Newly Characterized Genes

CHECK HERE FOR DESCRIPTIONS OF NEWLY CHARACTERIZED MAIZE GENES!

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.

If you cannot find the gene you would like to recommend in the database, send us an email so that we can add it to the database!

This page is based on our monthly release. The updates are made around 4:00am CST.


         Recommended Genes


One month | Six months | One year | All time

New or updated genes since one month ago. The cutoff date is January 27th, 2020.

Last UpdateGeneFull Name : DescriptionChromosome
or Bin
Gene
Model
Recent ReferenceOrthologsUpdate information
todayrap2 rap2.7 orthologue: negative regulator of flowering time; vgt1 acts as an enhancer (Salvi et al. 2007)
8.06
GRMZM2G700665
Azodi, CB; Pardo, J; VanBuren, R; de los Campos, G; Shiu, SH. 2019. Plant Cell. 0:doi: 10.1105/tpc.19.00332     Reference: February 27th, 2020
Gene Product: July 5th, 2019
Variation: July 24th, 2019
Gene Model: November 20th, 2012
todaypebp2 phosphatidylethanolamine-binding protein2:
 
   Azodi, CB; Pardo, J; VanBuren, R; de los Campos, G; Shiu, SH. 2019. Plant Cell. 0:doi: 10.1105/tpc.19.00332     Reference: February 27th, 2020
Variation: December 15th, 2010
todaypebp4 phosphatidylethanolamine-binding protein4:
 
   Azodi, CB; Pardo, J; VanBuren, R; de los Campos, G; Shiu, SH. 2019. Plant Cell. 0:doi: 10.1105/tpc.19.00332     Reference: February 27th, 2020
Variation: December 15th, 2010
todaypebp5 phosphatidylethanolamine-binding protein:
 
   Azodi, CB; Pardo, J; VanBuren, R; de los Campos, G; Shiu, SH. 2019. Plant Cell. 0:doi: 10.1105/tpc.19.00332     Reference: February 27th, 2020
Variation: January 31st, 2011
todaypebp8 phosphatidylethanolamine-binding protein8: florigen activity: complements Arabidopsis FT mutants, promoting flowering at short days. Requires functional id1 gene.(Lazakis et al 2011)
 
GRMZM2G179264
Azodi, CB; Pardo, J; VanBuren, R; de los Campos, G; Shiu, SH. 2019. Plant Cell. 0:doi: 10.1105/tpc.19.00332     Reference: February 27th, 2020
Gene Product: May 6th, 2011
Variation: June 19th, 2015
Gene Model: May 6th, 2011
todaypebp11 phosphatidylethanolamine-binding protein11:
 
   Doll, NM, et al. 2020. Plant Cell. 0:doi: 10.1105/tpc.19.00756     Reference: February 27th, 2020
Variation: December 10th, 2010
todaypebp24 phosphatidylethanolamine-binding protein24:
 
GRMZM2G440005
Azodi, CB; Pardo, J; VanBuren, R; de los Campos, G; Shiu, SH. 2019. Plant Cell. 0:doi: 10.1105/tpc.19.00332     Reference: February 27th, 2020
Variation: December 14th, 2010
Gene Model: July 28th, 2016
todayid1 indeterminate growth1: requires extended growth for flowering; vegetatively totipotent with gt1 and factors for perennialism
1.08
   Azodi, CB; Pardo, J; VanBuren, R; de los Campos, G; Shiu, SH. 2019. Plant Cell. 0:doi: 10.1105/tpc.19.00332     Reference: February 27th, 2020
Gene Product: January 3rd, 2015
Variation: August 3rd, 2015
todayal9 aleurone9: aleurone specific cDNA, unknown function
8.08
GRMZM2G091006
Doll, NM, et al. 2020. Plant Cell. 0:doi: 10.1105/tpc.19.00756     Reference: February 27th, 2020
Variation: October 14th, 2009
Gene Model: January 14th, 2016
todayo11 opaque endosperm11: thin, opaque, somewhat shrunken kernels with greyish cast
 
GRMZM2G147685
Doll, NM, et al. 2020. Plant Cell. 0:doi: 10.1105/tpc.19.00756   AT1G49770 (TAIR) Reference: February 27th, 2020
Gene Product: September 14th, 2016
Variation: February 8th, 2018
Gene Model: February 8th, 2018
todayo2 opaque endosperm2: like o1; high lysine content; regulates b-32 protein (see rip1); reduced lysine degradation (lysine-ketoglutaric reductase); SSRs phi057, 112
7.01
   Doll, NM, et al. 2020. Plant Cell. 0:doi: 10.1105/tpc.19.00756     Reference: February 27th, 2020
Gene Product: September 1st, 2003
Variation: June 6th, 2016
todaycct1 CO CO-LIKE TIMING OF CAB1 protein domain1: photoperiod response locus; confers later flowering in teosintes under longer day lengths; many maize inbred lines, including some adapted to tropical regions, have cct1 alleles insensitive to photoperiod (Hung et al 2012)
 
GRMZM2G381691
Azodi, CB; Pardo, J; VanBuren, R; de los Campos, G; Shiu, SH. 2019. Plant Cell. 0:doi: 10.1105/tpc.19.00332   AT5G24930 (TAIR)
LOC_Os07g15770 (MSU/TIGR)
Os07g0261200 (Gramene)
Reference: February 27th, 2020
Gene Product: June 18th, 2018
Variation: December 27th, 2017
Gene Model: July 17th, 2012
todaymads69 MADS-transcription factor 69: Locus designated and assigned to a transcription factor family by the GRASSIUS project (Yilmaz et al 2009) , which also provided the mappings to the B73_Reference Genome sequence v2 gene models.contributes to natural variation in flowering time in maize
 
   Azodi, CB; Pardo, J; VanBuren, R; de los Campos, G; Shiu, SH. 2019. Plant Cell. 0:doi: 10.1105/tpc.19.00332     Reference: February 27th, 2020
Variation: October 5th, 2018
todaysweet15a sugars will eventually be exported transporter15a:
4.05
GRMZM2G168365
Doll, NM, et al. 2020. Plant Cell. 0:doi: 10.1105/tpc.19.00756     Reference: February 27th, 2020
Gene Product: November 4th, 2015
Variation: September 1st, 2003
Gene Model: November 3rd, 2015
todaydlf1 delayed flowering1: tall late plant with additional nodes and leaves at flowering; no apparent response to day length
 
