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 | 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
|
| today | 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
|
| today | 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
|
| today | 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
|
| today | 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
|
| today | 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
|
| today | 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
|
| today | 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
|
| today | 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
|
| today | 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
|
| today | 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
|
| today | 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
|
| today | 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
|
| today | 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
|
| today | 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
|
| today | 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
|
| today | 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
|
| today | 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
|
| today | 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
|
| today | 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
|
| today | 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
|
| today | 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
|
| today | 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
|
| today | ereb22 | AP2-EREBP-transcription factor 22: | 8.03 | GRMZM2G006745
| Mingxiu Ruan et al. 2024. The complex transcriptional regulation of heat stress response in maize. Stress Biol. 4:24. | | Reference: April 26th, 2024
Variation: July 17th, 2020
Gene Model: September 18th, 2018
|
| today | 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
|
| today | 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
|
| today | 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
|
| today | 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
|
| today | 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
|
| today | 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
|
| today | 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
|
| today | prp4 | pathogenesis related protein4: | 7.00 | GRMZM2G465226
| 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
Variation: August 29th, 2011
Gene Model: November 20th, 2014
|
| today | 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
|
| today | 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
|
| today | 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
|
| today | cl11117_1a | : | 5.02 | GRMZM2G109561
| 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
|
| today | 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
|
| today | 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
|
| today | 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
|
| today | 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
|
| today | 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
|
| today | 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
|
| today | 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
|
| today | 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
|
| today | 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
|
| today | 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
|
| today | 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
|
| today | 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
|
| today | 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
|
| today | 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
|
| today | 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
|
| yesterday | 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
|
| yesterday | 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
|
| yesterday | 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
|
| yesterday | 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
|
| yesterday | 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
|
| yesterday | 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
|
| yesterday | 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
|
| yesterday | 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
|
| yesterday | 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
|
| yesterday | 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
|
| yesterday | 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
|
| yesterday | 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
|
| yesterday | 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
|
| yesterday | 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
|
| yesterday | 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
|
| yesterday | 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
|
| yesterday | 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
|
| yesterday | 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
|
| yesterday | 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
|
| yesterday | 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
|
| yesterday | 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
|
| yesterday | 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
|
| yesterday | 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
|
| yesterday | 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 days ago | a1 | anthocyaninless1: | 3.09 | | 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 11th, 2013
Variation: August 25th, 2010
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 days ago | kn1 | knotted1: | 1.10 | | 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: December 6th, 2013
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 days ago | bes1 | brassinosteroid insensitive EMS-suppressor homolog1: | | | 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 4th, 2022
Variation: June 27th, 2022
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 days ago | nactf49 | NAC-transcription factor 49: | | | 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 days ago | zim10 | ZIM-transcription factor 10: | | | 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 days ago | lox2 | lipoxygenase2: | 3.06 | GRMZM2G156861
| 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: July 18th, 2017
Gene Model: June 10th, 2014
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 days ago | ks4 | kaurene synthase4: | | AC214360.3_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: August 16th, 2012
Gene Model: October 27th, 2014
|
| 3 days ago | ko2 | kaurene oxidase2: | | GRMZM2G161472
| 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
|
| 3 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
|
| 3 days ago | ga2ox9 | gibberellin 2-oxidase9: | | GRMZM2G152354
| 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 days ago | yuc6 | Yucca6: | | GRMZM2G019515
| 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
Variation: July 9th, 2021
Gene Model: June 17th, 2016
|
| 3 days ago | bx13 | benzoxazinone synthesis13: | | AC148152.3_FG005
