4b | sugars will eventually be exported transporter4b: | 5.04 | GRMZM2G144581
| Erick Amombo et al. 2023. Insights on the SWEET Gene Role in Soluble Sugar Accumulation via the CO2 Fixation Pathway in Forage Maize Under Salt Stress J Plant Growth Reg. :doi: 10.1007/s00344-023-11112-x. | | Reference: September 25th, 2023
Gene Product: November 4th, 2015
Gene Model: November 3rd, 2015
|
| 7 months ago | tpt1 | triose phosphate translocator1: | | | Huang, C-F et al. 2023. C4 leaf development and evolution. Curr Opin Plant Biol. :doi: 10.1016/j.pbi.2023.102454. | | Reference: September 25th, 2023
Gene Product: September 1st, 2003
Variation: September 1st, 2003
|
| 7 months ago | scro1 | scarecrow1: | 4.08 | GRMZM2G131516
| Huang, C-F et al. 2023. C4 leaf development and evolution. Curr Opin Plant Biol. :doi: 10.1016/j.pbi.2023.102454. | | Reference: September 25th, 2023
Gene Product: June 24th, 2019
Variation: June 24th, 2019
Gene Model: November 11th, 2012
|
| 7 months ago | abph2 | aberrant phyllotaxy2: | | | Awale, P et al. 2023. Hormonal regulation of inflorescence and intercalary meristems in grasses. Curr Opin Plant Biol. :doi: 10.1016/j.pbi.2023.102451. | | Reference: September 25th, 2023
Gene Product: January 21st, 2021
Variation: January 27th, 2015
|
| 7 months ago | sweet6b | sugars will eventually be exported transporter6b: | | GRMZM2G416965
| Erick Amombo et al. 2023. Insights on the SWEET Gene Role in Soluble Sugar Accumulation via the CO2 Fixation Pathway in Forage Maize Under Salt Stress J Plant Growth Reg. :doi: 10.1007/s00344-023-11112-x. | | Reference: September 25th, 2023
Gene Product: November 4th, 2015
Gene Model: November 3rd, 2015
|
| 7 months ago | sweet12b | sugars will eventually be exported transporter12b: | | GRMZM2G099609
| Erick Amombo et al. 2023. Insights on the SWEET Gene Role in Soluble Sugar Accumulation via the CO2 Fixation Pathway in Forage Maize Under Salt Stress J Plant Growth Reg. :doi: 10.1007/s00344-023-11112-x. | | Reference: September 25th, 2023
Gene Product: November 4th, 2015
Gene Model: November 3rd, 2015
|
| 7 months ago | sweet17b | sugars will eventually be exported transporter17b: | | GRMZM2G111926
| Erick Amombo et al. 2023. Insights on the SWEET Gene Role in Soluble Sugar Accumulation via the CO2 Fixation Pathway in Forage Maize Under Salt Stress J Plant Growth Reg. :doi: 10.1007/s00344-023-11112-x. | | Reference: September 25th, 2023
Gene Product: November 4th, 2015
Variation: March 18th, 2021
Gene Model: November 3rd, 2015
|
| 7 months ago | sweet16 | sugars will eventually be exported transporter16: | | GRMZM2G107597
| Erick Amombo et al. 2023. Insights on the SWEET Gene Role in Soluble Sugar Accumulation via the CO2 Fixation Pathway in Forage Maize Under Salt Stress J Plant Growth Reg. :doi: 10.1007/s00344-023-11112-x. | | Reference: September 25th, 2023
Gene Product: November 4th, 2015
Gene Model: November 3rd, 2015
|
| 7 months ago | me8 | NAD-dependent malic enzyme8: | | GRMZM2G085747
| Huang, C-F et al. 2023. C4 leaf development and evolution. Curr Opin Plant Biol. :doi: 10.1016/j.pbi.2023.102454. | | Reference: September 25th, 2023
Gene Product: June 4th, 2020
Gene Model: June 4th, 2020
|
| 7 months ago | sweet6a | sugars will eventually be exported transporter6a: | 3.09 | GRMZM2G157675
| Erick Amombo et al. 2023. Insights on the SWEET Gene Role in Soluble Sugar Accumulation via the CO2 Fixation Pathway in Forage Maize Under Salt Stress J Plant Growth Reg. :doi: 10.1007/s00344-023-11112-x. | | Reference: September 25th, 2023
Gene Product: November 4th, 2015
Variation: March 31st, 2005
Gene Model: November 3rd, 2015
|
| 7 months ago | til1 | temperature-induced lipocalin1: | 5.05 | GRMZM2G072034
| Huang, C-F et al. 2023. C4 leaf development and evolution. Curr Opin Plant Biol. :doi: 10.1016/j.pbi.2023.102454. | | Reference: September 25th, 2023
Gene Product: May 20th, 2020
Gene Model: May 20th, 2020
|
| 7 months ago | sig1 | sigma70-like-transcription factor 1: | 1.03 | GRMZM2G003182
| Huang, C-F et al. 2023. C4 leaf development and evolution. Curr Opin Plant Biol. :doi: 10.1016/j.pbi.2023.102454. | | Reference: September 25th, 2023
Gene Product: December 24th, 2019
Gene Model: October 16th, 2020
|
| 7 months ago | pbac3 | proteasome biogenesis-associated chaperone3: | | | Long, Y et al. 2023. Molecular mechanisms controlling grain size and weight and their biotechnological breeding applications in maize and other cereal crops J Adv Res. :doi: 10.1016/j.jare.2023.09.016. | | Reference: September 24th, 2023
Gene Product: June 13th, 2019
|
| 7 months ago | arftf20 | ARF-transcription factor 20: | 5.03 | | Zhenwei Yan et al. 2023. The ZmbHLH32-ZmIAA9-ZmARF1 module regulates salt tolerance in maize. Int J Biol Macromol. :126978. | | Reference: September 24th, 2023
Gene Product: January 29th, 2022
|
| 7 months ago | bt1 | brittle endosperm1: | 5.04 | | Long, Y et al. 2023. Molecular mechanisms controlling grain size and weight and their biotechnological breeding applications in maize and other cereal crops J Adv Res. :doi: 10.1016/j.jare.2023.09.016. | | Reference: September 24th, 2023
Gene Product: February 24th, 2015
Variation: December 14th, 2020
|
| 7 months ago | dek5 | defective kernel5: | 3.02 | GRMZM2G083374
| Long, Y et al. 2023. Molecular mechanisms controlling grain size and weight and their biotechnological breeding applications in maize and other cereal crops J Adv Res. :doi: 10.1016/j.jare.2023.09.016. | | Reference: September 24th, 2023
Gene Product: June 28th, 2019
Variation: June 27th, 2019
Gene Model: June 27th, 2019
|
| 7 months ago | o5 | opaque endosperm5: | 7.02 | GRMZM2G142873
| Long, Y et al. 2023. Molecular mechanisms controlling grain size and weight and their biotechnological breeding applications in maize and other cereal crops J Adv Res. :doi: 10.1016/j.jare.2023.09.016. | | Reference: September 24th, 2023
Gene Product: June 17th, 2011
Variation: August 29th, 2011
Gene Model: September 19th, 2011
|
| 7 months ago | scl1 | scarecrow-like1: | 8.03 | GRMZM2G023872
| Long, Y et al. 2023. Molecular mechanisms controlling grain size and weight and their biotechnological breeding applications in maize and other cereal crops J Adv Res. :doi: 10.1016/j.jare.2023.09.016. | | Reference: September 24th, 2023
Gene Product: June 24th, 2019
Variation: August 26th, 2015
Gene Model: August 26th, 2015
|
| 7 months ago | emb2 | embryo specific2: | 9.00 - 9.03 | GRMZM5G884466
| Long, Y et al. 2023. Molecular mechanisms controlling grain size and weight and their biotechnological breeding applications in maize and other cereal crops J Adv Res. :doi: 10.1016/j.jare.2023.09.016. | | Reference: September 24th, 2023
Gene Product: September 15th, 2012
Variation: September 8th, 2012
Gene Model: September 7th, 2012
|
| 7 months ago | emb12 | embryo specific12: | 1.00 - 1.04 | | Long, Y et al. 2023. Molecular mechanisms controlling grain size and weight and their biotechnological breeding applications in maize and other cereal crops J Adv Res. :doi: 10.1016/j.jare.2023.09.016. | | Reference: September 24th, 2023
Variation: March 8th, 2013
|
| 7 months ago | mcsf1 | mitochondrial CAF-like splicing factor1: | | GRMZM2G087395
| Long, Y et al. 2023. Molecular mechanisms controlling grain size and weight and their biotechnological breeding applications in maize and other cereal crops J Adv Res. :doi: 10.1016/j.jare.2023.09.016. | | Reference: September 24th, 2023
Gene Product: July 23rd, 2009
Variation: July 1st, 2019
Gene Model: July 1st, 2019
|
| 7 months ago | vps29 | vacuolar protein sorting29: | | GRMZM2G068489
| Long, Y et al. 2023. Molecular mechanisms controlling grain size and weight and their biotechnological breeding applications in maize and other cereal crops J Adv Res. :doi: 10.1016/j.jare.2023.09.016. | | Reference: September 24th, 2023
Gene Product: March 3rd, 2023
Variation: September 26th, 2019
Gene Model: September 26th, 2019
|
| 7 months ago | trx1 | thioredoxin1: | | GRMZM2G166877
| Long, Y et al. 2023. Molecular mechanisms controlling grain size and weight and their biotechnological breeding applications in maize and other cereal crops J Adv Res. :doi: 10.1016/j.jare.2023.09.016. | | Reference: September 24th, 2023
Gene Product: August 31st, 2020
Gene Model: August 31st, 2020
|
| 7 months ago | mn6 | miniature seed6: | 6.05 | GRMZM2G035526
| Long, Y et al. 2023. Molecular mechanisms controlling grain size and weight and their biotechnological breeding applications in maize and other cereal crops J Adv Res. :doi: 10.1016/j.jare.2023.09.016. | | Reference: September 24th, 2023
Gene Product: December 21st, 2020
Variation: December 21st, 2020
Gene Model: January 8th, 2020
|
| 7 months ago | limtf4 | LIM-transcription factor 4: | 1.05 | GRMZM2G099328
| Long, Y et al. 2023. Molecular mechanisms controlling grain size and weight and their biotechnological breeding applications in maize and other cereal crops J Adv Res. :doi: 10.1016/j.jare.2023.09.016. | AT4G36860 (TAIR) | Reference: September 24th, 2023
Gene Product: December 16th, 2019
Variation: May 31st, 2017
Gene Model: May 31st, 2017
|
| 7 months ago | mtl5 | metallothionein5: | 6.01 | GRMZM2G430807
| Leyla Nazari et al. 2023. Integrated transcriptomic meta-analysis and comparative artificial intelligence models in maize under biotic stress Sci. Rep.. :doi: 10.1038/s41598-023-42984-4. | | Reference: September 23rd, 2023
Gene Product: September 1st, 2003
Gene Model: August 20th, 2018
|
| 7 months ago | mrpa3 | multidrug resistance-associated protein3: | 9.02 | | Matthes, MS et al. 2023. Enhancement of developmental defects in the boron‐deficient maize mutant tassel‐less1 by reduced auxin levels J Plant Nutr Soil Sci. :doi: 10.1002/jpln.202300155. | | Reference: September 23rd, 2023
Gene Product: July 11th, 2019
Variation: November 11th, 2009
|
| 7 months ago | aas1 | auxin amido synthetase1: | | GRMZM2G068701
| Matthes, MS et al. 2023. Enhancement of developmental defects in the boron‐deficient maize mutant tassel‐less1 by reduced auxin levels J Plant Nutr Soil Sci. :doi: 10.1002/jpln.202300155. | | Reference: September 23rd, 2023
Gene Product: October 21st, 2019
Gene Model: October 21st, 2019
|
| 7 months ago | prp9 | pathogenesis-related protein9: | | GRMZM2G075283
| Leyla Nazari et al. 2023. Integrated transcriptomic meta-analysis and comparative artificial intelligence models in maize under biotic stress Sci. Rep.. :doi: 10.1038/s41598-023-42984-4. | | Reference: September 23rd, 2023
Gene Product: December 12th, 2022
Gene Model: June 16th, 2020
|
| 7 months ago | mdh9 | malate dehydrogenase9: | | | Veena Devi et al. 2023. Genetic and molecular understanding for the development of methionine-rich maize: a holistic approach Frontiers in Plant Science. 14:1249230. | | Reference: September 22nd, 2023
Gene Product: September 1st, 2003
|
| 7 months ago | mate39 | multidrug and toxic compound extrusion39: | | | Veena Devi et al. 2023. Genetic and molecular understanding for the development of methionine-rich maize: a holistic approach Frontiers in Plant Science. 14:1249230. | | Reference: September 22nd, 2023
Gene Product: August 17th, 2015
|
| 7 months ago | ppr374 | pentatricopeptide repeat protein374: | | | Veena Devi et al. 2023. Genetic and molecular understanding for the development of methionine-rich maize: a holistic approach Frontiers in Plant Science. 14:1249230. | | Reference: September 22nd, 2023
Gene Product: December 27th, 2016
|
| 7 months ago | knox1 | knotted related homeobox1: | 1.01 | GRMZM2G159431
| Wesley Neher et al. 2023. The maize preligule band is subdivided into distinct domains with contrasting cellular properties prior to ligule outgrowth. Development. :doi: 10.1242/dev.201608. | | Reference: September 22nd, 2023
Gene Product: September 1st, 2003
Variation: September 1st, 2003
Gene Model: March 7th, 2012
|
| 7 months ago | ask1 | aspartate kinase1: | 1.12 | GRMZM2G024686
| Veena Devi et al. 2023. Genetic and molecular understanding for the development of methionine-rich maize: a holistic approach Frontiers in Plant Science. 14:1249230. | | Reference: September 22nd, 2023
Gene Product: September 1st, 2003
Variation: September 10th, 2010
Gene Model: October 21st, 2020
|
| 7 months ago | csu582 | : | 7.00 | GRMZM2G120652
| Veena Devi et al. 2023. Genetic and molecular understanding for the development of methionine-rich maize: a holistic approach Frontiers in Plant Science. 14:1249230. | | Reference: September 22nd, 2023
Variation: September 1st, 2003
Gene Model: September 4th, 2018
|
| 7 months ago | cgs1 | cystathionine gamma-synthase1: | 9.04 | | Veena Devi et al. 2023. Genetic and molecular understanding for the development of methionine-rich maize: a holistic approach Frontiers in Plant Science. 14:1249230. | | Reference: September 22nd, 2023
Gene Product: September 1st, 2003
Variation: November 14th, 2012
|
| 7 months ago | umc1137 | : | 9.07 | GRMZM2G178106
| Veena Devi et al. 2023. Genetic and molecular understanding for the development of methionine-rich maize: a holistic approach Frontiers in Plant Science. 14:1249230. | | Reference: September 22nd, 2023
Variation: September 1st, 2003
Gene Model: March 7th, 2018
|
| 7 months ago | umc1254 | : | 1.04 | GRMZM2G045135
| He, KH et al. 2023. QTL mapping and transcriptome analysis identify candidate genes influencing water–nitrogen interaction in maize Crop J. :doi: 10.1016/j.cj.2023.09.001. | | Reference: September 22nd, 2023
Variation: October 4th, 2016
Gene Model: October 4th, 2016
|
| 7 months ago | abi33 | ABI3-VP1-transcription factor 33: | | GRMZM2G065538
| Chang, YM et al. 2019. Comparative transcriptomics method to infer gene coexpression networks and its applications to maize and rice leaf transcriptomes. Proc Natl Acad Sci, USA. 116:3091-3099. | | Reference: September 22nd, 2023
Gene Product: January 29th, 2022
Gene Model: June 11th, 2018
|
| 7 months ago | arftf8 | ARF-transcription factor 8: | | | Chang, YM et al. 2019. Comparative transcriptomics method to infer gene coexpression networks and its applications to maize and rice leaf transcriptomes. Proc Natl Acad Sci, USA. 116:3091-3099. | | Reference: September 22nd, 2023
Gene Product: January 29th, 2022
|
| 7 months ago | rz672a(cgs) | : | 1.04 | | Veena Devi et al. 2023. Genetic and molecular understanding for the development of methionine-rich maize: a holistic approach Frontiers in Plant Science. 14:1249230. | | Reference: September 22nd, 2023
Gene Product: September 1st, 2003
|
| 7 months ago | aaap57 | amino acid/auxin permease57: | 8.08 | GRMZM2G036448
| He, KH et al. 2023. QTL mapping and transcriptome analysis identify candidate genes influencing water–nitrogen interaction in maize Crop J. :doi: 10.1016/j.cj.2023.09.001. | | Reference: September 22nd, 2023
Gene Product: March 31st, 2021
Gene Model: September 24th, 2018
|
| 7 months ago | akh1 | aspartate kinase-homoserine dehydrogenase1: | 4.05 | GRMZM2G365423
| Veena Devi et al. 2023. Genetic and molecular understanding for the development of methionine-rich maize: a holistic approach Frontiers in Plant Science. 14:1249230. | | Reference: September 22nd, 2023
Gene Product: September 1st, 2003
Variation: September 10th, 2010
Gene Model: May 9th, 2018
|
| 7 months ago | akh2 | aspartate kinase homoserine dehydrogenase2: | 2.06 | | Veena Devi et al. 2023. Genetic and molecular understanding for the development of methionine-rich maize: a holistic approach Frontiers in Plant Science. 14:1249230. | | Reference: September 22nd, 2023
Gene Product: September 1st, 2003
Variation: September 1st, 2003
|
| 7 months ago | AY110365 | : | 10.04 | GRMZM2G128319
| Veena Devi et al. 2023. Genetic and molecular understanding for the development of methionine-rich maize: a holistic approach Frontiers in Plant Science. 14:1249230. | | Reference: September 22nd, 2023
Variation: July 29th, 2004
Gene Model: January 12th, 2018
|
| 7 months ago | sat1 | serine acetyltransferase1: | 8.06 | GRMZM2G069203
| Veena Devi et al. 2023. Genetic and molecular understanding for the development of methionine-rich maize: a holistic approach Frontiers in Plant Science. 14:1249230. | | Reference: September 22nd, 2023
Gene Product: December 31st, 2014
Variation: March 19th, 2021
Gene Model: December 31st, 2014
|
| 7 months ago | sat2 | serine acetyltransferase2: | 1.02 | GRMZM2G013430
| Veena Devi et al. 2023. Genetic and molecular understanding for the development of methionine-rich maize: a holistic approach Frontiers in Plant Science. 14:1249230. | | Reference: September 22nd, 2023
Gene Product: December 31st, 2014
Variation: July 21st, 2008
Gene Model: December 31st, 2014
|
| 7 months ago | sat3 | serine acetyltransferase3: | 6.06 | GRMZM5G816110
| Veena Devi et al. 2023. Genetic and molecular understanding for the development of methionine-rich maize: a holistic approach Frontiers in Plant Science. 14:1249230. | | Reference: September 22nd, 2023
Gene Product: December 31st, 2014
Variation: March 19th, 2021
Gene Model: December 31st, 2014
|
| 7 months ago | aprl1 | adenosine 5'-phosphosulfate reductase-like1: | 7.03 | AC189750.4_FG004
| Veena Devi et al. 2023. Genetic and molecular understanding for the development of methionine-rich maize: a holistic approach Frontiers in Plant Science. 14:1249230. | | Reference: September 22nd, 2023
Gene Product: October 10th, 2017
Variation: January 13th, 2016
Gene Model: December 18th, 2015
|
| 7 months ago | aprl2 | adenosine 5'-phosphosulfate reductase-like2: | 2.07 | GRMZM2G087254
| Veena Devi et al. 2023. Genetic and molecular understanding for the development of methionine-rich maize: a holistic approach Frontiers in Plant Science. 14:1249230. | | Reference: September 22nd, 2023
Gene Product: October 10th, 2017
Variation: December 23rd, 2015
Gene Model: December 18th, 2015
|
| 7 months ago | aprl3 | adenosine 5'-phosphosulfate reductase-like3: | 4.08 | GRMZM2G042582
| Veena Devi et al. 2023. Genetic and molecular understanding for the development of methionine-rich maize: a holistic approach Frontiers in Plant Science. 14:1249230. | | Reference: September 22nd, 2023
Gene Product: October 10th, 2017
Variation: December 31st, 2015
Gene Model: December 18th, 2015
|
| 7 months ago | aprl4 | adenosine 5'-phosphosulfate reductase-like4: | 5.07 | GRMZM2G159535
| Veena Devi et al. 2023. Genetic and molecular understanding for the development of methionine-rich maize: a holistic approach Frontiers in Plant Science. 14:1249230. | | Reference: September 22nd, 2023
Gene Product: October 10th, 2017
Variation: December 23rd, 2015
Gene Model: December 18th, 2015
|
| 7 months ago | aprl5 | adenosine 5'-phosphosulfate reductase-like5: | 1.07 | GRMZM2G085249
| Veena Devi et al. 2023. Genetic and molecular understanding for the development of methionine-rich maize: a holistic approach Frontiers in Plant Science. 14:1249230. | | Reference: September 22nd, 2023
Gene Product: October 10th, 2017
Variation: December 23rd, 2015
Gene Model: December 18th, 2015
|
| 7 months ago | aprl7 | adenosine 5'-phosphosulfate reductase-like7: | 3.05 | GRMZM2G155073
| Veena Devi et al. 2023. Genetic and molecular understanding for the development of methionine-rich maize: a holistic approach Frontiers in Plant Science. 14:1249230. | | Reference: September 22nd, 2023
Gene Product: October 10th, 2017
Variation: December 30th, 2015
Gene Model: December 18th, 2015
|
| 7 months ago | aprl8 | adenosine 5'-phosphosulfate reductase-like8: | 1.11 | GRMZM2G046231
| Veena Devi et al. 2023. Genetic and molecular understanding for the development of methionine-rich maize: a holistic approach Frontiers in Plant Science. 14:1249230. | | Reference: September 22nd, 2023
Gene Product: October 10th, 2017
Variation: December 23rd, 2015
Gene Model: December 18th, 2015
|
| 7 months ago | aprl9 | adenosine 5'-phosphosulfate reductase-like9: | 5.01 | GRMZM2G025248
| Veena Devi et al. 2023. Genetic and molecular understanding for the development of methionine-rich maize: a holistic approach Frontiers in Plant Science. 14:1249230. | | Reference: September 22nd, 2023
Gene Product: October 10th, 2017
Variation: January 5th, 2016
Gene Model: December 18th, 2015
|
| 7 months ago | elip2 | early light inducible protein2: | | GRMZM2G425728
| Veena Devi et al. 2023. Genetic and molecular understanding for the development of methionine-rich maize: a holistic approach Frontiers in Plant Science. 14:1249230. | | Reference: September 22nd, 2023
Gene Product: July 27th, 2013
Gene Model: July 27th, 2013
|
| 7 months ago | trps4 | trehalose-6-phosphate synthase4: | | GRMZM2G008226
| Veena Devi et al. 2023. Genetic and molecular understanding for the development of methionine-rich maize: a holistic approach Frontiers in Plant Science. 14:1249230. | | Reference: September 22nd, 2023
Gene Product: October 3rd, 2020
Gene Model: September 15th, 2013
|
| 7 months ago | phos4 | phosphate transporter4: | | GRMZM2G064657
| He, KH et al. 2023. QTL mapping and transcriptome analysis identify candidate genes influencing water–nitrogen interaction in maize Crop J. :doi: 10.1016/j.cj.2023.09.001. | AT1G68740 (TAIR) | Reference: September 22nd, 2023
Gene Product: February 27th, 2016
Gene Model: February 27th, 2016
|
| 7 months ago | apx9 | ascorbate peroxidase9: | | GRMZM2G460406
| He, KH et al. 2023. QTL mapping and transcriptome analysis identify candidate genes influencing water–nitrogen interaction in maize Crop J. :doi: 10.1016/j.cj.2023.09.001. | | Reference: September 22nd, 2023
Gene Product: October 15th, 2020
Gene Model: October 15th, 2020
|
| 7 months ago | sat4 | serine acetyltransferase4: | | GRMZM2G048740
| Veena Devi et al. 2023. Genetic and molecular understanding for the development of methionine-rich maize: a holistic approach Frontiers in Plant Science. 14:1249230. | | Reference: September 22nd, 2023
Gene Product: December 31st, 2014
Variation: March 19th, 2021
Gene Model: March 19th, 2021
|
| 7 months ago | cipk14 | calcineurin B-like-interacting protein kinase14: | | GRMZM2G125001
| He, KH et al. 2023. QTL mapping and transcriptome analysis identify candidate genes influencing water–nitrogen interaction in maize Crop J. :doi: 10.1016/j.cj.2023.09.001. | | Reference: September 22nd, 2023
Gene Product: August 25th, 2018
Gene Model: September 8th, 2021
|
| 7 months ago | IDP603 | : | 1.11 | GRMZM2G024267
| Veena Devi et al. 2023. Genetic and molecular understanding for the development of methionine-rich maize: a holistic approach Frontiers in Plant Science. 14:1249230. | | Reference: September 22nd, 2023
Variation: March 31st, 2005
Gene Model: February 16th, 2019
|
| 7 months ago | aprl6 | adenosine 5'-phosphosulfate reductase6: | 10.03 | GRMZM2G141848
| Veena Devi et al. 2023. Genetic and molecular understanding for the development of methionine-rich maize: a holistic approach Frontiers in Plant Science. 14:1249230. | | Reference: September 22nd, 2023
Gene Product: October 10th, 2017
Variation: December 23rd, 2015
Gene Model: January 24th, 2015
|
| 7 months ago | sfp3 | sulfate transporter3: | 1.02 | GRMZM2G042171
| He, KH et al. 2023. QTL mapping and transcriptome analysis identify candidate genes influencing water–nitrogen interaction in maize Crop J. :doi: 10.1016/j.cj.2023.09.001. | | Reference: September 22nd, 2023
Gene Product: May 8th, 2020
Gene Model: November 13th, 2017
|
| 7 months ago | wipf2 | WAS/WASL interacting protein family, member 2: | | | Zhang, ZH et al. 2023. ZmCCT regulates drought tolerance in maize by interacting with ZmFra a 1, E3 ligase ZmWIPF2 and auxin response factor ZmAux/IAA8. J Exp Bot. :doi: 10.1093/jxb/erad372. | | Reference: September 21st, 2023
Gene Product: September 21st, 2023
|
| 7 months ago | zmm7 | Zea mays MADS7: | 7.03 | | Shen, XM et al. 2023. Dynamic transcriptome landscape of developing maize ear Plant J. :doi: 10.1111/tpj.16457. | | Reference: September 21st, 2023
Gene Product: September 10th, 2021
Variation: August 8th, 2008
|
| 7 months ago | zmm8 | Zea mays MADS8: | 9.06 | GRMZM2G102161
| Shen, XM et al. 2023. Dynamic transcriptome landscape of developing maize ear Plant J. :doi: 10.1111/tpj.16457. | | Reference: September 21st, 2023
Gene Product: September 10th, 2021
Variation: September 10th, 2021
Gene Model: September 10th, 2021
|
| 7 months ago | abph1 | aberrant phyllotaxy1: | 2.03 | | Shen, XM et al. 2023. Dynamic transcriptome landscape of developing maize ear Plant J. :doi: 10.1111/tpj.16457. | | Reference: September 21st, 2023
Gene Product: April 20th, 2009
Variation: July 4th, 2009
|
| 7 months ago | spx11 | SPX domain-containing membrane protein11: | 10.04 | GRMZM2G018018
| Luo, BW et al. 2023. Chromatin remodeling analysis reveals the RdDM pathway responds to low-phosphorus stress in maize. Plant J. :doi: 10.1111/tpj.16468. | | Reference: September 21st, 2023
Gene Product: October 9th, 2021
Gene Model: July 21st, 2021
|
| 7 months ago | zmm14 | Zea mays MADS14: | 1.02 | GRMZM2G099522
| Shen, XM et al. 2023. Dynamic transcriptome landscape of developing maize ear Plant J. :doi: 10.1111/tpj.16457. | | Reference: September 21st, 2023
Variation: August 28th, 2013
Gene Model: August 14th, 2017
|
| 7 months ago | zmm18 | Zea mays MADS18: | 8.03 | GRMZM5G805387
| Shen, XM et al. 2023. Dynamic transcriptome landscape of developing maize ear Plant J. :doi: 10.1111/tpj.16457. | | Reference: September 21st, 2023
Gene Product: September 1st, 2003
Variation: August 27th, 2013
Gene Model: July 2nd, 2014
|
| 7 months ago | zmm29 | Zea mays MADS29: | 8.03 | GRMZM2G152862
| Shen, XM et al. 2023. Dynamic transcriptome landscape of developing maize ear Plant J. :doi: 10.1111/tpj.16457. | | Reference: September 21st, 2023
Gene Product: September 1st, 2003
Variation: August 27th, 2013
Gene Model: July 2nd, 2014
|
| 7 months ago | knox7 | knotted related homeobox7: | 4.09 - 4.10 | GRMZM2G433591
| Shen, XM et al. 2023. Dynamic transcriptome landscape of developing maize ear Plant J. :doi: 10.1111/tpj.16457. | | Reference: September 21st, 2023
Gene Product: September 1st, 2003
Variation: August 12th, 2014
Gene Model: August 12th, 2014
|
| 7 months ago | zag4 | zea agamous4: | 3.03 | GRMZM2G471089
| Shen, XM et al. 2023. Dynamic transcriptome landscape of developing maize ear Plant J. :doi: 10.1111/tpj.16457. | | Reference: September 21st, 2023
Gene Product: September 10th, 2021
Variation: September 1st, 2003
Gene Model: April 1st, 2019
|
| 7 months ago | bde1 | bearded-ear1: | 5.06 | | Shen, XM et al. 2023. Dynamic transcriptome landscape of developing maize ear Plant J. :doi: 10.1111/tpj.16457. | AT2G45650 (TAIR) | Reference: September 21st, 2023
Gene Product: April 1st, 2011
Variation: October 5th, 2009
|
| 7 months ago | zag5 | zea agamous5: | 4.06 - 4.06 | | Shen, XM et al. 2023. Dynamic transcriptome landscape of developing maize ear Plant J. :doi: 10.1111/tpj.16457. | AT2G45650 (TAIR) | Reference: September 21st, 2023
Gene Product: September 10th, 2021
Variation: October 7th, 2009
|
| 7 months ago | zag1 | Zea AGAMOUS homolog1: | 6.05 | | Shen, XM et al. 2023. Dynamic transcriptome landscape of developing maize ear Plant J. :doi: 10.1111/tpj.16457. | | Reference: September 21st, 2023
Gene Product: September 1st, 2003
Variation: January 2nd, 2015
|
| 7 months ago | tsh1 | tassel sheath1: | 6.07 | | Shen, XM et al. 2023. Dynamic transcriptome landscape of developing maize ear Plant J. :doi: 10.1111/tpj.16457. | | Reference: September 21st, 2023
Gene Product: November 14th, 2022
Variation: October 6th, 2011
|
| 7 months ago | ufg25 | : | 5.01 | GRMZM2G094900
| Shen, XM et al. 2023. Dynamic transcriptome landscape of developing maize ear Plant J. :doi: 10.1111/tpj.16457. | | Reference: September 21st, 2023
Variation: October 15th, 2019
Gene Model: June 16th, 2018
|
| 7 months ago | zag6 | agamous-like6: | | GRMZM2G026223
| Shen, XM et al. 2023. Dynamic transcriptome landscape of developing maize ear Plant J. :doi: 10.1111/tpj.16457. | | Reference: September 21st, 2023
Variation: June 9th, 2014
Gene Model: June 9th, 2014
|
| 7 months ago | apx10 | ascorbate peroxidase10: | | GRMZM2G120517
| Shen, XM et al. 2023. Dynamic transcriptome landscape of developing maize ear Plant J. :doi: 10.1111/tpj.16457. | | Reference: September 21st, 2023
Gene Product: October 15th, 2020
Gene Model: October 15th, 2020
|
| 7 months ago | spx3 | SPX domain-containing membrane protein3: | | GRMZM2G122108
| Luo, BW et al. 2023. Chromatin remodeling analysis reveals the RdDM pathway responds to low-phosphorus stress in maize. Plant J. :doi: 10.1111/tpj.16468. | | Reference: September 21st, 2023
Gene Product: October 9th, 2021
Gene Model: October 9th, 2021
|
| 7 months ago | spx10 | SPX domain-containing membrane protein10: | | GRMZM2G050329
| Luo, BW et al. 2023. Chromatin remodeling analysis reveals the RdDM pathway responds to low-phosphorus stress in maize. Plant J. :doi: 10.1111/tpj.16468. | | Reference: September 21st, 2023
Gene Product: October 9th, 2021
Gene Model: October 9th, 2021
|
| 7 months ago | spx6 | SPX domain-containing membrane protein6: | | GRMZM2G083655
| Luo, BW et al. 2023. Chromatin remodeling analysis reveals the RdDM pathway responds to low-phosphorus stress in maize. Plant J. :doi: 10.1111/tpj.16468. | | Reference: September 21st, 2023
Gene Product: October 9th, 2021
Gene Model: October 9th, 2021
|
| 7 months ago | auxrp1 | auxin-regulated protein1: | | GRMZM2G063298
| Liu, HH et al. 2023. Isolation and Identification of the Causal Agent of Top Rot and the Genetic Architecture of Resistance in Maize. Plant Dis. :PDIS02230276RE. | | Reference: September 20th, 2023
Variation: October 30th, 2018
Gene Model: October 30th, 2018
|
| 7 months ago | sbt10 | subtilisin10: | | | Hou, QC et al. 2023. A systematic analysis of the subtilase gene family and expression and subcellular localization investigation of anther-specific members in maize Plant Physiol Biochem. 203:108041. | | Reference: September 19th, 2023
Gene Product: November 11th, 2016
|
| 7 months ago | sbt20 | subtilisin20: | | | Hou, QC et al. 2023. A systematic analysis of the subtilase gene family and expression and subcellular localization investigation of anther-specific members in maize Plant Physiol Biochem. 203:108041. | | Reference: September 19th, 2023
Gene Product: November 11th, 2016
|
| 7 months ago | sbt23 | subtilisin23: | | | Hou, QC et al. 2023. A systematic analysis of the subtilase gene family and expression and subcellular localization investigation of anther-specific members in maize Plant Physiol Biochem. 203:108041. | | Reference: September 19th, 2023
Gene Product: November 11th, 2016
|
| 7 months ago | sbt37 | subtilisin37: | | | Hou, QC et al. 2023. A systematic analysis of the subtilase gene family and expression and subcellular localization investigation of anther-specific members in maize Plant Physiol Biochem. 203:108041. | | Reference: September 19th, 2023
Gene Product: November 11th, 2016
|
| 7 months ago | arftf22 | ARF-transcription factor 22: | | | Eliandro Espindula et al. 2023. Effects on gene expression during maize-Azospirillum interaction in the presence of a plant-specific inhibitor of indole-3-acetic acid production. Genet Mol Biol. 46:e20230100. | | Reference: September 19th, 2023
Gene Product: January 29th, 2022
|
| 7 months ago | arftf24 | ARF-transcription factor 24: | | | Eliandro Espindula et al. 2023. Effects on gene expression during maize-Azospirillum interaction in the presence of a plant-specific inhibitor of indole-3-acetic acid production. Genet Mol Biol. 46:e20230100. | | Reference: September 19th, 2023
Gene Product: January 29th, 2022
Variation: March 3rd, 2023
|
| 7 months ago | tlc17 | TRAM/LAG/CRN8 17: | 8.08 | GRMZM5G825226
| Eliandro Espindula et al. 2023. Effects on gene expression during maize-Azospirillum interaction in the presence of a plant-specific inhibitor of indole-3-acetic acid production. Genet Mol Biol. 46:e20230100. | | Reference: September 19th, 2023
Gene Product: November 4th, 2019
Gene Model: September 2nd, 2018
|
| 7 months ago | cyc1 | cyclin1: | 8.05 | | Eliandro Espindula et al. 2023. Effects on gene expression during maize-Azospirillum interaction in the presence of a plant-specific inhibitor of indole-3-acetic acid production. Genet Mol Biol. 46:e20230100. | | Reference: September 19th, 2023
Gene Product: June 26th, 2009
Variation: September 25th, 2007
|
| 7 months ago | cki4 | cyclin-dependent kinase inhibitor4: | | GRMZM2G358931
| Eliandro Espindula et al. 2023. Effects on gene expression during maize-Azospirillum interaction in the presence of a plant-specific inhibitor of indole-3-acetic acid production. Genet Mol Biol. 46:e20230100. | | Reference: September 19th, 2023
Gene Product: March 8th, 2017
Variation: May 26th, 2017
Gene Model: March 7th, 2017
|
| 7 months ago | tlc9 | TRAM/LAG/CRN8 9: | | AC210013.4_FG012
| Eliandro Espindula et al. 2023. Effects on gene expression during maize-Azospirillum interaction in the presence of a plant-specific inhibitor of indole-3-acetic acid production. Genet Mol Biol. 46:e20230100. | | Reference: September 19th, 2023
Gene Product: November 4th, 2019
Gene Model: November 4th, 2019
|
| 7 months ago | saur41 | small auxin up RNA41: | | GRMZM2G432060
| Eliandro Espindula et al. 2023. Effects on gene expression during maize-Azospirillum interaction in the presence of a plant-specific inhibitor of indole-3-acetic acid production. Genet Mol Biol. 46:e20230100. | | Reference: September 19th, 2023
Gene Product: November 26th, 2021
Gene Model: November 26th, 2021
|
| 7 months ago | chlh2 | Mg chelatase subunit H 2: | | GRMZM2G105319
| Zhou, Y et al. 2023. The G protein-coupled receptor COLD1 promotes chilling tolerance in maize during germination. Int J Biol Macromol. :doi: 10.1016/j.ijbiomac.2023.126877. | | Reference: September 18th, 2023
Gene Product: June 11th, 2007
Gene Model: December 15th, 2021
|
| 7 months ago | krp9 | kinesin-related protein9: | 6.05 | GRMZM5G881464
| Lawrence, CJ et al. 2002. J Mol Evol 54:42-53 | | Reference: September 1st, 2003
Gene Product: September 18th, 2023
Variation: September 1st, 2003
Gene Model: August 26th, 2018
|
| 7 months ago | ereb147 | AP2-EREBP-transcription factor 147: | | | Zhou, Y et al. 2023. The G protein-coupled receptor COLD1 promotes chilling tolerance in maize during germination. Int J Biol Macromol. :doi: 10.1016/j.ijbiomac.2023.126877. | | Reference: September 18th, 2023
Variation: June 20th, 2022
|
| 7 months ago | cyc13 | cyclin13: | 4.07 | GRMZM2G075117
| Romero-Sanchez, D et al. 2023. Tissue and subcellular localization of CycD2 and KRPs are dissimilarly distributed by glucose and sucrose during early maize germination. Acta Histochem. 125:152092. | | Reference: September 18th, 2023
Gene Product: June 26th, 2009
Variation: March 15th, 2017
Gene Model: March 15th, 2017
|
| 7 months ago | cki1 | cyclin-dependent kinase inhibitor1: | 1.08 | GRMZM2G116885
| Romero-Sanchez, D et al. 2023. Tissue and subcellular localization of CycD2 and KRPs are dissimilarly distributed by glucose and sucrose during early maize germination. Acta Histochem. 125:152092. | | Reference: September 18th, 2023
Gene Product: March 8th, 2017
Variation: December 6th, 2016
Gene Model: December 6th, 2016
|
| 7 months ago | krp1 | kinesin-related protein1: | 4.06 | GRMZM2G129569
| Gao, J et al. 2021. BMC Plant Biology 21:434 | | Reference: September 24th, 2021
Gene Product: September 18th, 2023
Gene Model: March 3rd, 2016
|
| 7 months ago | krp3 | kinesin-related protein3: | 8.05 | GRMZM2G173700
| Lawrence, CJ et al. 2002. J Mol Evol 54:42-53 | | Reference: September 1st, 2003
Gene Product: September 18th, 2023
Gene Model: March 3rd, 2016
|
| 7 months ago | krp4 | kinesin-related protein4: | 1.07 | GRMZM2G320689
| Ren, ZB et al. 2023. Deciphering transcriptional mechanisms of maize internodal elongation by regulatory network analysis. J Exp Bot. :doi: 10.1093/jxb/erad178. | | Reference: May 12th, 2023
Gene Product: September 18th, 2023
Variation: April 22nd, 2006
Gene Model: March 3rd, 2016
|
| 7 months ago | krp5 | kinesin-related protein5: | 6.04 | GRMZM2G093391
| Zhao, XQ et al. 2023. New insights into light spectral quality inhibits the plasticity elongation of maize mesocotyl and coleoptile during seed germination. Frontiers in Plant Science. 14:1152399. | | Reference: April 3rd, 2023
Gene Product: September 18th, 2023
Gene Model: August 13th, 2014
|
| 7 months ago | krp8 | kinesin-related protein8: | 4.08 | GRMZM2G132371
| Ren, ZB et al. 2023. Deciphering transcriptional mechanisms of maize internodal elongation by regulatory network analysis. J Exp Bot. :doi: 10.1093/jxb/erad178. | | Reference: May 12th, 2023
Gene Product: September 18th, 2023
Variation: April 4th, 2015
Gene Model: April 4th, 2015
|
| 7 months ago | krp11 | kinesin-related protein11: | 7.00 | GRMZM2G436981
| Cheng Wang et al. 2023. A Systemic Investigation of Genetic Architecture and Gene Resources Controlling Kernel Size-Related Traits in Maize Int J Mol Sci. 24:1025. | | Reference: January 5th, 2023
Gene Product: September 18th, 2023