   Azodi, CB; Pardo, J; VanBuren, R; de los Campos, G; Shiu, SH. 2019. Plant Cell. 0:doi: 10.1105/tpc.19.00332     Reference: February 27th, 2020
Gene Product: August 21st, 2018
Variation: February 6th, 2011
todaymads1 MADS1: transcripts detected in egg cells and invivo zygotes of maize, also expressed in synergids and antipodal cells. during flower development expressed in all ear spikelet organ primordia at intermediate stages
9.07
   Azodi, CB; Pardo, J; VanBuren, R; de los Campos, G; Shiu, SH. 2019. Plant Cell. 0:doi: 10.1105/tpc.19.00332     Reference: February 27th, 2020
Gene Product: September 1st, 2003
Variation: April 15th, 2008
todaylec1 LEC1 transcription factor1:
5.06
GRMZM2G011789
Doll, NM, et al. 2020. Plant Cell. 0:doi: 10.1105/tpc.19.00756     Reference: February 27th, 2020
Gene Product: August 9th, 2016
Gene Model: April 8th, 2011
todayzag6 agamous-like6: Encodes a MADS-box transcription factor homologous to SUPPRESSOR OF OVEREXPRESSION OF CONSTANS 1 that affects flowering time in Arabidopsis.
 
GRMZM2G026223
Azodi, CB; Pardo, J; VanBuren, R; de los Campos, G; Shiu, SH. 2019. Plant Cell. 0:doi: 10.1105/tpc.19.00332     Reference: February 27th, 2020
Variation: June 9th, 2014
Gene Model: June 9th, 2014
todaysweet14a sugars will eventually be exported transporter14a:
 
GRMZM2G094955
Doll, NM, et al. 2020. Plant Cell. 0:doi: 10.1105/tpc.19.00756     Reference: February 27th, 2020
Gene Product: November 4th, 2015
Gene Model: November 3rd, 2015
todaycct2 CO CO-LIKE TIMING OF CAB1 protein domain2: photoperiod response locus; confers later flowering in teosintes under longer day lengths; knockout mutant causes early flowering under long days
 
GRMZM2G004483
Azodi, CB; Pardo, J; VanBuren, R; de los Campos, G; Shiu, SH. 2019. Plant Cell. 0:doi: 10.1105/tpc.19.00332     Reference: February 27th, 2020
Gene Product: June 18th, 2018
Variation: December 27th, 2017
Gene Model: December 27th, 2017
todaytin1 tiller number1: variant has multiple tillers
 
GRMZM2G059088
Zhang, X, et al. 2019. Nature communications. 10:5608     Reference: February 27th, 2020
Gene Product: December 6th, 2019
Variation: December 6th, 2019
Gene Model: December 6th, 2019
todayIDP781  :
5.03
GRMZM2G020146
Doll, NM, et al. 2020. Plant Cell. 0:doi: 10.1105/tpc.19.00756     Reference: February 27th, 2020
Variation: March 31st, 2005
Gene Model: February 24th, 2020
yesterdaysbp22 SBP-transcription factor 22: Locus designated and assigned to a transcription factor family by the GRASSIUS project (Yilmaz et al 2009) , which also provided the mappings to the B73_Reference Genome sequence v2 gene models.
 
   Liu, HJ et al. 2020. Plant Cell pp.doi: 10.1105/tpc.19.00934     Reference: February 26th, 2020
Gene Product: July 5th, 2019
yesterdaytrps1 trehalose-6-phosphate synthase1:
 
GRMZM2G068943
Liu, HJ et al. 2020. Plant Cell pp.doi: 10.1105/tpc.19.00934     Reference: February 26th, 2020
Gene Product: September 15th, 2013
Gene Model: May 28th, 2012
yesterdaydxs2 deoxy xylulose synthase 2: root specific; function inferred from sequence and expression pattern comparison with Medicago trunculata genes
9.03
GRMZM2G493395
Liu, HJ et al. 2020. Plant Cell pp.doi: 10.1105/tpc.19.00934     Reference: February 26th, 2020
Gene Product: August 17th, 2004
Variation: September 17th, 2019
Gene Model: December 9th, 2011
2 days agogex2 gamete expressed2: mutants have reduced transmission (<35% for two independent insertions), and also triggered seed defects when crossed as a male
 
GRMZM2G036832
Warman, C et al. 2020. bioRxiv preprint pp.doi: 10.1101/796060   AT5G49150 (TAIR) Reference: February 25th, 2020
Gene Product: February 25th, 2020
Variation: February 25th, 2020
Gene Model: February 25th, 2020
2 days agogex1 gamete expressed1: encodes protein with a core binding site for Dof transcription factors
 
GRMZM2G388045
Chen, JY, et al. 2017. Plant Cell. 0:doi: 10.1105/tpc.17.00099   AT5G55490 (TAIR) Reference: October 4th, 2017
Gene Product: February 25th, 2020
Gene Model: February 25th, 2020
3 days agod1 dwarf plant1: andromonoecious, short, compact plants; responds to gibberellins; d1-t intermediate in height
3.03
GRMZM2G036340
Knauer, S, et al. 2019. Genome Res. 0:doi: 10.1101/gr.250878.119     Reference: February 24th, 2020
Gene Product: October 25th, 2014
Variation: October 30th, 2014
Gene Model: October 2nd, 2012
3 days agohma3 heavy metal ATPase3: associated with leaf Cd concentration under various Cd levels at seedling and maturing stages
 
GRMZM2G175576
Knauer, S, et al. 2019. Genome Res. 0:doi: 10.1101/gr.250878.119     Reference: February 24th, 2020
Gene Product: October 23rd, 2019
Variation: November 21st, 2019
Gene Model: January 27th, 2018
3 days agoGRMZM2G059392  :
 
GRMZM2G059392
Knauer, S, et al. 2019. Genome Res. 0:doi: 10.1101/gr.250878.119   AT3G53450 (TAIR) Reference: February 24th, 2020
Gene Product: November 21st, 2019
Variation: November 21st, 2019
Gene Model: November 21st, 2019
3 days agoGRMZM2G472643  :
 
GRMZM2G472643
Knauer, S, et al. 2019. Genome Res. 0:doi: 10.1101/gr.250878.119   AT4G14580 (TAIR) Reference: February 24th, 2020
Variation: November 21st, 2019
Gene Model: November 21st, 2019
3 days agoGRMZM2G050234  :
 
