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Report for Sequence Feature Glyma13g09610

Feature Type:gene_model
Chromosome:Gm13
Start:11096959
stop:11106240
Source:JGI
Version:Wm82.a1.v1.1
High confidence:yes



A newer version of this gene model can be found here:

Annotations for Glyma13g09610
Database IDAnnotation TypeAnnotation DescriptionAnnotation SourceMatch ScoreEvidence Code
AT1G21580AT Annotation by Michelle Graham. TAIR10: Zinc finger C-x8-C-x5-C-x3-H type family protein | chr1:7557822-7565655 REVERSE LENGTH=2166 SoyBaseE_val: 0ISS
GO:0008150GO-bp Annotation by Michelle Graham. GO Biological Process: biological process SoyBaseN/AISS
GO:0005634GO-cc Annotation by Michelle Graham. GO Cellular Compartment: nucleus SoyBaseN/AISS
GO:0003676GO-mf Annotation by Michelle Graham. GO Molecular Function: nucleic acid binding SoyBaseN/AISS
GO:0008270GO-mf Annotation by Michelle Graham. GO Molecular Function: zinc ion binding SoyBaseN/AISS
PTHR23102Panther ZINC FINGER (CLIPPER)-RELATED JGI ISS
PTHR23102:SF13Panther ZINC FINGER CCCH TYPE DOMAIN CONTAINING PROTEIN 3 JGI ISS
UniRef100_Q3ED78UniRef Annotation by Michelle Graham. Most informative UniRef hit: Zinc finger CCCH domain-containing protein 7 n=1 Tax=Arabidopsis thaliana RepID=C3H7_ARATH SoyBaseE_val: 2.00E-167ISS
UniRef100_UPI000233B0F2UniRef Annotation by Michelle Graham. Best UniRef hit: UPI000233B0F2 related cluster n=1 Tax=unknown RepID=UPI000233B0F2 SoyBaseE_val: 0ISS

Expression Patterns of Glyma13g09610
Gene expression representations made with eFP at the University of Toronto.
Waese et al. 2017, Plant Cell 29(8):1806-1821 ePlant: Visualizing and Exploring Multiple Levels of Data for Hypothesis Generation in Plant Biology
Libault et al. 2010, Plant Phys 152(2):541-552.
Complete Transcriptome of the Soybean Root Hair Cell, a Single-Cell Model, and Its Alteration in Response to Bradyrhizobium japonicum Infection 		Severin et al. 2010, BMC Plant Biology 10:160
RNA-Seq Atlas of Glycine max: A guide to the soybean transcriptome

To see more experiments click HERE

Paralogs of Glyma13g09610
ParalogEvidenceComments
Glyma14g24710 IGC Paralogs in soybean determined by Steven Cannon using BLAST, DAGChainer, PAML, and selection of gene pairs from synteny blocks with median Ks values of less than 0.3.

Gene model name correspondences to Glyma13g09610 Gene Call Version Wm82.a1.v1.1
Corresponding NameAnnotation VersionEvidenceComments
Glyma.13g034600 Wm82.a2.v1IGC As supplied by JGI

References for Glyma13g09610
Schmutz et al. 2010
  Genome sequence of the palaeopolyploid soybean
  Nature 2010, 463:178-183

