SoyBase SoyBase transitions to NEW site on 10/1/2024
Integrating Genetics and Genomics to Advance Soybean Research


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Report for Sequence Feature Glyma15g37710

Feature Type:gene_model
Chromosome:Gm15
Start:43587734
stop:43604396
Source:JGI
Version:Wm82.a1.v1.1
High confidence:yes



A newer version of this gene model can be found here:

Annotations for Glyma15g37710
Database IDAnnotation TypeAnnotation DescriptionAnnotation SourceMatch ScoreEvidence Code
AT2G40030AT Annotation by Michelle Graham. TAIR10: nuclear RNA polymerase D1B | chr2:16715089-16723406 FORWARD LENGTH=1976 SoyBaseE_val: 0ISS
GO:0000724GO-bp Annotation by Michelle Graham. GO Biological Process: double-strand break repair via homologous recombination SoyBaseN/AISS
GO:0006261GO-bp Annotation by Michelle Graham. GO Biological Process: DNA-dependent DNA replication SoyBaseN/AISS
GO:0006275GO-bp Annotation by Michelle Graham. GO Biological Process: regulation of DNA replication SoyBaseN/AISS
GO:0006306GO-bp Annotation by Michelle Graham. GO Biological Process: DNA methylation SoyBaseN/AISS
GO:0006342GO-bp Annotation by Michelle Graham. GO Biological Process: chromatin silencing SoyBaseN/AISS
GO:0006351GO-bp Annotation by Michelle Graham. GO Biological Process: transcription, DNA-dependent SoyBaseN/AISS
GO:0006354GO-bp Annotation by Michelle Graham. GO Biological Process: DNA-dependent transcription, elongation SoyBaseN/AISS
GO:0009555GO-bp Annotation by Michelle Graham. GO Biological Process: pollen development SoyBaseN/AISS
GO:0016444GO-bp Annotation by Michelle Graham. GO Biological Process: somatic cell DNA recombination SoyBaseN/AISS
GO:0022402GO-bp Annotation by Michelle Graham. GO Biological Process: cell cycle process SoyBaseN/AISS
GO:0030422GO-bp Annotation by Michelle Graham. GO Biological Process: production of siRNA involved in RNA interference SoyBaseN/AISS
GO:0031047GO-bp Annotation by Michelle Graham. GO Biological Process: gene silencing by RNA SoyBaseN/AISS
GO:0035194GO-bp Annotation by Michelle Graham. GO Biological Process: posttranscriptional gene silencing by RNA SoyBaseN/AISS
GO:0048451GO-bp Annotation by Michelle Graham. GO Biological Process: petal formation SoyBaseN/AISS
GO:0048453GO-bp Annotation by Michelle Graham. GO Biological Process: sepal formation SoyBaseN/AISS
GO:0051567GO-bp Annotation by Michelle Graham. GO Biological Process: histone H3-K9 methylation SoyBaseN/AISS
GO:0051726GO-bp Annotation by Michelle Graham. GO Biological Process: regulation of cell cycle SoyBaseN/AISS
GO:0000418GO-cc Annotation by Michelle Graham. GO Cellular Compartment: DNA-directed RNA polymerase IV complex SoyBaseN/AISS
GO:0000419GO-cc Annotation by Michelle Graham. GO Cellular Compartment: DNA-directed RNA polymerase V complex SoyBaseN/AISS
GO:0005634GO-cc Annotation by Michelle Graham. GO Cellular Compartment: nucleus SoyBaseN/AISS
GO:0005730GO-cc Annotation by Michelle Graham. GO Cellular Compartment: nucleolus SoyBaseN/AISS
GO:0016604GO-cc Annotation by Michelle Graham. GO Cellular Compartment: nuclear body SoyBaseN/AISS
GO:0030880GO-cc Annotation by Michelle Graham. GO Cellular Compartment: RNA polymerase complex SoyBaseN/AISS
GO:0003677GO-mf Annotation by Michelle Graham. GO Molecular Function: DNA binding SoyBaseN/AISS
GO:0003899GO-mf Annotation by Michelle Graham. GO Molecular Function: DNA-directed RNA polymerase activity SoyBaseN/AISS
GO:0005515GO-mf Annotation by Michelle Graham. GO Molecular Function: protein binding SoyBaseN/AISS
KOG0260 KOG RNA polymerase II, large subunit JGI ISS
PTHR19376Panther DNA-DIRECTED RNA POLYMERASE JGI ISS
PTHR19376:SF7Panther DNA-DIRECTED RNA POLYMERASE II LARGEST SUBUNIT JGI ISS
PF00623PFAM RNA polymerase Rpb1, domain 2 JGI ISS
PF04983PFAM RNA polymerase Rpb1, domain 3 JGI ISS
PF04997PFAM RNA polymerase Rpb1, domain 1 JGI ISS
PF04998PFAM RNA polymerase Rpb1, domain 5 JGI ISS
PF11523PFAM Protein of unknown function (DUF3223) JGI ISS
UniRef100_I1MIR6UniRef Annotation by Michelle Graham. Most informative UniRef hit: DNA-directed RNA polymerase n=1 Tax=Glycine max RepID=I1MIR6_SOYBN SoyBaseE_val: 0ISS
UniRef100_UPI000233BB58UniRef Annotation by Michelle Graham. Best UniRef hit: UPI000233BB58 related cluster n=1 Tax=unknown RepID=UPI000233BB58 SoyBaseE_val: 0ISS

Expression Patterns of Glyma15g37710
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

Glyma15g37710 not represented in the dataset
Glyma15g37710 not represented in the dataset
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

Gene model name correspondences to Glyma15g37710 Gene Call Version Wm82.a1.v1.1
Corresponding NameAnnotation VersionEvidenceComments
Glyma.15g235900 Wm82.a2.v1IGC As supplied by JGI

References for Glyma15g37710
Schmutz et al. 2010
  Genome sequence of the palaeopolyploid soybean
  Nature 2010, 463:178-183

Transcripts of Glyma15g37710
>Glyma15g37710.2   sequence type=transcript   gene model=Glyma15g37710   sequence assembly version=Glyma 1.0   annotation version=1.1   JGI Gene Call confidence=high
AAAAAAGAAGTAAAATTTCATTTCATGTTCATGTTCATTTCACACTCACTCGCTTACTCACTCTCAGTCTCACACACTCTCTCTCATTTCATTTCTCTCCGGAAAACCTTTCCCCTTCGAAACCCTCTTTCTCTCTCGCTCTTTGTTGTTTCGATCGGTTTCGCGCAACGAGGTTCTTTGCATTTTCTAGGGTTTTGCGAGCTGAGCGAGACGTTTGAATTGAACAGCTTTTGTTTCGCTCCTGAGGTAGAATCAGGCACTGTAATTGACCACGAAAGTAATGGAGGATAATCCCCCTTCAAGTGTTTTAGATGGGACCGTTGTTGGGATCAAATTTGGTATGGCTACACGCCAGGAAATTTGTACAGCATCCATTAGTGACTCTTCAATTAGTCATGCTAGTCAGCTGTCAAATCCATTCCTTGGGCTGCCCCTTGAGTTTGGCAGATGTGAATCTTGTGGTACTTCTGAAGTTGGAAAATGCGAAGGTCACTTCGGATATATTGAGTTGCCAATTCCAATATATCACCCAAGTCATATCAGTGACTTGAAACGGATGCTGAGCATGGTCTGCTTAAACTGCCTAAAATTAAGGAAAACCAAGCTTCCAGCTTCAAGCAGTGGTTTAGCCCAGAGATTAATATCTCCTTGTTGTCAGGAGGATAAGGCTGCTCTAGTTTCTATTCGGGAAGTTAAAACAAGTGATGGGGCTTGTTATCTGGCGTTGAAAGTATCCAAATCCAAGATGCAAAATGGTTTTTGGAGTTTCTTAGAAAAATATGGTTATCGCTATGGGGGTGATCACACTCGAGCCTTGCTTCCTTGTGAGGCAATGGAAATTATTAAGAGAATTCCGATAGAGACAAAAAAAAAGCTTGCTGGAAAAGGATATTTTCCTCAAGATGGATATGTTTTGAAGTATCTTCCGGTGCCACCAAATTGCTTGTCTGTGCCAGAAGTTTCAGACGGTGTCAGTGTCATGTCGTCGGATCCTTCCATAACAATTCTCAGAAAATTGCTCAGGAAGGTTGAAATCATAAAAAGCTCTAGATCTGGTGAACCAAATTTCGAGTCTCATCACGTAGAAGCAAATGATTTGCAGTCTGTGGTTGATCAATATTTTCAAATTAGAGGAACTTCTAAGCCAGCACGTGATATAGAGACACATTTTGGGGTCAATAAAGAGCTTACTGCATCCTCAACAAAAGCATGGCTTGAGAAAATGAGGACATTATTTATAAGAAAGGGTTCAGGTTTTTCTTCCCGGAATGTAATTACTGGAGATTGTTATAAGAGGATAAATGAAGTAGGAATTCCGGTTGAAGTTGCCCAACGGATAACGTTTGAGGAGAGAGTTAACATCCACAACATCAGATATTTACAGAAGTTGGTTGATGAACATTTGTGCCTGACCTACAAGGAAGGTGGGTCAACTTATTCACTCAGGGAGGGCTCAAAGGGGCACATATATCTCAAGCCTGGTCAGATAGTGCATCGGAGGATTATGGATGGGGATATTGTCTTCATCAACAGACCACCTACAACACACAAGCACTCCTTACAAGCCCTTTATGTTTACATCCATGAAGACCACACTGTGAAGATAAATCCTTTAATTTGTGGACCACTTGGGGCTGATTTTGATGGTGACTGTGTCCATCTGTTTTATCCGCAATCACTTGCTGCTAAAGCTGAAGTTGTGGAGCTATTTTCTGTGGAGAATCAACTGCTCAGCTCTCACAGTGGTAATTTGAACCTACAGTTATCCACAGACTCGTTGTTGTCACTGAAGATGTTGGTCAAGAGATGTTTTTTTGATAGAGCAGCAGCTAATCAATTGGCGATGTTTATTTTGCTTCCTTTGCCTCGGCCTGCTTTGCTCAAGGCCAGTTCTGGTGATGCTTGTTGGACTTCCATCCAAATTTTACAGTGTGCTTTACCTTTGGGTTTTGATTGCACTGGGGGACGGTATTTGATTAGGCAGAGTGAGATCTTAGAATTTGAATTCAGCAGGGATGTTCTGCCTGCAACCGTAAATGAAATAGCAGCTTCAGTTTTCTTTGGCAAGGGTCCCAAGGAGGCACTTAATTTCTTTGATGTATTGCAACCCTTTTTGATGGAAAGCTTATTTGCGGAAGGGTTTAGTGTTAGCCTGGAAGAGTTTTCAATATCCAGGGCAATTAAAAGGATAATAAGAAAAAGCATTGGAAAAGTTTCTTCTCTGCTGTATCAGCTGAGGTCCTTGTACAATGAGCTGGTGGCGCAGCAACTGGAGAAGCACATTCGAGATGTTGAACTTCCTATCATTAATTTTGCTCTAAAGTCAACTAAATTAGGAGATTTAATTGATTCAAAGAGTAAATCTGCTATTGATAAGGTTGTTCAGCAGATTGGGTTTTTAGGGCAGCAACTTTTTGATAGGGGAAGATTCTACTCAAAGGGATTGGTAGATGATGTGGCATCACATTTTCATGCAAAGTGTTGTTATGACGGGGATGGTTATCCCTCTGCTGAGTATGGACTGCTCAAAGGGTGTTTTTTTAATGGTTTGGATCCATACGAAGAGATGGTGCATTCGATTTCAACAAGGGAAATAATGGTGCGTTCTTCGAGAGGATTATCTGAACCAGGAACACTCTTTAAGAATTTGATGGCCATCCTTCGGGATGTTGTTATCTGTTATGATGGAACTGTCAGAAACATTTGTAGTAATTCCATCATCCAGTTTGAATACGGGATACAAGCTGGAGACAAAAGTGAGCACTTATTCCCTGCTGGTGAGCCTGTAGGTGTGTTGGCTGCAACTGCTATGTCAAATCCTGCTTACAAGGCTGTCCTTGATGCTAGTCCTAGTAGCAACTCTTCATGGGAGTTGATGAAGGAAATATTACTCTGCAAGGTTAATTTTAGGAATGAACTTGTTGATCGGCGTGTCATTTTGTACTTGAATGACTGTGATTGTGGAGGGAGTTATTGCCGAGAAAATGCAGCATATTCAGTTAAAGATCAATTGAGAAAAGTCAGTCTCAAGGATGCAGCTGTGGAGTTCATTATTGAATACCAACAACAGCGAACTCAAAAGGAAAATTCTGAAACTGATGTTGGACTTGTTGGTCATATTTATTTGGATGAGATGATGTTAGAGGAGCTGAAGATCAGCATGGCCTATGTTTTCGACAAATGCCATGAAAGACTCAAGTCTTTTAGTCAGAAAAAGAAAGTTAATCAATCTTTGAAGAACATTGAATTATCATTTAGTGAGTCTTGCTCATCTTCACATCCTGCTGCACCATGTTTAACATTTTGGCTAAAGAATTATGATAGTGATTTGGATAATGCTGTAAAGGTCCTGGCTGAAAAGATCTGCCCTGTTCTGTTTAAAACAATAATCCAAGGAGACCCGCGCATTAGCTCTGCGAGTATAATCTGGGTTAGTCCAGATACAAACACATGGGTCCGAAACCCTTATAAATCTTCTAATGGTGAATTGGCACTTGACATCATTCTCGAGAAGGAAGCTGTCAAGCAGAGTGGCGATGCTTGGAGAGTTGTACTTGATGCCTGCCTTCCTGTTCTTCACTTGATTGATACCAGGCGTTCCATCCCTTACGCTATTAAGCAGATTCAGGAATTACTGGGGATATCATGTACTTTTGATCAAGCGATTCAGCGTGTTGCAGCATCTGTGAAAATGGTGGCGAAAGGTGTACTTAGGGAGCATCTAATTCTGTTAGCTAGTAGTATGACTTGTGGTGGGAACTTGGTTGGCTTTAATATAGGTGGATATAAAGCTCTGTCTCGTCAATTAAATATACAAGTACCATTCACAGATGCAACACTCTTTACACCTAAAAAGTGTTTTGAGAGAGCTGCTGAGAAATGCCATACTGATTCTCTGTCAAGCATAGTTGCCTCCTGTTCCTGGGGTAAACATGTGGCAGTTGGTACAGGATCAAAATTTGATGTTGTTTGGGATGCAAATGAGATAAAATCAAATGAAATTGAAGGGATGGATGTTTACAGTTTTCTTCACATGGTGAAAAGCTTTACCAATGGCGAAGAAGAAACCGATGCTTGTTTGGGTGAAGATATTGATGATTTGCTGGAAGAAGAATATATGGACTTGGGCATGTCCCCACAACATAACTCTGGTTTTGAAGCTGTCTTTGAAGAGAATCCTGAAGTACTGAATGGTTCAACATCCAATGGTTGGGATGTAAGTTCAAATCAGGGTGAATCAAAAACCAATGAGTGGTCAGGTTGGGCAAGTAGTAACAAAGCTGAAATAAAAGATGGTAGATCTGAAATTGCCCCCAAGAATTCTTGGGGGAAAACTGTCAACCAAGAAGACTCTTCCAAGTCTAACCCTTGGAGTACAAGCACCATAGCAGATCAGACAAAAACTAAATCTAATGAATGGTCTGCCTGGGGAAGTAACAAGTCTGAAATACCAGTTGGTTGGGCAAGTAGTAACAAAACTGAAATAAAAGATGGTAGATCTGAAACTGCCCAAGAGAATTCTTGGGGGAAAACTGTCAACCAAGAAGACTCTTCCAAGTCTAATGCTTGGAATACAAGCACCACAGTAGATCATGCAAACACTAAATCTAATGAATGGTCTGCCTGGGGAAGTAACCAGTCTGAAATACCAGCTGGTGGATCTAAAGCAGTTCAAGAAGATTCTTGGGGCTCAAGTAAGTGGAAGGCTGATGTTGCCCAAGAAGACAATTCCAGGCTTGGTGCTTGGGATGCAAATGCAGCAGATCAGACAAAATCTAGTGAATGGTCGGGTTGGGGAAAGAAGAAAGATGTTACCCAAGAAGACAATTCCAGGCTTGGTGCTTGGGATGCAAATGCAGCAGATCAGACAAAATCTAGAGACTGGTCGGGTTGGGGAAAGAAGAAAGATATTACCCAAGAAGACAATTCCAGGCTTGGTGCTTGGGATGCAAATGCAGCAGATCAGACAAAATCTAGTGAATGGTCGGGTTGGGGAAAGAAGAAAGATGTTACCCAAGAAGACAATTCCAGGCTTGGTGCTTGGGATGCAAATACAGCAGATCAGACAAAATCTAATGAATGGTCAGGTTGGGGAAAGAAGAAAGAAGTTACCCAAGAAGACAATTCCAGGCTTGGTGCTTGGGATGCAAATACAGCAGATCAGACAAAATCTAATGAATGGTCAGGTTGGGGAAAGAAGAAAGAAGTTACCCAAGAAGACAATTCCAGGTTTGGTGCTTGGGATGCAAATGCAGAAGATCAGACAAAATCTAATGAATGGTCAGGTTGGGGAAAGAAGAAAGATGTTACCCAAGAAGACAATTCCAGGCTTGGTGCTTGGGATGCAAATGCAGCAGATCAGACAAAATCTAATGAATGGTCAGACTGGGGAAAGAAGAAAGAAGTTACCCAAGAAGACAATGTCCAAGATTCTTGGGGCTCCGGTAAGAGGAAAGACAAAGTTACCCAAGAAGACAATTCTGGGTCTGGTGGTTGGGGTGCCAACAGAACAGATCTGGCAAAATCCAAATCTAGTGAATGGTCCAGCTGGGGAAAGAACAAGTCTGAAATACCAGCTGGTGGATCTGAAAATGTGCAGAATGACTCATGGGGCTCGGGTAAATTGGAAGATGATACCCAAAAAGAAAATTCTGGGTCTGCATGGGTGAGAAATAAAGCTGAAACAATAGATGGTGGGTCAGAAAAGCCCCAAGAGGATGCTTGGAATTCTGGTAATTGGAAAGCTGAATCAAAAGTCGGCAATGCCTCTTGGGGAAAACCCAAATCCTCAGAAAGTCAAGCATGGGATTCCCATAATCAGTCAAATCAAAATTCAAGTTCACAGGGATGGGAATCACATATTGCTTCAGCTAATTCAGAAAGTGAAAAAGGTTTTCAGTGGGGAAAGCAAGGTAGAGACTCGTTTAAGAAAAATCGATTTGAAGGTTCGCAAGGCCGGGGTTCAAATGCTGGTGACTGGAAAAATAGGAATCGCCCACCTAGAGCCCCTGGACAGAGATTGGACATTTATTCATCTGGTGAGCAGGATGTTCTGAAGGATATTGAACCCATTATGCAGTCTATCAGACGAATCATGCAACAACAGGGGTACAATGATGGGGACCCACTGGCTGCTGAAGATCAACTTTTTGTACTGGAGAATGTCTTTGAGCACCACCCAGATAAAGAAACCAAAATGGGCACTGGAATTGATTATGTCATGGTTAACAAACACAGTAGTTTCCAGGAAAGTAGATGCTTTTATGTGGTTTGTAAAGATGGTGAAAGCAAGGACTTTTCCTACCGGAAGTGTTTGGCCAACTATATAAGCAAGAAGTATCCTGACCTTGCTGAATCATTCCTTGGAAAATATTTTCGGAAACCTCGTGCACGGGGGGACCAGACTGCAACACCAGGGCGGGATGAAGCAGCCACTCCGGGCGAGCAGACAGCAACGCCAGGCCGGGATGAAGCAGCAACTCCGGCTGAGCAGATCTCAACACCCACCCCTATGGAAACCAATGAGTAGATTACAGTTGTGTCCATAATATTGTACAGAAACAGTGCAGTTGAGGCCACTGAATAGTTTGTCATAGCTGACCAATTTTCCTGTAGGAAAGTGTTCCTCTTTTTGGTGAACAGTTAGATGGTAATTTTTTTAGCATGTGAATGATGATAGCAAACACCCTTGTGCAGATGTTAATATTGTTCTGATGATTACAGCACATATGATGTGCCTAGCAAACTTTGCTCATCATTTTGTTTAATCATCAATGGCACCTGGGTTTCAGACCTTGATTGGACCACTGATGCAAAAATGGCATCCTTGTGATTAGAGTTTCATGAATCAGATTGTGGCTTATATTCTGTTTAATAGGTTACTAAGCATTTCCGAGTTATATTTAAACTGGTAAAATTTCTTTGATTTAGTTTTTTCTTGTCT