Variation: April 9th, 2019
Gene Model: July 30th, 2015
|
| 7 months ago | krp15 | kinesin-related protein15: | 10.04 | GRMZM2G054418
| Zhang, J et al. 2019. Physiol Plant pp.doi: 10.1111/ppl.13048 | | Reference: November 15th, 2019
Gene Product: September 18th, 2023
Variation: January 3rd, 2013
Gene Model: March 3rd, 2016
|
| 7 months ago | krp16 | kinesin-related protein16: | 8.09 | GRMZM2G124883
| Lawrence, CJ et al. 2002. J Mol Evol 54:42-53 | | Reference: September 1st, 2003
Gene Product: September 18th, 2023
Variation: January 4th, 2013
Gene Model: March 3rd, 2016
|
| 7 months ago | cki2 | cyclin-dependent kinase inhibitor2: | | GRMZM2G037926
| Romero-Sanchez, D et al. 2023. Tissue and subcellular localization of CycD2 and KRPs are dissimilarly distributed by glucose and sucrose during early maize germination. Acta Histochem. 125:152092. | | Reference: September 18th, 2023
Gene Product: March 8th, 2017
Variation: May 17th, 2017
Gene Model: March 7th, 2017
|
| 7 months ago | mex1 | maltose excess protein1: | | GRMZM2G156356
| Chen, GP et al. 2023. Improved photosynthetic performance under unilateral weak light conditions in a wide-narrow-row intercropping system is associated with altered sugar transport. J Exp Bot. :doi: 10.1093/jxb/erad370. | | Reference: September 18th, 2023
Gene Product: December 15th, 2018
Gene Model: December 15th, 2018
|
| 7 months ago | amyb3 | beta-amylase3: | | GRMZM2G347708
| Chen, GP et al. 2023. Improved photosynthetic performance under unilateral weak light conditions in a wide-narrow-row intercropping system is associated with altered sugar transport. J Exp Bot. :doi: 10.1093/jxb/erad370. | | Reference: September 18th, 2023
Gene Product: February 26th, 2021
Gene Model: December 15th, 2018
|
| 7 months ago | trkin1 | tandem repeat kinesin1: | | | Dawe, RK. 2022. Chromosome Res pp.doi: 10.1007/s10577-022-09693-6 | | Reference: June 2nd, 2022
Gene Product: September 18th, 2023
|
| 7 months ago | kindr1 | kinesin driver1: | | | Swentowsky, KW et al. 2020. Genes Dev pp.doi: 10.1101/gad.340679.120 | | Reference: August 21st, 2020
Gene Product: September 18th, 2023
|
| 7 months ago | geb2 | glucan endo-1,3-beta-glucosidase homolog2: | | GRMZM2G433365
| Yu-Han Lin et al. 2023. Ustilago maydis PR-1-like protein has evolved two distinct domains for dual virulence activities Nat Commun. 14:5755. | | Reference: September 16th, 2023
Gene Product: September 1st, 2003
Gene Model: April 4th, 2020
|
| 7 months ago | ccp4 | cysteine protease4: | 7.03 | GRMZM2G108849
| Yu-Han Lin et al. 2023. Ustilago maydis PR-1-like protein has evolved two distinct domains for dual virulence activities Nat Commun. 14:5755. | | Reference: September 16th, 2023
Gene Product: October 11th, 2021
Gene Model: February 13th, 2014
|
| 7 months ago | ccp5 | cysteine protease5: | 6.01 | GRMZM2G066326
| Yu-Han Lin et al. 2023. Ustilago maydis PR-1-like protein has evolved two distinct domains for dual virulence activities Nat Commun. 14:5755. | | Reference: September 16th, 2023
Gene Product: October 11th, 2021
Variation: March 31st, 2005
Gene Model: February 13th, 2014
|
| 7 months ago | rip1 | ribosome-inactivating protein1: | 8.03 | GRMZM2G063536
| Zhu, JM et al. 2023. PER-seq: a simple method to screen transcriptional regulation in plants. Plant Physiol. :doi: 10.1093/plphys/kiad495. | | Reference: September 14th, 2023
Gene Product: September 1st, 2003
Variation: April 19th, 2005
Gene Model: April 18th, 2017
|
| 7 months ago | lip15 | low temperature-induced protein15: | 6.01 | GRMZM2G448607
| Zhu, JM et al. 2023. PER-seq: a simple method to screen transcriptional regulation in plants. Plant Physiol. :doi: 10.1093/plphys/kiad495. | | Reference: September 14th, 2023
Gene Product: September 1st, 2003
Variation: March 14th, 2007
Gene Model: July 28th, 2016
|
| 7 months ago | zim21 | ZIM-transcription factor 21: | | | Zhu, JM et al. 2023. PER-seq: a simple method to screen transcriptional regulation in plants. Plant Physiol. :doi: 10.1093/plphys/kiad495. | | Reference: September 14th, 2023
Gene Product: February 24th, 2021
|
| 7 months ago | lkrsdh1 | lysine-ketoglutarate reductase/saccharopine dehydrogenase1: | 4.07 | | Zhu, JM et al. 2023. PER-seq: a simple method to screen transcriptional regulation in plants. Plant Physiol. :doi: 10.1093/plphys/kiad495. | | Reference: September 14th, 2023
Gene Product: September 1st, 2003
Variation: April 18th, 2008
|
| 7 months ago | gz50 | 50kD gamma zein: | 7.02 | GRMZM2G138689
| Zhu, JM et al. 2023. PER-seq: a simple method to screen transcriptional regulation in plants. Plant Physiol. :doi: 10.1093/plphys/kiad495. | | Reference: September 14th, 2023
Gene Product: September 22nd, 2010
Variation: September 16th, 2010
Gene Model: November 21st, 2014
|
| 7 months ago | zp3 | zein protein3: | | GRMZM2G160739
| Zhu, JM et al. 2023. PER-seq: a simple method to screen transcriptional regulation in plants. Plant Physiol. :doi: 10.1093/plphys/kiad495. | | Reference: September 14th, 2023
Gene Product: September 1st, 2003
Gene Model: August 1st, 2016
|
| 7 months ago | IDP336 | : | 7.01 | GRMZM2G443668
| Zhu, JM et al. 2023. PER-seq: a simple method to screen transcriptional regulation in plants. Plant Physiol. :doi: 10.1093/plphys/kiad495. | | Reference: September 14th, 2023
Variation: March 31st, 2005
Gene Model: January 30th, 2019
|
| 7 months ago | tar3 | tryptophan aminotransferase related3: | 6.05 | GRMZM2G141810
| Zhu, JM et al. 2023. PER-seq: a simple method to screen transcriptional regulation in plants. Plant Physiol. :doi: 10.1093/plphys/kiad495. | | Reference: September 14th, 2023
Gene Product: April 30th, 2011
Gene Model: August 22nd, 2013
|
| 7 months ago | pum9 | pumilio9: | | | Feng, WQ et al. 2023. Comprehensive Identification of the Pum Gene Family and Its Involvement in Kernel Development in Maize Int J Mol Sci. 24:14036. | | Reference: September 13th, 2023
Gene Product: September 13th, 2023
|
| 7 months ago | isca2 | iron sulfur cluster assembly2: | | | Wang, JL et al. 2023. Investigating the genetic basis of maize ear characteristics: a comprehensive genome-wide study utilizing high-throughput phenotypic measurement method and system. Frontiers in Plant Science. 14:1248446. | | Reference: September 13th, 2023
Gene Product: August 12th, 2023
|
| 7 months ago | pum1 | pumilio1: | | | Feng, WQ et al. 2023. Comprehensive Identification of the Pum Gene Family and Its Involvement in Kernel Development in Maize Int J Mol Sci. 24:14036. | | Reference: September 13th, 2023
Gene Product: September 13th, 2023
|
| 7 months ago | pum2 | pumilio2: | | | Feng, WQ et al. 2023. Comprehensive Identification of the Pum Gene Family and Its Involvement in Kernel Development in Maize Int J Mol Sci. 24:14036. | | Reference: September 13th, 2023
Gene Product: September 13th, 2023
|
| 7 months ago | pum3 | pumilio3: | | | Feng, WQ et al. 2023. Comprehensive Identification of the Pum Gene Family and Its Involvement in Kernel Development in Maize Int J Mol Sci. 24:14036. | | Reference: September 13th, 2023
Gene Product: September 13th, 2023
|
| 7 months ago | pum6 | pumilio6: | | | Feng, WQ et al. 2023. Comprehensive Identification of the Pum Gene Family and Its Involvement in Kernel Development in Maize Int J Mol Sci. 24:14036. | | Reference: September 13th, 2023
Gene Product: September 13th, 2023
|
| 7 months ago | pum7 | pumilio7: | | | Feng, WQ et al. 2023. Comprehensive Identification of the Pum Gene Family and Its Involvement in Kernel Development in Maize Int J Mol Sci. 24:14036. | | Reference: September 13th, 2023
Gene Product: September 13th, 2023
|
| 7 months ago | pum12 | pumilio12: | | | Feng, WQ et al. 2023. Comprehensive Identification of the Pum Gene Family and Its Involvement in Kernel Development in Maize Int J Mol Sci. 24:14036. | | Reference: September 13th, 2023
Gene Product: September 13th, 2023
|
| 7 months ago | pum14 | pumilio14: | | | Feng, WQ et al. 2023. Comprehensive Identification of the Pum Gene Family and Its Involvement in Kernel Development in Maize Int J Mol Sci. 24:14036. | | Reference: September 13th, 2023
Gene Product: September 13th, 2023
|
| 7 months ago | pum16 | pumilio16: | | | Feng, WQ et al. 2023. Comprehensive Identification of the Pum Gene Family and Its Involvement in Kernel Development in Maize Int J Mol Sci. 24:14036. | | Reference: September 13th, 2023
Gene Product: September 13th, 2023
|
| 7 months ago | pum19 | pumilio19: | | | Feng, WQ et al. 2023. Comprehensive Identification of the Pum Gene Family and Its Involvement in Kernel Development in Maize Int J Mol Sci. 24:14036. | | Reference: September 13th, 2023
Gene Product: September 13th, 2023
|
| 7 months ago | pum15 | pumilio15: | 8.05 | GRMZM2G112769
| Feng, WQ et al. 2023. Comprehensive Identification of the Pum Gene Family and Its Involvement in Kernel Development in Maize Int J Mol Sci. 24:14036. | | Reference: September 13th, 2023
Gene Product: September 13th, 2023
Variation: September 1st, 2003
Gene Model: September 1st, 2019
|
| 7 months ago | pum5 | pumilio5: | 1.11 | GRMZM2G114692
| Feng, WQ et al. 2023. Comprehensive Identification of the Pum Gene Family and Its Involvement in Kernel Development in Maize Int J Mol Sci. 24:14036. | | Reference: September 13th, 2023
Gene Product: September 13th, 2023
Gene Model: August 9th, 2021
|
| 7 months ago | fad8 | fatty acid desaturase8: | 1.03 | GRMZM2G074401
| Wang, JL et al. 2023. Investigating the genetic basis of maize ear characteristics: a comprehensive genome-wide study utilizing high-throughput phenotypic measurement method and system. Frontiers in Plant Science. 14:1248446. | | Reference: September 13th, 2023
Gene Product: September 1st, 2003
Variation: September 1st, 2003
Gene Model: January 29th, 2015
|
| 7 months ago | pdc3 | pyruvate decarboxylase3: | 1.03 | | Wang, JL et al. 2023. Investigating the genetic basis of maize ear characteristics: a comprehensive genome-wide study utilizing high-throughput phenotypic measurement method and system. Frontiers in Plant Science. 14:1248446. | | Reference: September 13th, 2023
Gene Product: September 1st, 2003
Variation: September 1st, 2003
|
| 7 months ago | pum17 | pumilio17: | 10.03 | GRMZM2G160279
| Feng, WQ et al. 2023. Comprehensive Identification of the Pum Gene Family and Its Involvement in Kernel Development in Maize Int J Mol Sci. 24:14036. | | Reference: September 13th, 2023
Gene Product: September 13th, 2023
Gene Model: December 15th, 2017
|
| 7 months ago | agrr21 | : | 8.09 | GRMZM2G302639
| Wang, JL et al. 2023. Investigating the genetic basis of maize ear characteristics: a comprehensive genome-wide study utilizing high-throughput phenotypic measurement method and system. Frontiers in Plant Science. 14:1248446. | | Reference: September 13th, 2023
Variation: September 25th, 2007
Gene Model: April 19th, 2017
|
| 7 months ago | pum4 | pumilio4: | 1.06 | GRMZM2G449123
| Feng, WQ et al. 2023. Comprehensive Identification of the Pum Gene Family and Its Involvement in Kernel Development in Maize Int J Mol Sci. 24:14036. | | Reference: September 13th, 2023
Gene Product: September 13th, 2023
Gene Model: April 10th, 2021
|
| 7 months ago | smk1 | small kernel1: | | GRMZM2G030148
| Wang, JL et al. 2023. Investigating the genetic basis of maize ear characteristics: a comprehensive genome-wide study utilizing high-throughput phenotypic measurement method and system. Frontiers in Plant Science. 14:1248446. | | Reference: September 13th, 2023
Gene Product: June 14th, 2014
Variation: June 14th, 2014
Gene Model: June 14th, 2014
|
| 7 months ago | dapat1 | diaminopimelate aminotransferase1: | | GRMZM2G010328
| Wang, JL et al. 2023. Investigating the genetic basis of maize ear characteristics: a comprehensive genome-wide study utilizing high-throughput phenotypic measurement method and system. Frontiers in Plant Science. 14:1248446. | | Reference: September 13th, 2023
Gene Product: October 21st, 2020
Gene Model: October 21st, 2020
|
| 7 months ago | pum13 | pumilio13: | | GRMZM2G704349
| Feng, WQ et al. 2023. Comprehensive Identification of the Pum Gene Family and Its Involvement in Kernel Development in Maize Int J Mol Sci. 24:14036. | | Reference: September 13th, 2023
Gene Product: September 13th, 2023
Gene Model: April 28th, 2021
|
| 7 months ago | pum11 | pumilio11: | | GRMZM2G038818
| Feng, WQ et al. 2023. Comprehensive Identification of the Pum Gene Family and Its Involvement in Kernel Development in Maize Int J Mol Sci. 24:14036. | | Reference: September 13th, 2023
Gene Product: September 13th, 2023
Gene Model: July 21st, 2021
|
| 7 months ago | pum10 | pumilio10: | | GRMZM2G049623
| Feng, WQ et al. 2023. Comprehensive Identification of the Pum Gene Family and Its Involvement in Kernel Development in Maize Int J Mol Sci. 24:14036. | | Reference: September 13th, 2023
Gene Product: September 13th, 2023
Gene Model: November 16th, 2021
|
| 7 months ago | Zm00001d029087 | : | | GRMZM2G011240
| Du, K et al. 2023. Auxin and abscisic acid play important roles in promoting glucose metabolism of reactivated young kernels of maize (Zea mays L.) Physiol Plant. :doi: 10.1111/ppl.14019. | | Reference: September 13th, 2023
Gene Product: October 25th, 2006
Gene Model: January 12th, 2022
|
| 7 months ago | pum18 | pumilio18: | 10.03 | GRMZM2G006287
| Feng, WQ et al. 2023. Comprehensive Identification of the Pum Gene Family and Its Involvement in Kernel Development in Maize Int J Mol Sci. 24:14036. | | Reference: September 13th, 2023
Gene Product: September 13th, 2023
Gene Model: June 30th, 2020
|
| 7 months ago | IDP3865 | : | 1.03 | GRMZM2G135456
| Wang, JL et al. 2023. Investigating the genetic basis of maize ear characteristics: a comprehensive genome-wide study utilizing high-throughput phenotypic measurement method and system. Frontiers in Plant Science. 14:1248446. | | Reference: September 13th, 2023
Variation: March 31st, 2005
Gene Model: March 24th, 2021
|
| 7 months ago | pum8 | pumilio8: | 4.05 | GRMZM2G035118
| Feng, WQ et al. 2023. Comprehensive Identification of the Pum Gene Family and Its Involvement in Kernel Development in Maize Int J Mol Sci. 24:14036. | | Reference: September 13th, 2023
Gene Product: September 13th, 2023
Variation: March 31st, 2005
Gene Model: May 22nd, 2021
|
| 7 months ago | uce12 | ubiquitin conjugating enzyme12: | 8.03 | GRMZM2G015287
| Wang, JL et al. 2023. Investigating the genetic basis of maize ear characteristics: a comprehensive genome-wide study utilizing high-throughput phenotypic measurement method and system. Frontiers in Plant Science. 14:1248446. | | Reference: September 13th, 2023
Gene Product: December 19th, 2019
Variation: March 31st, 2005
Gene Model: July 25th, 2018
|
| 7 months ago | si945020c09 | : | 5.03 | GRMZM2G098370
| Cai, Q et al. 2023. Multiomics comparative analysis of the maize large grain mutant tc19 identified pathways related to kernel development. BMC Genomics. 24:537. | | Reference: September 12th, 2023
Variation: September 25th, 2007
Gene Model: August 27th, 2021
|
| 7 months ago | abi5 | ABI3-VP1-transcription factor 5: | | | Singh, A et al. 2023. Drought stress in maize: stress perception to molecular response and strategies for its improvement. Funct Integr Genomics. 23:296. | | Reference: September 12th, 2023
Gene Product: January 29th, 2022
|
| 7 months ago | wee1 | wee1: | 4.11 | GRMZM5G878541
| Singh, A et al. 2023. Drought stress in maize: stress perception to molecular response and strategies for its improvement. Funct Integr Genomics. 23:296. | | Reference: September 12th, 2023
Variation: March 21st, 2017
Gene Model: March 17th, 2017
|
| 7 months ago | mrpa4 | multidrug resistance-associated protein 4: | 1.01 | GRMZM2G079772
| Singh, A et al. 2023. Drought stress in maize: stress perception to molecular response and strategies for its improvement. Funct Integr Genomics. 23:296. | | Reference: September 12th, 2023
Gene Product: July 11th, 2019
Variation: July 12th, 2019
Gene Model: October 17th, 2016
|
| 7 months ago | pyl9 | pyrabactin resistance-like protein9: | | GRMZM2G133631
| Singh, A et al. 2023. Drought stress in maize: stress perception to molecular response and strategies for its improvement. Funct Integr Genomics. 23:296. | | Reference: September 12th, 2023
Gene Product: January 31st, 2021
Gene Model: April 21st, 2018
|
| 7 months ago | prh28 | protein phosphatase homolog28: | | GRMZM2G108355
| Singh, A et al. 2023. Drought stress in maize: stress perception to molecular response and strategies for its improvement. Funct Integr Genomics. 23:296. | | Reference: September 12th, 2023
Gene Product: October 25th, 2021
Gene Model: October 25th, 2021
|
| 8 months ago | prh141 | protein phosphatase homolog141: | | | Huan Wu et al. 2023. Genome-Wide Identification and Characterization of the PP2C Family from Zea mays and Its Role in Long-Distance Signaling. Plants. 12:3153. | | Reference: September 11th, 2023
Gene Product: October 25th, 2021
|
| 8 months ago | prh138 | protein phosphatase homolog138: | | | Huan Wu et al. 2023. Genome-Wide Identification and Characterization of the PP2C Family from Zea mays and Its Role in Long-Distance Signaling. Plants. 12:3153. | | Reference: September 11th, 2023
Gene Product: October 25th, 2021
|
| 8 months ago | iaa49 | auxin-responsive Aux/IAA family member 49: | | | Huan Wu et al. 2023. Genome-Wide Identification and Characterization of the PP2C Family from Zea mays and Its Role in Long-Distance Signaling. Plants. 12:3153. | | Reference: September 11th, 2023
Gene Product: October 25th, 2021
|
| 8 months ago | prh142 | protein phosphatase homolog142: | | | Huan Wu et al. 2023. Genome-Wide Identification and Characterization of the PP2C Family from Zea mays and Its Role in Long-Distance Signaling. Plants. 12:3153. | | Reference: September 11th, 2023
Gene Product: October 25th, 2021
|
| 8 months ago | fha7 | FHA-transcription factor 7: | | | Huan Wu et al. 2023. Genome-Wide Identification and Characterization of the PP2C Family from Zea mays and Its Role in Long-Distance Signaling. Plants. 12:3153. | | Reference: September 11th, 2023
Gene Product: October 25th, 2021
|
| 8 months ago | prh143 | protein phosphatase homolog143: | 9.07 | GRMZM2G004377
| Huan Wu et al. 2023. Genome-Wide Identification and Characterization of the PP2C Family from Zea mays and Its Role in Long-Distance Signaling. Plants. 12:3153. | | Reference: September 11th, 2023
Gene Product: October 25th, 2021
Variation: September 1st, 2003
Gene Model: March 8th, 2018
|
| 8 months ago | prh140 | protein phosphatase homolog140: | | GRMZM2G063841
| Huan Wu et al. 2023. Genome-Wide Identification and Characterization of the PP2C Family from Zea mays and Its Role in Long-Distance Signaling. Plants. 12:3153. | | Reference: September 11th, 2023
Gene Product: January 31st, 2021
Gene Model: January 31st, 2021
|
| 8 months ago | prh124 | protein phosphatase homolog124: | | GRMZM2G053722
| Huan Wu et al. 2023. Genome-Wide Identification and Characterization of the PP2C Family from Zea mays and Its Role in Long-Distance Signaling. Plants. 12:3153. | | Reference: September 11th, 2023
Gene Product: October 25th, 2021
Gene Model: November 24th, 2021
|
| 8 months ago | prh83 | protein phosphatase homolog83: | | GRMZM2G377904
| Huan Wu et al. 2023. Genome-Wide Identification and Characterization of the PP2C Family from Zea mays and Its Role in Long-Distance Signaling. Plants. 12:3153. | | Reference: September 11th, 2023
Gene Product: October 25th, 2021
Gene Model: November 24th, 2021
|
| 8 months ago | prh87 | protein phosphatase homolog87: | | GRMZM2G407623
| Huan Wu et al. 2023. Genome-Wide Identification and Characterization of the PP2C Family from Zea mays and Its Role in Long-Distance Signaling. Plants. 12:3153. | | Reference: September 11th, 2023
Gene Product: October 25th, 2021
Gene Model: November 24th, 2021
|
| 8 months ago | prh139 | protein phosphatase homolog139: | 5.03 | GRMZM2G071087
| Huan Wu et al. 2023. Genome-Wide Identification and Characterization of the PP2C Family from Zea mays and Its Role in Long-Distance Signaling. Plants. 12:3153. | | Reference: September 11th, 2023
Gene Product: October 25th, 2021
Gene Model: May 9th, 2020
|
| 8 months ago | pr1 | red aleurone1: | 5.05 | GRMZM2G025832
| Anirban, A et al. 2023. Mol Genet Genomics. doi: 10.1007/s00438-023-02060-y | | Reference: September 8th, 2023
Gene Product: June 20th, 2018
Variation: June 10th, 2011
Gene Model: September 22nd, 2011
|
| 8 months ago | nrat1 | nramp aluminum transporter1: | | GRMZM2G069198
| Rabby, MG et al. 2023. In Silico Functional Prediction, and Expression Analysis in Response to Drought Stress of Natural Resistance-Associated Macrophage Protein (NRAMP) Gene Family in Maize J Data Mining Genomics Proteomics. 14:1000302. | | Reference: September 8th, 2023
Gene Product: August 17th, 2015
Variation: August 17th, 2015
Gene Model: August 17th, 2015
|
| 8 months ago | nrat2 | nramp aluminum transporter2: | | GRMZM2G168747
| Rabby, MG et al. 2023. In Silico Functional Prediction, and Expression Analysis in Response to Drought Stress of Natural Resistance-Associated Macrophage Protein (NRAMP) Gene Family in Maize J Data Mining Genomics Proteomics. 14:1000302. | | Reference: September 8th, 2023
Gene Product: August 17th, 2015
Variation: May 5th, 2023
Gene Model: May 1st, 2020
|
| 8 months ago | nrat4 | nramp aluminum transporter4: | | GRMZM2G028036
| Rabby, MG et al. 2023. In Silico Functional Prediction, and Expression Analysis in Response to Drought Stress of Natural Resistance-Associated Macrophage Protein (NRAMP) Gene Family in Maize J Data Mining Genomics Proteomics. 14:1000302. | | Reference: September 8th, 2023
Gene Product: August 17th, 2015
Gene Model: March 5th, 2021
|
| 8 months ago | nrat6 | nramp aluminum transporter6: | | GRMZM2G025680
| Rabby, MG et al. 2023. In Silico Functional Prediction, and Expression Analysis in Response to Drought Stress of Natural Resistance-Associated Macrophage Protein (NRAMP) Gene Family in Maize J Data Mining Genomics Proteomics. 14:1000302. | | Reference: September 8th, 2023
Gene Product: August 17th, 2015
Gene Model: April 27th, 2022
|
| 8 months ago | nrat7 | nramp aluminum transporter7: | | GRMZM2G366919
| Rabby, MG et al. 2023. In Silico Functional Prediction, and Expression Analysis in Response to Drought Stress of Natural Resistance-Associated Macrophage Protein (NRAMP) Gene Family in Maize J Data Mining Genomics Proteomics. 14:1000302. | | Reference: September 8th, 2023
Gene Product: August 17th, 2015
Gene Model: June 6th, 2022
|
| 8 months ago | prd4 | putative recombination initiation defect4: | | | Guo, SJ et al. 2023. Using High-Throughput Phenotyping Analysis to Decipher the Phenotypic Components and Genetic Architecture of Maize Seedling Salt Tolerance Genes. 14:1771. | AT1G01690 (TAIR) | Reference: September 7th, 2023
Variation: October 12th, 2022
|
| 8 months ago | ago18a | argonaute18a: | 2.07 | | Kelliher, T; Walbot, V. 2014. Plant J pp.DOI: 10.1111/tpj.12414 | | Reference: September 7th, 2023
Gene Product: August 12th, 2016
|
| 8 months ago | hm1 | Helminthosporium carbonum susceptibility1: | 1.06 | | Choudhary, M et al. 2023. Conventional and Molecular Breeding for Genetic Improvement of Maize (Zea mays L.); In: Advanced Crop Improvement Volume 2, Aamir Raina, Mohammad Rafiq Wani, Rafiul Amin Laskar, Nasya Tomlekova, Samiullah Khan (Editors), Springer Nature :317–350. | | Reference: September 7th, 2023
Gene Product: May 23rd, 2014
Variation: September 1st, 2003
|
| 8 months ago | bnl8.45a | : | 2.01 | GRMZM2G084252
| Guo, SJ et al. 2023. Using High-Throughput Phenotyping Analysis to Decipher the Phenotypic Components and Genetic Architecture of Maize Seedling Salt Tolerance Genes. 14:1771. | | Reference: September 7th, 2023
Variation: September 1st, 2003
Gene Model: April 21st, 2021
|
| 8 months ago | ago5b | argonaute5b: | 2.09 | GRMZM2G059033
| Kelliher, T; Walbot, V. 2014. Plant J pp.DOI: 10.1111/tpj.12414 | | Reference: September 7th, 2023
Gene Product: August 12th, 2016
Gene Model: April 5th, 2022
|
| 8 months ago | ufg75b | : | 10.07 | GRMZM2G120136
| Guo, SJ et al. 2023. Using High-Throughput Phenotyping Analysis to Decipher the Phenotypic Components and Genetic Architecture of Maize Seedling Salt Tolerance Genes. 14:1771. | | Reference: September 7th, 2023
Variation: October 24th, 2018
Gene Model: October 24th, 2018
|
| 8 months ago | spr1 | signal recognition particle receptor homolog1: | 1.00 | GRMZM2G060296
| Guo, SJ et al. 2023. Using High-Throughput Phenotyping Analysis to Decipher the Phenotypic Components and Genetic Architecture of Maize Seedling Salt Tolerance Genes. 14:1771. | | Reference: September 7th, 2023
Gene Product: September 1st, 2003
Variation: April 14th, 2011
Gene Model: July 28th, 2016
|
| 8 months ago | smk2 | small kernel2: | 4.10 | GRMZM2G023528
| Lu, CC et al. 2022. Multiple forms of vitamin B6 regulate salt tolerance by balancing ROS and abscisic acid levels in maize root. Stress Biol. 2:39. | | Reference: September 7th, 2023
Gene Product: April 14th, 2017
Variation: April 14th, 2017
Gene Model: April 14th, 2017
|
| 8 months ago | ago108 | argonaute108: | 5.01 | GRMZM2G461936
| Kelliher, T; Walbot, V. 2014. Plant J pp.DOI: 10.1111/tpj.12414 | | Reference: September 7th, 2023
Gene Product: August 12th, 2016
Variation: September 11th, 2007
Gene Model: August 13th, 2016
|
| 8 months ago | ppr152 | pentatricopeptide repeat protein152: | | GRMZM2G050697
| Guo, SJ et al. 2023. Using High-Throughput Phenotyping Analysis to Decipher the Phenotypic Components and Genetic Architecture of Maize Seedling Salt Tolerance Genes. 14:1771. | | Reference: September 7th, 2023
Gene Product: April 29th, 2013
Gene Model: April 26th, 2013
|
| 8 months ago | dmag4 | DNA-3-methyladenine glycosylase4: | | GRMZM2G113228
| Kelliher, T; Walbot, V. 2014. Plant J pp.DOI: 10.1111/tpj.12414 | | Reference: September 7th, 2023
Gene Product: January 1st, 2022
Gene Model: February 13th, 2014
|
| 8 months ago | cl14668_1 | : | 4.09 | GRMZM2G037185
| Guo, SJ et al. 2023. Using High-Throughput Phenotyping Analysis to Decipher the Phenotypic Components and Genetic Architecture of Maize Seedling Salt Tolerance Genes. 14:1771. | | Reference: September 7th, 2023
Variation: September 25th, 2007
Gene Model: August 24th, 2021
|
| 8 months ago | nl4 | narrow leaf4: | 4.01 | GRMZM2G070553
| Guo, SJ et al. 2023. Using High-Throughput Phenotyping Analysis to Decipher the Phenotypic Components and Genetic Architecture of Maize Seedling Salt Tolerance Genes. 14:1771. | | Reference: September 7th, 2023
Gene Product: May 19th, 2021
Variation: May 19th, 2021
Gene Model: April 11th, 2020
|
| 8 months ago | ago1d | argonaute1d: | | GRMZM2G361518
| Kelliher, T; Walbot, V. 2014. Plant J pp.DOI: 10.1111/tpj.12414 | AT1G48410 (TAIR) | Reference: September 7th, 2023
Gene Product: August 12th, 2016
Gene Model: February 6th, 2016
|
| 8 months ago | ago1b | argonaute1b: | | AC209206.3_FG011
| Kelliher, T; Walbot, V. 2014. Plant J pp.DOI: 10.1111/tpj.12414 | AT1G48410 (TAIR) | Reference: September 7th, 2023
Gene Product: August 12th, 2016
Gene Model: February 6th, 2016
|
| 8 months ago | ago1a | argonaute1a: | | GRMZM2G441583
| Kelliher, T; Walbot, V. 2014. Plant J pp.DOI: 10.1111/tpj.12414 | AT1G48410 (TAIR) | Reference: September 7th, 2023
Gene Product: August 12th, 2016
Gene Model: February 6th, 2016
|
| 8 months ago | dmc1 | disrupted meiotic cDNA homolog1: | | GRMZM2G109618
| Kelliher, T; Walbot, V. 2014. Plant J pp.DOI: 10.1111/tpj.12414 | | Reference: September 7th, 2023
Variation: May 12th, 2017
Gene Model: January 27th, 2017
|
| 8 months ago | sro1 | similar to RCD one1: | | GRMZM2G122543
| Tian, T et al. 2023. CIMBL55: a repository for maize drought resistance alleles. Stress Biol. 3:13. | | Reference: September 7th, 2023
Gene Product: September 7th, 2018
Variation: November 20th, 2020
Gene Model: August 10th, 2018
|
| 8 months ago | rdr1 | RNA-dependent RNA polymerase1: | | GRMZM2G481730
| Kelliher, T; Walbot, V. 2014. Plant J pp.DOI: 10.1111/tpj.12414 | | Reference: September 7th, 2023
Gene Product: August 8th, 2006
Gene Model: June 20th, 2019
|
| 8 months ago | ppr365 | pentatricopeptide repeat protein365: | 6.06 | AC218148.2_FG008
| Guo, SJ et al. 2023. Using High-Throughput Phenotyping Analysis to Decipher the Phenotypic Components and Genetic Architecture of Maize Seedling Salt Tolerance Genes. 14:1771. | | Reference: September 7th, 2023
Gene Product: December 27th, 2016
Gene Model: December 31st, 2019
|
| 8 months ago | AY112175 | : | 1.11 | | Guo, SJ et al. 2023. Using High-Throughput Phenotyping Analysis to Decipher the Phenotypic Components and Genetic Architecture of Maize Seedling Salt Tolerance Genes. 14:1771. | | Reference: September 7th, 2023
Variation: September 25th, 2007
|
| 8 months ago | ago101 | argonaute101: | 9.03 | AC189879.3_FG003
| Kelliher, T; Walbot, V. 2014. Plant J pp.DOI: 10.1111/tpj.12414 | | Reference: September 7th, 2023
Gene Product: August 12th, 2016
Variation: September 11th, 2007
Gene Model: January 30th, 2015
|
| 8 months ago | arftf13 | ARF-transcription factor 13: | | | Hongyan Xing et al. 2011. Genome-wide identification and expression profiling of auxin response factor (ARF) gene family in maize. BMC Genomics. 12:178. | | Reference: September 6th, 2023
Gene Product: January 29th, 2022
|
| 8 months ago | arftf14 | ARF-transcription factor 14: | | | Hongyan Xing et al. 2011. Genome-wide identification and expression profiling of auxin response factor (ARF) gene family in maize. BMC Genomics. 12:178. | | Reference: September 6th, 2023
Gene Product: January 29th, 2022
|
| 8 months ago | arftf23 | ARF-transcription factor 23: | | | Hongyan Xing et al. 2011. Genome-wide identification and expression profiling of auxin response factor (ARF) gene family in maize. BMC Genomics. 12:178. | | Reference: September 6th, 2023
Gene Product: January 29th, 2022
Variation: July 7th, 2017
|
| 8 months ago | arftf26 | ARF-transcription factor 26: | | | Hongyan Xing et al. 2011. Genome-wide identification and expression profiling of auxin response factor (ARF) gene family in maize. BMC Genomics. 12:178. | | Reference: September 6th, 2023
Gene Product: January 29th, 2022
Variation: July 7th, 2017
|
| 8 months ago | arftf31 | ARF-transcription factor 31: | | | Hongyan Xing et al. 2011. Genome-wide identification and expression profiling of auxin response factor (ARF) gene family in maize. BMC Genomics. 12:178. | | Reference: September 6th, 2023
Gene Product: January 29th, 2022
Variation: August 7th, 2016
|
| 8 months ago | arftf39 | ARF-transcription factor 39: | | | Hongyan Xing et al. 2011. Genome-wide identification and expression profiling of auxin response factor (ARF) gene family in maize. BMC Genomics. 12:178. | | Reference: September 6th, 2023
Gene Product: January 29th, 2022
|
| 8 months ago | tu1 | tunicate1: | 4.08 - 4.08 | GRMZM2G370777
| Xie, P et al. 2023. Evolution of cereal floral architecture and threshability Trends Plant Sci. :doi: 10.1016/j.tplants.2023.08.003. | | Reference: September 5th, 2023
Gene Product: June 12th, 2012
Variation: February 3rd, 2011
Gene Model: May 9th, 2012
|
| 8 months ago | zap1 | zea apetala homolog1: | 2.10 | | Xie, P et al. 2023. Evolution of cereal floral architecture and threshability Trends Plant Sci. :doi: 10.1016/j.tplants.2023.08.003. | | Reference: September 5th, 2023
Variation: February 2nd, 2011
|
| 8 months ago | zag2 | Zea AGAMOUS homolog2: | 3.05 - 3.05 | | Xie, P et al. 2023. Evolution of cereal floral architecture and threshability Trends Plant Sci. :doi: 10.1016/j.tplants.2023.08.003. | | Reference: September 5th, 2023
Gene Product: September 10th, 2021
Variation: October 22nd, 2014
|
| 8 months ago | fht2 | flavanone 3-hydroxylase2: | 1.04 | GRMZM2G382569
| Xu, YF et al. 2023. Increasing Fusarium verticillioides resistance in maize by genomics-assisted breeding: Methods, progress, and prospects Crop J. :doi: 10.1016/j.cj.2023.07.004. | | Reference: September 5th, 2023
Gene Product: June 8th, 2012
Gene Model: June 7th, 2017
|
| 8 months ago | mha6 | membrane H(+)-ATPase6: | | GRMZM2G008122
| Ming Ju et al. 2017. Dissecting the genetic architecture of Fusarium verticillioides seed rot resistance in maize by combining QTL mapping and genome-wide association analysis. Sci. Rep.. 7:46446. | | Reference: September 5th, 2023
Gene Product: September 1st, 2003
Gene Model: January 10th, 2020
|
| 8 months ago | aga1 | alkaline galactosidase1: | | GRMZM2G340656
| Chen, Y et al. 2023. Genes and pathways correlated with heat stress responses and heat tolerance in maize kernels. Frontiers in Plant Science. 14:1228213. | | Reference: September 4th, 2023
Gene Product: March 1st, 2018
Gene Model: March 1st, 2018
|
| 8 months ago | LOC103640768 | : | | | Tripathi, D et al. 2023. Ribonucleotide and R-Loop Damage in Plastid DNA and Mitochondrial DNA during Maize Development Plants. 12:3161. | AT2G25100 (TAIR) | Reference: September 2nd, 2023
Gene Product: September 2nd, 2023
|
| 8 months ago | LOC103640774 | : | | | Tripathi, D et al. 2023. Ribonucleotide and R-Loop Damage in Plastid DNA and Mitochondrial DNA during Maize Development Plants. 12:3161. | AT2G25100 (TAIR) | Reference: September 2nd, 2023
Gene Product: September 2nd, 2023
|
| 8 months ago | TIDP3662 | : | 5.04 | GRMZM2G005998
| | AT2G39440 (TAIR) | Gene Product: September 2nd, 2023
Gene Model: May 14th, 2020
|
| 8 months ago | si660065b07 | : | 2.04 | GRMZM2G148211
| | | Gene Product: September 2nd, 2023
Gene Model: August 23rd, 2022
|
| 8 months ago | AY110479 | : | 1.11 | | Hou, QC et al. 2022. Plants 11:627 | | Reference: September 1st, 2023
Variation: September 25th, 2007
|
| 8 months ago | myb33 | MYB-transcription factor 33: | 1.07 | | Hou, QC et al. 2022. Plants 11:627 | | Reference: September 1st, 2023
Variation: September 25th, 2007
|
| 8 months ago | csu904 | : | 7.04 | GRMZM2G102786
| Hou, QC et al. 2022. Plants 11:627 | | Reference: September 1st, 2023
Variation: September 1st, 2003
Gene Model: February 6th, 2019
|
| 8 months ago | pza01735 | : | 2.06 | | Hou, QC et al. 2022. Plants 11:627 | | Reference: September 1st, 2023
Gene Product: August 12th, 2018
|
| 8 months ago | myb42 | myb transcription factor 42: | 4.09 | | Hou, QC et al. 2022. Plants 11:627 | LOC_Os08g43550 (MSU/TIGR) | Reference: September 1st, 2023
Gene Product: February 16th, 2011
Variation: November 7th, 2017
|
| 8 months ago | dhar1 | dehydroascorbate reductase like1: | 8.05 | GRMZM5G855672
| Hou, QC et al. 2022. Plants 11:627 | | Reference: September 1st, 2023
Gene Product: March 28th, 2013
Gene Model: April 1st, 2013
|
| 8 months ago | mets3 | methionine synthase3: | 1.09 | GRMZM2G165747
| Lian, T et al. 2015. BMC Plant Biology 15:204 | | Reference: September 1st, 2023
Gene Product: September 1st, 2003
Gene Model: July 12th, 2017
|
| 8 months ago | pao4 | polyamine oxidase4: | 10.07 | GRMZM2G150248
| Hassani, SB et al. 2023. Response to Cadmium Toxicity: Orchestration of Polyamines and microRNAs in Maize Plant. 12:1991. | | Reference: September 1st, 2023
Gene Product: June 10th, 2020
Gene Model: January 25th, 2018
|
| 8 months ago | hb2 | hemoglobin2: | 6.06 | GRMZM2G168898
| Hou, QC et al. 2022. Plants 11:627 | | Reference: September 1st, 2023
Gene Product: February 20th, 2018
Gene Model: May 15th, 2014
|
| 8 months ago | IDP8938 | : | 2.01 | GRMZM2G150496
| Hou, QC et al. 2022. Plants 11:627 | | Reference: September 1st, 2023
Gene Product: April 18th, 2023
Gene Model: April 21st, 2021
|
| 8 months ago | naat1 | nicotianamine aminotransferase1: | 4.09 | GRMZM2G096958
| Hou, QC et al. 2022. Plants 11:627 | | Reference: September 1st, 2023
Gene Product: January 18th, 2022
Variation: April 9th, 2015
Gene Model: April 9th, 2015
|
| 8 months ago | in1 | intensifier1: | 7.02 | | Hou, QC et al. 2022. Plants 11:627 | | Reference: September 1st, 2023
Variation: September 1st, 2003
|
| 8 months ago | dhar3 | dehydroascorbate reductase like3: | 6.01 | GRMZM2G035502
| Hou, QC et al. 2022. Plants 11:627 | | Reference: September 1st, 2023
Gene Product: March 28th, 2013
Gene Model: March 28th, 2013
|
| 8 months ago | gcsh1 | glycine cleavage system protein H1: | 10.03 | GRMZM2G399183
| Lian, T et al. 2015. BMC Plant Biology 15:204 | | Reference: September 1st, 2023
Gene Product: September 1st, 2003
Variation: September 1st, 2003
Gene Model: October 2nd, 2015
|
| 8 months ago | tua1 | alpha tubulin1: | 1.10 | GRMZM2G153292
| Lian, T et al. 2022. Int J Mol Sci 23:1708 | | Reference: September 1st, 2023
Gene Product: September 1st, 2003
Variation: August 9th, 2013
Gene Model: October 24th, 2013
|
| 8 months ago | tua2 | alpha tubulin2: | 1.10 | GRMZM2G153292
| Lian, T et al. 2022. Int J Mol Sci 23:1708 | | Reference: September 1st, 2023
Gene Product: September 1st, 2003
Variation: August 9th, 2013
Gene Model: May 8th, 2015
|
| 8 months ago | mets1 | methionine synthase1: | 1.06 | GRMZM2G149751
| Lian, T et al. 2015. BMC Plant Biology 15:204 | | Reference: September 1st, 2023
Gene Product: September 1st, 2003