Transcripts of Glyma13g09610
>Glyma13g09610.5   sequence type=transcript   gene model=Glyma13g09610   sequence assembly version=Glyma 1.0   annotation version=1.1   JGI Gene Call confidence=high
AGTTTGAGTTCAAAAGATTCAAAGGTGAACCGTGAACGAGGATCGTCATGGTCCTCATGGAGTGTTAACCCTCACAAGAAAGACAGCAGCAATACGCAATCCCACGCAAGCCCATCCAATTATTGTCCAATAAACAAACCTCATCAAATCCTGATAGATAGATAGATAGATAGGTTAAAGATTTCATCTTTCTTCTTCTTTTCCTTCAAACAATCAAATCCACCCACGGCACCCTCTCACATAAAAAAAAATCTCAGATTTCTTCATTCCTTCCATTCAATTCCAATCCAAAATGGATCAACACCACTTCCTCCACCACCACCACTATCACCACCCCCAAGAACACCGCAATCGATACACCTCCCTCACACCTCAATCCCACCTCCACAGTCACCACCACAATAATCTTCCTCCACCACCGCCAAATCCTTCTCCGCCTCTTTCCTACCACCGCACACCGCAACCCTACACCCCTCCTACACCCCAACCCCAACATCAACAACAACAATTCCCTTATACACCCCTCCCAGACCGCCCTCTCGAAGAAGAACCCCAACCTCAACGTCATATCCCATACGATCTTCTCCCTCGCCGCACCACCACCCTCCCCTGGAACCCTAACCCTAACCCTAACCCTAGAATTCCTGATGATTTCGACCGCGATTATCACCACAAACACCACCGCCCTCTCCCGCCGCCCCCGCTCCCGATCGAATCCCACCGCTACGACCCCGACCGGCACCACCACCCCGTGGATCCATATGAGCAGAACCCTAGGGAGCCCCTCGCGTGGGGCGGCGGTGGCTACCACGCGCCGGGCCAGGGCGATGTGGACCCCACGTCCTACGTCCGTGTGTACACCGTGGAGTCCGACGCCGACGTGGCGGGGAGAACAACCTCCAAGAGATGGGTAATGAGTGATAGGGATAGAGGAAGAGAGATGCACGAGTCTTCTTCTGGTTTAGTGAGTAGTAATGGTAACAGTGAGAAGTATTATCATGGTTCTGAGAATAATATGATGGGTAGGTATAGTAGAGGGAATAGTAGAGAGTGTGGTCATACTCACGAATTTGAACGCACTCCTCCGAAGAAACAGGTACAGAAGAAGAGTGCTCTTCTTAGGATTCAGACGGTTAAACCTAATAATAATCATAGGAACCGCGAGAATCGCGAGGTTGAGCAGTTGCGGTACCCGGGTTATGGTTCTGAGAATGGAAATGGTTTTTACAGGGGGAAGGAGCAGTATTTTGGTCATGGGGTGAAGGGGGAAGAGAGAGAGGAGAGCCCTGTTGAGATTGATATTTCTTTTGAGTCCAATTCGTTGGTTGCGAAGGCGAAGGCGGTTGTGGCGCCGCTGCCACCACCTTCGAGTTCAGTGTCGGTTCCTGATTTGAATGTGATGCCGGTTTCGGATTCGGATTTGGTTTACGGGGAGAGGAGTAAAAGGGTTTCAGGCTCTGAAGGAGATTATTCTGGTATGCAATTGCCGCAACCAGTTAGAATGTCTTCGGTTGTTGTGGATTTAAATAGGTCGCCTTGCAAAGGGAATGATAGCTCTGGTTCTAGGAAGGAGGTTATCAGGTCGAACAAGAAGAATGTTGATGATGGTTCTTCTCGGTCTCGCACCAGGGAGGCTGATGGTTCCCGTGGGAAAAAGGAGGTGCCTAATTTTGTTAAGGTTGGCAATGTTGTTTCTGGTAAATTGACCTCGAAGATTGTCAAGAAGAAGAAAATTGTTAAGAGAGTGGTGAAGAAAGGTACTGCAAGTTCCAAGTCATCTGCGTCAAATTCACTACCGGCTAAAACCCTTCCTGGAACTGTGAAAGCGGAGAGTGTTGCACGTATTTCATTGACTGCCTCTGGTCCTGAGAAAATTGAAGCTAATTTGGATGAGAAAAGCAACACTGTCATCCAAAGCAACACTGTTGATGAGGAGGCTAAGCCTGACTGTTTGCCCCCTTTACCAAAGGAAGGGAATGTATTGAAAGAAGATGCAGAGGTAGGCTTATTGCAGCTGAGTTTGGGGCCAGATTCCAGGTCACAAGAGTGTAAGAGTGACAAAGATTCTGGTATTGGGAAAGTATCCAGGTTTGAAAGAGATGGAAACATTTCAAATTCTCTATCTTGTGCTTCTATAAGTGAAGATAAAAAGAGTGATTCTGATTGTTTAGATGCAAATGATTCTGTCCATGACATTGGAAATACTATTTCTGTTCATGATAATGCAAATACATCTGATTGTTTAGATGCAAATAATTCTGTGCTAAATACTTACAAGGTTACTAAATCATTAAGTGGAAGTAATATTTCCGTAGTCACTAACATCGATTATGATAATAAGCAATTATGTCAGAATGAAGTGTCTCTATCACCTGGGAAATATTCAAATGTAGGATCCCCACAGAATAGGAATCTTGAAGATGTAGGGGATGAACTTTTGAAAAGCAGTGATACCTTTTCATGTTCAGGAAAAACTAGGATTCAGGATGGTCTAGATTGCCTACAACATGCCAGTGCACTGAAGCACAGTTCCGATAATGGATCATCTAATTTAGAAGATAGTACTTGTGTTGACTGTTCTGGAATTATGCATTGTGCTGGAAAGCAAGTGTCCCCTGGTGATGTCGTCATATCCCCTGAGAATTGGGACACAGAAAAAGCATTCCCAAATTCTAATATTTCTGCTGGATCTGGTGAAGGGGACACAAATAAGATAAAAAAAAGAAGAGCTAGAACACTCTTAAATTTTTTGAGTTCAGAGATGGAGTGCTTATCTTCAAACCATGTAAATCCAGACAGCCTTGCAAATAATGTGGATGGAGGCTCTAGTCTGTTGTTGAAAGATCCATCTCCTTCAGAAGTTTTAGAGCAACCTGTTCAAAGCTTAGATTTTAACTCACTATCCGGCGTGAATGGGGTTACTGCTTTACATGGAAAAGGGGGGGTTTTAGAGGCTCAGTTTTGTGTTGGACATATTGACAATGATGATGCAAATGAGGTTTCACCAGCTTCTAAAAGGAAAAAAGTCACAGCTAACCCAAATTTCACAAAATGTCAATCGGAATTGAGTGCTGTGATTGTGCCTTCCACCACATCTGAAGCTCCTATGAGTTTCAGTGATAACCAAGAACATCAGAAAGAAGTTGCTTTTGAAAGCATGGGTATGATTATTCTGTCTAGTGCTCAGTCAATGCCTTATTCAGAGGATATTACTAAAATGCCTGAGAATGTTTTGGCTGGGGGATCTTTTGAGTCTATTGATGCAAATAAGGAAACCATGAGTTCTGAGCATTTGGAATTGTGGCATTCGGATATAGTCTCTTTTTCACCATGTGAGGACTTGGCATTTCCAAATGTTCAGTTCTCATCATTGGAAGGTGAGTGCAAAGAAAACACTACTCCAATTGTGCCTACAAGTAATATTCAAACAGATATTTTGGCTGTGGGAAATATAGCTGGAGAAAAGACTGATTTACAGGCCGTTGAAGAAAATTACCAGTATAGAGAGCATGTACAAAGGTCACCAAGAGCTGATATGGAACCTAATGATCACAATATGAAGAATGATTTGCTTGCTCAGTGGAACCTTATGTCCTGTCCAGCCAGTGGTGATGAAGTCACTACAAATAATTCAAATGACGAAGTGATTGAGGATGCACCTGGATTATCAGATATGTTTTCTCAAGGGATGGTATCTGAAGTACCGGATAGAAGGGTTTTAGAATTTACAGCAATCAACGATGAAAATATTTTTGGAGTTCAAGAAAATCCAGATAACATATCTATGGTTGGACATGATTCCAACTTAAATACTTCATCAATACAGCAGACTAAAAAAAATATGAAGTCAGATCATGCAATTGAACATAGTAACCTGATCACAAAGAAGACAATGTCAGAACAATCCCAAGTTTCTTCCAAAGTTACAACTCAGGCTCTAAATTCATATTGTTTTGGGTTGAGTGGGACCAAAAATCAGTCAGGTAGTATCATTCCCAAAACTTTTCCAGGTCATTCTTTCACCTTTTCAAAGACATCTGCCTCCTCACCTCATGTATCAAAGCCTCGAACTTGGCATCGTACAGGTAATAATCCTCCGGCTTCTCTACCTAGAATCAAGCCTTCATTAGGAACAGTTCCTCCCAAAAAGCCAATTCTAGAAATGAAAGGGAACTTTCAAAATACCTCCTATGTTCGTAAAGGTAACAGTCTTGTAAGGAAACCTACTCCAGTTTCCACTCTACCTCATATCTCCTCTGTTAATCAGACATCTTTGGGCATAGATGAAATACCAAAAAGCATTAAATCTGGAGGGAGGGCTGATGTGACAGATAAACAAATGTACTTGAGAACAGGAGCAACAAATGCTCCACAGCAGAGAACACCTCCACTACCAATTGACACCAAATCAGAGGAAAATACATCTTCCTCATTGGTAGAACCTCCTTCTGGTGGTTGCTGTGAAAATGCATCAGACCTTAGGAAATTTATAGAAACTGATAATATTGCACCAAACTCTTCTGAAGATGCACTGAAGCATTATGAAACTTTAGAAAATCAACCTGGTCCATCTGATAATGGGGATAGCCAAGGTGAAGCAATCGATGGAAATGTTTTTCCTTTGAATACAAAGAGAATAGTATACATAAAGCCCAAAACAAATCAATTGGTTGCAACATCAAATTCTTGTGATGTTTCTGTCTCTACTGATGACAATCTCCAAACTGCCTTCTCTGATGGCTACTACAAGAGAAGAAAAAATCAATTGATTAGGACTACATTTGAAAGCCATATCAACCAGACAGTTGCAATGTCCAATAACACGGCATATTCTGGCGGACAAGGAACTAGCAATGCTCTTTGCAACAGGAGGTTTAGTAAGAGGCGGACACATAAGGTTGGTAGGAGTTCATGCAAACGTTCAAGAGCCTCATTAGTGTGGACACTCTGTAGCAAAAATTCTTCTGAAAATGACAGGGACTCACAACATTATCAAAGGGCTTTACCTCAATTGTTTCCATGGAAAAGACCAACATTTGCTTCAAGCTTGAATAACAGTTCCTTATCTGCAATCAGCAAAAAATTGCTTCAGTTGAGAAAGAGGGATACAGTTTACACTAGGTCAATCCACGGGTTTTCACTTCAGAAATCCAGAGTTTTAGGTGTTGGCGGGTGTAGTTTAAAATGGTCCAAATCCATTGAGAAGAAGTCAAAGCTAGCTAATGAGGAAGCCACACTTGCTGTTGCTGCAGTAGAGAGGAAGAGGAGAGAGCAGAAAAATGCAGTTTGCATCAGTTCTCAGTCAAAGAGAGAGCGTATATTTCGCATTGGTTCAGTTCGCTACAGAATGGATCCTTCCAGGAGGACACTTCAGAGGATTTCAGATGATGAATCCCTGTCCTCTGCATCTACCTGTTCAGGTTTGGCTTCCAAAAGAGCTTACATTCCAAGGAGATTAGTGATTGGAAATGATGAATATGTCCAAATTGGCAATGGTAACCAGCTTATCAGAGACCCAAAGAGACGAACTCGAAAATTGGCAAATGAAAAAGTTAGATGGAGCCTGCACACTGCCAGACAGCGATTGGCGCGAAAGCAGAAGTATTGTCAGTTTTTTACTAGATTTGGGAAATGTAACAAGGATGGAGGGAAGTGTCCTTATATTCATGATCCCTCAAAAATCGCTGTCTGTACTAAGTTCCTGAATGGTTTATGTTCTACTCCCAACTGCAAATTGACACATAAGGTTATTCCAGAGAGAATGCCAGATTGTTCTTATTTCTTGCAAGGTGCGTCTTATATAGACAGCAGTCTTTCATCAAGTGAATAATATGAAAATGTGATTCTAACATGTTTCATGGCAGGCTTATGCTCAAATAGAAATTGTCCATATAGACATGTCAATGTGAACCCCAAGGCATCTATTTGTGAAGGATTTCTCAAGGGGTATTGTGCTGATGGGAATGAGTGTCGGAAGAAGCACAGCTATGTCTGTCCTACTTTTGAAGCAACAGGAACCTGTACTCAAGGAACCGGATGCAAACTTCATCACCCCAAAAAACAAAGCAAGGGAAAGAAAAGGAAGAGAACTGCAGATCAGAACAACAGTAGAGGGCGTTATTTTGGTTTTATTCCTGCTGATGTTTCTAAATCTGGGATGATGGTGGCTCCAAAGCGACATAGACAGAATGGTGAACTTGAAGAGGAACTTTCTGACTACATCAGCCTTGATGTTGTGAATGAAGAAGTTGCAGATGTGGTCGATCAATCATTTGAGCCAGCAGCTTTCTGTGACAACGATTCCTTGGATTTACAGTTGGATGATTTTGATGGACTTATTAAACCAGTTCTTCTGTTGAAAACAAAGTTCACATTGCAATCACCTCAGTCTAGTAGCCTCCAAGCTTTTAGGCAAGTAGCGGAGACATAGGTCGTTTGTAAATGAGGTAATTTAGGTAGTGCAAAACCCTTCCCCCCGCCCCCCTCAATTCTTTTTTAGTCTCACTTATTTTGAATGTATAATGTAAACAGGTCATCCTCCCCCTCCCCTTCATTTTTTGTGGATTTACAATTGTACATTAACATCTGGAATAATAGATAAGAAATTTTTTTTTTTCTCTCACGA