GRMZM2G050234
Knauer, S, et al. 2019. Genome Res. 0:doi: 10.1101/gr.250878.119     Reference: February 24th, 2020
Variation: November 21st, 2019
Gene Model: November 21st, 2019
6 days agopgd3 phosphogluconate dehydrogenase3: single copy cDNA, csu843, similar to alfalfa enzyme; pentose phosphate pathway
4.03
GRMZM2G440208
Du, HY et al. 2020. Int J Mol Sci 21:1445     Reference: February 21st, 2020
Gene Product: September 1st, 2003
Variation: February 28th, 2013
Gene Model: July 28th, 2016
6 days agosum1 siroheme uroporphyrinogen methyltransferase1:
3.09
GRMZM2G105604
Du, HY et al. 2020. Int J Mol Sci 21:1445     Reference: February 21st, 2020
Gene Product: September 1st, 2003
Variation: March 18th, 2015
Gene Model: March 18th, 2015
6 days agonnr2 nitrate reductase2: partial cDNA from seedling root cDNA similar to nitrate reductase
5.07
GRMZM5G878558
Du, HY et al. 2020. Int J Mol Sci 21:1445     Reference: February 21st, 2020
Gene Product: September 1st, 2003
Variation: October 26th, 2010
Gene Model: May 10th, 2018
6 days agonnr1 nitrate reductase(NADH)1: leaf, scutellum cDNA's; flavin and cyt b domains functional in E. coli, may be allelic to nnr3
4.05
   Du, HY et al. 2020. Int J Mol Sci 21:1445     Reference: February 21st, 2020
Gene Product: September 1st, 2003
Variation: October 26th, 2010
6 days agohb1 hemoglobin1: suppression of expression associated with programmed cell death (Huang et al 2014)cDNA sequence; SSR umc1733;cloned hb gene codes for a predicted protein of 164 amino acids
9.06
GRMZM2G067402
Du, HY et al. 2020. Int J Mol Sci 21:1445     Reference: February 21st, 2020
Gene Product: February 20th, 2018
Variation: September 24th, 2010
Gene Model: May 15th, 2014
6 days agobx3 benzoxazinone synthesis3: endoplasmic reticulum monoxygenase; synthesis of cyclic hydroxamates/DIMBOA; insect resistance in young seedlings; SSR umc1017
4.01
GRMZM2G167549
Schneider, HM et al. 2020. J Exp Bot pp.doi: 10.1093/jxb/eraa084     Reference: February 21st, 2020
Gene Product: October 19th, 2011
Variation: November 12th, 2013
Gene Model: October 24th, 2011
6 days agogln1 glutamine synthetase1: chloroplast, gene specific cDNA probe, GS2 isoform; 6-member nuclear gene family
10.07
   Du, HY et al. 2020. Int J Mol Sci 21:1445     Reference: February 21st, 2020
Gene Product: September 1st, 2003
Variation: September 1st, 2003
6 days agonii2 nitrite reductase2: cDNA homologous to spinach gene, induced by nitrate, putative chloroplast transit peptide, two copies
4.07
GRMZM2G079381
Du, HY et al. 2020. Int J Mol Sci 21:1445     Reference: February 21st, 2020
Gene Product: September 1st, 2003
Variation: September 1st, 2003
Gene Model: September 10th, 2014
6 days agofnr1 ferredoxin NADP reductase1: single or low copy; root, nitrate induced cDNA; deduced amino acid sequence >90% similar to rice FNR; produces an active FNR product in E. coli
1.11
   Du, HY et al. 2020. Int J Mol Sci 21:1445     Reference: February 21st, 2020
Gene Product: September 1st, 2003
Variation: December 7th, 2012
6 days agoAY109534  : similar to Arabidopsis phosphoglycerate/bisphosphoglycerate mutase
4.08
   Du, HY et al. 2020. Int J Mol Sci 21:1445     Reference: February 21st, 2020
Variation: September 25th, 2007
6 days agofdx6 ferredoxin6:
 
GRMZM2G106190
Du, HY et al. 2020. Int J Mol Sci 21:1445     Reference: February 21st, 2020
Gene Product: September 1st, 2003
Variation: November 18th, 2011
Gene Model: July 27th, 2016
6 days agobx11 benzoxazinone synthesis11:
 
GRMZM2G336824
Schneider, HM et al. 2020. J Exp Bot pp.doi: 10.1093/jxb/eraa084     Reference: February 21st, 2020
Gene Product: July 8th, 2013
Gene Model: July 8th, 2013
6 days agonnr4 nitrate reductase4:
 
GRMZM2G076723
Du, HY et al. 2020. Int J Mol Sci 21:1445     Reference: February 21st, 2020
Gene Product: September 1st, 2003
Gene Model: May 10th, 2018
6 days agonii1 nitrate reductase1:
 
GRMZM2G102959
Du, HY et al. 2020. Int J Mol Sci 21:1445     Reference: February 21st, 2020
Gene Product: September 1st, 2003
Gene Model: May 10th, 2018
6 days agogpat11 glycerol-3-phosphate acyltransferase11:
 
GRMZM2G059637
Schneider, HM et al. 2020. J Exp Bot pp.doi: 10.1093/jxb/eraa084     Reference: February 21st, 2020
Gene Product: March 25th, 2019
Gene Model: March 25th, 2019
6 days agonrt5 nitrate transport5:
 
GRMZM2G455124
Du, HY et al. 2020. Int J Mol Sci 21:1445     Reference: February 21st, 2020
Gene Product: September 1st, 2003
Gene Model: May 21st, 2019
6 days agotk1 transketolase 1:
9.03
GRMZM2G033208
Du, HY et al. 2020. Int J Mol Sci 21:1445     Reference: February 21st, 2020
Gene Product: March 11th, 2008
Variation: January 29th, 2011
Gene Model: December 21st, 2015
6 days agopgd4 phosphogluconate dehydrogenase4:
10.04
GRMZM2G177077
Du, HY et al. 2020. Int J Mol Sci 21:1445     Reference: February 21st, 2020
Gene Product: September 1st, 2003
Gene Model: September 22nd, 2018
7 days agoumc1279  :
9.00
GRMZM2G000623
    Variation: September 1st, 2003
Gene Model: February 20th, 2020
7 days agolhy1 late hypocotyl elongation protein ortholog1: myb transcription factor - core clock gene (Hayes et al. 2010)
10.03
GRMZM2G474769
Shi, Y et al. 2020. Frontiers Plant Sci pp.doi: 10.3389/fpls.2020.00078     Reference: February 20th, 2020
Gene Product: July 31st, 2016
Variation: December 28th, 2016
Gene Model: December 28th, 2016
7 days agocca1 circadian clock associated1: myb transcription factor - clock gene
 