>Glyma15g37710.3   sequence type=transcript   gene model=Glyma15g37710   sequence assembly version=Glyma 1.0   annotation version=1.1   JGI Gene Call confidence=high
AAAAAAGAAGTAAAATTTCATTTCATGTTCATGTTCATTTCACACTCACTCGCTTACTCACTCTCAGTCTCACACACTCTCTCTCATTTCATTTCTCTCCGGAAAACCTTTCCCCTTCGAAACCCTCTTTCTCTCTCGCTCTTTGTTGTTTCGATCGGTTTCGCGCAACGAGGTTCTTTGCATTTTCTAGGGTTTTGCGAGCTGAGCGAGACGTTTGAATTGAACAGCTTTTGTTTCGCTCCTGAGGCACTGTAATTGACCACGAAAGTAATGGAGGATAATCCCCCTTCAAGTGTTTTAGATGGGACCGTTGTTGGGATCAAATTTGGTATGGCTACACGCCAGGAAATTTGTACAGCATCCATTAGTGACTCTTCAATTAGTCATGCTAGTCAGCTGTCAAATCCATTCCTTGGGCTGCCCCTTGAGTTTGGCAGATGTGAATCTTGTGGTACTTCTGAAGTTGGAAAATGCGAAGGTCACTTCGGATATATTGAGTTGCCAATTCCAATATATCACCCAAGTCATATCAGTGACTTGAAACGGATGCTGAGCATGGTCTGCTTAAACTGCCTAAAATTAAGGAAAACCAAGCTTCCAGCTTCAAGCAGTGGTTTAGCCCAGAGATTAATATCTCCTTGTTGTCAGGAGGATAAGGCTGCTCTAGTTTCTATTCGGGAAGTTAAAACAAGTGATGGGGCTTGTTATCTGGCGTTGAAAGTATCCAAATCCAAGATGCAAAATGGTTTTTGGAGTTTCTTAGAAAAATATGGTTATCGCTATGGGGGTGATCACACTCGAGCCTTGCTTCCTTGTGAGGCAATGGAAATTATTAAGAGAATTCCGATAGAGACAAAAAAAAAGCTTGCTGGAAAAGGATATTTTCCTCAAGATGGATATGTTTTGAAGTATCTTCCGGTGCCACCAAATTGCTTGTCTGTGCCAGAAGTTTCAGACGGTGTCAGTGTCATGTCGTCGGATCCTTCCATAACAATTCTCAGAAAATTGCTCAGGAAGGTTGAAATCATAAAAAGCTCTAGATCTGGTGAACCAAATTTCGAGTCTCATCACGTAGAAGCAAATGATTTGCAGTCTGTGGTTGATCAATATTTTCAAATTAGAGGAACTTCTAAGCCAGCACGTGATATAGAGACACATTTTGGGGTCAATAAAGAGCTTACTGCATCCTCAACAAAAGCATGGCTTGAGAAAATGAGGACATTATTTATAAGAAAGGGTTCAGGTTTTTCTTCCCGGAATGTAATTACTGGAGATTGTTATAAGAGGATAAATGAAGTAGGAATTCCGGTTGAAGTTGCCCAACGGATAACGTTTGAGGAGAGAGTTAACATCCACAACATCAGATATTTACAGAAGTTGGTTGATGAACATTTGTGCCTGACCTACAAGGAAGGTGGGTCAACTTATTCACTCAGGGAGGGCTCAAAGGGGCACATATATCTCAAGCCTGGTCAGATAGTGCATCGGAGGATTATGGATGGGGATATTGTCTTCATCAACAGACCACCTACAACACACAAGCACTCCTTACAAGCCCTTTATGTTTACATCCATGAAGACCACACTGTGAAGATAAATCCTTTAATTTGTGGACCACTTGGGGCTGATTTTGATGGTGACTGTGTCCATCTGTTTTATCCGCAATCACTTGCTGCTAAAGCTGAAGTTGTGGAGCTATTTTCTGTGGAGAATCAACTGCTCAGCTCTCACAGTGGTAATTTGAACCTACAGTTATCCACAGACTCGTTGTTGTCACTGAAGATGTTGGTCAAGAGATGTTTTTTTGATAGAGCAGCAGCTAATCAATTGGCGATGTTTATTTTGCTTCCTTTGCCTCGGCCTGCTTTGCTCAAGGCCAGTTCTGGTGATGCTTGTTGGACTTCCATCCAAATTTTACAGTGTGCTTTACCTTTGGGTTTTGATTGCACTGGGGGACGGTATTTGATTAGGCAGAGTGAGATCTTAGAATTTGAATTCAGCAGGGATGTTCTGCCTGCAACCGTAAATGAAATAGCAGCTTCAGTTTTCTTTGGCAAGGGTCCCAAGGAGGCACTTAATTTCTTTGATGTATTGCAACCCTTTTTGATGGAAAGCTTATTTGCGGAAGGGTTTAGTGTTAGCCTGGAAGAGTTTTCAATATCCAGGGCAATTAAAAGGATAATAAGAAAAAGCATTGGAAAAGTTTCTTCTCTGCTGTATCAGCTGAGGTCCTTGTACAATGAGCTGGTGGCGCAGCAACTGGAGAAGCACATTCGAGATGTTGAACTTCCTATCATTAATTTTGCTCTAAAGTCAACTAAATTAGGAGATTTAATTGATTCAAAGAGTAAATCTGCTATTGATAAGGTTGTTCAGCAGATTGGGTTTTTAGGGCAGCAACTTTTTGATAGGGGAAGATTCTACTCAAAGGGATTGGTAGATGATGTGGCATCACATTTTCATGCAAAGTGTTGTTATGACGGGGATGGTTATCCCTCTGCTGAGTATGGACTGCTCAAAGGGTGTTTTTTTAATGGTTTGGATCCATACGAAGAGATGGTGCATTCGATTTCAACAAGGGAAATAATGGTGCGTTCTTCGAGAGGATTATCTGAACCAGGAACACTCTTTAAGAATTTGATGGCCATCCTTCGGGATGTTGTTATCTGTTATGATGGAACTGTCAGAAACATTTGTAGTAATTCCATCATCCAGTTTGAATACGGGATACAAGCTGGAGACAAAAGTGAGCACTTATTCCCTGCTGGTGAGCCTGTAGGTGTGTTGGCTGCAACTGCTATGTCAAATCCTGCTTACAAGGCTGTCCTTGATGCTAGTCCTAGTAGCAACTCTTCATGGGAGTTGATGAAGGAAATATTACTCTGCAAGGTTAATTTTAGGAATGAACTTGTTGATCGGCGTGTCATTTTGTACTTGAATGACTGTGATTGTGGAGGGAGTTATTGCCGAGAAAATGCAGCATATTCAGTTAAAGATCAATTGAGAAAAGTCAGTCTCAAGGATGCAGCTGTGGAGTTCATTATTGAATACCAACAACAGCGAACTCAAAAGGAAAATTCTGAAACTGATGTTGGACTTGTTGGTCATATTTATTTGGATGAGATGATGTTAGAGGAGCTGAAGATCAGCATGGCCTATGTTTTCGACAAATGCCATGAAAGACTCAAGTCTTTTAGTCAGAAAAAGAAAGTTAATCAATCTTTGAAGAACATTGAATTATCATTTAGTGAGTCTTGCTCATCTTCACATCCTGCTGCACCATGTTTAACATTTTGGCTAAAGAATTATGATAGTGATTTGGATAATGCTGTAAAGGTCCTGGCTGAAAAGATCTGCCCTGTTCTGTTTAAAACAATAATCCAAGGAGACCCGCGCATTAGCTCTGCGAGTATAATCTGGGTTAGTCCAGATACAAACACATGGGTCCGAAACCCTTATAAATCTTCTAATGGTGAATTGGCACTTGACATCATTCTCGAGAAGGAAGCTGTCAAGCAGAGTGGCGATGCTTGGAGAGTTGTACTTGATGCCTGCCTTCCTGTTCTTCACTTGATTGATACCAGGCGTTCCATCCCTTACGCTATTAAGCAGATTCAGGAATTACTGGGGATATCATGTACTTTTGATCAAGCGATTCAGCGTGTTGCAGCATCTGTGAAAATGGTGGCGAAAGGTGTACTTAGGGAGCATCTAATTCTGTTAGCTAGTAGTATGACTTGTGGTGGGAACTTGGTTGGCTTTAATATAGGTGGATATAAAGCTCTGTCTCGTCAATTAAATATACAAGTACCATTCACAGATGCAACACTCTTTACACCTAAAAAGTGTTTTGAGAGAGCTGCTGAGAAATGCCATACTGATTCTCTGTCAAGCATAGTTGCCTCCTGTTCCTGGGGTAAACATGTGGCAGTTGGTACAGGATCAAAATTTGATGTTGTTTGGGATGCAAATGAGATAAAATCAAATGAAATTGAAGGGATGGATGTTTACAGTTTTCTTCACATGGTGAAAAGCTTTACCAATGGCGAAGAAGAAACCGATGCTTGTTTGGGTGAAGATATTGATGATTTGCTGGAAGAAGAATATATGGACTTGGGCATGTCCCCACAACATAACTCTGGTTTTGAAGCTGTCTTTGAAGAGAATCCTGAAGTACTGAATGGTTCAACATCCAATGGTTGGGATGTAAGTTCAAATCAGGGTGAATCAAAAACCAATGAGTGGTCAGGTTGGGCAAGTAGTAACAAAGCTGAAATAAAAGATGGTAGATCTGAAATTGCCCCCAAGAATTCTTGGGGGAAAACTGTCAACCAAGAAGACTCTTCCAAGTCTAACCCTTGGAGTACAAGCACCATAGCAGATCAGACAAAAACTAAATCTAATGAATGGTCTGCCTGGGGAAGTAACAAGTCTGAAATACCAGTTGGTTGGGCAAGTAGTAACAAAACTGAAATAAAAGATGGTAGATCTGAAACTGCCCAAGAGAATTCTTGGGGGAAAACTGTCAACCAAGAAGACTCTTCCAAGTCTAATGCTTGGAATACAAGCACCACAGTAGATCATGCAAACACTAAATCTAATGAATGGTCTGCCTGGGGAAGTAACCAGTCTGAAATACCAGCTGGTGGATCTAAAGCAGTTCAAGAAGATTCTTGGGGCTCAAGTAAGTGGAAGGCTGATGTTGCCCAAGAAGACAATTCCAGGCTTGGTGCTTGGGATGCAAATGCAGCAGATCAGACAAAATCTAGTGAATGGTCGGGTTGGGGAAAGAAGAAAGATGTTACCCAAGAAGACAATTCCAGGCTTGGTGCTTGGGATGCAAATGCAGCAGATCAGACAAAATCTAGAGACTGGTCGGGTTGGGGAAAGAAGAAAGATATTACCCAAGAAGACAATTCCAGGCTTGGTGCTTGGGATGCAAATGCAGCAGATCAGACAAAATCTAGTGAATGGTCGGGTTGGGGAAAGAAGAAAGATGTTACCCAAGAAGACAATTCCAGGCTTGGTGCTTGGGATGCAAATACAGCAGATCAGACAAAATCTAATGAATGGTCAGGTTGGGGAAAGAAGAAAGAAGTTACCCAAGAAGACAATTCCAGGCTTGGTGCTTGGGATGCAAATACAGCAGATCAGACAAAATCTAATGAATGGTCAGGTTGGGGAAAGAAGAAAGAAGTTACCCAAGAAGACAATTCCAGGTTTGGTGCTTGGGATGCAAATGCAGAAGATCAGACAAAATCTAATGAATGGTCAGGTTGGGGAAAGAAGAAAGATGTTACCCAAGAAGACAATTCCAGGCTTGGTGCTTGGGATGCAAATGCAGCAGATCAGACAAAATCTAATGAATGGTCAGACTGGGGAAAGAAGAAAGAAGTTACCCAAGAAGACAATGTCCAAGATTCTTGGGGCTCCGGTAAGAGGAAAGACAAAGTTACCCAAGAAGACAATTCTGGGTCTGGTGGTTGGGGTGCCAACAGAACAGATCTGGCAAAATCCAAATCTAGTGAATGGTCCAGCTGGGGAAAGAACAAGTCTGAAATACCAGCTGGTGGATCTGAAAATGTGCAGAATGACTCATGGGGCTCGGGTAAATTGGAAGATGATACCCAAAAAGAAAATTCTGGGTCTGCATGGGTGAGAAATAAAGCTGAAACAATAGATGGTGGGTCAGAAAAGCCCCAAGAGGATGCTTGGAATTCTGGTAATTGGAAAGCTGAATCAAAAGTCGGCAATGCCTCTTGGGGAAAACCCAAATCCTCAGAAAGTCAAGCATGGGATTCCCATAATCAGTCAAATCAAAATTCAAGTTCACAGGGATGGGAATCACATATTGCTTCAGCTAATTCAGAAAGTGAAAAAGGTTTTCAGTGGGGAAAGCAAGGTAGAGACTCGTTTAAGAAAAATCGATTTGAAGGTTCGCAAGGCCGGGGTTCAAATGCTGGTGACTGGAAAAATAGGAATCGCCCACCTAGAGCCCCTGGACAGAGATTGGACATTTATTCATCTGGTGAGCAGGATGTTCTGAAGGATATTGAACCCATTATGCAGTCTATCAGACGAATCATGCAACAACAGGGGTACAATGATGGGGACCCACTGGCTGCTGAAGATCAACTTTTTGTACTGGAGAATGTCTTTGAGCACCACCCAGATAAAGAAACCAAAATGGGCACTGGAATTGATTATGTCATGGTTAACAAACACAGTAGTTTCCAGGAAAGTAGATGCTTTTATGTGGTTTGTAAAGATGGTGAAAGCAAGGACTTTTCCTACCGGAAGTGTTTGGCCAACTATATAAGCAAGAAGTATCCTGACCTTGCTGAATCATTCCTTGGAAAATATTTTCGGAAACCTCGTGCACGGGGGGACCAGACTGCAACACCAGGGCGGGATGAAGCAGCCACTCCGGGCGAGCAGACAGCAACGCCAGGCCGGGATGAAGCAGCAACTCCGGCTGAGCAGATCTCAACACCCACCCCTATGGAAACCAATGAGTAGATTACAGTTGTGTCCATAATATTGTACAGAAACAGTGCAGTTGAGGCCACTGAATAGTTTGTCATAGCTGACCAATTTTCCTGTAGGAAAGTGTTCCTCTTTTTGGTGAACAGTTAGATGGTAATTTTTTTAGCATGTGAATGATGATAGCAAACACCCTTGTGCAGATGTTAATATTGTTCTGATGATTACAGCACATATGATGTGCCTAGCAAACTTTGCTCATCATTTTGTTTAATCATCAATGGCACCTGGGTTTCAGACCTTGATTGGACCACTGATGCAAAAATGGCATCCTTGTGATTAGAGTTTCATGAATCAGATTGTGGCTTATATTCTGTTTAATAGGTTACTAAGCATTTCCGAGTTATATTTAAACTGGTAAAATTTCTTTGATTTAGTTTTTTCTTGTCT

>Glyma15g37710.4   sequence type=transcript   gene model=Glyma15g37710   sequence assembly version=Glyma 1.0   annotation version=1.1   JGI Gene Call confidence=high
TCATGTTCATTTCACACTCACTCGCTTACTCACTCTCAGTCTCACACACTCTCTCTCATTTCATTTCTCTCCGGAAAACCTTTCCCCTTCGAAACCCTCTTTCTCTCTCGCTCTTTGTTGTTTCGATCGGTTTCGCGCAACGAGGTTCTTTGCATTTTCTAGGGTTTTGCGAGCTGAGCGAGACGTTTGAATTGAACAGCTTTTGTTTCGCTCCTGAGGTAGAATCAGGCACTGTAATTGACCACGAAAGTAATGGAGGATAATCCCCCTTCAAGTGTTTTAGATGGGACCGTTGTTGGGATCAAATTTGGTATGGCTACACGCCAGGAAATTTGTACAGCATCCATTAGTGACTCTTCAATTAGTCATGCTAGTCAGCTGTCAAATCCATTCCTTGGGCTGCCCCTTGAGTTTGGCAGATGTGAATCTTGTGGTACTTCTGAAGTTGGAAAATGCGAAGGTCACTTCGGATATATTGAGTTGCCAATTCCAATATATCACCCAAGTCATATCAGTGACTTGAAACGGATGCTGAGCATGGTCTGCTTAAACTGCCTAAAATTAAGGAAAACCAAGCTTCCAGCTTCAAGCAGTGGTTTAGCCCAGAGATTAATATCTCCTTGTTGTCAGGAGGATAAGGCTGCTCTAGTTTCTATTCGGGAAGTTAAAACAAGTGATGGGGCTTGTTATCTGGCGTTGAAAGTATCCAAATCCAAGATGCAAAATGGTTTTTGGAGTTTCTTAGAAAAATATGGTTATCGCTATGGGGGTGATCACACTCGAGCCTTGCTTCCTTGTGAGGCAATGGAAATTATTAAGAGAATTCCGATAGAGACAAAAAAAAAGCTTGCTGGAAAAGGATATTTTCCTCAAGATGGATATGTTTTGAAGTATCTTCCGGTGCCACCAAATTGCTTGTCTGTGCCAGAAGTTTCAGACGGTGTCAGTGTCATGTCGTCGGATCCTTCCATAACAATTCTCAGAAAATTGCTCAGGAAGGTTGAAATCATAAAAAGCTCTAGATCTGGTGAACCAAATTTCGAGTCTCATCACGTAGAAGCAAATGATTTGCAGTCTGTGGTTGATCAATATTTTCAAATTAGAGGAACTTCTAAGCCAGCACGTGATATAGAGACACATTTTGGGGTCAATAAAGAGCTTACTGCATCCTCAACAAAAGCATGGCTTGAGAAAATGAGGACATTATTTATAAGAAAGGGTTCAGGTTTTTCTTCCCGGAATGTAATTACTGGAGATTGTTATAAGAGGATAAATGAAGTAGGAATTCCGGTTGAAGTTGCCCAACGGATAACGTTTGAGGAGAGAGTTAACATCCACAACATCAGATATTTACAGAAGTTGGTTGATGAACATTTGTGCCTGACCTACAAGGAAGGTGGGTCAACTTATTCACTCAGGGAGGGCTCAAAGGGGCACATATATCTCAAGCCTGGTCAGATAGTGCATCGGAGGATTATGGATGGGGATATTGTCTTCATCAACAGACCACCTACAACACACAAGCACTCCTTACAAGCCCTTTATGTTTACATCCATGAAGACCACACTGTGAAGATAAATCCTTTAATTTGTGGACCACTTGGGGCTGATTTTGATGGTGACTGTGTCCATCTGTTTTATCCGCAATCACTTGCTGCTAAAGCTGAAGTTGTGGAGCTATTTTCTGTGGAGAATCAACTGCTCAGCTCTCACAGTGGTAATTTGAACCTACAGTTATCCACAGACTCGTTGTTGTCACTGAAGATGTTGGTCAAGAGATGTTTTTTTGATAGAGCAGCAGCTAATCAATTGGCGATGTTTATTTTGCTTCCTTTGCCTCGGCCTGCTTTGCTCAAGGCCAGTTCTGGTGATGCTTGTTGGACTTCCATCCAAATTTTACAGTGTGCTTTACCTTTGGGTTTTGATTGCACTGGGGGACGGTATTTGATTAGGCAGAGTGAGATCTTAGAATTTGAATTCAGCAGGGATGTTCTGCCTGCAACCGTAAATGAAATAGCAGCTTCAGTTTTCTTTGGCAAGGGTCCCAAGGAGGCACTTAATTTCTTTGATGTATTGCAACCCTTTTTGATGGAAAGCTTATTTGCGGAAGGGTTTAGTGTTAGCCTGGAAGAGTTTTCAATATCCAGGGCAATTAAAAGGATAATAAGAAAAAGCATTGGAAAAGTTTCTTCTCTGCTGTATCAGCTGAGGTCCTTGTACAATGAGCTGGTGGCGCAGCAACTGGAGAAGCACATTCGAGATGTTGAACTTCCTATCATTAATTTTGCTCTAAAGTCAACTAAATTAGGAGATTTAATTGATTCAAAGAGTAAATCTGCTATTGATAAGGTTGTTCAGCAGATTGGGTTTTTAGGGCAGCAACTTTTTGATAGGGGAAGATTCTACTCAAAGGGATTGGTAGATGATGTGGCATCACATTTTCATGCAAAGTGTTGTTATGACGGGGATGGTTATCCCTCTGCTGAGTATGGACTGCTCAAAGGGTGTTTTTTTAATGGTTTGGATCCATACGAAGAGATGGTGCATTCGATTTCAACAAGGGAAATAATGGTGCGTTCTTCGAGAGGATTATCTGAACCAGGAACACTCTTTAAGAATTTGATGGCCATCCTTCGGGATGTTGTTATCTGTTATGATGGAACTGTCAGAAACATTTGTAGTAATTCCATCATCCAGTTTGAATACGGGATACAAGCTGGAGACAAAAGTGAGCACTTATTCCCTGCTGGTGAGCCTGTAGGTGTGTTGGCTGCAACTGCTATGTCAAATCCTGCTTACAAGGCTGTCCTTGATGCTAGTCCTAGTAGCAACTCTTCATGGGAGTTGATGAAGGAAATATTACTCTGCAAGGTTAATTTTAGGAATGAACTTGTTGATCGGCGTGTCATTTTGTACTTGAATGACTGTGATTGTGGAGGGAGTTATTGCCGAGAAAATGCAGCATATTCAGTTAAAGATCAATTGAGAAAAGTCAGTCTCAAGGATGCAGCTGTGGAGTTCATTATTGAATACCAACAACAGCGAACTCAAAAGGAAAATTCTGAAACTGATGTTGGACTTGTTGGTCATATTTATTTGGATGAGATGATGTTAGAGGAGCTGAAGATCAGCATGGCCTATGTTTTCGACAAATGCCATGAAAGACTCAAGTCTTTTAGTCAGAAAAAGAAAGTTAATCAATCTTTGAAGAACATTGAATTATCATTTAGTTTATTTGTTGGTCTATATCACTTTCTGATTATGTTCCATCTTAGCAGTGAGTCTTGCTCATCTTCACATCCTGCTGCACCATGTTTAACATTTTGGCTAAAGAATTATGATAGTGATTTGGATAATGCTGTAAAGGTCCTGGCTGAAAAGATCTGCCCTGTTCTGTTTAAAACAATAATCCAAGGAGACCCGCGCATTAGCTCTGCGAGTATAATCTGGGTTAGTCCAGATACAAACACATGGGTCCGAAACCCTTATAAATCTTCTAATGGTGAATTGGCACTTGACATCATTCTCGAGAAGGAAGCTGTCAAGCAGAGTGGCGATGCTTGGAGAGTTGTACTTGATGCCTGCCTTCCTGTTCTTCACTTGATTGATACCAGGCGTTCCATCCCTTACGCTATTAAGCAGATTCAGGAATTACTGGGGATATCATGTACTTTTGATCAAGCGATTCAGCGTGTTGCAGCATCTGTGAAAATGGTGGCGAAAGGTGTACTTAGGGAGCATCTAATTCTGTTAGCTAGTAGTATGACTTGTGGTGGGAACTTGGTTGGCTTTAATATAGGTGGATATAAAGCTCTGTCTCGTCAATTAAATATACAAGTACCATTCACAGATGCAACACTCTTTACACCTAAAAAGTGTTTTGAGAGAGCTGCTGAGAAATGCCATACTGATTCTCTGTCAAGCATAGTTGCCTCCTGTTCCTGGGGTAAACATGTGGCAGTTGGTACAGGATCAAAATTTGATGTTGTTTGGGATGCAAATGAGATAAAATCAAATGAAATTGAAGGGATGGATGTTTACAGTTTTCTTCACATGGTGAAAAGCTTTACCAATGGCGAAGAAGAAACCGATGCTTGTTTGGGTGAAGATATTGATGATTTGCTGGAAGAAGAATATATGGACTTGGGCATGTCCCCACAACATAACTCTGGTTTTGAAGCTGTCTTTGAAGAGAATCCTGAAGTACTGAATGGTTCAACATCCAATGGTTGGGATGTAAGTTCAAATCAGGGTGAATCAAAAACCAATGAGTGGTCAGGTTGGGCAAGTAGTAACAAAGCTGAAATAAAAGATGGTAGATCTGAAATTGCCCCCAAGAATTCTTGGGGGAAAACTGTCAACCAAGAAGACTCTTCCAAGTCTAACCCTTGGAGTACAAGCACCATAGCAGATCAGACAAAAACTAAATCTAATGAATGGTCTGCCTGGGGAAGTAACAAGTCTGAAATACCAGTTGGTTGGGCAAGTAGTAACAAAACTGAAATAAAAGATGGTAGATCTGAAACTGCCCAAGAGAATTCTTGGGGGAAAACTGTCAACCAAGAAGACTCTTCCAAGTCTAATGCTTGGAATACAAGCACCACAGTAGATCATGCAAACACTAAATCTAATGAATGGTCTGCCTGGGGAAGTAACCAGTCTGAAATACCAGCTGGTGGATCTAAAGCAGTTCAAGAAGATTCTTGGGGCTCAAGTAAGTGGAAGGCTGATGTTGCCCAAGAAGACAATTCCAGGCTTGGTGCTTGGGATGCAAATGCAGCAGATCAGACAAAATCTAGTGAATGGTCGGGTTGGGGAAAGAAGAAAGATGTTACCCAAGAAGACAATTCCAGGCTTGGTGCTTGGGATGCAAATGCAGCAGATCAGACAAAATCTAGAGACTGGTCGGGTTGGGGAAAGAAGAAAGATATTACCCAAGAAGACAATTCCAGGCTTGGTGCTTGGGATGCAAATGCAGCAGATCAGACAAAATCTAGTGAATGGTCGGGTTGGGGAAAGAAGAAAGATGTTACCCAAGAAGACAATTCCAGGCTTGGTGCTTGGGATGCAAATACAGCAGATCAGACAAAATCTAATGAATGGTCAGGTTGGGGAAAGAAGAAAGAAGTTACCCAAGAAGACAATTCCAGGCTTGGTGCTTGGGATGCAAATACAGCAGATCAGACAAAATCTAATGAATGGTCAGGTTGGGGAAAGAAGAAAGAAGTTACCCAAGAAGACAATTCCAGGCTTGGTGCTTGGGATGCAAATGCAGCAGATCAGACAAAATCTAATGAATGGTCAGACTGGGGAAAGAAGAAAGAAGTTACCCAAGAAGACAATGTCCAAGATTCTTGGGGCTCCGGTAAGAGGAAAGACAAAGTTACCCAAGAAGACAATTCTGGGTCTGGTGGTTGGGGTGCCAACAGAACAGATCTGGCAAAATCCAAATCTAGTGAATGGTCCAGCTGGGGAAAGAACAAGTCTGAAATACCAGCTGGTGGATCTGAAAATGTGCAGAATGACTCATGGGGCTCGGGTAAATTGGAAGATGATACCCAAAAAGAAAATTCTGGGTCTGCATGGGTGAGAAATAAAGCTGAAACAATAGATGGTGGGTCAGAAAAGCCCCAAGAGGATGCTTGGAATTCTGGTAATTGGAAAGCTGAATCAAAAGTCGGCAATGCCTCTTGGGGAAAACCCAAATCCTCAGAAAGTCAAGCATGGGATTCCCATAATCAGTCAAATCAAAATTCAAGTTCACAGGGATGGGAATCACATATTGCTTCAGCTAATTCAGAAAGTGAAAAAGGTTTTCAGTGGGGAAAGCAAGGTAGAGACTCGTTTAAGAAAAATCGATTTGAAGGTTCGCAAGGCCGGGGTTCAAATGCTGGTGACTGGAAAAATAGGAATCGCCCACCTAGAGCCCCTGGACAGAGATTGGACATTTATTCATCTGGTGAGCAGGATGTTCTGAAGGATATTGAACCCATTATGCAGTCTATCAGACGAATCATGCAACAACAGGGGTACAATGATGGGGACCCACTGGCTGCTGAAGATCAACTTTTTGTACTGGAGAATGTCTTTGAGCACCACCCAGATAAAGAAACCAAAATGGGCACTGGAATTGATTATGTCATGGTTAACAAACACAGTAGTTTCCAGGAAAGTAGATGCTTTTATGTGGTTTGTAAAGATGGTGAAAGCAAGGACTTTTCCTACCGGAAGTGTTTGGCCAACTATATAAGCAAGAAGTATCCTGACCTTGCTGAATCATTCCTTGGAAAATATTTTCGGAAACCTCGTGCACGGGGGGACCAGACTGCAACACCAGGGCGGGATGAAGCAGCCACTCCGGGCGAGCAGACAGCAACGCCAGGCCGGGATGAAGCAGCAACTCCGGCTGAGCAGATCTCAACACCCACCCCTATGGAAACCAATGAGTAGATTACAGTTGTGTCCATAATATTGTACAGAAACAGTGCAGTTGAGGCCACTGAATAGTTTGTCATAGCTGACCAATTTTCCTGTAGGAAAGTGTTCCTCTTTTTGGTGAACAGTTAGATGGTAATTTTTTTAGCATGTGAATGATGATAGCAAACACCCTTGTGCAGATGTTAATATTGTTCTGATGATTACAGCACATATGATGTGCCTAGCAAACTTTGCTCATCATTTTGTTTAATCATCAATGGCACCTGGGTTTCAGACCTTGATTGGACCACTGATGCAAAAATGGCATCCTTGTGATTAGAGTTTCATGAATCAGATTGTGGCTTATATTCTGTTTAATAGGTTACTAAGCATTTCCGAGTTATATTTAAACTGGTAAAATTTCTTTGATTTAGTTTTTTCTTGTCT