| 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: June 20th, 2016
Gene Model: June 20th, 2016
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 days ago | snrkII9 | SnRK2 serine threonine protein kinase9: | | GRMZM2G081915
| 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: April 14th, 2018
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 3 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
|
| 4 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
|
| 4 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
|
| 4 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
|
| 4 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
|
| 4 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
|
| 4 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
|
| 4 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
|
| 4 days ago | pyl7 | pyrabactin resistance-like protein7: | | GRMZM2G144224
| 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: January 31st, 2021
Gene Model: January 31st, 2021
|
| 4 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
|
| 4 days ago | cpps2 | copalyl diphosphate synthase2: | 1.04 | GRMZM2G044481
| 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
Variation: January 22nd, 2018
Gene Model: September 12th, 2011
|
| 4 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
|
| 5 days ago | hex2 | hexokinase2: | 6.04 - 6.05 | GRMZM2G432801
| 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: September 15th, 2013
Variation: February 15th, 2010
Gene Model: September 15th, 2013
|
| 5 days ago | sps1 | sucrose phosphate synthase1: | 8.06 | | 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: September 1st, 2003
Variation: January 15th, 2015
|
| 5 days ago | trps1 | trehalose-6-phosphate synthase1: | | GRMZM2G068943
| 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: October 3rd, 2020
Gene Model: May 28th, 2012
|
| 5 days ago | hex5 | hexokinase5: | | GRMZM5G856653
| 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: September 15th, 2013
Gene Model: September 15th, 2013
|
| 5 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
|
| 6 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
|
| 6 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
|
| 6 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
|
| 6 days ago | ig1 | indeterminate gametophyte1: | 3.06 - 3.07 | | 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 19th, 2010
|
| 6 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
|
| 6 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
|
| 6 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
|
| 6 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
|
| 7 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
|
| 7 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
|
| 7 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
|
| 7 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
|
| 7 days ago | c1 | colored aleurone1: | 9.01 | | Dermail, A et al. 2024. Haploid identification in maize Frontiers in Plant Science. 15:1378421. | | Reference: April 19th, 2024
Gene Product: June 16th, 2015
Variation: February 9th, 2024
|
| 7 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
|
| 7 days ago | pl1 | purple plant1: | 6.04 | | Dermail, A et al. 2024. Haploid identification in maize Frontiers in Plant Science. 15:1378421. | | Reference: April 19th, 2024
Gene Product: June 16th, 2015
Variation: March 28th, 2013
|
| 7 days ago | r1 | colored1: | 10.06 | | Dermail, A et al. 2024. Haploid identification in maize Frontiers in Plant Science. 15:1378421. | | Reference: April 19th, 2024
Gene Product: October 13th, 2010
Variation: February 9th, 2024
|
| 7 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
|
| 7 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
|
| 7 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
|
| 7 days ago | pld3 | phospholipase D3: | | GRMZM2G438378
| Dermail, A et al. 2024. Haploid identification in maize Frontiers in Plant Science. 15:1378421. | | Reference: April 19th, 2024
Gene Product: August 9th, 2016
Variation: December 9th, 2021
Gene Model: August 9th, 2016
|
| 7 days ago | matl1 | matrilineal1: | | GRMZM2G471240
| Dermail, A et al. 2024. Haploid identification in maize Frontiers in Plant Science. 15:1378421. | | Reference: April 19th, 2024
Gene Product: June 12th, 2020
Variation: February 10th, 2017
Gene Model: January 25th, 2017
|
| 7 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: April 19th, 2024
Gene Product: June 10th, 2019
Variation: June 10th, 2019
Gene Model: June 10th, 2019
|
| 7 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
|
| 8 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
|
| 8 days ago | bzr1 | BZR-transcription factor 1: | | | 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: May 4th, 2022
Variation: June 27th, 2022
|
| 8 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
|
| 8 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
|
| 8 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
|
| 8 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
|
| 8 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 days ago | d8 | dwarf plant8: | 1.09 | GRMZM2G144744
| 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: February 12th, 2007
Variation: August 29th, 2007
Gene Model: May 11th, 2011
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 days ago | pdk2 | pyruvate, orthophosphate dikinase2: | 8.04 | GRMZM2G097457
| 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
Variation: December 19th, 2017
Gene Model: November 21st, 2012
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 days ago | pdk1 | pyruvate, orthophosphate dikinase1: | 6.05 | GRMZM2G306345
| 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
Variation: April 18th, 2018
Gene Model: November 21st, 2012
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 days ago | gln2 | glutamine synthetase2: | 1.09 | | 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: March 24th, 2021
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 days ago | ris2 | iron-sulfur protein2: | 4.09 | GRMZM2G038365
| 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 days ago | fnr1 | ferredoxin NADP reductase1: | 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: May 11th, 2021
Variation: December 7th, 2012
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 days ago | ptox1 | plastid terminal oxidase1: | | GRMZM2G102349
| 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 | AT4G22260 (TAIR)
LOC_Os04g57320 (MSU/TIGR) | Reference: April 17th, 2024
Gene Product: June 15th, 2023
Variation: March 29th, 2024
Gene Model: April 27th, 2020
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 9 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
|
| 10 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
|
| 10 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
|
| 10 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
|
| 10 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
|
| 10 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
|
| 10 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
|