>Glyma13g09610.6   sequence type=transcript   gene model=Glyma13g09610   sequence assembly version=Glyma 1.0   annotation version=1.1   JGI Gene Call confidence=high
AGTTTGAGTTCAAAAGATTCAAAGGTGAACCGTGAACGAGGATCGTCATGGTCCTCATGGAGTGTTAACCCTCACAAGAAAGACAGCAGCAATACGCAATCCCACGCAAGCCCATCCAATTATTGTCCAATAAACAAACCTCATCAAATCCTGATAGATAGATAGATAGATAGGTTAAAGATTTCATCTTTCTTCTTCTTTTCCTTCAAACAATCAAATCCACCCACGGCACCCTCTCACATAAAAAAAAATCTCAGATTTCTTCATTCCTTCCATTCAATTCCAATCCAAAATGGATCAACACCACTTCCTCCACCACCACCACTATCACCACCCCCAAGAACACCGCAATCGATACACCTCCCTCACACCTCAATCCCACCTCCACAGTCACCACCACAATAATCTTCCTCCACCACCGCCAAATCCTTCTCCGCCTCTTTCCTACCACCGCACACCGCAACCCTACACCCCTCCTACACCCCAACCCCAACATCAACAACAACAATTCCCTTATACACCCCTCCCAGACCGCCCTCTCGAAGAAGAACCCCAACCTCAACGTCATATCCCATACGATCTTCTCCCTCGCCGCACCACCACCCTCCCCTGGAACCCTAACCCTAACCCTAACCCTAGAATTCCTGATGATTTCGACCGCGATTATCACCACAAACACCACCGCCCTCTCCCGCCGCCCCCGCTCCCGATCGAATCCCACCGCTACGACCCCGACCGGCACCACCACCCCGTGGATCCATATGAGCAGAACCCTAGGGAGCCCCTCGCGTGGGGCGGCGGTGGCTACCACGCGCCGGGCCAGGGCGATGTGGACCCCACGTCCTACGTCCGTGTGTACACCGTGGAGTCCGACGCCGACGTGGCGGGGAGAACAACCTCCAAGAGATGGGTAATGAGTGATAGGGATAGAGGAAGAGAGATGCACGAGTCTTCTTCTGGTTTAGTGAGTAGTAATGGTAACAGTGAGAAGTATTATCATGGTTCTGAGAATAATATGATGGGTAGGTATAGTAGAGGGAATAGTAGAGAGTGTGGTCATACTCACGAATTTGAACGCACTCCTCCGAAGAAACAGGTACAGAAGAAGAGTGCTCTTCTTAGGATTCAGACGGTTAAACCTAATAATAATCATAGGAACCGCGAGAATCGCGAGGTTGAGCAGTTGCGGTACCCGGGTTATGGTTCTGAGAATGGAAATGGTTTTTACAGGGGGAAGGAGCAGTATTTTGGTCATGGGGTGAAGGGGGAAGAGAGAGAGGAGAGCCCTGTTGAGATTGATATTTCTTTTGAGTCCAATTCGTTGGTTGCGAAGGCGAAGGCGGTTGTGGCGCCGCTGCCACCACCTTCGAGTTCAGTGTCGGTTCCTGATTTGAATGTGATGCCGGTTTCGGATTCGGATTTGGTTTACGGGGAGAGGAGTAAAAGGGTTTCAGGCTCTGAAGGAGATTATTCTGGTATGCAATTGCCGCAACCAGTTAGAATGTCTTCGGTTGTTGTGGATTTAAATAGGTCGCCTTGCAAAGGGAATGATAGCTCTGGTTCTAGGAAGGAGGTTATCAGGTCGAACAAGAAGAATGTTGATGATGGTTCTTCTCGGTCTCGCACCAGGGAGGCTGATGGTTCCCGTGGGAAAAAGGAGGTGCCTAATTTTGTTAAGGTTGGCAATGTTGTTTCTGGTAAATTGACCTCGAAGATTGTCAAGAAGAAGAAAATTGTTAAGAGAGTGGTGAAGAAAGGTACTGCAAGTTCCAAGTCATCTGCGTCAAATTCACTACCGGCTAAAACCCTTCCTGGAACTGTGAAAGCGGAGAGTGTTGCACGTATTTCATTGACTGCCTCTGGTCCTGAGAAAATTGAAGCTAATTTGGATGAGAAAAGCAACACTGTCATCCAAAGCAACACTGTTGATGAGGAGGCTAAGCCTGACTGTTTGCCCCCTTTACCAAAGGAAGGGAATGTATTGAAAGAAGATGCAGAGGTAGGCTTATTGCAGCTGAGTTTGGGGCCAGATTCCAGGTCACAAGAGTGTAAGAGTGACAAAGATTCTGGTATTGGGAAAGTATCCAGGTTTGAAAGAGATGGAAACATTTCAAATTCTCTATCTTGTGCTTCTATAAGTGAAGATAAAAAGAGTGATTCTGATTGTTTAGATGCAAATGATTCTGTCCATGACATTGGAAATACTATTTCTGTTCATGATAATGCAAATACATCTGATTGTTTAGATGCAAATAATTCTGTGCTAAATACTTACAAGGTTACTAAATCATTAAGTGGAAGTAATATTTCCGTAGTCACTAACATCGATTATGATAATAAGCAATTATGTCAGAATGAAGTGTCTCTATCACCTGGGAAATATTCAAATGTAGGATCCCCACAGAATAGGAATCTTGAAGATGTAGGGGATGAACTTTTGAAAAGCAGTGATACCTTTTCATGTTCAGGAAAAACTAGGATTCAGGATGGTCTAGATTGCCTACAACATGCCAGTGCACTGAAGCACAGTTCCGATAATGGATCATCTAATTTAGAAGATAGTACTTGTGTTGACTGTTCTGGAATTATGCATTGTGCTGGAAAGCAAGTGTCCCCTGGTGATGTCGTCATATCCCCTGAGAATTGGGACACAGAAAAAGCATTCCCAAATTCTAATATTTCTGCTGGATCTGGTGAAGGGGACACAAATAAGATAAAAAAAAGAAGAGCTAGAACACTCTTAAATTTTTTGAGTTCAGAGATGGAGTGCTTATCTTCAAACCATGTAAATCCAGACAGCCTTGCAAATAATGTGGATGGAGGCTCTAGTCTGTTGTTGAAAGATCCATCTCCTTCAGAAGTTTTAGAGCAACCTGTTCAAAGCTTAGATTTTAACTCACTATCCGGCGTGAATGGGGTTACTGCTTTACATGGAAAAGGGGGGGTTTTAGAGGCTCAGTTTTGTGTTGGACATATTGACAATGATGATGCAAATGAGGTTTCACCAGCTTCTAAAAGGAAAAAAGTCACAGCTAACCCAAATTTCACAAAATGTCAATCGGAATTGAGTGCTGTGATTGTGCCTTCCACCACATCTGAAGCTCCTATGAGTTTCAGTGATAACCAAGAACATCAGAAAGAAGTTGCTTTTGAAAGCATGGGTATGATTATTCTGTCTAGTGCTCAGTCAATGCCTTATTCAGAGGATATTACTAAAATGCCTGAGAATGTTTTGGCTGGGGGATCTTTTGAGTCTATTGATGCAAATAAGGAAACCATGAGTTCTGAGCATTTGGAATTGTGGCATTCGGATATAGTCTCTTTTTCACCATGTGAGGACTTGGCATTTCCAAATGTTCAGTTCTCATCATTGGAAGGTGAGTGCAAAGAAAACACTACTCCAATTGTGCCTACAAGTAATATTCAAACAGATATTTTGGCTGTGGGAAATATAGCTGGAGAAAAGACTGATTTACAGGCCGTTGAAGAAAATTACCAGTATAGAGAGCATGTACAAAGGTCACCAAGAGCTGATATGGAACCTAATGATCACAATATGAAGAATGATTTGCTTGCTCAGTGGAACCTTATGTCCTGTCCAGCCAGTGGTGATGAAGTCACTACAAATAATTCAAATGACGAAGTGATTGAGGATGCACCTGGATTATCAGATATGTTTTCTCAAGGGATGGTATCTGAAGTACCGGATAGAAGGGTTTTAGAATTTACAGCAATCAACGATGAAAATATTTTTGGAGTTCAAGAAAATCCAGATAACATATCTATGGTTGGACATGATTCCAACTTAAATACTTCATCAATACAGCAGACTAAAAAAAATATGAAGTCAGATCATGCAATTGAACATAGTAACCTGATCACAAAGAAGACAATGTCAGAACAATCCCAAGTTTCTTCCAAAGTTACAACTCAGGCTCTAAATTCATATTGTTTTGGGTTGAGTGGGACCAAAAATCAGTCAGGTAGTATCATTCCCAAAACTTTTCCAGGTCATTCTTTCACCTTTTCAAAGACATCTGCCTCCTCACCTCATGTATCAAAGCCTCGAACTTGGCATCGTACAGGTAATAATCCTCCGGCTTCTCTACCTAGAATCAAGCCTTCATTAGGAACAGTTCCTCCCAAAAAGCCAATTCTAGAAATGAAAGGGAACTTTCAAAATACCTCCTATGTTCGTAAAGGTAACAGTCTTGTAAGGAAACCTACTCCAGTTTCCACTCTACCTCATATCTCCTCTGTTAATCAGACATCTTTGGGCATAGATGAAATACCAAAAAGCATTAAATCTGGAGGGAGGGCTGATGTGACAGATAAACAAATGTACTTGAGAACAGGAGCAACAAATGCTCCACAGCAGAGAACACCTCCACTACCAATTGACACCAAATCAGAGGAAAATACATCTTCCTCATTGGTAGAACCTCCTTCTGGTGGTTGCTGTGAAAATGCATCAGACCTTAGGAAATTTATAGAAACTGATAATATTGCACCAAACTCTTCTGAAGATGCACTGAAGCATTATGAAACTTTAGAAAATCAACCTGGTCCATCTGATAATGGGGATAGCCAAGGTGAAGCAATCGATGGAAATGTTTTTCCTTTGAATACAAAGAGAATAGTATACATAAAGCCCAAAACAAATCAATTGGTTGCAACATCAAATTCTTGTGATGTTTCTGTCTCTACTGATGACAATCTCCAAACTGCCTTCTCTGATGGCTACTACAAGAGAAGAAAAAATCAATTGATTAGGACTACATTTGAAAGCCATATCAACCAGACAGTTGCAATGTCCAATAACACGGCATATTCTGGCGGACAAGGAACTAGCAATGCTCTTTGCAACAGGAGGTTTAGTAAGAGGCGGACACATAAGGTTGGTAGGAGTTCATGCAAACGTTCAAGAGCCTCATTAGTGTGGACACTCTGTAGCAAAAATTCTTCTGAAAATGACAGGGACTCACAACATTATCAAAGGGCTTTACCTCAATTGTTTCCATGGAAAAGACCAACATTTGCTTCAAGCTTGAATAACAGTTCCTTATCTGCAATCAGCAAAAAATTGCTTCAGTTGAGAAAGAGGGATACAGTTTACACTAGGTCAATCCACGGGTTTTCACTTCAGAAATCCAGAGTTTTAGGTGTTGGCGGGTGTAGTTTAAAATGGTCCAAATCCATTGAGAAGAAGTCAAAGCTAGCTAATGAGGAAGCCACACTTGCTGTTGCTGCAGTAGAGAGGAAGAGGAGAGAGCAGAAAAATGCAGTTTGCATCAGTTCTCAGTCAAAGAGAGAGCGTATATTTCGCATTGGTTCAGTTCGCTACAGAATGGATCCTTCCAGGAGGACACTTCAGAGGATTTCAGATGATGAATCCCTGTCCTCTGCATCTACCTGTTCAGGTTTGGCTTCCAAAAGAGCTTACATTCCAAGGAGATTAGTGATTGGAAATGATGAATATGTCCAAATTGGCAATGGTAACCAGCTTATCAGAGACCCAAAGAGACGAACTCGAAAATTGGCAAATGAAAAAGTTAGATGGAGCCTGCACACTGCCAGACAGCGATTGGCGCGAAAGCAGAAGTATTGTCAGTTTTTTACTAGATTTGGGAAATGTAACAAGGATGGAGGGAAGTGTCCTTATATTCATGATCCCTCAAAAATCGCTGTCTGTACTAAGTTCCTGAATGGTTTATGTTCTACTCCCAACTGCAAATTGACACATAAGGTTTTTTATATATGGGGTCCTACAAATTGAATATGGTCTCCTGCATTTACTGATCTGTCTAAAGTCTGAGGTTAATTGATTTTTTTATGCAGGTTATTCCAGAGAGAATGCCAGATTGTTCTTATTTCTTGCAAGGCTTATGCTCAAATAGAAATTGTCCATATAGACATGTCAATGTGAACCCCAAGGCATCTATTTGTGAAGGATTTCTCAAGGGGTATTGTGCTGATGGGAATGAGGTATTAACCAACCATGTTTAATTTACTATTGAGTGACTGGATAATTTGAATACTTGAACTTTTTACCGTTTTTCTTTTACCATAATTTAAGTAAATCAATTTATGTGCATATGAATGCTCA