>Glyma15g37710.5   sequence type=transcript   gene model=Glyma15g37710   sequence assembly version=Glyma 1.0   annotation version=1.1   JGI Gene Call confidence=high
AAAAAAGAAGTAAAATTTCATTTCATGTTCATGTTCATTTCACACTCACTCGCTTACTCACTCTCAGTCTCACACACTCTCTCTCATTTCATTTCTCTCCGGAAAACCTTTCCCCTTCGAAACCCTCTTTCTCTCTCGCTCTTTGTTGTTTCGATCGGTTTCGCGCAACGAGGTTCTTTGCATTTTCTAGGGTTTTGCGAGCTGAGCGAGACGTTTGAATTGAACAGCTTTTGTTTCGCTCCTGAGGCACTGTAATTGACCACGAAAGTAATGGAGGATAATCCCCCTTCAAGTGTTTTAGATGGGACCGTTGTTGGGATCAAATTTGGTATGGCTACACGCCAGGAAATTTGTACAGCATCCATTAGTGACTCTTCAATTAGTCATGCTAGTCAGCTGTCAAATCCATTCCTTGGGCTGCCCCTTGAGTTTGGCAGATGTGAATCTTGTGGTACTTCTGAAGTTGGAAAATGCGAAGGTCACTTCGGATATATTGAGTTGCCAATTCCAATATATCACCCAAGTCATATCAGTGACTTGAAACGGATGCTGAGCATGGTCTGCTTAAACTGCCTAAAATTAAGGAAAACCAAGCTTCCAGCTTCAAGCAGTGGTTTAGCCCAGAGATTAATATCTCCTTGTTGTCAGGAGGATAAGGCTGCTCTAGTTTCTATTCGGGAAGTTAAAACAAGTGATGGGGCTTGTTATCTGGCGTTGAAAGTATCCAAATCCAAGATGCAAAATGGTTTTTGGAGTTTCTTAGAAAAATATGGTTATCGCTATGGGGGTGATCACACTCGAGCCTTGCTTCCTTGTGAGGCAATGGAAATTATTAAGAGAATTCCGATAGAGACAAAAAAAAAGCTTGCTGGAAAAGGATATTTTCCTCAAGATGGATATGTTTTGAAGTATCTTCCGGTGCCACCAAATTGCTTGTCTGTGCCAGAAGTTTCAGACGGTGTCAGTGTCATGTCGTCGGATCCTTCCATAACAATTCTCAGAAAATTGCTCAGGAAGGTTGAAATCATAAAAAGCTCTAGATCTGGTGAACCAAATTTCGAGTCTCATCACGTAGAAGCAAATGATTTGCAGTCTGTGGTTGATCAATATTTTCAAATTAGAGGAACTTCTAAGCCAGCACGTGATATAGAGACACATTTTGGGGTCAATAAAGAGCTTACTGCATCCTCAACAAAAGCATGGCTTGAGAAAATGAGGACATTATTTATAAGAAAGGGTTCAGGTTTTTCTTCCCGGAATGTAATTACTGGAGATTGTTATAAGAGGATAAATGAAGTAGGAATTCCGGTTGAAGTTGCCCAACGGATAACGTTTGAGGAGAGAGTTAACATCCACAACATCAGATATTTACAGAAGTTGGTTGATGAACATTTGTGCCTGACCTACAAGGAAGGTGGGTCAACTTATTCACTCAGGGAGGGCTCAAAGGGGCACATATATCTCAAGCCTGGTCAGATAGTGCATCGGAGGATTATGGATGGGGATATTGTCTTCATCAACAGACCACCTACAACACACAAGCACTCCTTACAAGCCCTTTATGTTTACATCCATGAAGACCACACTGTGAAGATAAATCCTTTAATTTGTGGACCACTTGGGGCTGATTTTGATGGTGACTGTGTCCATCTGTTTTATCCGCAATCACTTGCTGCTAAAGCTGAAGTTGTGGAGCTATTTTCTGTGGAGAATCAACTGCTCAGCTCTCACAGTGGTAATTTGAACCTACAGTTATCCACAGACTCGTTGTTGTCACTGAAGATGTTGGTCAAGAGATGTTTTTTTGATAGAGCAGCAGCTAATCAATTGGCGATGTTTATTTTGCTTCCTTTGCCTCGGCCTGCTTTGCTCAAGGCCAGTTCTGGTGATGCTTGTTGGACTTCCATCCAAATTTTACAGTGTGCTTTACCTTTGGGTTTTGATTGCACTGGGGGACGGTATTTGATTAGGCAGAGTGAGATCTTAGAATTTGAATTCAGCAGGGATGTTCTGCCTGCAACCGTAAATGAAATAGCAGCTTCAGTTTTCTTTGGCAAGGGTCCCAAGGAGGCACTTAATTTCTTTGATGTATTGCAACCCTTTTTGATGGAAAGCTTATTTGCGGAAGGGTTTAGTGTTAGCCTGGAAGAGTTTTCAATATCCAGGGCAATTAAAAGGATAATAAGAAAAAGCATTGGAAAAGTTTCTTCTCTGCTGTATCAGCTGAGGTCCTTGTACAATGAGCTGGTGGCGCAGCAACTGGAGAAGCACATTCGAGATGTTGAACTTCCTATCATTAATTTTGCTCTAAAGTCAACTAAATTAGGAGATTTAATTGATTCAAAGAGTAAATCTGCTATTGATAAGGTTGTTCAGCAGATTGGGTTTTTAGGGCAGCAACTTTTTGATAGGGGAAGATTCTACTCAAAGGGATTGGTAGATGATGTGGCATCACATTTTCATGCAAAGTGTTGTTATGACGGGGATGGTTATCCCTCTGCTGAGTATGGACTGCTCAAAGGGTGTTTTTTTAATGGTTTGGATCCATACGAAGAGATGGTGCATTCGATTTCAACAAGGGAAATAATGGTGCGTTCTTCGAGAGGATTATCTGAACCAGGAACACTCTTTAAGAATTTGATGGCCATCCTTCGGGATGTTGTTATCTGTTATGATGGAACTGTCAGAAACATTTGTAGTAATTCCATCATCCAGTTTGAATACGGGATACAAGCTGGAGACAAAAGTGAGCACTTATTCCCTGCTGGTGAGCCTGTAGGTGTGTTGGCTGCAACTGCTATGTCAAATCCTGCTTACAAGGCTGTCCTTGATGCTAGTCCTAGTAGCAACTCTTCATGGGAGTTGATGAAGGAAATATTACTCTGCAAGGTTAATTTTAGGAATGAACTTGTTGATCGGCGTGTCATTTTGTACTTGAATGACTGTGATTGTGGAGGGAGTTATTGCCGAGAAAATGCAGCATATTCAGTTAAAGATCAATTGAGAAAAGTCAGTCTCAAGGATGCAGCTGTGGAGTTCATTATTGAATACCAACAACAGCGAACTCAAAAGGAAAATTCTGAAACTGATGTTGGACTTGTTGGTCATATTTATTTGGATGAGATGATGTTAGAGGAGCTGAAGATCAGCATGGCCTATGTTTTCGACAAATGCCATGAAAGACTCAAGTCTTTTAGTCAGAAAAAGAAAGTTAATCAATCTTTGAAGAACATTGAATTATCATTTAGTGAGTCTTGCTCATCTTCACATCCTGCTGCACCATGTTTAACATTTTGGCTAAAGAATTATGATAGTGATTTGGATAATGCTGTAAAGGTCCTGGCTGAAAAGATCTGCCCTGTTCTGTTTAAAACAATAATCCAAGGAGACCCGCGCATTAGCTCTGCGAGTATAATCTGGGTTAGTCCAGATACAAACACATGGGTCCGAAACCCTTATAAATCTTCTAATGGTGAATTGGCACTTGACATCATTCTCGAGAAGGAAGCTGTCAAGCAGAGTGGCGATGCTTGGAGAGTTGTACTTGATGCCTGCCTTCCTGTTCTTCACTTGATTGATACCAGGCGTTCCATCCCTTACGCTATTAAGCAGATTCAGGAATTACTGGGGATATCATGTACTTTTGATCAAGCGATTCAGCGTGTTGCAGCATCTGTGAAAATGGTGGCGAAAGGTGTACTTAGGGAGCATCTAATTCTGTTAGCTAGTAGTATGACTTGTGGTGGGAACTTGGTTGGCTTTAATATAGGTGGATATAAAGCTCTGTCTCGTCAATTAAATATACAAGTACCATTCACAGATGCAACACTCTTTACACCTAAAAAGTGTTTTGAGAGAGCTGCTGAGAAATGCCATACTGATTCTCTGTCAAGCATAGTTGCCTCCTGTTCCTGGGGTAAACATGTGGCAGTTGGTACAGGATCAAAATTTGATGTTGTTTGGGATGCAAATGAGATAAAATCAAATGAAATTGAAGGGATGGATGTTTACAGTTTTCTTCACATGGTGAAAAGCTTTACCAATGGCGAAGAAGAAACCGATGCTTGTTTGGGTGAAGATATTGATGATTTGCTGGAAGAAGAATATATGGACTTGGGCATGTCCCCACAACATAACTCTGGTTTTGAAGCTGTCTTTGAAGAGAATCCTGAAGTACTGAATGGTTCAACATCCAATGGTTGGGATGTAAGTTCAAATCAGGGTGAATCAAAAACCAATGAGTGGTCAGGTTGGGCAAGTAGTAACAAAGCTGAAATAAAAGATGGTAGATCTGAAATTGCCCCCAAGAATTCTTGGGGGAAAACTGTCAACCAAGAAGACTCTTCCAAGTCTAACCCTTGGAGTACAAGCACCATAGCAGATCAGACAAAAACTAAATCTAATGAATGGTCTGCCTGGGGAAGTAACAAGTCTGAAATACCAGTTGGTTGGGCAAGTAGTAACAAAACTGAAATAAAAGATGGTAGATCTGAAACTGCCCAAGAGAATTCTTGGGGGAAAACTGTCAACCAAGAAGACTCTTCCAAGTCTAATGCTTGGAATACAAGCACCACAGTAGATCATGCAAACACTAAATCTAATGAATGGTCTGCCTGGGGAAGTAACCAGTCTGAAATACCAGCTGGTGGATCTAAAGCAGTTCAAGAAGATTCTTGGGGCTCAAGTAAGTGGAAGGCTGATGTTGCCCAAGAAGACAATTCCAGGCTTGGTGCTTGGGATGCAAATGCAGCAGATCAGACAAAATCTAGTGAATGGTCGGGTTGGGGAAAGAAGAAAGATGTTACCCAAGAAGACAATTCCAGGCTTGGTGCTTGGGATGCAAATGCAGCAGATCAGACAAAATCTAGAGACTGGTCGGGTTGGGGAAAGAAGAAAGATATTACCCAAGAAGACAATTCCAGGCTTGGTGCTTGGGATGCAAATGCAGCAGATCAGACAAAATCTAGTGAATGGTCGGGTTGGGGAAAGAAGAAAGATGTTACCCAAGAAGACAATTCCAGGCTTGGTGCTTGGGATGCAAATACAGCAGATCAGACAAAATCTAATGAATGGTCAGGTTGGGGAAAGAAGAAAGAAGTTACCCAAGAAGACAATTCCAGGCTTGGTGCTTGGGATGCAAATACAGCAGATCAGACAAAATCTAATGAATGGTCAGGTTGGGGAAAGAAGAAAGAAGTTACCCAAGAAGACAATTCCAGGCTTGGTGCTTGGGATGCAAATGCAGCAGATCAGACAAAATCTAATGAATGGTCAGACTGGGGAAAGAAGAAAGAAGTTACCCAAGAAGACAATGTCCAAGATTCTTGGGGCTCCGGTAAGAGGAAAGACAAAGTTACCCAAGAAGACAATTCTGGGTCTGGTGGTTGGGGTGCCAACAGAACAGATCTGGCAAAATCCAAATCTAGTGAATGGTCCAGCTGGGGAAAGAACAAGTCTGAAATACCAGCTGGTGGATCTGAAAATGTGCAGAATGACTCATGGGGCTCGGGTAAATTGGAAGATGATACCCAAAAAGAAAATTCTGGGTCTGCATGGGTGAGAAATAAAGCTGAAACAATAGATGGTGGGTCAGAAAAGCCCCAAGAGGATGCTTGGAATTCTGGTAATTGGAAAGCTGAATCAAAAGTCGGCAATGCCTCTTGGGGAAAACCCAAATCCTCAGAAAGTCAAGCATGGGATTCCCATAATCAGTCAAATCAAAATTCAAGTTCACAGGGATGGGAATCACATATTGCTTCAGCTAATTCAGAAAGTGAAAAAGGTTTTCAGTGGGGAAAGCAAGGTAGAGACTCGTTTAAGAAAAATCGATTTGAAGGTTCGCAAGGCCGGGGTTCAAATGCTGGTGACTGGAAAAATAGGAATCGCCCACCTAGAGCCCCTGGACAGAGATTGGACATTTATTCATCTGGTGAGCAGGATGTTCTGAAGGATATTGAACCCATTATGCAGTCTATCAGACGAATCATGCAACAACAGGGGTACAATGATGGGGACCCACTGGCTGCTGAAGATCAACTTTTTGTACTGGAGAATGTCTTTGAGCACCACCCAGATAAAGAAACCAAAATGGGCACTGGAATTGATTATGTCATGGTTAACAAACACAGTAGTTTCCAGGAAAGTAGATGCTTTTATGTGGTTTGTAAAGATGGTGAAAGCAAGGACTTTTCCTACCGGAAGTGTTTGGCCAACTATATAAGCAAGAAGTATCCTGACCTTGCTGAATCATTCCTTGGAAAATATTTTCGGAAACCTCGTGCACGGGGGGACCAGACTGCAACACCAGGGCGGGATGAAGCAGCCACTCCGGGCGAGCAGACAGCAACGCCAGGCCGGGATGAAGCAGCAACTCCGGCTGAGCAGATCTCAACACCCACCCCTATGGAAACCAATGAGTAGATTACAGTTGTGTCCATAATATTGTACAGAAACAGTGCAGTTGAGGCCACTGAATAGTTTGTCATAGCTGACCAATTTTCCTGTAGGAAAGTGTTCCTCTTTTTGGTGAACAGTTAGATGGTAATTTTTTTAGCATGTGAATGATGATAGCAAACACCCTTGTGCAGATGTTAATATTGTTCTGATGATTACAGCACATATGATGTGCCTAGCAAACTTTGCTCATCATTTTGTTTAATCATCAATGGCACCTGGGTTTCAGACCTTGATTGGACCACTGATGCAAAAATGGCATCCTTGTGATTAGAGTTTCATGAATCAGATTGTGGCTTATATTCTGTTTAATAGGTTACTAAGCATTTCCGAGTTATATTTAAACTGGTAAAATTTCTTTGATTTAGTTTTTTCTTGTCT