GRMZM2G014902
Shi, Y et al. 2020. Frontiers Plant Sci pp.doi: 10.3389/fpls.2020.00078     Reference: February 20th, 2020
Gene Product: July 31st, 2016
Variation: March 18th, 2011
Gene Model: July 30th, 2016
7 days agoknr6 kernel number per row6: involved in determination of pistillate floret number and ear length
 
GRMZM2G119714
Jia, HT et al. 2020. Nature communications 11:988     Reference: February 20th, 2020
Gene Product: May 13th, 2014
Variation: February 20th, 2020
Gene Model: February 20th, 2020
11 days agomagi2594  :
1.11
GRMZM2G352415
    Variation: April 24th, 2006
Gene Model: February 16th, 2020
12 days agona1 nana plant1: short, erect dwarf; no response to gibberellins
3.06 - 3.08
GRMZM2G449033
Castorina, G; Consonni, G. 2020. Int J Mol Sci 21:E1191     Reference: February 15th, 2020
Gene Product: July 24th, 2012
Variation: December 22nd, 2016
Gene Model: December 20th, 2011
12 days agona2 nana plant2: like na1
5.03
GRMZM2G057000
Castorina, G; Consonni, G. 2020. Int J Mol Sci 21:E1191   AT3G19820 (TAIR) Reference: February 15th, 2020
Gene Product: June 13th, 2016
Variation: June 13th, 2016
Gene Model: June 13th, 2016
12 days agoumc1204  :
 
GRMZM2G164088
    Variation: September 1st, 2003
Gene Model: February 15th, 2020
12 days agobrs1 brassinosteroid synthesis1:
1.03
GRMZM2G065635
Castorina, G; Consonni, G. 2020. Int J Mol Sci 21:E1191   AT3G50660 (TAIR) Reference: February 15th, 2020
Gene Product: September 20th, 2010
Variation: November 7th, 2013
Gene Model: October 3rd, 2012
12 days agobrd1 brassinosteroid-deficient dwarf1: Mutant plants have essentially no internode elongation and exhibit no etiolation response when germinated in the dark.
 
GRMZM2G103773
Castorina, G; Consonni, G. 2020. Int J Mol Sci 21:E1191     Reference: February 15th, 2020
Gene Product: February 18th, 2012
Variation: August 16th, 2019
Gene Model: February 15th, 2012
12 days agoptpn1 protein tyrosine phosphatase-like nulceotidase1: encodes proten with nucleotidase activity; is activated by ABA signaling and is a key regulator of drought-promoted vitamin C production
 
GRMZM2G146819
Zhang, H et al. 2020. Molecular Plant pp.doi: 10.1016/j.molp.2020.02.005   AT3G62010 (TAIR) Reference: February 15th, 2020
Gene Product: February 15th, 2020
Gene Model: February 15th, 2020
12 days agoIDP3798  :
1.09
GRMZM2G075974
    Variation: March 31st, 2005
Gene Model: February 15th, 2020
13 days agoIDP3803  :
1.09
GRMZM2G003640
    Variation: March 31st, 2005
Gene Model: February 14th, 2020
14 days agoacc2 acetyl-CoA carboxylase2: graminicide (e.g., sethoxydim, haloxyfop) resistance; encodes acetyl-CoA carboxylase
2.04
GRMZM5G858094
Liu, X et al. 2020. bioRxiv preprint pp.doi: 10.1101/2020.02.11.943787     Reference: February 13th, 2020
Gene Product: September 1st, 2003
Variation: July 7th, 2012
Gene Model: July 7th, 2012
14 days agoad1 adherent1: seedling leaves, tassel branches, and occasionally top leaves adhere
1.08
GRMZM2G167438
Liu, X et al. 2020. bioRxiv preprint pp.doi: 10.1101/2020.02.11.943787     Reference: February 13th, 2020
Gene Product: November 1st, 2018
Variation: February 13th, 2020
Gene Model: February 13th, 2020
14 days agogl1 glossy1: cuticle wax altered; leaf surface bright, water adheres
7.02
   Liu, X et al. 2020. bioRxiv preprint pp.doi: 10.1101/2020.02.11.943787     Reference: February 13th, 2020
Gene Product: September 1st, 2003
Variation: October 26th, 2006
14 days agogl8 glossy8: (was gl10) like gl1; cuticle wax in rice-grain-type particles; cDNA probesimilar to Arabidopsis beta-ketoacyl reductase 1
5.05
   Liu, X et al. 2020. bioRxiv preprint pp.doi: 10.1101/2020.02.11.943787     Reference: February 13th, 2020
Gene Product: September 1st, 2003
Variation: June 14th, 2012
14 days agokcs15 3-ketoacyl-CoA synthase15: NCBI: fatty acid elongase
1.08
GRMZM2G162508
Liu, X et al. 2020. bioRxiv preprint pp.doi: 10.1101/2020.02.11.943787     Reference: February 13th, 2020
Gene Product: November 1st, 2018
Variation: November 4th, 2016
Gene Model: November 4th, 2016
14 days agoltpg1 glycosylphosphatidylinositol-anchored lipid protein transfer1: NCBI: putative bifunctional inhibitor/LTP/seed storage protein family
1.06
GRMZM2G083725
Liu, X et al. 2020. bioRxiv preprint pp.doi: 10.1101/2020.02.11.943787     Reference: February 13th, 2020
Gene Product: September 1st, 2003
Variation: December 2nd, 2016
Gene Model: December 2nd, 2016
14 days agokcs13 3-ketoacyl-CoA synthase13:
1.02
GRMZM2G445602
Liu, X et al. 2020. bioRxiv preprint pp.doi: 10.1101/2020.02.11.943787     Reference: February 13th, 2020
Gene Product: November 1st, 2018
Gene Model: September 2nd, 2018
14 days agofdl1 fused leaves1: coleoptile-first or first-second leaves fused at epidermis, curly
7.04
GRMZM2G056407
Liu, X et al. 2020. bioRxiv preprint pp.doi: 10.1101/2020.02.11.943787     Reference: February 13th, 2020
Gene Product: September 1st, 2003
Variation: February 13th, 2020
Gene Model: September 12th, 2018
14 days agokcs19 3-ketoacyl-CoA synthase19:
 
GRMZM2G062718
Liu, X et al. 2020. bioRxiv preprint pp.doi: 10.1101/2020.02.11.943787     Reference: February 13th, 2020
Gene Product: November 1st, 2018
Gene Model: February 13th, 2020
14 days agokcs3 3-ketoacyl-CoA synthase3:
 