Coding sequences of Glyma13g09610
>Glyma13g09610.4   sequence type=CDS   gene model=Glyma13g09610   sequence assembly version=Glyma 1.0   annotation version=1.1   JGI Gene Call confidence=high
ATGGATCAACACCACTTCCTCCACCACCACCACTATCACCACCCCCAAGAACACCGCAATCGATACACCTCCCTCACACCTCAATCCCACCTCCACAGTCACCACCACAATAATCTTCCTCCACCACCGCCAAATCCTTCTCCGCCTCTTTCCTACCACCGCACACCGCAACCCTACACCCCTCCTACACCCCAACCCCAACATCAACAACAACAATTCCCTTATACACCCCTCCCAGACCGCCCTCTCGAAGAAGAACCCCAACCTCAACGTCATATCCCATACGATCTTCTCCCTCGCCGCACCACCACCCTCCCCTGGAACCCTAACCCTAACCCTAACCCTAGAATTCCTGATGATTTCGACCGCGATTATCACCACAAACACCACCGCCCTCTCCCGCCGCCCCCGCTCCCGATCGAATCCCACCGCTACGACCCCGACCGGCACCACCACCCCGTGGATCCATATGAGCAGAACCCTAGGGAGCCCCTCGCGTGGGGCGGCGGTGGCTACCACGCGCCGGGCCAGGGCGATGTGGACCCCACGTCCTACGTCCGTGTGTACACCGTGGAGTCCGACGCCGACGTGGCGGGGAGAACAACCTCCAAGAGATGGGTAATGAGTGATAGGGATAGAGGAAGAGAGATGCACGAGTCTTCTTCTGGTTTAGTGAGTAGTAATGGTAACAGTGAGAAGTATTATCATGGTTCTGAGAATAATATGATGGGTAGGTATAGTAGAGGGAATAGTAGAGAGTGTGGTCATACTCACGAATTTGAACGCACTCCTCCGAAGAAACAGGTACAGAAGAAGAGTGCTCTTCTTAGGATTCAGACGGTTAAACCTAATAATAATCATAGGAACCGCGAGAATCGCGAGGTTGAGCAGTTGCGGTACCCGGGTTATGGTTCTGAGAATGGAAATGGTTTTTACAGGGGGAAGGAGCAGTATTTTGGTCATGGGGTGAAGGGGGAAGAGAGAGAGGAGAGCCCTGTTGAGATTGATATTTCTTTTGAGTCCAATTCGTTGGTTGCGAAGGCGAAGGCGGTTGTGGCGCCGCTGCCACCACCTTCGAGTTCAGTGTCGGTTCCTGATTTGAATGTGATGCCGGTTTCGGATTCGGATTTGGTTTACGGGGAGAGGAGTAAAAGGGTTTCAGGCTCTGAAGGAGATTATTCTGGTATGCAATTGCCGCAACCAGTTAGAATGTCTTCGGTTGTTGTGGATTTAAATAGGTCGCCTTGCAAAGGGAATGATAGCTCTGGTTCTAGGAAGGAGGTTATCAGGTCGAACAAGAAGAATGTTGATGATGGTTCTTCTCGGTCTCGCACCAGGGAGGCTGATGGTTCCCGTGGGAAAAAGGAGGTGCCTAATTTTGTTAAGGTTGGCAATGTTGTTTCTGGTAAATTGACCTCGAAGATTGTCAAGAAGAAGAAAATTGTTAAGAGAGTGGTGAAGAAAGGTACTGCAAGTTCCAAGTCATCTGCGTCAAATTCACTACCGGCTAAAACCCTTCCTGGAACTGTGAAAGCGGAGAGTGTTGCACGTATTTCATTGACTGCCTCTGGTCCTGAGAAAATTGAAGCTAATTTGGATGAGAAAAGCAACACTGTCATCCAAAGCAACACTGTTGATGAGGAGGCTAAGCCTGACTGTTTGCCCCCTTTACCAAAGGAAGGGAATGTATTGAAAGAAGATGCAGAGGTAGGCTTATTGCAGCTGAGTTTGGGGCCAGATTCCAGGTCACAAGAGTGTAAGAGTGACAAAGATTCTGGTATTGGGAAAGTATCCAGGTTTGAAAGAGATGGAAACATTTCAAATTCTCTATCTTGTGCTTCTATAAGTGAAGATAAAAAGAGTGATTCTGATTGTTTAGATGCAAATGATTCTGTCCATGACATTGGAAATACTATTTCTGTTCATGATAATGCAAATACATCTGATTGTTTAGATGCAAATAATTCTGTGCTAAATACTTACAAGGTTACTAAATCATTAAGTGGAAGTAATATTTCCGTAGTCACTAACATCGATTATGATAATAAGCAATTATGTCAGAATGAAGTGTCTCTATCACCTGGGAAATATTCAAATGTAGGATCCCCACAGAATAGGAATCTTGAAGATGTAGGGGATGAACTTTTGAAAAGCAGTGATACCTTTTCATGTTCAGGAAAAACTAGGATTCAGGATGGTCTAGATTGCCTACAACATGCCAGTGCACTGAAGCACAGTTCCGATAATGGATCATCTAATTTAGAAGATAGTACTTGTGTTGACTGTTCTGGAATTATGCATTGTGCTGGAAAGCAAGTGTCCCCTGGTGATGTCGTCATATCCCCTGAGAATTGGGACACAGAAAAAGCATTCCCAAATTCTAATATTTCTGCTGGATCTGGTGAAGGGGACACAAATAAGATAAAAAAAAGAAGAGCTAGAACACTCTTAAATTTTTTGAGTTCAGAGATGGAGTGCTTATCTTCAAACCATGTAAATCCAGACAGCCTTGCAAATAATGTGGATGGAGGCTCTAGTCTGTTGTTGAAAGATCCATCTCCTTCAGAAGTTTTAGAGCAACCTGTTCAAAGCTTAGATTTTAACTCACTATCCGGCGTGAATGGGGTTACTGCTTTACATGGAAAAGGGGGGGTTTTAGAGGCTCAGTTTTGTGTTGGACATATTGACAATGATGATGCAAATGAGGTTTCACCAGCTTCTAAAAGGAAAAAAGTCACAGCTAACCCAAATTTCACAAAATGTCAATCGGAATTGAGTGCTGTGATTGTGCCTTCCACCACATCTGAAGCTCCTATGAGTTTCAGTGATAACCAAGAACATCAGAAAGAAGTTGCTTTTGAAAGCATGGGTATGATTATTCTGTCTAGTGCTCAGTCAATGCCTTATTCAGAGGATATTACTAAAATGCCTGAGAATGTTTTGGCTGGGGGATCTTTTGAGTCTATTGATGCAAATAAGGAAACCATGAGTTCTGAGCATTTGGAATTGTGGCATTCGGATATAGTCTCTTTTTCACCATGTGAGGACTTGGCATTTCCAAATGTTCAGTTCTCATCATTGGAAGGTGAGTGCAAAGAAAACACTACTCCAATTGTGCCTACAAGTAATATTCAAACAGATATTTTGGCTGTGGGAAATATAGCTGGAGAAAAGACTGATTTACAGGCCGTTGAAGAAAATTACCAGTATAGAGAGCATGTACAAAGGTCACCAAGAGCTGATATGGAACCTAATGATCACAATATGAAGAATGATTTGCTTGCTCAGTGGAACCTTATGTCCTGTCCAGCCAGTGGTGATGAAGTCACTACAAATAATTCAAATGACGAAGTGATTGAGGATGCACCTGGATTATCAGATATGTTTTCTCAAGGGATGGTATCTGAAGTACCGGATAGAAGGGTTTTAGAATTTACAGCAATCAACGATGAAAATATTTTTGGAGTTCAAGAAAATCCAGATAACATATCTATGGTTGGACATGATTCCAACTTAAATACTTCATCAATACAGCAGACTAAAAAAAATATGAAGTCAGATCATGCAATTGAACATAGTAACCTGATCACAAAGAAGACAATGTCAGAACAATCCCAAGTTTCTTCCAAAGTTACAACTCAGGCTCTAAATTCATATTGTTTTGGGTTGAGTGGGACCAAAAATCAGTCAGGTAGTATCATTCCCAAAACTTTTCCAGGTCATTCTTTCACCTTTTCAAAGACATCTGCCTCCTCACCTCATGTATCAAAGCCTCGAACTTGGCATCGTACAGGTAATAATCCTCCGGCTTCTCTACCTAGAATCAAGCCTTCATTAGGAACAGTTCCTCCCAAAAAGCCAATTCTAGAAATGAAAGGGAACTTTCAAAATACCTCCTATGTTCGTAAAGGTAACAGTCTTGTAAGGAAACCTACTCCAGTTTCCACTCTACCTCATATCTCCTCTGTTAATCAGACATCTTTGGGCATAGATGAAATACCAAAAAGCATTAAATCTGGAGGGAGGGCTGATGTGACAGATAAACAAATGTACTTGAGAACAGGAGCAACAAATGCTCCACAGCAGAGAACACCTCCACTACCAATTGACACCAAATCAGAGGAAAATACATCTTCCTCATTGGTAGAACCTCCTTCTGGTGGTTGCTGTGAAAATGCATCAGACCTTAGGAAATTTATAGAAACTGATAATATTGCACCAAACTCTTCTGAAGATGCACTGAAGCATTATGAAACTTTAGAAAATCAACCTGGTCCATCTGATAATGGGGATAGCCAAGGTGAAGCAATCGATGGAAATGTTTTTCCTTTGAATACAAAGAGAATAGTATACATAAAGCCCAAAACAAATCAATTGGTTGCAACATCAAATTCTTGTGATGTTTCTGTCTCTACTGATGACAATCTCCAAACTGCCTTCTCTGATGGCTACTACAAGAGAAGAAAAAATCAATTGATTAGGACTACATTTGAAAGCCATATCAACCAGACAGTTGCAATGTCCAATAACACGGCATATTCTGGCGGACAAGGAACTAGCAATGCTCTTTGCAACAGGAGGTTTAGTAAGAGGCGGACACATAAGGTTGGTAGGAGTTCATGCAAACGTTCAAGAGCCTCATTAGTGTGGACACTCTGTAGCAAAAATTCTTCTGAAAATGACAGGGACTCACAACATTATCAAAGGGCTTTACCTCAATTGTTTCCATGGAAAAGACCAACATTTGCTTCAAGCTTGAATAACAGTTCCTTATCTGCAATCAGCAAAAAATTGCTTCAGTTGAGAAAGAGGGATACAGTTTACACTAGGTCAATCCACGGGTTTTCACTTCAGAAATCCAGAGTTTTAGGTGTTGGCGGGTGTAGTTTAAAATGGTCCAAATCCATTGAGAAGAAGTCAAAGCTAGCTAATGAGGAAGCCACACTTGCTGTTGCTGCAGTAGAGAGGAAGAGGAGAGAGCAGAAAAATGCAGTTTGCATCAGTTCTCAGTCAAAGAGAGAGCGTATATTTCGCATTGGTTCAGTTCGCTACAGAATGGATCCTTCCAGGAGGACACTTCAGAGGATTTCAGATGATGAATCCCTGTCCTCTGCATCTACCTGTTCAGGTTTGGCTTCCAAAAGAGCTTACATTCCAAGGAGATTAGTGATTGGAAATGATGAATATGTCCAAATTGGCAATGGTAACCAGCTTATCAGAGACCCAAAGAGACGAACTCGAAAATTGGCAAATGAAAAAGTTAGATGGAGCCTGCACACTGCCAGACAGCGATTGGCGCGAAAGCAGAAGTATTGTCAGTTTTTTACTAGATTTGGGAAATGTAACAAGGATGGAGGGAAGTGTCCTTATATTCATGATCCCTCAAAAATCGCTGTCTGTACTAAGTTCCTGAATGGTTTATGTTCTACTCCCAACTGCAAATTGACACATAAGGTTATTCCAGAGAGAATGCCAGATTGTTCTTATTTCTTGCAAGGCTTATGCTCAAATAGAAATTGTCCATATAGACATGTCAATGTGAACCCCAAGGCATCTATTTGTGAAGGATTTCTCAAGGGGTATTGTGCTGATGGGAATGAGTGTCGGAAGAAGCACAGCTATGTCTGTCCTACTTTTGAAGCAACAGGAACCTGTACTCAAGGAACCGGATGCAAACTTCATCACCCCAAAAAACAAAGCAAGGGAAAGAAAAGGAAGAGAACTGCAGATCAGAACAACAGTAGAGGGCGTTATTTTGGTTTTATTCCTGCTGATGTTTCTAAATCTGGGATGATGGTGGCTCCAAAGCGACATAGACAGAATGGTGAACTTGAAGAGGAACTTTCTGACTACATCAGCCTTGATGTTGTGAATGAAGAAGTTGCAGATGTGGTCGATCAATCATTTGAGCCAGCAGCTTTCTGTGACAACGATTCCTTGGATTTACAGTTGGATGATTTTGATGGACTTATTAAACCAGTTCTTCTGTTGAAAACAAAGTTCACATTGCAATCACCTCAGTCTAGTAGCCTCCAAGCTTTTAGGCAAGTAGCGGAGACATAG