>Glyma15g37710.6   sequence type=transcript   gene model=Glyma15g37710   sequence assembly version=Glyma 1.0   annotation version=1.1   JGI Gene Call confidence=high
AAAAAAGAAGTAAAATTTCATTTCATGTTCATGTTCATTTCACACTCACTCGCTTACTCACTCTCAGTCTCACACACTCTCTCTCATTTCATTTCTCTCCGGAAAACCTTTCCCCTTCGAAACCCTCTTTCTCTCTCGCTCTTTGTTGTTTCGATCGGTTTCGCGCAACGAGGTTCTTTGCATTTTCTAGGGTTTTGCGAGCTGAGCGAGACGTTTGAATTGAACAGCTTTTGTTTCGCTCCTGAGGTAGAATCAGGCACTGTAATTGACCACGAAAGTAATGGAGGATAATCCCCCTTCAAGTGTTTTAGATGGGACCGTTGTTGGGATCAAATTTGGTATGGCTACACGCCAGGAAATTTGTACAGCATCCATTAGTGACTCTTCAATTAGTCATGCTAGTCAGCTGTCAAATCCATTCCTTGGGCTGCCCCTTGAGTTTGGCAGATGTGAATCTTGTGGTACTTCTGAAGTTGGAAAATGCGAAGGTCACTTCGGATATATTGAGTTGCCAATTCCAATATATCACCCAAGTCATATCAGTGACTTGAAACGGATGCTGAGCATGGTCTGCTTAAACTGCCTAAAATTAAGGAAAACCAAGCTTCCAGCTTCAAGCAGTGGTTTAGCCCAGAGATTAATATCTCCTTGTTGTCAGGAGGATAAGGCTGCTCTAGTTTCTATTCGGGAAGTTAAAACAAGTGATGGGGCTTGTTATCTGGCGTTGAAAGTATCCAAATCCAAGATGCAAAATGGTTTTTGGAGTTTCTTAGAAAAATATGGTTATCGCTATGGGGGTGATCACACTCGAGCCTTGCTTCCTTGTGAGGCAATGGAAATTATTAAGAGAATTCCGATAGAGACAAAAAAAAAGCTTGCTGGAAAAGGATATTTTCCTCAAGATGGATATGTTTTGAAGTATCTTCCGGTGCCACCAAATTGCTTGTCTGTGCCAGAAGTTTCAGACGGTGTCAGTGTCATGTCGTCGGATCCTTCCATAACAATTCTCAGAAAATTGCTCAGGAAGGTTGAAATCATAAAAAGCTCTAGATCTGGTGAACCAAATTTCGAGTCTCATCACGTAGAAGCAAATGATTTGCAGTCTGTGGTTGATCAATATTTTCAAATTAGAGGAACTTCTAAGCCAGCACGTGATATAGAGACACATTTTGGGGTCAATAAAGAGCTTACTGCATCCTCAACAAAAGCATGGCTTGAGAAAATGAGGACATTATTTATAAGAAAGGGTTCAGGTTTTTCTTCCCGGAATGTAATTACTGGAGATTGTTATAAGAGGATAAATGAAGTAGGAATTCCGGTTGAAGTTGCCCAACGGATAACGTTTGAGGAGAGAGTTAACATCCACAACATCAGATATTTACAGAAGTTGGTTGATGAACATTTGTGCCTGACCTACAAGGAAGGTGGGTCAACTTATTCACTCAGGGAGGGCTCAAAGGGGCACATATATCTCAAGCCTGGTCAGATAGTGCATCGGAGGATTATGGATGGGGATATTGTCTTCATCAACAGACCACCTACAACACACAAGCACTCCTTACAAGCCCTTTATGTTTACATCCATGAAGACCACACTGTGAAGATAAATCCTTTAATTTGTGGACCACTTGGGGCTGATTTTGATGGTGACTGTGTCCATCTGTTTTATCCGCAATCACTTGCTGCTAAAGCTGAAGTTGTGGAGCTATTTTCTGTGGAGAATCAACTGCTCAGCTCTCACAGTGGTAATTTGAACCTACAGTTATCCACAGACTCGTTGTTGTCACTGAAGATGTTGGTCAAGAGATGTTTTTTTGATAGAGCAGCAGCTAATCAATTGGCGATGTTTATTTTGCTTCCTTTGCCTCGGCCTGCTTTGCTCAAGGCCAGTTCTGGTGATGCTTGTTGGACTTCCATCCAAATTTTACAGTGTGCTTTACCTTTGGGTTTTGATTGCACTGGGGGACGGTATTTGATTAGGCAGAGTGAGATCTTAGAATTTGAATTCAGCAGGGATGTTCTGCCTGCAACCGTAAATGAAATAGCAGCTTCAGTTTTCTTTGGCAAGGGTCCCAAGGAGGCACTTAATTTCTTTGATGTATTGCAACCCTTTTTGATGGAAAGCTTATTTGCGGAAGGGTTTAGTGTTAGCCTGGAAGAGTTTTCAATATCCAGGGCAATTAAAAGGATAATAAGAAAAAGCATTGGAAAAGTTTCTTCTCTGCTGTATCAGCTGAGGTCCTTGTACAATGAGCTGGTGGCGCAGCAACTGGAGAAGCACATTCGAGATGTTGAACTTCCTATCATTAATTTTGCTCTAAAGTCAACTAAATTAGGAGATTTAATTGATTCAAAGAGTAAATCTGCTATTGATAAGGTTGTTCAGCAGATTGGGTTTTTAGGGCAGCAACTTTTTGATAGGGGAAGATTCTACTCAAAGGGATTGGTAGATGATGTGGCATCACATTTTCATGCAAAGTGTTGTTATGACGGGGATGGTTATCCCTCTGCTGAGTATGGACTGCTCAAAGGGTGTTTTTTTAATGGTTTGGATCCATACGAAGAGATGGTGCATTCGATTTCAACAAGGGAAATAATGGTGCGTTCTTCGAGAGGATTATCTGAACCAGGAACACTCTTTAAGAATTTGATGGCCATCCTTCGGGATGTTGTTATCTGTTATGATGGAACTGTCAGAAACATTTGTAGTAATTCCATCATCCAGTTTGAATACGGGATACAAGCTGGAGACAAAAGTGAGCACTTATTCCCTGCTGGTGAGCCTGTAGGTGTGTTGGCTGCAACTGCTATGTCAAATCCTGCTTACAAGGCTGTCCTTGATGCTAGTCCTAGTAGCAACTCTTCATGGGAGTTGATGAAGGAAATATTACTCTGCAAGGTTAATTTTAGGAATGAACTTGTTGATCGGCGTGTCATTTTGTACTTGAATGACTGTGATTGTGGAGGGAGTTATTGCCGAGAAAATGCAGCATATTCAGTTAAAGATCAATTGAGAAAAGTCAGTCTCAAGGATGCAGCTGTGGAGTTCATTATTGAATACCAACAACAGCGAACTCAAAAGGAAAATTCTGAAACTGATGTTGGACTTGTTGGTCATATTTATTTGGATGAGATGATGTTAGAGGAGCTGAAGATCAGCATGGCCTATGTTTTCGACAAATGCCATGAAAGACTCAAGTCTTTTAGTCAGAAAAAGAAAGTTAATCAATCTTTGAAGAACATTGAATTATCATTTAGTGAGTCTTGCTCATCTTCACATCCTGCTGCACCATGTTTAACATTTTGGCTAAAGAATTATGATAGTGATTTGGATAATGCTGTAAAGGTCCTGGCTGAAAAGATCTGCCCTGTTCTGTTTAAAACAATAATCCAAGGAGACCCGCGCATTAGCTCTGCGAGTATAATCTGGGTTAGTCCAGATACAAACACATGGGTCCGAAACCCTTATAAATCTTCTAATGGTGAATTGGCACTTGACATCATTCTCGAGAAGGAAGCTGTCAAGCAGAGTGGCGATGCTTGGAGAGTTGTACTTGATGCCTGCCTTCCTGTTCTTCACTTGATTGATACCAGGCGTTCCATCCCTTACGCTATTAAGCAGATTCAGGAATTACTGGGGATATCATGTACTTTTGATCAAGCGATTCAGCGTGTTGCAGCATCTGTGAAAATGGTGGCGAAAGGTGTACTTAGGGAGCATCTAATTCTGTTAGCTAGTAGTATGACTTGTGGTGGGAACTTGGTTGGCTTTAATATAGGTGGATATAAAGCTCTGTCTCGTCAATTAAATATACAAGTACCATTCACAGATGCAACACTCTTTACACCTAAAAAGTGTTTTGAGAGAGCTGCTGAGAAATGCCATACTGATTCTCTGTCAAGCATAGTTGCCTCCTGTTCCTGGGGTAAACATGTGGCAGTTGGTACAGGATCAAAATTTGATGTTGTTTGGGATGCAAATGAGATAAAATCAAATGAAATTGAAGGGATGGATGTTTACAGTTTTCTTCACATGGTGAAAAGCTTTACCAATGGCGAAGAAGAAACCGATGCTTGTTTGGGTGAAGATATTGATGATTTGCTGGAAGAAGAATATATGGACTTGGGCATGTCCCCACAACATAACTCTGGTTTTGAAGCTGTCTTTGAAGAGAATCCTGAAGTACTGAATGGTTCAACATCCAATGGTTGGGATGTAAGTTCAAATCAGGGTGAATCAAAAACCAATGAGTGGTCAGGTTGGGCAAGTAGTAACAAAGCTGAAATAAAAGATGGTAGATCTGAAATTGCCCCCAAGAATTCTTGGGGGAAAACTGTCAACCAAGAAGACTCTTCCAAGTCTAACCCTTGGAGTACAAGCACCATAGCAGATCAGACAAAAACTAAATCTAATGAATGGTCTGCCTGGGGAAGTAACAAGTCTGAAATACCAGTTGGTTGGGCAAGTAGTAACAAAACTGAAATAAAAGATGGTAGATCTGAAACTGCCCAAGAGAATTCTTGGGGGAAAACTGTCAACCAAGAAGACTCTTCCAAGTCTAATGCTTGGAATACAAGCACCACAGTAGATCATGCAAACACTAAATCTAATGAATGGTCTGCCTGGGGAAGTAACCAGTCTGAAATACCAGCTGGTGGATCTAAAGCAGTTCAAGAAGATTCTTGGGGCTCAAGTAAGTGGAAGGCTGATGTTGCCCAAGAAGACAATTCCAGGCTTGGTGCTTGGGATGCAAATGCAGCAGATCAGACAAAATCTAGTGAATGGTCGGGTTGGGGAAAGAAGAAAGATGTTACCCAAGAAGACAATTCCAGGCTTGGTGCTTGGGATGCAAATGCAGCAGATCAGACAAAATCTAGAGACTGGTCGGGTTGGGGAAAGAAGAAAGATATTACCCAAGAAGACAATTCCAGGCTTGGTGCTTGGGATGCAAATGCAGCAGATCAGACAAAATCTAGTGAATGGTCGGGTTGGGGAAAGAAGAAAGATGTTACCCAAGAAGACAATTCCAGGCTTGGTGCTTGGGATGCAAATACAGCAGATCAGACAAAATCTAATGAATGGTCAGGTTGGGGAAAGAAGAAAGAAGTTACCCAAGAAGACAATTCCAGGCTTGGTGCTTGGGATGCAAATACAGCAGATCAGACAAAATCTAATGAATGGTCAGGTTGGGGAAAGAAGAAAGAAGTTACCCAAGAAGACAATTCCAGGCTTGGTGCTTGGGATGCAAATGCAGCAGATCAGACAAAATCTAATGAATGGTCAGACTGGGGAAAGAAGAAAGAAGTTACCCAAGAAGACAATGTCCAAGATTCTTGGGGCTCCGGTAAGAGGAAAGACAAAGTTACCCAAGAAGACAATTCTGGGTCTGGTGGTTGGGGTGCCAACAGAACAGATCTGGCAAAATCCAAATCTAGTGAATGGTCCAGCTGGGGAAAGAACAAGTCTGAAATACCAGCTGGTGGATCTGAAAATGTGCAGAATGACTCATGGGGCTCGGGTAAATTGGAAGATGATACCCAAAAAGAAAATTCTGGGTCTGCATGGGTGAGAAATAAAGCTGAAACAATAGATGGTGGGTCAGAAAAGCCCCAAGAGGATGCTTGGAATTCTGGTAATTGGAAAGCTGAATCAAAAGTCGGCAATGCCTCTTGGGGAAAACCCAAATCCTCAGAAAGTCAAGCATGGGATTCCCATAATCAGTCAAATCAAAATTCAAGTTCACAGGGATGGGAATCACATATTGCTTCAGCTAATTCAGAAAGTGAAAAAGGTTTTCAGTGGGGAAAGCAAGGTAGAGACTCGTTTAAGAAAAATCGATTTGAAGGTTCGCAAGGCCGGGGTTCAAATGCTGGTGACTGGAAAAATAGGAATCGCCCACCTAGAGCCCCTGGACAGAGATTGGACATTTATTCATCTGGTGAGCAGGATGTTCTGAAGGATATTGAACCCATTATGCAGTCTATCAGACGAATCATGCAACAACAGGGGTACAATGATGGGGACCCACTGGCTGCTGAAGATCAACTTTTTGTACTGGAGAATGTCTTTGAGCACCACCCAGATAAAGAAACCAAAATGGGCACTGGAATTGATTATGTCATGGTTAACAAACACAGTAGTTTCCAGGAAAGTAGATGCTTTTATGTGGTTTGTAAAGATGGTGAAAGCAAGGACTTTTCCTACCGGAAGTGTTTGGCCAACTATATAAGCAAGAAGTATCCTGACCTTGCTGAATCATTCCTTGGAAAATATTTTCGGAAACCTCGTGCACGGGGGGACCAGACTGCAACACCAGGGCGGGATGAAGCAGCCACTCCGGGCGAGCAGACAGCAACGCCAGGCCGGGATGAAGCAGCAACTCCGGCTGAGCAGATCTCAACACCCACCCCTATGGAAACCAATGAGTAGATTACAGTTGTGTCCATAATATTGTACAGAAACAGTGCAGTTGAGGCCACTGAATAGTTTGTCATAGCTGACCAATTTTCCTGTAGGAAAGTGTTCCTCTTTTTGGTGAACAGTTAGATGGTAATTTTTTTAGCATGTGAATGATGATAGCAAACACCCTTGTGCAGATGTTAATATTGTTCTGATGATTACAGCACATATGATGTGCCTAGCAAACTTTGCTCATCATTTTGTTTAATCATCAATGGCACCTGGGTTTCAGACCTTGATTGGACCACTGATGCAAAAATGGCATCCTTGTGATTAGAGTTTCATGAATCAGATTGTGGCTTATATTCTGTTTAATAGGTTACTAAGCATTTCCGAGTTATATTTAAACTGGTAAAATTTCTTTGATTTAGTTTTTTCTTGTCT
Coding sequences of Glyma15g37710
>Glyma15g37710.1   sequence type=CDS   gene model=Glyma15g37710   sequence assembly version=Glyma 1.0   annotation version=1.1   JGI Gene Call confidence=high
ATGGAGGATAATCCCCCTTCAAGTGTTTTAGATGGGACCGTTGTTGGGATCAAATTTGGTATGGCTACACGCCAGGAAATTTGTACAGCATCCATTAGTGACTCTTCAATTAGTCATGCTAGTCAGCTGTCAAATCCATTCCTTGGGCTGCCCCTTGAGTTTGGCAGATGTGAATCTTGTGGTACTTCTGAAGTTGGAAAATGCGAAGGTCACTTCGGATATATTGAGTTGCCAATTCCAATATATCACCCAAGTCATATCAGTGACTTGAAACGGATGCTGAGCATGGTCTGCTTAAACTGCCTAAAATTAAGGAAAACCAAGCTTCCAGCTTCAAGCAGTGGTTTAGCCCAGAGATTAATATCTCCTTGTTGTCAGGAGGATAAGGCTGCTCTAGTTTCTATTCGGGAAGTTAAAACAAGTGATGGGGCTTGTTATCTGGCGTTGAAAGTATCCAAATCCAAGATGCAAAATGGTTTTTGGAGTTTCTTAGAAAAATATGGTTATCGCTATGGGGGTGATCACACTCGAGCCTTGCTTCCTTGTGAGGCAATGGAAATTATTAAGAGAATTCCGATAGAGACAAAAAAAAAGCTTGCTGGAAAAGGATATTTTCCTCAAGATGGATATGTTTTGAAGTATCTTCCGGTGCCACCAAATTGCTTGTCTGTGCCAGAAGTTTCAGACGGTGTCAGTGTCATGTCGTCGGATCCTTCCATAACAATTCTCAGAAAATTGCTCAGGAAGGTTGAAATCATAAAAAGCTCTAGATCTGGTGAACCAAATTTCGAGTCTCATCACGTAGAAGCAAATGATTTGCAGTCTGTGGTTGATCAATATTTTCAAATTAGAGGAACTTCTAAGCCAGCACGTGATATAGAGACACATTTTGGGGTCAATAAAGAGCTTACTGCATCCTCAACAAAAGCATGGCTTGAGAAAATGAGGACATTATTTATAAGAAAGGGTTCAGGTTTTTCTTCCCGGAATGTAATTACTGGAGATTGTTATAAGAGGATAAATGAAGTAGGAATTCCGGTTGAAGTTGCCCAACGGATAACGTTTGAGGAGAGAGTTAACATCCACAACATCAGATATTTACAGAAGTTGGTTGATGAACATTTGTGCCTGACCTACAAGGAAGGTGGGTCAACTTATTCACTCAGGGAGGGCTCAAAGGGGCACATATATCTCAAGCCTGGTCAGATAGTGCATCGGAGGATTATGGATGGGGATATTGTCTTCATCAACAGACCACCTACAACACACAAGCACTCCTTACAAGCCCTTTATGTTTACATCCATGAAGACCACACTGTGAAGATAAATCCTTTAATTTGTGGACCACTTGGGGCTGATTTTGATGGTGACTGTGTCCATCTGTTTTATCCGCAATCACTTGCTGCTAAAGCTGAAGTTGTGGAGCTATTTTCTGTGGAGAATCAACTGCTCAGCTCTCACAGTGGTAATTTGAACCTACAGTTATCCACAGACTCGTTGTTGTCACTGAAGATGTTGGTCAAGAGATGTTTTTTTGATAGAGCAGCAGCTAATCAATTGGCGATGTTTATTTTGCTTCCTTTGCCTCGGCCTGCTTTGCTCAAGGCCAGTTCTGGTGATGCTTGTTGGACTTCCATCCAAATTTTACAGTGTGCTTTACCTTTGGGTTTTGATTGCACTGGGGGACGGTATTTGATTAGGCAGAGTGAGATCTTAGAATTTGAATTCAGCAGGGATGTTCTGCCTGCAACCGTAAATGAAATAGCAGCTTCAGTTTTCTTTGGCAAGGGTCCCAAGGAGGCACTTAATTTCTTTGATGTATTGCAACCCTTTTTGATGGAAAGCTTATTTGCGGAAGGGTTTAGTGTTAGCCTGGAAGAGTTTTCAATATCCAGGGCAATTAAAAGGATAATAAGAAAAAGCATTGGAAAAGTTTCTTCTCTGCTGTATCAGCTGAGGTCCTTGTACAATGAGCTGGTGGCGCAGCAACTGGAGAAGCACATTCGAGATGTTGAACTTCCTATCATTAATTTTGCTCTAAAGTCAACTAAATTAGGAGATTTAATTGATTCAAAGAGTAAATCTGCTATTGATAAGGTTGTTCAGCAGATTGGGTTTTTAGGGCAGCAACTTTTTGATAGGGGAAGATTCTACTCAAAGGGATTGGTAGATGATGTGGCATCACATTTTCATGCAAAGTGTTGTTATGACGGGGATGGTTATCCCTCTGCTGAGTATGGACTGCTCAAAGGGTGTTTTTTTAATGGTTTGGATCCATACGAAGAGATGGTGCATTCGATTTCAACAAGGGAAATAATGGTGCGTTCTTCGAGAGGATTATCTGAACCAGGAACACTCTTTAAGAATTTGATGGCCATCCTTCGGGATGTTGTTATCTGTTATGATGGAACTGTCAGAAACATTTGTAGTAATTCCATCATCCAGTTTGAATACGGGATACAAGCTGGAGACAAAAGTGAGCACTTATTCCCTGCTGGTGAGCCTGTAGGTGTGTTGGCTGCAACTGCTATGTCAAATCCTGCTTACAAGGCTGTCCTTGATGCTAGTCCTAGTAGCAACTCTTCATGGGAGTTGATGAAGGAAATATTACTCTGCAAGGTTAATTTTAGGAATGAACTTGTTGATCGGCGTGTCATTTTGTACTTGAATGACTGTGATTGTGGAGGGAGTTATTGCCGAGAAAATGCAGCATATTCAGTTAAAGATCAATTGAGAAAAGTCAGTCTCAAGGATGCAGCTGTGGAGTTCATTATTGAATACCAACAACAGCGAACTCAAAAGGAAAATTCTGAAACTGATGTTGGACTTGTTGGTCATATTTATTTGGATGAGATGATGTTAGAGGAGCTGAAGATCAGCATGGCCTATGTTTTCGACAAATGCCATGAAAGACTCAAGTCTTTTAGTCAGAAAAAGAAAGTTAATCAATCTTTGAAGAACATTGAATTATCATTTAGTTTATTTGTTGGTCTATATCACTTTCTGATTATGTTCCATCTTAGCAGTGAGTCTTGCTCATCTTCACATCCTGCTGCACCATGTTTAACATTTTGGCTAAAGAATTATGATAGTGATTTGGATAATGCTGTAAAGGTCCTGGCTGAAAAGATCTGCCCTGTTCTGTTTAAAACAATAATCCAAGGAGACCCGCGCATTAGCTCTGCGAGTATAATCTGGGTTAGTCCAGATACAAACACATGGGTCCGAAACCCTTATAAATCTTCTAATGGTGAATTGGCACTTGACATCATTCTCGAGAAGGAAGCTGTCAAGCAGAGTGGCGATGCTTGGAGAGTTGTACTTGATGCCTGCCTTCCTGTTCTTCACTTGATTGATACCAGGCGTTCCATCCCTTACGCTATTAAGCAGATTCAGGAATTACTGGGGATATCATGTACTTTTGATCAAGCGATTCAGCGTGTTGCAGCATCTGTGAAAATGGTGGCGAAAGGTGTACTTAGGGAGCATCTAATTCTGTTAGCTAGTAGTATGACTTGTGGTGGGAACTTGGTTGGCTTTAATATAGGTGGATATAAAGCTCTGTCTCGTCAATTAAATATACAAGTACCATTCACAGATGCAACACTCTTTACACCTAAAAAGTGTTTTGAGAGAGCTGCTGAGAAATGCCATACTGATTCTCTGTCAAGCATAGTTGCCTCCTGTTCCTGGGGTAAACATGTGGCAGTTGGTACAGGATCAAAATTTGATGTTGTTTGGGATGCAAATGAGATAAAATCAAATGAAATTGAAGGGATGGATGTTTACAGTTTTCTTCACATGGTGAAAAGCTTTACCAATGGCGAAGAAGAAACCGATGCTTGTTTGGGTGAAGATATTGATGATTTGCTGGAAGAAGAATATATGGACTTGGGCATGTCCCCACAACATAACTCTGGTTTTGAAGCTGTCTTTGAAGAGAATCCTGAAGTACTGAATGGTTCAACATCCAATGGTTGGGATGTAAGTTCAAATCAGGGTGAATCAAAAACCAATGAGTGGTCAGGTTGGGCAAGTAGTAACAAAGCTGAAATAAAAGATGGTAGATCTGAAATTGCCCCCAAGAATTCTTGGGGGAAAACTGTCAACCAAGAAGACTCTTCCAAGTCTAACCCTTGGAGTACAAGCACCATAGCAGATCAGACAAAAACTAAATCTAATGAATGGTCTGCCTGGGGAAGTAACAAGTCTGAAATACCAGTTGGTTGGGCAAGTAGTAACAAAACTGAAATAAAAGATGGTAGATCTGAAACTGCCCAAGAGAATTCTTGGGGGAAAACTGTCAACCAAGAAGACTCTTCCAAGTCTAATGCTTGGAATACAAGCACCACAGTAGATCATGCAAACACTAAATCTAATGAATGGTCTGCCTGGGGAAGTAACCAGTCTGAAATACCAGCTGGTGGATCTAAAGCAGTTCAAGAAGATTCTTGGGGCTCAAGTAAGTGGAAGGCTGATGTTGCCCAAGAAGACAATTCCAGGCTTGGTGCTTGGGATGCAAATGCAGCAGATCAGACAAAATCTAGTGAATGGTCGGGTTGGGGAAAGAAGAAAGATGTTACCCAAGAAGACAATTCCAGGCTTGGTGCTTGGGATGCAAATGCAGCAGATCAGACAAAATCTAGAGACTGGTCGGGTTGGGGAAAGAAGAAAGATATTACCCAAGAAGACAATTCCAGGCTTGGTGCTTGGGATGCAAATGCAGCAGATCAGACAAAATCTAGTGAATGGTCGGGTTGGGGAAAGAAGAAAGATGTTACCCAAGAAGACAATTCCAGGCTTGGTGCTTGGGATGCAAATACAGCAGATCAGACAAAATCTAATGAATGGTCAGGTTGGGGAAAGAAGAAAGAAGTTACCCAAGAAGACAATTCCAGGCTTGGTGCTTGGGATGCAAATACAGCAGATCAGACAAAATCTAATGAATGGTCAGGTTGGGGAAAGAAGAAAGAAGTTACCCAAGAAGACAATTCCAGGTTTGGTGCTTGGGATGCAAATGCAGAAGATCAGACAAAATCTAATGAATGGTCAGGTTGGGGAAAGAAGAAAGATGTTACCCAAGAAGACAATTCCAGGCTTGGTGCTTGGGATGCAAATGCAGCAGATCAGACAAAATCTAATGAATGGTCAGACTGGGGAAAGAAGAAAGAAGTTACCCAAGAAGACAATGTCCAAGATTCTTGGGGCTCCGGTAAGAGGAAAGACAAAGTTACCCAAGAAGACAATTCTGGGTCTGGTGGTTGGGGTGCCAACAGAACAGATCTGGCAAAATCCAAATCTAGTGAATGGTCCAGCTGGGGAAAGAACAAGTCTGAAATACCAGCTGGTGGATCTGAAAATGTGCAGAATGACTCATGGGGCTCGGGTAAATTGGAAGATGATACCCAAAAAGAAAATTCTGGGTCTGCATGGGTGAGAAATAAAGCTGAAACAATAGATGGTGGGTCAGAAAAGCCCCAAGAGGATGCTTGGAATTCTGGTAATTGGAAAGCTGAATCAAAAGTCGGCAATGCCTCTTGGGGAAAACCCAAATCCTCAGAAAGTCAAGCATGGGATTCCCATAATCAGTCAAATCAAAATTCAAGTTCACAGGGATGGGAATCACATATTGCTTCAGCTAATTCAGAAAGTGAAAAAGGTTTTCAGTGGGGAAAGCAAGGTAGAGACTCGTTTAAGAAAAATCGATTTGAAGGTTCGCAAGGCCGGGGTTCAAATGCTGGTGACTGGAAAAATAGGAATCGCCCACCTAGAGCCCCTGGACAGAGATTGGACATTTATTCATCTGGTGAGCAGGATGTTCTGAAGGATATTGAACCCATTATGCAGTCTATCAGACGAATCATGCAACAACAGGGGTACAATGATGGGGACCCACTGGCTGCTGAAGATCAACTTTTTGTACTGGAGAATGTCTTTGAGCACCACCCAGATAAAGAAACCAAAATGGGCACTGGAATTGATTATGTCATGGTTAACAAACACAGTAGTTTCCAGGAAAGTAGATGCTTTTATGTGGTTTGTAAAGATGGTGAAAGCAAGGACTTTTCCTACCGGAAGTGTTTGGCCAACTATATAAGCAAGAAGTATCCTGACCTTGCTGAATCATTCCTTGGAAAATATTTTCGGAAACCTCGTGCACGGGGGGACCAGACTGCAACACCAGGGCGGGATGAAGCAGCCACTCCGGGCGAGCAGACAGCAACGCCAGGCCGGGATGAAGCAGCAACTCCGGCTGAGCAGATCTCAACACCCACCCCTATGGAAACCAATGAGTAG