Gene Model: February 9th, 2020
|
| 8 months ago | fad7 | fatty acid desaturase7: | 9.06 | GRMZM2G128971
| Hou, QC et al. 2022. Plants 11:627 | | Reference: September 1st, 2023
Gene Product: September 1st, 2003
Variation: September 25th, 2007
Gene Model: August 23rd, 2014
|
| 8 months ago | ocl1 | outer cell layer1: | 3.04 | | Hou, QC et al. 2022. Plants 11:627 | | Reference: September 1st, 2023
Gene Product: September 1st, 2003
Variation: April 12th, 2005
|
| 8 months ago | umc1320 | : | 3.08 | GRMZM5G831142
| Hao, YF et al. 2023. Genetic and Transcriptomic Dissection of Host Defense to Goss's Bacterial Wilt and Leaf Blight of Maize. G3. :doi: 10.1093/g3journal/jkad197. | | Reference: September 1st, 2023
Variation: September 1st, 2003
Gene Model: April 1st, 2018
|
| 8 months ago | fer1 | ferritin1: | 4.08 | | Hou, QC et al. 2022. Plants 11:627 | | Reference: September 1st, 2023
Gene Product: July 28th, 2021
Variation: December 4th, 2012
|
| 8 months ago | fer2 | ferritin homolog2: | 10.00 | | Hou, QC et al. 2022. Plants 11:627 | | Reference: September 1st, 2023
Gene Product: July 28th, 2021
Variation: December 4th, 2012
|
| 8 months ago | umc1390 | : | 4.05 | | Lian, T et al. 2022. Int J Mol Sci 23:1708 | | Reference: September 1st, 2023
Variation: September 1st, 2003
|
| 8 months ago | mate1 | multidrug and toxic compound extrusion1: | | GRMZM5G870170
| Hou, QC et al. 2022. Plants 11:627 | | Reference: September 1st, 2023
Gene Product: August 17th, 2015
Variation: March 19th, 2013
Gene Model: March 19th, 2013
|
| 8 months ago | abi49 | ABI3-VP1-transcription factor 49: | | | Hou, QC et al. 2022. Plants 11:627 | | Reference: September 1st, 2023
Gene Product: January 29th, 2022
|
| 8 months ago | sbp7 | SBP-transcription factor 7: | | | Lian, T et al. 2022. Int J Mol Sci 23:1708 | | Reference: September 1st, 2023
Gene Product: July 5th, 2019
|
| 8 months ago | drts4 | bifunctional dihydrofolate reductase-thymidylate synthase4: | 4.03 | GRMZM2G139880
| Lian, T et al. 2015. BMC Plant Biology 15:204 | | Reference: September 1st, 2023
Gene Product: September 1st, 2003
Variation: September 1st, 2003
Gene Model: April 12th, 2020
|
| 8 months ago | pao1 | polyamine oxidase1: | 10.03 | GRMZM2G034152
| Hassani, SB et al. 2023. Response to Cadmium Toxicity: Orchestration of Polyamines and microRNAs in Maize Plant. 12:1991. | | Reference: September 1st, 2023
Gene Product: June 10th, 2020
Variation: October 7th, 2015
Gene Model: October 7th, 2015
|
| 8 months ago | glpdh2 | glycerol-3-phosphate dehydrogenase2: | 8.08 | GRMZM2G090747
| Hou, QC et al. 2022. Plants 11:627 | | Reference: September 1st, 2023
Gene Product: July 12th, 2018
Variation: May 17th, 2016
Gene Model: May 17th, 2016
|
| 8 months ago | sbe3 | starch branching enzyme3: | 8.06 | GRMZM2G005298
| Hou, QC et al. 2022. Plants 11:627 | | Reference: September 1st, 2023
Gene Product: June 6th, 2011
Variation: June 1st, 2011
Gene Model: September 23rd, 2018
|
| 8 months ago | abi47 | ABI3-VP1-transcription factor 47: | 4.08 | GRMZM2G125596
| Hou, QC et al. 2022. Plants 11:627 | | Reference: September 1st, 2023
Gene Product: January 29th, 2022
Gene Model: June 10th, 2018
|
| 8 months ago | mthfr2 | methylenetetrahydrofolate reductase2: | 5.00 | GRMZM2G034278
| Lian, T et al. 2015. BMC Plant Biology 15:204 | | Reference: September 1st, 2023
Gene Product: August 28th, 2012
Gene Model: August 28th, 2012
|
| 8 months ago | umc2236 | : | 1.06 | GRMZM2G017110
| Lian, T et al. 2022. Int J Mol Sci 23:1708 | | Reference: September 1st, 2023
Variation: June 16th, 2017
Gene Model: June 16th, 2017
|
| 8 months ago | umc2311 | : | 6.01 | GRMZM2G036908
| Hou, QC et al. 2022. Plants 11:627 | | Reference: September 1st, 2023
Variation: September 25th, 2007
Gene Model: August 18th, 2018
|
| 8 months ago | ole3 | oleosin3: | 5.01 - 5.04 | | Hou, QC et al. 2022. Plants 11:627 | | Reference: September 1st, 2023
Gene Product: September 1st, 2003
Variation: September 1st, 2003
|
| 8 months ago | tub7 | beta tubulin7: | 9.03 | | Lian, T et al. 2022. Int J Mol Sci 23:1708 | | Reference: September 1st, 2023
Gene Product: September 1st, 2003
Variation: September 1st, 2003
|
| 8 months ago | thr1 | threonine synthase1: | 3.08 | GRMZM2G050570
| Hou, QC et al. 2022. Plants 11:627 | | Reference: September 1st, 2023
Gene Product: September 1st, 2003
Variation: March 25th, 2015
Gene Model: March 25th, 2015
|
| 8 months ago | pap22 | purple acid phosphatase22: | 1.08 | GRMZM2G174549
| Hou, QC et al. 2022. Plants 11:627 | | Reference: September 1st, 2023
Gene Product: November 21st, 2018
Gene Model: November 23rd, 2018
|
| 8 months ago | drts3 | bifunctional dihydrofolate reductase-thymidylate synthase3: | 2.08 | | Lian, T et al. 2015. BMC Plant Biology 15:204 | | Reference: September 1st, 2023
Gene Product: September 1st, 2003
|
| 8 months ago | gldh1 | galactono lactone dehydrogenase1: | 2.05 | GRMZM2G469969
| Hou, QC et al. 2022. Plants 11:627 | | Reference: September 1st, 2023
Gene Product: March 29th, 2013
Gene Model: March 29th, 2013
|
| 8 months ago | fold1 | bifunctional protein FolD1: | 2.05 | GRMZM2G130790
| Lian, T et al. 2015. BMC Plant Biology 15:204 | | Reference: September 1st, 2023
Gene Product: January 15th, 2021
Gene Model: March 20th, 2020
|
| 8 months ago | adcl2 | aminodeoxychorismate lyase2: | 3.00 | GRMZM2G087103
| Lian, T et al. 2015. BMC Plant Biology 15:204 | | Reference: September 1st, 2023
Gene Product: January 14th, 2021
Gene Model: March 24th, 2020
|
| 8 months ago | bm6 | brown midrib6: | | | Leonard, AL et al. 2022. The maize brown midrib6 (bm6) mutation encodes a functional GTP Cyclohydrolase1 Maydica. 66:17. | AT3G07270 (TAIR) | Reference: September 1st, 2023
Gene Product: January 14th, 2021
Variation: September 1st, 2023
|
| 8 months ago | dhar2 | dehydroascorbate reductase like2: | | GRMZM2G005710
| Hou, QC et al. 2022. Plants 11:627 | | Reference: September 1st, 2023
Gene Product: March 28th, 2013
Gene Model: August 14th, 2017
|
| 8 months ago | nas8 | nicotianamine synthase8: | | GRMZM2G312481
| Hou, QC et al. 2022. Plants 11:627 | | Reference: September 1st, 2023
Gene Product: July 26th, 2013
Gene Model: July 26th, 2013
|
| 8 months ago | nas10 | nicotianamine synthase10: | | GRMZM2G034956
| Hou, QC et al. 2022. Plants 11:627 | | Reference: September 1st, 2023
Gene Product: July 26th, 2013
Gene Model: July 26th, 2013
|
| 8 months ago | ppck1 | phosphoenolpyruvate carboxylase kinase1: | | GRMZM2G178074
| Hao, YF et al. 2023. Genetic and Transcriptomic Dissection of Host Defense to Goss's Bacterial Wilt and Leaf Blight of Maize. G3. :doi: 10.1093/g3journal/jkad197. | | Reference: September 1st, 2023
Gene Product: September 1st, 2003
Gene Model: August 7th, 2014
|
| 8 months ago | ftcl1 | 5-formyltetrahydrofolate cyclo-ligase1: | | GRMZM2G001904
| Lian, T et al. 2015. BMC Plant Biology 15:204 | | Reference: September 1st, 2023
Gene Product: August 20th, 2014
Gene Model: August 20th, 2014
|
| 8 months ago | fgp2 | folylpolyglutamate synthetase2: | | GRMZM5G869779
| Lian, T et al. 2015. BMC Plant Biology 15:204 | | Reference: September 1st, 2023
Gene Product: December 17th, 2014
Variation: December 17th, 2014
Gene Model: December 17th, 2014
|
| 8 months ago | mate3 | multidrug and toxic compound extrusion3: | | GRMZM2G163154
| Hou, QC et al. 2022. Plants 11:627 | LOC_Os03g11734 (MSU/TIGR) | Reference: September 1st, 2023
Gene Product: August 17th, 2015
Gene Model: August 17th, 2015
|
| 8 months ago | ss5 | starch synthase5: | | GRMZM2G130043
| Hou, QC et al. 2022. Plants 11:627 | | Reference: September 1st, 2023
Gene Product: October 14th, 2016
Gene Model: December 5th, 2015
|
| 8 months ago | tom3 | transporter of mugineic acid3: | | GRMZM2G141081
| Hou, QC et al. 2022. Plants 11:627 | | Reference: September 1st, 2023
Gene Product: September 23rd, 2016
Gene Model: September 23rd, 2016
|
| 8 months ago | glpdh3 | glycerol-3-phosphate dehydrogenase3: | | GRMZM2G173195
| Hou, QC et al. 2022. Plants 11:627 | | Reference: September 1st, 2023
Gene Product: July 12th, 2018
Gene Model: July 11th, 2018
|
| 8 months ago | glpdh4 | glycerol-3-phosphate dehydrogenase4: | | | Hou, QC et al. 2022. Plants 11:627 | | Reference: September 1st, 2023
Gene Product: July 12th, 2018
|
| 8 months ago | glpdh5 | glycerol-3-phosphate dehydrogenase5: | | GRMZM2G063258
| Hou, QC et al. 2022. Plants 11:627 | | Reference: September 1st, 2023
Gene Product: July 12th, 2018
Gene Model: July 11th, 2018
|
| 8 months ago | glpdh6 | glycerol-3-phosphate dehydrogenase6: | | GRMZM2G446108
| Hou, QC et al. 2022. Plants 11:627 | | Reference: September 1st, 2023
Gene Product: July 12th, 2018
Gene Model: July 11th, 2018
|
| 8 months ago | ss7 | starch synthase7: | | | Hou, QC et al. 2022. Plants 11:627 | | Reference: September 1st, 2023
Gene Product: October 14th, 2016
|
| 8 months ago | dgati2 | diacylglycerol acyltransferase-typeI2: | | GRMZM2G130749
| Hou, QC et al. 2022. Plants 11:627 | | Reference: September 1st, 2023
Gene Product: August 12th, 2018
Gene Model: July 23rd, 2018
|
| 8 months ago | adcs1 | aminodeoxychorismate synthase1: | | GRMZM2G416386
| Lian, T et al. 2015. BMC Plant Biology 15:204 | | Reference: September 1st, 2023
Gene Product: January 14th, 2021
Gene Model: October 23rd, 2018
|
| 8 months ago | pap2 | purple acid phosphatase2: | | GRMZM2G134054
| Hou, QC et al. 2022. Plants 11:627 | | Reference: September 1st, 2023
Gene Product: November 21st, 2018
Gene Model: November 21st, 2018
|
| 8 months ago | gpat14 | glycerol-3-phosphate acyltransferase14: | | GRMZM2G123987
| Hou, QC et al. 2022. Plants 11:627 | | Reference: September 1st, 2023
Gene Product: March 25th, 2019
Gene Model: March 25th, 2019
|
| 8 months ago | gpat19 | glycerol-3-phosphate acyltransferase19: | | GRMZM2G165681
| Hou, QC et al. 2022. Plants 11:627 | | Reference: September 1st, 2023
Gene Product: March 25th, 2019
Gene Model: April 25th, 2019
|
| 8 months ago | zip8 | zinc-regulated, iron-regulated transporter-like protein8: | | GRMZM2G093276
| Hou, QC et al. 2022. Plants 11:627 | | Reference: September 1st, 2023
Gene Product: June 5th, 2019
Gene Model: June 5th, 2019
|
| 8 months ago | hma2 | heavy metal ATPase2: | | GRMZM2G099191
| Hou, QC et al. 2022. Plants 11:627 | | Reference: September 1st, 2023
Gene Product: October 23rd, 2019
Gene Model: October 23rd, 2019
|
| 8 months ago | ss3 | starch synthase3: | | GRMZM2G121612
| Hou, QC et al. 2022. Plants 11:627 | | Reference: September 1st, 2023
Gene Product: October 14th, 2016
Gene Model: March 20th, 2020
|
| 8 months ago | ss2 | starch synthase3: | | GRMZM5G897776
| Hou, QC et al. 2022. Plants 11:627 | | Reference: September 1st, 2023
Gene Product: October 14th, 2016
Gene Model: March 20th, 2020
|
| 8 months ago | saur24 | small auxin up RNA24: | | GRMZM2G479596
| Hao, YF et al. 2023. Genetic and Transcriptomic Dissection of Host Defense to Goss's Bacterial Wilt and Leaf Blight of Maize. G3. :doi: 10.1093/g3journal/jkad197. | | Reference: September 1st, 2023
Gene Product: November 26th, 2021
Gene Model: April 3rd, 2020
|
| 8 months ago | mips2 | myo-inositol phosphate synthase2: | | GRMZM2G004528
| Hou, QC et al. 2022. Plants 11:627 | | Reference: September 1st, 2023
Gene Product: July 13th, 2019
Gene Model: May 8th, 2020
|
| 8 months ago | pao5 | polyamine oxidase5: | | GRMZM2G035994
| Hassani, SB et al. 2023. Response to Cadmium Toxicity: Orchestration of Polyamines and microRNAs in Maize Plant. 12:1991. | | Reference: September 1st, 2023
Gene Product: June 10th, 2020
Gene Model: June 9th, 2020
|
| 8 months ago | nye2 | non-yellowing2: | | GRMZM2G379563
| Hou, QC et al. 2022. Plants 11:627 | | Reference: September 1st, 2023
Gene Product: August 26th, 2020
Gene Model: August 26th, 2020
|
| 8 months ago | gpp1 | galactose-1-phosphate phosphatase1: | | GRMZM2G034417
| Hou, QC et al. 2022. Plants 11:627 | | Reference: September 1st, 2023
Gene Product: October 21st, 2020
Gene Model: October 21st, 2020
|
| 8 months ago | fad1 | fatty acid desaturase1: | | GRMZM2G064701
| Hou, QC et al. 2022. Plants 11:627 | | Reference: September 1st, 2023
Gene Product: November 27th, 2020
Gene Model: November 27th, 2020
|
| 8 months ago | gch2 | GTP cyclohydrolase2: | | GRMZM2G106376
| Leonard, AL et al. 2022. The maize brown midrib6 (bm6) mutation encodes a functional GTP Cyclohydrolase1 Maydica. 66:17. | | Reference: September 1st, 2023
Gene Product: January 14th, 2021
Gene Model: January 14th, 2021
|
| 8 months ago | dhna1 | dihydroneopterin aldolase1: | | GRMZM2G015588
| Lian, T et al. 2015. BMC Plant Biology 15:204 | | Reference: September 1st, 2023
Gene Product: January 14th, 2021
Gene Model: January 14th, 2021
|
| 8 months ago | dhna2 | dihydroneopterin aldolase2: | | GRMZM2G095579
| Lian, T et al. 2015. BMC Plant Biology 15:204 | | Reference: September 1st, 2023
Gene Product: January 14th, 2021
Gene Model: January 14th, 2021
|
| 8 months ago | hppk1 | hydroxymethyldihydropterin pyrophosphokinase1: | | GRMZM2G095806
| Lian, T et al. 2015. BMC Plant Biology 15:204 | | Reference: September 1st, 2023
Gene Product: January 14th, 2021
Gene Model: January 14th, 2021
|
| 8 months ago | adcl3 | aminodeoxychorismate lyase3: | | GRMZM2G069596
| Lian, T et al. 2015. BMC Plant Biology 15:204 | | Reference: September 1st, 2023
Gene Product: January 14th, 2021
Gene Model: January 14th, 2021
|
| 8 months ago | dhfs2 | dihydrofolate synthetase2: | | GRMZM2G169481
| Lian, T et al. 2015. BMC Plant Biology 15:204 | | Reference: September 1st, 2023
Gene Product: January 14th, 2021
Gene Model: January 14th, 2021
|
| 8 months ago | drts1 | bifunctional dihydrofolate reductase-thymidylate synthase1: | | GRMZM2G072608
| Lian, T et al. 2015. BMC Plant Biology 15:204 | | Reference: September 1st, 2023
Gene Product: September 1st, 2003
Gene Model: January 14th, 2021
|
| 8 months ago | drts2 | bifunctional dihydrofolate reductase-thymidylate synthase2: | | GRMZM2G421493
| Lian, T et al. 2015. BMC Plant Biology 15:204 | | Reference: September 1st, 2023
Gene Product: September 1st, 2003
Gene Model: January 14th, 2021
|
| 8 months ago | gcsh2 | glycine cleavage system protein H2: | | GRMZM2G010321
| Lian, T et al. 2015. BMC Plant Biology 15:204 | | Reference: September 1st, 2023
Gene Product: September 1st, 2003
Gene Model: January 14th, 2021
|
| 8 months ago | gcsh3 | glycine cleavage system protein H3: | | GRMZM2G051208
| Lian, T et al. 2015. BMC Plant Biology 15:204 | | Reference: September 1st, 2023
Gene Product: September 1st, 2003
Gene Model: January 14th, 2021
|
| 8 months ago | gcsh4 | glycine cleavage system protein H4: | | GRMZM2G020288
| Lian, T et al. 2015. BMC Plant Biology 15:204 | | Reference: September 1st, 2023
Gene Product: September 1st, 2003
Gene Model: January 14th, 2021
|
| 8 months ago | fold3 | bifunctional protein FolD3: | | AC233922.1_FG005
| Lian, T et al. 2015. BMC Plant Biology 15:204 | | Reference: September 1st, 2023
Gene Product: January 15th, 2021
Gene Model: January 14th, 2021
|
| 8 months ago | ftd1 | formyltetrahydrofolate deformylase1: | | GRMZM2G168281
| Lian, T et al. 2015. BMC Plant Biology 15:204 | | Reference: September 1st, 2023
Gene Product: January 14th, 2021
Gene Model: January 14th, 2021
|
| 8 months ago | fths1 | formate--tetrahydrofolate ligase1: | | GRMZM5G824944
| Lian, T et al. 2015. BMC Plant Biology 15:204 | | Reference: September 1st, 2023
Gene Product: January 14th, 2021
Gene Model: January 14th, 2021
|
| 8 months ago | ftcl2 | 5-formyltetrahydrofolate cyclo-ligase2: | | GRMZM5G807835
| Lian, T et al. 2015. BMC Plant Biology 15:204 | | Reference: September 1st, 2023
Gene Product: August 20th, 2014
Gene Model: January 14th, 2021
|
| 8 months ago | fad9 | fatty acid desaturase9: | | GRMZM2G129209
| Hou, QC et al. 2022. Plants 11:627 | | Reference: September 1st, 2023
Gene Product: November 27th, 2020
Gene Model: May 7th, 2021
|
| 8 months ago | saur78 | small auxin up RNA78: | | GRMZM2G354209
| Hao, YF et al. 2023. Genetic and Transcriptomic Dissection of Host Defense to Goss's Bacterial Wilt and Leaf Blight of Maize. G3. :doi: 10.1093/g3journal/jkad197. | | Reference: September 1st, 2023
Gene Product: November 26th, 2021
Gene Model: November 26th, 2021
|
| 8 months ago | fad16 | fatty acid desaturase16: | | GRMZM2G161792
| Hou, QC et al. 2022. Plants 11:627 | | Reference: September 1st, 2023
Gene Product: January 6th, 2022
Gene Model: January 6th, 2022
|
| 8 months ago | fad18 | fatty acid desaturase18: | | GRMZM2G174766
| Hou, QC et al. 2022. Plants 11:627 | | Reference: September 1st, 2023
Gene Product: January 6th, 2022
Gene Model: January 6th, 2022
|
| 8 months ago | fad3 | fatty acid desaturase3: | | GRMZM2G354558
| Hou, QC et al. 2022. Plants 11:627 | | Reference: September 1st, 2023
Gene Product: November 27th, 2020
Gene Model: January 6th, 2022
|
| 8 months ago | tom8 | transporter of mugineic acid8: | | GRMZM2G456923
| Hou, QC et al. 2022. Plants 11:627 | | Reference: September 1st, 2023
Gene Product: September 23rd, 2016
Gene Model: January 18th, 2022
|
| 8 months ago | fold2 | bifunctional protein FolD2: | 8.05 | GRMZM2G150485
| Lian, T et al. 2015. BMC Plant Biology 15:204 | | Reference: September 1st, 2023
Gene Product: January 15th, 2021
Gene Model: September 1st, 2019
|
| 8 months ago | nas1 | nicotianamine synthase1: | 9.04 | GRMZM2G385200
| Hou, QC et al. 2022. Plants 11:627 | | Reference: September 1st, 2023
Gene Product: July 26th, 2013
Variation: March 19th, 2008
Gene Model: July 26th, 2013
|
| 8 months ago | galdh1 | galactose dehydrogenase1: | 10.03 | GRMZM2G126002
| Hou, QC et al. 2022. Plants 11:627 | | Reference: September 1st, 2023
Gene Product: October 21st, 2020
Gene Model: June 29th, 2020
|
| 8 months ago | gme1 | GDP-mannose-3'5'-epimerase1: | 1.08 | GRMZM2G124434
| Hou, QC et al. 2022. Plants 11:627 | | Reference: September 1st, 2023
Gene Product: October 21st, 2020
Variation: March 31st, 2005
Gene Model: February 14th, 2019
|
| 8 months ago | shmt1 | serine hydroxymethyltransferase1: | 1.10 | GRMZM2G135283
| Lian, T et al. 2015. BMC Plant Biology 15:204 | | Reference: September 1st, 2023
Gene Product: September 1st, 2003
Variation: March 31st, 2005
Gene Model: February 13th, 2019
|
| 8 months ago | IDP871 | : | 1.02 | AC166636.1_FG008
| Hou, QC et al. 2022. Plants 11:627 | | Reference: September 1st, 2023
Variation: March 31st, 2005
Gene Model: February 11th, 2019
|
| 8 months ago | ammt1 | aminomethyltransferase1: | 2.02 | GRMZM5G876898
| Lian, T et al. 2015. BMC Plant Biology 15:204 | | Reference: September 1st, 2023
Gene Product: January 14th, 2021
Variation: March 31st, 2005
Gene Model: February 18th, 2019
|
| 8 months ago | hmt1 | homocysteine S-methyltransferase 1: | | | Hou, QC et al. 2022. Plants 11:627 | | Reference: September 1st, 2023
Gene Product: July 19th, 2004
Variation: June 3rd, 2017
|
| 8 months ago | zmm27 | Zea mays MADS27: | 2.07 | GRMZM2G129034
| Hou, QC et al. 2022. Plants 11:627 | | Reference: September 1st, 2023
Variation: February 2nd, 2011
Gene Model: July 2nd, 2014
|
| 8 months ago | nas3 | nicotianamine synthase 3: | 1.09 | GRMZM2G478568
| Hou, QC et al. 2022. Plants 11:627 | | Reference: September 1st, 2023
Gene Product: July 26th, 2013
Variation: March 19th, 2008
Gene Model: July 26th, 2013
|
| 8 months ago | gme2 | GDP-mannose-3'5'-epimerase2: | 4.02 | GRMZM2G138907
| Hou, QC et al. 2022. Plants 11:627 | | Reference: September 1st, 2023
Gene Product: October 21st, 2020
Variation: September 25th, 2007
Gene Model: April 11th, 2020
|
| 8 months ago | adcl1 | aminodeoxychorismate lyase1: | 1.04 | GRMZM2G108416
| Lian, T et al. 2015. BMC Plant Biology 15:204 | | Reference: September 1st, 2023
Gene Product: January 14th, 2021
Gene Model: February 7th, 2020
|
| 8 months ago | naat4 | nicotianamine aminotransferase4: | 5.04 | GRMZM2G412604
| Hou, QC et al. 2022. Plants 11:627 | | Reference: September 1st, 2023
Gene Product: January 18th, 2022
Gene Model: May 17th, 2020
|
| 8 months ago | dhfs1 | dihydrofolate synthetase1: | 10.03 | GRMZM2G304915
| Lian, T et al. 2015. BMC Plant Biology 15:204 | | Reference: September 1st, 2023
Gene Product: January 14th, 2021
Gene Model: June 30th, 2020
|
| 8 months ago | gly1 | glycine1: | 5.03 | GRMZM2G078143
| Lian, T et al. 2022. Int J Mol Sci 23:1708 | | Reference: September 1st, 2023
Gene Product: September 1st, 2003
Variation: May 26th, 2015
Gene Model: May 26th, 2015
|
| 8 months ago | rida1 | reactive Intermediate deaminase A homolog1: | | | Niehaus, T et al. 2014. Arabidopsis and maize RidA proteins preempt reactive enamine/imine damage to branched-chain amino acid biosynthesis in plastids. Plant Cell. 26:3010-22. | At3g20390 (TAIR) | Reference: August 31st, 2023
Gene Product: August 31st, 2023
|
| 8 months ago | GRMZM2G155323 | : | | | Niehaus, T et al. 2014. Arabidopsis and maize RidA proteins preempt reactive enamine/imine damage to branched-chain amino acid biosynthesis in plastids. Plant Cell. 26:3010-22. | | Reference: August 31st, 2023
Gene Product: August 31st, 2023
|
| 8 months ago | Zm00001eb404340 | : | | | Niehaus, T et al. 2014. Arabidopsis and maize RidA proteins preempt reactive enamine/imine damage to branched-chain amino acid biosynthesis in plastids. Plant Cell. 26:3010-22. | AT5G65780 (TAIR)
LOC_Os03g01600 (MSU/TIGR) | Reference: August 31st, 2023
Gene Product: August 31st, 2023
|
| 8 months ago | pco098993 | : | 1.05 | GRMZM2G071208
| Niehaus, T et al. 2014. Arabidopsis and maize RidA proteins preempt reactive enamine/imine damage to branched-chain amino acid biosynthesis in plastids. Plant Cell. 26:3010-22. | | Reference: August 31st, 2023
Gene Product: August 31st, 2023
Gene Model: February 8th, 2020
|
| 8 months ago | pia1 | postmeiotic irregular anther1: | | | Yujie Lian et al. 2023. Postmeiotic irregular anther1 (PIA1) is required for anther cuticle and pollen exine development in maize (Zea mays L.) Plant Breed. :doi: 10.1111/pbr.13139. | | Reference: August 30th, 2023
Variation: August 30th, 2023
|
| 8 months ago | opr2 | 12-oxo-phytodienoic acid reductase2: | 8.05 | GRMZM2G000236
| Huang, PC et al. 2023. Maize OPR2 and LOX10 Mediate Defense against Fall Armyworm and Western Corn Rootworm by Tissue-Specific Regulation of Jasmonic Acid and Ketol Metabolism Genes. 14:1732. | | Reference: August 30th, 2023
Gene Product: September 3rd, 2010
Variation: January 30th, 2023
Gene Model: November 27th, 2013
|
| 8 months ago | glk58 | G2-like-transcription factor 58: | 6.06 | GRMZM2G117854
| Ruidong Sun et al. 2023. Identification of QTLs and their candidate genes for the number of maize tassel branches in F2 from two higher generation sister lines using QTL mapping and RNA-seq analysis. Frontiers in Plant Science. 14:1202755. | | Reference: August 29th, 2023
Gene Product: July 25th, 2017
Variation: July 11th, 2019
Gene Model: February 2nd, 2018
|
| 8 months ago | IDP2396b | : | 6.06 | GRMZM2G129031
| Ruidong Sun et al. 2023. Identification of QTLs and their candidate genes for the number of maize tassel branches in F2 from two higher generation sister lines using QTL mapping and RNA-seq analysis. Frontiers in Plant Science. 14:1202755. | | Reference: August 29th, 2023
Variation: March 31st, 2005
Gene Model: July 3rd, 2021
|
| 8 months ago | cki7 | cyclin-dependent kinase inhibitor7: | | GRMZM2G343769
| Li, ZY et al. 2023. Genomic analysis of a new heterotic maize group reveals key loci for pedigree breeding. Frontiers in Plant Science. 14:1213675. | | Reference: August 28th, 2023
Gene Product: March 8th, 2017
Gene Model: March 7th, 2017
|
| 8 months ago | incw5 | invertase cell wall5: | | GRMZM2G095725
| Li, ZY et al. 2023. Genomic analysis of a new heterotic maize group reveals key loci for pedigree breeding. Frontiers in Plant Science. 14:1213675. | LOC_Os04g33740 (MSU/TIGR) | Reference: August 28th, 2023
Gene Product: June 12th, 2018
Variation: August 16th, 2017
Gene Model: August 16th, 2017
|
| 8 months ago | Zm00001d042795 | : | | | Xi Wang et al. 2023. QTG-Miner aids rapid dissection of the genetic base of tassel branch number in maize Nat Commun. 14:5232. | | Reference: August 26th, 2023
Variation: August 26th, 2023
|
| 8 months ago | IDP2392 | : | 10.04 | GRMZM2G155543
| Xi Wang et al. 2023. QTG-Miner aids rapid dissection of the genetic base of tassel branch number in maize Nat Commun. 14:5232. | | Reference: August 26th, 2023
Variation: March 31st, 2005
Gene Model: January 1st, 2018
|
| 8 months ago | pfk5 | phosphofructose kinase5: | | | Yuanyuan Wang et al. 2023. Heat-dependent postpollination limitations on maize pollen tube growth and kernel sterility. Plant Cell Environ. :doi: 10.1111/pce.14702. | | Reference: August 25th, 2023
Gene Product: August 12th, 2016
|
| 8 months ago | pfk7 | phosphofructose kinase7: | 3.07 | GRMZM5G879882
| Yuanyuan Wang et al. 2023. Heat-dependent postpollination limitations on maize pollen tube growth and kernel sterility. Plant Cell Environ. :doi: 10.1111/pce.14702. | | Reference: August 25th, 2023
Gene Product: August 12th, 2016
Gene Model: May 16th, 2021
|
| 8 months ago | pfk6 | phosphofructose kinase6: | 3.02 | GRMZM2G132069
| Yuanyuan Wang et al. 2023. Heat-dependent postpollination limitations on maize pollen tube growth and kernel sterility. Plant Cell Environ. :doi: 10.1111/pce.14702. | | Reference: August 25th, 2023
Gene Product: August 12th, 2016
Gene Model: November 28th, 2021
|
| 8 months ago | eif4 | eucaryotic initiation factor4: | 5.03 | GRMZM2G116034
| Laura Cuyas et al. 2023. Identification and interest of molecular markers to monitor plant Pi status. BMC Plant Biology. 23:401. | | Reference: August 24th, 2023
Gene Product: September 1st, 2003
Variation: February 24th, 2014
Gene Model: January 15th, 2015
|
| 8 months ago | hcf102 | high chlorophyll fluorescence102: | 8.04 - 8.09 | | Miles, CD. Personal communication | | Reference: August 24th, 2023
Variation: September 1st, 2003
|
| 8 months ago | hcf49 | high chlorophyll fluorescence49: | | | Miles, CD. Personal communication | | Reference: August 24th, 2023
Variation: September 1st, 2003
|
| 8 months ago | spx2 | SPX domain-containing membrane protein2: | | GRMZM2G024705
| Laura Cuyas et al. 2023. Identification and interest of molecular markers to monitor plant Pi status. BMC Plant Biology. 23:401. | | Reference: August 24th, 2023
Gene Product: October 9th, 2021
Gene Model: October 9th, 2021
|
| 8 months ago | gsr2 | glutathione reductase2: | 5.08 | GRMZM5G806449
| Saghir Abbas et al. 2023. Exogenously applied sodium nitroprusside alleviates nickel toxicity in maize by regulating antioxidant activities and defense-related gene expression. Physiol Plant. 175:e13985. | | Reference: August 24th, 2023
Gene Product: September 1st, 2003
Gene Model: May 25th, 2020
|
| 8 months ago | crs1 | chloroplast RNA splicing1: | 1.07 | GRMZM2G078412
| Belcher, S et al. 2015. Biochem Biophys Acta 1847:1004-1016 | AT5G16180 (TAIR)
LOC_Os08g27150 (MSU/TIGR)
Os08g0360100 (Gramene) | Reference: August 23rd, 2023
Gene Product: July 22nd, 2009
Variation: October 13th, 2021
Gene Model: July 14th, 2011
|
| 8 months ago | crs2 | chloroplast RNA splicing2: | 8.02 | GRMZM2G132021
| Belcher, S et al. 2015. Biochem Biophys Acta 1847:1004-1016 | AT5G16140 (TAIR)
LOC_Os01g04130 (MSU/TIGR)
Os01g0132800 (Gramene) | Reference: August 23rd, 2023
Gene Product: December 24th, 2015
Variation: August 17th, 2011
Gene Model: July 15th, 2011
|
| 8 months ago | bnlg609 | : | 5.06 | GRMZM2G076313
| Lihua Jia et al. 2023. Genome-Wide Identification and Functional Analysis of Nitrate Transporter Genes (NPF, NRT2 and NRT3) in Maize Int J Mol Sci. 24:12941. | | Reference: August 23rd, 2023
Variation: September 1st, 2003
Gene Model: July 12th, 2018
|
| 8 months ago | csy1 | chloroplast SecY-1: | 5.03 | | Belcher, S et al. 2015. Biochem Biophys Acta 1847:1004-1016 | AT2G18710 (TAIR)
LOC_Os08g15460 (MSU/TIGR)
Os08g0254500 (Gramene) | Reference: August 23rd, 2023
Gene Product: July 22nd, 2009
Variation: July 23rd, 2011
|
| 8 months ago | pgl104 | polygalacturonase104: | 1.11 | GRMZM2G092758
| Yangyang Li et al. 2023. Coordinated regulation of sucrose and lignin metabolism for arrested silk elongation under drought stress in maize Environ Exp Bot. :doi: 10.1016/j.envexpbot.2023.105482. | | Reference: August 23rd, 2023
Gene Product: October 4th, 2021
Gene Model: April 10th, 2021
|
| 8 months ago | akr1 | aldo/keto reductase AKR1: | 6.01 | GRMZM2G052812
| Mehak Sethi et al. 2023. Unravelling the genetic framework associated with grain quality and yield-related traits in maize (Zea mays L.). 14:1248697. | | Reference: August 23rd, 2023
Gene Product: September 1st, 2003
Variation: September 1st, 2003
Gene Model: December 24th, 2015
|
| 8 months ago | hcf1 | high chlorophyll fluorescence1: | 2.05 - 2.10 | | Miles, D. 1994. Maydica 39:35-45 | | Reference: August 23rd, 2023
Variation: September 1st, 2003
|
| 8 months ago | hcf101 | high chlorophyll fluorescence101: | 7.02 - 7.06 | | Miles, D. 1994. Maydica 39:35-45 | | Reference: August 23rd, 2023
Variation: September 1st, 2003
|
| 8 months ago | hcf103 | high chlorophyll fluorescence103: | 7.02 - 7.06 | | Miles, D. 1994. Maydica 39:35-45 | | Reference: August 23rd, 2023
Variation: September 1st, 2003
|
| 8 months ago | hcf104 | high chlorophyll fluorescence104: | 7.02 - 7.06 | | Miles, D. 1994. Maydica 39:35-45 | | Reference: August 23rd, 2023
Variation: September 1st, 2003
|
| 8 months ago | hcf106 | high chlorophyll fluorescence106: | 2.04 | | Belcher, S et al. 2015. Biochem Biophys Acta 1847:1004-1016 | | Reference: August 23rd, 2023
Gene Product: September 1st, 2003
Variation: December 17th, 2012
|
| 8 months ago | hcf108 | high chlorophyll fluorescence108: | 5.01 | | Miles, D. 1994. Maydica 39:35-45 | | Reference: August 23rd, 2023
Variation: September 1st, 2003
|
| 8 months ago | hcf19 | high chlorophyll fluorescence19: | 3.06 | | Miles, D. 1994. Maydica 39:35-45 | | Reference: August 23rd, 2023
Variation: May 19th, 2006
|
| 8 months ago | hcf2 | high chlorophyll fluorescence2: | 1.06 - 1.08 | | Miles, D. 1994. Maydica 39:35-45 | | Reference: August 23rd, 2023
Variation: September 1st, 2003
|
| 8 months ago | hcf3 | high chlorophyll fluorescence3: | 1.03 | GRMZM2G121960
| Belcher, S et al. 2015. Biochem Biophys Acta 1847:1004-1016 | | Reference: August 23rd, 2023
Gene Product: December 1st, 2015
Variation: August 19th, 2020
Gene Model: December 1st, 2015
|
| 8 months ago | hcf38 | high chlorophyll fluorescence38: | 5.04 - 5.09 | | Miles, D. 1994. Maydica 39:35-45 | | Reference: August 23rd, 2023
Variation: May 19th, 2006
|
| 8 months ago | hcf42 | high chlorophyll fluorescence42: | 9.03 - 9.08 | | Miles, D. 1994. Maydica 39:35-45 | | Reference: August 23rd, 2023
Variation: September 1st, 2003
|
| 8 months ago | hcf44 | high chlorophyll fluorescence44: | 1.06 - 1.12 | | Miles, D. 1994. Maydica 39:35-45 | | Reference: August 23rd, 2023
Variation: September 1st, 2003
|
| 8 months ago | hcf50 | high chlorophyll fluorescence50: | 1.06 - 1.07 | | Miles, D. 1994. Maydica 39:35-45 | | Reference: August 23rd, 2023
Variation: September 1st, 2003
|
| 8 months ago | hcf6 | high chlorophyll fluorescence6: | 1.00 - 1.05 | | Miles, D. 1994. Maydica 39:35-45 | | Reference: August 23rd, 2023
Variation: September 1st, 2003
|
| 8 months ago | wtf1 | what's this factor1: | 8.03 | GRMZM2G403797
| Belcher, S et al. 2015. Biochem Biophys Acta 1847:1004-1016 | AT4G01037 (TAIR)
LOC_Os05g49610 (MSU/TIGR)
Os05g0571100 (Gramene) | Reference: August 23rd, 2023
Gene Product: July 21st, 2009
Variation: May 9th, 2009
Gene Model: July 15th, 2011
|
| 8 months ago | why1 | WHIRLY-transcription factor 1: | 6.01 | GRMZM2G155662
| Belcher, S et al. 2015. Biochem Biophys Acta 1847:1004-1016 | AT1G14410 (TAIR)
LOC_Os06g05350 (MSU/TIGR)
Os06g0145800 (Gramene) | Reference: August 23rd, 2023
Gene Product: November 18th, 2021
Variation: July 1st, 2013
Gene Model: July 14th, 2011
|
| 8 months ago | ppr5 | pentatricopeptide repeat 5: | 4.08 | GRMZM2G025409
| Belcher, S et al. 2015. Biochem Biophys Acta 1847:1004-1016 | AT4G39620 (TAIR)
LOC_Os02g51480 (MSU/TIGR)
Os02g0750400 (Gramene) | Reference: August 23rd, 2023
Gene Product: September 15th, 2012
Variation: August 5th, 2011
Gene Model: July 14th, 2011
|
| 8 months ago | ij1 | iojap striping1: | 7.03 | | Belcher, S et al. 2015. Biochem Biophys Acta 1847:1004-1016 | | Reference: August 23rd, 2023
Gene Product: September 1st, 2003
Variation: November 28th, 2012
|
| 8 months ago | oy1 | oil yellow1: | 10.02 | | Belcher, S et al. 2015. Biochem Biophys Acta 1847:1004-1016 | | Reference: August 23rd, 2023
Gene Product: June 8th, 2007
Variation: March 17th, 2011
|
| 8 months ago | sm1 | salmon silks1: | 6.05 - 6.05 | GRMZM2G031311
| Yangyang Li et al. 2023. Coordinated regulation of sucrose and lignin metabolism for arrested silk elongation under drought stress in maize Environ Exp Bot. :doi: 10.1016/j.envexpbot.2023.105482. | | Reference: August 23rd, 2023
Gene Product: May 26th, 2016
Variation: May 26th, 2016
Gene Model: May 26th, 2016
|
| 8 months ago | w2 | white seedling2: | 10.07 - 10.07 | GRMZM2G480171
| Belcher, S et al. 2015. Biochem Biophys Acta 1847:1004-1016 | | Reference: August 23rd, 2023
Gene Product: September 19th, 2012
Variation: June 8th, 2019
Gene Model: September 19th, 2012
|
| 8 months ago | lpe1 | leaf permease1: | 1.09 | GRMZM5G858417
| Belcher, S et al. 2015. Biochem Biophys Acta 1847:1004-1016 | | Reference: August 23rd, 2023
Gene Product: September 1st, 2003
Variation: March 29th, 2012
Gene Model: February 17th, 2015
|
| 8 months ago | npf13 | nitrate transporter/peptide transporter family13: | 2.08 | GRMZM2G127134
| Lihua Jia et al. 2023. Genome-Wide Identification and Functional Analysis of Nitrate Transporter Genes (NPF, NRT2 and NRT3) in Maize Int J Mol Sci. 24:12941. | | Reference: August 23rd, 2023
Gene Product: September 1st, 2003
Variation: September 1st, 2003
Gene Model: January 29th, 2022
|
| 8 months ago | csr1 | chloroplast srp54 receptor1: | 10.06 | | Belcher, S et al. 2015. Biochem Biophys Acta 1847:1004-1016 | AT2G45770 (TAIR)
LOC_Os01g72800 (MSU/TIGR)
Os01g0958100 (Gramene) | Reference: August 23rd, 2023
Gene Product: July 23rd, 2009
Variation: July 23rd, 2009
|
| 8 months ago | psa1 | photosystemI1: | 6.02 | GRMZM2G100976
| Belcher, S et al. 2015. Biochem Biophys Acta 1847:1004-1016 | | Reference: August 23rd, 2023
Variation: November 10th, 2020
Gene Model: April 4th, 2017
|
| 8 months ago | ptac12 | plastid transcriptionally active chromosome 12 homolog: | | GRMZM5G897926
| Belcher, S et al. 2015. Biochem Biophys Acta 1847:1004-1016 | At2g34640 (TAIR) | Reference: August 23rd, 2023
Gene Product: December 4th, 2015
Variation: January 21st, 2015
Gene Model: January 21st, 2015
|
| 8 months ago | era1 | E. coli Ras-like protein1: | 8.03 - 8.03 | GRMZM2G158024
| Belcher, S et al. 2015. Biochem Biophys Acta 1847:1004-1016 | | Reference: August 23rd, 2023
Variation: November 10th, 2020
Gene Model: February 17th, 2015
|
| 8 months ago | pet2 | photosynthetic electron transport2: | | GRMZM2G087063
| Belcher, S et al. 2015. Biochem Biophys Acta 1847:1004-1016 | At5g52110 (TAIR)
LOC_Os10g37840 (MSU/TIGR)
Os10g0522500 (Gramene) | Reference: August 23rd, 2023
Gene Product: May 11th, 2021
Variation: August 19th, 2020
Gene Model: April 19th, 2011
|
| 8 months ago | pet3 | photosynthetic electron transport3: | | GRMZM2G177145
| Belcher, S et al. 2015. Biochem Biophys Acta 1847:1004-1016 | AT1G59840 (TAIR)
LOC_Os04g55690 (MSU/TIGR) | Reference: August 23rd, 2023
Gene Product: May 11th, 2021
Variation: September 1st, 2003
Gene Model: September 6th, 2011
|
| 8 months ago | crp1 | chloroplast RNA processing1: | 7.03 - 7.06 | | Belcher, S et al. 2015. Biochem Biophys Acta 1847:1004-1016 | AT5G42310 (TAIR)
LOC_Os07g36390 (MSU/TIGR)
Os07g0548300 (Gramene) | Reference: August 23rd, 2023
Gene Product: December 27th, 2016
Variation: July 23rd, 2009
|
| 8 months ago | cps1 | chloroplast protein synthesis1: | 1.06 - 1.12 | GRMZM2G156565
| Belcher, S et al. 2015. Biochem Biophys Acta 1847:1004-1016 | | Reference: August 23rd, 2023
Gene Product: October 3rd, 2011
Variation: September 15th, 2011
Gene Model: September 6th, 2011
|
| 8 months ago | tha1 | thylakoid assembly1: | 3.04 | GRMZM5G880102
| Belcher, S et al. 2015. Biochem Biophys Acta 1847:1004-1016 | AT4G01800 (TAIR)
LOC_Os01g21820 (MSU/TIGR)
Os01g0321300 (Gramene) | Reference: August 23rd, 2023
Gene Product: July 22nd, 2009
Variation: June 25th, 2004
Gene Model: April 3rd, 2020
|
| 8 months ago | rh4 | RNA helicase4: | | GRMZM2G163072
| Belcher, S et al. 2015. Biochem Biophys Acta 1847:1004-1016 | At5g26742 (TAIR)
LOC_Os03g61220 (MSU/TIGR)
Os03g0827700 (Gramene) | Reference: August 23rd, 2023
Gene Product: December 13th, 2022
Variation: November 10th, 2020
Gene Model: May 17th, 2012
|
| 8 months ago | mterf4 | mTERF-domain protein4: | | | Belcher, S et al. 2015. Biochem Biophys Acta 1847:1004-1016 | At4g02990 (TAIR) | Reference: August 23rd, 2023
Gene Product: December 15th, 2015
Variation: February 14th, 2014
|