>Glyma13g09610.5   sequence type=CDS   gene model=Glyma13g09610   sequence assembly version=Glyma 1.0   annotation version=1.1   JGI Gene Call confidence=high
ATGGATCAACACCACTTCCTCCACCACCACCACTATCACCACCCCCAAGAACACCGCAATCGATACACCTCCCTCACACCTCAATCCCACCTCCACAGTCACCACCACAATAATCTTCCTCCACCACCGCCAAATCCTTCTCCGCCTCTTTCCTACCACCGCACACCGCAACCCTACACCCCTCCTACACCCCAACCCCAACATCAACAACAACAATTCCCTTATACACCCCTCCCAGACCGCCCTCTCGAAGAAGAACCCCAACCTCAACGTCATATCCCATACGATCTTCTCCCTCGCCGCACCACCACCCTCCCCTGGAACCCTAACCCTAACCCTAACCCTAGAATTCCTGATGATTTCGACCGCGATTATCACCACAAACACCACCGCCCTCTCCCGCCGCCCCCGCTCCCGATCGAATCCCACCGCTACGACCCCGACCGGCACCACCACCCCGTGGATCCATATGAGCAGAACCCTAGGGAGCCCCTCGCGTGGGGCGGCGGTGGCTACCACGCGCCGGGCCAGGGCGATGTGGACCCCACGTCCTACGTCCGTGTGTACACCGTGGAGTCCGACGCCGACGTGGCGGGGAGAACAACCTCCAAGAGATGGGTAATGAGTGATAGGGATAGAGGAAGAGAGATGCACGAGTCTTCTTCTGGTTTAGTGAGTAGTAATGGTAACAGTGAGAAGTATTATCATGGTTCTGAGAATAATATGATGGGTAGGTATAGTAGAGGGAATAGTAGAGAGTGTGGTCATACTCACGAATTTGAACGCACTCCTCCGAAGAAACAGGTACAGAAGAAGAGTGCTCTTCTTAGGATTCAGACGGTTAAACCTAATAATAATCATAGGAACCGCGAGAATCGCGAGGTTGAGCAGTTGCGGTACCCGGGTTATGGTTCTGAGAATGGAAATGGTTTTTACAGGGGGAAGGAGCAGTATTTTGGTCATGGGGTGAAGGGGGAAGAGAGAGAGGAGAGCCCTGTTGAGATTGATATTTCTTTTGAGTCCAATTCGTTGGTTGCGAAGGCGAAGGCGGTTGTGGCGCCGCTGCCACCACCTTCGAGTTCAGTGTCGGTTCCTGATTTGAATGTGATGCCGGTTTCGGATTCGGATTTGGTTTACGGGGAGAGGAGTAAAAGGGTTTCAGGCTCTGAAGGAGATTATTCTGGTATGCAATTGCCGCAACCAGTTAGAATGTCTTCGGTTGTTGTGGATTTAAATAGGTCGCCTTGCAAAGGGAATGATAGCTCTGGTTCTAGGAAGGAGGTTATCAGGTCGAACAAGAAGAATGTTGATGATGGTTCTTCTCGGTCTCGCACCAGGGAGGCTGATGGTTCCCGTGGGAAAAAGGAGGTGCCTAATTTTGTTAAGGTTGGCAATGTTGTTTCTGGTAAATTGACCTCGAAGATTGTCAAGAAGAAGAAAATTGTTAAGAGAGTGGTGAAGAAAGGTACTGCAAGTTCCAAGTCATCTGCGTCAAATTCACTACCGGCTAAAACCCTTCCTGGAACTGTGAAAGCGGAGAGTGTTGCACGTATTTCATTGACTGCCTCTGGTCCTGAGAAAATTGAAGCTAATTTGGATGAGAAAAGCAACACTGTCATCCAAAGCAACACTGTTGATGAGGAGGCTAAGCCTGACTGTTTGCCCCCTTTACCAAAGGAAGGGAATGTATTGAAAGAAGATGCAGAGGTAGGCTTATTGCAGCTGAGTTTGGGGCCAGATTCCAGGTCACAAGAGTGTAAGAGTGACAAAGATTCTGGTATTGGGAAAGTATCCAGGTTTGAAAGAGATGGAAACATTTCAAATTCTCTATCTTGTGCTTCTATAAGTGAAGATAAAAAGAGTGATTCTGATTGTTTAGATGCAAATGATTCTGTCCATGACATTGGAAATACTATTTCTGTTCATGATAATGCAAATACATCTGATTGTTTAGATGCAAATAATTCTGTGCTAAATACTTACAAGGTTACTAAATCATTAAGTGGAAGTAATATTTCCGTAGTCACTAACATCGATTATGATAATAAGCAATTATGTCAGAATGAAGTGTCTCTATCACCTGGGAAATATTCAAATGTAGGATCCCCACAGAATAGGAATCTTGAAGATGTAGGGGATGAACTTTTGAAAAGCAGTGATACCTTTTCATGTTCAGGAAAAACTAGGATTCAGGATGGTCTAGATTGCCTACAACATGCCAGTGCACTGAAGCACAGTTCCGATAATGGATCATCTAATTTAGAAGATAGTACTTGTGTTGACTGTTCTGGAATTATGCATTGTGCTGGAAAGCAAGTGTCCCCTGGTGATGTCGTCATATCCCCTGAGAATTGGGACACAGAAAAAGCATTCCCAAATTCTAATATTTCTGCTGGATCTGGTGAAGGGGACACAAATAAGATAAAAAAAAGAAGAGCTAGAACACTCTTAAATTTTTTGAGTTCAGAGATGGAGTGCTTATCTTCAAACCATGTAAATCCAGACAGCCTTGCAAATAATGTGGATGGAGGCTCTAGTCTGTTGTTGAAAGATCCATCTCCTTCAGAAGTTTTAGAGCAACCTGTTCAAAGCTTAGATTTTAACTCACTATCCGGCGTGAATGGGGTTACTGCTTTACATGGAAAAGGGGGGGTTTTAGAGGCTCAGTTTTGTGTTGGACATATTGACAATGATGATGCAAATGAGGTTTCACCAGCTTCTAAAAGGAAAAAAGTCACAGCTAACCCAAATTTCACAAAATGTCAATCGGAATTGAGTGCTGTGATTGTGCCTTCCACCACATCTGAAGCTCCTATGAGTTTCAGTGATAACCAAGAACATCAGAAAGAAGTTGCTTTTGAAAGCATGGGTATGATTATTCTGTCTAGTGCTCAGTCAATGCCTTATTCAGAGGATATTACTAAAATGCCTGAGAATGTTTTGGCTGGGGGATCTTTTGAGTCTATTGATGCAAATAAGGAAACCATGAGTTCTGAGCATTTGGAATTGTGGCATTCGGATATAGTCTCTTTTTCACCATGTGAGGACTTGGCATTTCCAAATGTTCAGTTCTCATCATTGGAAGGTGAGTGCAAAGAAAACACTACTCCAATTGTGCCTACAAGTAATATTCAAACAGATATTTTGGCTGTGGGAAATATAGCTGGAGAAAAGACTGATTTACAGGCCGTTGAAGAAAATTACCAGTATAGAGAGCATGTACAAAGGTCACCAAGAGCTGATATGGAACCTAATGATCACAATATGAAGAATGATTTGCTTGCTCAGTGGAACCTTATGTCCTGTCCAGCCAGTGGTGATGAAGTCACTACAAATAATTCAAATGACGAAGTGATTGAGGATGCACCTGGATTATCAGATATGTTTTCTCAAGGGATGGTATCTGAAGTACCGGATAGAAGGGTTTTAGAATTTACAGCAATCAACGATGAAAATATTTTTGGAGTTCAAGAAAATCCAGATAACATATCTATGGTTGGACATGATTCCAACTTAAATACTTCATCAATACAGCAGACTAAAAAAAATATGAAGTCAGATCATGCAATTGAACATAGTAACCTGATCACAAAGAAGACAATGTCAGAACAATCCCAAGTTTCTTCCAAAGTTACAACTCAGGCTCTAAATTCATATTGTTTTGGGTTGAGTGGGACCAAAAATCAGTCAGGTAGTATCATTCCCAAAACTTTTCCAGGTCATTCTTTCACCTTTTCAAAGACATCTGCCTCCTCACCTCATGTATCAAAGCCTCGAACTTGGCATCGTACAGGTAATAATCCTCCGGCTTCTCTACCTAGAATCAAGCCTTCATTAGGAACAGTTCCTCCCAAAAAGCCAATTCTAGAAATGAAAGGGAACTTTCAAAATACCTCCTATGTTCGTAAAGGTAACAGTCTTGTAAGGAAACCTACTCCAGTTTCCACTCTACCTCATATCTCCTCTGTTAATCAGACATCTTTGGGCATAGATGAAATACCAAAAAGCATTAAATCTGGAGGGAGGGCTGATGTGACAGATAAACAAATGTACTTGAGAACAGGAGCAACAAATGCTCCACAGCAGAGAACACCTCCACTACCAATTGACACCAAATCAGAGGAAAATACATCTTCCTCATTGGTAGAACCTCCTTCTGGTGGTTGCTGTGAAAATGCATCAGACCTTAGGAAATTTATAGAAACTGATAATATTGCACCAAACTCTTCTGAAGATGCACTGAAGCATTATGAAACTTTAGAAAATCAACCTGGTCCATCTGATAATGGGGATAGCCAAGGTGAAGCAATCGATGGAAATGTTTTTCCTTTGAATACAAAGAGAATAGTATACATAAAGCCCAAAACAAATCAATTGGTTGCAACATCAAATTCTTGTGATGTTTCTGTCTCTACTGATGACAATCTCCAAACTGCCTTCTCTGATGGCTACTACAAGAGAAGAAAAAATCAATTGATTAGGACTACATTTGAAAGCCATATCAACCAGACAGTTGCAATGTCCAATAACACGGCATATTCTGGCGGACAAGGAACTAGCAATGCTCTTTGCAACAGGAGGTTTAGTAAGAGGCGGACACATAAGGTTGGTAGGAGTTCATGCAAACGTTCAAGAGCCTCATTAGTGTGGACACTCTGTAGCAAAAATTCTTCTGAAAATGACAGGGACTCACAACATTATCAAAGGGCTTTACCTCAATTGTTTCCATGGAAAAGACCAACATTTGCTTCAAGCTTGAATAACAGTTCCTTATCTGCAATCAGCAAAAAATTGCTTCAGTTGAGAAAGAGGGATACAGTTTACACTAGGTCAATCCACGGGTTTTCACTTCAGAAATCCAGAGTTTTAGGTGTTGGCGGGTGTAGTTTAAAATGGTCCAAATCCATTGAGAAGAAGTCAAAGCTAGCTAATGAGGAAGCCACACTTGCTGTTGCTGCAGTAGAGAGGAAGAGGAGAGAGCAGAAAAATGCAGTTTGCATCAGTTCTCAGTCAAAGAGAGAGCGTATATTTCGCATTGGTTCAGTTCGCTACAGAATGGATCCTTCCAGGAGGACACTTCAGAGGATTTCAGATGATGAATCCCTGTCCTCTGCATCTACCTGTTCAGGTTTGGCTTCCAAAAGAGCTTACATTCCAAGGAGATTAGTGATTGGAAATGATGAATATGTCCAAATTGGCAATGGTAACCAGCTTATCAGAGACCCAAAGAGACGAACTCGAAAATTGGCAAATGAAAAAGTTAGATGGAGCCTGCACACTGCCAGACAGCGATTGGCGCGAAAGCAGAAGTATTGTCAGTTTTTTACTAGATTTGGGAAATGTAACAAGGATGGAGGGAAGTGTCCTTATATTCATGATCCCTCAAAAATCGCTGTCTGTACTAAGTTCCTGAATGGTTTATGTTCTACTCCCAACTGCAAATTGACACATAAGGTTATTCCAGAGAGAATGCCAGATTGTTCTTATTTCTTGCAAGGTGCGTCTTATATAGACAGCAGTCTTTCATCAAGTGAATAA