>Glyma15g37710.2   sequence type=CDS   gene model=Glyma15g37710   sequence assembly version=Glyma 1.0   annotation version=1.1   JGI Gene Call confidence=high
ATGGAGGATAATCCCCCTTCAAGTGTTTTAGATGGGACCGTTGTTGGGATCAAATTTGGTATGGCTACACGCCAGGAAATTTGTACAGCATCCATTAGTGACTCTTCAATTAGTCATGCTAGTCAGCTGTCAAATCCATTCCTTGGGCTGCCCCTTGAGTTTGGCAGATGTGAATCTTGTGGTACTTCTGAAGTTGGAAAATGCGAAGGTCACTTCGGATATATTGAGTTGCCAATTCCAATATATCACCCAAGTCATATCAGTGACTTGAAACGGATGCTGAGCATGGTCTGCTTAAACTGCCTAAAATTAAGGAAAACCAAGCTTCCAGCTTCAAGCAGTGGTTTAGCCCAGAGATTAATATCTCCTTGTTGTCAGGAGGATAAGGCTGCTCTAGTTTCTATTCGGGAAGTTAAAACAAGTGATGGGGCTTGTTATCTGGCGTTGAAAGTATCCAAATCCAAGATGCAAAATGGTTTTTGGAGTTTCTTAGAAAAATATGGTTATCGCTATGGGGGTGATCACACTCGAGCCTTGCTTCCTTGTGAGGCAATGGAAATTATTAAGAGAATTCCGATAGAGACAAAAAAAAAGCTTGCTGGAAAAGGATATTTTCCTCAAGATGGATATGTTTTGAAGTATCTTCCGGTGCCACCAAATTGCTTGTCTGTGCCAGAAGTTTCAGACGGTGTCAGTGTCATGTCGTCGGATCCTTCCATAACAATTCTCAGAAAATTGCTCAGGAAGGTTGAAATCATAAAAAGCTCTAGATCTGGTGAACCAAATTTCGAGTCTCATCACGTAGAAGCAAATGATTTGCAGTCTGTGGTTGATCAATATTTTCAAATTAGAGGAACTTCTAAGCCAGCACGTGATATAGAGACACATTTTGGGGTCAATAAAGAGCTTACTGCATCCTCAACAAAAGCATGGCTTGAGAAAATGAGGACATTATTTATAAGAAAGGGTTCAGGTTTTTCTTCCCGGAATGTAATTACTGGAGATTGTTATAAGAGGATAAATGAAGTAGGAATTCCGGTTGAAGTTGCCCAACGGATAACGTTTGAGGAGAGAGTTAACATCCACAACATCAGATATTTACAGAAGTTGGTTGATGAACATTTGTGCCTGACCTACAAGGAAGGTGGGTCAACTTATTCACTCAGGGAGGGCTCAAAGGGGCACATATATCTCAAGCCTGGTCAGATAGTGCATCGGAGGATTATGGATGGGGATATTGTCTTCATCAACAGACCACCTACAACACACAAGCACTCCTTACAAGCCCTTTATGTTTACATCCATGAAGACCACACTGTGAAGATAAATCCTTTAATTTGTGGACCACTTGGGGCTGATTTTGATGGTGACTGTGTCCATCTGTTTTATCCGCAATCACTTGCTGCTAAAGCTGAAGTTGTGGAGCTATTTTCTGTGGAGAATCAACTGCTCAGCTCTCACAGTGGTAATTTGAACCTACAGTTATCCACAGACTCGTTGTTGTCACTGAAGATGTTGGTCAAGAGATGTTTTTTTGATAGAGCAGCAGCTAATCAATTGGCGATGTTTATTTTGCTTCCTTTGCCTCGGCCTGCTTTGCTCAAGGCCAGTTCTGGTGATGCTTGTTGGACTTCCATCCAAATTTTACAGTGTGCTTTACCTTTGGGTTTTGATTGCACTGGGGGACGGTATTTGATTAGGCAGAGTGAGATCTTAGAATTTGAATTCAGCAGGGATGTTCTGCCTGCAACCGTAAATGAAATAGCAGCTTCAGTTTTCTTTGGCAAGGGTCCCAAGGAGGCACTTAATTTCTTTGATGTATTGCAACCCTTTTTGATGGAAAGCTTATTTGCGGAAGGGTTTAGTGTTAGCCTGGAAGAGTTTTCAATATCCAGGGCAATTAAAAGGATAATAAGAAAAAGCATTGGAAAAGTTTCTTCTCTGCTGTATCAGCTGAGGTCCTTGTACAATGAGCTGGTGGCGCAGCAACTGGAGAAGCACATTCGAGATGTTGAACTTCCTATCATTAATTTTGCTCTAAAGTCAACTAAATTAGGAGATTTAATTGATTCAAAGAGTAAATCTGCTATTGATAAGGTTGTTCAGCAGATTGGGTTTTTAGGGCAGCAACTTTTTGATAGGGGAAGATTCTACTCAAAGGGATTGGTAGATGATGTGGCATCACATTTTCATGCAAAGTGTTGTTATGACGGGGATGGTTATCCCTCTGCTGAGTATGGACTGCTCAAAGGGTGTTTTTTTAATGGTTTGGATCCATACGAAGAGATGGTGCATTCGATTTCAACAAGGGAAATAATGGTGCGTTCTTCGAGAGGATTATCTGAACCAGGAACACTCTTTAAGAATTTGATGGCCATCCTTCGGGATGTTGTTATCTGTTATGATGGAACTGTCAGAAACATTTGTAGTAATTCCATCATCCAGTTTGAATACGGGATACAAGCTGGAGACAAAAGTGAGCACTTATTCCCTGCTGGTGAGCCTGTAGGTGTGTTGGCTGCAACTGCTATGTCAAATCCTGCTTACAAGGCTGTCCTTGATGCTAGTCCTAGTAGCAACTCTTCATGGGAGTTGATGAAGGAAATATTACTCTGCAAGGTTAATTTTAGGAATGAACTTGTTGATCGGCGTGTCATTTTGTACTTGAATGACTGTGATTGTGGAGGGAGTTATTGCCGAGAAAATGCAGCATATTCAGTTAAAGATCAATTGAGAAAAGTCAGTCTCAAGGATGCAGCTGTGGAGTTCATTATTGAATACCAACAACAGCGAACTCAAAAGGAAAATTCTGAAACTGATGTTGGACTTGTTGGTCATATTTATTTGGATGAGATGATGTTAGAGGAGCTGAAGATCAGCATGGCCTATGTTTTCGACAAATGCCATGAAAGACTCAAGTCTTTTAGTCAGAAAAAGAAAGTTAATCAATCTTTGAAGAACATTGAATTATCATTTAGTGAGTCTTGCTCATCTTCACATCCTGCTGCACCATGTTTAACATTTTGGCTAAAGAATTATGATAGTGATTTGGATAATGCTGTAAAGGTCCTGGCTGAAAAGATCTGCCCTGTTCTGTTTAAAACAATAATCCAAGGAGACCCGCGCATTAGCTCTGCGAGTATAATCTGGGTTAGTCCAGATACAAACACATGGGTCCGAAACCCTTATAAATCTTCTAATGGTGAATTGGCACTTGACATCATTCTCGAGAAGGAAGCTGTCAAGCAGAGTGGCGATGCTTGGAGAGTTGTACTTGATGCCTGCCTTCCTGTTCTTCACTTGATTGATACCAGGCGTTCCATCCCTTACGCTATTAAGCAGATTCAGGAATTACTGGGGATATCATGTACTTTTGATCAAGCGATTCAGCGTGTTGCAGCATCTGTGAAAATGGTGGCGAAAGGTGTACTTAGGGAGCATCTAATTCTGTTAGCTAGTAGTATGACTTGTGGTGGGAACTTGGTTGGCTTTAATATAGGTGGATATAAAGCTCTGTCTCGTCAATTAAATATACAAGTACCATTCACAGATGCAACACTCTTTACACCTAAAAAGTGTTTTGAGAGAGCTGCTGAGAAATGCCATACTGATTCTCTGTCAAGCATAGTTGCCTCCTGTTCCTGGGGTAAACATGTGGCAGTTGGTACAGGATCAAAATTTGATGTTGTTTGGGATGCAAATGAGATAAAATCAAATGAAATTGAAGGGATGGATGTTTACAGTTTTCTTCACATGGTGAAAAGCTTTACCAATGGCGAAGAAGAAACCGATGCTTGTTTGGGTGAAGATATTGATGATTTGCTGGAAGAAGAATATATGGACTTGGGCATGTCCCCACAACATAACTCTGGTTTTGAAGCTGTCTTTGAAGAGAATCCTGAAGTACTGAATGGTTCAACATCCAATGGTTGGGATGTAAGTTCAAATCAGGGTGAATCAAAAACCAATGAGTGGTCAGGTTGGGCAAGTAGTAACAAAGCTGAAATAAAAGATGGTAGATCTGAAATTGCCCCCAAGAATTCTTGGGGGAAAACTGTCAACCAAGAAGACTCTTCCAAGTCTAACCCTTGGAGTACAAGCACCATAGCAGATCAGACAAAAACTAAATCTAATGAATGGTCTGCCTGGGGAAGTAACAAGTCTGAAATACCAGTTGGTTGGGCAAGTAGTAACAAAACTGAAATAAAAGATGGTAGATCTGAAACTGCCCAAGAGAATTCTTGGGGGAAAACTGTCAACCAAGAAGACTCTTCCAAGTCTAATGCTTGGAATACAAGCACCACAGTAGATCATGCAAACACTAAATCTAATGAATGGTCTGCCTGGGGAAGTAACCAGTCTGAAATACCAGCTGGTGGATCTAAAGCAGTTCAAGAAGATTCTTGGGGCTCAAGTAAGTGGAAGGCTGATGTTGCCCAAGAAGACAATTCCAGGCTTGGTGCTTGGGATGCAAATGCAGCAGATCAGACAAAATCTAGTGAATGGTCGGGTTGGGGAAAGAAGAAAGATGTTACCCAAGAAGACAATTCCAGGCTTGGTGCTTGGGATGCAAATGCAGCAGATCAGACAAAATCTAGAGACTGGTCGGGTTGGGGAAAGAAGAAAGATATTACCCAAGAAGACAATTCCAGGCTTGGTGCTTGGGATGCAAATGCAGCAGATCAGACAAAATCTAGTGAATGGTCGGGTTGGGGAAAGAAGAAAGATGTTACCCAAGAAGACAATTCCAGGCTTGGTGCTTGGGATGCAAATACAGCAGATCAGACAAAATCTAATGAATGGTCAGGTTGGGGAAAGAAGAAAGAAGTTACCCAAGAAGACAATTCCAGGCTTGGTGCTTGGGATGCAAATACAGCAGATCAGACAAAATCTAATGAATGGTCAGGTTGGGGAAAGAAGAAAGAAGTTACCCAAGAAGACAATTCCAGGTTTGGTGCTTGGGATGCAAATGCAGAAGATCAGACAAAATCTAATGAATGGTCAGGTTGGGGAAAGAAGAAAGATGTTACCCAAGAAGACAATTCCAGGCTTGGTGCTTGGGATGCAAATGCAGCAGATCAGACAAAATCTAATGAATGGTCAGACTGGGGAAAGAAGAAAGAAGTTACCCAAGAAGACAATGTCCAAGATTCTTGGGGCTCCGGTAAGAGGAAAGACAAAGTTACCCAAGAAGACAATTCTGGGTCTGGTGGTTGGGGTGCCAACAGAACAGATCTGGCAAAATCCAAATCTAGTGAATGGTCCAGCTGGGGAAAGAACAAGTCTGAAATACCAGCTGGTGGATCTGAAAATGTGCAGAATGACTCATGGGGCTCGGGTAAATTGGAAGATGATACCCAAAAAGAAAATTCTGGGTCTGCATGGGTGAGAAATAAAGCTGAAACAATAGATGGTGGGTCAGAAAAGCCCCAAGAGGATGCTTGGAATTCTGGTAATTGGAAAGCTGAATCAAAAGTCGGCAATGCCTCTTGGGGAAAACCCAAATCCTCAGAAAGTCAAGCATGGGATTCCCATAATCAGTCAAATCAAAATTCAAGTTCACAGGGATGGGAATCACATATTGCTTCAGCTAATTCAGAAAGTGAAAAAGGTTTTCAGTGGGGAAAGCAAGGTAGAGACTCGTTTAAGAAAAATCGATTTGAAGGTTCGCAAGGCCGGGGTTCAAATGCTGGTGACTGGAAAAATAGGAATCGCCCACCTAGAGCCCCTGGACAGAGATTGGACATTTATTCATCTGGTGAGCAGGATGTTCTGAAGGATATTGAACCCATTATGCAGTCTATCAGACGAATCATGCAACAACAGGGGTACAATGATGGGGACCCACTGGCTGCTGAAGATCAACTTTTTGTACTGGAGAATGTCTTTGAGCACCACCCAGATAAAGAAACCAAAATGGGCACTGGAATTGATTATGTCATGGTTAACAAACACAGTAGTTTCCAGGAAAGTAGATGCTTTTATGTGGTTTGTAAAGATGGTGAAAGCAAGGACTTTTCCTACCGGAAGTGTTTGGCCAACTATATAAGCAAGAAGTATCCTGACCTTGCTGAATCATTCCTTGGAAAATATTTTCGGAAACCTCGTGCACGGGGGGACCAGACTGCAACACCAGGGCGGGATGAAGCAGCCACTCCGGGCGAGCAGACAGCAACGCCAGGCCGGGATGAAGCAGCAACTCCGGCTGAGCAGATCTCAACACCCACCCCTATGGAAACCAATGAGTAG

>Glyma15g37710.3   sequence type=CDS   gene model=Glyma15g37710   sequence assembly version=Glyma 1.0   annotation version=1.1   JGI Gene Call confidence=high
ATGGAGGATAATCCCCCTTCAAGTGTTTTAGATGGGACCGTTGTTGGGATCAAATTTGGTATGGCTACACGCCAGGAAATTTGTACAGCATCCATTAGTGACTCTTCAATTAGTCATGCTAGTCAGCTGTCAAATCCATTCCTTGGGCTGCCCCTTGAGTTTGGCAGATGTGAATCTTGTGGTACTTCTGAAGTTGGAAAATGCGAAGGTCACTTCGGATATATTGAGTTGCCAATTCCAATATATCACCCAAGTCATATCAGTGACTTGAAACGGATGCTGAGCATGGTCTGCTTAAACTGCCTAAAATTAAGGAAAACCAAGCTTCCAGCTTCAAGCAGTGGTTTAGCCCAGAGATTAATATCTCCTTGTTGTCAGGAGGATAAGGCTGCTCTAGTTTCTATTCGGGAAGTTAAAACAAGTGATGGGGCTTGTTATCTGGCGTTGAAAGTATCCAAATCCAAGATGCAAAATGGTTTTTGGAGTTTCTTAGAAAAATATGGTTATCGCTATGGGGGTGATCACACTCGAGCCTTGCTTCCTTGTGAGGCAATGGAAATTATTAAGAGAATTCCGATAGAGACAAAAAAAAAGCTTGCTGGAAAAGGATATTTTCCTCAAGATGGATATGTTTTGAAGTATCTTCCGGTGCCACCAAATTGCTTGTCTGTGCCAGAAGTTTCAGACGGTGTCAGTGTCATGTCGTCGGATCCTTCCATAACAATTCTCAGAAAATTGCTCAGGAAGGTTGAAATCATAAAAAGCTCTAGATCTGGTGAACCAAATTTCGAGTCTCATCACGTAGAAGCAAATGATTTGCAGTCTGTGGTTGATCAATATTTTCAAATTAGAGGAACTTCTAAGCCAGCACGTGATATAGAGACACATTTTGGGGTCAATAAAGAGCTTACTGCATCCTCAACAAAAGCATGGCTTGAGAAAATGAGGACATTATTTATAAGAAAGGGTTCAGGTTTTTCTTCCCGGAATGTAATTACTGGAGATTGTTATAAGAGGATAAATGAAGTAGGAATTCCGGTTGAAGTTGCCCAACGGATAACGTTTGAGGAGAGAGTTAACATCCACAACATCAGATATTTACAGAAGTTGGTTGATGAACATTTGTGCCTGACCTACAAGGAAGGTGGGTCAACTTATTCACTCAGGGAGGGCTCAAAGGGGCACATATATCTCAAGCCTGGTCAGATAGTGCATCGGAGGATTATGGATGGGGATATTGTCTTCATCAACAGACCACCTACAACACACAAGCACTCCTTACAAGCCCTTTATGTTTACATCCATGAAGACCACACTGTGAAGATAAATCCTTTAATTTGTGGACCACTTGGGGCTGATTTTGATGGTGACTGTGTCCATCTGTTTTATCCGCAATCACTTGCTGCTAAAGCTGAAGTTGTGGAGCTATTTTCTGTGGAGAATCAACTGCTCAGCTCTCACAGTGGTAATTTGAACCTACAGTTATCCACAGACTCGTTGTTGTCACTGAAGATGTTGGTCAAGAGATGTTTTTTTGATAGAGCAGCAGCTAATCAATTGGCGATGTTTATTTTGCTTCCTTTGCCTCGGCCTGCTTTGCTCAAGGCCAGTTCTGGTGATGCTTGTTGGACTTCCATCCAAATTTTACAGTGTGCTTTACCTTTGGGTTTTGATTGCACTGGGGGACGGTATTTGATTAGGCAGAGTGAGATCTTAGAATTTGAATTCAGCAGGGATGTTCTGCCTGCAACCGTAAATGAAATAGCAGCTTCAGTTTTCTTTGGCAAGGGTCCCAAGGAGGCACTTAATTTCTTTGATGTATTGCAACCCTTTTTGATGGAAAGCTTATTTGCGGAAGGGTTTAGTGTTAGCCTGGAAGAGTTTTCAATATCCAGGGCAATTAAAAGGATAATAAGAAAAAGCATTGGAAAAGTTTCTTCTCTGCTGTATCAGCTGAGGTCCTTGTACAATGAGCTGGTGGCGCAGCAACTGGAGAAGCACATTCGAGATGTTGAACTTCCTATCATTAATTTTGCTCTAAAGTCAACTAAATTAGGAGATTTAATTGATTCAAAGAGTAAATCTGCTATTGATAAGGTTGTTCAGCAGATTGGGTTTTTAGGGCAGCAACTTTTTGATAGGGGAAGATTCTACTCAAAGGGATTGGTAGATGATGTGGCATCACATTTTCATGCAAAGTGTTGTTATGACGGGGATGGTTATCCCTCTGCTGAGTATGGACTGCTCAAAGGGTGTTTTTTTAATGGTTTGGATCCATACGAAGAGATGGTGCATTCGATTTCAACAAGGGAAATAATGGTGCGTTCTTCGAGAGGATTATCTGAACCAGGAACACTCTTTAAGAATTTGATGGCCATCCTTCGGGATGTTGTTATCTGTTATGATGGAACTGTCAGAAACATTTGTAGTAATTCCATCATCCAGTTTGAATACGGGATACAAGCTGGAGACAAAAGTGAGCACTTATTCCCTGCTGGTGAGCCTGTAGGTGTGTTGGCTGCAACTGCTATGTCAAATCCTGCTTACAAGGCTGTCCTTGATGCTAGTCCTAGTAGCAACTCTTCATGGGAGTTGATGAAGGAAATATTACTCTGCAAGGTTAATTTTAGGAATGAACTTGTTGATCGGCGTGTCATTTTGTACTTGAATGACTGTGATTGTGGAGGGAGTTATTGCCGAGAAAATGCAGCATATTCAGTTAAAGATCAATTGAGAAAAGTCAGTCTCAAGGATGCAGCTGTGGAGTTCATTATTGAATACCAACAACAGCGAACTCAAAAGGAAAATTCTGAAACTGATGTTGGACTTGTTGGTCATATTTATTTGGATGAGATGATGTTAGAGGAGCTGAAGATCAGCATGGCCTATGTTTTCGACAAATGCCATGAAAGACTCAAGTCTTTTAGTCAGAAAAAGAAAGTTAATCAATCTTTGAAGAACATTGAATTATCATTTAGTGAGTCTTGCTCATCTTCACATCCTGCTGCACCATGTTTAACATTTTGGCTAAAGAATTATGATAGTGATTTGGATAATGCTGTAAAGGTCCTGGCTGAAAAGATCTGCCCTGTTCTGTTTAAAACAATAATCCAAGGAGACCCGCGCATTAGCTCTGCGAGTATAATCTGGGTTAGTCCAGATACAAACACATGGGTCCGAAACCCTTATAAATCTTCTAATGGTGAATTGGCACTTGACATCATTCTCGAGAAGGAAGCTGTCAAGCAGAGTGGCGATGCTTGGAGAGTTGTACTTGATGCCTGCCTTCCTGTTCTTCACTTGATTGATACCAGGCGTTCCATCCCTTACGCTATTAAGCAGATTCAGGAATTACTGGGGATATCATGTACTTTTGATCAAGCGATTCAGCGTGTTGCAGCATCTGTGAAAATGGTGGCGAAAGGTGTACTTAGGGAGCATCTAATTCTGTTAGCTAGTAGTATGACTTGTGGTGGGAACTTGGTTGGCTTTAATATAGGTGGATATAAAGCTCTGTCTCGTCAATTAAATATACAAGTACCATTCACAGATGCAACACTCTTTACACCTAAAAAGTGTTTTGAGAGAGCTGCTGAGAAATGCCATACTGATTCTCTGTCAAGCATAGTTGCCTCCTGTTCCTGGGGTAAACATGTGGCAGTTGGTACAGGATCAAAATTTGATGTTGTTTGGGATGCAAATGAGATAAAATCAAATGAAATTGAAGGGATGGATGTTTACAGTTTTCTTCACATGGTGAAAAGCTTTACCAATGGCGAAGAAGAAACCGATGCTTGTTTGGGTGAAGATATTGATGATTTGCTGGAAGAAGAATATATGGACTTGGGCATGTCCCCACAACATAACTCTGGTTTTGAAGCTGTCTTTGAAGAGAATCCTGAAGTACTGAATGGTTCAACATCCAATGGTTGGGATGTAAGTTCAAATCAGGGTGAATCAAAAACCAATGAGTGGTCAGGTTGGGCAAGTAGTAACAAAGCTGAAATAAAAGATGGTAGATCTGAAATTGCCCCCAAGAATTCTTGGGGGAAAACTGTCAACCAAGAAGACTCTTCCAAGTCTAACCCTTGGAGTACAAGCACCATAGCAGATCAGACAAAAACTAAATCTAATGAATGGTCTGCCTGGGGAAGTAACAAGTCTGAAATACCAGTTGGTTGGGCAAGTAGTAACAAAACTGAAATAAAAGATGGTAGATCTGAAACTGCCCAAGAGAATTCTTGGGGGAAAACTGTCAACCAAGAAGACTCTTCCAAGTCTAATGCTTGGAATACAAGCACCACAGTAGATCATGCAAACACTAAATCTAATGAATGGTCTGCCTGGGGAAGTAACCAGTCTGAAATACCAGCTGGTGGATCTAAAGCAGTTCAAGAAGATTCTTGGGGCTCAAGTAAGTGGAAGGCTGATGTTGCCCAAGAAGACAATTCCAGGCTTGGTGCTTGGGATGCAAATGCAGCAGATCAGACAAAATCTAGTGAATGGTCGGGTTGGGGAAAGAAGAAAGATGTTACCCAAGAAGACAATTCCAGGCTTGGTGCTTGGGATGCAAATGCAGCAGATCAGACAAAATCTAGAGACTGGTCGGGTTGGGGAAAGAAGAAAGATATTACCCAAGAAGACAATTCCAGGCTTGGTGCTTGGGATGCAAATGCAGCAGATCAGACAAAATCTAGTGAATGGTCGGGTTGGGGAAAGAAGAAAGATGTTACCCAAGAAGACAATTCCAGGCTTGGTGCTTGGGATGCAAATACAGCAGATCAGACAAAATCTAATGAATGGTCAGGTTGGGGAAAGAAGAAAGAAGTTACCCAAGAAGACAATTCCAGGCTTGGTGCTTGGGATGCAAATACAGCAGATCAGACAAAATCTAATGAATGGTCAGGTTGGGGAAAGAAGAAAGAAGTTACCCAAGAAGACAATTCCAGGTTTGGTGCTTGGGATGCAAATGCAGAAGATCAGACAAAATCTAATGAATGGTCAGGTTGGGGAAAGAAGAAAGATGTTACCCAAGAAGACAATTCCAGGCTTGGTGCTTGGGATGCAAATGCAGCAGATCAGACAAAATCTAATGAATGGTCAGACTGGGGAAAGAAGAAAGAAGTTACCCAAGAAGACAATGTCCAAGATTCTTGGGGCTCCGGTAAGAGGAAAGACAAAGTTACCCAAGAAGACAATTCTGGGTCTGGTGGTTGGGGTGCCAACAGAACAGATCTGGCAAAATCCAAATCTAGTGAATGGTCCAGCTGGGGAAAGAACAAGTCTGAAATACCAGCTGGTGGATCTGAAAATGTGCAGAATGACTCATGGGGCTCGGGTAAATTGGAAGATGATACCCAAAAAGAAAATTCTGGGTCTGCATGGGTGAGAAATAAAGCTGAAACAATAGATGGTGGGTCAGAAAAGCCCCAAGAGGATGCTTGGAATTCTGGTAATTGGAAAGCTGAATCAAAAGTCGGCAATGCCTCTTGGGGAAAACCCAAATCCTCAGAAAGTCAAGCATGGGATTCCCATAATCAGTCAAATCAAAATTCAAGTTCACAGGGATGGGAATCACATATTGCTTCAGCTAATTCAGAAAGTGAAAAAGGTTTTCAGTGGGGAAAGCAAGGTAGAGACTCGTTTAAGAAAAATCGATTTGAAGGTTCGCAAGGCCGGGGTTCAAATGCTGGTGACTGGAAAAATAGGAATCGCCCACCTAGAGCCCCTGGACAGAGATTGGACATTTATTCATCTGGTGAGCAGGATGTTCTGAAGGATATTGAACCCATTATGCAGTCTATCAGACGAATCATGCAACAACAGGGGTACAATGATGGGGACCCACTGGCTGCTGAAGATCAACTTTTTGTACTGGAGAATGTCTTTGAGCACCACCCAGATAAAGAAACCAAAATGGGCACTGGAATTGATTATGTCATGGTTAACAAACACAGTAGTTTCCAGGAAAGTAGATGCTTTTATGTGGTTTGTAAAGATGGTGAAAGCAAGGACTTTTCCTACCGGAAGTGTTTGGCCAACTATATAAGCAAGAAGTATCCTGACCTTGCTGAATCATTCCTTGGAAAATATTTTCGGAAACCTCGTGCACGGGGGGACCAGACTGCAACACCAGGGCGGGATGAAGCAGCCACTCCGGGCGAGCAGACAGCAACGCCAGGCCGGGATGAAGCAGCAACTCCGGCTGAGCAGATCTCAACACCCACCCCTATGGAAACCAATGAGTAG