| 8 months ago | prc3 | proteasome component3: | 1.01 | GRMZM2G472167
| Lihua Jia et al. 2023. Genome-Wide Identification and Functional Analysis of Nitrate Transporter Genes (NPF, NRT2 and NRT3) in Maize Int J Mol Sci. 24:12941. | | Reference: August 23rd, 2023
Gene Product: September 1st, 2003
Variation: April 28th, 2011
Gene Model: May 7th, 2013
|
| 8 months ago | prpo1 | protoporphyrinogen IX oxidase1: | 8.01 | GRMZM2G039396
| Belcher, S et al. 2015. Biochem Biophys Acta 1847:1004-1016 | | Reference: August 23rd, 2023
Gene Product: December 17th, 2014
Variation: December 30th, 2015
Gene Model: December 1st, 2014
|
| 8 months ago | epr4 | endochitinase precursor4: | | GRMZM2G129189
| Yangyang Li et al. 2023. Coordinated regulation of sucrose and lignin metabolism for arrested silk elongation under drought stress in maize Environ Exp Bot. :doi: 10.1016/j.envexpbot.2023.105482. | | Reference: August 23rd, 2023
Gene Product: May 31st, 2021
Variation: July 14th, 2016
Gene Model: July 14th, 2016
|
| 8 months ago | cps5 | chloroplast protein synthesis5: | 8.02 | GRMZM2G566786
| Belcher, S et al. 2015. Biochem Biophys Acta 1847:1004-1016 | | Reference: August 23rd, 2023
Gene Product: September 1st, 2003
Variation: September 1st, 2003
Gene Model: April 12th, 2017
|
| 8 months ago | psb1 | photosystem II1: | 6.01 - 6.08 | GRMZM2G102838
| Belcher, S et al. 2015. Biochem Biophys Acta 1847:1004-1016 | | Reference: August 23rd, 2023
Variation: July 8th, 2015
Gene Model: February 17th, 2015
|
| 8 months ago | ppr2 | pentatricopeptide repeat 2: | 7.00 | GRMZM2G341621
| Belcher, S et al. 2015. Biochem Biophys Acta 1847:1004-1016 | AT3G06430 (TAIR)
LOC_Os03g19650 (MSU/TIGR)
Os03g0309800 (Gramene) | Reference: August 23rd, 2023
Gene Product: July 23rd, 2009
Variation: July 23rd, 2009
Gene Model: July 14th, 2011
|
| 8 months ago | caf2 | crs2 associated factor2: | 3.04 | AC199526.5_FG003
| Belcher, S et al. 2015. Biochem Biophys Acta 1847:1004-1016 | AT1G23400 (TAIR)
LOC_Os01g21990 (MSU/TIGR)
Os01g0323300 (Gramene) | Reference: August 23rd, 2023
Gene Product: July 23rd, 2009
Variation: July 22nd, 2009
Gene Model: July 14th, 2011
|
| 8 months ago | caf1 | crs2 associated factor1: | 7.02 | GRMZM2G083950
| Belcher, S et al. 2015. Biochem Biophys Acta 1847:1004-1016 | AT2G20020 (TAIR)
LOC_Os01g31110 (MSU/TIGR)
Os01g0495900 (Gramene) | Reference: August 23rd, 2023
Gene Product: July 23rd, 2009
Variation: July 23rd, 2009
Gene Model: July 14th, 2011
|
| 8 months ago | ccs1 | C-type cytochrome synthesis protein1: | 1.10 | GRMZM2G038301
| Belcher, S et al. 2015. Biochem Biophys Acta 1847:1004-1016 | | Reference: August 23rd, 2023
Variation: August 9th, 2021
Gene Model: August 9th, 2021
|
| 8 months ago | ycf54 | ycf54 homolog: | 1.04 | GRMZM2G010196
| Belcher, S et al. 2015. Biochem Biophys Acta 1847:1004-1016 | | Reference: August 23rd, 2023
Variation: November 10th, 2020
Gene Model: February 17th, 2015
|
| 8 months ago | hcf148 | high chlorophyll fluorescence148: | 3.06 | GRMZM2G002165
| Belcher, S et al. 2015. Biochem Biophys Acta 1847:1004-1016 | | Reference: August 23rd, 2023
Variation: November 25th, 2020
Gene Model: February 17th, 2015
|
| 8 months ago | tha4 | thylakoid assembly4: | 1.08 | GRMZM2G472651
| Belcher, S et al. 2015. Biochem Biophys Acta 1847:1004-1016 | AT5G28750 (TAIR)
LOC_Os03g43430 (MSU/TIGR)
Os03g0634000 (Gramene) | Reference: August 23rd, 2023
Gene Product: July 22nd, 2009
Variation: August 13th, 2011
Gene Model: July 14th, 2011
|
| 8 months ago | tha5 | thylakoid assembly5: | | GRMZM2G300408
| Belcher, S et al. 2015. Biochem Biophys Acta 1847:1004-1016 | AT4G14870 (TAIR)
LOC_Os08g30830 (MSU/TIGR)
Os08g0399050 (Gramene) | Reference: August 23rd, 2023
Gene Product: April 21st, 2011
Variation: August 26th, 2010
Gene Model: April 12th, 2011
|
| 8 months ago | tha8 | thylakoid assembly8: | 2.06 | AC217965.2_FG012
| Belcher, S et al. 2015. Biochem Biophys Acta 1847:1004-1016 | | Reference: August 23rd, 2023
Variation: May 9th, 2009
Gene Model: July 15th, 2011
|
| 8 months ago | cf1 | camouflage1: | 5.04 | | Belcher, S et al. 2015. Biochem Biophys Acta 1847:1004-1016 | AT5G08280 (TAIR)
LOC_Os02g0168800 (MSU/TIGR) | Reference: August 23rd, 2023
Gene Product: December 8th, 2014
Variation: September 9th, 2009
|
| 8 months ago | crp4 | chloroplast RNA processing4: | | GRMZM2G377761
| Belcher, S et al. 2015. Biochem Biophys Acta 1847:1004-1016 | AT3G03710 (TAIR)
LOC_Os07g07310 (MSU/TIGR)
Os07g0168000 (Gramene) | Reference: August 23rd, 2023
Gene Product: April 12th, 2011
Variation: April 21st, 2011
Gene Model: April 12th, 2011
|
| 8 months ago | atp4 | ATP synthase4: | | GRMZM2G128665
| Belcher, S et al. 2015. Biochem Biophys Acta 1847:1004-1016 | | Reference: August 23rd, 2023
Gene Product: December 30th, 2015
Variation: June 15th, 2013
Gene Model: June 15th, 2013
|
| 8 months ago | ptac2 | plastid transcriptionally active chromosome homolog2: | | GRMZM2G122116
| Belcher, S et al. 2015. Biochem Biophys Acta 1847:1004-1016 | At1g74850 (TAIR) | Reference: August 23rd, 2023
Gene Product: December 30th, 2015
Variation: January 22nd, 2015
Gene Model: January 21st, 2015
|
| 8 months ago | murE1 | mureinE1: | | GRMZM2G009070
| Belcher, S et al. 2015. Biochem Biophys Acta 1847:1004-1016 | At1g63680 (TAIR) | Reference: August 23rd, 2023
Gene Product: April 19th, 2018
Variation: January 22nd, 2015
Gene Model: January 21st, 2015
|
| 8 months ago | prin2 | plastid redox insensitive2: | | GRMZM2G119906
| Belcher, S et al. 2015. Biochem Biophys Acta 1847:1004-1016 | At1g10522 (TAIR) | Reference: August 23rd, 2023
Variation: January 22nd, 2015
Gene Model: January 21st, 2015
|
| 8 months ago | prda1 | pep-related development arrested1 homolog: | | GRMZM2G079452
| Belcher, S et al. 2015. Biochem Biophys Acta 1847:1004-1016 | AT5G48470 (TAIR)
LOC_Os11g23790 (MSU/TIGR) | Reference: August 23rd, 2023
Variation: November 10th, 2020
Gene Model: February 17th, 2015
|
| 8 months ago | pgr3 | proton gradient regulation3 homolog: | | GRMZM2G372632
| Belcher, S et al. 2015. Biochem Biophys Acta 1847:1004-1016 | AT4G31850 (TAIR)
LOC_Os10g28600 (MSU/TIGR) | Reference: August 23rd, 2023
Gene Product: December 27th, 2016
Variation: December 30th, 2015
Gene Model: February 17th, 2015
|
| 8 months ago | tab2 | translation chloroplast psaB mRNA2 homolog: | | GRMZM2G081955
| Belcher, S et al. 2015. Biochem Biophys Acta 1847:1004-1016 | | Reference: August 23rd, 2023
Variation: November 10th, 2020
Gene Model: February 17th, 2015
|
| 8 months ago | gun4 | genomes uncoupled4 homolog: | | GRMZM2G464328
| Belcher, S et al. 2015. Biochem Biophys Acta 1847:1004-1016 | | Reference: August 23rd, 2023
Variation: December 30th, 2015
Gene Model: February 17th, 2015
|
| 8 months ago | mha3 | membrane H(+)-ATPase3: | | GRMZM2G104325
| Mehak Sethi et al. 2023. Unravelling the genetic framework associated with grain quality and yield-related traits in maize (Zea mays L.). 14:1248697. | | Reference: August 23rd, 2023
Gene Product: September 1st, 2003
Variation: January 22nd, 2016
Gene Model: January 22nd, 2016
|
| 8 months ago | chn5 | chitinase5: | | GRMZM2G051921
| Yangyang Li et al. 2023. Coordinated regulation of sucrose and lignin metabolism for arrested silk elongation under drought stress in maize Environ Exp Bot. :doi: 10.1016/j.envexpbot.2023.105482. | | Reference: August 23rd, 2023
Gene Product: May 31st, 2021
Gene Model: September 16th, 2017
|
| 8 months ago | npf7 | nitrate transporter/peptide transporter family7: | | GRMZM2G064091
| Lihua Jia et al. 2023. Genome-Wide Identification and Functional Analysis of Nitrate Transporter Genes (NPF, NRT2 and NRT3) in Maize Int J Mol Sci. 24:12941. | | Reference: August 23rd, 2023
Gene Product: September 1st, 2003
Gene Model: May 21st, 2019
|
| 8 months ago | npf8 | nitrate transporter/peptide transporter family8: | | GRMZM2G476069
| Lihua Jia et al. 2023. Genome-Wide Identification and Functional Analysis of Nitrate Transporter Genes (NPF, NRT2 and NRT3) in Maize Int J Mol Sci. 24:12941. | | Reference: August 23rd, 2023
Gene Product: September 1st, 2003
Gene Model: May 21st, 2019
|
| 8 months ago | npf9 | nitrate transporter/peptide transporter family9: | | GRMZM2G176253
| Lihua Jia et al. 2023. Genome-Wide Identification and Functional Analysis of Nitrate Transporter Genes (NPF, NRT2 and NRT3) in Maize Int J Mol Sci. 24:12941. | | Reference: August 23rd, 2023
Gene Product: September 1st, 2003
Gene Model: May 21st, 2019
|
| 8 months ago | lacs2 | long chain acyl-CoA synthetase2: | | GRMZM2G104847
| XiuChen Wang et al. 2023. Genome-Wide Analysis of the Maize Lacs Gene Family and Functional Analysis of the Zmlacs9 Gene SSRN. :doi: 10.2139/ssrn.4548585. | | Reference: August 23rd, 2023
Gene Product: October 31st, 2018
Gene Model: February 13th, 2020
|
| 8 months ago | nrt6 | nitrate transport6: | | GRMZM2G141491
| Lihua Jia et al. 2023. Genome-Wide Identification and Functional Analysis of Nitrate Transporter Genes (NPF, NRT2 and NRT3) in Maize Int J Mol Sci. 24:12941. | | Reference: August 23rd, 2023
Gene Product: September 1st, 2003
Gene Model: September 18th, 2020
|
| 8 months ago | cyp29 | cytochrome P450 CYP71Z19: | | GRMZM2G122654
| Yangyang Li et al. 2023. Coordinated regulation of sucrose and lignin metabolism for arrested silk elongation under drought stress in maize Environ Exp Bot. :doi: 10.1016/j.envexpbot.2023.105482. | | Reference: August 23rd, 2023
Gene Product: December 30th, 2022
Gene Model: October 27th, 2020
|
| 8 months ago | npf12 | nitrate transporter/peptide transporter family12: | | GRMZM2G127134
| Lihua Jia et al. 2023. Genome-Wide Identification and Functional Analysis of Nitrate Transporter Genes (NPF, NRT2 and NRT3) in Maize Int J Mol Sci. 24:12941. | | Reference: August 23rd, 2023
Gene Product: September 1st, 2003
Gene Model: January 2nd, 2022
|
| 8 months ago | rnc1 | ribonuclease III domain protein1: | 3.06 | GRMZM2G035820
| Belcher, S et al. 2015. Biochem Biophys Acta 1847:1004-1016 | AT4G37510 (TAIR)
LOC_Os01g5951 (MSU/TIGR)
Os01g0810100 (Gramene) | Reference: August 23rd, 2023
Gene Product: July 22nd, 2009
Variation: October 18th, 2010
Gene Model: July 14th, 2011
|
| 8 months ago | abcg11 | ABC transporter G family member 11: | 2.02 | GRMZM2G177812
| Belcher, S et al. 2015. Biochem Biophys Acta 1847:1004-1016 | | Reference: August 23rd, 2023
Gene Product: December 28th, 2015
Variation: December 30th, 2015
Gene Model: February 17th, 2015
|
| 8 months ago | ppr4 | pentatricopeptide repeat 4: | | | Belcher, S et al. 2015. Biochem Biophys Acta 1847:1004-1016 | AT5G04810 (TAIR)
LOC_Os04g58780 (MSU/TIGR)
Os04g0684500 (Gramene) | Reference: August 23rd, 2023
Gene Product: September 15th, 2012
Variation: July 24th, 2009
|
| 8 months ago | csu193 | : | 9.03 | GRMZM2G019586
| Liu, ZG et al. 2023. Hybrid performance evaluation and genome-wide association analysis of root system architecture in a maize association population. Theor Appl Genet. 136:194. | | Reference: August 22nd, 2023
Variation: September 1st, 2003
Gene Model: January 14th, 2019
|
| 8 months ago | nbcs5 | nucleobase:cation symporter5: | 2.06 | GRMZM2G100484
| Liu, ZG et al. 2023. Hybrid performance evaluation and genome-wide association analysis of root system architecture in a maize association population. Theor Appl Genet. 136:194. | | Reference: August 22nd, 2023
Gene Product: July 14th, 2018
Variation: July 29th, 2004
Gene Model: January 31st, 2018
|
| 8 months ago | xt5 | beta-1,4-xylosyltransferase5: | | GRMZM5G898668
| Liu, ZG et al. 2023. Hybrid performance evaluation and genome-wide association analysis of root system architecture in a maize association population. Theor Appl Genet. 136:194. | | Reference: August 22nd, 2023
Gene Product: August 12th, 2022
Gene Model: July 2nd, 2020
|
| 8 months ago | IDP88 | : | 8.03 | GRMZM2G074103
| Liu, ZG et al. 2023. Hybrid performance evaluation and genome-wide association analysis of root system architecture in a maize association population. Theor Appl Genet. 136:194. | | Reference: August 22nd, 2023
Variation: March 31st, 2005
Gene Model: June 6th, 2020
|
| 8 months ago | LOC542589 | : | | | Li, CP; Larkins, BA. 1995. Plant Physiol 109:339 | | Reference: August 21st, 2023
Gene Product: September 1st, 2003
|
| 8 months ago | tbp1 | TATA-binding protein1: | 1.09 | GRMZM2G149238
| Uyehara, AN et al. 2023. Cytokinin Promotes Jasmonic Acid Accumulation in the Control of Maize Leaf Growth Plants. 12:3014. | | Reference: August 21st, 2023
Gene Product: September 1st, 2003
Variation: February 4th, 2015
Gene Model: February 4th, 2015
|
| 8 months ago | elfg1 | elongation factor gamma1: | 6.04 | | Huaijun Tang et al. 2023. QTL mapping for flowering time in a maize-teosinte population under well-watered and water-stressed conditions. Mol Breed. 43:67. | | Reference: August 21st, 2023
Gene Product: October 22nd, 2022
Variation: July 9th, 2017
|
| 8 months ago | aos4 | allene oxide synthesis4: | | GRMZM2G072653
| Uyehara, AN et al. 2023. Cytokinin Promotes Jasmonic Acid Accumulation in the Control of Maize Leaf Growth Plants. 12:3014. | | Reference: August 21st, 2023
Gene Product: September 1st, 2003
Gene Model: October 29th, 2015
|
| 8 months ago | ppr346 | pentatricopeptide repeat protein346: | | GRMZM2G129783
| Huaijun Tang et al. 2023. QTL mapping for flowering time in a maize-teosinte population under well-watered and water-stressed conditions. Mol Breed. 43:67. | | Reference: August 21st, 2023
Gene Product: December 27th, 2016
Gene Model: June 11th, 2018
|
| 8 months ago | aas11 | auxin amido synthetase11: | | GRMZM2G162413
| Uyehara, AN et al. 2023. Cytokinin Promotes Jasmonic Acid Accumulation in the Control of Maize Leaf Growth Plants. 12:3014. | | Reference: August 21st, 2023
Gene Product: October 21st, 2019
Gene Model: October 21st, 2019
|
| 8 months ago | zim1 | ZIM-transcription factor 1: | | | Wang, L et al. 2023. Immature leaves are the dominant volatile-sensing organs of maize Curr Biol. :doi: 10.1016/j.cub.2023.07.045. | | Reference: August 18th, 2023
Gene Product: February 24th, 2021
|
| 8 months ago | zim12 | ZIM-transcription factor 12: | | | Wang, L et al. 2023. Immature leaves are the dominant volatile-sensing organs of maize Curr Biol. :doi: 10.1016/j.cub.2023.07.045. | | Reference: August 18th, 2023
Gene Product: February 24th, 2021
Variation: March 17th, 2021
|
| 8 months ago | zim32 | ZIM-transcription factor 32: | | | Wang, L et al. 2023. Immature leaves are the dominant volatile-sensing organs of maize Curr Biol. :doi: 10.1016/j.cub.2023.07.045. | | Reference: August 18th, 2023
Gene Product: February 24th, 2021
Variation: February 17th, 2019
|
| 8 months ago | zim34 | ZIM-transcription factor 34: | | | Wang, L et al. 2023. Immature leaves are the dominant volatile-sensing organs of maize Curr Biol. :doi: 10.1016/j.cub.2023.07.045. | | Reference: August 18th, 2023
Gene Product: February 24th, 2021
|
| 8 months ago | zim36 | ZIM-transcription factor 36: | | | Wang, L et al. 2023. Immature leaves are the dominant volatile-sensing organs of maize Curr Biol. :doi: 10.1016/j.cub.2023.07.045. | | Reference: August 18th, 2023
Gene Product: February 24th, 2021
|
| 8 months ago | zim4 | ZIM-transcription factor 4: | | | Wang, L et al. 2023. Immature leaves are the dominant volatile-sensing organs of maize Curr Biol. :doi: 10.1016/j.cub.2023.07.045. | | Reference: August 18th, 2023
Gene Product: February 24th, 2021
|
| 8 months ago | umc2308 | : | 5.09 | GRMZM5G848768
| Wang, L et al. 2023. Immature leaves are the dominant volatile-sensing organs of maize Curr Biol. :doi: 10.1016/j.cub.2023.07.045. | | Reference: August 18th, 2023
Variation: June 25th, 2021
Gene Model: July 15th, 2018
|
| 8 months ago | ech1 | enoyl-CoA hydratase1: | 8.03 | GRMZM2G132903
| Wang, L et al. 2023. Immature leaves are the dominant volatile-sensing organs of maize Curr Biol. :doi: 10.1016/j.cub.2023.07.045. | | Reference: August 18th, 2023
Gene Product: September 1st, 2003
Variation: February 15th, 2014
Gene Model: July 27th, 2016
|
| 8 months ago | coi1 | coronatine insensitive1: | 3.06 | GRMZM2G125411
| Wang, L et al. 2023. Immature leaves are the dominant volatile-sensing organs of maize Curr Biol. :doi: 10.1016/j.cub.2023.07.045. | | Reference: August 18th, 2023
Gene Product: November 2nd, 2018
Gene Model: November 2nd, 2018
|
| 8 months ago | opr5 | 12-oxo-phytodienoic acid reductase5: | 2.04 | GRMZM2G087192
| Wang, L et al. 2023. Immature leaves are the dominant volatile-sensing organs of maize Curr Biol. :doi: 10.1016/j.cub.2023.07.045. | | Reference: August 18th, 2023
Gene Product: September 3rd, 2010
Variation: July 21st, 2008
Gene Model: November 27th, 2013
|
| 8 months ago | aos3 | allene oxide synthesis3: | | GRMZM2G376661
| Wang, L et al. 2023. Immature leaves are the dominant volatile-sensing organs of maize Curr Biol. :doi: 10.1016/j.cub.2023.07.045. | | Reference: August 18th, 2023
Gene Product: September 1st, 2003
Gene Model: October 29th, 2015
|
| 8 months ago | cyp20 | cytochrome P-450 20: | | GRMZM2G139467
| Wang, L et al. 2023. Immature leaves are the dominant volatile-sensing organs of maize Curr Biol. :doi: 10.1016/j.cub.2023.07.045. | | Reference: August 18th, 2023
Gene Product: September 26th, 2016
Gene Model: September 26th, 2016
|
| 8 months ago | pgip1 | polygalacturonase-inhibiting protein1: | | GRMZM2G333980
| Kumar, R et al. 2023. Genetic architecture of source-sink-regulated senescence in maize. Plant Physiol. :doi: 10.1093/plphys/kiad460. | | Reference: August 18th, 2023
Gene Product: September 4th, 2019
Gene Model: September 4th, 2019
|
| 8 months ago | aas13 | auxin amido synthetase13: | | GRMZM2G091276
| Wang, L et al. 2023. Immature leaves are the dominant volatile-sensing organs of maize Curr Biol. :doi: 10.1016/j.cub.2023.07.045. | | Reference: August 18th, 2023
Gene Product: October 21st, 2019
Gene Model: October 21st, 2019
|
| 8 months ago | rh48 | RNA helicase48: | | GRMZM2G171801
| Yang, Y-Z et al. 2023. The DEAD-box RNA helicase ZmRH48 is required for the splicing of multiple mitochondrial introns, mitochondrial complex biosynthesis, and seed development in maize. J Integr Plant Biol. :doi: 10.1111/jipb.13558. | | Reference: August 18th, 2023
Gene Product: December 13th, 2022
Variation: August 18th, 2023
Gene Model: May 5th, 2020
|
| 8 months ago | coi5 | coronatine insensitive5: | | GRMZM2G035314
| Wang, L et al. 2023. Immature leaves are the dominant volatile-sensing organs of maize Curr Biol. :doi: 10.1016/j.cub.2023.07.045. | | Reference: August 18th, 2023
Gene Product: November 2nd, 2018
Gene Model: January 20th, 2021
|
| 8 months ago | myo1 | myosin1: | 3.09 | AC155377.1_FG001
| Kumar, R et al. 2023. Genetic architecture of source-sink-regulated senescence in maize. Plant Physiol. :doi: 10.1093/plphys/kiad460. | | Reference: August 18th, 2023
Gene Product: September 1st, 2003
Variation: February 21st, 2008
Gene Model: March 3rd, 2015
|
| 8 months ago | uaz248a(his3) | : | 1.04 | GRMZM2G171387
| Petroli, CD et al. 2023. Genetic variation among elite inbred lines suggests potential to breed for BNI-capacity in maize Sci. Rep.. 13:13422. | | Reference: August 17th, 2023
Gene Product: September 1st, 2003
Variation: July 5th, 2017
Gene Model: July 5th, 2017
|
| 8 months ago | pgd2 | 6-phosphogluconate dehydrogenase2: | 3.05 | | Ivica Djalovic et al. 2023. Maize and heat stress: Physiological, genetic, and molecular insights. Plant Genome. :doi: 10.1002/tpg2.20378. | | Reference: August 17th, 2023
Gene Product: December 16th, 2020
Variation: September 1st, 2003
|
| 8 months ago | rop1 | Rho-related protein from plants 1: | 5.07 | GRMZM2G415327
| Petroli, CD et al. 2023. Genetic variation among elite inbred lines suggests potential to breed for BNI-capacity in maize Sci. Rep.. 13:13422. | | Reference: August 17th, 2023
Gene Product: April 1st, 2004
Variation: January 25th, 2011
Gene Model: January 1st, 2015
|
| 8 months ago | hsftf3 | HSF-transcription factor 3: | | | Ivica Djalovic et al. 2023. Maize and heat stress: Physiological, genetic, and molecular insights. Plant Genome. :doi: 10.1002/tpg2.20378. | | Reference: August 17th, 2023
Gene Product: May 15th, 2020
|
| 8 months ago | umc1702 | : | 4.05 | GRMZM2G125529
| Petroli, CD et al. 2023. Genetic variation among elite inbred lines suggests potential to breed for BNI-capacity in maize Sci. Rep.. 13:13422. | | Reference: August 17th, 2023
Variation: September 1st, 2003
Gene Model: June 7th, 2018
|
| 8 months ago | pap30 | purple acid phosphatase30: | | GRMZM5G831009
| Ivica Djalovic et al. 2023. Maize and heat stress: Physiological, genetic, and molecular insights. Plant Genome. :doi: 10.1002/tpg2.20378. | | Reference: August 17th, 2023
Gene Product: November 21st, 2018
Gene Model: November 23rd, 2018
|
| 8 months ago | mrpa13 | multidrug resistance protein associated13: | | | Mengxue Qu et al. 2023. Differences of cadmium uptake and accumulation in roots of two maize varieties (Zea mays L.) Environ Sci Pollut Res. :doi: 10.1007/s11356-023-29340-9. | | Reference: August 16th, 2023
Gene Product: July 11th, 2019
|
| 8 months ago | kip1 | knotted interacting protein1: | 1.09 | | Yu, J et al. 2023. ZmBELL10 interacts with other ZmBELLs and recognizes specific motifs for transcriptional activation to modulate internode patterning in maize. New Phytol. :doi: 10.1111/nph.19192. | | Reference: August 16th, 2023
Gene Product: January 3rd, 2008
Variation: January 2nd, 2008
|
| 8 months ago | hb38 | Homeobox-transcription factor 38: | | | Yu, J et al. 2023. ZmBELL10 interacts with other ZmBELLs and recognizes specific motifs for transcriptional activation to modulate internode patterning in maize. New Phytol. :doi: 10.1111/nph.19192. | | Reference: August 16th, 2023
Variation: August 16th, 2023
|
| 8 months ago | hb84 | Homeobox-transcription factor 84: | 1.06 | GRMZM2G099319
| Yu, J et al. 2023. ZmBELL10 interacts with other ZmBELLs and recognizes specific motifs for transcriptional activation to modulate internode patterning in maize. New Phytol. :doi: 10.1111/nph.19192. | | Reference: August 16th, 2023
Variation: December 30th, 2016
Gene Model: December 30th, 2016
|
| 8 months ago | hb36 | Homeobox-transcription factor 36: | 1.10 | GRMZM2G396114
| Yu, J et al. 2023. ZmBELL10 interacts with other ZmBELLs and recognizes specific motifs for transcriptional activation to modulate internode patterning in maize. New Phytol. :doi: 10.1111/nph.19192. | | Reference: August 16th, 2023
Variation: January 3rd, 2017
Gene Model: January 3rd, 2017
|
| 8 months ago | hb30 | Homeobox-transcription factor 30: | 1.01 | GRMZM2G327059
| Yu, J et al. 2023. ZmBELL10 interacts with other ZmBELLs and recognizes specific motifs for transcriptional activation to modulate internode patterning in maize. New Phytol. :doi: 10.1111/nph.19192. | | Reference: August 16th, 2023
Variation: July 26th, 2016
Gene Model: July 26th, 2016
|
| 8 months ago | ole2 | oleosin2: | 5.02 | | Shankarappa Varalakshmi et al. 2023. Marker–Trait Association for Protein Content among Maize Wild Accessions and Coix Using SSR Markers Agronomy. 13:2138. | | Reference: August 15th, 2023
Gene Product: September 1st, 2003
Variation: September 1st, 2003
|
| 8 months ago | phi069 | : | 7.05 | GRMZM2G448739
| Shankarappa Varalakshmi et al. 2023. Marker–Trait Association for Protein Content among Maize Wild Accessions and Coix Using SSR Markers Agronomy. 13:2138. | | Reference: August 15th, 2023
Variation: September 1st, 2003
Gene Model: September 12th, 2018
|
| 8 months ago | bnlg197 | : | 3.06 | GRMZM5G851026
| Shankarappa Varalakshmi et al. 2023. Marker–Trait Association for Protein Content among Maize Wild Accessions and Coix Using SSR Markers Agronomy. 13:2138. | | Reference: August 15th, 2023
Variation: September 1st, 2003
Gene Model: March 22nd, 2018
|
| 8 months ago | bnlg1371 | : | 6.01 | | Shankarappa Varalakshmi et al. 2023. Marker–Trait Association for Protein Content among Maize Wild Accessions and Coix Using SSR Markers Agronomy. 13:2138. | | Reference: August 15th, 2023
Variation: September 1st, 2003
|
| 8 months ago | bnlg1429 | : | 1.02 | | Shankarappa Varalakshmi et al. 2023. Marker–Trait Association for Protein Content among Maize Wild Accessions and Coix Using SSR Markers Agronomy. 13:2138. | | Reference: August 15th, 2023
Variation: February 11th, 2019
|
| 8 months ago | bnlg1792 | : | 7.02 | GRMZM2G024615
| Shankarappa Varalakshmi et al. 2023. Marker–Trait Association for Protein Content among Maize Wild Accessions and Coix Using SSR Markers Agronomy. 13:2138. | | Reference: August 15th, 2023
Variation: September 1st, 2003
Gene Model: September 6th, 2018
|
| 8 months ago | dof5 | C2C2-Dof-transcription factor 5: | 8.05 | GRMZM5G880268
| Shankarappa Varalakshmi et al. 2023. Marker–Trait Association for Protein Content among Maize Wild Accessions and Coix Using SSR Markers Agronomy. 13:2138. | | Reference: August 15th, 2023
Variation: September 20th, 2018
Gene Model: September 20th, 2018
|
| 8 months ago | incw3 | invertase cell wall3: | 10.04 | | Shankarappa Varalakshmi et al. 2023. Marker–Trait Association for Protein Content among Maize Wild Accessions and Coix Using SSR Markers Agronomy. 13:2138. | | Reference: August 15th, 2023
Gene Product: June 12th, 2018
Variation: March 8th, 2022
|
| 8 months ago | umc1154 | : | 7.05 | GRMZM2G349655
| Shankarappa Varalakshmi et al. 2023. Marker–Trait Association for Protein Content among Maize Wild Accessions and Coix Using SSR Markers Agronomy. 13:2138. | | Reference: August 15th, 2023
Variation: September 1st, 2003
Gene Model: March 16th, 2021
|
| 8 months ago | umc1156 | : | 2.06 | GRMZM2G063643
| Shankarappa Varalakshmi et al. 2023. Marker–Trait Association for Protein Content among Maize Wild Accessions and Coix Using SSR Markers Agronomy. 13:2138. | | Reference: August 15th, 2023
Variation: September 1st, 2003
Gene Model: February 27th, 2021
|
| 8 months ago | umc1245 | : | 1.07 | GRMZM2G113781
| Shankarappa Varalakshmi et al. 2023. Marker–Trait Association for Protein Content among Maize Wild Accessions and Coix Using SSR Markers Agronomy. 13:2138. | | Reference: August 15th, 2023
Variation: September 1st, 2003
Gene Model: September 30th, 2016
|
| 8 months ago | umc1279 | : | 9.00 | GRMZM2G000623
| Shankarappa Varalakshmi et al. 2023. Marker–Trait Association for Protein Content among Maize Wild Accessions and Coix Using SSR Markers Agronomy. 13:2138. | | Reference: August 15th, 2023
Variation: September 1st, 2003
Gene Model: February 20th, 2020
|
| 8 months ago | umc1288 | : | 4.02 | GRMZM5G881498
| Shankarappa Varalakshmi et al. 2023. Marker–Trait Association for Protein Content among Maize Wild Accessions and Coix Using SSR Markers Agronomy. 13:2138. | | Reference: August 15th, 2023
Variation: March 18th, 2021
Gene Model: March 6th, 2021
|
| 8 months ago | umc1304 | : | 8.02 | GRMZM2G133552
| Shankarappa Varalakshmi et al. 2023. Marker–Trait Association for Protein Content among Maize Wild Accessions and Coix Using SSR Markers Agronomy. 13:2138. | | Reference: August 15th, 2023
Variation: September 1st, 2003
Gene Model: September 16th, 2018
|
| 8 months ago | umc1296 | : | 6.07 | GRMZM2G021406
| Shankarappa Varalakshmi et al. 2023. Marker–Trait Association for Protein Content among Maize Wild Accessions and Coix Using SSR Markers Agronomy. 13:2138. | | Reference: August 15th, 2023
Variation: August 29th, 2018
Gene Model: August 29th, 2018
|
| 8 months ago | umc1444 | : | 6.01 | GRMZM2G473788
| Shankarappa Varalakshmi et al. 2023. Marker–Trait Association for Protein Content among Maize Wild Accessions and Coix Using SSR Markers Agronomy. 13:2138. | | Reference: August 15th, 2023
Variation: September 1st, 2003
Gene Model: August 20th, 2018
|
| 8 months ago | umc1472 | : | 1.04 | GRMZM2G124576
| Shankarappa Varalakshmi et al. 2023. Marker–Trait Association for Protein Content among Maize Wild Accessions and Coix Using SSR Markers Agronomy. 13:2138. | | Reference: August 15th, 2023
Variation: November 9th, 2016
Gene Model: November 9th, 2016
|
| 8 months ago | umc1500 | : | 1.11 | GRMZM2G069218
| Shankarappa Varalakshmi et al. 2023. Marker–Trait Association for Protein Content among Maize Wild Accessions and Coix Using SSR Markers Agronomy. 13:2138. | | Reference: August 15th, 2023
Variation: September 1st, 2003
Gene Model: November 14th, 2016
|
| 8 months ago | umc1551 | : | 2.09 | GRMZM2G052507
| Shankarappa Varalakshmi et al. 2023. Marker–Trait Association for Protein Content among Maize Wild Accessions and Coix Using SSR Markers Agronomy. 13:2138. | | Reference: August 15th, 2023
Variation: September 1st, 2003
Gene Model: March 2nd, 2021
|
| 8 months ago | sbp3 | SBP-domain protein3: | 6.02 | GRMZM2G101499
| Shankarappa Varalakshmi et al. 2023. Marker–Trait Association for Protein Content among Maize Wild Accessions and Coix Using SSR Markers Agronomy. 13:2138. | | Reference: August 15th, 2023
Gene Product: July 5th, 2019
Variation: September 1st, 2003
Gene Model: December 18th, 2014
|
| 8 months ago | tcptf29 | TCP-transcription factor 29: | 8.09 | GRMZM2G148022
| Shankarappa Varalakshmi et al. 2023. Marker–Trait Association for Protein Content among Maize Wild Accessions and Coix Using SSR Markers Agronomy. 13:2138. | | Reference: August 15th, 2023
Gene Product: September 27th, 2019
Gene Model: September 24th, 2018
|
| 8 months ago | umc1673 | : | 8.08 | GRMZM2G139374
| Shankarappa Varalakshmi et al. 2023. Marker–Trait Association for Protein Content among Maize Wild Accessions and Coix Using SSR Markers Agronomy. 13:2138. | | Reference: August 15th, 2023
Variation: September 1st, 2003
Gene Model: September 24th, 2018
|
| 8 months ago | umc1720 | : | 4.10 | GRMZM2G165931
| Shankarappa Varalakshmi et al. 2023. Marker–Trait Association for Protein Content among Maize Wild Accessions and Coix Using SSR Markers Agronomy. 13:2138. | | Reference: August 15th, 2023
Variation: September 1st, 2003
Gene Model: March 8th, 2021
|
| 8 months ago | saur1 | small auxin up RNA1: | 6.02 | GRMZM2G466908
| Shankarappa Varalakshmi et al. 2023. Marker–Trait Association for Protein Content among Maize Wild Accessions and Coix Using SSR Markers Agronomy. 13:2138. | | Reference: August 15th, 2023
Gene Product: September 1st, 2003
Variation: September 1st, 2003
Gene Model: July 28th, 2016
|
| 8 months ago | pre2 | premature senescence2: | 4.09 | GRMZM2G125342
| Shankarappa Varalakshmi et al. 2023. Marker–Trait Association for Protein Content among Maize Wild Accessions and Coix Using SSR Markers Agronomy. 13:2138. | At1G72390 (TAIR) | Reference: August 15th, 2023
Gene Product: December 30th, 2020
Variation: December 30th, 2020
Gene Model: June 9th, 2018
|
| 8 months ago | tcptf33 | TCP-transcription factor 33: | 3.01 | AC205574.3_FG006
| Shankarappa Varalakshmi et al. 2023. Marker–Trait Association for Protein Content among Maize Wild Accessions and Coix Using SSR Markers Agronomy. 13:2138. | | Reference: August 15th, 2023
Gene Product: September 27th, 2019
Gene Model: November 22nd, 2017
|
| 8 months ago | gst13 | glutathione transferase13: | 9.07 | GRMZM2G126781
| Shankarappa Varalakshmi et al. 2023. Marker–Trait Association for Protein Content among Maize Wild Accessions and Coix Using SSR Markers Agronomy. 13:2138. | | Reference: August 15th, 2023
Gene Product: September 1st, 2003
Variation: August 6th, 2010
Gene Model: July 27th, 2016
|
| 8 months ago | umc2118 | : | 3.00 - 3.01 | GRMZM5G884242
| Shankarappa Varalakshmi et al. 2023. Marker–Trait Association for Protein Content among Maize Wild Accessions and Coix Using SSR Markers Agronomy. 13:2138. | | Reference: August 15th, 2023
Variation: April 3rd, 2018
Gene Model: April 3rd, 2018
|
| 8 months ago | idd12 | indeterminate domain12: | 3.09 | GRMZM2G177693
| Shankarappa Varalakshmi et al. 2023. Marker–Trait Association for Protein Content among Maize Wild Accessions and Coix Using SSR Markers Agronomy. 13:2138. | | Reference: August 15th, 2023
Gene Product: January 3rd, 2015
Gene Model: April 3rd, 2018
|
| 8 months ago | glr1 | glutamic acid- and lysine-rich1: | 3.00 | GRMZM2G123558
| Shankarappa Varalakshmi et al. 2023. Marker–Trait Association for Protein Content among Maize Wild Accessions and Coix Using SSR Markers Agronomy. 13:2138. | | Reference: August 15th, 2023
Gene Product: September 4th, 2019
Gene Model: April 3rd, 2018
|
| 8 months ago | umc2313 | : | 6.01 | GRMZM2G063462
| Shankarappa Varalakshmi et al. 2023. Marker–Trait Association for Protein Content among Maize Wild Accessions and Coix Using SSR Markers Agronomy. 13:2138. | | Reference: August 15th, 2023
Variation: January 15th, 2021
Gene Model: August 19th, 2018
|
| 8 months ago | umc1662 | : | 4.05 | GRMZM2G145972
| Shankarappa Varalakshmi et al. 2023. Marker–Trait Association for Protein Content among Maize Wild Accessions and Coix Using SSR Markers Agronomy. 13:2138. | | Reference: August 15th, 2023
Variation: March 18th, 2021
Gene Model: April 13th, 2020
|
| 8 months ago | Zm00001d014532 | : | | | Kun Zhang et al. 2023. Natural polymorphisms in ZmIRX15A affect water-use efficiency by modulating stomatal density in maize. Plant Biotechnol J. :doi: 10.1111/pbi.14153. | | Reference: August 13th, 2023
Variation: August 13th, 2023
|
| 9 months ago | lcd1 | L-cysteine desulfhydrase1: | | | Jiaqi Wang et al. 2023. The Essential Role of H2S-ABA Crosstalk in Maize Thermotolerance through the ROS-Scavenging System. Int J Mol Sci. 24:12264. | | Reference: August 12th, 2023
Gene Product: November 24th, 2022
|
| 9 months ago | NM_001366967 | : | | | Jiaqi Wang et al. 2023. The Essential Role of H2S-ABA Crosstalk in Maize Thermotolerance through the ROS-Scavenging System. Int J Mol Sci. 24:12264. | | Reference: August 12th, 2023
Gene Product: November 24th, 2022
|
| 9 months ago | grf2 | general regulatory factor2: | 10.04 | GRMZM2G078641
| Anna Fiorillo et al. 2023. 14-3-3 Proteins and the Plasma Membrane H+-ATPase Are Involved in Maize (Zea mays) Magnetic Induction. Plants. 12:2887. | | Reference: August 12th, 2023
Gene Product: March 6th, 2023
Variation: June 5th, 2014
Gene Model: October 8th, 2015
|
| 9 months ago | isca1 | iron sulfur cluster assembly1: | 3.04 | GRMZM2G163996
| Anna Fiorillo et al. 2023. 14-3-3 Proteins and the Plasma Membrane H+-ATPase Are Involved in Maize (Zea mays) Magnetic Induction. Plants. 12:2887. | | Reference: August 12th, 2023
Gene Product: August 12th, 2023
Gene Model: May 11th, 2021
|
| 9 months ago | ga2ox1 | gibberellin 2-oxidase1: | | GRMZM2G078798
| Anna Fiorillo et al. 2023. 14-3-3 Proteins and the Plasma Membrane H+-ATPase Are Involved in Maize (Zea mays) Magnetic Induction. Plants. 12:2887. | | Reference: August 12th, 2023
Gene Product: October 27th, 2014
Variation: November 20th, 2012
Gene Model: November 20th, 2012
|
| 9 months ago | sod1 | superoxide dismutase1: | | GRMZM5G891739
| Anna Fiorillo et al. 2023. 14-3-3 Proteins and the Plasma Membrane H+-ATPase Are Involved in Maize (Zea mays) Magnetic Induction. Plants. 12:2887. | | Reference: August 12th, 2023
Gene Product: October 4th, 2021
Gene Model: June 17th, 2021
|
| 9 months ago | grf1 | general regulatory factor1: | 2.04 | | Anna Fiorillo et al. 2023. 14-3-3 Proteins and the Plasma Membrane H+-ATPase Are Involved in Maize (Zea mays) Magnetic Induction. Plants. 12:2887. | | Reference: August 12th, 2023
Gene Product: March 6th, 2023
Variation: December 13th, 2012
|
| 9 months ago | cax1 | calcium exchanger1: | 4.08 | GRMZM5G809587
| Anna Fiorillo et al. 2023. 14-3-3 Proteins and the Plasma Membrane H+-ATPase Are Involved in Maize (Zea mays) Magnetic Induction. Plants. 12:2887. | | Reference: August 12th, 2023
Variation: September 21st, 2012
Gene Model: July 27th, 2016
|
| 9 months ago | dar1 | monodehydroascorbate reductase homolog1: | 2.06 | GRMZM2G084881
| Jiaqi Wang et al. 2023. The Essential Role of H2S-ABA Crosstalk in Maize Thermotolerance through the ROS-Scavenging System. Int J Mol Sci. 24:12264. | | Reference: August 12th, 2023
Gene Product: September 1st, 2003
Variation: November 17th, 2012
Gene Model: July 27th, 2016
|
| 9 months ago | cdpk1 | calcium dependent protein kinase1: | 6.01 | GRMZM2G115518
| Anna Fiorillo et al. 2023. 14-3-3 Proteins and the Plasma Membrane H+-ATPase Are Involved in Maize (Zea mays) Magnetic Induction. Plants. 12:2887. | | Reference: August 12th, 2023
Gene Product: December 3rd, 2013
Variation: November 16th, 2013
Gene Model: August 12th, 2013
|
| 9 months ago | brl1 | bri1-like receptor kinase1: | | GRMZM2G092604
| Anna Fiorillo et al. 2023. 14-3-3 Proteins and the Plasma Membrane H+-ATPase Are Involved in Maize (Zea mays) Magnetic Induction. Plants. 12:2887. | AT1G55610 (TAIR)
LOC_Os09g12240 (MSU/TIGR) | Reference: August 12th, 2023
Variation: July 17th, 2015
Gene Model: July 16th, 2015
|
| 9 months ago | sbp6 | SBP-transcription factor 6: | 5.00 | GRMZM2G138421
| Borba, AR et al. 2023. Compartmentation of photosynthesis gene expression in C4 maize depends on time of day. Plant Physiol. :doi: 10.1093/plphys/kiad447. | | Reference: August 9th, 2023
Gene Product: July 5th, 2019