| 10 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
|
| 10 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
|
| 11 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
|
| 11 days ago | Zm00001d034455 | : | | | Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Gene Product: August 21st, 2018
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 days ago | du1 | dull endosperm1: | 10.03 | GRMZM2G141399
| Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Gene Product: October 14th, 2016
Variation: June 29th, 2015
Gene Model: February 28th, 2012
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 days ago | sh2 | shrunken2: | 3.09 | | Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Gene Product: November 4th, 2014
Variation: January 9th, 2019
|
| 11 days ago | wx1 | waxy1: | 9.03 | | Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Gene Product: June 4th, 2008
Variation: September 9th, 2023
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 days ago | bhlh90 | bHLH-transcription factor 90: | | | Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Variation: July 7th, 2021
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 days ago | bnl3.04 | : | 10.00 | GRMZM2G427014
| Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Variation: September 1st, 2003
Gene Model: October 21st, 2018
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 days ago | pco098394 | : | 1.01 | | Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Variation: September 25th, 2007
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 days ago | trps10 | trehalose-6-phosphate synthase10: | | GRMZM2G312521
| Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Gene Product: October 3rd, 2020
Variation: March 18th, 2021
Gene Model: September 15th, 2013
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 days ago | nope1 | no perception1 : | | GRMZM2G176737
| 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_Os04g01520 (MSU/TIGR) | Reference: April 15th, 2024
Gene Product: September 7th, 2020
Variation: November 21st, 2020
Gene Model: September 7th, 2020
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 days ago | stp2 | sugar transport2: | | AC208897.3_FG004
| 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: March 4th, 2021
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 days ago | ss1 | starch synthase I: | 9.02 | | Song, LL et al. 2021. 3 Biotech 11:441 | | Reference: April 15th, 2024
Gene Product: October 14th, 2016
Variation: October 7th, 2010
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 11 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
|
| 14 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
|
| 14 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
|
| 14 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
|
| 14 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
|
| 14 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
|
| 14 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
|
| 14 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
|
| 14 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
|
| 14 days ago | na1 | nana plant1: | 3.06 - 3.08 | GRMZM2G449033
| 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 24th, 2012
Variation: December 22nd, 2016
Gene Model: December 20th, 2011
|
| 14 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
|
| 14 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
|
| 14 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
|
| 14 days ago | mir3 | maize insect resistance3: | | GRMZM2G166281
| 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: October 11th, 2021
Variation: August 1st, 2011
Gene Model: February 12th, 2014
|
| 14 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
|
| 14 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
|
| 14 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
|
| 14 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
|
| 14 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
|
| 14 days ago | gst1 | glutathione-S-transferase1: | 8.08 - 8.09 | | 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
|
| 14 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
|
| 14 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
|
| 14 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
|
| 14 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
|
| 14 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
|
| 14 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
|
| 14 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
|
| 14 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
|
| 14 days ago | pyl10 | pyrabactin resistance-like protein10: | | GRMZM2G063882
| 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
|
| 14 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
|
| 14 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
|
| 14 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
|
| 14 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
|
| 14 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
|
| 14 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
|
| 14 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
|
| 14 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
|
| 14 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
|
| 14 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
|
| 14 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
|
| 14 days ago | saur45 | small auxin up RNA45: | | GRMZM2G471304
| 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 26th, 2021
Gene Model: November 26th, 2021
|
| 14 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
|
| 14 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
|
| 14 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
|
| 14 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
|
| 14 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
|
| 15 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
|
| 15 days ago | lg2 | liguleless2: | 3.06 | | 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: January 22nd, 2024
|
| 15 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
|
| 15 days ago | ra1 | ramosa1: | 7.02 | | 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: April 11th, 2007
Variation: August 20th, 2010
|
| 15 days ago | rs1 | rough sheath1: | 7.00 | GRMZM2G028041
| 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 30th, 2015
Variation: November 18th, 2013
Gene Model: September 30th, 2015
|
| 15 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
|
| 15 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
|
| 15 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
|
| 15 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
|
| 15 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
|
| 15 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
|
| 15 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
|
| 15 days ago | hb122 | Homeobox-transcription factor 122: | | | 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
|
| 15 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
|
| 15 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
|
| 15 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