>Glyma15g37710.4   sequence type=CDS   gene model=Glyma15g37710   sequence assembly version=Glyma 1.0   annotation version=1.1   JGI Gene Call confidence=high
ATGGAGGATAATCCCCCTTCAAGTGTTTTAGATGGGACCGTTGTTGGGATCAAATTTGGTATGGCTACACGCCAGGAAATTTGTACAGCATCCATTAGTGACTCTTCAATTAGTCATGCTAGTCAGCTGTCAAATCCATTCCTTGGGCTGCCCCTTGAGTTTGGCAGATGTGAATCTTGTGGTACTTCTGAAGTTGGAAAATGCGAAGGTCACTTCGGATATATTGAGTTGCCAATTCCAATATATCACCCAAGTCATATCAGTGACTTGAAACGGATGCTGAGCATGGTCTGCTTAAACTGCCTAAAATTAAGGAAAACCAAGCTTCCAGCTTCAAGCAGTGGTTTAGCCCAGAGATTAATATCTCCTTGTTGTCAGGAGGATAAGGCTGCTCTAGTTTCTATTCGGGAAGTTAAAACAAGTGATGGGGCTTGTTATCTGGCGTTGAAAGTATCCAAATCCAAGATGCAAAATGGTTTTTGGAGTTTCTTAGAAAAATATGGTTATCGCTATGGGGGTGATCACACTCGAGCCTTGCTTCCTTGTGAGGCAATGGAAATTATTAAGAGAATTCCGATAGAGACAAAAAAAAAGCTTGCTGGAAAAGGATATTTTCCTCAAGATGGATATGTTTTGAAGTATCTTCCGGTGCCACCAAATTGCTTGTCTGTGCCAGAAGTTTCAGACGGTGTCAGTGTCATGTCGTCGGATCCTTCCATAACAATTCTCAGAAAATTGCTCAGGAAGGTTGAAATCATAAAAAGCTCTAGATCTGGTGAACCAAATTTCGAGTCTCATCACGTAGAAGCAAATGATTTGCAGTCTGTGGTTGATCAATATTTTCAAATTAGAGGAACTTCTAAGCCAGCACGTGATATAGAGACACATTTTGGGGTCAATAAAGAGCTTACTGCATCCTCAACAAAAGCATGGCTTGAGAAAATGAGGACATTATTTATAAGAAAGGGTTCAGGTTTTTCTTCCCGGAATGTAATTACTGGAGATTGTTATAAGAGGATAAATGAAGTAGGAATTCCGGTTGAAGTTGCCCAACGGATAACGTTTGAGGAGAGAGTTAACATCCACAACATCAGATATTTACAGAAGTTGGTTGATGAACATTTGTGCCTGACCTACAAGGAAGGTGGGTCAACTTATTCACTCAGGGAGGGCTCAAAGGGGCACATATATCTCAAGCCTGGTCAGATAGTGCATCGGAGGATTATGGATGGGGATATTGTCTTCATCAACAGACCACCTACAACACACAAGCACTCCTTACAAGCCCTTTATGTTTACATCCATGAAGACCACACTGTGAAGATAAATCCTTTAATTTGTGGACCACTTGGGGCTGATTTTGATGGTGACTGTGTCCATCTGTTTTATCCGCAATCACTTGCTGCTAAAGCTGAAGTTGTGGAGCTATTTTCTGTGGAGAATCAACTGCTCAGCTCTCACAGTGGTAATTTGAACCTACAGTTATCCACAGACTCGTTGTTGTCACTGAAGATGTTGGTCAAGAGATGTTTTTTTGATAGAGCAGCAGCTAATCAATTGGCGATGTTTATTTTGCTTCCTTTGCCTCGGCCTGCTTTGCTCAAGGCCAGTTCTGGTGATGCTTGTTGGACTTCCATCCAAATTTTACAGTGTGCTTTACCTTTGGGTTTTGATTGCACTGGGGGACGGTATTTGATTAGGCAGAGTGAGATCTTAGAATTTGAATTCAGCAGGGATGTTCTGCCTGCAACCGTAAATGAAATAGCAGCTTCAGTTTTCTTTGGCAAGGGTCCCAAGGAGGCACTTAATTTCTTTGATGTATTGCAACCCTTTTTGATGGAAAGCTTATTTGCGGAAGGGTTTAGTGTTAGCCTGGAAGAGTTTTCAATATCCAGGGCAATTAAAAGGATAATAAGAAAAAGCATTGGAAAAGTTTCTTCTCTGCTGTATCAGCTGAGGTCCTTGTACAATGAGCTGGTGGCGCAGCAACTGGAGAAGCACATTCGAGATGTTGAACTTCCTATCATTAATTTTGCTCTAAAGTCAACTAAATTAGGAGATTTAATTGATTCAAAGAGTAAATCTGCTATTGATAAGGTTGTTCAGCAGATTGGGTTTTTAGGGCAGCAACTTTTTGATAGGGGAAGATTCTACTCAAAGGGATTGGTAGATGATGTGGCATCACATTTTCATGCAAAGTGTTGTTATGACGGGGATGGTTATCCCTCTGCTGAGTATGGACTGCTCAAAGGGTGTTTTTTTAATGGTTTGGATCCATACGAAGAGATGGTGCATTCGATTTCAACAAGGGAAATAATGGTGCGTTCTTCGAGAGGATTATCTGAACCAGGAACACTCTTTAAGAATTTGATGGCCATCCTTCGGGATGTTGTTATCTGTTATGATGGAACTGTCAGAAACATTTGTAGTAATTCCATCATCCAGTTTGAATACGGGATACAAGCTGGAGACAAAAGTGAGCACTTATTCCCTGCTGGTGAGCCTGTAGGTGTGTTGGCTGCAACTGCTATGTCAAATCCTGCTTACAAGGCTGTCCTTGATGCTAGTCCTAGTAGCAACTCTTCATGGGAGTTGATGAAGGAAATATTACTCTGCAAGGTTAATTTTAGGAATGAACTTGTTGATCGGCGTGTCATTTTGTACTTGAATGACTGTGATTGTGGAGGGAGTTATTGCCGAGAAAATGCAGCATATTCAGTTAAAGATCAATTGAGAAAAGTCAGTCTCAAGGATGCAGCTGTGGAGTTCATTATTGAATACCAACAACAGCGAACTCAAAAGGAAAATTCTGAAACTGATGTTGGACTTGTTGGTCATATTTATTTGGATGAGATGATGTTAGAGGAGCTGAAGATCAGCATGGCCTATGTTTTCGACAAATGCCATGAAAGACTCAAGTCTTTTAGTCAGAAAAAGAAAGTTAATCAATCTTTGAAGAACATTGAATTATCATTTAGTTTATTTGTTGGTCTATATCACTTTCTGATTATGTTCCATCTTAGCAGTGAGTCTTGCTCATCTTCACATCCTGCTGCACCATGTTTAACATTTTGGCTAAAGAATTATGATAGTGATTTGGATAATGCTGTAAAGGTCCTGGCTGAAAAGATCTGCCCTGTTCTGTTTAAAACAATAATCCAAGGAGACCCGCGCATTAGCTCTGCGAGTATAATCTGGGTTAGTCCAGATACAAACACATGGGTCCGAAACCCTTATAAATCTTCTAATGGTGAATTGGCACTTGACATCATTCTCGAGAAGGAAGCTGTCAAGCAGAGTGGCGATGCTTGGAGAGTTGTACTTGATGCCTGCCTTCCTGTTCTTCACTTGATTGATACCAGGCGTTCCATCCCTTACGCTATTAAGCAGATTCAGGAATTACTGGGGATATCATGTACTTTTGATCAAGCGATTCAGCGTGTTGCAGCATCTGTGAAAATGGTGGCGAAAGGTGTACTTAGGGAGCATCTAATTCTGTTAGCTAGTAGTATGACTTGTGGTGGGAACTTGGTTGGCTTTAATATAGGTGGATATAAAGCTCTGTCTCGTCAATTAAATATACAAGTACCATTCACAGATGCAACACTCTTTACACCTAAAAAGTGTTTTGAGAGAGCTGCTGAGAAATGCCATACTGATTCTCTGTCAAGCATAGTTGCCTCCTGTTCCTGGGGTAAACATGTGGCAGTTGGTACAGGATCAAAATTTGATGTTGTTTGGGATGCAAATGAGATAAAATCAAATGAAATTGAAGGGATGGATGTTTACAGTTTTCTTCACATGGTGAAAAGCTTTACCAATGGCGAAGAAGAAACCGATGCTTGTTTGGGTGAAGATATTGATGATTTGCTGGAAGAAGAATATATGGACTTGGGCATGTCCCCACAACATAACTCTGGTTTTGAAGCTGTCTTTGAAGAGAATCCTGAAGTACTGAATGGTTCAACATCCAATGGTTGGGATGTAAGTTCAAATCAGGGTGAATCAAAAACCAATGAGTGGTCAGGTTGGGCAAGTAGTAACAAAGCTGAAATAAAAGATGGTAGATCTGAAATTGCCCCCAAGAATTCTTGGGGGAAAACTGTCAACCAAGAAGACTCTTCCAAGTCTAACCCTTGGAGTACAAGCACCATAGCAGATCAGACAAAAACTAAATCTAATGAATGGTCTGCCTGGGGAAGTAACAAGTCTGAAATACCAGTTGGTTGGGCAAGTAGTAACAAAACTGAAATAAAAGATGGTAGATCTGAAACTGCCCAAGAGAATTCTTGGGGGAAAACTGTCAACCAAGAAGACTCTTCCAAGTCTAATGCTTGGAATACAAGCACCACAGTAGATCATGCAAACACTAAATCTAATGAATGGTCTGCCTGGGGAAGTAACCAGTCTGAAATACCAGCTGGTGGATCTAAAGCAGTTCAAGAAGATTCTTGGGGCTCAAGTAAGTGGAAGGCTGATGTTGCCCAAGAAGACAATTCCAGGCTTGGTGCTTGGGATGCAAATGCAGCAGATCAGACAAAATCTAGTGAATGGTCGGGTTGGGGAAAGAAGAAAGATGTTACCCAAGAAGACAATTCCAGGCTTGGTGCTTGGGATGCAAATGCAGCAGATCAGACAAAATCTAGAGACTGGTCGGGTTGGGGAAAGAAGAAAGATATTACCCAAGAAGACAATTCCAGGCTTGGTGCTTGGGATGCAAATGCAGCAGATCAGACAAAATCTAGTGAATGGTCGGGTTGGGGAAAGAAGAAAGATGTTACCCAAGAAGACAATTCCAGGCTTGGTGCTTGGGATGCAAATACAGCAGATCAGACAAAATCTAATGAATGGTCAGGTTGGGGAAAGAAGAAAGAAGTTACCCAAGAAGACAATTCCAGGCTTGGTGCTTGGGATGCAAATACAGCAGATCAGACAAAATCTAATGAATGGTCAGGTTGGGGAAAGAAGAAAGAAGTTACCCAAGAAGACAATTCCAGGCTTGGTGCTTGGGATGCAAATGCAGCAGATCAGACAAAATCTAATGAATGGTCAGACTGGGGAAAGAAGAAAGAAGTTACCCAAGAAGACAATGTCCAAGATTCTTGGGGCTCCGGTAAGAGGAAAGACAAAGTTACCCAAGAAGACAATTCTGGGTCTGGTGGTTGGGGTGCCAACAGAACAGATCTGGCAAAATCCAAATCTAGTGAATGGTCCAGCTGGGGAAAGAACAAGTCTGAAATACCAGCTGGTGGATCTGAAAATGTGCAGAATGACTCATGGGGCTCGGGTAAATTGGAAGATGATACCCAAAAAGAAAATTCTGGGTCTGCATGGGTGAGAAATAAAGCTGAAACAATAGATGGTGGGTCAGAAAAGCCCCAAGAGGATGCTTGGAATTCTGGTAATTGGAAAGCTGAATCAAAAGTCGGCAATGCCTCTTGGGGAAAACCCAAATCCTCAGAAAGTCAAGCATGGGATTCCCATAATCAGTCAAATCAAAATTCAAGTTCACAGGGATGGGAATCACATATTGCTTCAGCTAATTCAGAAAGTGAAAAAGGTTTTCAGTGGGGAAAGCAAGGTAGAGACTCGTTTAAGAAAAATCGATTTGAAGGTTCGCAAGGCCGGGGTTCAAATGCTGGTGACTGGAAAAATAGGAATCGCCCACCTAGAGCCCCTGGACAGAGATTGGACATTTATTCATCTGGTGAGCAGGATGTTCTGAAGGATATTGAACCCATTATGCAGTCTATCAGACGAATCATGCAACAACAGGGGTACAATGATGGGGACCCACTGGCTGCTGAAGATCAACTTTTTGTACTGGAGAATGTCTTTGAGCACCACCCAGATAAAGAAACCAAAATGGGCACTGGAATTGATTATGTCATGGTTAACAAACACAGTAGTTTCCAGGAAAGTAGATGCTTTTATGTGGTTTGTAAAGATGGTGAAAGCAAGGACTTTTCCTACCGGAAGTGTTTGGCCAACTATATAAGCAAGAAGTATCCTGACCTTGCTGAATCATTCCTTGGAAAATATTTTCGGAAACCTCGTGCACGGGGGGACCAGACTGCAACACCAGGGCGGGATGAAGCAGCCACTCCGGGCGAGCAGACAGCAACGCCAGGCCGGGATGAAGCAGCAACTCCGGCTGAGCAGATCTCAACACCCACCCCTATGGAAACCAATGAGTAG

>Glyma15g37710.5   sequence type=CDS   gene model=Glyma15g37710   sequence assembly version=Glyma 1.0   annotation version=1.1   JGI Gene Call confidence=high
ATGGAGGATAATCCCCCTTCAAGTGTTTTAGATGGGACCGTTGTTGGGATCAAATTTGGTATGGCTACACGCCAGGAAATTTGTACAGCATCCATTAGTGACTCTTCAATTAGTCATGCTAGTCAGCTGTCAAATCCATTCCTTGGGCTGCCCCTTGAGTTTGGCAGATGTGAATCTTGTGGTACTTCTGAAGTTGGAAAATGCGAAGGTCACTTCGGATATATTGAGTTGCCAATTCCAATATATCACCCAAGTCATATCAGTGACTTGAAACGGATGCTGAGCATGGTCTGCTTAAACTGCCTAAAATTAAGGAAAACCAAGCTTCCAGCTTCAAGCAGTGGTTTAGCCCAGAGATTAATATCTCCTTGTTGTCAGGAGGATAAGGCTGCTCTAGTTTCTATTCGGGAAGTTAAAACAAGTGATGGGGCTTGTTATCTGGCGTTGAAAGTATCCAAATCCAAGATGCAAAATGGTTTTTGGAGTTTCTTAGAAAAATATGGTTATCGCTATGGGGGTGATCACACTCGAGCCTTGCTTCCTTGTGAGGCAATGGAAATTATTAAGAGAATTCCGATAGAGACAAAAAAAAAGCTTGCTGGAAAAGGATATTTTCCTCAAGATGGATATGTTTTGAAGTATCTTCCGGTGCCACCAAATTGCTTGTCTGTGCCAGAAGTTTCAGACGGTGTCAGTGTCATGTCGTCGGATCCTTCCATAACAATTCTCAGAAAATTGCTCAGGAAGGTTGAAATCATAAAAAGCTCTAGATCTGGTGAACCAAATTTCGAGTCTCATCACGTAGAAGCAAATGATTTGCAGTCTGTGGTTGATCAATATTTTCAAATTAGAGGAACTTCTAAGCCAGCACGTGATATAGAGACACATTTTGGGGTCAATAAAGAGCTTACTGCATCCTCAACAAAAGCATGGCTTGAGAAAATGAGGACATTATTTATAAGAAAGGGTTCAGGTTTTTCTTCCCGGAATGTAATTACTGGAGATTGTTATAAGAGGATAAATGAAGTAGGAATTCCGGTTGAAGTTGCCCAACGGATAACGTTTGAGGAGAGAGTTAACATCCACAACATCAGATATTTACAGAAGTTGGTTGATGAACATTTGTGCCTGACCTACAAGGAAGGTGGGTCAACTTATTCACTCAGGGAGGGCTCAAAGGGGCACATATATCTCAAGCCTGGTCAGATAGTGCATCGGAGGATTATGGATGGGGATATTGTCTTCATCAACAGACCACCTACAACACACAAGCACTCCTTACAAGCCCTTTATGTTTACATCCATGAAGACCACACTGTGAAGATAAATCCTTTAATTTGTGGACCACTTGGGGCTGATTTTGATGGTGACTGTGTCCATCTGTTTTATCCGCAATCACTTGCTGCTAAAGCTGAAGTTGTGGAGCTATTTTCTGTGGAGAATCAACTGCTCAGCTCTCACAGTGGTAATTTGAACCTACAGTTATCCACAGACTCGTTGTTGTCACTGAAGATGTTGGTCAAGAGATGTTTTTTTGATAGAGCAGCAGCTAATCAATTGGCGATGTTTATTTTGCTTCCTTTGCCTCGGCCTGCTTTGCTCAAGGCCAGTTCTGGTGATGCTTGTTGGACTTCCATCCAAATTTTACAGTGTGCTTTACCTTTGGGTTTTGATTGCACTGGGGGACGGTATTTGATTAGGCAGAGTGAGATCTTAGAATTTGAATTCAGCAGGGATGTTCTGCCTGCAACCGTAAATGAAATAGCAGCTTCAGTTTTCTTTGGCAAGGGTCCCAAGGAGGCACTTAATTTCTTTGATGTATTGCAACCCTTTTTGATGGAAAGCTTATTTGCGGAAGGGTTTAGTGTTAGCCTGGAAGAGTTTTCAATATCCAGGGCAATTAAAAGGATAATAAGAAAAAGCATTGGAAAAGTTTCTTCTCTGCTGTATCAGCTGAGGTCCTTGTACAATGAGCTGGTGGCGCAGCAACTGGAGAAGCACATTCGAGATGTTGAACTTCCTATCATTAATTTTGCTCTAAAGTCAACTAAATTAGGAGATTTAATTGATTCAAAGAGTAAATCTGCTATTGATAAGGTTGTTCAGCAGATTGGGTTTTTAGGGCAGCAACTTTTTGATAGGGGAAGATTCTACTCAAAGGGATTGGTAGATGATGTGGCATCACATTTTCATGCAAAGTGTTGTTATGACGGGGATGGTTATCCCTCTGCTGAGTATGGACTGCTCAAAGGGTGTTTTTTTAATGGTTTGGATCCATACGAAGAGATGGTGCATTCGATTTCAACAAGGGAAATAATGGTGCGTTCTTCGAGAGGATTATCTGAACCAGGAACACTCTTTAAGAATTTGATGGCCATCCTTCGGGATGTTGTTATCTGTTATGATGGAACTGTCAGAAACATTTGTAGTAATTCCATCATCCAGTTTGAATACGGGATACAAGCTGGAGACAAAAGTGAGCACTTATTCCCTGCTGGTGAGCCTGTAGGTGTGTTGGCTGCAACTGCTATGTCAAATCCTGCTTACAAGGCTGTCCTTGATGCTAGTCCTAGTAGCAACTCTTCATGGGAGTTGATGAAGGAAATATTACTCTGCAAGGTTAATTTTAGGAATGAACTTGTTGATCGGCGTGTCATTTTGTACTTGAATGACTGTGATTGTGGAGGGAGTTATTGCCGAGAAAATGCAGCATATTCAGTTAAAGATCAATTGAGAAAAGTCAGTCTCAAGGATGCAGCTGTGGAGTTCATTATTGAATACCAACAACAGCGAACTCAAAAGGAAAATTCTGAAACTGATGTTGGACTTGTTGGTCATATTTATTTGGATGAGATGATGTTAGAGGAGCTGAAGATCAGCATGGCCTATGTTTTCGACAAATGCCATGAAAGACTCAAGTCTTTTAGTCAGAAAAAGAAAGTTAATCAATCTTTGAAGAACATTGAATTATCATTTAGTGAGTCTTGCTCATCTTCACATCCTGCTGCACCATGTTTAACATTTTGGCTAAAGAATTATGATAGTGATTTGGATAATGCTGTAAAGGTCCTGGCTGAAAAGATCTGCCCTGTTCTGTTTAAAACAATAATCCAAGGAGACCCGCGCATTAGCTCTGCGAGTATAATCTGGGTTAGTCCAGATACAAACACATGGGTCCGAAACCCTTATAAATCTTCTAATGGTGAATTGGCACTTGACATCATTCTCGAGAAGGAAGCTGTCAAGCAGAGTGGCGATGCTTGGAGAGTTGTACTTGATGCCTGCCTTCCTGTTCTTCACTTGATTGATACCAGGCGTTCCATCCCTTACGCTATTAAGCAGATTCAGGAATTACTGGGGATATCATGTACTTTTGATCAAGCGATTCAGCGTGTTGCAGCATCTGTGAAAATGGTGGCGAAAGGTGTACTTAGGGAGCATCTAATTCTGTTAGCTAGTAGTATGACTTGTGGTGGGAACTTGGTTGGCTTTAATATAGGTGGATATAAAGCTCTGTCTCGTCAATTAAATATACAAGTACCATTCACAGATGCAACACTCTTTACACCTAAAAAGTGTTTTGAGAGAGCTGCTGAGAAATGCCATACTGATTCTCTGTCAAGCATAGTTGCCTCCTGTTCCTGGGGTAAACATGTGGCAGTTGGTACAGGATCAAAATTTGATGTTGTTTGGGATGCAAATGAGATAAAATCAAATGAAATTGAAGGGATGGATGTTTACAGTTTTCTTCACATGGTGAAAAGCTTTACCAATGGCGAAGAAGAAACCGATGCTTGTTTGGGTGAAGATATTGATGATTTGCTGGAAGAAGAATATATGGACTTGGGCATGTCCCCACAACATAACTCTGGTTTTGAAGCTGTCTTTGAAGAGAATCCTGAAGTACTGAATGGTTCAACATCCAATGGTTGGGATGTAAGTTCAAATCAGGGTGAATCAAAAACCAATGAGTGGTCAGGTTGGGCAAGTAGTAACAAAGCTGAAATAAAAGATGGTAGATCTGAAATTGCCCCCAAGAATTCTTGGGGGAAAACTGTCAACCAAGAAGACTCTTCCAAGTCTAACCCTTGGAGTACAAGCACCATAGCAGATCAGACAAAAACTAAATCTAATGAATGGTCTGCCTGGGGAAGTAACAAGTCTGAAATACCAGTTGGTTGGGCAAGTAGTAACAAAACTGAAATAAAAGATGGTAGATCTGAAACTGCCCAAGAGAATTCTTGGGGGAAAACTGTCAACCAAGAAGACTCTTCCAAGTCTAATGCTTGGAATACAAGCACCACAGTAGATCATGCAAACACTAAATCTAATGAATGGTCTGCCTGGGGAAGTAACCAGTCTGAAATACCAGCTGGTGGATCTAAAGCAGTTCAAGAAGATTCTTGGGGCTCAAGTAAGTGGAAGGCTGATGTTGCCCAAGAAGACAATTCCAGGCTTGGTGCTTGGGATGCAAATGCAGCAGATCAGACAAAATCTAGTGAATGGTCGGGTTGGGGAAAGAAGAAAGATGTTACCCAAGAAGACAATTCCAGGCTTGGTGCTTGGGATGCAAATGCAGCAGATCAGACAAAATCTAGAGACTGGTCGGGTTGGGGAAAGAAGAAAGATATTACCCAAGAAGACAATTCCAGGCTTGGTGCTTGGGATGCAAATGCAGCAGATCAGACAAAATCTAGTGAATGGTCGGGTTGGGGAAAGAAGAAAGATGTTACCCAAGAAGACAATTCCAGGCTTGGTGCTTGGGATGCAAATACAGCAGATCAGACAAAATCTAATGAATGGTCAGGTTGGGGAAAGAAGAAAGAAGTTACCCAAGAAGACAATTCCAGGCTTGGTGCTTGGGATGCAAATACAGCAGATCAGACAAAATCTAATGAATGGTCAGGTTGGGGAAAGAAGAAAGAAGTTACCCAAGAAGACAATTCCAGGCTTGGTGCTTGGGATGCAAATGCAGCAGATCAGACAAAATCTAATGAATGGTCAGACTGGGGAAAGAAGAAAGAAGTTACCCAAGAAGACAATGTCCAAGATTCTTGGGGCTCCGGTAAGAGGAAAGACAAAGTTACCCAAGAAGACAATTCTGGGTCTGGTGGTTGGGGTGCCAACAGAACAGATCTGGCAAAATCCAAATCTAGTGAATGGTCCAGCTGGGGAAAGAACAAGTCTGAAATACCAGCTGGTGGATCTGAAAATGTGCAGAATGACTCATGGGGCTCGGGTAAATTGGAAGATGATACCCAAAAAGAAAATTCTGGGTCTGCATGGGTGAGAAATAAAGCTGAAACAATAGATGGTGGGTCAGAAAAGCCCCAAGAGGATGCTTGGAATTCTGGTAATTGGAAAGCTGAATCAAAAGTCGGCAATGCCTCTTGGGGAAAACCCAAATCCTCAGAAAGTCAAGCATGGGATTCCCATAATCAGTCAAATCAAAATTCAAGTTCACAGGGATGGGAATCACATATTGCTTCAGCTAATTCAGAAAGTGAAAAAGGTTTTCAGTGGGGAAAGCAAGGTAGAGACTCGTTTAAGAAAAATCGATTTGAAGGTTCGCAAGGCCGGGGTTCAAATGCTGGTGACTGGAAAAATAGGAATCGCCCACCTAGAGCCCCTGGACAGAGATTGGACATTTATTCATCTGGTGAGCAGGATGTTCTGAAGGATATTGAACCCATTATGCAGTCTATCAGACGAATCATGCAACAACAGGGGTACAATGATGGGGACCCACTGGCTGCTGAAGATCAACTTTTTGTACTGGAGAATGTCTTTGAGCACCACCCAGATAAAGAAACCAAAATGGGCACTGGAATTGATTATGTCATGGTTAACAAACACAGTAGTTTCCAGGAAAGTAGATGCTTTTATGTGGTTTGTAAAGATGGTGAAAGCAAGGACTTTTCCTACCGGAAGTGTTTGGCCAACTATATAAGCAAGAAGTATCCTGACCTTGCTGAATCATTCCTTGGAAAATATTTTCGGAAACCTCGTGCACGGGGGGACCAGACTGCAACACCAGGGCGGGATGAAGCAGCCACTCCGGGCGAGCAGACAGCAACGCCAGGCCGGGATGAAGCAGCAACTCCGGCTGAGCAGATCTCAACACCCACCCCTATGGAAACCAATGAGTAG