Variation: September 1st, 2003
Gene Model: June 14th, 2018
|
| 9 months ago | arftf32 | ARF-transcription factor 32: | | | Mira, MM et al. 2020. Stem cell fate in hypoxic root apical meristems is influenced by phytoglobin expression. J Exp Bot. 71:1350-1362. | | Reference: August 9th, 2023
Gene Product: January 29th, 2022
|
| 9 months ago | hsftf19 | HSF-transcription factor 19: | | | Borba, AR et al. 2023. Compartmentation of photosynthesis gene expression in C4 maize depends on time of day. Plant Physiol. :doi: 10.1093/plphys/kiad447. | | Reference: August 9th, 2023
Gene Product: May 15th, 2020
|
| 9 months ago | myb14 | MYB-transcription factor 14: | | | Borba, AR et al. 2023. Compartmentation of photosynthesis gene expression in C4 maize depends on time of day. Plant Physiol. :doi: 10.1093/plphys/kiad447. | | Reference: August 9th, 2023
Gene Product: July 25th, 2017
|
| 9 months ago | nlp13 | NLP-transcription factor 13: | | | Borba, AR et al. 2023. Compartmentation of photosynthesis gene expression in C4 maize depends on time of day. Plant Physiol. :doi: 10.1093/plphys/kiad447. | | Reference: August 9th, 2023
Gene Product: December 3rd, 2019
|
| 9 months ago | php06005 | : | 10.03 | GRMZM2G571844
| Duan, HY et al. 2023. The genetic architecture of prolificacy in maize revealed by association mapping and bulk segregant analysis. Theor Appl Genet. 136:182. | | Reference: August 9th, 2023
Variation: September 1st, 2003
Gene Model: September 2nd, 2018
|
| 9 months ago | dof2 | DNA binding with one finger2: | 2.07 | | Borba, AR et al. 2023. Compartmentation of photosynthesis gene expression in C4 maize depends on time of day. Plant Physiol. :doi: 10.1093/plphys/kiad447. | | Reference: August 9th, 2023
Gene Product: September 1st, 2003
Variation: September 1st, 2003
|
| 9 months ago | apx4 | ascorbate peroxidase4: | | GRMZM2G316256
| Mira, MM et al. 2020. Stem cell fate in hypoxic root apical meristems is influenced by phytoglobin expression. J Exp Bot. 71:1350-1362. | | Reference: August 9th, 2023
Gene Product: October 15th, 2020
Variation: June 5th, 2017
Gene Model: June 5th, 2017
|
| 9 months ago | cct41 | CO CO-LIKE TIMING OF CAB1 protein domain41: | | GRMZM2G179024
| Borba, AR et al. 2023. Compartmentation of photosynthesis gene expression in C4 maize depends on time of day. Plant Physiol. :doi: 10.1093/plphys/kiad447. | | Reference: August 9th, 2023
Gene Product: June 18th, 2018
Gene Model: December 22nd, 2017
|
| 9 months ago | IDP3794 | : | 10.02 | GRMZM2G093950
| Duan, HY et al. 2023. The genetic architecture of prolificacy in maize revealed by association mapping and bulk segregant analysis. Theor Appl Genet. 136:182. | | Reference: August 9th, 2023
Variation: March 31st, 2005
Gene Model: July 18th, 2021
|
| 9 months ago | sbp17 | SBP-transcription factor 17: | 1.11 | GRMZM2G156756
| Borba, AR et al. 2023. Compartmentation of photosynthesis gene expression in C4 maize depends on time of day. Plant Physiol. :doi: 10.1093/plphys/kiad447. | | Reference: August 9th, 2023
Gene Product: July 5th, 2019
Gene Model: August 9th, 2021
|
| 9 months ago | impb1 | importin beta1: | | | Jin Lu et al. 2022. Identification of the Karyopherin Superfamily in Maize and Its Functional Cues in Plant Development Int J Mol Sci. 23:14103. | | Reference: August 7th, 2023
Gene Product: November 15th, 2022
|
| 9 months ago | impb3 | mportin beta3: | | | Jin Lu et al. 2022. Identification of the Karyopherin Superfamily in Maize and Its Functional Cues in Plant Development Int J Mol Sci. 23:14103. | | Reference: August 7th, 2023
Gene Product: November 15th, 2022
|
| 9 months ago | impb4 | importin beta4: | | | Jin Lu et al. 2022. Identification of the Karyopherin Superfamily in Maize and Its Functional Cues in Plant Development Int J Mol Sci. 23:14103. | | Reference: August 7th, 2023
Gene Product: November 15th, 2022
|
| 9 months ago | impb5 | importin beta5: | | | Jin Lu et al. 2022. Identification of the Karyopherin Superfamily in Maize and Its Functional Cues in Plant Development Int J Mol Sci. 23:14103. | | Reference: August 7th, 2023
Gene Product: November 15th, 2022
|
| 9 months ago | impb6 | importin beta6: | | | Jin Lu et al. 2022. Identification of the Karyopherin Superfamily in Maize and Its Functional Cues in Plant Development Int J Mol Sci. 23:14103. | | Reference: August 7th, 2023
Gene Product: November 15th, 2022
|
| 9 months ago | impb8 | importin beta8: | | | Jin Lu et al. 2022. Identification of the Karyopherin Superfamily in Maize and Its Functional Cues in Plant Development Int J Mol Sci. 23:14103. | | Reference: August 7th, 2023
Gene Product: November 15th, 2022
|
| 9 months ago | impb10 | importin beta10: | | | Jin Lu et al. 2022. Identification of the Karyopherin Superfamily in Maize and Its Functional Cues in Plant Development Int J Mol Sci. 23:14103. | | Reference: August 7th, 2023
Gene Product: November 15th, 2022
|
| 9 months ago | impb11 | importin beta11: | | | Jin Lu et al. 2022. Identification of the Karyopherin Superfamily in Maize and Its Functional Cues in Plant Development Int J Mol Sci. 23:14103. | | Reference: August 7th, 2023
Gene Product: November 15th, 2022
|
| 9 months ago | impb12 | importin beta12: | | | Jin Lu et al. 2022. Identification of the Karyopherin Superfamily in Maize and Its Functional Cues in Plant Development Int J Mol Sci. 23:14103. | | Reference: August 7th, 2023
Gene Product: November 15th, 2022
|
| 9 months ago | impb13 | importin beta13: | | | Jin Lu et al. 2022. Identification of the Karyopherin Superfamily in Maize and Its Functional Cues in Plant Development Int J Mol Sci. 23:14103. | | Reference: August 7th, 2023
Gene Product: November 15th, 2022
|
| 9 months ago | impb16 | importin beta16: | | | Jin Lu et al. 2022. Identification of the Karyopherin Superfamily in Maize and Its Functional Cues in Plant Development Int J Mol Sci. 23:14103. | | Reference: August 7th, 2023
Gene Product: November 15th, 2022
|
| 9 months ago | impb17 | importin beta17: | | | Jin Lu et al. 2022. Identification of the Karyopherin Superfamily in Maize and Its Functional Cues in Plant Development Int J Mol Sci. 23:14103. | | Reference: August 7th, 2023
Gene Product: November 15th, 2022
|
| 9 months ago | impb18 | importin beta18: | | | Sauer, M et al. 2023. Identification of the Teopod1, Teopod2, and Early Phase Change genes in maize G3. :doi: 10.1093/g3journal/jkad179. | | Reference: August 7th, 2023
Gene Product: November 15th, 2022
|
| 9 months ago | impb19 | importin beta19: | | | Sauer, M et al. 2023. Identification of the Teopod1, Teopod2, and Early Phase Change genes in maize G3. :doi: 10.1093/g3journal/jkad179. | | Reference: August 7th, 2023
Gene Product: November 15th, 2022
|
| 9 months ago | impb22 | importin beta22: | | | Sauer, M et al. 2023. Identification of the Teopod1, Teopod2, and Early Phase Change genes in maize G3. :doi: 10.1093/g3journal/jkad179. | | Reference: August 7th, 2023
Gene Product: November 15th, 2022
|
| 9 months ago | impb23 | importin beta23: | | | Sauer, M et al. 2023. Identification of the Teopod1, Teopod2, and Early Phase Change genes in maize G3. :doi: 10.1093/g3journal/jkad179. | | Reference: August 7th, 2023
Gene Product: November 15th, 2022
|
| 9 months ago | impb26 | importin beta26: | | | Jin Lu et al. 2022. Identification of the Karyopherin Superfamily in Maize and Its Functional Cues in Plant Development Int J Mol Sci. 23:14103. | | Reference: August 7th, 2023
Gene Product: November 15th, 2022
|
| 9 months ago | impb27 | importin beta27: | | | Jin Lu et al. 2022. Identification of the Karyopherin Superfamily in Maize and Its Functional Cues in Plant Development Int J Mol Sci. 23:14103. | | Reference: August 7th, 2023
Gene Product: November 15th, 2022
|
| 9 months ago | pza01619 | : | 10.04 | GRMZM2G176998
| Yu, T et al. 2023. Hub Gene Mining and Co-Expression Network Construction of Low-Temperature Response in Maize of Seedling by WGCNA Genes. 14:1598. | | Reference: August 7th, 2023
Variation: September 25th, 2007
Gene Model: September 12th, 2021
|
| 9 months ago | epc1 | early phase change1: | 8.03 | | Sauer, M et al. 2023. Identification of the Teopod1, Teopod2, and Early Phase Change genes in maize G3. :doi: 10.1093/g3journal/jkad179. | At3g05040 (TAIR) | Reference: August 7th, 2023
Gene Product: November 15th, 2022
Variation: September 24th, 2022
|
| 9 months ago | impb20 | importin beta20: | 1.08 | GRMZM2G406043
| Jin Lu et al. 2022. Identification of the Karyopherin Superfamily in Maize and Its Functional Cues in Plant Development Int J Mol Sci. 23:14103. | | Reference: August 7th, 2023
Gene Product: November 15th, 2022
Gene Model: April 18th, 2021
|
| 9 months ago | irl1 | isoflavone reductase-like1: | 3.04 | AC226235.2_FG001
| Yu, T et al. 2023. Hub Gene Mining and Co-Expression Network Construction of Low-Temperature Response in Maize of Seedling by WGCNA Genes. 14:1598. | | Reference: August 7th, 2023
Gene Product: September 1st, 2003
Variation: July 14th, 2008
Gene Model: March 3rd, 2015
|
| 9 months ago | impb24 | importin beta24: | 5.03 | GRMZM5G854036
| Sauer, M et al. 2023. Identification of the Teopod1, Teopod2, and Early Phase Change genes in maize G3. :doi: 10.1093/g3journal/jkad179. | | Reference: August 7th, 2023
Gene Product: November 15th, 2022
Gene Model: June 22nd, 2018
|
| 9 months ago | sbp21 | SBP-transcription factor 21: | | | Sauer, M et al. 2023. Identification of the Teopod1, Teopod2, and Early Phase Change genes in maize G3. :doi: 10.1093/g3journal/jkad179. | AT1G27370 (TAIR) | Reference: August 7th, 2023
Gene Product: July 5th, 2019
|
| 9 months ago | impb25 | importin beta25: | 1.08 | GRMZM2G010362
| Sauer, M et al. 2023. Identification of the Teopod1, Teopod2, and Early Phase Change genes in maize G3. :doi: 10.1093/g3journal/jkad179. | | Reference: August 7th, 2023
Gene Product: November 15th, 2022
Gene Model: September 13th, 2017
|
| 9 months ago | impb7 | importin beta7: | 7.04 | GRMZM5G887631
| Jin Lu et al. 2022. Identification of the Karyopherin Superfamily in Maize and Its Functional Cues in Plant Development Int J Mol Sci. 23:14103. | | Reference: August 7th, 2023
Gene Product: November 15th, 2022
Gene Model: January 7th, 2022
|
| 9 months ago | wsd1 | wax ester synthase/diacylglycerol acyltransferase1: | 3.08 | GRMZM2G077375
| Castorina, G et al. 2023. Roles of the MYB94/FUSED LEAVES1 (ZmFDL1) and GLOSSY2 (ZmGL2) genes in cuticle biosynthesis and potential impacts on Fusarium verticillioides growth on maize silks Frontiers in Plant Science. 14:1228394. | | Reference: August 7th, 2023
Gene Product: July 23rd, 2018
Variation: September 1st, 2003
Gene Model: January 3rd, 2022
|
| 9 months ago | gst8 | glutathione transferase8: | | GRMZM2G156877
| Yu, T et al. 2023. Hub Gene Mining and Co-Expression Network Construction of Low-Temperature Response in Maize of Seedling by WGCNA Genes. 14:1598. | | Reference: August 7th, 2023
Gene Product: September 1st, 2003
Gene Model: July 27th, 2016
|
| 9 months ago | gst25 | glutathione transferase25: | 9.08 | GRMZM2G161905
| Yu, T et al. 2023. Hub Gene Mining and Co-Expression Network Construction of Low-Temperature Response in Maize of Seedling by WGCNA Genes. 14:1598. | | Reference: August 7th, 2023
Gene Product: September 1st, 2003
Gene Model: July 27th, 2016
|
| 9 months ago | impb2 | importin beta2: | 3.04 | | Jin Lu et al. 2022. Identification of the Karyopherin Superfamily in Maize and Its Functional Cues in Plant Development Int J Mol Sci. 23:14103. | | Reference: August 7th, 2023
Gene Product: November 15th, 2022
|
| 9 months ago | cer1 | eceriferum1: | | GRMZM2G075255
| Castorina, G et al. 2023. Roles of the MYB94/FUSED LEAVES1 (ZmFDL1) and GLOSSY2 (ZmGL2) genes in cuticle biosynthesis and potential impacts on Fusarium verticillioides growth on maize silks Frontiers in Plant Science. 14:1228394. | | Reference: August 7th, 2023
Gene Product: February 13th, 2020
Variation: June 24th, 2021
Gene Model: February 13th, 2020
|
| 9 months ago | imp5 | importin5: | | GRMZM2G169878
| Jin Lu et al. 2022. Identification of the Karyopherin Superfamily in Maize and Its Functional Cues in Plant Development Int J Mol Sci. 23:14103. | | Reference: August 7th, 2023
Gene Product: November 15th, 2022
Gene Model: December 16th, 2020
|
| 9 months ago | chn27 | chitinase27: | | GRMZM2G133781
| Castorina, G et al. 2023. Roles of the MYB94/FUSED LEAVES1 (ZmFDL1) and GLOSSY2 (ZmGL2) genes in cuticle biosynthesis and potential impacts on Fusarium verticillioides growth on maize silks Frontiers in Plant Science. 14:1228394. | | Reference: August 7th, 2023
Gene Product: May 31st, 2021
Gene Model: May 31st, 2021
|
| 9 months ago | ena2 | efflux transporter of NA2: | | GRMZM2G432480
| Yu, T et al. 2023. Hub Gene Mining and Co-Expression Network Construction of Low-Temperature Response in Maize of Seedling by WGCNA Genes. 14:1598. | | Reference: August 7th, 2023
Gene Product: January 18th, 2022
Gene Model: January 18th, 2022
|
| 9 months ago | jih2 | jasmonoyl-l-isoleucine hydrolase2: | | GRMZM5G833406
| Yu, T et al. 2023. Hub Gene Mining and Co-Expression Network Construction of Low-Temperature Response in Maize of Seedling by WGCNA Genes. 14:1598. | | Reference: August 7th, 2023
Gene Product: June 10th, 2022
Gene Model: June 10th, 2022
|
| 9 months ago | IDP79 | : | 2.07 | GRMZM2G080466
| Yu, T et al. 2023. Hub Gene Mining and Co-Expression Network Construction of Low-Temperature Response in Maize of Seedling by WGCNA Genes. 14:1598. | | Reference: August 7th, 2023
Variation: March 31st, 2005
Gene Model: February 20th, 2019
|
| 9 months ago | plt21 | phospholipid transfer protein21: | 2.05 | GRMZM2G099867
| Yu, T et al. 2023. Hub Gene Mining and Co-Expression Network Construction of Low-Temperature Response in Maize of Seedling by WGCNA Genes. 14:1598. | | Reference: August 7th, 2023
Gene Product: September 1st, 2003
Gene Model: March 17th, 2020
|
| 9 months ago | pcs1 | pyrroline-5-carboxylate synthase1: | | AC203754.4_FG008
| Sakil Mahmud et al. 2023. Acetic acid positively modulates proline metabolism for mitigating PEG-mediated drought stress in Maize and Arabidopsis. Frontiers in Plant Science. 14:1167238. | | Reference: August 5th, 2023
Gene Product: March 19th, 2015
Gene Model: March 2nd, 2021
|
| 9 months ago | emb15 | embryo specific15: | | GRMZM2G165694
| Li, QG et al. 2023. White and green striate leaves 1, predicted to encode a 16S rRNA processing protein, plays a critical role in the processing of chloroplast ribosomes in maize (Zea mays L.) Mol Breed. 43:65. | | Reference: August 4th, 2023
Variation: August 4th, 2023
Gene Model: January 16th, 2021
|
| 9 months ago | dhs1 | deoxyhypusine synthase1: | | | Niknik Nurhayati et al. 2009. Evolution of pyrrolizidine alkaloids in Phalaenopsis orchids and other monocotyledons: identification of deoxyhypusine synthase, homospermidine synthase and related pseudogenes Phytochemistry. 70:508-16. | | Reference: August 3rd, 2023
Gene Product: August 3rd, 2023
|
| 9 months ago | acp1 | acid phosphatase1: | 9.03 | AC211394.4_FG004
| Wei Yang Zhang et al. 2014. Transcriptional analyses of natural leaf senescence in maize. PLoS One. 9:e115617. | | Reference: August 3rd, 2023
Gene Product: September 1st, 2003
Variation: September 1st, 2003
Gene Model: July 27th, 2016
|
| 9 months ago | bf1 | blue fluorescent1: | 9.07 - 9.07 | GRMZM2G051219
| Wei Yang Zhang et al. 2014. Transcriptional analyses of natural leaf senescence in maize. PLoS One. 9:e115617. | | Reference: August 3rd, 2023
Gene Product: October 23rd, 2013
Variation: October 22nd, 2013
Gene Model: October 21st, 2013
|
| 9 months ago | umc1464 | : | 2.08 | GRMZM2G365160
| Wei Yang Zhang et al. 2014. Transcriptional analyses of natural leaf senescence in maize. PLoS One. 9:e115617. | | Reference: August 3rd, 2023
Variation: September 1st, 2003
Gene Model: March 2nd, 2021
|
| 9 months ago | see2a | senescence enhanced2a: | | GRMZM2G081626
| Wei Yang Zhang et al. 2014. Transcriptional analyses of natural leaf senescence in maize. PLoS One. 9:e115617. | | Reference: August 3rd, 2023
Variation: August 1st, 2011
Gene Model: November 20th, 2014
|
| 9 months ago | AY110170 | : | 4.09 | GRMZM2G155253
| Wei Yang Zhang et al. 2014. Transcriptional analyses of natural leaf senescence in maize. PLoS One. 9:e115617. | | Reference: August 3rd, 2023
Variation: July 29th, 2004
Gene Model: April 13th, 2018
|
| 9 months ago | AY109934 | : | 3.08 | GRMZM2G004183
| Wei Yang Zhang et al. 2014. Transcriptional analyses of natural leaf senescence in maize. PLoS One. 9:e115617. | | Reference: August 3rd, 2023
Variation: July 29th, 2004
Gene Model: March 20th, 2018
|
| 9 months ago | ans2 | anthranilate synthase component II homolog2: | | GRMZM2G171383
| Wei Yang Zhang et al. 2014. Transcriptional analyses of natural leaf senescence in maize. PLoS One. 9:e115617. | | Reference: August 3rd, 2023
Gene Product: June 15th, 2021
Variation: October 23rd, 2018
Gene Model: October 22nd, 2013
|
| 9 months ago | pld11 | phospholipase D11: | | GRMZM2G140811
| Wei Yang Zhang et al. 2014. Transcriptional analyses of natural leaf senescence in maize. PLoS One. 9:e115617. | | Reference: August 3rd, 2023
Gene Product: August 9th, 2016
Gene Model: August 9th, 2016
|
| 9 months ago | brc1 | brassinosteroid catabolism1: | | GRMZM2G107322
| Elizabeth A Dun et al. 2023. Strigolactones and shoot branching: what is the real hormone and how does it work? Plant Cell Physiol. :doi: 10.1093/pcp/pcad088. | AT2G26710 (TAIR)
LOC_Os02g11020 (MSU/TIGR) | Reference: August 3rd, 2023
Gene Product: July 6th, 2017
Gene Model: July 6th, 2017
|
| 9 months ago | hma5 | heavy metal ATPase5: | | GRMZM2G144083
| Wei Yang Zhang et al. 2014. Transcriptional analyses of natural leaf senescence in maize. PLoS One. 9:e115617. | | Reference: August 3rd, 2023
Gene Product: October 23rd, 2019
Gene Model: October 23rd, 2019
|
| 9 months ago | fbp2 | fructose bisphosphatase2: | | GRMZM2G306732
| Wei Yang Zhang et al. 2014. Transcriptional analyses of natural leaf senescence in maize. PLoS One. 9:e115617. | | Reference: August 3rd, 2023
Gene Product: June 9th, 2021
Gene Model: June 9th, 2021
|
| 9 months ago | mctp2 | multiple C2 domain and transmembrane region protein2: | | GRMZM2G123122
| Wei Yang Zhang et al. 2014. Transcriptional analyses of natural leaf senescence in maize. PLoS One. 9:e115617. | | Reference: August 3rd, 2023
Gene Product: August 3rd, 2022
Gene Model: August 3rd, 2022
|
| 9 months ago | iaa19 | Aux/IAA-transcription factor 19: | 5.01 | GRMZM2G152796
| Wang, Yijun et al. 2010. Mol Biol Rep 37:3991-4001 | | Reference: August 2nd, 2023
Variation: September 25th, 2007
Gene Model: August 26th, 2021
|
| 9 months ago | iaa11 | Aux/IAA-transcription factor 11: | 3.04 | GRMZM2G167794
| Wang, Yijun et al. 2010. Mol Biol Rep 37:3991-4001 | | Reference: August 2nd, 2023
Variation: September 1st, 2003
Gene Model: April 2nd, 2018
|
| 9 months ago | bk4 | brittle stalk4: | 7.03 | | Neelakandan, AK et al. 2023. Characterization of integration sites and T-DNA structures in Agrobacterium-mediated transgenic events of maize inbred B104. G3. :doi: 10.1093/g3journal/jkad166. | | Reference: July 31st, 2023
Gene Product: May 31st, 2021
Variation: September 7th, 2019
|
| 9 months ago | hct1 | hydroxycinnamoyltransferase1: | | GRMZM2G061806
| Neelakandan, AK et al. 2023. Characterization of integration sites and T-DNA structures in Agrobacterium-mediated transgenic events of maize inbred B104. G3. :doi: 10.1093/g3journal/jkad166. | | Reference: July 31st, 2023
Gene Product: November 7th, 2015
Gene Model: November 7th, 2015
|
| 9 months ago | hct2 | hydroxycinnamoyltransferase2: | | GRMZM2G114918
| Neelakandan, AK et al. 2023. Characterization of integration sites and T-DNA structures in Agrobacterium-mediated transgenic events of maize inbred B104. G3. :doi: 10.1093/g3journal/jkad166. | | Reference: July 31st, 2023
Gene Product: November 7th, 2015
Gene Model: November 7th, 2015
|
| 9 months ago | lht1 | Lysine histidine transporter 1: | | GRMZM2G127328
| Neelakandan, AK et al. 2023. Characterization of integration sites and T-DNA structures in Agrobacterium-mediated transgenic events of maize inbred B104. G3. :doi: 10.1093/g3journal/jkad166. | | Reference: July 31st, 2023
Gene Product: March 31st, 2021
Variation: February 11th, 2023
Gene Model: December 14th, 2019
|
| 9 months ago | aaap40 | amino acid/auxin permease40: | | GRMZM2G127342
| Neelakandan, AK et al. 2023. Characterization of integration sites and T-DNA structures in Agrobacterium-mediated transgenic events of maize inbred B104. G3. :doi: 10.1093/g3journal/jkad166. | | Reference: July 31st, 2023
Gene Product: March 31st, 2021
Gene Model: March 31st, 2021
|
| 9 months ago | dcl105 | dicer-like 105: | | GRMZM2G301405
| Berube, B et al. 2023. Teosinte Pollen Drive guides maize domestication and evolution by RNAi. bioRxiv preprint. :doi: 10.1101/2023.07.12.548689. | AT3G03300 (TAIR) | Reference: July 28th, 2023
Gene Product: September 5th, 2006
Variation: July 28th, 2023
Gene Model: January 29th, 2015
|
| 9 months ago | cncr2 | cinnamoyl CoA reductase2: | 7.02 | GRMZM2G131836
| Wang, J et al. 2023. Transcriptome Analysis Revealed the Potential Molecular Mechanism of Anthocyanidins’ Improved Salt Tolerance in Maize Seedlings Plants. 12:2793. | | Reference: July 27th, 2023
Gene Product: September 1st, 2003
Variation: October 11th, 2009
Gene Model: June 23rd, 2016
|
| 9 months ago | hmga102 | high mobility group family A 102: | 1.07 | GRMZM2G106133
| Wang, J et al. 2023. Transcriptome Analysis Revealed the Potential Molecular Mechanism of Anthocyanidins’ Improved Salt Tolerance in Maize Seedlings Plants. 12:2793. | | Reference: July 27th, 2023
Gene Product: September 1st, 2003
Variation: December 9th, 2007
Gene Model: June 24th, 2014
|
| 9 months ago | cyp5 | cytochrome P450 5: | | GRMZM2G085812
| Wang, J et al. 2023. Transcriptome Analysis Revealed the Potential Molecular Mechanism of Anthocyanidins’ Improved Salt Tolerance in Maize Seedlings Plants. 12:2793. | | Reference: July 27th, 2023
Gene Product: June 20th, 2018
Gene Model: January 10th, 2019
|
| 9 months ago | els5 | early leaf senescence5: | | | Gao, Y et al. 2023. Mapping the gene of a maize leaf senescence mutant and understanding the senescence pathways by expression analysis Plant Cell Rep. :doi: 10.1007/s00299-023-03051-4. | | Reference: July 27th, 2023
Variation: November 22nd, 2019
|
| 9 months ago | mrpa19 | multidrug resistance protein associated19: | | | Craig L Cowling et al. 2023. Roles of auxin pathways in maize biology. J Exp Bot. | | Reference: July 26th, 2023
Gene Product: July 11th, 2019
|
| 9 months ago | ppr206 | pentatricopeptide repeat protein206: | | | Shichao Sun et al. 2023. Unraveling prevalence and effects of deleterious mutations in maize elite lines across decades of modern breeding Mol Biol Evol. :doi: 10.1093/molbev/msad170. | | Reference: July 26th, 2023
Gene Product: December 27th, 2016
|
| 9 months ago | arftf33 | ARF-transcription factor 33: | | | Craig L Cowling et al. 2023. Roles of auxin pathways in maize biology. J Exp Bot. | | Reference: July 26th, 2023
Gene Product: January 29th, 2022
|
| 9 months ago | afb2 | auxin signaling F-box2: | 2.04 | GRMZM5G848945
| Craig L Cowling et al. 2023. Roles of auxin pathways in maize biology. J Exp Bot. | | Reference: July 26th, 2023
Gene Product: April 27th, 2022
Gene Model: August 27th, 2021
|
| 9 months ago | tir2 | transport inhibitor response2: | | GRMZM2G155849
| Craig L Cowling et al. 2023. Roles of auxin pathways in maize biology. J Exp Bot. | | Reference: July 26th, 2023
Gene Product: April 27th, 2022
Gene Model: May 29th, 2019
|
| 9 months ago | afb1 | auxin signaling F-box1: | | GRMZM2G137451
| Craig L Cowling et al. 2023. Roles of auxin pathways in maize biology. J Exp Bot. | | Reference: July 26th, 2023
Gene Product: April 27th, 2022
Gene Model: April 27th, 2022
|
| 9 months ago | dek66 | defective kernel66: | | | Wei, YM et al. 2023. Defective kernel 66 encodes a GTPase essential for kernel development in maize J Exp Bot. :doi: 10.1093/jxb/erad289. | | Reference: July 25th, 2023
Variation: July 25th, 2023
|
| 9 months ago | fad2 | fatty acid desaturase2: | | GRMZM2G056252
| Gao, L et al. 2023. Genetic and lipidomic analyses reveal the key role of lipid metabolism for cold tolerance in maize J Genet Genomics. :doi: 10.1016/j.jgg.2023.07.004. | | Reference: July 24th, 2023
Gene Product: November 27th, 2020
Gene Model: January 6th, 2022
|
| 9 months ago | sacd2 | stearoyl-acyl-carrier-protein desaturase2: | 8.06 | GRMZM2G180399
| Gao, L et al. 2023. Genetic and lipidomic analyses reveal the key role of lipid metabolism for cold tolerance in maize J Genet Genomics. :doi: 10.1016/j.jgg.2023.07.004. | | Reference: July 24th, 2023
Gene Product: October 10th, 2016
Variation: June 15th, 2016
Gene Model: June 15th, 2016
|
| 9 months ago | IDP49 | : | 3.05 | GRMZM2G136262
| Gao, L et al. 2023. Genetic and lipidomic analyses reveal the key role of lipid metabolism for cold tolerance in maize J Genet Genomics. :doi: 10.1016/j.jgg.2023.07.004. | | Reference: July 24th, 2023
Variation: March 31st, 2005
Gene Model: February 24th, 2019
|
| 9 months ago | arr6 | ARR-B-transcription factor 6: | | | Dong, ZY et al. 2023. The Genetic Structures and Molecular Mechanisms Underlying Ear Traits in Maize (Zea mays L.) Cells. 12:1900. | | Reference: July 21st, 2023
Gene Product: June 30th, 2017
|
| 9 months ago | fas1 | fascicled ear1: | 9.06 - 9.07 | | Dong, ZY et al. 2023. The Genetic Structures and Molecular Mechanisms Underlying Ear Traits in Maize (Zea mays L.) Cells. 12:1900. | | Reference: July 21st, 2023
Variation: February 13th, 2021
|
| 9 months ago | slp1 | saposin like protein1: | 3.04 | GRMZM5G877259
| Han, ZP et al. 2023. Multi-Omics Revealed the Molecular Mechanism of Maize (Zea mays L.) Seed Germination Regulated by GA3 Agronomy. 13:1929. | | Reference: July 21st, 2023
Gene Product: July 21st, 2023
Gene Model: March 28th, 2020
|
| 9 months ago | fea1 | fasciated ear1: | | | Dong, ZY et al. 2023. The Genetic Structures and Molecular Mechanisms Underlying Ear Traits in Maize (Zea mays L.) Cells. 12:1900. | | Reference: July 21st, 2023
Variation: October 17th, 2010
|
| 9 months ago | tir1 | transport inhibitor response1: | | GRMZM2G135978
| Dong, ZY et al. 2023. The Genetic Structures and Molecular Mechanisms Underlying Ear Traits in Maize (Zea mays L.) Cells. 12:1900. | LOC_Os05g05800 (MSU/TIGR)
Os05g0150500 (Gramene) | Reference: July 21st, 2023
Gene Product: April 27th, 2022
Gene Model: December 28th, 2018
|
| 9 months ago | zb9 | zebra crossbands9: | | GRMZM2G038598
| Zhou, YS et al. 2023. A maize epimerase modulates cell wall synthesis and glycosylation during stomatal morphogenesis Nature communications. 14:4384. | | Reference: July 21st, 2023
Gene Product: January 23rd, 2021
Variation: July 20th, 2023
Gene Model: January 23rd, 2021
|
| 9 months ago | ead1 | ear apical degeneration1 : | | GRMZM2G329229
| Dong, ZY et al. 2023. The Genetic Structures and Molecular Mechanisms Underlying Ear Traits in Maize (Zea mays L.) Cells. 12:1900. | | Reference: July 21st, 2023
Variation: March 16th, 2022
Gene Model: March 16th, 2022
|
| 9 months ago | bz2 | bronze2: | 1.08 | | Nan Lu et al. 2023. An unconventional proanthocyanidin pathway in maize Nature communications. 14:4349. | | Reference: July 20th, 2023
Gene Product: September 1st, 2003
Variation: March 31st, 2008
|
| 9 months ago | zim20 | ZIM-transcription factor 20: | | | Yuchao Hu et al. 2023. Identification, Characterization, and Expression Profiling of Maize GATA Gene Family in Response to Abiotic and Biotic Stresses Agronomy. 13:1921. | | Reference: July 20th, 2023
Gene Product: February 24th, 2021
Variation: March 18th, 2021
|
| 9 months ago | zim47 | ZIM-transcription factor 47: | | | Yuchao Hu et al. 2023. Identification, Characterization, and Expression Profiling of Maize GATA Gene Family in Response to Abiotic and Biotic Stresses Agronomy. 13:1921. | | Reference: July 20th, 2023
Gene Product: February 24th, 2021
|
| 9 months ago | andr2 | anthocyanidin reductase2: | | GRMZM2G097841
| Nan Lu et al. 2023. An unconventional proanthocyanidin pathway in maize Nature communications. 14:4349. | AT1G61720 (TAIR) | Reference: July 20th, 2023
Gene Product: August 14th, 2022
Gene Model: August 13th, 2022
|
| 9 months ago | gata11 | C2C2-GATA-transcription factor 11: | 2.03 | | Yuchao Hu et al. 2023. Identification, Characterization, and Expression Profiling of Maize GATA Gene Family in Response to Abiotic and Biotic Stresses Agronomy. 13:1921. | | Reference: July 20th, 2023
Variation: September 25th, 2007
|
| 9 months ago | bzip91 | bZIP-transcription factor 91: | 2.08 | GRMZM2G060109
| Li, ZX; Tang, J; Srivastava, R; Bassham, DC; Howell, SH. 2020. Plant Cell. 0:doi: 10.1105/tpc.20.00260. | | Reference: July 19th, 2023
Variation: September 25th, 2007
Gene Model: August 16th, 2021
|
| 9 months ago | hstf2 | heat shock transcription factor2: | 8.09 | GRMZM2G118453
| Yang, ZR et al. 2023. Genetic and Molecular Exploration of Maize Environmental Stress Resilience: Towards Sustainable Agriculture Molecular Plant. :doi: 10.1016/j.molp.2023.07.005. | | Reference: July 19th, 2023
Gene Product: May 15th, 2020
Variation: December 23rd, 2012
Gene Model: July 28th, 2016
|
| 9 months ago | cipk24 | calcineurin B-like-interacting protein kinase24: | 6.03 | GRMZM2G137569
| Yang, ZR et al. 2023. Genetic and Molecular Exploration of Maize Environmental Stress Resilience: Towards Sustainable Agriculture Molecular Plant. :doi: 10.1016/j.molp.2023.07.005. | | Reference: July 19th, 2023
Gene Product: August 25th, 2018
Gene Model: August 24th, 2018
|
| 9 months ago | sal1 | supernumerary aleurone1: | 9.03 | | Li, ZX; Tang, J; Srivastava, R; Bassham, DC; Howell, SH. 2020. Plant Cell. 0:doi: 10.1105/tpc.20.00260. | | Reference: July 19th, 2023
Variation: April 3rd, 2007
|
| 9 months ago | pmpm5 | proteolipid membrane potential regulator5: | 7.04 - 7.05 | GRMZM2G477325
| Yang, ZR et al. 2023. Genetic and Molecular Exploration of Maize Environmental Stress Resilience: Towards Sustainable Agriculture Molecular Plant. :doi: 10.1016/j.molp.2023.07.005. | | Reference: July 19th, 2023
Variation: May 3rd, 2021
Gene Model: April 19th, 2013
|
| 9 months ago | cbl11 | calcineurin B-like11: | | GRMZM2G007555
| Yang, ZR et al. 2023. Genetic and Molecular Exploration of Maize Environmental Stress Resilience: Towards Sustainable Agriculture Molecular Plant. :doi: 10.1016/j.molp.2023.07.005. | | Reference: July 19th, 2023
Gene Product: October 19th, 2016
Gene Model: October 19th, 2016
|
| 9 months ago | nhx8 | Na+/H+ antiporter 8: | | GRMZM2G067747
| Yang, ZR et al. 2023. Genetic and Molecular Exploration of Maize Environmental Stress Resilience: Towards Sustainable Agriculture Molecular Plant. :doi: 10.1016/j.molp.2023.07.005. | AT1G79610 (TAIR) | Reference: July 19th, 2023
Gene Product: April 26th, 2021
Gene Model: August 25th, 2018
|
| 9 months ago | osca1 | hyperosmolality-gated calcium-permeable channels1: | | GRMZM2G064189
| Yang, ZR et al. 2023. Genetic and Molecular Exploration of Maize Environmental Stress Resilience: Towards Sustainable Agriculture Molecular Plant. :doi: 10.1016/j.molp.2023.07.005. | | Reference: July 19th, 2023
Gene Product: January 6th, 2020
Gene Model: January 6th, 2020
|
| 9 months ago | gsk5 | glycogen synthase kinase5: | | GRMZM2G024151
| Li, JF et al. 2023. Inhibition of the maize salt overly sensitive pathway by ZmSK3 and ZmSK4 Journal of Genetics and Genomics. :doi: 10.1016/j.jgg.2023.04.010. | | Reference: July 19th, 2023
Gene Product: February 22nd, 2022
Gene Model: February 22nd, 2022
|
| 9 months ago | gsk10 | glycogen synthase kinase10: | | GRMZM2G075992
| Li, JF et al. 2023. Inhibition of the maize salt overly sensitive pathway by ZmSK3 and ZmSK4 Journal of Genetics and Genomics. :doi: 10.1016/j.jgg.2023.04.010. | | Reference: July 19th, 2023
Gene Product: February 22nd, 2022
Gene Model: February 22nd, 2022
|
| 9 months ago | gsk11 | glycogen synthase kinase11: | 5.00 | GRMZM2G138676
| Li, JF et al. 2023. Inhibition of the maize salt overly sensitive pathway by ZmSK3 and ZmSK4 Journal of Genetics and Genomics. :doi: 10.1016/j.jgg.2023.04.010. | | Reference: July 19th, 2023
Gene Product: February 22nd, 2022
Gene Model: May 2nd, 2020
|
| 9 months ago | fad5 | fatty acid desaturase5: | | GRMZM2G097509
| Baisakh, N et al. 2023. Comprehensive meta-analysis of QTL and gene expression studies identify candidate genes associated with Aspergillus flavus resistance in maize Frontiers in Plant Science. 14:1214907. | | Reference: July 18th, 2023
Gene Product: September 1st, 2003
Gene Model: January 6th, 2022
|
| 9 months ago | AQK70872 | : | | | Li, GL et al. 2023. Cloning and expression study of a high-affinity nitrate transporter gene from Zea mays L Plant Signaling and Behavior. 18:2163342. | | Reference: July 17th, 2023
Gene Product: September 1st, 2003
|
| 9 months ago | zim13 | ZIM-transcription factor 13: | | | Xing, LJ et al. 2023. ZmmiR169q/ZmNF-YA8 is a module that homeostatically regulates primary root growth and salt tolerance in maize Frontiers in Plant Science. 14:1163228. | | Reference: July 17th, 2023
Gene Product: February 24th, 2021
|
| 9 months ago | aprt1 | adenine phosphoribosyltransferase1: | 2.04 | GRMZM2G170101
| Yasuhiro Tanaka et al. 2023. Structure-activity relationship of volatile compounds that induce defense-related genes in maize seedlings. Plant Signal Behav. :2234115. | | Reference: July 17th, 2023
Gene Product: April 17th, 2008
Variation: September 8th, 2008
Gene Model: July 27th, 2016
|
| 9 months ago | fh1 | frataxin1: | 1.06 | | Celeste Buchensky et al. 2017. Identification of two frataxin isoforms in Zea mays: Structural and functional studies. Biochimie. 140:34-47. | | Reference: July 15th, 2023
Gene Product: July 15th, 2023
|
| 9 months ago | fh2 | frataxin2: | 3.06 | | Celeste Buchensky et al. 2017. Identification of two frataxin isoforms in Zea mays: Structural and functional studies. Biochimie. 140:34-47. | | Reference: July 15th, 2023
Gene Product: July 15th, 2023
|
| 9 months ago | aldr9 | aldose reductase9: | | | Li, J et al. 2023. Exogenous Sorbitol Application Confers Drought Tolerance to Maize Seedlings through Up-Regulating Antioxidant System and Endogenous Sorbitol Biosynthesis. Plants. 12:2456. | | Reference: July 14th, 2023
Gene Product: September 28th, 2020
|
| 9 months ago | dmas1 | deoxymugineic acid synthase 1: | | GRMZM2G060952
| Li, J et al. 2023. Exogenous Sorbitol Application Confers Drought Tolerance to Maize Seedlings through Up-Regulating Antioxidant System and Endogenous Sorbitol Biosynthesis. Plants. 12:2456. | | Reference: July 14th, 2023
Gene Product: April 27th, 2021
Gene Model: April 27th, 2021
|
| 9 months ago | cals3 | callose synthase3: | | GRMZM2G059212
| Xue Zhang et al. 2023. Evaluation of Resistance Resources and Analysis of Resistance Mechanism of Maize to Stalk Rot Caused by Fusarium graminearum. Plant Dis. :doi: 10.1094/PDIS-04-23-0825-RE. | | Reference: July 14th, 2023
Gene Product: July 5th, 2021
Gene Model: July 5th, 2021
|
| 9 months ago | aldr3 | aldose reductase3: | | GRMZM2G169943
| Li, J et al. 2023. Exogenous Sorbitol Application Confers Drought Tolerance to Maize Seedlings through Up-Regulating Antioxidant System and Endogenous Sorbitol Biosynthesis. Plants. 12:2456. | | Reference: July 14th, 2023
Gene Product: September 28th, 2020
Gene Model: July 25th, 2021
|
| 9 months ago | dmas3 | deoxymugineic acid synthase3: | | GRMZM2G087507
| Li, J et al. 2023. Exogenous Sorbitol Application Confers Drought Tolerance to Maize Seedlings through Up-Regulating Antioxidant System and Endogenous Sorbitol Biosynthesis. Plants. 12:2456. | | Reference: July 14th, 2023
Gene Product: April 27th, 2021
Gene Model: July 26th, 2021
|
| 9 months ago | aldr8 | aldose reductase8: | 10.05 | AF466202.2_FG007
| Li, J et al. 2023. Exogenous Sorbitol Application Confers Drought Tolerance to Maize Seedlings through Up-Regulating Antioxidant System and Endogenous Sorbitol Biosynthesis. Plants. 12:2456. | | Reference: July 14th, 2023
Gene Product: September 28th, 2020
Gene Model: July 10th, 2022
|
| 9 months ago | aldr7 | aldose reductase7: | 2.10 | GRMZM2G016236
| Li, J et al. 2023. Exogenous Sorbitol Application Confers Drought Tolerance to Maize Seedlings through Up-Regulating Antioxidant System and Endogenous Sorbitol Biosynthesis. Plants. 12:2456. | | Reference: July 14th, 2023
Gene Product: September 28th, 2020
Gene Model: March 24th, 2020
|
| 9 months ago | aldr1 | aldose reductase1: | 3.06 | GRMZM2G479423
| Li, J et al. 2023. Exogenous Sorbitol Application Confers Drought Tolerance to Maize Seedlings through Up-Regulating Antioxidant System and Endogenous Sorbitol Biosynthesis. Plants. 12:2456. | | Reference: July 14th, 2023
Gene Product: September 28th, 2020
Gene Model: September 28th, 2020
|
| 10 months ago | ccamk1 | calcium/calmodulin dependent protein kinase1: | | GRMZM2G062772