GRMZM2G075140
Liu, X et al. 2020. bioRxiv preprint pp.doi: 10.1101/2020.02.11.943787     Reference: February 13th, 2020
Gene Product: November 1st, 2018
Gene Model: February 13th, 2020
14 days agokcs9 3-ketoacyl-CoA synthase9:
 
GRMZM2G104626
Liu, X et al. 2020. bioRxiv preprint pp.doi: 10.1101/2020.02.11.943787     Reference: February 13th, 2020
Gene Product: November 1st, 2018
Gene Model: February 13th, 2020
14 days agokcs11 3-ketoacyl-CoA synthase11:
 
GRMZM2G149636
Liu, X et al. 2020. bioRxiv preprint pp.doi: 10.1101/2020.02.11.943787     Reference: February 13th, 2020
Gene Product: November 1st, 2018
Gene Model: February 13th, 2020
14 days agokcs18 3-ketoacyl-CoA synthase18:
 
GRMZM2G156620
Liu, X et al. 2020. bioRxiv preprint pp.doi: 10.1101/2020.02.11.943787     Reference: February 13th, 2020
Gene Product: November 1st, 2018
Gene Model: February 13th, 2020
14 days agokcs16 3-ketoacyl-CoA synthase16:
 
GRMZM2G160417
Liu, X et al. 2020. bioRxiv preprint pp.doi: 10.1101/2020.02.11.943787     Reference: February 13th, 2020
Gene Product: November 1st, 2018
Gene Model: February 13th, 2020
14 days agokcs28 3-ketoacyl-CoA synthase28:
 
GRMZM2G164974
Liu, X et al. 2020. bioRxiv preprint pp.doi: 10.1101/2020.02.11.943787     Reference: February 13th, 2020
Gene Product: November 1st, 2018
Gene Model: February 13th, 2020
14 days agokcs22 3-ketoacyl-CoA synthase22:
 
GRMZM2G168956
Liu, X et al. 2020. bioRxiv preprint pp.doi: 10.1101/2020.02.11.943787     Reference: February 13th, 2020
Gene Product: November 1st, 2018
Gene Model: February 13th, 2020
14 days agokcs24 3-ketoacyl-CoA synthase24:
 
GRMZM5G894016
Liu, X et al. 2020. bioRxiv preprint pp.doi: 10.1101/2020.02.11.943787     Reference: February 13th, 2020
Gene Product: November 1st, 2018
Gene Model: February 13th, 2020
14 days agocer1 eceriferum1:
 
GRMZM2G075255
Liu, X et al. 2020. bioRxiv preprint pp.doi: 10.1101/2020.02.11.943787     Reference: February 13th, 2020
Gene Product: February 13th, 2020
Gene Model: February 13th, 2020
14 days agocer2 eceriferum2:
 
GRMZM2G029912
Liu, X et al. 2020. bioRxiv preprint pp.doi: 10.1101/2020.02.11.943787     Reference: February 13th, 2020
Gene Product: February 13th, 2020
Gene Model: February 13th, 2020
14 days agolacs2 long chain acyl-CoA synthetase2:
 
GRMZM2G104847
Liu, X et al. 2020. bioRxiv preprint pp.doi: 10.1101/2020.02.11.943787     Reference: February 13th, 2020
Gene Product: October 31st, 2018
Gene Model: February 13th, 2020
14 days agowsd1 wax ester synthase/diacylglycerol acyltransferase1:
 
GRMZM2G077375
Liu, X et al. 2020. bioRxiv preprint pp.doi: 10.1101/2020.02.11.943787     Reference: February 13th, 2020
Gene Product: July 23rd, 2018
Gene Model: February 13th, 2020
15 days agorpd3 RPD3 histone deacetylase homolog: cDNA complements yeast rpd3, multiple copy, SSR umc1173.
4.09
GRMZM2G172883
Zhang, K et al. 2020. PeerJ DOI: 10.7717/peerj.8539     Reference: February 12th, 2020
Gene Product: February 12th, 2020
Variation: November 11th, 2014
Gene Model: November 6th, 2014
15 days agohdac9 histone deacetylase9:
 
GRMZM2G057044
Zhang, K et al. 2020. PeerJ DOI: 10.7717/peerj.8539     Reference: February 12th, 2020
Gene Product: February 12th, 2020
Variation: September 1st, 2003
Gene Model: February 12th, 2020
15 days agohdt104 histone deacetylase 104:
 
GRMZM5G898314
Zhang, K et al. 2020. PeerJ DOI: 10.7717/peerj.8539     Reference: February 12th, 2020
Gene Product: February 12th, 2020
Gene Model: October 12th, 2017
15 days agohda102 histone deacetylase:
2.04
GRMZM2G119703
Zhang, K et al. 2020. PeerJ DOI: 10.7717/peerj.8539     Reference: February 12th, 2020
Gene Product: February 12th, 2020
Variation: May 28th, 2011
Gene Model: November 6th, 2014
15 days agohda108 histone deacetylase: mutant plants exhibit many developmental defects: significant reduction in plant height, alterations of shoot and leaf development, alterations of inflorescence patterning and fertility
4.05
   Zhang, K et al. 2020. PeerJ DOI: 10.7717/peerj.8539     Reference: February 12th, 2020
Gene Product: September 1st, 2003
Variation: February 1st, 2018
15 days agohda109 histone deacetylase:
2.08
GRMZM2G457889
Zhang, K et al. 2020. PeerJ DOI: 10.7717/peerj.8539     Reference: February 12th, 2020
Gene Product: February 12th, 2020
Variation: November 11th, 2014
Gene Model: November 11th, 2014
15 days agohda110 histone deacetylase:
7.01
GRMZM2G107309
Zhang, K et al. 2020. PeerJ DOI: 10.7717/peerj.8539     Reference: February 12th, 2020
Gene Product: February 12th, 2020
Variation: September 1st, 2003
Gene Model: November 6th, 2014
15 days agohdt102 histone deacetylase102:
8.05
GRMZM2G100146
Zhang, K et al. 2020. PeerJ DOI: 10.7717/peerj.8539     Reference: February 12th, 2020
Gene Product: February 12th, 2020
Variation: November 25th, 2008
Gene Model: July 27th, 2016
15 days agohdt103 histone deacetylase103:
6.07
GRMZM2G159032
Zhang, K et al. 2020. PeerJ DOI: 10.7717/peerj.8539     Reference: February 12th, 2020
Gene Product: February 12th, 2020
Variation: November 25th, 2008
Gene Model: July 27th, 2016
15 days agohdac1 histone deacetylase1:
 