>Glyma15g37710.6   sequence type=CDS   gene model=Glyma15g37710   sequence assembly version=Glyma 1.0   annotation version=1.1   JGI Gene Call confidence=high
ATGGAGGATAATCCCCCTTCAAGTGTTTTAGATGGGACCGTTGTTGGGATCAAATTTGGTATGGCTACACGCCAGGAAATTTGTACAGCATCCATTAGTGACTCTTCAATTAGTCATGCTAGTCAGCTGTCAAATCCATTCCTTGGGCTGCCCCTTGAGTTTGGCAGATGTGAATCTTGTGGTACTTCTGAAGTTGGAAAATGCGAAGGTCACTTCGGATATATTGAGTTGCCAATTCCAATATATCACCCAAGTCATATCAGTGACTTGAAACGGATGCTGAGCATGGTCTGCTTAAACTGCCTAAAATTAAGGAAAACCAAGCTTCCAGCTTCAAGCAGTGGTTTAGCCCAGAGATTAATATCTCCTTGTTGTCAGGAGGATAAGGCTGCTCTAGTTTCTATTCGGGAAGTTAAAACAAGTGATGGGGCTTGTTATCTGGCGTTGAAAGTATCCAAATCCAAGATGCAAAATGGTTTTTGGAGTTTCTTAGAAAAATATGGTTATCGCTATGGGGGTGATCACACTCGAGCCTTGCTTCCTTGTGAGGCAATGGAAATTATTAAGAGAATTCCGATAGAGACAAAAAAAAAGCTTGCTGGAAAAGGATATTTTCCTCAAGATGGATATGTTTTGAAGTATCTTCCGGTGCCACCAAATTGCTTGTCTGTGCCAGAAGTTTCAGACGGTGTCAGTGTCATGTCGTCGGATCCTTCCATAACAATTCTCAGAAAATTGCTCAGGAAGGTTGAAATCATAAAAAGCTCTAGATCTGGTGAACCAAATTTCGAGTCTCATCACGTAGAAGCAAATGATTTGCAGTCTGTGGTTGATCAATATTTTCAAATTAGAGGAACTTCTAAGCCAGCACGTGATATAGAGACACATTTTGGGGTCAATAAAGAGCTTACTGCATCCTCAACAAAAGCATGGCTTGAGAAAATGAGGACATTATTTATAAGAAAGGGTTCAGGTTTTTCTTCCCGGAATGTAATTACTGGAGATTGTTATAAGAGGATAAATGAAGTAGGAATTCCGGTTGAAGTTGCCCAACGGATAACGTTTGAGGAGAGAGTTAACATCCACAACATCAGATATTTACAGAAGTTGGTTGATGAACATTTGTGCCTGACCTACAAGGAAGGTGGGTCAACTTATTCACTCAGGGAGGGCTCAAAGGGGCACATATATCTCAAGCCTGGTCAGATAGTGCATCGGAGGATTATGGATGGGGATATTGTCTTCATCAACAGACCACCTACAACACACAAGCACTCCTTACAAGCCCTTTATGTTTACATCCATGAAGACCACACTGTGAAGATAAATCCTTTAATTTGTGGACCACTTGGGGCTGATTTTGATGGTGACTGTGTCCATCTGTTTTATCCGCAATCACTTGCTGCTAAAGCTGAAGTTGTGGAGCTATTTTCTGTGGAGAATCAACTGCTCAGCTCTCACAGTGGTAATTTGAACCTACAGTTATCCACAGACTCGTTGTTGTCACTGAAGATGTTGGTCAAGAGATGTTTTTTTGATAGAGCAGCAGCTAATCAATTGGCGATGTTTATTTTGCTTCCTTTGCCTCGGCCTGCTTTGCTCAAGGCCAGTTCTGGTGATGCTTGTTGGACTTCCATCCAAATTTTACAGTGTGCTTTACCTTTGGGTTTTGATTGCACTGGGGGACGGTATTTGATTAGGCAGAGTGAGATCTTAGAATTTGAATTCAGCAGGGATGTTCTGCCTGCAACCGTAAATGAAATAGCAGCTTCAGTTTTCTTTGGCAAGGGTCCCAAGGAGGCACTTAATTTCTTTGATGTATTGCAACCCTTTTTGATGGAAAGCTTATTTGCGGAAGGGTTTAGTGTTAGCCTGGAAGAGTTTTCAATATCCAGGGCAATTAAAAGGATAATAAGAAAAAGCATTGGAAAAGTTTCTTCTCTGCTGTATCAGCTGAGGTCCTTGTACAATGAGCTGGTGGCGCAGCAACTGGAGAAGCACATTCGAGATGTTGAACTTCCTATCATTAATTTTGCTCTAAAGTCAACTAAATTAGGAGATTTAATTGATTCAAAGAGTAAATCTGCTATTGATAAGGTTGTTCAGCAGATTGGGTTTTTAGGGCAGCAACTTTTTGATAGGGGAAGATTCTACTCAAAGGGATTGGTAGATGATGTGGCATCACATTTTCATGCAAAGTGTTGTTATGACGGGGATGGTTATCCCTCTGCTGAGTATGGACTGCTCAAAGGGTGTTTTTTTAATGGTTTGGATCCATACGAAGAGATGGTGCATTCGATTTCAACAAGGGAAATAATGGTGCGTTCTTCGAGAGGATTATCTGAACCAGGAACACTCTTTAAGAATTTGATGGCCATCCTTCGGGATGTTGTTATCTGTTATGATGGAACTGTCAGAAACATTTGTAGTAATTCCATCATCCAGTTTGAATACGGGATACAAGCTGGAGACAAAAGTGAGCACTTATTCCCTGCTGGTGAGCCTGTAGGTGTGTTGGCTGCAACTGCTATGTCAAATCCTGCTTACAAGGCTGTCCTTGATGCTAGTCCTAGTAGCAACTCTTCATGGGAGTTGATGAAGGAAATATTACTCTGCAAGGTTAATTTTAGGAATGAACTTGTTGATCGGCGTGTCATTTTGTACTTGAATGACTGTGATTGTGGAGGGAGTTATTGCCGAGAAAATGCAGCATATTCAGTTAAAGATCAATTGAGAAAAGTCAGTCTCAAGGATGCAGCTGTGGAGTTCATTATTGAATACCAACAACAGCGAACTCAAAAGGAAAATTCTGAAACTGATGTTGGACTTGTTGGTCATATTTATTTGGATGAGATGATGTTAGAGGAGCTGAAGATCAGCATGGCCTATGTTTTCGACAAATGCCATGAAAGACTCAAGTCTTTTAGTCAGAAAAAGAAAGTTAATCAATCTTTGAAGAACATTGAATTATCATTTAGTGAGTCTTGCTCATCTTCACATCCTGCTGCACCATGTTTAACATTTTGGCTAAAGAATTATGATAGTGATTTGGATAATGCTGTAAAGGTCCTGGCTGAAAAGATCTGCCCTGTTCTGTTTAAAACAATAATCCAAGGAGACCCGCGCATTAGCTCTGCGAGTATAATCTGGGTTAGTCCAGATACAAACACATGGGTCCGAAACCCTTATAAATCTTCTAATGGTGAATTGGCACTTGACATCATTCTCGAGAAGGAAGCTGTCAAGCAGAGTGGCGATGCTTGGAGAGTTGTACTTGATGCCTGCCTTCCTGTTCTTCACTTGATTGATACCAGGCGTTCCATCCCTTACGCTATTAAGCAGATTCAGGAATTACTGGGGATATCATGTACTTTTGATCAAGCGATTCAGCGTGTTGCAGCATCTGTGAAAATGGTGGCGAAAGGTGTACTTAGGGAGCATCTAATTCTGTTAGCTAGTAGTATGACTTGTGGTGGGAACTTGGTTGGCTTTAATATAGGTGGATATAAAGCTCTGTCTCGTCAATTAAATATACAAGTACCATTCACAGATGCAACACTCTTTACACCTAAAAAGTGTTTTGAGAGAGCTGCTGAGAAATGCCATACTGATTCTCTGTCAAGCATAGTTGCCTCCTGTTCCTGGGGTAAACATGTGGCAGTTGGTACAGGATCAAAATTTGATGTTGTTTGGGATGCAAATGAGATAAAATCAAATGAAATTGAAGGGATGGATGTTTACAGTTTTCTTCACATGGTGAAAAGCTTTACCAATGGCGAAGAAGAAACCGATGCTTGTTTGGGTGAAGATATTGATGATTTGCTGGAAGAAGAATATATGGACTTGGGCATGTCCCCACAACATAACTCTGGTTTTGAAGCTGTCTTTGAAGAGAATCCTGAAGTACTGAATGGTTCAACATCCAATGGTTGGGATGTAAGTTCAAATCAGGGTGAATCAAAAACCAATGAGTGGTCAGGTTGGGCAAGTAGTAACAAAGCTGAAATAAAAGATGGTAGATCTGAAATTGCCCCCAAGAATTCTTGGGGGAAAACTGTCAACCAAGAAGACTCTTCCAAGTCTAACCCTTGGAGTACAAGCACCATAGCAGATCAGACAAAAACTAAATCTAATGAATGGTCTGCCTGGGGAAGTAACAAGTCTGAAATACCAGTTGGTTGGGCAAGTAGTAACAAAACTGAAATAAAAGATGGTAGATCTGAAACTGCCCAAGAGAATTCTTGGGGGAAAACTGTCAACCAAGAAGACTCTTCCAAGTCTAATGCTTGGAATACAAGCACCACAGTAGATCATGCAAACACTAAATCTAATGAATGGTCTGCCTGGGGAAGTAACCAGTCTGAAATACCAGCTGGTGGATCTAAAGCAGTTCAAGAAGATTCTTGGGGCTCAAGTAAGTGGAAGGCTGATGTTGCCCAAGAAGACAATTCCAGGCTTGGTGCTTGGGATGCAAATGCAGCAGATCAGACAAAATCTAGTGAATGGTCGGGTTGGGGAAAGAAGAAAGATGTTACCCAAGAAGACAATTCCAGGCTTGGTGCTTGGGATGCAAATGCAGCAGATCAGACAAAATCTAGAGACTGGTCGGGTTGGGGAAAGAAGAAAGATATTACCCAAGAAGACAATTCCAGGCTTGGTGCTTGGGATGCAAATGCAGCAGATCAGACAAAATCTAGTGAATGGTCGGGTTGGGGAAAGAAGAAAGATGTTACCCAAGAAGACAATTCCAGGCTTGGTGCTTGGGATGCAAATACAGCAGATCAGACAAAATCTAATGAATGGTCAGGTTGGGGAAAGAAGAAAGAAGTTACCCAAGAAGACAATTCCAGGCTTGGTGCTTGGGATGCAAATACAGCAGATCAGACAAAATCTAATGAATGGTCAGGTTGGGGAAAGAAGAAAGAAGTTACCCAAGAAGACAATTCCAGGCTTGGTGCTTGGGATGCAAATGCAGCAGATCAGACAAAATCTAATGAATGGTCAGACTGGGGAAAGAAGAAAGAAGTTACCCAAGAAGACAATGTCCAAGATTCTTGGGGCTCCGGTAAGAGGAAAGACAAAGTTACCCAAGAAGACAATTCTGGGTCTGGTGGTTGGGGTGCCAACAGAACAGATCTGGCAAAATCCAAATCTAGTGAATGGTCCAGCTGGGGAAAGAACAAGTCTGAAATACCAGCTGGTGGATCTGAAAATGTGCAGAATGACTCATGGGGCTCGGGTAAATTGGAAGATGATACCCAAAAAGAAAATTCTGGGTCTGCATGGGTGAGAAATAAAGCTGAAACAATAGATGGTGGGTCAGAAAAGCCCCAAGAGGATGCTTGGAATTCTGGTAATTGGAAAGCTGAATCAAAAGTCGGCAATGCCTCTTGGGGAAAACCCAAATCCTCAGAAAGTCAAGCATGGGATTCCCATAATCAGTCAAATCAAAATTCAAGTTCACAGGGATGGGAATCACATATTGCTTCAGCTAATTCAGAAAGTGAAAAAGGTTTTCAGTGGGGAAAGCAAGGTAGAGACTCGTTTAAGAAAAATCGATTTGAAGGTTCGCAAGGCCGGGGTTCAAATGCTGGTGACTGGAAAAATAGGAATCGCCCACCTAGAGCCCCTGGACAGAGATTGGACATTTATTCATCTGGTGAGCAGGATGTTCTGAAGGATATTGAACCCATTATGCAGTCTATCAGACGAATCATGCAACAACAGGGGTACAATGATGGGGACCCACTGGCTGCTGAAGATCAACTTTTTGTACTGGAGAATGTCTTTGAGCACCACCCAGATAAAGAAACCAAAATGGGCACTGGAATTGATTATGTCATGGTTAACAAACACAGTAGTTTCCAGGAAAGTAGATGCTTTTATGTGGTTTGTAAAGATGGTGAAAGCAAGGACTTTTCCTACCGGAAGTGTTTGGCCAACTATATAAGCAAGAAGTATCCTGACCTTGCTGAATCATTCCTTGGAAAATATTTTCGGAAACCTCGTGCACGGGGGGACCAGACTGCAACACCAGGGCGGGATGAAGCAGCCACTCCGGGCGAGCAGACAGCAACGCCAGGCCGGGATGAAGCAGCAACTCCGGCTGAGCAGATCTCAACACCCACCCCTATGGAAACCAATGAGTAG
Predicted protein sequences of Glyma15g37710
>Glyma15g37710.1   sequence type=predicted peptide   gene model=Glyma15g37710   sequence assembly version=Glyma 1.0   annotation version=1.1   JGI Gene Call confidence=high
MEDNPPSSVLDGTVVGIKFGMATRQEICTASISDSSISHASQLSNPFLGLPLEFGRCESCGTSEVGKCEGHFGYIELPIPIYHPSHISDLKRMLSMVCLNCLKLRKTKLPASSSGLAQRLISPCCQEDKAALVSIREVKTSDGACYLALKVSKSKMQNGFWSFLEKYGYRYGGDHTRALLPCEAMEIIKRIPIETKKKLAGKGYFPQDGYVLKYLPVPPNCLSVPEVSDGVSVMSSDPSITILRKLLRKVEIIKSSRSGEPNFESHHVEANDLQSVVDQYFQIRGTSKPARDIETHFGVNKELTASSTKAWLEKMRTLFIRKGSGFSSRNVITGDCYKRINEVGIPVEVAQRITFEERVNIHNIRYLQKLVDEHLCLTYKEGGSTYSLREGSKGHIYLKPGQIVHRRIMDGDIVFINRPPTTHKHSLQALYVYIHEDHTVKINPLICGPLGADFDGDCVHLFYPQSLAAKAEVVELFSVENQLLSSHSGNLNLQLSTDSLLSLKMLVKRCFFDRAAANQLAMFILLPLPRPALLKASSGDACWTSIQILQCALPLGFDCTGGRYLIRQSEILEFEFSRDVLPATVNEIAASVFFGKGPKEALNFFDVLQPFLMESLFAEGFSVSLEEFSISRAIKRIIRKSIGKVSSLLYQLRSLYNELVAQQLEKHIRDVELPIINFALKSTKLGDLIDSKSKSAIDKVVQQIGFLGQQLFDRGRFYSKGLVDDVASHFHAKCCYDGDGYPSAEYGLLKGCFFNGLDPYEEMVHSISTREIMVRSSRGLSEPGTLFKNLMAILRDVVICYDGTVRNICSNSIIQFEYGIQAGDKSEHLFPAGEPVGVLAATAMSNPAYKAVLDASPSSNSSWELMKEILLCKVNFRNELVDRRVILYLNDCDCGGSYCRENAAYSVKDQLRKVSLKDAAVEFIIEYQQQRTQKENSETDVGLVGHIYLDEMMLEELKISMAYVFDKCHERLKSFSQKKKVNQSLKNIELSFSLFVGLYHFLIMFHLSSESCSSSHPAAPCLTFWLKNYDSDLDNAVKVLAEKICPVLFKTIIQGDPRISSASIIWVSPDTNTWVRNPYKSSNGELALDIILEKEAVKQSGDAWRVVLDACLPVLHLIDTRRSIPYAIKQIQELLGISCTFDQAIQRVAASVKMVAKGVLREHLILLASSMTCGGNLVGFNIGGYKALSRQLNIQVPFTDATLFTPKKCFERAAEKCHTDSLSSIVASCSWGKHVAVGTGSKFDVVWDANEIKSNEIEGMDVYSFLHMVKSFTNGEEETDACLGEDIDDLLEEEYMDLGMSPQHNSGFEAVFEENPEVLNGSTSNGWDVSSNQGESKTNEWSGWASSNKAEIKDGRSEIAPKNSWGKTVNQEDSSKSNPWSTSTIADQTKTKSNEWSAWGSNKSEIPVGWASSNKTEIKDGRSETAQENSWGKTVNQEDSSKSNAWNTSTTVDHANTKSNEWSAWGSNQSEIPAGGSKAVQEDSWGSSKWKADVAQEDNSRLGAWDANAADQTKSSEWSGWGKKKDVTQEDNSRLGAWDANAADQTKSRDWSGWGKKKDITQEDNSRLGAWDANAADQTKSSEWSGWGKKKDVTQEDNSRLGAWDANTADQTKSNEWSGWGKKKEVTQEDNSRLGAWDANTADQTKSNEWSGWGKKKEVTQEDNSRFGAWDANAEDQTKSNEWSGWGKKKDVTQEDNSRLGAWDANAADQTKSNEWSDWGKKKEVTQEDNVQDSWGSGKRKDKVTQEDNSGSGGWGANRTDLAKSKSSEWSSWGKNKSEIPAGGSENVQNDSWGSGKLEDDTQKENSGSAWVRNKAETIDGGSEKPQEDAWNSGNWKAESKVGNASWGKPKSSESQAWDSHNQSNQNSSSQGWESHIASANSESEKGFQWGKQGRDSFKKNRFEGSQGRGSNAGDWKNRNRPPRAPGQRLDIYSSGEQDVLKDIEPIMQSIRRIMQQQGYNDGDPLAAEDQLFVLENVFEHHPDKETKMGTGIDYVMVNKHSSFQESRCFYVVCKDGESKDFSYRKCLANYISKKYPDLAESFLGKYFRKPRARGDQTATPGRDEAATPGEQTATPGRDEAATPAEQISTPTPMETNE*