| Francisco Roberto Quiroz-Figueroa et al. 2023. Cell wall-related genes and lignin accumulation contribute to the root resistance in different maize (Zea mays L.) genotypes to Fusarium verticillioides (Sacc.) Nirenberg infection. Frontiers in Plant Science. 14:1195794. | | Reference: July 13th, 2023
Gene Product: December 3rd, 2013
Variation: July 7th, 2017
Gene Model: April 23rd, 2013
|
| 10 months ago | tsa1 | tryptophan synthase alpha subunit1: | | GRMZM5G841619
| Francisco Roberto Quiroz-Figueroa et al. 2023. Cell wall-related genes and lignin accumulation contribute to the root resistance in different maize (Zea mays L.) genotypes to Fusarium verticillioides (Sacc.) Nirenberg infection. Frontiers in Plant Science. 14:1195794. | | Reference: July 13th, 2023
Gene Product: October 21st, 2011
Gene Model: October 14th, 2011
|
| 10 months ago | snrkII8 | SnRK2 serine threonine protein kinase8: | | GRMZM2G138861
| Francisco Roberto Quiroz-Figueroa et al. 2023. Cell wall-related genes and lignin accumulation contribute to the root resistance in different maize (Zea mays L.) genotypes to Fusarium verticillioides (Sacc.) Nirenberg infection. Frontiers in Plant Science. 14:1195794. | | Reference: July 13th, 2023
Gene Product: April 14th, 2018
Variation: August 31st, 2018
Gene Model: February 11th, 2015
|
| 10 months ago | trpp13 | trehalose-6-phosphate phosphatase13: | | GRMZM5G890599
| Francisco Roberto Quiroz-Figueroa et al. 2023. Cell wall-related genes and lignin accumulation contribute to the root resistance in different maize (Zea mays L.) genotypes to Fusarium verticillioides (Sacc.) Nirenberg infection. Frontiers in Plant Science. 14:1195794. | | Reference: July 13th, 2023
Gene Product: October 3rd, 2020
Gene Model: April 2nd, 2019
|
| 10 months ago | acco7 | 1-aminocyclopropane-1-carboxylate oxidase7: | | GRMZM2G089856
| Francisco Roberto Quiroz-Figueroa et al. 2023. Cell wall-related genes and lignin accumulation contribute to the root resistance in different maize (Zea mays L.) genotypes to Fusarium verticillioides (Sacc.) Nirenberg infection. Frontiers in Plant Science. 14:1195794. | | Reference: July 13th, 2023
Gene Product: May 16th, 2016
Gene Model: June 24th, 2021
|
| 10 months ago | pti2 | pto-interacting2: | 10.03 | GRMZM2G061447
| Francisco Roberto Quiroz-Figueroa et al. 2023. Cell wall-related genes and lignin accumulation contribute to the root resistance in different maize (Zea mays L.) genotypes to Fusarium verticillioides (Sacc.) Nirenberg infection. Frontiers in Plant Science. 14:1195794. | | Reference: July 13th, 2023
Gene Product: May 13th, 2014
Gene Model: November 25th, 2019
|
| 10 months ago | IDP3879 | : | 4.05 | GRMZM2G064695
| Francisco Roberto Quiroz-Figueroa et al. 2023. Cell wall-related genes and lignin accumulation contribute to the root resistance in different maize (Zea mays L.) genotypes to Fusarium verticillioides (Sacc.) Nirenberg infection. Frontiers in Plant Science. 14:1195794. | | Reference: July 13th, 2023
Variation: March 31st, 2005
Gene Model: May 22nd, 2021
|
| 10 months ago | ftsh1 | filamentation temperature-sensitive H 2A homolog1: | 9.04 | | Xuehang Xiong et al. 2023. Genetic dissection of maize (Zea mays L.) chlorophyll content using multi-locus genome-wide association studies. BMC Genomics. 24:384. | | Reference: July 11th, 2023
Gene Product: September 10th, 2019
|
| 10 months ago | bnlg1136a | : | 6.07 | GRMZM5G847466
| Zhang, YC et al. 2023. Comprehensive analysis of transcriptional data on seed germination of two maize inbred lines under low-temperature conditions. Plant Physiol Biochem. 201:107874. | | Reference: July 11th, 2023
Variation: September 1st, 2003
Gene Model: August 30th, 2018
|
| 10 months ago | im30p1 | IM30 protein homolog1: | 3.06 | | Xuehang Xiong et al. 2023. Genetic dissection of maize (Zea mays L.) chlorophyll content using multi-locus genome-wide association studies. BMC Genomics. 24:384. | | Reference: July 11th, 2023
Gene Product: September 1st, 2003
Variation: March 2nd, 2015
|
| 10 months ago | pyl8 | pyrabactin resistance-like protein8: | 8.04 | GRMZM2G165567
| Zhang, YC et al. 2023. Comprehensive analysis of transcriptional data on seed germination of two maize inbred lines under low-temperature conditions. Plant Physiol Biochem. 201:107874. | | Reference: July 11th, 2023
Gene Product: January 31st, 2021
Gene Model: April 21st, 2018
|
| 10 months ago | saur38 | small auxin up RNA38: | 4.05 | GRMZM2G076345
| Zhang, YC et al. 2023. Comprehensive analysis of transcriptional data on seed germination of two maize inbred lines under low-temperature conditions. Plant Physiol Biochem. 201:107874. | | Reference: July 11th, 2023
Gene Product: November 26th, 2021
Gene Model: April 16th, 2020
|
| 10 months ago | rafs2 | raffinose synthase2: | | GRMZM2G050273
| Yu, S et al. 2023. Identification and expression analysis of 21-nt and 24-nt phased small interfering RNAs in maize tissues Plant Growth Regulation. :doi: 10.1007/s10725-023-01040-x. | | Reference: July 11th, 2023
Gene Product: October 25th, 2019
Gene Model: March 1st, 2018
|
| 10 months ago | pyl12 | pyrabactin resistance-like protein12: | | GRMZM2G405064
| Zhang, YC et al. 2023. Comprehensive analysis of transcriptional data on seed germination of two maize inbred lines under low-temperature conditions. Plant Physiol Biochem. 201:107874. | | Reference: July 11th, 2023
Gene Product: January 31st, 2021
Gene Model: April 21st, 2018
|
| 10 months ago | pyl1 | pyrabactin resistance-like protein1: | | AC194914.3_FG002
| Zhang, YC et al. 2023. Comprehensive analysis of transcriptional data on seed germination of two maize inbred lines under low-temperature conditions. Plant Physiol Biochem. 201:107874. | | Reference: July 11th, 2023
Gene Product: January 31st, 2021
Gene Model: January 31st, 2021
|
| 10 months ago | IDP1458 | : | 10.02 | GRMZM2G005848
| Xuehang Xiong et al. 2023. Genetic dissection of maize (Zea mays L.) chlorophyll content using multi-locus genome-wide association studies. BMC Genomics. 24:384. | | Reference: July 11th, 2023
Variation: March 31st, 2005
Gene Model: December 31st, 2017
|
| 10 months ago | dbf3 | DRE-binding protein3: | 2.07 | | Zhang, YC et al. 2023. Comprehensive analysis of transcriptional data on seed germination of two maize inbred lines under low-temperature conditions. Plant Physiol Biochem. 201:107874. | | Reference: July 11th, 2023
Gene Product: April 10th, 2013
Variation: October 23rd, 2019
|
| 10 months ago | umc1951 | : | 3.06 | GRMZM2G429982
| Asmaa A Sharf-Eldin et al. 2023. Response of Maize Seedlings to Silicon Dioxide Nanoparticles (SiO2NPs) under Drought Stress Plants. 12:2592. | | Reference: July 8th, 2023
Variation: September 1st, 2003
Gene Model: March 5th, 2021
|
| 10 months ago | whp1 | white pollen1: | 2.08 | | Liping Chen et al. 2023. ZmCOP1 Regulates Maize Mesocotyl Length and Plant Height through the Phytohormone Pathways Life. 13:1522. | | Reference: July 7th, 2023
Gene Product: September 1st, 2003
Variation: August 24th, 2013
|
| 10 months ago | flz14 | FCS-like zinc finger14: | | GRMZM2G099166
| Yang, C et al. 2023. A Positive Feedback Regulation of SnRK1 Signaling by Autophagy in Plants. Molecular Plant. :doi: 10.1016/j.molp.2023.07.001. | | Reference: July 6th, 2023
Gene Product: March 29th, 2021
Gene Model: February 21st, 2020
|
| 10 months ago | rhw1 | regulator of husk leaf width1: | | | Xia, AA et al. 2023. The RHW1-ZCN4 regulatory pathway confers natural variation of husk leaf width in maize. New Phytol. :doi: 10.1111/nph.19116. | | Reference: July 5th, 2023
Variation: July 5th, 2023
|
| 10 months ago | iqd13 | IQ-domain 13: | 4.04 | GRMZM2G162020
| Li, H et al. 2023. IQ domain-containing protein ZmIQD27 modulates water transport in maize. Plant Physiol. :doi: 10.1093/plphys/kiad390. | | Reference: July 5th, 2023
Gene Product: May 23rd, 2021
Gene Model: May 22nd, 2021
|
| 10 months ago | rpo1 | RNA polymerase II homolog1: | 1.08 | GRMZM2G113928
| Wang, D et al. 2010. Plant J 63:939-951 | | Reference: January 18th, 2023
Gene Product: July 5th, 2023
Variation: September 1st, 2003
Gene Model: August 18th, 2019
|
| 10 months ago | umc2069 | : | 10.02 | GRMZM5G803992
| Chen, QQ et al. 2023. RNA polymerase common subunit ZmRPABC5b is transcriptionally activated by Opaque2 and essential for endosperm development in maize Nucl Acid Res. :doi: 10.1093/nar/gkad571. | | Reference: July 5th, 2023
Gene Product: July 5th, 2023
Gene Model: January 18th, 2018
|
| 10 months ago | iqd4 | IQ-domain 4: | 1.08 | GRMZM2G038988
| Li, H et al. 2023. IQ domain-containing protein ZmIQD27 modulates water transport in maize. Plant Physiol. :doi: 10.1093/plphys/kiad390. | | Reference: July 5th, 2023
Gene Product: May 23rd, 2021
Gene Model: February 14th, 2020
|
| 10 months ago | iqd9 | IQ-domain 9: | 3.06 | GRMZM2G155954
| Li, H et al. 2023. IQ domain-containing protein ZmIQD27 modulates water transport in maize. Plant Physiol. :doi: 10.1093/plphys/kiad390. | | Reference: July 5th, 2023
Gene Product: May 23rd, 2021
Gene Model: April 5th, 2020
|
| 10 months ago | aga2 | alkaline galactosidase2: | | GRMZM2G127147
| Junhao Xu et al. 2023. Identification and Alternative Splicing Profile of the Raffinose synthase Gene in Grass Species Int J Mol Sci. 24:11120. | | Reference: July 5th, 2023
Gene Product: March 1st, 2018
Gene Model: March 1st, 2018
|
| 10 months ago | aga3 | alkaline galactosidase3: | | GRMZM2G037265
| Junhao Xu et al. 2023. Identification and Alternative Splicing Profile of the Raffinose synthase Gene in Grass Species Int J Mol Sci. 24:11120. | | Reference: July 5th, 2023
Gene Product: March 1st, 2018
Gene Model: March 1st, 2018
|
| 10 months ago | aga4 | alkaline galactosidase4: | | GRMZM2G077181
| Junhao Xu et al. 2023. Identification and Alternative Splicing Profile of the Raffinose synthase Gene in Grass Species Int J Mol Sci. 24:11120. | | Reference: July 5th, 2023
Gene Product: March 1st, 2018
Gene Model: March 1st, 2018
|
| 10 months ago | aga5 | alkaline galactosidase5: | | GRMZM2G047292
| Junhao Xu et al. 2023. Identification and Alternative Splicing Profile of the Raffinose synthase Gene in Grass Species Int J Mol Sci. 24:11120. | | Reference: July 5th, 2023
Gene Product: March 1st, 2018
Gene Model: March 1st, 2018
|
| 10 months ago | iqd15 | IQ-domain 15: | | GRMZM5G826979
| Li, H et al. 2023. IQ domain-containing protein ZmIQD27 modulates water transport in maize. Plant Physiol. :doi: 10.1093/plphys/kiad390. | | Reference: July 5th, 2023
Gene Product: September 1st, 2003
Gene Model: December 17th, 2019
|
| 10 months ago | iqd1 | IQ-domain 1: | | GRMZM2G102497
| Li, H et al. 2023. IQ domain-containing protein ZmIQD27 modulates water transport in maize. Plant Physiol. :doi: 10.1093/plphys/kiad390. | | Reference: July 5th, 2023
Gene Product: May 23rd, 2021
Gene Model: May 23rd, 2021
|
| 10 months ago | iqd2 | IQ-domain 2: | | GRMZM2G018030
| Li, H et al. 2023. IQ domain-containing protein ZmIQD27 modulates water transport in maize. Plant Physiol. :doi: 10.1093/plphys/kiad390. | | Reference: July 5th, 2023
Gene Product: May 23rd, 2021
Gene Model: May 23rd, 2021
|
| 10 months ago | iqd3 | IQ-domain 3: | | GRMZM2G070673
| Li, H et al. 2023. IQ domain-containing protein ZmIQD27 modulates water transport in maize. Plant Physiol. :doi: 10.1093/plphys/kiad390. | | Reference: July 5th, 2023
Gene Product: May 23rd, 2021
Gene Model: May 23rd, 2021
|
| 10 months ago | iqd5 | IQ-domain 5: | | GRMZM2G039187
| Li, H et al. 2023. IQ domain-containing protein ZmIQD27 modulates water transport in maize. Plant Physiol. :doi: 10.1093/plphys/kiad390. | | Reference: July 5th, 2023
Gene Product: May 23rd, 2021
Gene Model: May 23rd, 2021
|
| 10 months ago | iqd6 | IQ-domain 6: | | GRMZM2G433557
| Li, H et al. 2023. IQ domain-containing protein ZmIQD27 modulates water transport in maize. Plant Physiol. :doi: 10.1093/plphys/kiad390. | | Reference: July 5th, 2023
Gene Product: May 23rd, 2021
Gene Model: May 23rd, 2021
|
| 10 months ago | iqd7 | IQ-domain 7: | | GRMZM2G371176
| Li, H et al. 2023. IQ domain-containing protein ZmIQD27 modulates water transport in maize. Plant Physiol. :doi: 10.1093/plphys/kiad390. | | Reference: July 5th, 2023
Gene Product: May 23rd, 2021
Gene Model: May 23rd, 2021
|
| 10 months ago | iqd8 | IQ-domain 8: | | GRMZM2G342821
| Li, H et al. 2023. IQ domain-containing protein ZmIQD27 modulates water transport in maize. Plant Physiol. :doi: 10.1093/plphys/kiad390. | | Reference: July 5th, 2023
Gene Product: May 23rd, 2021
Gene Model: May 23rd, 2021
|
| 10 months ago | iqd10 | IQ-domain 10: | | GRMZM2G177929
| Li, H et al. 2023. IQ domain-containing protein ZmIQD27 modulates water transport in maize. Plant Physiol. :doi: 10.1093/plphys/kiad390. | | Reference: July 5th, 2023
Gene Product: May 23rd, 2021
Gene Model: May 23rd, 2021
|
| 10 months ago | iqd12 | IQ-domain 12: | | GRMZM2G008764
| Li, H et al. 2023. IQ domain-containing protein ZmIQD27 modulates water transport in maize. Plant Physiol. :doi: 10.1093/plphys/kiad390. | | Reference: July 5th, 2023
Gene Product: May 23rd, 2021
Gene Model: May 23rd, 2021
|
| 10 months ago | iqd14 | IQ-domain 14: | | GRMZM2G028813
| Li, H et al. 2023. IQ domain-containing protein ZmIQD27 modulates water transport in maize. Plant Physiol. :doi: 10.1093/plphys/kiad390. | | Reference: July 5th, 2023
Gene Product: May 23rd, 2021
Gene Model: May 23rd, 2021
|
| 10 months ago | iqd16 | IQ-domain 16: | | GRMZM2G406674
| Li, H et al. 2023. IQ domain-containing protein ZmIQD27 modulates water transport in maize. Plant Physiol. :doi: 10.1093/plphys/kiad390. | | Reference: July 5th, 2023
Gene Product: September 1st, 2003
Gene Model: May 23rd, 2021
|
| 10 months ago | iqd17 | IQ-domain 17: | | GRMZM5G892879
| Li, H et al. 2023. IQ domain-containing protein ZmIQD27 modulates water transport in maize. Plant Physiol. :doi: 10.1093/plphys/kiad390. | | Reference: July 5th, 2023
Gene Product: May 23rd, 2021
Gene Model: May 23rd, 2021
|
| 10 months ago | iqd18 | IQ-domain 18: | | GRMZM2G147840
| Li, H et al. 2023. IQ domain-containing protein ZmIQD27 modulates water transport in maize. Plant Physiol. :doi: 10.1093/plphys/kiad390. | | Reference: July 5th, 2023
Gene Product: May 23rd, 2021
Gene Model: May 23rd, 2021
|
| 10 months ago | iqd20 | IQ-domain 20: | | GRMZM2G058690
| Li, H et al. 2023. IQ domain-containing protein ZmIQD27 modulates water transport in maize. Plant Physiol. :doi: 10.1093/plphys/kiad390. | | Reference: July 5th, 2023
Gene Product: May 23rd, 2021
Gene Model: May 23rd, 2021
|
| 10 months ago | iqd23 | IQ-domain 23: | | GRMZM2G100229
| Li, H et al. 2023. IQ domain-containing protein ZmIQD27 modulates water transport in maize. Plant Physiol. :doi: 10.1093/plphys/kiad390. | | Reference: July 5th, 2023
Gene Product: May 23rd, 2021
Gene Model: May 23rd, 2021
|
| 10 months ago | iqd22 | IQ-domain 22: | | GRMZM2G100229
| Li, H et al. 2023. IQ domain-containing protein ZmIQD27 modulates water transport in maize. Plant Physiol. :doi: 10.1093/plphys/kiad390. | | Reference: July 5th, 2023
Gene Product: May 23rd, 2021
Gene Model: May 23rd, 2021
|
| 10 months ago | iqd26 | IQ-domain 26: | | GRMZM2G095892
| Li, H et al. 2023. IQ domain-containing protein ZmIQD27 modulates water transport in maize. Plant Physiol. :doi: 10.1093/plphys/kiad390. | | Reference: July 5th, 2023
Gene Product: May 23rd, 2021
Gene Model: May 23rd, 2021
|
| 10 months ago | iqd28 | IQ-domain 28: | 8.06 | GRMZM2G024799
| Li, H et al. 2023. IQ domain-containing protein ZmIQD27 modulates water transport in maize. Plant Physiol. :doi: 10.1093/plphys/kiad390. | | Reference: July 5th, 2023
Gene Product: May 23rd, 2021
Variation: July 5th, 2023
Gene Model: September 3rd, 2019
|
| 10 months ago | dek701 | defective kernel701: | 8.06 | GRMZM5G834335
| Chen, QQ et al. 2023. RNA polymerase common subunit ZmRPABC5b is transcriptionally activated by Opaque2 and essential for endosperm development in maize Nucl Acid Res. :doi: 10.1093/nar/gkad571. | | Reference: July 5th, 2023
Gene Product: July 5th, 2023
Variation: July 5th, 2023
Gene Model: September 3rd, 2019
|
| 10 months ago | iqd25 | IQ-domain 25: | 10.04 | GRMZM5G845601
| Li, H et al. 2023. IQ domain-containing protein ZmIQD27 modulates water transport in maize. Plant Physiol. :doi: 10.1093/plphys/kiad390. | | Reference: July 5th, 2023
Gene Product: May 23rd, 2021
Variation: March 31st, 2005
Gene Model: January 18th, 2018
|
| 10 months ago | iqd21 | IQ-domain 21: | 8.05 | GRMZM2G012584
| Li, H et al. 2023. IQ domain-containing protein ZmIQD27 modulates water transport in maize. Plant Physiol. :doi: 10.1093/plphys/kiad390. | | Reference: July 5th, 2023
Gene Product: May 23rd, 2021
Gene Model: September 1st, 2019
|
| 10 months ago | vdac3 | voltage-dependent anion channel protein3: | | | Carolina Rodríguez-Saavedra et al. 2023. Identification and Characterization of VDAC Family in Maize Plants. 12:2542. | | Reference: July 4th, 2023
Gene Product: July 4th, 2023
|
| 10 months ago | vdac4 | voltage-dependent anion channel protein4: | | | Carolina Rodríguez-Saavedra et al. 2023. Identification and Characterization of VDAC Family in Maize Plants. 12:2542. | | Reference: July 4th, 2023
Gene Product: July 4th, 2023
|
| 10 months ago | vdac5 | voltage-dependent anion channel protein5: | | | Carolina Rodríguez-Saavedra et al. 2023. Identification and Characterization of VDAC Family in Maize Plants. 12:2542. | | Reference: July 4th, 2023
Gene Product: July 4th, 2023
|
| 10 months ago | vdac6 | voltage-dependent anion channel protein6: | | | Carolina Rodríguez-Saavedra et al. 2023. Identification and Characterization of VDAC Family in Maize Plants. 12:2542. | | Reference: July 4th, 2023
Gene Product: July 4th, 2023
|
| 10 months ago | vdac1a | voltage-dependent anion channel protein1a: | 2.06 | GRMZM2G150616
| Carolina Rodríguez-Saavedra et al. 2023. Identification and Characterization of VDAC Family in Maize Plants. 12:2542. | | Reference: July 4th, 2023
Gene Product: January 24th, 2014
Variation: July 14th, 2009
Gene Model: July 29th, 2015
|
| 10 months ago | ommp1 | outer mitochondrial membrane porin1: | 1.01 | GRMZM2G018417
| Carolina Rodríguez-Saavedra et al. 2023. Identification and Characterization of VDAC Family in Maize Plants. 12:2542. | | Reference: July 4th, 2023
Gene Product: July 4th, 2023
Variation: September 25th, 2007
Gene Model: April 26th, 2016
|
| 10 months ago | por1 | porin1: | 8.06 | GRMZM2G155021
| Carolina Rodríguez-Saavedra et al. 2023. Identification and Characterization of VDAC Family in Maize Plants. 12:2542. | | Reference: July 4th, 2023
Gene Product: September 1st, 2003
Variation: August 20th, 2015
Gene Model: February 5th, 2015
|
| 10 months ago | vdac1b | voltage-dependent anion channel protein1b: | 7.02 | GRMZM2G146670
| Carolina Rodríguez-Saavedra et al. 2023. Identification and Characterization of VDAC Family in Maize Plants. 12:2542. | | Reference: July 4th, 2023
Gene Product: July 4th, 2023
Variation: January 13th, 2016
Gene Model: July 29th, 2015
|
| 10 months ago | vdac2 | voltage-dependent anion channel protein2: | 6.07 | GRMZM2G115049
| Carolina Rodríguez-Saavedra et al. 2023. Identification and Characterization of VDAC Family in Maize Plants. 12:2542. | | Reference: July 4th, 2023
Gene Product: July 4th, 2023
Variation: January 7th, 2016
Gene Model: July 29th, 2015
|
| 10 months ago | msl2 | mechanosensitive channel of small conductance-like2: | 2.02 | | Olivia S Hazelwood et al. 2023. Characterization of mechanosensitive MSL gene family expression in Zea mays aerial and subterranean brace roots. MicroPubl Biol. 2023:doi: 10.17912/micropub.biology.000759. | | Reference: July 3rd, 2023
Gene Product: October 8th, 2020
Variation: November 16th, 2017
|
| 10 months ago | sbp22 | SBP-transcription factor 22: | | | Li, ZW et al. 2023. Jasmonic acid-mediated stress responses share the molecular mechanism underlying male sterility induced by deficiency of ZmMs33 in maize The Crop Journal. :doi: 10.1016/j.cj.2023.06.002. | | Reference: July 3rd, 2023
Gene Product: July 5th, 2019
|
| 10 months ago | msl1 | mechanosensitive channel of small conductance-like1: | | GRMZM2G028914
| Olivia S Hazelwood et al. 2023. Characterization of mechanosensitive MSL gene family expression in Zea mays aerial and subterranean brace roots. MicroPubl Biol. 2023:doi: 10.17912/micropub.biology.000759. | | Reference: July 3rd, 2023
Gene Product: October 8th, 2020
Gene Model: October 8th, 2020
|
| 10 months ago | msl4 | mechanosensitive channel of small conductance-like4: | | GRMZM2G303244
| Olivia S Hazelwood et al. 2023. Characterization of mechanosensitive MSL gene family expression in Zea mays aerial and subterranean brace roots. MicroPubl Biol. 2023:doi: 10.17912/micropub.biology.000759. | | Reference: July 3rd, 2023
Gene Product: October 8th, 2020
Gene Model: October 8th, 2020
|
| 10 months ago | msl5 | mechanosensitive channel of small conductance-like5: | | GRMZM2G005996
| Olivia S Hazelwood et al. 2023. Characterization of mechanosensitive MSL gene family expression in Zea mays aerial and subterranean brace roots. MicroPubl Biol. 2023:doi: 10.17912/micropub.biology.000759. | | Reference: July 3rd, 2023
Gene Product: October 8th, 2020
Gene Model: October 8th, 2020
|
| 10 months ago | msl6 | mechanosensitive channel of small conductance-like6: | | AY530952.1_FG001
| Olivia S Hazelwood et al. 2023. Characterization of mechanosensitive MSL gene family expression in Zea mays aerial and subterranean brace roots. MicroPubl Biol. 2023:doi: 10.17912/micropub.biology.000759. | | Reference: July 3rd, 2023
Gene Product: October 8th, 2020
Gene Model: October 8th, 2020
|
| 10 months ago | msl7 | mechanosensitive channel of small conductance-like7: | | GRMZM2G005013
| Olivia S Hazelwood et al. 2023. Characterization of mechanosensitive MSL gene family expression in Zea mays aerial and subterranean brace roots. MicroPubl Biol. 2023:doi: 10.17912/micropub.biology.000759. | | Reference: July 3rd, 2023
Gene Product: October 8th, 2020
Gene Model: October 8th, 2020
|
| 10 months ago | msl8 | mechanosensitive channel of small conductance-like8: | | GRMZM2G090627
| Olivia S Hazelwood et al. 2023. Characterization of mechanosensitive MSL gene family expression in Zea mays aerial and subterranean brace roots. MicroPubl Biol. 2023:doi: 10.17912/micropub.biology.000759. | | Reference: July 3rd, 2023
Gene Product: October 8th, 2020
Gene Model: October 8th, 2020
|
| 10 months ago | rk1 | reversed kernel1: | | | Wang, Y et al. 2023. BSA-Seq and Transcriptomic Analysis Provide Candidate Genes Associated with Inflorescence Architecture and Kernel Orientation by Phytohormone Homeostasis in Maize Int J Mol Sci. 24:10728. | | Reference: June 29th, 2023
Variation: June 29th, 2023
|
| 10 months ago | ppr100 | pentatricopeptide repeat100: | | GRMZM2G428579
| Wang, Y et al. 2023. BSA-Seq and Transcriptomic Analysis Provide Candidate Genes Associated with Inflorescence Architecture and Kernel Orientation by Phytohormone Homeostasis in Maize Int J Mol Sci. 24:10728. | At2g01860 (TAIR)
LOC_Os02g02590 (MSU/TIGR) | Reference: June 29th, 2023
Gene Product: December 27th, 2016
Gene Model: May 20th, 2017
|
| 10 months ago | dhn13 | dehydrin13: | 1.09 | GRMZM2G169372
| Qin, L et al. 2023. Molecular and functional dissection of LIGULELESS1 (LG1) in plants. Frontiers in Plant Science. 14:1190004. | | Reference: June 28th, 2023
Gene Product: August 5th, 2017
Variation: October 13th, 2016
Gene Model: October 14th, 2016
|
| 10 months ago | pza01360 | : | 3.09 | | Chenchen Zhang et al. 2023. Identification and Functional Characterization of ZmSCYL2 Involved in Phytosterol Accumulation in Plants. Int J Mol Sci. 24:10411. | | Reference: June 28th, 2023
Variation: November 7th, 2017
|
| 10 months ago | umc1117 | : | 4.04 | GRMZM2G050982
| Anika Kovincic et al. 2023. Efficiency of Biological Typing Methods in Maize Hybrid Genetic Purity Estimation. Genes. 14:1195. | | Reference: June 28th, 2023
Variation: September 1st, 2003
Gene Model: April 17th, 2018
|
| 10 months ago | umc1133 | : | 6.01 | GRMZM2G466498
| Anika Kovincic et al. 2023. Efficiency of Biological Typing Methods in Maize Hybrid Genetic Purity Estimation. Genes. 14:1195. | | Reference: June 28th, 2023
Variation: September 1st, 2003
Gene Model: February 20th, 2021
|
| 10 months ago | rcc1 | regulator of chromosome condensation1: | 3.06 | GRMZM2G302245
| Anika Kovincic et al. 2023. Efficiency of Biological Typing Methods in Maize Hybrid Genetic Purity Estimation. Genes. 14:1195. | | Reference: June 28th, 2023
Gene Product: August 2nd, 2021
Variation: March 28th, 2018
Gene Model: March 28th, 2018
|
| 10 months ago | bzip121 | bZIP-transcription factor 121: | 2.04 | GRMZM2G112483
| Anika Kovincic et al. 2023. Efficiency of Biological Typing Methods in Maize Hybrid Genetic Purity Estimation. Genes. 14:1195. | | Reference: June 28th, 2023
Variation: September 1st, 2003
Gene Model: February 21st, 2018
|
| 10 months ago | umc1478 | : | 5.01 | GRMZM2G007260
| Anika Kovincic et al. 2023. Efficiency of Biological Typing Methods in Maize Hybrid Genetic Purity Estimation. Genes. 14:1195. | | Reference: June 28th, 2023
Variation: September 1st, 2003
Gene Model: May 3rd, 2020
|
| 10 months ago | cbl9 | calcineurin B-like9: | | GRMZM2G015324
| Jiawei Li et al. 2023. Research Progress on the Mechanism of Salt Tolerance in Maize: A Classic Field That Needs New Efforts. Plants. 12:2356. | | Reference: June 28th, 2023
Gene Product: October 19th, 2016
Gene Model: October 19th, 2016
|
| 10 months ago | trl1 | tassels replace upper ears-like1: | | GRMZM2G060723
| Qin, L et al. 2023. Molecular and functional dissection of LIGULELESS1 (LG1) in plants. Frontiers in Plant Science. 14:1190004. | AT3G57130 (TAIR) | Reference: June 28th, 2023
Gene Product: June 30th, 2021
Gene Model: December 25th, 2018
|
| 10 months ago | traf7 | TNF receptor-associated factor 7: | | GRMZM2G022606
| Qin, L et al. 2023. Molecular and functional dissection of LIGULELESS1 (LG1) in plants. Frontiers in Plant Science. 14:1190004. | | Reference: June 28th, 2023
Gene Product: June 30th, 2021
Gene Model: May 20th, 2019
|
| 10 months ago | almt2 | aluminum-activated malate transporter homolog2: | | GRMZM5G858653
| Jiawei Li et al. 2023. Research Progress on the Mechanism of Salt Tolerance in Maize: A Classic Field That Needs New Efforts. Plants. 12:2356. | | Reference: June 28th, 2023
Gene Product: March 16th, 2022
Gene Model: April 28th, 2021
|
| 10 months ago | rpe1 | Ribulose-phosphate 3-epimerase1: | 1.02 | | Ikkurti Gopinath et al. 2023. Meta-QTL analysis and identification of candidate genes governing popping quality attributes in maize S Afr J Bot. 159:461-471. | | Reference: June 26th, 2023
Variation: August 4th, 2017
|
| 10 months ago | gras37 | GRAS-transcription factor 37: | | | McFarland, FL et al. 2023. A key to totipotency: Wuschel-like homeobox 2a unlocks embryogenic culture response in maize (Zea mays L.). Plant Biotechnol J. :doi: 10.1111/pbi.14098. | | Reference: June 26th, 2023
Gene Product: June 24th, 2019
Variation: June 24th, 2019
|
| 10 months ago | zmm15 | Zea mays MADS-box 15: | 5.01 | GRMZM2G553379
| Li, CH, et al. 2022. Nature Plants. doi: 10.1038/s41477-022-01190-2 | | Reference: June 26th, 2023
Variation: June 15th, 2018
Gene Model: June 15th, 2018
|
| 10 months ago | AY104289 | : | 6.07 | GRMZM2G381709
| Ikkurti Gopinath et al. 2023. Meta-QTL analysis and identification of candidate genes governing popping quality attributes in maize S Afr J Bot. 159:461-471. | | Reference: June 26th, 2023
Variation: September 25th, 2007
Gene Model: August 29th, 2018
|
| 10 months ago | remo3 | remorin3: | | GRMZM2G122937
| Alpana Joshi et al. 2023. Integrated Molecular and Bioinformatics Approaches for Disease-Related Genes in Plants Plants. 12:2454. | | Reference: June 26th, 2023
Gene Product: September 24th, 2018
Variation: April 16th, 2019
Gene Model: April 16th, 2019
|
| 10 months ago | psk1 | phytosulfokine peptide precursor1: | 7.00 | GRMZM2G044194
| Cao, YY et al. 2023. Single-cell RNA sequencing profiles reveal cell type-specific transcriptional regulation networks conditioning fungal invasion in maize roots. Plant Biotechnol J. | | Reference: June 23rd, 2023
Variation: May 9th, 2009
Gene Model: December 30th, 2015
|
| 10 months ago | pal10 | phenylalanine ammonia lyase homolog10: | | GRMZM2G326335
| Cao, YY et al. 2023. Single-cell RNA sequencing profiles reveal cell type-specific transcriptional regulation networks conditioning fungal invasion in maize roots. Plant Biotechnol J. | | Reference: June 23rd, 2023
Gene Product: August 13th, 2022
Gene Model: September 6th, 2019
|
| 10 months ago | gst55 | glutathione S-transferase55: | | | Sina Barghahn et al. 2023. Combination of transcriptomic, proteomic and degradomic profiling reveals common and distinct patterns of pathogen-induced cell death in maize. Plant J. :doi: 10.1111/tpj.16356. | | Reference: June 21st, 2023
Gene Product: September 1st, 2003
|
| 10 months ago | rpnu1 | regulator of pollen number1: | | | Ting Guo et al. 2023. ZmRPN1 confers quantitative variation in pollen number and boosts hybrid seed production in maize. Plant Biotechnol J. :doi: 10.1111/pbi.14105. | | Reference: June 21st, 2023
Variation: June 21st, 2023
|
| 10 months ago | lon1 | LON peptidase1: | 7.03 | GRMZM2G109560
| Sina Barghahn et al. 2023. Combination of transcriptomic, proteomic and degradomic profiling reveals common and distinct patterns of pathogen-induced cell death in maize. Plant J. :doi: 10.1111/tpj.16356. | | Reference: June 21st, 2023
Gene Product: September 1st, 2003
Variation: January 8th, 2013
Gene Model: July 28th, 2016
|
| 10 months ago | gst35 | glutathione transferase35: | 9.08 | GRMZM2G161891
| Sina Barghahn et al. 2023. Combination of transcriptomic, proteomic and degradomic profiling reveals common and distinct patterns of pathogen-induced cell death in maize. Plant J. :doi: 10.1111/tpj.16356. | | Reference: June 21st, 2023
Gene Product: September 1st, 2003
Gene Model: July 27th, 2016
|
| 10 months ago | ago18b | argonaute18b: | 1.08 | GRMZM2G457370
| Dai, ZK et al. 2023. ZmAGO18b negatively regulates maize resistance against southern leaf blight. Theor Appl Genet. 136:158. | | Reference: June 21st, 2023
Gene Product: August 12th, 2016
Variation: August 17th, 2019
Gene Model: August 12th, 2016
|
| 10 months ago | ago1c | argonaute1c: | | GRMZM2G039455
| Dai, ZK et al. 2023. ZmAGO18b negatively regulates maize resistance against southern leaf blight. Theor Appl Genet. 136:158. | AT1G48410 (TAIR) | Reference: June 21st, 2023
Gene Product: August 12th, 2016
Gene Model: February 6th, 2016
|
| 10 months ago | ago2a | argonaute2a: | | GRMZM2G007791
| Dai, ZK et al. 2023. ZmAGO18b negatively regulates maize resistance against southern leaf blight. Theor Appl Genet. 136:158. | | Reference: June 21st, 2023
Gene Product: August 12th, 2016
Gene Model: August 13th, 2016
|
| 10 months ago | ago2b | argonaute2b: | | GRMZM2G354867
| Dai, ZK et al. 2023. ZmAGO18b negatively regulates maize resistance against southern leaf blight. Theor Appl Genet. 136:158. | | Reference: June 21st, 2023
Gene Product: August 12th, 2016
Gene Model: August 13th, 2016
|
| 10 months ago | ms28 | male sterile28: | | GRMZM2G123063
| Dai, ZK et al. 2023. ZmAGO18b negatively regulates maize resistance against southern leaf blight. Theor Appl Genet. 136:158. | | Reference: June 21st, 2023
Gene Product: August 12th, 2016
Variation: March 3rd, 2021
Gene Model: August 13th, 2016
|
| 10 months ago | ago10b | argonaute10b: | | GRMZM2G079080
| Dai, ZK et al. 2023. ZmAGO18b negatively regulates maize resistance against southern leaf blight. Theor Appl Genet. 136:158. | | Reference: June 21st, 2023
Gene Product: August 12th, 2016
Gene Model: August 13th, 2016
|
| 10 months ago | mca10 | metacaspase10: | | GRMZM2G066041
| Sina Barghahn et al. 2023. Combination of transcriptomic, proteomic and degradomic profiling reveals common and distinct patterns of pathogen-induced cell death in maize. Plant J. :doi: 10.1111/tpj.16356. | | Reference: June 21st, 2023
Gene Product: October 27th, 2020
Gene Model: October 27th, 2020
|
| 10 months ago | ccp31 | cysteine protease31: | | GRMZM2G010435
| Sina Barghahn et al. 2023. Combination of transcriptomic, proteomic and degradomic profiling reveals common and distinct patterns of pathogen-induced cell death in maize. Plant J. :doi: 10.1111/tpj.16356. | | Reference: June 21st, 2023
Gene Product: October 11th, 2021
Gene Model: October 11th, 2021
|
| 10 months ago | ago104 | argonaute104: | 6.07 | GRMZM2G141818
| Dai, ZK et al. 2023. ZmAGO18b negatively regulates maize resistance against southern leaf blight. Theor Appl Genet. 136:158. | | Reference: June 21st, 2023
Gene Product: August 12th, 2016
Variation: September 4th, 2013
Gene Model: March 31st, 2011
|
| 10 months ago | zp1 | zein alpha protein1: | 4.04 | | Jessica AS Barros et al. 2023. Autophagy during Maize Endosperm Development Dampens Oxidative Stress and Promotes Mitochondrial Clearance. Plant Physiol. | | Reference: June 19th, 2023
Gene Product: September 1st, 2003
Variation: May 19th, 2015
|
| 10 months ago | cts1 | citrate synthase1: | 5.04 | GRMZM2G063851
| Jessica AS Barros et al. 2023. Autophagy during Maize Endosperm Development Dampens Oxidative Stress and Promotes Mitochondrial Clearance. Plant Physiol. | | Reference: June 19th, 2023
Gene Product: July 5th, 2019
Variation: June 10th, 2014
Gene Model: June 10th, 2014
|
| 10 months ago | apx11 | ascorbate peroxidase11: | 10.02 | GRMZM2G014397
| Jessica AS Barros et al. 2023. Autophagy during Maize Endosperm Development Dampens Oxidative Stress and Promotes Mitochondrial Clearance. Plant Physiol. | | Reference: June 19th, 2023
Gene Product: October 15th, 2020
Gene Model: January 25th, 2018
|
| 10 months ago | aco1 | aconitase1: | 4.04 | GRMZM2G020801
| Jessica AS Barros et al. 2023. Autophagy during Maize Endosperm Development Dampens Oxidative Stress and Promotes Mitochondrial Clearance. Plant Physiol. | | Reference: June 19th, 2023
Gene Product: September 1st, 2003
Variation: March 28th, 2015
Gene Model: March 28th, 2015
|
| 10 months ago | fl1 | floury endosperm1: | 2.04 | GRMZM2G094532
| Jessica AS Barros et al. 2023. Autophagy during Maize Endosperm Development Dampens Oxidative Stress and Promotes Mitochondrial Clearance. Plant Physiol. | | Reference: June 19th, 2023
Gene Product: July 8th, 2013
Variation: September 16th, 2010
Gene Model: July 8th, 2013
|
| 10 months ago | csu849(atpb) | : | 8.03 | GRMZM2G021331
| Jessica AS Barros et al. 2023. Autophagy during Maize Endosperm Development Dampens Oxidative Stress and Promotes Mitochondrial Clearance. Plant Physiol. | | Reference: June 19th, 2023
Gene Product: September 1st, 2003
Gene Model: August 21st, 2014
|
| 10 months ago | mmc0312a | : | 3.04 | GRMZM2G018951
| Jessica AS Barros et al. 2023. Autophagy during Maize Endosperm Development Dampens Oxidative Stress and Promotes Mitochondrial Clearance. Plant Physiol. | | Reference: June 19th, 2023
Variation: September 1st, 2003
Gene Model: March 23rd, 2018
|
| 10 months ago | pme1 | pectin methylesterase1: | 10.04 | GRMZM2G125356
| Xiaohong Yuan et al. 2023. The NAC transcription factor ZmNAC132 regulates leaf senescence and male fertility in maize. Plant Sci. doi: 10.1016/j.plantsci.2023.111774 | | Reference: June 19th, 2023
Gene Product: September 10th, 2018
Variation: October 8th, 2015
Gene Model: October 8th, 2015
|
| 10 months ago | limtf14 | LIM-transcription factor 14: | | | Xiaohong Yuan et al. 2023. The NAC transcription factor ZmNAC132 regulates leaf senescence and male fertility in maize. Plant Sci. doi: 10.1016/j.plantsci.2023.111774 | | Reference: June 19th, 2023
Gene Product: December 16th, 2019
|
| 10 months ago | limtf8 | LIM-transcription factor 8: | | | Xiaohong Yuan et al. 2023. The NAC transcription factor ZmNAC132 regulates leaf senescence and male fertility in maize. Plant Sci. doi: 10.1016/j.plantsci.2023.111774 | | Reference: June 19th, 2023
Gene Product: December 16th, 2019
|
| 10 months ago | limtf9 | LIM-transcription factor 9: | | | Xiaohong Yuan et al. 2023. The NAC transcription factor ZmNAC132 regulates leaf senescence and male fertility in maize. Plant Sci. doi: 10.1016/j.plantsci.2023.111774 | | Reference: June 19th, 2023
Gene Product: December 16th, 2019
|
| 10 months ago | aaap3 | amino acid/auxin permease3: | 1.05 | GRMZM2G017170
| Xiaohong Yuan et al. 2023. The NAC transcription factor ZmNAC132 regulates leaf senescence and male fertility in maize. Plant Sci. doi: 10.1016/j.plantsci.2023.111774 | | Reference: June 19th, 2023
Gene Product: March 31st, 2021
Variation: January 10th, 2017
Gene Model: June 15th, 2017
|
| 10 months ago | sam1 | S-adenosylmethionine decarboxylase1: | 10.04 - 10.05 | GRMZM2G125635
| Jessica AS Barros et al. 2023. Autophagy during Maize Endosperm Development Dampens Oxidative Stress and Promotes Mitochondrial Clearance. Plant Physiol. | | Reference: June 19th, 2023