|
| 15 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
|
| 15 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
|
| 15 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
|
| 15 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
|
| 15 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
|
| 15 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
|
| 15 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
|
| 15 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
|
| 15 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
|
| 16 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
|
| 17 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
|
| 17 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
|
| 17 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
|
| 17 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
|
| 17 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
|
| 17 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
|
| 17 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
|
| 17 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
|
| 17 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
|
| 17 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
|
| 17 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
|
| 17 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
|
| 17 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
|
| 17 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
|
| 17 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
|
| 17 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
|
| 17 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
|
| 17 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
|
| 17 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
|
| 17 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
|
| 20 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
|
| 20 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
|
| 20 days ago | umc1283 | : | 5.04 | GRMZM2G094353
| 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
Variation: September 1st, 2003
Gene Model: May 15th, 2020
|
| 20 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
|
| 20 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
|
| 20 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
|
| 20 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
|
| 20 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
|
| 20 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
|
| 20 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
|
| 21 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
|
| 21 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
|
| 21 days ago | rca1 | RUBISCO activase1: | 4.00 | GRMZM2G162282
| 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 11th, 2014
|
| 21 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
|
| 21 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
|
| 21 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
|
| 21 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
|
| 21 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
|
| 21 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
|
| 21 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
|
| 21 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
|
| 21 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
|
| 21 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
|
| 21 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
|
| 21 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
|
| 21 days ago | gras42 | GRAS-transcription factor 42: | | | 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
Variation: June 27th, 2022
|
| 21 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
|
| 21 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
|
| 21 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
|
| 21 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
|
| 21 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
|
| 21 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
|
| 21 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
|
| 21 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
|
| 21 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
|
| 21 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
|
| 21 days ago | dof21 | C2C2-Dof-transcription factor 21: | 1.02 | GRMZM2G162749
| 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: January 6th, 2017
Gene Model: January 6th, 2017
|
| 21 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
|
| 21 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
|
| 21 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
|
| 21 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
|
| 21 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
|
| 21 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
|
| 21 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
|
| 21 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
|
| 21 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
|
| 21 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
|
| 21 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
|
| 21 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
|
| 21 days ago | bsu1 | brassinosteroid insensitive suppressor protein1: | | GRMZM2G115420
| 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
|
| 21 days ago | bak3 | brassinosteroid insensitive1-associated receptor kinase like3: | | GRMZM2G043350
| Zebosi, B et al. 2024. Conservation and diversification of genes regulating brassinosteroid biosynthesis and signaling bioRxiv preprint. :doi: 10.1101/2024.03.26.586792. | AT4G18710 (TAIR) | Reference: April 5th, 2024
Gene Product: February 22nd, 2022
Gene Model: June 21st, 2019
|
| 21 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
|
| 21 days ago | mdh7 | malate dehydrogenase7: | | GRMZM2G068455
| 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: September 1st, 2003
Gene Model: March 2nd, 2021
|
| 21 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
|
| 21 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
|
| 21 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
|
| 21 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
|
| 21 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
|
| 21 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
|
| 21 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
|
| 21 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
|
| 22 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
|
| 22 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
|
| 22 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
|
| 22 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
|
| 22 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
|
| 22 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
|
| 22 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
|
| 22 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
|
| 22 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
|
| 23 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
|
| 23 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
|
| 23 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