>Glyma13g09610.6   sequence type=CDS   gene model=Glyma13g09610   sequence assembly version=Glyma 1.0   annotation version=1.1   JGI Gene Call confidence=high
ATGGATCAACACCACTTCCTCCACCACCACCACTATCACCACCCCCAAGAACACCGCAATCGATACACCTCCCTCACACCTCAATCCCACCTCCACAGTCACCACCACAATAATCTTCCTCCACCACCGCCAAATCCTTCTCCGCCTCTTTCCTACCACCGCACACCGCAACCCTACACCCCTCCTACACCCCAACCCCAACATCAACAACAACAATTCCCTTATACACCCCTCCCAGACCGCCCTCTCGAAGAAGAACCCCAACCTCAACGTCATATCCCATACGATCTTCTCCCTCGCCGCACCACCACCCTCCCCTGGAACCCTAACCCTAACCCTAACCCTAGAATTCCTGATGATTTCGACCGCGATTATCACCACAAACACCACCGCCCTCTCCCGCCGCCCCCGCTCCCGATCGAATCCCACCGCTACGACCCCGACCGGCACCACCACCCCGTGGATCCATATGAGCAGAACCCTAGGGAGCCCCTCGCGTGGGGCGGCGGTGGCTACCACGCGCCGGGCCAGGGCGATGTGGACCCCACGTCCTACGTCCGTGTGTACACCGTGGAGTCCGACGCCGACGTGGCGGGGAGAACAACCTCCAAGAGATGGGTAATGAGTGATAGGGATAGAGGAAGAGAGATGCACGAGTCTTCTTCTGGTTTAGTGAGTAGTAATGGTAACAGTGAGAAGTATTATCATGGTTCTGAGAATAATATGATGGGTAGGTATAGTAGAGGGAATAGTAGAGAGTGTGGTCATACTCACGAATTTGAACGCACTCCTCCGAAGAAACAGGTACAGAAGAAGAGTGCTCTTCTTAGGATTCAGACGGTTAAACCTAATAATAATCATAGGAACCGCGAGAATCGCGAGGTTGAGCAGTTGCGGTACCCGGGTTATGGTTCTGAGAATGGAAATGGTTTTTACAGGGGGAAGGAGCAGTATTTTGGTCATGGGGTGAAGGGGGAAGAGAGAGAGGAGAGCCCTGTTGAGATTGATATTTCTTTTGAGTCCAATTCGTTGGTTGCGAAGGCGAAGGCGGTTGTGGCGCCGCTGCCACCACCTTCGAGTTCAGTGTCGGTTCCTGATTTGAATGTGATGCCGGTTTCGGATTCGGATTTGGTTTACGGGGAGAGGAGTAAAAGGGTTTCAGGCTCTGAAGGAGATTATTCTGGTATGCAATTGCCGCAACCAGTTAGAATGTCTTCGGTTGTTGTGGATTTAAATAGGTCGCCTTGCAAAGGGAATGATAGCTCTGGTTCTAGGAAGGAGGTTATCAGGTCGAACAAGAAGAATGTTGATGATGGTTCTTCTCGGTCTCGCACCAGGGAGGCTGATGGTTCCCGTGGGAAAAAGGAGGTGCCTAATTTTGTTAAGGTTGGCAATGTTGTTTCTGGTAAATTGACCTCGAAGATTGTCAAGAAGAAGAAAATTGTTAAGAGAGTGGTGAAGAAAGGTACTGCAAGTTCCAAGTCATCTGCGTCAAATTCACTACCGGCTAAAACCCTTCCTGGAACTGTGAAAGCGGAGAGTGTTGCACGTATTTCATTGACTGCCTCTGGTCCTGAGAAAATTGAAGCTAATTTGGATGAGAAAAGCAACACTGTCATCCAAAGCAACACTGTTGATGAGGAGGCTAAGCCTGACTGTTTGCCCCCTTTACCAAAGGAAGGGAATGTATTGAAAGAAGATGCAGAGGTAGGCTTATTGCAGCTGAGTTTGGGGCCAGATTCCAGGTCACAAGAGTGTAAGAGTGACAAAGATTCTGGTATTGGGAAAGTATCCAGGTTTGAAAGAGATGGAAACATTTCAAATTCTCTATCTTGTGCTTCTATAAGTGAAGATAAAAAGAGTGATTCTGATTGTTTAGATGCAAATGATTCTGTCCATGACATTGGAAATACTATTTCTGTTCATGATAATGCAAATACATCTGATTGTTTAGATGCAAATAATTCTGTGCTAAATACTTACAAGGTTACTAAATCATTAAGTGGAAGTAATATTTCCGTAGTCACTAACATCGATTATGATAATAAGCAATTATGTCAGAATGAAGTGTCTCTATCACCTGGGAAATATTCAAATGTAGGATCCCCACAGAATAGGAATCTTGAAGATGTAGGGGATGAACTTTTGAAAAGCAGTGATACCTTTTCATGTTCAGGAAAAACTAGGATTCAGGATGGTCTAGATTGCCTACAACATGCCAGTGCACTGAAGCACAGTTCCGATAATGGATCATCTAATTTAGAAGATAGTACTTGTGTTGACTGTTCTGGAATTATGCATTGTGCTGGAAAGCAAGTGTCCCCTGGTGATGTCGTCATATCCCCTGAGAATTGGGACACAGAAAAAGCATTCCCAAATTCTAATATTTCTGCTGGATCTGGTGAAGGGGACACAAATAAGATAAAAAAAAGAAGAGCTAGAACACTCTTAAATTTTTTGAGTTCAGAGATGGAGTGCTTATCTTCAAACCATGTAAATCCAGACAGCCTTGCAAATAATGTGGATGGAGGCTCTAGTCTGTTGTTGAAAGATCCATCTCCTTCAGAAGTTTTAGAGCAACCTGTTCAAAGCTTAGATTTTAACTCACTATCCGGCGTGAATGGGGTTACTGCTTTACATGGAAAAGGGGGGGTTTTAGAGGCTCAGTTTTGTGTTGGACATATTGACAATGATGATGCAAATGAGGTTTCACCAGCTTCTAAAAGGAAAAAAGTCACAGCTAACCCAAATTTCACAAAATGTCAATCGGAATTGAGTGCTGTGATTGTGCCTTCCACCACATCTGAAGCTCCTATGAGTTTCAGTGATAACCAAGAACATCAGAAAGAAGTTGCTTTTGAAAGCATGGGTATGATTATTCTGTCTAGTGCTCAGTCAATGCCTTATTCAGAGGATATTACTAAAATGCCTGAGAATGTTTTGGCTGGGGGATCTTTTGAGTCTATTGATGCAAATAAGGAAACCATGAGTTCTGAGCATTTGGAATTGTGGCATTCGGATATAGTCTCTTTTTCACCATGTGAGGACTTGGCATTTCCAAATGTTCAGTTCTCATCATTGGAAGGTGAGTGCAAAGAAAACACTACTCCAATTGTGCCTACAAGTAATATTCAAACAGATATTTTGGCTGTGGGAAATATAGCTGGAGAAAAGACTGATTTACAGGCCGTTGAAGAAAATTACCAGTATAGAGAGCATGTACAAAGGTCACCAAGAGCTGATATGGAACCTAATGATCACAATATGAAGAATGATTTGCTTGCTCAGTGGAACCTTATGTCCTGTCCAGCCAGTGGTGATGAAGTCACTACAAATAATTCAAATGACGAAGTGATTGAGGATGCACCTGGATTATCAGATATGTTTTCTCAAGGGATGGTATCTGAAGTACCGGATAGAAGGGTTTTAGAATTTACAGCAATCAACGATGAAAATATTTTTGGAGTTCAAGAAAATCCAGATAACATATCTATGGTTGGACATGATTCCAACTTAAATACTTCATCAATACAGCAGACTAAAAAAAATATGAAGTCAGATCATGCAATTGAACATAGTAACCTGATCACAAAGAAGACAATGTCAGAACAATCCCAAGTTTCTTCCAAAGTTACAACTCAGGCTCTAAATTCATATTGTTTTGGGTTGAGTGGGACCAAAAATCAGTCAGGTAGTATCATTCCCAAAACTTTTCCAGGTCATTCTTTCACCTTTTCAAAGACATCTGCCTCCTCACCTCATGTATCAAAGCCTCGAACTTGGCATCGTACAGGTAATAATCCTCCGGCTTCTCTACCTAGAATCAAGCCTTCATTAGGAACAGTTCCTCCCAAAAAGCCAATTCTAGAAATGAAAGGGAACTTTCAAAATACCTCCTATGTTCGTAAAGGTAACAGTCTTGTAAGGAAACCTACTCCAGTTTCCACTCTACCTCATATCTCCTCTGTTAATCAGACATCTTTGGGCATAGATGAAATACCAAAAAGCATTAAATCTGGAGGGAGGGCTGATGTGACAGATAAACAAATGTACTTGAGAACAGGAGCAACAAATGCTCCACAGCAGAGAACACCTCCACTACCAATTGACACCAAATCAGAGGAAAATACATCTTCCTCATTGGTAGAACCTCCTTCTGGTGGTTGCTGTGAAAATGCATCAGACCTTAGGAAATTTATAGAAACTGATAATATTGCACCAAACTCTTCTGAAGATGCACTGAAGCATTATGAAACTTTAGAAAATCAACCTGGTCCATCTGATAATGGGGATAGCCAAGGTGAAGCAATCGATGGAAATGTTTTTCCTTTGAATACAAAGAGAATAGTATACATAAAGCCCAAAACAAATCAATTGGTTGCAACATCAAATTCTTGTGATGTTTCTGTCTCTACTGATGACAATCTCCAAACTGCCTTCTCTGATGGCTACTACAAGAGAAGAAAAAATCAATTGATTAGGACTACATTTGAAAGCCATATCAACCAGACAGTTGCAATGTCCAATAACACGGCATATTCTGGCGGACAAGGAACTAGCAATGCTCTTTGCAACAGGAGGTTTAGTAAGAGGCGGACACATAAGGTTGGTAGGAGTTCATGCAAACGTTCAAGAGCCTCATTAGTGTGGACACTCTGTAGCAAAAATTCTTCTGAAAATGACAGGGACTCACAACATTATCAAAGGGCTTTACCTCAATTGTTTCCATGGAAAAGACCAACATTTGCTTCAAGCTTGAATAACAGTTCCTTATCTGCAATCAGCAAAAAATTGCTTCAGTTGAGAAAGAGGGATACAGTTTACACTAGGTCAATCCACGGGTTTTCACTTCAGAAATCCAGAGTTTTAGGTGTTGGCGGGTGTAGTTTAAAATGGTCCAAATCCATTGAGAAGAAGTCAAAGCTAGCTAATGAGGAAGCCACACTTGCTGTTGCTGCAGTAGAGAGGAAGAGGAGAGAGCAGAAAAATGCAGTTTGCATCAGTTCTCAGTCAAAGAGAGAGCGTATATTTCGCATTGGTTCAGTTCGCTACAGAATGGATCCTTCCAGGAGGACACTTCAGAGGATTTCAGATGATGAATCCCTGTCCTCTGCATCTACCTGTTCAGGTTTGGCTTCCAAAAGAGCTTACATTCCAAGGAGATTAGTGATTGGAAATGATGAATATGTCCAAATTGGCAATGGTAACCAGCTTATCAGAGACCCAAAGAGACGAACTCGAAAATTGGCAAATGAAAAAGTTAGATGGAGCCTGCACACTGCCAGACAGCGATTGGCGCGAAAGCAGAAGTATTGTCAGTTTTTTACTAGATTTGGGAAATGTAACAAGGATGGAGGGAAGTGTCCTTATATTCATGATCCCTCAAAAATCGCTGTCTGTACTAAGTTCCTGAATGGTTTATGTTCTACTCCCAACTGCAAATTGACACATAAGGTTTTTTATATATGGGGTCCTACAAATTGA
Predicted protein sequences of Glyma13g09610
>Glyma13g09610.4   sequence type=predicted peptide   gene model=Glyma13g09610   sequence assembly version=Glyma 1.0   annotation version=1.1   JGI Gene Call confidence=high
MDQHHFLHHHHYHHPQEHRNRYTSLTPQSHLHSHHHNNLPPPPPNPSPPLSYHRTPQPYTPPTPQPQHQQQQFPYTPLPDRPLEEEPQPQRHIPYDLLPRRTTTLPWNPNPNPNPRIPDDFDRDYHHKHHRPLPPPPLPIESHRYDPDRHHHPVDPYEQNPREPLAWGGGGYHAPGQGDVDPTSYVRVYTVESDADVAGRTTSKRWVMSDRDRGREMHESSSGLVSSNGNSEKYYHGSENNMMGRYSRGNSRECGHTHEFERTPPKKQVQKKSALLRIQTVKPNNNHRNRENREVEQLRYPGYGSENGNGFYRGKEQYFGHGVKGEEREESPVEIDISFESNSLVAKAKAVVAPLPPPSSSVSVPDLNVMPVSDSDLVYGERSKRVSGSEGDYSGMQLPQPVRMSSVVVDLNRSPCKGNDSSGSRKEVIRSNKKNVDDGSSRSRTREADGSRGKKEVPNFVKVGNVVSGKLTSKIVKKKKIVKRVVKKGTASSKSSASNSLPAKTLPGTVKAESVARISLTASGPEKIEANLDEKSNTVIQSNTVDEEAKPDCLPPLPKEGNVLKEDAEVGLLQLSLGPDSRSQECKSDKDSGIGKVSRFERDGNISNSLSCASISEDKKSDSDCLDANDSVHDIGNTISVHDNANTSDCLDANNSVLNTYKVTKSLSGSNISVVTNIDYDNKQLCQNEVSLSPGKYSNVGSPQNRNLEDVGDELLKSSDTFSCSGKTRIQDGLDCLQHASALKHSSDNGSSNLEDSTCVDCSGIMHCAGKQVSPGDVVISPENWDTEKAFPNSNISAGSGEGDTNKIKKRRARTLLNFLSSEMECLSSNHVNPDSLANNVDGGSSLLLKDPSPSEVLEQPVQSLDFNSLSGVNGVTALHGKGGVLEAQFCVGHIDNDDANEVSPASKRKKVTANPNFTKCQSELSAVIVPSTTSEAPMSFSDNQEHQKEVAFESMGMIILSSAQSMPYSEDITKMPENVLAGGSFESIDANKETMSSEHLELWHSDIVSFSPCEDLAFPNVQFSSLEGECKENTTPIVPTSNIQTDILAVGNIAGEKTDLQAVEENYQYREHVQRSPRADMEPNDHNMKNDLLAQWNLMSCPASGDEVTTNNSNDEVIEDAPGLSDMFSQGMVSEVPDRRVLEFTAINDENIFGVQENPDNISMVGHDSNLNTSSIQQTKKNMKSDHAIEHSNLITKKTMSEQSQVSSKVTTQALNSYCFGLSGTKNQSGSIIPKTFPGHSFTFSKTSASSPHVSKPRTWHRTGNNPPASLPRIKPSLGTVPPKKPILEMKGNFQNTSYVRKGNSLVRKPTPVSTLPHISSVNQTSLGIDEIPKSIKSGGRADVTDKQMYLRTGATNAPQQRTPPLPIDTKSEENTSSSLVEPPSGGCCENASDLRKFIETDNIAPNSSEDALKHYETLENQPGPSDNGDSQGEAIDGNVFPLNTKRIVYIKPKTNQLVATSNSCDVSVSTDDNLQTAFSDGYYKRRKNQLIRTTFESHINQTVAMSNNTAYSGGQGTSNALCNRRFSKRRTHKVGRSSCKRSRASLVWTLCSKNSSENDRDSQHYQRALPQLFPWKRPTFASSLNNSSLSAISKKLLQLRKRDTVYTRSIHGFSLQKSRVLGVGGCSLKWSKSIEKKSKLANEEATLAVAAVERKRREQKNAVCISSQSKRERIFRIGSVRYRMDPSRRTLQRISDDESLSSASTCSGLASKRAYIPRRLVIGNDEYVQIGNGNQLIRDPKRRTRKLANEKVRWSLHTARQRLARKQKYCQFFTRFGKCNKDGGKCPYIHDPSKIAVCTKFLNGLCSTPNCKLTHKVIPERMPDCSYFLQGLCSNRNCPYRHVNVNPKASICEGFLKGYCADGNECRKKHSYVCPTFEATGTCTQGTGCKLHHPKKQSKGKKRKRTADQNNSRGRYFGFIPADVSKSGMMVAPKRHRQNGELEEELSDYISLDVVNEEVADVVDQSFEPAAFCDNDSLDLQLDDFDGLIKPVLLLKTKFTLQSPQSSSLQAFRQVAET*