Gene Product: September 1st, 2003
Variation: September 1st, 2003
Gene Model: January 24th, 2015
|
| 10 months ago | fl4 | floury4: | | GRMZM2G353272
| Jessica AS Barros et al. 2023. Autophagy during Maize Endosperm Development Dampens Oxidative Stress and Promotes Mitochondrial Clearance. Plant Physiol. | | Reference: June 19th, 2023
Gene Product: April 9th, 2014
Variation: April 8th, 2014
Gene Model: April 9th, 2014
|
| 10 months ago | sudh7 | succinate dehydrogenase7: | | GRMZM2G134134
| Jessica AS Barros et al. 2023. Autophagy during Maize Endosperm Development Dampens Oxidative Stress and Promotes Mitochondrial Clearance. Plant Physiol. | | Reference: June 19th, 2023
Gene Product: October 25th, 2016
Variation: October 25th, 2016
Gene Model: October 25th, 2016
|
| 10 months ago | atg12 | autophagy12: | | GRMZM5G842517
| Jessica AS Barros et al. 2023. Autophagy during Maize Endosperm Development Dampens Oxidative Stress and Promotes Mitochondrial Clearance. Plant Physiol. | | Reference: June 19th, 2023
Variation: August 15th, 2017
Gene Model: August 15th, 2017
|
| 10 months ago | kgdh1 | alpha-ketoglutarate dehydrogenase: | | GRMZM2G079538
| Jessica AS Barros et al. 2023. Autophagy during Maize Endosperm Development Dampens Oxidative Stress and Promotes Mitochondrial Clearance. Plant Physiol. | | Reference: June 19th, 2023
Gene Product: March 25th, 2020
Gene Model: December 30th, 2019
|
| 10 months ago | rnrl1 | ribonucleotide reductase large subunit1: | | GRMZM2G304362
| Jessica AS Barros et al. 2023. Autophagy during Maize Endosperm Development Dampens Oxidative Stress and Promotes Mitochondrial Clearance. Plant Physiol. | | Reference: June 19th, 2023
Gene Product: October 6th, 2020
Variation: April 27th, 2023
Gene Model: October 6th, 2020
|
| 10 months ago | z1C1 | alpha zein 19kDa C1: | | GRMZM2G088273
| Jessica AS Barros et al. 2023. Autophagy during Maize Endosperm Development Dampens Oxidative Stress and Promotes Mitochondrial Clearance. Plant Physiol. | | Reference: June 19th, 2023
Gene Product: September 1st, 2003
Gene Model: September 20th, 2021
|
| 10 months ago | ebe2 | embryo-sac basal-endosperm-layer embryo-surrounding-region2: | 6.04 | GRMZM2G167733
| Jessica AS Barros et al. 2023. Autophagy during Maize Endosperm Development Dampens Oxidative Stress and Promotes Mitochondrial Clearance. Plant Physiol. | | Reference: June 19th, 2023
Variation: May 6th, 2004
Gene Model: August 20th, 2015
|
| 10 months ago | sudh15 | succinate dehydrogenase15: | | | Eprintsev, AT et al. 2023. Light-Dependent Expression and Promoter Methylation of the Genes Encoding Succinate Dehydrogenase, Fumarase, and NAD-Malate Dehydrogenase in Maize (Zea mays L.) Leaves Int J Mol Sci. 24:10211. | | Reference: June 16th, 2023
Gene Product: October 25th, 2016
|
| 10 months ago | AY110141 | : | 9.06 | GRMZM2G119627
| Zhu, JT et al. 2023. ZmEREB57 regulates OPDA synthesis and enhances salt stress tolerance through two distinct signalling pathways in Zea mays. Plant Cell Environ. :doi: 10.1111/pce.14644. | | Reference: June 16th, 2023
Variation: September 25th, 2007
Gene Model: September 9th, 2021
|
| 10 months ago | sudh3 | succinate dehydrogenase3: | | GRMZM2G056912
| Eprintsev, AT et al. 2023. Light-Dependent Expression and Promoter Methylation of the Genes Encoding Succinate Dehydrogenase, Fumarase, and NAD-Malate Dehydrogenase in Maize (Zea mays L.) Leaves Int J Mol Sci. 24:10211. | | Reference: June 16th, 2023
Gene Product: October 25th, 2016
Gene Model: October 25th, 2016
|
| 10 months ago | ereb214 | AP2-EREBP-transcription factor 214: | | | Huanhuan Qi et al. 2023. Advances of Apetala2/Ethylene Response Factors in Regulating Development and Stress Response in Maize Int J Mol Sci. 24:5416. | | Reference: June 15th, 2023
Gene Product: July 5th, 2019
|
| 10 months ago | ereb215 | AP2-EREBP-transcription factor 215: | | | Huanhuan Qi et al. 2023. Advances of Apetala2/Ethylene Response Factors in Regulating Development and Stress Response in Maize Int J Mol Sci. 24:5416. | | Reference: June 15th, 2023
Gene Product: July 5th, 2019
|
| 10 months ago | ereb217 | AP2-EREBP-transcription factor 217: | | | Huanhuan Qi et al. 2023. Advances of Apetala2/Ethylene Response Factors in Regulating Development and Stress Response in Maize Int J Mol Sci. 24:5416. | | Reference: June 15th, 2023
Gene Product: July 5th, 2019
|
| 10 months ago | ereb222 | AP2-EREBP-transcription factor 222: | | | Huanhuan Qi et al. 2023. Advances of Apetala2/Ethylene Response Factors in Regulating Development and Stress Response in Maize Int J Mol Sci. 24:5416. | | Reference: June 15th, 2023
Gene Product: July 5th, 2019
|
| 10 months ago | ereb223 | AP2-EREBP-transcription factor 223: | | | Huanhuan Qi et al. 2023. Advances of Apetala2/Ethylene Response Factors in Regulating Development and Stress Response in Maize Int J Mol Sci. 24:5416. | | Reference: June 15th, 2023
Gene Product: July 5th, 2019
|
| 10 months ago | ereb224 | AP2-EREBP-transcription factor 224: | | | Huanhuan Qi et al. 2023. Advances of Apetala2/Ethylene Response Factors in Regulating Development and Stress Response in Maize Int J Mol Sci. 24:5416. | | Reference: June 15th, 2023
Gene Product: July 5th, 2019
|
| 10 months ago | ereb225 | AP2-EREBP-transcription factor 225: | | | Huanhuan Qi et al. 2023. Advances of Apetala2/Ethylene Response Factors in Regulating Development and Stress Response in Maize Int J Mol Sci. 24:5416. | | Reference: June 15th, 2023
Gene Product: July 5th, 2019
|
| 10 months ago | ereb228 | AP2-EREBP-transcription factor 228: | | | Huanhuan Qi et al. 2023. Advances of Apetala2/Ethylene Response Factors in Regulating Development and Stress Response in Maize Int J Mol Sci. 24:5416. | | Reference: June 15th, 2023
Gene Product: July 5th, 2019
|
| 10 months ago | ereb230 | AP2-EREBP-transcription factor 230: | | | Huanhuan Qi et al. 2023. Advances of Apetala2/Ethylene Response Factors in Regulating Development and Stress Response in Maize Int J Mol Sci. 24:5416. | | Reference: June 15th, 2023
Gene Product: July 5th, 2019
|
| 10 months ago | ereb231 | AP2-EREBP-transcription factor 231: | | | Huanhuan Qi et al. 2023. Advances of Apetala2/Ethylene Response Factors in Regulating Development and Stress Response in Maize Int J Mol Sci. 24:5416. | | Reference: June 15th, 2023
Gene Product: July 5th, 2019
|
| 10 months ago | ereb233 | AP2-EREBP-transcription factor 233: | | | Huanhuan Qi et al. 2023. Advances of Apetala2/Ethylene Response Factors in Regulating Development and Stress Response in Maize Int J Mol Sci. 24:5416. | | Reference: June 15th, 2023
Gene Product: July 5th, 2019
|
| 10 months ago | ereb236 | AP2-EREBP-transcription factor 236: | | | Huanhuan Qi et al. 2023. Advances of Apetala2/Ethylene Response Factors in Regulating Development and Stress Response in Maize Int J Mol Sci. 24:5416. | | Reference: June 15th, 2023
Gene Product: July 5th, 2019
|
| 10 months ago | ereb239 | AP2-EREBP-transcription factor 239: | | | Huanhuan Qi et al. 2023. Advances of Apetala2/Ethylene Response Factors in Regulating Development and Stress Response in Maize Int J Mol Sci. 24:5416. | | Reference: June 15th, 2023
Gene Product: July 5th, 2019
|
| 10 months ago | aox4 | alternative oxidase: | | | Shaoqing Wang et al. 2023. Identification of miRNAs Involved in Maize-Induced Systemic Resistance Primed by Trichoderma harzianum T28 against Cochliobolus heterostrophus Journal of Fungi. 9:278. | | Reference: February 22nd, 2023
Gene Product: June 15th, 2023
|
| 10 months ago | Zm00001d005203 | : | | | Huanhuan Qi et al. 2023. Advances of Apetala2/Ethylene Response Factors in Regulating Development and Stress Response in Maize Int J Mol Sci. 24:5416. | | Reference: June 15th, 2023
Gene Product: July 5th, 2019
|
| 10 months ago | gpdh4 | glucose-6-phosphate dehydrogenase4: | | | Mamani-Huarcaya, BM et al. 2023. Leaf Proteomic Analysis in Seedlings of Two Maize Landraces with Different Tolerance to Boron Toxicity Plants. 12:2322. | | Reference: June 15th, 2023
Gene Product: September 1st, 2003
|
| 10 months ago | mcca1 | 3-methylcrotonoyl-CoA carboxylase-α-subunit1: | | | Mamani-Huarcaya, BM et al. 2023. Leaf Proteomic Analysis in Seedlings of Two Maize Landraces with Different Tolerance to Boron Toxicity Plants. 12:2322. | | Reference: June 15th, 2023
Variation: April 1st, 2023
|
| 10 months ago | chlh1 | Mg chelatase subunit H 1: | | GRMZM2G323024
| Mamani-Huarcaya, BM et al. 2023. Leaf Proteomic Analysis in Seedlings of Two Maize Landraces with Different Tolerance to Boron Toxicity Plants. 12:2322. | AT5G13630 (TAIR)
LOC_Os03g20700 (MSU/TIGR) | Reference: June 15th, 2023
Gene Product: June 11th, 2007
Gene Model: May 15th, 2017
|
| 10 months ago | lhcb3 | light harvesting chlorophyll a/b binding protein3: | 8.03 | | Jingxia Zhang et al. 2023. Multiomics reveals Claroideoglomus etunicatum regulates plant hormone signal transduction, photosynthesis and La compartmentalization in maize to promote growth under La stress. Ecotoxicol Environ Safety. 262:115128. | | Reference: June 15th, 2023
Gene Product: January 8th, 2005
Variation: August 20th, 2014
|
| 10 months ago | gl6 | glossy6: | 3.05 - 3.05 | GRMZM2G139786
| Mamani-Huarcaya, BM et al. 2023. Leaf Proteomic Analysis in Seedlings of Two Maize Landraces with Different Tolerance to Boron Toxicity Plants. 12:2322. | | Reference: June 15th, 2023
Gene Product: March 28th, 2019
Variation: July 28th, 2018
Gene Model: July 28th, 2018
|
| 10 months ago | ssu3 | small subunit Rubisco3: | | | Mamani-Huarcaya, BM et al. 2023. Leaf Proteomic Analysis in Seedlings of Two Maize Landraces with Different Tolerance to Boron Toxicity Plants. 12:2322. | | Reference: June 15th, 2023
Gene Product: September 1st, 2003
Variation: September 1st, 2003
|
| 10 months ago | ereb117 | AP2-EREBP-transcription factor 117: | 8.05 | GRMZM2G113078
| Huanhuan Qi et al. 2023. Advances of Apetala2/Ethylene Response Factors in Regulating Development and Stress Response in Maize Int J Mol Sci. 24:5416. | | Reference: June 15th, 2023
Variation: September 1st, 2003
Gene Model: September 20th, 2018
|
| 10 months ago | abi13 | ABI3-VP1-transcription factor 33: | | GRMZM2G065538
| Cheng, C et al. 2023. Wide-Range Portrayal of AP2/ERF Transcription Factor Family in Maize (Zea mays L.) Development and Stress Responses. Genes. 14 | | Reference: June 15th, 2023
Gene Product: January 29th, 2022
Gene Model: March 23rd, 2019
|
| 10 months ago | ereb202 | AP2-EREBP-transcription factor 202: | | | Huanhuan Qi et al. 2023. Advances of Apetala2/Ethylene Response Factors in Regulating Development and Stress Response in Maize Int J Mol Sci. 24:5416. | | Reference: June 15th, 2023
Variation: January 22nd, 2021
|
| 10 months ago | ereb94 | AP2-EREBP-transcription factor 94: | | | Huanhuan Qi et al. 2023. Advances of Apetala2/Ethylene Response Factors in Regulating Development and Stress Response in Maize Int J Mol Sci. 24:5416. | | Reference: June 15th, 2023
Variation: May 9th, 2017
|
| 10 months ago | aox1 | alternative oxidase1 : | 2.02 | AC233960.1_FG002
| Dai, DW et al. 2020. J Exp Bot pp.doi: 10.1093/jxb/eraa348 | | Reference: July 27th, 2020
Gene Product: June 15th, 2023
Variation: February 22nd, 2012
Gene Model: February 17th, 2012
|
| 10 months ago | col12 | 2C2-CO-like-transcription factor 12: | 5.07 | GRMZM2G041991
| Wang, YF et al. 2023. Integrative transcriptome and metabolome analysis reveals the mechanism of exogenous melatonin alleviating drought stress in maize roots Plant Physiol Biochem. :doi: 10.1016/j.plaphy.2023.107723. | | Reference: June 15th, 2023
Gene Product: September 1st, 2003
Variation: March 31st, 2017
Gene Model: March 31st, 2017
|
| 10 months ago | his1a | histone1a: | 7.01 | GRMZM2G401308
| Mamani-Huarcaya, BM et al. 2023. Leaf Proteomic Analysis in Seedlings of Two Maize Landraces with Different Tolerance to Boron Toxicity Plants. 12:2322. | | Reference: June 15th, 2023
Gene Product: October 24th, 2017
Variation: October 31st, 2017
Gene Model: July 24th, 2015
|
| 10 months ago | eif3 | eukaryotic initiation factor3: | 3.02 | GRMZM2G093050
| Mamani-Huarcaya, BM et al. 2023. Leaf Proteomic Analysis in Seedlings of Two Maize Landraces with Different Tolerance to Boron Toxicity Plants. 12:2322. | | Reference: June 15th, 2023
Gene Product: September 1st, 2003
Variation: February 24th, 2014
Gene Model: January 15th, 2015
|
| 10 months ago | AY109870 | : | 3.04 | GRMZM2G111014
| Mamani-Huarcaya, BM et al. 2023. Leaf Proteomic Analysis in Seedlings of Two Maize Landraces with Different Tolerance to Boron Toxicity Plants. 12:2322. | | Reference: June 15th, 2023
Variation: July 29th, 2004
Gene Model: March 20th, 2018
|
| 10 months ago | hon110 | histone one (H1): | 1.11 | GRMZM2G164020
| Mamani-Huarcaya, BM et al. 2023. Leaf Proteomic Analysis in Seedlings of Two Maize Landraces with Different Tolerance to Boron Toxicity Plants. 12:2322. | | Reference: June 15th, 2023
Variation: June 25th, 2014
Gene Model: October 25th, 2013
|
| 10 months ago | nfc103a | nucleosome/chromatin assembly factor C: | 1.08 | GRMZM2G090217
| Mamani-Huarcaya, BM et al. 2023. Leaf Proteomic Analysis in Seedlings of Two Maize Landraces with Different Tolerance to Boron Toxicity Plants. 12:2322. | | Reference: June 15th, 2023
Variation: September 1st, 2003
Gene Model: December 11th, 2012
|
| 10 months ago | abcf1 | ABC family1: | 2.09 | GRMZM2G105570
| Mamani-Huarcaya, BM et al. 2023. Leaf Proteomic Analysis in Seedlings of Two Maize Landraces with Different Tolerance to Boron Toxicity Plants. 12:2322. | | Reference: June 15th, 2023
Gene Product: December 28th, 2015
Variation: December 24th, 2015
Gene Model: December 24th, 2015
|
| 10 months ago | sun2 | SUN domain protein2: | | GRMZM2G440614
| Mamani-Huarcaya, BM et al. 2023. Leaf Proteomic Analysis in Seedlings of Two Maize Landraces with Different Tolerance to Boron Toxicity Plants. 12:2322. | | Reference: June 15th, 2023
Variation: April 20th, 2011
Gene Model: April 20th, 2011
|
| 10 months ago | aox3 | alternative oxidase3: | | GRMZM2G074743
| Shaoqing Wang et al. 2023. Identification of miRNAs Involved in Maize-Induced Systemic Resistance Primed by Trichoderma harzianum T28 against Cochliobolus heterostrophus Journal of Fungi. 9:278. | | Reference: February 22nd, 2023
Gene Product: June 15th, 2023
Gene Model: February 17th, 2012
|
| 10 months ago | kea4 | K+ efflux antiporter 4: | | GRMZM2G058948
| Mamani-Huarcaya, BM et al. 2023. Leaf Proteomic Analysis in Seedlings of Two Maize Landraces with Different Tolerance to Boron Toxicity Plants. 12:2322. | | Reference: June 15th, 2023
Gene Product: April 26th, 2021
Gene Model: April 26th, 2021
|
| 10 months ago | ptac16 | plastid transcriptionally active16: | | GRMZM2G449496
| Mamani-Huarcaya, BM et al. 2023. Leaf Proteomic Analysis in Seedlings of Two Maize Landraces with Different Tolerance to Boron Toxicity Plants. 12:2322. | | Reference: June 15th, 2023
Gene Product: December 21st, 2022
Gene Model: November 16th, 2021
|
| 10 months ago | ereb218 | AP2-EREBP-transcription factor 218: | | GRMZM2G099326
| Huanhuan Qi et al. 2023. Advances of Apetala2/Ethylene Response Factors in Regulating Development and Stress Response in Maize Int J Mol Sci. 24:5416. | | Reference: June 15th, 2023
Gene Product: July 5th, 2019
Gene Model: August 13th, 2022
|
| 10 months ago | ereb235 | AP2-EREBP-transcription factor 235: | 6.05 | GRMZM2G067036
| Huanhuan Qi et al. 2023. Advances of Apetala2/Ethylene Response Factors in Regulating Development and Stress Response in Maize Int J Mol Sci. 24:5416. | | Reference: June 15th, 2023
Gene Product: July 5th, 2019
Variation: March 31st, 2005
Gene Model: July 2nd, 2021
|
| 10 months ago | cbs1 | cystathionine beta synthase domain protein1: | 1.10 | GRMZM2G416388
| Wenting Wan et al. 2023. Genome-wide association analysis of kernel nutritional quality in two natural maize populations. Mol Breed. 43:18. | | Reference: June 14th, 2023
Gene Product: February 15th, 2015
Variation: February 14th, 2015
Gene Model: February 14th, 2015
|
| 10 months ago | sqs1 | squalene synthase1: | 1.11 | GRMZM2G108225
| Wenting Wan et al. 2023. Genome-wide association analysis of kernel nutritional quality in two natural maize populations. Mol Breed. 43:18. | | Reference: June 14th, 2023
Gene Product: September 1st, 2003
Variation: January 27th, 2011
Gene Model: December 19th, 2014
|
| 10 months ago | fdad1 | false DAD1: | 9.03 | GRMZM5G847530
| Wenting Wan et al. 2023. Genome-wide association analysis of kernel nutritional quality in two natural maize populations. Mol Breed. 43:18. | | Reference: June 14th, 2023
Variation: September 1st, 2015
Gene Model: September 1st, 2015
|
| 10 months ago | sqsh1 | squalene synthase homolog1: | | GRMZM2G029396
| Wenting Wan et al. 2023. Genome-wide association analysis of kernel nutritional quality in two natural maize populations. Mol Breed. 43:18. | | Reference: June 14th, 2023
Variation: January 27th, 2011
Gene Model: June 1st, 2017
|
| 10 months ago | bbx7 | b-box7: | | GRMZM5G813532
| Dong, Y et al. 2023. Genome-wide association analysis for grain moisture content and dehydration rate on maize hybrids. Mol Breed. 43:5. | | Reference: June 14th, 2023
Gene Product: January 11th, 2019
Gene Model: January 10th, 2019
|
| 10 months ago | invinh1 | invertase inhibitor1: | | GRMZM2G162447
| Dong, Y et al. 2023. Genome-wide association analysis for grain moisture content and dehydration rate on maize hybrids. Mol Breed. 43:5. | | Reference: June 14th, 2023
Gene Product: August 7th, 2019
Gene Model: August 7th, 2019
|
| 10 months ago | cct54 | CO CO-LIKE TIMING OF CAB1 protein domain54: | | GRMZM2G057529
| Dong, Y et al. 2023. Genome-wide association analysis for grain moisture content and dehydration rate on maize hybrids. Mol Breed. 43:5. | | Reference: June 14th, 2023
Gene Product: June 18th, 2018
Gene Model: August 17th, 2021
|
| 10 months ago | atg8b | autophagy8b: | 10.06 | GRMZM2G419694
| Wenting Wan et al. 2023. Genome-wide association analysis of kernel nutritional quality in two natural maize populations. Mol Breed. 43:18. | | Reference: June 14th, 2023
Variation: March 31st, 2005
Gene Model: August 15th, 2017
|
| 11 months ago | Zm00001d010801 | : | | | Mira, MM et al. 2023. Plant stem cells under low oxygen: metabolic rewiring by phytoglobin underlies stem cell functionality. Plant Physiol. :doi: 10.1093/plphys/kiad344. | | Reference: June 13th, 2023
Gene Product: October 25th, 2006
|
| 11 months ago | tpi2 | triose phosphate isomerase2: | 2.07 - 2.07 | GRMZM2G002807
| Mira, MM et al. 2023. Plant stem cells under low oxygen: metabolic rewiring by phytoglobin underlies stem cell functionality. Plant Physiol. :doi: 10.1093/plphys/kiad344. | | Reference: June 13th, 2023
Gene Product: March 6th, 2023
Gene Model: January 15th, 2015
|
| 11 months ago | sudh2 | succinate dehydrogenase2: | 4.05 | GRMZM2G302259
| Mira, MM et al. 2023. Plant stem cells under low oxygen: metabolic rewiring by phytoglobin underlies stem cell functionality. Plant Physiol. :doi: 10.1093/plphys/kiad344. | | Reference: June 13th, 2023
Gene Product: October 25th, 2016
Variation: October 25th, 2016
Gene Model: July 28th, 2016
|
| 11 months ago | sbp2 | SBP-domain protein2: | 4.09 | GRMZM2G168229
| Dongdong Dang et al. 2023. Genome-Wide Association Study and Genomic Prediction on Plant Architecture Traits in Sweet Corn and Waxy Corn. 12:303. | | Reference: June 13th, 2023
Gene Product: July 5th, 2019
Variation: October 8th, 2011
Gene Model: December 18th, 2014
|
| 11 months ago | abi32 | ABI3-VP1-transcription factor 32: | | | Dongdong Dang et al. 2023. Genome-Wide Association Study and Genomic Prediction on Plant Architecture Traits in Sweet Corn and Waxy Corn. 12:303. | | Reference: June 13th, 2023
Gene Product: January 29th, 2022
|
| 11 months ago | rca4 | RUBISCO activase4: | 2.02 - 2.02 | GRMZM2G039345
| Dongdong Dang et al. 2023. Genome-Wide Association Study and Genomic Prediction on Plant Architecture Traits in Sweet Corn and Waxy Corn. 12:303. | | Reference: June 13th, 2023
Gene Product: October 28th, 2014
Gene Model: March 2nd, 2021
|
| 11 months ago | mmp18 | : | 7.01 | GRMZM2G066290
| Mira, MM et al. 2023. Plant stem cells under low oxygen: metabolic rewiring by phytoglobin underlies stem cell functionality. Plant Physiol. :doi: 10.1093/plphys/kiad344. | | Reference: June 13th, 2023
Variation: September 4th, 2018
Gene Model: September 4th, 2018
|
| 11 months ago | hvp1 | human viral protein homolog1: | 9.02 | GRMZM5G852396
| Mira, MM et al. 2023. Plant stem cells under low oxygen: metabolic rewiring by phytoglobin underlies stem cell functionality. Plant Physiol. :doi: 10.1093/plphys/kiad344. | | Reference: June 13th, 2023
Gene Product: September 1st, 2003
Variation: September 1st, 2003
Gene Model: June 1st, 2017
|
| 11 months ago | grftf2 | GRF-transcription factor 2: | 2.07 | | Peng, B et al. 2021. Genome-wide association studies of leaf angle in maize. Mol Breed. 41:50. | | Reference: June 13th, 2023
Variation: September 25th, 2007
|
| 11 months ago | myo3 | myosin3: | 1.07 | GRMZM2G113202
| Dongdong Dang et al. 2023. Genome-Wide Association Study and Genomic Prediction on Plant Architecture Traits in Sweet Corn and Waxy Corn. 12:303. | | Reference: June 13th, 2023
Gene Product: September 1st, 2003
Variation: January 31st, 2015
Gene Model: February 1st, 2015
|
| 11 months ago | si606008c01 | : | 1.08 | GRMZM2G103672
| Dongdong Dang et al. 2023. Genome-Wide Association Study and Genomic Prediction on Plant Architecture Traits in Sweet Corn and Waxy Corn. 12:303. | | Reference: June 13th, 2023
Gene Product: April 24th, 2008
Gene Model: August 10th, 2022
|
| 11 months ago | si683003d07 | : | 1.08 | GRMZM2G103672
| Dongdong Dang et al. 2023. Genome-Wide Association Study and Genomic Prediction on Plant Architecture Traits in Sweet Corn and Waxy Corn. 12:303. | | Reference: June 13th, 2023
Gene Product: April 24th, 2008
Gene Model: August 12th, 2022
|
| 11 months ago | rld2 | rolled leaf2: | 1.01 | GRMZM2G042250
| Dongdong Dang et al. 2023. Genome-Wide Association Study and Genomic Prediction on Plant Architecture Traits in Sweet Corn and Waxy Corn. 12:303. | | Reference: June 13th, 2023
Gene Product: October 6th, 2015
Variation: January 18th, 2010
Gene Model: October 6th, 2015
|
| 11 months ago | cl1480_2a | : | 4.09 | GRMZM2G161969
| Mira, MM et al. 2023. Plant stem cells under low oxygen: metabolic rewiring by phytoglobin underlies stem cell functionality. Plant Physiol. :doi: 10.1093/plphys/kiad344. | | Reference: June 13th, 2023
Variation: September 25th, 2007
Gene Model: May 26th, 2021
|
| 11 months ago | sudh4 | succinate dehydrogenase4: | | GRMZM2G079888
| Mira, MM et al. 2023. Plant stem cells under low oxygen: metabolic rewiring by phytoglobin underlies stem cell functionality. Plant Physiol. :doi: 10.1093/plphys/kiad344. | | Reference: June 13th, 2023
Gene Product: October 25th, 2016
Variation: October 25th, 2016
Gene Model: October 25th, 2016
|
| 11 months ago | sudh5 | succinate dehydrogenase5: | | GRMZM2G109271
| Mira, MM et al. 2023. Plant stem cells under low oxygen: metabolic rewiring by phytoglobin underlies stem cell functionality. Plant Physiol. :doi: 10.1093/plphys/kiad344. | | Reference: June 13th, 2023
Gene Product: October 25th, 2016
Gene Model: October 25th, 2016
|
| 11 months ago | sudh6 | succinate dehydrogenase6: | | GRMZM2G398876
| Mira, MM et al. 2023. Plant stem cells under low oxygen: metabolic rewiring by phytoglobin underlies stem cell functionality. Plant Physiol. :doi: 10.1093/plphys/kiad344. | | Reference: June 13th, 2023
Gene Product: October 25th, 2016
Gene Model: October 25th, 2016
|
| 11 months ago | sudh12 | succinate dehydrogenase12: | | GRMZM2G146965
| Mira, MM et al. 2023. Plant stem cells under low oxygen: metabolic rewiring by phytoglobin underlies stem cell functionality. Plant Physiol. :doi: 10.1093/plphys/kiad344. | | Reference: June 13th, 2023
Gene Product: October 25th, 2016
Variation: October 25th, 2016
Gene Model: October 25th, 2016
|
| 11 months ago | aco6 | aconitase6: | | GRMZM2G364988
| Mira, MM et al. 2023. Plant stem cells under low oxygen: metabolic rewiring by phytoglobin underlies stem cell functionality. Plant Physiol. :doi: 10.1093/plphys/kiad344. | | Reference: June 13th, 2023
Gene Product: September 1st, 2003
Gene Model: November 15th, 2019
|
| 11 months ago | aco10 | aconitase10: | | GRMZM2G127429
| Mira, MM et al. 2023. Plant stem cells under low oxygen: metabolic rewiring by phytoglobin underlies stem cell functionality. Plant Physiol. :doi: 10.1093/plphys/kiad344. | | Reference: June 13th, 2023
Gene Product: September 1st, 2003
Gene Model: November 15th, 2019
|
| 11 months ago | aco11 | aconitase11: | | GRMZM2G311024
| Mira, MM et al. 2023. Plant stem cells under low oxygen: metabolic rewiring by phytoglobin underlies stem cell functionality. Plant Physiol. :doi: 10.1093/plphys/kiad344. | | Reference: June 13th, 2023
Gene Product: September 1st, 2003
Gene Model: November 15th, 2019
|
| 11 months ago | sus7 | sucrose synthase7: | | GRMZM2G060659
| Mira, MM et al. 2023. Plant stem cells under low oxygen: metabolic rewiring by phytoglobin underlies stem cell functionality. Plant Physiol. :doi: 10.1093/plphys/kiad344. | | Reference: June 13th, 2023
Gene Product: October 25th, 2006
Gene Model: July 13th, 2020
|
| 11 months ago | chx5 | cation/H+ antiporter 5: | | GRMZM2G366851
| Dongdong Dang et al. 2023. Genome-Wide Association Study and Genomic Prediction on Plant Architecture Traits in Sweet Corn and Waxy Corn. 12:303. | | Reference: June 13th, 2023
Gene Product: April 26th, 2021
Gene Model: April 26th, 2021
|
| 11 months ago | cyp41 | cytochrome P450 41: | | | Dongdong Dang et al. 2023. Genome-Wide Association Study and Genomic Prediction on Plant Architecture Traits in Sweet Corn and Waxy Corn. 12:303. | | Reference: June 13th, 2023
Gene Product: December 30th, 2022
|
| 11 months ago | IDP701 | : | 1.03 | GRMZM2G048703
| Dongdong Dang et al. 2023. Genome-Wide Association Study and Genomic Prediction on Plant Architecture Traits in Sweet Corn and Waxy Corn. 12:303. | | Reference: June 13th, 2023
Variation: March 31st, 2005
Gene Model: February 12th, 2019
|
| 11 months ago | IDP155 | : | 4.11 | GRMZM2G131087
| Dongdong Dang et al. 2023. Genome-Wide Association Study and Genomic Prediction on Plant Architecture Traits in Sweet Corn and Waxy Corn. 12:303. | | Reference: June 13th, 2023
Variation: March 31st, 2005
Gene Model: January 13th, 2021
|
| 11 months ago | me9 | NAD-dependent malic enzyme9: | 7.03 | GRMZM2G406672
| Mira, MM et al. 2023. Plant stem cells under low oxygen: metabolic rewiring by phytoglobin underlies stem cell functionality. Plant Physiol. :doi: 10.1093/plphys/kiad344. | | Reference: June 13th, 2023
Gene Product: June 4th, 2020
Gene Model: June 4th, 2020
|
| 11 months ago | axs1 | alpha-xylosidase1: | | | Li, H et al. 2023. ZmXYL modulates auxin-induced maize growth. Plant J. :doi: 10.1111/tpj.16348. | | Reference: June 12th, 2023
Gene Product: June 12th, 2023
Variation: June 12th, 2023
|
| 11 months ago | mlks2 | Maize LINC KASH AtSINE-like2: | | GRMZM2G000608
| Ashraf, MA et al. 2023. A polarized nuclear position specifies the correct division plane during maize stomatal development. Plant Physiol. :doi: 10.1093/plphys/kiad329. | | Reference: June 12th, 2023
Gene Product: February 1st, 2021
Variation: June 22nd, 2019
Gene Model: June 7th, 2018
|
| 11 months ago | pgl9 | exopolygalacturonase9: | | GRMZM2G418644
| Honglin Wang et al. 2023. Pollen self-elimination CRISPR/Cas genome editing prevents transgenic pollen dispersal in maize. Plant Commun. :doi: 10.1016/j.xplc.2023.100637.. | | Reference: June 12th, 2023
Gene Product: October 4th, 2021
Gene Model: August 24th, 2018
|
| 11 months ago | umc1591 | : | 5.04 | GRMZM2G083526
| Ma, PP et al. 2023. Genetic variation in ZmWAX2 confers maize resistance to Fusarium verticillioides. Plant Biotechnol J. :doi: 10.1111/pbi.14093. | | Reference: June 9th, 2023
Variation: September 1st, 2003
Gene Model: June 28th, 2018
|
| 11 months ago | cys7 | cysteine synthase7: | | GRMZM2G104237
| Xiaoxiao Yang et al. 2023. Hydrogen sulfide alleviates chromium toxicity by promoting chromium sequestration and re-establishing redox homeostasis in Zea mays L Environ Pollut. :doi: 10.1016/j.envpol.2023.121958. | | Reference: June 8th, 2023
Gene Product: September 1st, 2003
Gene Model: December 1st, 2018
|
| 11 months ago | cys8 | cysteine synthase8: | | | Xiaoxiao Yang et al. 2023. Hydrogen sulfide alleviates chromium toxicity by promoting chromium sequestration and re-establishing redox homeostasis in Zea mays L Environ Pollut. :doi: 10.1016/j.envpol.2023.121958. | | Reference: June 8th, 2023
Gene Product: September 1st, 2003
|
| 11 months ago | piip2 | physical impedance induced protein2: | 5.03 | GRMZM2G300135
| Xiaokang Han et al. 2023. Transcriptomic Analysis of Three Differentially Senescing Maize (Zea mays L.) Inbred Lines upon Heat Stress Int J Mol Sci. 24:9782. | | Reference: June 6th, 2023
Gene Product: September 1st, 2003
Variation: January 6th, 2015
Gene Model: January 6th, 2015
|
| 11 months ago | gst24 | glutathione transferase24: | 5.07 | GRMZM2G032856
| Xiaokang Han et al. 2023. Transcriptomic Analysis of Three Differentially Senescing Maize (Zea mays L.) Inbred Lines upon Heat Stress Int J Mol Sci. 24:9782. | | Reference: June 6th, 2023
Gene Product: September 1st, 2003
Variation: August 20th, 2010
Gene Model: July 27th, 2016
|
| 11 months ago | gst29 | glutathione transferase29: | 3.05 | GRMZM2G127789
| Xiaokang Han et al. 2023. Transcriptomic Analysis of Three Differentially Senescing Maize (Zea mays L.) Inbred Lines upon Heat Stress Int J Mol Sci. 24:9782. | | Reference: June 6th, 2023
Gene Product: September 1st, 2003
Gene Model: July 27th, 2016
|
| 11 months ago | grx14 | glutaredoxin14: | | GRMZM2G318180
| Xiaokang Han et al. 2023. Transcriptomic Analysis of Three Differentially Senescing Maize (Zea mays L.) Inbred Lines upon Heat Stress Int J Mol Sci. 24:9782. | | Reference: June 6th, 2023
Gene Product: January 21st, 2021
Gene Model: December 14th, 2021
|
| 11 months ago | arf2 | ADP-ribosylation factor homolog2: | | | Zhang, J et al. 2023. Integrated Multi-Omics Reveals Significant Roles of Non-Additively Expressed Small RNAs in Heterosis for Maize Plant Height Int J Mol Sci. 24:9150. | | Reference: June 5th, 2023
Gene Product: June 23rd, 2012
Variation: March 3rd, 2023
|
| 11 months ago | gst5 | glutathione transferase5: | 1.11 | GRMZM2G308687
| Zhang, J et al. 2023. Integrated Multi-Omics Reveals Significant Roles of Non-Additively Expressed Small RNAs in Heterosis for Maize Plant Height Int J Mol Sci. 24:9150. | | Reference: June 5th, 2023
Gene Product: September 1st, 2003
Variation: July 22nd, 2010
Gene Model: July 27th, 2016
|
| 11 months ago | zim24 | ZIM-transcription factor 24: | | | Zhang, J et al. 2023. Integrated Multi-Omics Reveals Significant Roles of Non-Additively Expressed Small RNAs in Heterosis for Maize Plant Height Int J Mol Sci. 24:9150. | | Reference: June 5th, 2023
Gene Product: February 24th, 2021
|
| 11 months ago | aaap20 | amino acid/auxin permease20: | | GRMZM2G078024
| Zhang, J et al. 2023. Integrated Multi-Omics Reveals Significant Roles of Non-Additively Expressed Small RNAs in Heterosis for Maize Plant Height Int J Mol Sci. 24:9150. | | Reference: June 5th, 2023
Gene Product: March 31st, 2021
Gene Model: March 30th, 2021
|
| 11 months ago | pco101160 | : | 7.05 | GRMZM2G000718
| Zhang, J et al. 2023. Integrated Multi-Omics Reveals Significant Roles of Non-Additively Expressed Small RNAs in Heterosis for Maize Plant Height Int J Mol Sci. 24:9150. | | Reference: June 5th, 2023
Variation: September 25th, 2007
Gene Model: September 1st, 2021
|
| 11 months ago | pht1 | phosphate transporter protein1: | 5.03 | GRMZM2G326707
| Wang, YF et al. 2023. The long-noncoding RNA PILNCR2 increases low phosphate tolerance in maize by interfering with miRNA399-guided cleavage of ZmPHT1s. Molecular Plant. :doi: 10.1016/j.molp.2023.05.009. | | Reference: June 2nd, 2023
Gene Product: June 16th, 2016
Variation: February 4th, 2011
Gene Model: May 27th, 2015
|
| 11 months ago | cks1 | corkscrew1: | | | Alexander, DL; Mellor, E A; Langdale, J. 2005. Plant Physiol. 138:1396-1408 | | Reference: December 29th, 2005
Gene Product: December 29th, 2005
Variation: June 1st, 2023
|
| 11 months ago | sdg101 | set domain gene101: | 7.02 | AC233961.1_FG001
| Emily Nischwitz et al. 2023. DNA damage repair proteins across the Tree of Life. 26:106778. | | Reference: May 31st, 2023
Gene Product: June 30th, 2017
Variation: June 29th, 2017
Gene Model: June 29th, 2017
|
| 11 months ago | cl41475_1 | : | 2.08 | GRMZM2G001297
| Emily Nischwitz et al. 2023. DNA damage repair proteins across the Tree of Life. 26:106778. | | Reference: May 31st, 2023
Variation: September 25th, 2007
Gene Model: August 16th, 2021
|
| 11 months ago | thx34 | Trihelix-transcription factor 34: | | GRMZM2G162840
| Emily Nischwitz et al. 2023. DNA damage repair proteins across the Tree of Life. 26:106778. | | Reference: May 31st, 2023
Gene Product: November 9th, 2021
Gene Model: August 7th, 2019
|
| 11 months ago | mha5 | membrane H(+)-ATPase5: | | GRMZM2G341058
| Ding, YH et al. 2023. Identification of Germplasm and Sugar Transporter Gene ZmSWEET1b Associated with Salt Tolerance in Maize J Plant Growth Reg. :doi: 10.1007/s00344-023-11033-9. | | Reference: May 31st, 2023
Gene Product: September 1st, 2003
Gene Model: January 10th, 2020
|
| 11 months ago | mha7 | membrane H(+)-ATPase7: | | GRMZM2G148374
| Ding, YH et al. 2023. Identification of Germplasm and Sugar Transporter Gene ZmSWEET1b Associated with Salt Tolerance in Maize J Plant Growth Reg. :doi: 10.1007/s00344-023-11033-9. | | Reference: May 31st, 2023
Gene Product: September 1st, 2003
Gene Model: January 10th, 2020
|
| 11 months ago | hak16 | potassium high-affinity transporter16: | | GRMZM2G084486
| Ding, YH et al. 2023. Identification of Germplasm and Sugar Transporter Gene ZmSWEET1b Associated with Salt Tolerance in Maize J Plant Growth Reg. :doi: 10.1007/s00344-023-11033-9. | | Reference: May 31st, 2023
Gene Product: March 12th, 2020
Gene Model: March 12th, 2020
|
| 11 months ago | hak21 | potassium high-affinity transporter21: | | GRMZM2G438960
| Ding, YH et al. 2023. Identification of Germplasm and Sugar Transporter Gene ZmSWEET1b Associated with Salt Tolerance in Maize J Plant Growth Reg. :doi: 10.1007/s00344-023-11033-9. | | Reference: May 31st, 2023
Gene Product: March 12th, 2020
Gene Model: March 12th, 2020
|
| 11 months ago | thx56 | Trihelix-transcription factor 56: | | GRMZM2G436533
| Emily Nischwitz et al. 2023. DNA damage repair proteins across the Tree of Life. 26:106778. | | Reference: May 31st, 2023
Gene Product: November 9th, 2021
Gene Model: November 9th, 2021
|
| 11 months ago | tubtf2 | TUB-transcription factor 2: | 3.06 | GRMZM5G866954
| Huilong Chen et al. 2023. Whole-genome and dispersed duplication, including transposed duplication, jointly advance the evolution of TLP genes in seven representative Poaceae lineages BMC Genomics. 24:290. | | Reference: May 30th, 2023
Gene Product: September 29th, 2015
Gene Model: September 29th, 2015
|
| 11 months ago | tubtf1 | TUB-transcription factor 1: | | | Huilong Chen et al. 2023. Whole-genome and dispersed duplication, including transposed duplication, jointly advance the evolution of TLP genes in seven representative Poaceae lineages BMC Genomics. 24:290. | | Reference: May 30th, 2023
Gene Product: September 29th, 2015
|
| 11 months ago | tubtf10 | TUB-transcription factor 10: | | | Huilong Chen et al. 2023. Whole-genome and dispersed duplication, including transposed duplication, jointly advance the evolution of TLP genes in seven representative Poaceae lineages BMC Genomics. 24:290. | | Reference: May 30th, 2023
Gene Product: September 29th, 2015
|
| 11 months ago | tubtf11 | TUB-transcription factor 11: | | | Huilong Chen et al. 2023. Whole-genome and dispersed duplication, including transposed duplication, jointly advance the evolution of TLP genes in seven representative Poaceae lineages BMC Genomics. 24:290. | | Reference: May 30th, 2023
Gene Product: September 29th, 2015
|
| 11 months ago | tubtf12 | TUB-transcription factor 12: | | | Huilong Chen et al. 2023. Whole-genome and dispersed duplication, including transposed duplication, jointly advance the evolution of TLP genes in seven representative Poaceae lineages BMC Genomics. 24:290. | | Reference: May 30th, 2023
Gene Product: September 29th, 2015
|
| 11 months ago | tubtf13 | TUB-transcription factor 13: | | | Huilong Chen et al. 2023. Whole-genome and dispersed duplication, including transposed duplication, jointly advance the evolution of TLP genes in seven representative Poaceae lineages BMC Genomics. 24:290. | | Reference: May 30th, 2023
Gene Product: September 29th, 2015
|