GRMZM2G163572
Zhang, K et al. 2020. PeerJ DOI: 10.7717/peerj.8539     Reference: February 12th, 2020
Gene Product: February 12th, 2020
Gene Model: February 12th, 2020
15 days agohdac3 histone deacetylase3:
 
GRMZM2G367886
Zhang, K et al. 2020. PeerJ DOI: 10.7717/peerj.8539     Reference: February 12th, 2020
Gene Product: February 12th, 2020
Gene Model: February 12th, 2020
15 days agohdac4 histone deacetylase4:
 
GRMZM2G456473
Zhang, K et al. 2020. PeerJ DOI: 10.7717/peerj.8539     Reference: February 12th, 2020
Gene Product: February 12th, 2020
Gene Model: February 12th, 2020
15 days agohdac5 histone deacetylase5:
 
GRMZM2G056539
Zhang, K et al. 2020. PeerJ DOI: 10.7717/peerj.8539     Reference: February 12th, 2020
Gene Product: February 12th, 2020
Gene Model: February 12th, 2020
15 days agohdac7 histone deacetylase7:
 
GRMZM2G008425
Zhang, K et al. 2020. PeerJ DOI: 10.7717/peerj.8539     Reference: February 12th, 2020
Gene Product: February 12th, 2020
Gene Model: February 12th, 2020
15 days agohdac8 histone deacetylase8:
 
GRMZM5G807054
Zhang, K et al. 2020. PeerJ DOI: 10.7717/peerj.8539     Reference: February 12th, 2020
Gene Product: February 12th, 2020
Gene Model: February 12th, 2020
15 days agohdac2 histone deacetylase2:
9.03
GRMZM2G081474
Zhang, K et al. 2020. PeerJ DOI: 10.7717/peerj.8539     Reference: February 12th, 2020
Gene Product: February 12th, 2020
Gene Model: February 12th, 2020
15 days agosrt101 sirtuin 101:
10.04
GRMZM2G058573
Zhang, K et al. 2020. PeerJ DOI: 10.7717/peerj.8539     Reference: February 12th, 2020
Gene Product: February 12th, 2020
Variation: February 12th, 2020
Gene Model: February 12th, 2020
15 days agohdac6 histone deacetylase6:
8.03
GRMZM2G046824
Zhang, K et al. 2020. PeerJ DOI: 10.7717/peerj.8539     Reference: February 12th, 2020
Gene Product: February 12th, 2020
Gene Model: February 12th, 2020
16 days agouaz7c01c01  :
 
GRMZM2G158462
    Variation: September 1st, 2003
Gene Model: February 11th, 2020
16 days agopan1 pangloss1: Defines polarization in divisions of subsidiary mother cells at guard cells
 
GRMZM5G836190
Zhang, XY et al. 2020. BMC Plant Biology 20:67     Reference: February 11th, 2020
Gene Product: November 27th, 2012
Variation: July 11th, 2014
Gene Model: November 2nd, 2011
16 days agogpc4 glyceraldehyde-3-phosphate dehydrogenase4: C subunit, electrophoretic mobility, coding sequence homology to gpc3, unique 3' untranslated region
5.05
GRMZM2G176307
Zhang, XY et al. 2020. BMC Plant Biology 20:67     Reference: February 11th, 2020
Gene Product: September 1st, 2003
Variation: December 13th, 2012
Gene Model: August 12th, 2014
16 days agojmj10 JUMONJI-transcription factor 10: Locus designated and assigned to a transcription factor family by the GRASSIUS project (Yilmaz et al 2009) , which also provided the mappings to the B73_Reference Genome sequence v2 gene models.
 
   Zhang, XY et al. 2020. BMC Plant Biology 20:67     Reference: February 11th, 2020
Gene Product: April 3rd, 2019
16 days agobzip22 bZIP-transcription factor 22: Locus designated and assigned to a transcription factor family by the GRASSIUS project (Yilmaz et al 2009) , which also provided the mappings to the B73_Reference Genome sequence v2 gene models.
 
   Zhang, XY et al. 2020. BMC Plant Biology 20:67   AT1G43700 (TAIR) Reference: February 11th, 2020
Gene Product: August 21st, 2018
Variation: September 24th, 2018
16 days agoomt2 Caffeoyl CoA O-methyltransferase2:
9.02
GRMZM2G099363
Zhang, XY et al. 2020. BMC Plant Biology 20:67     Reference: February 11th, 2020
Gene Product: January 5th, 2014
Variation: May 13th, 2016
Gene Model: September 17th, 2014
16 days agohtn1 Helminthosporium turcicum resistanceN1: formerly HtN; dominant Htn1 plants resistant to Exserohilum turcicum
8.06
GRMZM2G164612
Zhang, XY et al. 2020. BMC Plant Biology 20:67   At1g66980 (TAIR)
LOC_Os01g49580 (MSU/TIGR)
Reference: February 11th, 2020
Gene Product: July 10th, 2019
Variation: July 14th, 2015
Gene Model: July 1st, 2015
16 days agogst23 glutathione transferase23: cDNA, SSR umc2098
7.02
GRMZM2G416632
Zhang, XY et al. 2020. BMC Plant Biology 20:67     Reference: February 11th, 2020
Gene Product: September 1st, 2003
Variation: August 20th, 2010
Gene Model: July 27th, 2016
16 days agoumc2234  :
1.06
GRMZM2G441903
Zhang, XY et al. 2020. BMC Plant Biology 20:67     Reference: February 11th, 2020
Variation: January 18th, 2017
Gene Model: January 18th, 2017
16 days agopmei3 pectin methylesterase inhibitor3:
6.05
   Zhang, XY et al. 2020. BMC Plant Biology 20:67     Reference: February 11th, 2020
Gene Product: January 8th, 2019
Variation: September 25th, 2007
16 days agofrk1 fructokinase1:
3.05
GRMZM2G086845
Zhang, XY et al. 2020. BMC Plant Biology 20:67     Reference: February 11th, 2020
Variation: May 1st, 2010
Gene Model: July 27th, 2016
16 days agoremo1 remorin1:
 