>Glyma13g09610.5   sequence type=predicted peptide   gene model=Glyma13g09610   sequence assembly version=Glyma 1.0   annotation version=1.1   JGI Gene Call confidence=high
MDQHHFLHHHHYHHPQEHRNRYTSLTPQSHLHSHHHNNLPPPPPNPSPPLSYHRTPQPYTPPTPQPQHQQQQFPYTPLPDRPLEEEPQPQRHIPYDLLPRRTTTLPWNPNPNPNPRIPDDFDRDYHHKHHRPLPPPPLPIESHRYDPDRHHHPVDPYEQNPREPLAWGGGGYHAPGQGDVDPTSYVRVYTVESDADVAGRTTSKRWVMSDRDRGREMHESSSGLVSSNGNSEKYYHGSENNMMGRYSRGNSRECGHTHEFERTPPKKQVQKKSALLRIQTVKPNNNHRNRENREVEQLRYPGYGSENGNGFYRGKEQYFGHGVKGEEREESPVEIDISFESNSLVAKAKAVVAPLPPPSSSVSVPDLNVMPVSDSDLVYGERSKRVSGSEGDYSGMQLPQPVRMSSVVVDLNRSPCKGNDSSGSRKEVIRSNKKNVDDGSSRSRTREADGSRGKKEVPNFVKVGNVVSGKLTSKIVKKKKIVKRVVKKGTASSKSSASNSLPAKTLPGTVKAESVARISLTASGPEKIEANLDEKSNTVIQSNTVDEEAKPDCLPPLPKEGNVLKEDAEVGLLQLSLGPDSRSQECKSDKDSGIGKVSRFERDGNISNSLSCASISEDKKSDSDCLDANDSVHDIGNTISVHDNANTSDCLDANNSVLNTYKVTKSLSGSNISVVTNIDYDNKQLCQNEVSLSPGKYSNVGSPQNRNLEDVGDELLKSSDTFSCSGKTRIQDGLDCLQHASALKHSSDNGSSNLEDSTCVDCSGIMHCAGKQVSPGDVVISPENWDTEKAFPNSNISAGSGEGDTNKIKKRRARTLLNFLSSEMECLSSNHVNPDSLANNVDGGSSLLLKDPSPSEVLEQPVQSLDFNSLSGVNGVTALHGKGGVLEAQFCVGHIDNDDANEVSPASKRKKVTANPNFTKCQSELSAVIVPSTTSEAPMSFSDNQEHQKEVAFESMGMIILSSAQSMPYSEDITKMPENVLAGGSFESIDANKETMSSEHLELWHSDIVSFSPCEDLAFPNVQFSSLEGECKENTTPIVPTSNIQTDILAVGNIAGEKTDLQAVEENYQYREHVQRSPRADMEPNDHNMKNDLLAQWNLMSCPASGDEVTTNNSNDEVIEDAPGLSDMFSQGMVSEVPDRRVLEFTAINDENIFGVQENPDNISMVGHDSNLNTSSIQQTKKNMKSDHAIEHSNLITKKTMSEQSQVSSKVTTQALNSYCFGLSGTKNQSGSIIPKTFPGHSFTFSKTSASSPHVSKPRTWHRTGNNPPASLPRIKPSLGTVPPKKPILEMKGNFQNTSYVRKGNSLVRKPTPVSTLPHISSVNQTSLGIDEIPKSIKSGGRADVTDKQMYLRTGATNAPQQRTPPLPIDTKSEENTSSSLVEPPSGGCCENASDLRKFIETDNIAPNSSEDALKHYETLENQPGPSDNGDSQGEAIDGNVFPLNTKRIVYIKPKTNQLVATSNSCDVSVSTDDNLQTAFSDGYYKRRKNQLIRTTFESHINQTVAMSNNTAYSGGQGTSNALCNRRFSKRRTHKVGRSSCKRSRASLVWTLCSKNSSENDRDSQHYQRALPQLFPWKRPTFASSLNNSSLSAISKKLLQLRKRDTVYTRSIHGFSLQKSRVLGVGGCSLKWSKSIEKKSKLANEEATLAVAAVERKRREQKNAVCISSQSKRERIFRIGSVRYRMDPSRRTLQRISDDESLSSASTCSGLASKRAYIPRRLVIGNDEYVQIGNGNQLIRDPKRRTRKLANEKVRWSLHTARQRLARKQKYCQFFTRFGKCNKDGGKCPYIHDPSKIAVCTKFLNGLCSTPNCKLTHKVIPERMPDCSYFLQGASYIDSSLSSSE*