| 11 months ago | tubtf3 | TUB-transcription factor 3: | | | Huilong Chen et al. 2023. Whole-genome and dispersed duplication, including transposed duplication, jointly advance the evolution of TLP genes in seven representative Poaceae lineages BMC Genomics. 24:290. | | Reference: May 30th, 2023
Gene Product: September 29th, 2015
|
| 11 months ago | tubtf5 | TUB-transcription factor 5: | | | Huilong Chen et al. 2023. Whole-genome and dispersed duplication, including transposed duplication, jointly advance the evolution of TLP genes in seven representative Poaceae lineages BMC Genomics. 24:290. | | Reference: May 30th, 2023
Gene Product: September 29th, 2015
|
| 11 months ago | tubtf8 | TUB-transcription factor 8: | | | Huilong Chen et al. 2023. Whole-genome and dispersed duplication, including transposed duplication, jointly advance the evolution of TLP genes in seven representative Poaceae lineages BMC Genomics. 24:290. | | Reference: May 30th, 2023
Gene Product: September 29th, 2015
|
| 11 months ago | tubtf14 | TUB-transcription factor 14: | 10.02 | GRMZM2G001272
| Huilong Chen et al. 2023. Whole-genome and dispersed duplication, including transposed duplication, jointly advance the evolution of TLP genes in seven representative Poaceae lineages BMC Genomics. 24:290. | | Reference: May 30th, 2023
Gene Product: September 29th, 2015
Variation: December 16th, 2011
Gene Model: September 29th, 2015
|
| 11 months ago | tubtf7 | TUB-transcription factor 7: | 4.08 | GRMZM2G163726
| Huilong Chen et al. 2023. Whole-genome and dispersed duplication, including transposed duplication, jointly advance the evolution of TLP genes in seven representative Poaceae lineages BMC Genomics. 24:290. | | Reference: May 30th, 2023
Gene Product: September 29th, 2015
Gene Model: September 29th, 2015
|
| 11 months ago | tubtf9 | TUB-transcription factor 9: | 5.06 | GRMZM2G115701
| Huilong Chen et al. 2023. Whole-genome and dispersed duplication, including transposed duplication, jointly advance the evolution of TLP genes in seven representative Poaceae lineages BMC Genomics. 24:290. | | Reference: May 30th, 2023
Gene Product: September 29th, 2015
Gene Model: September 29th, 2015
|
| 11 months ago | ftcl3 | 5-formyltetrahydrofolate cyclo-ligase3: | 5.03 | GRMZM2G124863
| Li, XH et al. 2023. Genome-wide Association Study of Root Hair Length in Maize Tropical Plant Biology. :doi: 10.1007/s12042-023-09331-3. | | Reference: May 29th, 2023
Gene Product: August 20th, 2014
Gene Model: January 14th, 2021
|
| 11 months ago | lac10 | laccase10: | | GRMZM2G140527
| Li, XH et al. 2023. Genome-wide Association Study of Root Hair Length in Maize Tropical Plant Biology. :doi: 10.1007/s12042-023-09331-3. | | Reference: May 29th, 2023
Gene Product: March 31st, 2018
Variation: May 21st, 2021
Gene Model: May 6th, 2016
|
| 11 months ago | zim8 | ZIM-transcription factor 8: | | | Emeline Nanou Dossa et al. 2023. Genetic resources and breeding of maize for Striga resistance: a review Frontiers in Plant Science. 14:1163785. | | Reference: May 27th, 2023
Gene Product: February 24th, 2021
|
| 11 months ago | citt1 | citrate transporter1: | 1.01 | GRMZM2G028521
| Emeline Nanou Dossa et al. 2023. Genetic resources and breeding of maize for Striga resistance: a review Frontiers in Plant Science. 14:1163785. | | Reference: May 27th, 2023
Variation: April 26th, 2016
Gene Model: April 26th, 2016
|
| 11 months ago | umc60 | : | 3.06 | GRMZM2G094771
| Emeline Nanou Dossa et al. 2023. Genetic resources and breeding of maize for Striga resistance: a review Frontiers in Plant Science. 14:1163785. | | Reference: May 27th, 2023
Variation: September 1st, 2003
Gene Model: April 4th, 2018
|
| 11 months ago | aed3 | aspartyl protease3: | | GRMZM2G024099
| Emeline Nanou Dossa et al. 2023. Genetic resources and breeding of maize for Striga resistance: a review Frontiers in Plant Science. 14:1163785. | | Reference: May 27th, 2023
Gene Product: September 26th, 2020
Gene Model: September 26th, 2020
|
| 11 months ago | plc9 | phospholipase C9: | | GRMZM2G422670
| Emeline Nanou Dossa et al. 2023. Genetic resources and breeding of maize for Striga resistance: a review Frontiers in Plant Science. 14:1163785. | | Reference: May 27th, 2023
Gene Product: January 12th, 2021
Gene Model: January 12th, 2021
|
| 11 months ago | cl29338_1 | : | 10.04 | GRMZM2G006948
| Emeline Nanou Dossa et al. 2023. Genetic resources and breeding of maize for Striga resistance: a review Frontiers in Plant Science. 14:1163785. | | Reference: May 27th, 2023
Variation: September 25th, 2007
Gene Model: September 12th, 2021
|
| 11 months ago | ig3 | indeterminate gametophyte3: | | | Chettoor, AM et al. 2023. Genetics doi: 10.1093/genetics/iyad101 | | Reference: May 26th, 2023
Variation: November 12th, 2022
|
| 11 months ago | gl3 | glossy3: | 4.08 | GRMZM2G162434
| Zhao, M et al. 2023. Bacterium-enabled transient gene activation by artificial transcription factors for resolving gene regulation in maize Plant Cell. :doi: 10.1093/plcell/koad155. | | Reference: May 26th, 2023
Gene Product: June 2nd, 2012
Variation: June 2nd, 2012
Gene Model: June 2nd, 2012
|
| 11 months ago | ig2 | indeterminate gametophyte2: | 8.06 | GRMZM2G030284
| Chettoor, AM et al. 2023. Genetics doi: 10.1093/genetics/iyad101 | | Reference: May 26th, 2023
Variation: November 12th, 2022
Gene Model: September 2nd, 2019
|
| 11 months ago | bzip40 | bZIP-transcription factor 40: | 2.06 | AC203957.3_FG004
| Huiling Cheng et al. 2023. TSPTFBS 2.0: trans-species prediction of transcription factor binding sites and identification of their core motifs in plants. Frontiers in Plant Science. 14:1175837. | | Reference: May 25th, 2023
Variation: September 1st, 2003
Gene Model: February 16th, 2018
|
| 11 months ago | myb37 | MYB-transcription factor 37: | 5.01 | GRMZM2G455869
| Huiling Cheng et al. 2023. TSPTFBS 2.0: trans-species prediction of transcription factor binding sites and identification of their core motifs in plants. Frontiers in Plant Science. 14:1175837. | | Reference: May 25th, 2023
Variation: September 1st, 2003
Gene Model: June 15th, 2018
|
| 11 months ago | alf2 | Alfin-like-transcription factor 2: | | | Huiling Cheng et al. 2023. TSPTFBS 2.0: trans-species prediction of transcription factor binding sites and identification of their core motifs in plants. Frontiers in Plant Science. 14:1175837. | | Reference: May 25th, 2023
Gene Product: November 11th, 2021
|
| 11 months ago | alf7 | Alfin-like-transcription factor 7: | | | Huiling Cheng et al. 2023. TSPTFBS 2.0: trans-species prediction of transcription factor binding sites and identification of their core motifs in plants. Frontiers in Plant Science. 14:1175837. | | Reference: May 25th, 2023
Gene Product: November 11th, 2021
|
| 11 months ago | col13 | C2C2-CO-like-transcription factor 13: | | | Huiling Cheng et al. 2023. TSPTFBS 2.0: trans-species prediction of transcription factor binding sites and identification of their core motifs in plants. Frontiers in Plant Science. 14:1175837. | | Reference: May 25th, 2023
Gene Product: June 18th, 2018
|
| 11 months ago | col7 | C2C2-CO-like-transcription factor 7: | | | Huiling Cheng et al. 2023. TSPTFBS 2.0: trans-species prediction of transcription factor binding sites and identification of their core motifs in plants. Frontiers in Plant Science. 14:1175837. | | Reference: May 25th, 2023
Gene Product: June 18th, 2018
|
| 11 months ago | col8 | C2C2-CO-like-transcription factor 8: | | | Huiling Cheng et al. 2023. TSPTFBS 2.0: trans-species prediction of transcription factor binding sites and identification of their core motifs in plants. Frontiers in Plant Science. 14:1175837. | | Reference: May 25th, 2023
Gene Product: June 18th, 2018
|
| 11 months ago | cchh133 | Cys2His2 Zinc Finger133: | | | Huiling Cheng et al. 2023. TSPTFBS 2.0: trans-species prediction of transcription factor binding sites and identification of their core motifs in plants. Frontiers in Plant Science. 14:1175837. | | Reference: May 25th, 2023
Gene Product: November 14th, 2022
|
| 11 months ago | ca3p2 | CCAAT-HAP3-transcription factor 32: | | | Adnan Rasheed et al. 2023. Breeding Drought-Tolerant Maize (Zea mays) Using Molecular Breeding Tools: Recent Advancements and Future Prospective Agronomy. 13:1459. | | Reference: May 25th, 2023
Gene Product: August 9th, 2016
|
| 11 months ago | tcptf23 | TCP-transcription factor 23: | | | Huiling Cheng et al. 2023. TSPTFBS 2.0: trans-species prediction of transcription factor binding sites and identification of their core motifs in plants. Frontiers in Plant Science. 14:1175837. | | Reference: May 25th, 2023
Gene Product: September 27th, 2019
Variation: March 18th, 2021
|
| 11 months ago | knox6 | knotted related homeobox6: | 5.04 | GRMZM2G370332
| Huiling Cheng et al. 2023. TSPTFBS 2.0: trans-species prediction of transcription factor binding sites and identification of their core motifs in plants. Frontiers in Plant Science. 14:1175837. | | Reference: May 25th, 2023
Gene Product: September 1st, 2003
Variation: August 12th, 2014
Gene Model: August 12th, 2014
|
| 11 months ago | mab16 | math-btb16: | | GRMZM2G172210
| Huiling Cheng et al. 2023. TSPTFBS 2.0: trans-species prediction of transcription factor binding sites and identification of their core motifs in plants. Frontiers in Plant Science. 14:1175837. | | Reference: May 25th, 2023
Gene Product: June 6th, 2014
Variation: May 10th, 2017
Gene Model: February 14th, 2017
|
| 11 months ago | col18 | C2C2-CO-like-transcription factor 18: | | GRMZM2G148772
| Huiling Cheng et al. 2023. TSPTFBS 2.0: trans-species prediction of transcription factor binding sites and identification of their core motifs in plants. Frontiers in Plant Science. 14:1175837. | | Reference: May 25th, 2023
Gene Product: June 18th, 2018
Gene Model: June 16th, 2018
|
| 11 months ago | umc1413 | : | 6.05 | GRMZM2G030123
| Shan Chen et al. 2023. Genome-wide association study presents insights into the genetic architecture of drought tolerance in maize seedlings under field water-deficit conditions. Frontiers in Plant Science. 14:1165582. | | Reference: May 24th, 2023
Variation: September 1st, 2003
Gene Model: August 27th, 2018
|
| 11 months ago | umc1963 | : | 4.04 | GRMZM2G171311
| Shan Chen et al. 2023. Genome-wide association study presents insights into the genetic architecture of drought tolerance in maize seedlings under field water-deficit conditions. Frontiers in Plant Science. 14:1165582. | | Reference: May 24th, 2023
Variation: September 1st, 2003
Gene Model: June 10th, 2018
|
| 11 months ago | exo4 | exochitinase4: | | GRMZM2G117405
| Shan Chen et al. 2023. Genome-wide association study presents insights into the genetic architecture of drought tolerance in maize seedlings under field water-deficit conditions. Frontiers in Plant Science. 14:1165582. | | Reference: May 24th, 2023
Gene Product: May 31st, 2021
Gene Model: June 1st, 2021
|
| 11 months ago | asft2 | aliphatic suberin feruloyl transferase2: | | | Patrick Z Ellsworth et al. 2023. Leaf cell wall properties and stomatal density influence oxygen isotope enrichment of leaf water. Plant Cell Environ. :doi: 10.1111/pce.14612. | | Reference: May 23rd, 2023
Gene Product: May 23rd, 2023
|
| 11 months ago | bk2 | brittle stalk2: | 9.04 - 9.05 | GRMZM2G109326
| Xu, W et al. 2023. Identification of ZmBK2 Gene Variation Involved in Regulating Maize Brittleness Genes. 14:1126. | | Reference: May 23rd, 2023
Gene Product: March 31st, 2021
Variation: March 6th, 2012
Gene Model: March 5th, 2012
|
| 11 months ago | hct10 | hydroxycinnamoyltransferase10: | | GRMZM2G034360
| Patrick Z Ellsworth et al. 2023. Leaf cell wall properties and stomatal density influence oxygen isotope enrichment of leaf water. Plant Cell Environ. :doi: 10.1111/pce.14612. | | Reference: May 23rd, 2023
Gene Product: November 7th, 2015
Gene Model: May 18th, 2016
|
| 11 months ago | flz12 | FCS-like zinc finger12: | | GRMZM2G051752
| Seema Sahay et al. 2023. Genetic control of photoprotection and photosystem II operating efficiency in plants. New Phytol. | | Reference: May 22nd, 2023
Gene Product: March 29th, 2021
Gene Model: March 30th, 2021
|
| 11 months ago | saf1 | safener induced1: | 1.03 | GRMZM2G042639
| Sun, LL et al. 2023. Transcriptomic analysis of maize uncovers putative genes involved in metabolic detoxification under four safeners treatment Pestic Biochem Physiol. :doi: 10.1016/j.pestbp.2023.105465. | | Reference: May 17th, 2023
Gene Product: September 1st, 2003
Variation: September 1st, 2003
Gene Model: December 24th, 2015
|
| 11 months ago | gst6 | glutathione transferase6: | 7.01 | GRMZM2G129357
| Sun, LL et al. 2023. Transcriptomic analysis of maize uncovers putative genes involved in metabolic detoxification under four safeners treatment Pestic Biochem Physiol. :doi: 10.1016/j.pestbp.2023.105465. | | Reference: May 17th, 2023
Gene Product: September 1st, 2003
Variation: July 22nd, 2010
Gene Model: July 27th, 2016
|
| 11 months ago | cadtfr4 | CCAAT-DR1-transcription factor 4: | | | Cao, LR et al. 2023. Genome-wide identification of NF-Y gene family in maize (Zea mays L.) and the positive role of ZmNF-YC12 in drought resistance and recovery ability Frontiers in Plant Science. 14:1159955. | | Reference: May 17th, 2023
Gene Product: August 9th, 2016
|
| 11 months ago | cadtfr9 | CCAAT-DR1-transcription factor 9: | | | Cao, LR et al. 2023. Genome-wide identification of NF-Y gene family in maize (Zea mays L.) and the positive role of ZmNF-YC12 in drought resistance and recovery ability Frontiers in Plant Science. 14:1159955. | | Reference: May 17th, 2023
Gene Product: August 9th, 2016
|
| 11 months ago | ca2p8 | CCAAT-HAP2-transcription factor 28: | | | Cao, LR et al. 2023. Genome-wide identification of NF-Y gene family in maize (Zea mays L.) and the positive role of ZmNF-YC12 in drought resistance and recovery ability Frontiers in Plant Science. 14:1159955. | | Reference: May 17th, 2023
Gene Product: August 9th, 2016
|
| 11 months ago | ca2p9 | CCAAT-HAP2-transcription factor 29: | | | Cao, LR et al. 2023. Genome-wide identification of NF-Y gene family in maize (Zea mays L.) and the positive role of ZmNF-YC12 in drought resistance and recovery ability Frontiers in Plant Science. 14:1159955. | | Reference: May 17th, 2023
Gene Product: August 9th, 2016
|
| 11 months ago | ca5p1 | CCAAT-HAP5-transcription factor 51: | | | Cao, LR et al. 2023. Genome-wide identification of NF-Y gene family in maize (Zea mays L.) and the positive role of ZmNF-YC12 in drought resistance and recovery ability Frontiers in Plant Science. 14:1159955. | | Reference: May 17th, 2023
Gene Product: August 9th, 2016
|
| 11 months ago | ca5p13 | CCAAT-HAP5-transcription factor 513: | | | Cao, LR et al. 2023. Genome-wide identification of NF-Y gene family in maize (Zea mays L.) and the positive role of ZmNF-YC12 in drought resistance and recovery ability Frontiers in Plant Science. 14:1159955. | | Reference: May 17th, 2023
Gene Product: August 9th, 2016
|
| 11 months ago | ca5p14 | CCAAT-HAP5-transcription factor 514: | | | Cao, LR et al. 2023. Genome-wide identification of NF-Y gene family in maize (Zea mays L.) and the positive role of ZmNF-YC12 in drought resistance and recovery ability Frontiers in Plant Science. 14:1159955. | | Reference: May 17th, 2023
Gene Product: August 9th, 2016
|
| 11 months ago | ca5p15 | CCAAT-HAP5-transcription factor 515: | | | Cao, LR et al. 2023. Genome-wide identification of NF-Y gene family in maize (Zea mays L.) and the positive role of ZmNF-YC12 in drought resistance and recovery ability Frontiers in Plant Science. 14:1159955. | | Reference: May 17th, 2023
Gene Product: August 9th, 2016
|
| 11 months ago | ca5p17 | CCAAT-HAP5-transcription factor 517: | | | Cao, LR et al. 2023. Genome-wide identification of NF-Y gene family in maize (Zea mays L.) and the positive role of ZmNF-YC12 in drought resistance and recovery ability Frontiers in Plant Science. 14:1159955. | | Reference: May 17th, 2023
Gene Product: August 9th, 2016
|
| 11 months ago | ca5p2 | CCAAT-HAP5-transcription factor 52: | | | Cao, LR et al. 2023. Genome-wide identification of NF-Y gene family in maize (Zea mays L.) and the positive role of ZmNF-YC12 in drought resistance and recovery ability Frontiers in Plant Science. 14:1159955. | | Reference: May 17th, 2023
Gene Product: August 9th, 2016
|
| 11 months ago | ca5p3 | CCAAT-HAP5-transcription factor 53: | | | Cao, LR et al. 2023. Genome-wide identification of NF-Y gene family in maize (Zea mays L.) and the positive role of ZmNF-YC12 in drought resistance and recovery ability Frontiers in Plant Science. 14:1159955. | | Reference: May 17th, 2023
Gene Product: August 9th, 2016
|
| 11 months ago | ca5p4 | CCAAT-HAP5-transcription factor 54: | | | Cao, LR et al. 2023. Genome-wide identification of NF-Y gene family in maize (Zea mays L.) and the positive role of ZmNF-YC12 in drought resistance and recovery ability Frontiers in Plant Science. 14:1159955. | | Reference: May 17th, 2023
Gene Product: August 9th, 2016
|
| 11 months ago | ca5p6 | CCAAT-HAP5-transcription factor 56: | | | Cao, LR et al. 2023. Genome-wide identification of NF-Y gene family in maize (Zea mays L.) and the positive role of ZmNF-YC12 in drought resistance and recovery ability Frontiers in Plant Science. 14:1159955. | | Reference: May 17th, 2023
Gene Product: August 9th, 2016
|
| 11 months ago | ca5p7 | CCAAT-HAP5-transcription factor 57: | | | Cao, LR et al. 2023. Genome-wide identification of NF-Y gene family in maize (Zea mays L.) and the positive role of ZmNF-YC12 in drought resistance and recovery ability Frontiers in Plant Science. 14:1159955. | | Reference: May 17th, 2023
Gene Product: August 9th, 2016
|
| 11 months ago | ca5p8 | CCAAT-HAP5-transcription factor 58: | | | Cao, LR et al. 2023. Genome-wide identification of NF-Y gene family in maize (Zea mays L.) and the positive role of ZmNF-YC12 in drought resistance and recovery ability Frontiers in Plant Science. 14:1159955. | | Reference: May 17th, 2023
Gene Product: August 9th, 2016
|
| 11 months ago | gst19 | glutathione transferase19: | 6.04 | GRMZM2G335618
| Sun, LL et al. 2023. Transcriptomic analysis of maize uncovers putative genes involved in metabolic detoxification under four safeners treatment Pestic Biochem Physiol. :doi: 10.1016/j.pestbp.2023.105465. | | Reference: May 17th, 2023
Gene Product: September 1st, 2003
Variation: August 18th, 2010
Gene Model: July 27th, 2016
|
| 11 months ago | gst31 | glutathione transferase31: | 1.01 | GRMZM2G475059
| Sun, LL et al. 2023. Transcriptomic analysis of maize uncovers putative genes involved in metabolic detoxification under four safeners treatment Pestic Biochem Physiol. :doi: 10.1016/j.pestbp.2023.105465. | | Reference: May 17th, 2023
Gene Product: September 1st, 2003
Variation: August 21st, 2010
Gene Model: April 27th, 2016
|
| 11 months ago | gst37 | glutathione transferase37: | 7.04 | GRMZM2G178079
| Sun, LL et al. 2023. Transcriptomic analysis of maize uncovers putative genes involved in metabolic detoxification under four safeners treatment Pestic Biochem Physiol. :doi: 10.1016/j.pestbp.2023.105465. | | Reference: May 17th, 2023
Gene Product: September 1st, 2003
Gene Model: July 27th, 2016
|
| 11 months ago | gst39 | glutathione transferase39: | 1.05 | GRMZM2G028821
| Sun, LL et al. 2023. Transcriptomic analysis of maize uncovers putative genes involved in metabolic detoxification under four safeners treatment Pestic Biochem Physiol. :doi: 10.1016/j.pestbp.2023.105465. | | Reference: May 17th, 2023
Gene Product: September 1st, 2003
Gene Model: July 27th, 2016
|
| 11 months ago | ca5p9 | CCAAT-HAP5-transcription factor 59: | 4.08 | GRMZM2G091433
| Cao, LR et al. 2023. Genome-wide identification of NF-Y gene family in maize (Zea mays L.) and the positive role of ZmNF-YC12 in drought resistance and recovery ability Frontiers in Plant Science. 14:1159955. | | Reference: May 17th, 2023
Gene Product: August 9th, 2016
Gene Model: August 8th, 2016
|
| 11 months ago | gst61 | glutathione S-transferase61: | | GRMZM2G162486
| Sun, LL et al. 2023. Transcriptomic analysis of maize uncovers putative genes involved in metabolic detoxification under four safeners treatment Pestic Biochem Physiol. :doi: 10.1016/j.pestbp.2023.105465. | | Reference: May 17th, 2023
Gene Product: September 1st, 2003
Gene Model: February 8th, 2022
|
| 11 months ago | cipk46 | calcineurin B-like-interacting protein kinase46: | | | Cao, Y et al. 2023. Beneficial rhizobacterium triggers induced systemic resistance of maize to Gibberella stalk rot via calcium signaling. Mol Plant-Microbe Interact. | | Reference: May 16th, 2023
Gene Product: August 25th, 2018
|
| 11 months ago | cipk28 | calcineurin B-like-interacting protein kinase28: | | GRMZM2G412601
| Cao, Y et al. 2023. Beneficial rhizobacterium triggers induced systemic resistance of maize to Gibberella stalk rot via calcium signaling. Mol Plant-Microbe Interact. | | Reference: May 16th, 2023
Gene Product: August 25th, 2018
Gene Model: September 8th, 2021
|
| 11 months ago | prc4 | proteasome component4: | 3.05 | GRMZM2G171604
| He, KH et al. 2023. Mining genes regulating root system architecture in maize based on data integration analysis Theor Appl Genet. 136:127. | | Reference: May 15th, 2023
Gene Product: September 1st, 2003
Variation: May 6th, 2013
Gene Model: May 7th, 2013
|
| 11 months ago | nit2 | nitrilase2: | | GRMZM2G111225
| Rajitha Gayan Lakmini Rathnayaka Pathiranage et al. 2023. The inhibition of maize (Zea mays L.) root stem cell regeneration by low oxygen is attenuated by Phytoglobin 1 (Pgb1) through changes in auxin and jasmonic acid. Planta. 257:120. | | Reference: May 15th, 2023
Gene Product: May 29th, 2012
Variation: June 5th, 2012
Gene Model: May 29th, 2012
|
| 11 months ago | prh17 | protein phosphatase homolog17: | | GRMZM2G164352
| He, KH et al. 2023. Mining genes regulating root system architecture in maize based on data integration analysis Theor Appl Genet. 136:127. | | Reference: May 15th, 2023
Gene Product: October 25th, 2021
Variation: April 28th, 2017
Gene Model: April 28th, 2017
|
| 11 months ago | ami1 | amidase1: | | GRMZM2G169087
| Rajitha Gayan Lakmini Rathnayaka Pathiranage et al. 2023. The inhibition of maize (Zea mays L.) root stem cell regeneration by low oxygen is attenuated by Phytoglobin 1 (Pgb1) through changes in auxin and jasmonic acid. Planta. 257:120. | AT1G08980 (TAIR) | Reference: May 15th, 2023
Gene Product: June 4th, 2012
Gene Model: August 11th, 2019
|
| 12 months ago | omt4 | Caffeoyl CoA O-methyltransferase4: | 4.08 | | Ren, ZB et al. 2023. Deciphering transcriptional mechanisms of maize internodal elongation by regulatory network analysis. J Exp Bot. :doi: 10.1093/jxb/erad178. | | Reference: May 12th, 2023
Gene Product: January 5th, 2014
Variation: September 25th, 2007
|
| 12 months ago | pcna1 | proliferating cell nuclear antigen1: | 5.08 | | Ren, ZB et al. 2023. Deciphering transcriptional mechanisms of maize internodal elongation by regulatory network analysis. J Exp Bot. :doi: 10.1093/jxb/erad178. | | Reference: May 12th, 2023
Gene Product: September 1st, 2003
Variation: September 1st, 2003
|
| 12 months ago | sacd11 | stearoyl-acyl-carrier-protein desaturase11: | 10.04 | AC215690.3_FG002
| Luo, MJ et al. 2023. Genetic basis of the oil biosynthesis in ultra-high-oil maize grains with an oil content exceeding 20% Frontiers in Plant Science. 14:1168216. | | Reference: May 12th, 2023
Gene Product: October 10th, 2016
Gene Model: October 10th, 2016
|
| 12 months ago | roa1 | replication origin activator1: | | GRMZM2G100639
| Ren, ZB et al. 2023. Deciphering transcriptional mechanisms of maize internodal elongation by regulatory network analysis. J Exp Bot. :doi: 10.1093/jxb/erad178. | | Reference: May 12th, 2023
Gene Product: August 2nd, 2017
Variation: January 21st, 2011
Gene Model: June 1st, 2017
|
| 12 months ago | rop6 | Rho-related protein6: | 6.06 | GRMZM2G176217
| Ren, ZB et al. 2023. Deciphering transcriptional mechanisms of maize internodal elongation by regulatory network analysis. J Exp Bot. :doi: 10.1093/jxb/erad178. | | Reference: May 12th, 2023
Gene Product: April 1st, 2004
Variation: May 7th, 2007
Gene Model: January 1st, 2015
|
| 12 months ago | gbptf17 | GeBP-transcription factor 17: | 5.07 | GRMZM2G083886
| Ren, ZB et al. 2023. Deciphering transcriptional mechanisms of maize internodal elongation by regulatory network analysis. J Exp Bot. :doi: 10.1093/jxb/erad178. | | Reference: May 12th, 2023
Variation: September 1st, 2003
Gene Model: July 13th, 2018
|
| 12 months ago | hat1 | histone acetyltransferase1: | 7.02 | GRMZM5G851405
| Ren, ZB et al. 2023. Deciphering transcriptional mechanisms of maize internodal elongation by regulatory network analysis. J Exp Bot. :doi: 10.1093/jxb/erad178. | | Reference: May 12th, 2023
Gene Product: September 1st, 2003
Variation: January 28th, 2009
Gene Model: June 3rd, 2017
|
| 12 months ago | umc1395 | : | 1.05 | GRMZM2G329655
| Ren, ZB et al. 2023. Deciphering transcriptional mechanisms of maize internodal elongation by regulatory network analysis. J Exp Bot. :doi: 10.1093/jxb/erad178. | | Reference: May 12th, 2023
Variation: September 1st, 2003
Gene Model: October 27th, 2016
|
| 12 months ago | krp17 | kinesin heavy chain17: | 1.01 | GRMZM2G092232
| Ren, ZB et al. 2023. Deciphering transcriptional mechanisms of maize internodal elongation by regulatory network analysis. J Exp Bot. :doi: 10.1093/jxb/erad178. | | Reference: May 12th, 2023
Variation: September 1st, 2003
Gene Model: August 1st, 2017
|
| 12 months ago | abi51 | ABI3-VP1-transcription factor 51: | | | Ren, ZB et al. 2023. Deciphering transcriptional mechanisms of maize internodal elongation by regulatory network analysis. J Exp Bot. :doi: 10.1093/jxb/erad178. | | Reference: May 12th, 2023
Gene Product: January 29th, 2022
|
| 12 months ago | abi7 | ABI3-VP1-transcription factor 7: | | | Ren, ZB et al. 2023. Deciphering transcriptional mechanisms of maize internodal elongation by regulatory network analysis. J Exp Bot. :doi: 10.1093/jxb/erad178. | | Reference: May 12th, 2023
Gene Product: January 29th, 2022
|
| 12 months ago | limtf13 | LIM-transcription factor 13: | | | Ren, ZB et al. 2023. Deciphering transcriptional mechanisms of maize internodal elongation by regulatory network analysis. J Exp Bot. :doi: 10.1093/jxb/erad178. | | Reference: May 12th, 2023
Gene Product: December 16th, 2019
|
| 12 months ago | myb23 | MYB-transcription factor 23: | | | Ren, ZB et al. 2023. Deciphering transcriptional mechanisms of maize internodal elongation by regulatory network analysis. J Exp Bot. :doi: 10.1093/jxb/erad178. | | Reference: May 12th, 2023
Variation: April 11th, 2017
|
| 12 months ago | tcptf16 | TCP-transcription factor 16: | | | Ren, ZB et al. 2023. Deciphering transcriptional mechanisms of maize internodal elongation by regulatory network analysis. J Exp Bot. :doi: 10.1093/jxb/erad178. | | Reference: May 12th, 2023
Gene Product: September 27th, 2019
|
| 12 months ago | tcptf21 | TCP-transcription factor 21: | | | Ren, ZB et al. 2023. Deciphering transcriptional mechanisms of maize internodal elongation by regulatory network analysis. J Exp Bot. :doi: 10.1093/jxb/erad178. | | Reference: May 12th, 2023
Gene Product: September 27th, 2019
|
| 12 months ago | c3h45 | C3H-transcription factor 345: | 1.04 - 1.04 | GRMZM2G003424
| Ren, ZB et al. 2023. Deciphering transcriptional mechanisms of maize internodal elongation by regulatory network analysis. J Exp Bot. :doi: 10.1093/jxb/erad178. | | Reference: May 12th, 2023
Variation: December 30th, 2016
Gene Model: December 30th, 2016
|
| 12 months ago | glk59 | G2-like-transcription factor 59: | 7.05 | AC155434.2_FG005
| Ren, ZB et al. 2023. Deciphering transcriptional mechanisms of maize internodal elongation by regulatory network analysis. J Exp Bot. :doi: 10.1093/jxb/erad178. | | Reference: May 12th, 2023
Variation: March 18th, 2021
Gene Model: February 2nd, 2018
|
| 12 months ago | pre1 | premature senescence1: | 1.05 | | Ren, ZB et al. 2023. Deciphering transcriptional mechanisms of maize internodal elongation by regulatory network analysis. J Exp Bot. :doi: 10.1093/jxb/erad178. | | Reference: May 12th, 2023
Variation: August 15th, 2005
|
| 12 months ago | his2b2 | histone2b2: | 4.05 | | Ren, ZB et al. 2023. Deciphering transcriptional mechanisms of maize internodal elongation by regulatory network analysis. J Exp Bot. :doi: 10.1093/jxb/erad178. | | Reference: May 12th, 2023
Gene Product: September 1st, 2003
Variation: June 23rd, 2014
|
| 12 months ago | saur25 | small auxin up RNA25: | 2.07 | GRMZM2G042712
| Ren, ZB et al. 2023. Deciphering transcriptional mechanisms of maize internodal elongation by regulatory network analysis. J Exp Bot. :doi: 10.1093/jxb/erad178. | | Reference: May 12th, 2023
Gene Product: November 26th, 2021
Gene Model: February 15th, 2018
|
| 12 months ago | his2a1 | histone2A1: | 9.06 | | Ren, ZB et al. 2023. Deciphering transcriptional mechanisms of maize internodal elongation by regulatory network analysis. J Exp Bot. :doi: 10.1093/jxb/erad178. | | Reference: May 12th, 2023
Gene Product: September 1st, 2003
Variation: September 3rd, 2015
|
| 12 months ago | cyc3 | cyclin3: | 6.02 | | Ren, ZB et al. 2023. Deciphering transcriptional mechanisms of maize internodal elongation by regulatory network analysis. J Exp Bot. :doi: 10.1093/jxb/erad178. | | Reference: May 12th, 2023
Gene Product: June 26th, 2009
Variation: January 17th, 2014
|
| 12 months ago | nfd106 | nucleosome/chromatin assembly factor D: | 4.08 | GRMZM2G125648
| Ren, ZB et al. 2023. Deciphering transcriptional mechanisms of maize internodal elongation by regulatory network analysis. J Exp Bot. :doi: 10.1093/jxb/erad178. | | Reference: May 12th, 2023
Variation: February 21st, 2013
Gene Model: July 28th, 2016
|
| 12 months ago | hon106a | histone H1 106a: | 5.03 | GRMZM2G121221
| Ren, ZB et al. 2023. Deciphering transcriptional mechanisms of maize internodal elongation by regulatory network analysis. J Exp Bot. :doi: 10.1093/jxb/erad178. | | Reference: May 12th, 2023
Gene Product: October 24th, 2017
Gene Model: October 31st, 2017
|
| 12 months ago | mlo7 | barley mlo defense gene homolog7: | 9.04 | GRMZM2G416887
| Ren, ZB et al. 2023. Deciphering transcriptional mechanisms of maize internodal elongation by regulatory network analysis. J Exp Bot. :doi: 10.1093/jxb/erad178. | | Reference: May 12th, 2023
Variation: October 19th, 2010
Gene Model: September 4th, 2014
|
| 12 months ago | acco35 | 1-aminocyclopropane-1-carboxylate oxidase35: | 5.07 | GRMZM2G052422
| Ren, ZB et al. 2023. Deciphering transcriptional mechanisms of maize internodal elongation by regulatory network analysis. J Exp Bot. :doi: 10.1093/jxb/erad178. | | Reference: May 12th, 2023
Gene Product: May 16th, 2016
Variation: May 19th, 2015
Gene Model: May 19th, 2015
|
| 12 months ago | cyc6 | cyclin6: | | | Ren, ZB et al. 2023. Deciphering transcriptional mechanisms of maize internodal elongation by regulatory network analysis. J Exp Bot. :doi: 10.1093/jxb/erad178. | | Reference: May 12th, 2023
Variation: January 17th, 2014
|
| 12 months ago | spo2 | topoisomerase-like enzyme2: | | GRMZM5G890820
| Ren, ZB et al. 2023. Deciphering transcriptional mechanisms of maize internodal elongation by regulatory network analysis. J Exp Bot. :doi: 10.1093/jxb/erad178. | AT1G63990 (TAIR) | Reference: May 12th, 2023
Gene Product: June 19th, 2014
Variation: June 8th, 2022
Gene Model: June 19th, 2014
|
| 12 months ago | abk1 | aurora b kinase1: | | GRMZM2G132116
| Ren, ZB et al. 2023. Deciphering transcriptional mechanisms of maize internodal elongation by regulatory network analysis. J Exp Bot. :doi: 10.1093/jxb/erad178. | | Reference: May 12th, 2023
Variation: November 18th, 2016
Gene Model: November 18th, 2016
|
| 12 months ago | cyc10 | cyclin10: | | GRMZM2G107377
| Ren, ZB et al. 2023. Deciphering transcriptional mechanisms of maize internodal elongation by regulatory network analysis. J Exp Bot. :doi: 10.1093/jxb/erad178. | | Reference: May 12th, 2023
Gene Product: June 26th, 2009
Variation: December 21st, 2016
Gene Model: December 21st, 2016
|
| 12 months ago | plt6 | phospholipid transfer protein homolog6: | | GRMZM2G116167
| Ren, ZB et al. 2023. Deciphering transcriptional mechanisms of maize internodal elongation by regulatory network analysis. J Exp Bot. :doi: 10.1093/jxb/erad178. | | Reference: May 12th, 2023
Gene Product: September 1st, 2003
Gene Model: January 6th, 2017
|
| 12 months ago | mab10 | math-btb10: | | GRMZM2G154437
| Ren, ZB et al. 2023. Deciphering transcriptional mechanisms of maize internodal elongation by regulatory network analysis. J Exp Bot. :doi: 10.1093/jxb/erad178. | | Reference: May 12th, 2023
Gene Product: June 6th, 2014
Variation: May 10th, 2017
Gene Model: February 13th, 2017
|
| 12 months ago | igps1 | indole-3-glycerolphosphate synthase1: | | GRMZM2G106950
| Ren, ZB et al. 2023. Deciphering transcriptional mechanisms of maize internodal elongation by regulatory network analysis. J Exp Bot. :doi: 10.1093/jxb/erad178. | | Reference: May 12th, 2023
Gene Product: March 29th, 2018
Variation: January 18th, 2021
Gene Model: March 29th, 2018
|
| 12 months ago | igps3 | indole-3-glycerolphosphate synthase3: | | GRMZM2G145870
| Ren, ZB et al. 2023. Deciphering transcriptional mechanisms of maize internodal elongation by regulatory network analysis. J Exp Bot. :doi: 10.1093/jxb/erad178. | | Reference: May 12th, 2023
Gene Product: March 29th, 2018
Variation: January 18th, 2021
Gene Model: March 29th, 2018
|
| 12 months ago | drepp2 | developmentally regulated plasma membrane polypeptide2: | | GRMZM2G007151
| Ren, ZB et al. 2023. Deciphering transcriptional mechanisms of maize internodal elongation by regulatory network analysis. J Exp Bot. :doi: 10.1093/jxb/erad178. | | Reference: May 12th, 2023
Gene Product: September 4th, 2019
Gene Model: September 4th, 2019
|
| 12 months ago | kr1 | kauralexin reductase1: | | GRMZM2G394968
| Luo, MJ et al. 2023. Genetic basis of the oil biosynthesis in ultra-high-oil maize grains with an oil content exceeding 20% Frontiers in Plant Science. 14:1168216. | | Reference: May 12th, 2023
Gene Product: September 16th, 2019
Gene Model: September 16th, 2019
|
| 12 months ago | kr2 | kauralexin reductase2: | | GRMZM2G073929
| Luo, MJ et al. 2023. Genetic basis of the oil biosynthesis in ultra-high-oil maize grains with an oil content exceeding 20% Frontiers in Plant Science. 14:1168216. | | Reference: May 12th, 2023
Gene Product: September 16th, 2019
Gene Model: September 16th, 2019
|
| 12 months ago | aas9 | auxin amido synthetase9: | | GRMZM2G414460
| Ren, ZB et al. 2023. Deciphering transcriptional mechanisms of maize internodal elongation by regulatory network analysis. J Exp Bot. :doi: 10.1093/jxb/erad178. | AT2G47750 (TAIR) | Reference: May 12th, 2023
Gene Product: October 21st, 2019
Gene Model: October 21st, 2019
|
| 12 months ago | saur29 | small auxin up RNA29: | | GRMZM2G343365
| Ren, ZB et al. 2023. Deciphering transcriptional mechanisms of maize internodal elongation by regulatory network analysis. J Exp Bot. :doi: 10.1093/jxb/erad178. | | Reference: May 12th, 2023
Gene Product: November 26th, 2021
Gene Model: November 26th, 2021
|
| 12 months ago | rad51d | recombination protein51 gene d: | 7.04 | GRMZM2G055464
| Ren, ZB et al. 2023. Deciphering transcriptional mechanisms of maize internodal elongation by regulatory network analysis. J Exp Bot. :doi: 10.1093/jxb/erad178. | | Reference: May 12th, 2023
Gene Product: August 12th, 2016
Gene Model: June 19th, 2014
|
| 12 months ago | hct11 | hydroxycinnamoyltransferase11: | 7.02 | GRMZM2G156296
| Ren, ZB et al. 2023. Deciphering transcriptional mechanisms of maize internodal elongation by regulatory network analysis. J Exp Bot. :doi: 10.1093/jxb/erad178. | | Reference: May 12th, 2023
Gene Product: November 7th, 2015
Variation: March 31st, 2005
Gene Model: May 18th, 2016
|
| 12 months ago | cyc5 | cyclin5: | 8.01 | GRMZM2G005619
| Ren, ZB et al. 2023. Deciphering transcriptional mechanisms of maize internodal elongation by regulatory network analysis. J Exp Bot. :doi: 10.1093/jxb/erad178. | | Reference: May 12th, 2023
Gene Product: June 26th, 2009
Variation: January 18th, 2014
Gene Model: November 5th, 2014
|
| 12 months ago | xlg1 | extra-large guanine nucleotide-binding protein1: | 1.05 | GRMZM2G127739
| Christian F Cantos et al. 2023. Extra-large G proteins have extra-large effects on agronomic traits and stress tolerance in maize and rice. Trends Plant Sci. :doi: 10.1016/j.tplants.2023.04.005. | | Reference: May 9th, 2023
Gene Product: May 1st, 2018
Variation: May 1st, 2018
Gene Model: June 13th, 2017
|
| 12 months ago | xlg3 | extra-large guanine nucleotide-binding protein3: | 6.01 | GRMZM2G429113
| Christian F Cantos et al. 2023. Extra-large G proteins have extra-large effects on agronomic traits and stress tolerance in maize and rice. Trends Plant Sci. :doi: 10.1016/j.tplants.2023.04.005. | | Reference: May 9th, 2023
Gene Product: May 1st, 2018
Variation: May 1st, 2018
Gene Model: May 1st, 2018
|