GRMZM2G107774
Zhang, XY et al. 2020. BMC Plant Biology 20:67     Reference: February 11th, 2020
Gene Product: September 24th, 2018
Variation: February 6th, 2016
Gene Model: February 6th, 2016
16 days agoaldh17 aldehyde dehydrogenase17:
5.05
GRMZM2G169458
Zhang, XY et al. 2020. BMC Plant Biology 20:67     Reference: February 11th, 2020
Gene Product: September 1st, 2003
Gene Model: October 2nd, 2019
16 days agompk6 MAP kinase6:
10.03
GRMZM2G089484
Zhang, XY et al. 2020. BMC Plant Biology 20:67     Reference: February 11th, 2020
Gene Product: July 12th, 2013
Variation: January 19th, 2013
Gene Model: July 9th, 2013
16 days agoIDP707  :
1.08
GRMZM2G164018
Zhang, XY et al. 2020. BMC Plant Biology 20:67     Reference: February 11th, 2020
Variation: March 31st, 2005
Gene Model: February 14th, 2019
17 days agopep1 phosphoenolpyruvate carboxylase1: cytosolic C4 isozyme; single copy, similar to C3-PEPCase genes; cDNA complements E. coli mutant; genomic and partial amino acid sequences compare; SSR phi065
9.03
   Das, M et al. 2020. Plant Physiology Rep. doi: 10.1007/s40502-020-00500-0     Reference: February 10th, 2020
Gene Product: September 1st, 2003
Variation: February 10th, 2020
17 days agoxt1 beta-1,2-xylosyltransferase1:
 
GRMZM2G419267
Bondili, JS et al. 2006. Phytochemistry 67:2215-2224     Reference: February 10th, 2020
Gene Product: February 10th, 2020
Gene Model: February 10th, 2020
17 days agofuct1 alpha 1,3-fucosyltransferase:
 
GRMZM2G103939
Bondili, JS et al. 2006. Phytochemistry 67:2215-2224     Reference: February 10th, 2020
Gene Product: February 10th, 2020
Gene Model: February 10th, 2020
18 days agopco066796  :
1.06
GRMZM2G093755
    Variation: September 25th, 2007
Gene Model: February 9th, 2020
21 days agocko2 cytokinin oxidase 2:
3.05
GRMZM2G050997
Wang, YF et al. 2020. New Phytol pp.doi: 10.1111/nph.16472     Reference: February 6th, 2020
Gene Product: April 4th, 2014
Variation: February 26th, 2008
Gene Model: March 21st, 2014
Recommended by Ed Coe:
January 8th, 2008
21 days agocap1 calcium pump1: anoxic root cDNA, low or single copy, complements yeast mutants defective in Ca++-pumps
8.05
   Wang, YF et al. 2020. New Phytol pp.doi: 10.1111/nph.16472     Reference: February 6th, 2020
Gene Product: May 20th, 2015
Variation: September 1st, 2003
21 days agobif1 barren inflorescence1: dominant Bif1 plants have ear and tassel with many fewer spikelets, bare rachis appendages
8.03 - 8.03
GRMZM2G130953
Wang, YF et al. 2020. New Phytol pp.doi: 10.1111/nph.16472     Reference: February 6th, 2020
Gene Product: October 16th, 2015
Variation: October 16th, 2015
Gene Model: October 16th, 2015
21 days agodhn6 dehydrin6:
3.07
GRMZM2G031308
Zhang, X et al. 2020. Elife 9:e51918   AT4G23630 (TAIR) Reference: February 6th, 2020
Gene Product: August 5th, 2017
Variation: February 9th, 2014
Gene Model: July 27th, 2016
21 days agodhn7 dehydrin7:
 
GRMZM2G002786
Zhang, X et al. 2020. Elife 9:e51918   AT4G23630 (TAIR) Reference: February 6th, 2020
Gene Product: August 5th, 2017
Variation: February 9th, 2014
Gene Model: July 27th, 2016
21 days agopsrp1 plastid specific ribosomal protein1 : chloroplast-localized cyanobacterial ribosome hibernation factor LrtA homolog
 
GRMZM2G347956
Swift, K et al. 2020. Plants 9:209   AT5G24490 (TAIR) Reference: February 6th, 2020
Gene Product: February 6th, 2020
Variation: February 6th, 2020
Gene Model: February 6th, 2020
23 days agocl244_1  :
1.02
GRMZM2G093125
    Variation: September 25th, 2007
Gene Model: February 4th, 2020
24 days agopcr3 protochlorophyllide reductase3: localized in chloroplast; overexpression increased tocopherol content in leaves and kernels (Zhan et al., 2019)
 
GRMZM2G073351
Das, AK et al. 2020. J Food Composition and Analysis doi: 10.1016/j.jfca.2020.103446     Reference: February 3rd, 2020
Gene Product: June 8th, 2019
Variation: June 8th, 2019
Gene Model: October 4th, 2017
24 days agodogt1 deoxynivalenol-glucosyltransferase1:
 
GRMZM2G403740
Guo, J et al. 2020. Plant Sci 292:110380     Reference: February 3rd, 2020
Gene Product: May 23rd, 2019
Gene Model: May 20th, 2019
24 days agovte4 vitamin E synthesis4:
5.06
GRMZM2G035213
Das, AK et al. 2020. J Food Composition and Analysis doi: 10.1016/j.jfca.2020.103446     Reference: February 3rd, 2020
Gene Product: June 26th, 2013
Gene Model: June 26th, 2013
24 days agoIDP2455  : similar to bifunctional inhibitor/lipid-transfer protein/seed storage 2S albumin-like protein of A. thaliana
2.04
GRMZM2G136364
Guo, J et al. 2020. Plant Sci 292:110380     Reference: February 3rd, 2020
Variation: March 31st, 2005
Gene Model: February 19th, 2019
24 days agoIDP65  : similar to 60S ribosomal protein L23 of A. thaliana
9.07
GRMZM2G150058
    Variation: March 31st, 2005
Gene Model: February 3rd, 2020
25 days agocsu738  :
1.01 - 1.01
GRMZM2G109725
    Variation: September 1st, 2003
Gene Model: February 2nd, 2020
26 days agosh1 shrunken1: inflated endosperm collapses on drying, forming smoothly indented kernels; sucrose synthase-sh1 of endosperm (compare sus1 and sus2); homotetramer; SSRs phi028, 044, 033
9.01
   Deng, YT et al. 2020. Plant Biotechnol J pp.doi: 10.1111/pbi.13349     Reference: February 1st, 2020
Gene Product: October 25th, 2006
Variation: February 1st, 2020
26 days agotls1 tasselless1: encodes an aquaporin; plants generally lack tassels, have ear shoots but ear development is variable ranging from no seed set to a few kernels on a small ball-shaped cob; in some backgrounds, pubescent, leathery at 4-8 leaf stage; similar to bs1 of Woodworth and Micu. Phenotypes corrected by boron spraying (Leonard et al 2014).
1.11 - 1.12
GRMZM2G176209
Housh, AB et al. 2020. Int J Mol Sci 21:976     Reference: February 1st, 2020
Gene Product: April 3rd, 2014
Variation: July 29th, 2014
Gene Model: April 2nd, 2014
26 days agosus1 sucrose synthase1: (was sus2, css1) sucrose synthase-1 (SUS1) of embryo and other tissues, compare sh1; SSRs phi016, 032, 042
9.04
GRMZM2G152908
Deng, YT et al. 2020. Plant Biotechnol J pp.doi: 10.1111/pbi.13349     Reference: February 1st, 2020
Gene Product: October 25th, 2006
Variation: February 1st, 2020
Gene Model: August 12th, 2014
26 days agorte1 rotten ear1: mutants show distinct defects in vegetative and reproductive development, eventually causing widespread sterility in its tassel and ear.
1.05
GRMZM2G166159
Housh, AB et al. 2020. Int J Mol Sci 21:976     Reference: February 1st, 2020
Gene Product: June 24th, 2017
Variation: July 21st, 2014
Gene Model: July 19th, 2014
26 days agorte2 rotten ear2: mutants strongly enhance the phenotype of rte1 mutants in soils with low boron content, producing shorter plants that fail to form all reproductive structures
 