>Glyma15g37710.2   sequence type=predicted peptide   gene model=Glyma15g37710   sequence assembly version=Glyma 1.0   annotation version=1.1   JGI Gene Call confidence=high
MEDNPPSSVLDGTVVGIKFGMATRQEICTASISDSSISHASQLSNPFLGLPLEFGRCESCGTSEVGKCEGHFGYIELPIPIYHPSHISDLKRMLSMVCLNCLKLRKTKLPASSSGLAQRLISPCCQEDKAALVSIREVKTSDGACYLALKVSKSKMQNGFWSFLEKYGYRYGGDHTRALLPCEAMEIIKRIPIETKKKLAGKGYFPQDGYVLKYLPVPPNCLSVPEVSDGVSVMSSDPSITILRKLLRKVEIIKSSRSGEPNFESHHVEANDLQSVVDQYFQIRGTSKPARDIETHFGVNKELTASSTKAWLEKMRTLFIRKGSGFSSRNVITGDCYKRINEVGIPVEVAQRITFEERVNIHNIRYLQKLVDEHLCLTYKEGGSTYSLREGSKGHIYLKPGQIVHRRIMDGDIVFINRPPTTHKHSLQALYVYIHEDHTVKINPLICGPLGADFDGDCVHLFYPQSLAAKAEVVELFSVENQLLSSHSGNLNLQLSTDSLLSLKMLVKRCFFDRAAANQLAMFILLPLPRPALLKASSGDACWTSIQILQCALPLGFDCTGGRYLIRQSEILEFEFSRDVLPATVNEIAASVFFGKGPKEALNFFDVLQPFLMESLFAEGFSVSLEEFSISRAIKRIIRKSIGKVSSLLYQLRSLYNELVAQQLEKHIRDVELPIINFALKSTKLGDLIDSKSKSAIDKVVQQIGFLGQQLFDRGRFYSKGLVDDVASHFHAKCCYDGDGYPSAEYGLLKGCFFNGLDPYEEMVHSISTREIMVRSSRGLSEPGTLFKNLMAILRDVVICYDGTVRNICSNSIIQFEYGIQAGDKSEHLFPAGEPVGVLAATAMSNPAYKAVLDASPSSNSSWELMKEILLCKVNFRNELVDRRVILYLNDCDCGGSYCRENAAYSVKDQLRKVSLKDAAVEFIIEYQQQRTQKENSETDVGLVGHIYLDEMMLEELKISMAYVFDKCHERLKSFSQKKKVNQSLKNIELSFSESCSSSHPAAPCLTFWLKNYDSDLDNAVKVLAEKICPVLFKTIIQGDPRISSASIIWVSPDTNTWVRNPYKSSNGELALDIILEKEAVKQSGDAWRVVLDACLPVLHLIDTRRSIPYAIKQIQELLGISCTFDQAIQRVAASVKMVAKGVLREHLILLASSMTCGGNLVGFNIGGYKALSRQLNIQVPFTDATLFTPKKCFERAAEKCHTDSLSSIVASCSWGKHVAVGTGSKFDVVWDANEIKSNEIEGMDVYSFLHMVKSFTNGEEETDACLGEDIDDLLEEEYMDLGMSPQHNSGFEAVFEENPEVLNGSTSNGWDVSSNQGESKTNEWSGWASSNKAEIKDGRSEIAPKNSWGKTVNQEDSSKSNPWSTSTIADQTKTKSNEWSAWGSNKSEIPVGWASSNKTEIKDGRSETAQENSWGKTVNQEDSSKSNAWNTSTTVDHANTKSNEWSAWGSNQSEIPAGGSKAVQEDSWGSSKWKADVAQEDNSRLGAWDANAADQTKSSEWSGWGKKKDVTQEDNSRLGAWDANAADQTKSRDWSGWGKKKDITQEDNSRLGAWDANAADQTKSSEWSGWGKKKDVTQEDNSRLGAWDANTADQTKSNEWSGWGKKKEVTQEDNSRLGAWDANTADQTKSNEWSGWGKKKEVTQEDNSRFGAWDANAEDQTKSNEWSGWGKKKDVTQEDNSRLGAWDANAADQTKSNEWSDWGKKKEVTQEDNVQDSWGSGKRKDKVTQEDNSGSGGWGANRTDLAKSKSSEWSSWGKNKSEIPAGGSENVQNDSWGSGKLEDDTQKENSGSAWVRNKAETIDGGSEKPQEDAWNSGNWKAESKVGNASWGKPKSSESQAWDSHNQSNQNSSSQGWESHIASANSESEKGFQWGKQGRDSFKKNRFEGSQGRGSNAGDWKNRNRPPRAPGQRLDIYSSGEQDVLKDIEPIMQSIRRIMQQQGYNDGDPLAAEDQLFVLENVFEHHPDKETKMGTGIDYVMVNKHSSFQESRCFYVVCKDGESKDFSYRKCLANYISKKYPDLAESFLGKYFRKPRARGDQTATPGRDEAATPGEQTATPGRDEAATPAEQISTPTPMETNE*

>Glyma15g37710.3   sequence type=predicted peptide   gene model=Glyma15g37710   sequence assembly version=Glyma 1.0   annotation version=1.1   JGI Gene Call confidence=high
MEDNPPSSVLDGTVVGIKFGMATRQEICTASISDSSISHASQLSNPFLGLPLEFGRCESCGTSEVGKCEGHFGYIELPIPIYHPSHISDLKRMLSMVCLNCLKLRKTKLPASSSGLAQRLISPCCQEDKAALVSIREVKTSDGACYLALKVSKSKMQNGFWSFLEKYGYRYGGDHTRALLPCEAMEIIKRIPIETKKKLAGKGYFPQDGYVLKYLPVPPNCLSVPEVSDGVSVMSSDPSITILRKLLRKVEIIKSSRSGEPNFESHHVEANDLQSVVDQYFQIRGTSKPARDIETHFGVNKELTASSTKAWLEKMRTLFIRKGSGFSSRNVITGDCYKRINEVGIPVEVAQRITFEERVNIHNIRYLQKLVDEHLCLTYKEGGSTYSLREGSKGHIYLKPGQIVHRRIMDGDIVFINRPPTTHKHSLQALYVYIHEDHTVKINPLICGPLGADFDGDCVHLFYPQSLAAKAEVVELFSVENQLLSSHSGNLNLQLSTDSLLSLKMLVKRCFFDRAAANQLAMFILLPLPRPALLKASSGDACWTSIQILQCALPLGFDCTGGRYLIRQSEILEFEFSRDVLPATVNEIAASVFFGKGPKEALNFFDVLQPFLMESLFAEGFSVSLEEFSISRAIKRIIRKSIGKVSSLLYQLRSLYNELVAQQLEKHIRDVELPIINFALKSTKLGDLIDSKSKSAIDKVVQQIGFLGQQLFDRGRFYSKGLVDDVASHFHAKCCYDGDGYPSAEYGLLKGCFFNGLDPYEEMVHSISTREIMVRSSRGLSEPGTLFKNLMAILRDVVICYDGTVRNICSNSIIQFEYGIQAGDKSEHLFPAGEPVGVLAATAMSNPAYKAVLDASPSSNSSWELMKEILLCKVNFRNELVDRRVILYLNDCDCGGSYCRENAAYSVKDQLRKVSLKDAAVEFIIEYQQQRTQKENSETDVGLVGHIYLDEMMLEELKISMAYVFDKCHERLKSFSQKKKVNQSLKNIELSFSESCSSSHPAAPCLTFWLKNYDSDLDNAVKVLAEKICPVLFKTIIQGDPRISSASIIWVSPDTNTWVRNPYKSSNGELALDIILEKEAVKQSGDAWRVVLDACLPVLHLIDTRRSIPYAIKQIQELLGISCTFDQAIQRVAASVKMVAKGVLREHLILLASSMTCGGNLVGFNIGGYKALSRQLNIQVPFTDATLFTPKKCFERAAEKCHTDSLSSIVASCSWGKHVAVGTGSKFDVVWDANEIKSNEIEGMDVYSFLHMVKSFTNGEEETDACLGEDIDDLLEEEYMDLGMSPQHNSGFEAVFEENPEVLNGSTSNGWDVSSNQGESKTNEWSGWASSNKAEIKDGRSEIAPKNSWGKTVNQEDSSKSNPWSTSTIADQTKTKSNEWSAWGSNKSEIPVGWASSNKTEIKDGRSETAQENSWGKTVNQEDSSKSNAWNTSTTVDHANTKSNEWSAWGSNQSEIPAGGSKAVQEDSWGSSKWKADVAQEDNSRLGAWDANAADQTKSSEWSGWGKKKDVTQEDNSRLGAWDANAADQTKSRDWSGWGKKKDITQEDNSRLGAWDANAADQTKSSEWSGWGKKKDVTQEDNSRLGAWDANTADQTKSNEWSGWGKKKEVTQEDNSRLGAWDANTADQTKSNEWSGWGKKKEVTQEDNSRFGAWDANAEDQTKSNEWSGWGKKKDVTQEDNSRLGAWDANAADQTKSNEWSDWGKKKEVTQEDNVQDSWGSGKRKDKVTQEDNSGSGGWGANRTDLAKSKSSEWSSWGKNKSEIPAGGSENVQNDSWGSGKLEDDTQKENSGSAWVRNKAETIDGGSEKPQEDAWNSGNWKAESKVGNASWGKPKSSESQAWDSHNQSNQNSSSQGWESHIASANSESEKGFQWGKQGRDSFKKNRFEGSQGRGSNAGDWKNRNRPPRAPGQRLDIYSSGEQDVLKDIEPIMQSIRRIMQQQGYNDGDPLAAEDQLFVLENVFEHHPDKETKMGTGIDYVMVNKHSSFQESRCFYVVCKDGESKDFSYRKCLANYISKKYPDLAESFLGKYFRKPRARGDQTATPGRDEAATPGEQTATPGRDEAATPAEQISTPTPMETNE*

>Glyma15g37710.4   sequence type=predicted peptide   gene model=Glyma15g37710   sequence assembly version=Glyma 1.0   annotation version=1.1   JGI Gene Call confidence=high
MEDNPPSSVLDGTVVGIKFGMATRQEICTASISDSSISHASQLSNPFLGLPLEFGRCESCGTSEVGKCEGHFGYIELPIPIYHPSHISDLKRMLSMVCLNCLKLRKTKLPASSSGLAQRLISPCCQEDKAALVSIREVKTSDGACYLALKVSKSKMQNGFWSFLEKYGYRYGGDHTRALLPCEAMEIIKRIPIETKKKLAGKGYFPQDGYVLKYLPVPPNCLSVPEVSDGVSVMSSDPSITILRKLLRKVEIIKSSRSGEPNFESHHVEANDLQSVVDQYFQIRGTSKPARDIETHFGVNKELTASSTKAWLEKMRTLFIRKGSGFSSRNVITGDCYKRINEVGIPVEVAQRITFEERVNIHNIRYLQKLVDEHLCLTYKEGGSTYSLREGSKGHIYLKPGQIVHRRIMDGDIVFINRPPTTHKHSLQALYVYIHEDHTVKINPLICGPLGADFDGDCVHLFYPQSLAAKAEVVELFSVENQLLSSHSGNLNLQLSTDSLLSLKMLVKRCFFDRAAANQLAMFILLPLPRPALLKASSGDACWTSIQILQCALPLGFDCTGGRYLIRQSEILEFEFSRDVLPATVNEIAASVFFGKGPKEALNFFDVLQPFLMESLFAEGFSVSLEEFSISRAIKRIIRKSIGKVSSLLYQLRSLYNELVAQQLEKHIRDVELPIINFALKSTKLGDLIDSKSKSAIDKVVQQIGFLGQQLFDRGRFYSKGLVDDVASHFHAKCCYDGDGYPSAEYGLLKGCFFNGLDPYEEMVHSISTREIMVRSSRGLSEPGTLFKNLMAILRDVVICYDGTVRNICSNSIIQFEYGIQAGDKSEHLFPAGEPVGVLAATAMSNPAYKAVLDASPSSNSSWELMKEILLCKVNFRNELVDRRVILYLNDCDCGGSYCRENAAYSVKDQLRKVSLKDAAVEFIIEYQQQRTQKENSETDVGLVGHIYLDEMMLEELKISMAYVFDKCHERLKSFSQKKKVNQSLKNIELSFSLFVGLYHFLIMFHLSSESCSSSHPAAPCLTFWLKNYDSDLDNAVKVLAEKICPVLFKTIIQGDPRISSASIIWVSPDTNTWVRNPYKSSNGELALDIILEKEAVKQSGDAWRVVLDACLPVLHLIDTRRSIPYAIKQIQELLGISCTFDQAIQRVAASVKMVAKGVLREHLILLASSMTCGGNLVGFNIGGYKALSRQLNIQVPFTDATLFTPKKCFERAAEKCHTDSLSSIVASCSWGKHVAVGTGSKFDVVWDANEIKSNEIEGMDVYSFLHMVKSFTNGEEETDACLGEDIDDLLEEEYMDLGMSPQHNSGFEAVFEENPEVLNGSTSNGWDVSSNQGESKTNEWSGWASSNKAEIKDGRSEIAPKNSWGKTVNQEDSSKSNPWSTSTIADQTKTKSNEWSAWGSNKSEIPVGWASSNKTEIKDGRSETAQENSWGKTVNQEDSSKSNAWNTSTTVDHANTKSNEWSAWGSNQSEIPAGGSKAVQEDSWGSSKWKADVAQEDNSRLGAWDANAADQTKSSEWSGWGKKKDVTQEDNSRLGAWDANAADQTKSRDWSGWGKKKDITQEDNSRLGAWDANAADQTKSSEWSGWGKKKDVTQEDNSRLGAWDANTADQTKSNEWSGWGKKKEVTQEDNSRLGAWDANTADQTKSNEWSGWGKKKEVTQEDNSRLGAWDANAADQTKSNEWSDWGKKKEVTQEDNVQDSWGSGKRKDKVTQEDNSGSGGWGANRTDLAKSKSSEWSSWGKNKSEIPAGGSENVQNDSWGSGKLEDDTQKENSGSAWVRNKAETIDGGSEKPQEDAWNSGNWKAESKVGNASWGKPKSSESQAWDSHNQSNQNSSSQGWESHIASANSESEKGFQWGKQGRDSFKKNRFEGSQGRGSNAGDWKNRNRPPRAPGQRLDIYSSGEQDVLKDIEPIMQSIRRIMQQQGYNDGDPLAAEDQLFVLENVFEHHPDKETKMGTGIDYVMVNKHSSFQESRCFYVVCKDGESKDFSYRKCLANYISKKYPDLAESFLGKYFRKPRARGDQTATPGRDEAATPGEQTATPGRDEAATPAEQISTPTPMETNE*

>Glyma15g37710.5   sequence type=predicted peptide   gene model=Glyma15g37710   sequence assembly version=Glyma 1.0   annotation version=1.1   JGI Gene Call confidence=high
MEDNPPSSVLDGTVVGIKFGMATRQEICTASISDSSISHASQLSNPFLGLPLEFGRCESCGTSEVGKCEGHFGYIELPIPIYHPSHISDLKRMLSMVCLNCLKLRKTKLPASSSGLAQRLISPCCQEDKAALVSIREVKTSDGACYLALKVSKSKMQNGFWSFLEKYGYRYGGDHTRALLPCEAMEIIKRIPIETKKKLAGKGYFPQDGYVLKYLPVPPNCLSVPEVSDGVSVMSSDPSITILRKLLRKVEIIKSSRSGEPNFESHHVEANDLQSVVDQYFQIRGTSKPARDIETHFGVNKELTASSTKAWLEKMRTLFIRKGSGFSSRNVITGDCYKRINEVGIPVEVAQRITFEERVNIHNIRYLQKLVDEHLCLTYKEGGSTYSLREGSKGHIYLKPGQIVHRRIMDGDIVFINRPPTTHKHSLQALYVYIHEDHTVKINPLICGPLGADFDGDCVHLFYPQSLAAKAEVVELFSVENQLLSSHSGNLNLQLSTDSLLSLKMLVKRCFFDRAAANQLAMFILLPLPRPALLKASSGDACWTSIQILQCALPLGFDCTGGRYLIRQSEILEFEFSRDVLPATVNEIAASVFFGKGPKEALNFFDVLQPFLMESLFAEGFSVSLEEFSISRAIKRIIRKSIGKVSSLLYQLRSLYNELVAQQLEKHIRDVELPIINFALKSTKLGDLIDSKSKSAIDKVVQQIGFLGQQLFDRGRFYSKGLVDDVASHFHAKCCYDGDGYPSAEYGLLKGCFFNGLDPYEEMVHSISTREIMVRSSRGLSEPGTLFKNLMAILRDVVICYDGTVRNICSNSIIQFEYGIQAGDKSEHLFPAGEPVGVLAATAMSNPAYKAVLDASPSSNSSWELMKEILLCKVNFRNELVDRRVILYLNDCDCGGSYCRENAAYSVKDQLRKVSLKDAAVEFIIEYQQQRTQKENSETDVGLVGHIYLDEMMLEELKISMAYVFDKCHERLKSFSQKKKVNQSLKNIELSFSESCSSSHPAAPCLTFWLKNYDSDLDNAVKVLAEKICPVLFKTIIQGDPRISSASIIWVSPDTNTWVRNPYKSSNGELALDIILEKEAVKQSGDAWRVVLDACLPVLHLIDTRRSIPYAIKQIQELLGISCTFDQAIQRVAASVKMVAKGVLREHLILLASSMTCGGNLVGFNIGGYKALSRQLNIQVPFTDATLFTPKKCFERAAEKCHTDSLSSIVASCSWGKHVAVGTGSKFDVVWDANEIKSNEIEGMDVYSFLHMVKSFTNGEEETDACLGEDIDDLLEEEYMDLGMSPQHNSGFEAVFEENPEVLNGSTSNGWDVSSNQGESKTNEWSGWASSNKAEIKDGRSEIAPKNSWGKTVNQEDSSKSNPWSTSTIADQTKTKSNEWSAWGSNKSEIPVGWASSNKTEIKDGRSETAQENSWGKTVNQEDSSKSNAWNTSTTVDHANTKSNEWSAWGSNQSEIPAGGSKAVQEDSWGSSKWKADVAQEDNSRLGAWDANAADQTKSSEWSGWGKKKDVTQEDNSRLGAWDANAADQTKSRDWSGWGKKKDITQEDNSRLGAWDANAADQTKSSEWSGWGKKKDVTQEDNSRLGAWDANTADQTKSNEWSGWGKKKEVTQEDNSRLGAWDANTADQTKSNEWSGWGKKKEVTQEDNSRLGAWDANAADQTKSNEWSDWGKKKEVTQEDNVQDSWGSGKRKDKVTQEDNSGSGGWGANRTDLAKSKSSEWSSWGKNKSEIPAGGSENVQNDSWGSGKLEDDTQKENSGSAWVRNKAETIDGGSEKPQEDAWNSGNWKAESKVGNASWGKPKSSESQAWDSHNQSNQNSSSQGWESHIASANSESEKGFQWGKQGRDSFKKNRFEGSQGRGSNAGDWKNRNRPPRAPGQRLDIYSSGEQDVLKDIEPIMQSIRRIMQQQGYNDGDPLAAEDQLFVLENVFEHHPDKETKMGTGIDYVMVNKHSSFQESRCFYVVCKDGESKDFSYRKCLANYISKKYPDLAESFLGKYFRKPRARGDQTATPGRDEAATPGEQTATPGRDEAATPAEQISTPTPMETNE*

>Glyma15g37710.6   sequence type=predicted peptide   gene model=Glyma15g37710   sequence assembly version=Glyma 1.0   annotation version=1.1   JGI Gene Call confidence=high
MEDNPPSSVLDGTVVGIKFGMATRQEICTASISDSSISHASQLSNPFLGLPLEFGRCESCGTSEVGKCEGHFGYIELPIPIYHPSHISDLKRMLSMVCLNCLKLRKTKLPASSSGLAQRLISPCCQEDKAALVSIREVKTSDGACYLALKVSKSKMQNGFWSFLEKYGYRYGGDHTRALLPCEAMEIIKRIPIETKKKLAGKGYFPQDGYVLKYLPVPPNCLSVPEVSDGVSVMSSDPSITILRKLLRKVEIIKSSRSGEPNFESHHVEANDLQSVVDQYFQIRGTSKPARDIETHFGVNKELTASSTKAWLEKMRTLFIRKGSGFSSRNVITGDCYKRINEVGIPVEVAQRITFEERVNIHNIRYLQKLVDEHLCLTYKEGGSTYSLREGSKGHIYLKPGQIVHRRIMDGDIVFINRPPTTHKHSLQALYVYIHEDHTVKINPLICGPLGADFDGDCVHLFYPQSLAAKAEVVELFSVENQLLSSHSGNLNLQLSTDSLLSLKMLVKRCFFDRAAANQLAMFILLPLPRPALLKASSGDACWTSIQILQCALPLGFDCTGGRYLIRQSEILEFEFSRDVLPATVNEIAASVFFGKGPKEALNFFDVLQPFLMESLFAEGFSVSLEEFSISRAIKRIIRKSIGKVSSLLYQLRSLYNELVAQQLEKHIRDVELPIINFALKSTKLGDLIDSKSKSAIDKVVQQIGFLGQQLFDRGRFYSKGLVDDVASHFHAKCCYDGDGYPSAEYGLLKGCFFNGLDPYEEMVHSISTREIMVRSSRGLSEPGTLFKNLMAILRDVVICYDGTVRNICSNSIIQFEYGIQAGDKSEHLFPAGEPVGVLAATAMSNPAYKAVLDASPSSNSSWELMKEILLCKVNFRNELVDRRVILYLNDCDCGGSYCRENAAYSVKDQLRKVSLKDAAVEFIIEYQQQRTQKENSETDVGLVGHIYLDEMMLEELKISMAYVFDKCHERLKSFSQKKKVNQSLKNIELSFSESCSSSHPAAPCLTFWLKNYDSDLDNAVKVLAEKICPVLFKTIIQGDPRISSASIIWVSPDTNTWVRNPYKSSNGELALDIILEKEAVKQSGDAWRVVLDACLPVLHLIDTRRSIPYAIKQIQELLGISCTFDQAIQRVAASVKMVAKGVLREHLILLASSMTCGGNLVGFNIGGYKALSRQLNIQVPFTDATLFTPKKCFERAAEKCHTDSLSSIVASCSWGKHVAVGTGSKFDVVWDANEIKSNEIEGMDVYSFLHMVKSFTNGEEETDACLGEDIDDLLEEEYMDLGMSPQHNSGFEAVFEENPEVLNGSTSNGWDVSSNQGESKTNEWSGWASSNKAEIKDGRSEIAPKNSWGKTVNQEDSSKSNPWSTSTIADQTKTKSNEWSAWGSNKSEIPVGWASSNKTEIKDGRSETAQENSWGKTVNQEDSSKSNAWNTSTTVDHANTKSNEWSAWGSNQSEIPAGGSKAVQEDSWGSSKWKADVAQEDNSRLGAWDANAADQTKSSEWSGWGKKKDVTQEDNSRLGAWDANAADQTKSRDWSGWGKKKDITQEDNSRLGAWDANAADQTKSSEWSGWGKKKDVTQEDNSRLGAWDANTADQTKSNEWSGWGKKKEVTQEDNSRLGAWDANTADQTKSNEWSGWGKKKEVTQEDNSRLGAWDANAADQTKSNEWSDWGKKKEVTQEDNVQDSWGSGKRKDKVTQEDNSGSGGWGANRTDLAKSKSSEWSSWGKNKSEIPAGGSENVQNDSWGSGKLEDDTQKENSGSAWVRNKAETIDGGSEKPQEDAWNSGNWKAESKVGNASWGKPKSSESQAWDSHNQSNQNSSSQGWESHIASANSESEKGFQWGKQGRDSFKKNRFEGSQGRGSNAGDWKNRNRPPRAPGQRLDIYSSGEQDVLKDIEPIMQSIRRIMQQQGYNDGDPLAAEDQLFVLENVFEHHPDKETKMGTGIDYVMVNKHSSFQESRCFYVVCKDGESKDFSYRKCLANYISKKYPDLAESFLGKYFRKPRARGDQTATPGRDEAATPGEQTATPGRDEAATPAEQISTPTPMETNE*






Funded by the USDA-ARS. Developed by the USDA-ARS SoyBase and Legume Clade Database group at the Iowa State University, Ames, IA
 
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