|
| 23 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
|
| 23 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
|
| 23 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
|
| 23 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
|
| 23 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
|
| 23 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
|
| 23 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
|
| 23 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
|
| 23 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
|
| 23 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
|
| 23 days ago | pin10 | PIN-formed protein10: | | GRMZM2G126260
| Seth A Tolley et al. 2023. Genomic prediction and association mapping of maize grain yield in multi-environment trials based on reaction norm models. Frontiers in Genetics. 14:1221751. | | Reference: September 18th, 2023
Gene Product: April 3rd, 2024
Gene Model: January 24th, 2013
|
| 23 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
|
| 23 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
|
| 23 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
|
| 23 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
|
| 23 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
|
| 23 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
|
| 24 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
|
| 24 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
|
| 24 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
|
| 24 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
|
| 24 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
|
| 24 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
|
| 25 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
|
| 25 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
|
| 25 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
|
| 25 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
|
| 25 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
|
| 25 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
|
| 25 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
|
| 25 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
|
| 25 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
|
| 25 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
|
| 25 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
|
| 25 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
|
| 25 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
|
| 25 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
|
| 25 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
|
| 25 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
|
| 25 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
|
| 25 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
|
| 25 days ago | sod4 | superoxide dismutase4: | 1.04 | | 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: October 4th, 2021
Variation: April 20th, 2005
|
| 25 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
|
| 25 days ago | plt10 | phospholipid transfer protein10: | 10.01 | GRMZM5G886547
| 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
|
| 25 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
|
| 25 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
|
| 25 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
|
| 25 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
|
| 25 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
|
| 25 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
|
| 25 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
|
| 25 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
|
| 25 days ago | sod9 | superoxide dismutase9: | 9.04 | | 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: October 4th, 2021
Variation: January 21st, 2015
|
| 25 days ago | gsr1 | glutathione reductase1: | 1.01 | | 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: January 30th, 2015
|
| 25 days ago | plt1 | phospholipid transfer protein homolog1: | 3.06 | GRMZM2G127949
| 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 6th, 2015
|
| 25 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
|
| 25 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
|
| 25 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
|
| 25 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
|
| 25 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
|
| 25 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 days ago | caat15 | cationic amino acid transporter15: | | | | | Gene Product: March 29th, 2024
|
| 28 days ago | LOC100285888 | : | | | | | Gene Product: March 29th, 2024
|
| 28 days ago | LOC100284962 | : | | | | | Gene Product: March 29th, 2024
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 days ago | zep1 | zeaxanthin epoxidase1: | 2.04 | GRMZM2G127139
| 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 days ago | cl7681_1a | : | 1.09 | GRMZM2G088083
| | | Gene Product: March 29th, 2024
Gene Model: February 14th, 2020
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 days ago | ggps2 | geranylgeranyl pyrophosphate synthase2: | | 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
|
| 28 days ago | ggps3 | geranylgeranyl pyrophosphate synthase3: | | GRMZM2G102550
| 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
|
| 28 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
|
| 28 days ago | ippi3 | isopentenyl pyrophosphate isomerase3: | | 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 days ago | caat10 | cationic amino acid transporter10: | | GRMZM2G139920
| 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: April 4th, 2022
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 days ago | caat1 | cationic amino acid transporter1: | 1.08 | GRMZM2G092391
| 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 28 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
|
| 29 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
|
| 29 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
|
| 29 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
|
| 29 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
|
| 29 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
|
| 29 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
|
| 29 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
|
| 29 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
|
| 29 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
|
| 30 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
|
| 30 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
|
| 30 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
|
| 30 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
|
| 30 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
|
| 30 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
|
| 30 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
|
| 30 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
|
| 30 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
|
| 30 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
|
| 30 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
|
| 30 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
|