GRMZM2G082203
Housh, AB et al. 2020. Int J Mol Sci 21:976     Reference: February 1st, 2020
Gene Product: June 24th, 2017
Variation: June 24th, 2017
Gene Model: June 24th, 2017
26 days agosus2 sucrose synthase2: Encodes sucrose synthase-2 (SUS2), one of 3 loci defined for this function; compare sh1 and sus1.
1.04
GRMZM2G318780
Deng, YT et al. 2020. Plant Biotechnol J pp.doi: 10.1111/pbi.13349     Reference: February 1st, 2020
Gene Product: October 25th, 2006
Variation: February 1st, 2020
Gene Model: August 3rd, 2013
27 days agocg1 corngrass1: semidominant Cg1 plants have narrow leaves, extreme tilleringCg1 encodes two tandem miR156 genes that are overexpressed in the meristem and lateral organs. George Chuck, 2007
3.02
GRMZM2G022489
Kang, T et al. 2020. Frontiers Plant Sci 10:1664     Reference: January 31st, 2020
Gene Product: June 17th, 2016
Variation: August 25th, 2011
Gene Model: April 5th, 2013
Recommended by George Chuck:
September 25th, 2007
27 days agolyce1 lycopene epsilon cyclase1: determines qualitative composition of endosperm carotenoids
8.05
GRMZM2G012966
Liu, JX et al. 2020. IEEE Access 8:5223 - 15231     Reference: January 31st, 2020
Gene Product: December 10th, 2011
Variation: October 3rd, 2011
Gene Model: October 3rd, 2011
27 days agotb1 teosinte branched1: many tillers; ear branches tassel-like; affects apical dominanceGRASSIUS: TCP transcription factor (TCP1)
1.09
   Prakash, NR et al. 2020. 3 Biotech 10:77     Reference: January 31st, 2020
Gene Product: September 14th, 2016
Variation: February 2nd, 2017
27 days agoy1 yellow endosperm1: reduced carotenoid pigments in endosperm; some alleles affect chlorophyll in seedlings (e.g. y1-8549, y1-pb)
6.01
GRMZM2G300348
Liu, JX et al. 2020. IEEE Access 8:5223 - 15231     Reference: January 31st, 2020
Gene Product: December 14th, 2011
Variation: August 26th, 2014
Gene Model: September 22nd, 2011
27 days agohyd3 hydroxylase3: beta-carotene hydroxylase
 
GRMZM2G152135
Liu, JX et al. 2020. IEEE Access 8:5223 - 15231     Reference: January 31st, 2020
Gene Product: December 13th, 2011
Variation: September 3rd, 2011
Gene Model: April 9th, 2013
27 days agocrti1 carotene isomerase1: enclodes carotene isomerase1
 
GRMZM2G108457
Liu, JX et al. 2020. IEEE Access 8:5223 - 15231     Reference: January 31st, 2020
Gene Product: December 10th, 2011
Gene Model: April 8th, 2013
28 days agosmc3 structural maintenance of chromosomes3: participates in meiotic centromere pairing
 
GRMZM2G456570
Zhang, J et al. 2020. Plant Cell pp.doi: 10.1105/tpc.19.00834     Reference: January 30th, 2020
Gene Product: December 10th, 2019
Variation: January 30th, 2020
Gene Model: January 30th, 2020
29 days agop1 pericarp color1: dominant P1 regulates red pigment (phlobaphenes) in cob and pericarp (ex. P1-wr red cob; P1-rr red pericarp and cob) and in tassel glumes and husks; tissue-specific allele variations; SSR phi095; myb homologue
1.03
   Landoni, M et al. 2020. Sci. Rep. 10:1417     Reference: January 29th, 2020
Gene Product: October 13th, 2010
Variation: May 3rd, 2016
29 days agocenH3 centromeric histone H3:
6.06
GRMZM2G158526
Liu, Y et al. 2020. PLoS Biol pp.doi: 10.1371/journal.pbio.3000582     Reference: January 29th, 2020
Gene Product: December 24th, 2015
Variation: November 7th, 2012
Gene Model: October 24th, 2011
30 days agogbp2 GTP binding protein2: cDNA sequence similar animal G protein beta-subunits; single copy
1.09
GRMZM2G045314
Wu, QY, et al. 2019. Proc Natl Acad Sci, USA. 0:doi: 10.1073/pnas.1917577116     Reference: January 28th, 2020
Gene Product: May 1st, 2018
Variation: December 19th, 2019
Gene Model: July 27th, 2016
30 days agoibh1 increased leaf inclination1-binding bhlh 1:
 
GRMZM2G388823
Cao, YY et al. 2020. J Exp Bot pp.doi: 10.1093/jxb/eraa052   AT2G43060 (TAIR) Reference: January 28th, 2020
Gene Product: September 14th, 2016
Variation: January 28th, 2020
Gene Model: January 28th, 2020
30 days agoibh2 increased leaf inclination1-binding bhlh 2: one of the two genes orthologous to OsIBH1 and AtIBH1 (see also ibh1)
10.07
GRMZM2G084576
Cao, YY et al. 2020. J Exp Bot pp.doi: 10.1093/jxb/eraa052   AT2G43060 (TAIR) Reference: January 28th, 2020
Gene Product: September 14th, 2016
Gene Model: December 20th, 2017

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