>Glyma13g09610.6   sequence type=predicted peptide   gene model=Glyma13g09610   sequence assembly version=Glyma 1.0   annotation version=1.1   JGI Gene Call confidence=high
MDQHHFLHHHHYHHPQEHRNRYTSLTPQSHLHSHHHNNLPPPPPNPSPPLSYHRTPQPYTPPTPQPQHQQQQFPYTPLPDRPLEEEPQPQRHIPYDLLPRRTTTLPWNPNPNPNPRIPDDFDRDYHHKHHRPLPPPPLPIESHRYDPDRHHHPVDPYEQNPREPLAWGGGGYHAPGQGDVDPTSYVRVYTVESDADVAGRTTSKRWVMSDRDRGREMHESSSGLVSSNGNSEKYYHGSENNMMGRYSRGNSRECGHTHEFERTPPKKQVQKKSALLRIQTVKPNNNHRNRENREVEQLRYPGYGSENGNGFYRGKEQYFGHGVKGEEREESPVEIDISFESNSLVAKAKAVVAPLPPPSSSVSVPDLNVMPVSDSDLVYGERSKRVSGSEGDYSGMQLPQPVRMSSVVVDLNRSPCKGNDSSGSRKEVIRSNKKNVDDGSSRSRTREADGSRGKKEVPNFVKVGNVVSGKLTSKIVKKKKIVKRVVKKGTASSKSSASNSLPAKTLPGTVKAESVARISLTASGPEKIEANLDEKSNTVIQSNTVDEEAKPDCLPPLPKEGNVLKEDAEVGLLQLSLGPDSRSQECKSDKDSGIGKVSRFERDGNISNSLSCASISEDKKSDSDCLDANDSVHDIGNTISVHDNANTSDCLDANNSVLNTYKVTKSLSGSNISVVTNIDYDNKQLCQNEVSLSPGKYSNVGSPQNRNLEDVGDELLKSSDTFSCSGKTRIQDGLDCLQHASALKHSSDNGSSNLEDSTCVDCSGIMHCAGKQVSPGDVVISPENWDTEKAFPNSNISAGSGEGDTNKIKKRRARTLLNFLSSEMECLSSNHVNPDSLANNVDGGSSLLLKDPSPSEVLEQPVQSLDFNSLSGVNGVTALHGKGGVLEAQFCVGHIDNDDANEVSPASKRKKVTANPNFTKCQSELSAVIVPSTTSEAPMSFSDNQEHQKEVAFESMGMIILSSAQSMPYSEDITKMPENVLAGGSFESIDANKETMSSEHLELWHSDIVSFSPCEDLAFPNVQFSSLEGECKENTTPIVPTSNIQTDILAVGNIAGEKTDLQAVEENYQYREHVQRSPRADMEPNDHNMKNDLLAQWNLMSCPASGDEVTTNNSNDEVIEDAPGLSDMFSQGMVSEVPDRRVLEFTAINDENIFGVQENPDNISMVGHDSNLNTSSIQQTKKNMKSDHAIEHSNLITKKTMSEQSQVSSKVTTQALNSYCFGLSGTKNQSGSIIPKTFPGHSFTFSKTSASSPHVSKPRTWHRTGNNPPASLPRIKPSLGTVPPKKPILEMKGNFQNTSYVRKGNSLVRKPTPVSTLPHISSVNQTSLGIDEIPKSIKSGGRADVTDKQMYLRTGATNAPQQRTPPLPIDTKSEENTSSSLVEPPSGGCCENASDLRKFIETDNIAPNSSEDALKHYETLENQPGPSDNGDSQGEAIDGNVFPLNTKRIVYIKPKTNQLVATSNSCDVSVSTDDNLQTAFSDGYYKRRKNQLIRTTFESHINQTVAMSNNTAYSGGQGTSNALCNRRFSKRRTHKVGRSSCKRSRASLVWTLCSKNSSENDRDSQHYQRALPQLFPWKRPTFASSLNNSSLSAISKKLLQLRKRDTVYTRSIHGFSLQKSRVLGVGGCSLKWSKSIEKKSKLANEEATLAVAAVERKRREQKNAVCISSQSKRERIFRIGSVRYRMDPSRRTLQRISDDESLSSASTCSGLASKRAYIPRRLVIGNDEYVQIGNGNQLIRDPKRRTRKLANEKVRWSLHTARQRLARKQKYCQFFTRFGKCNKDGGKCPYIHDPSKIAVCTKFLNGLCSTPNCKLTHKVFYIWGPTN*






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