|
A newer version of this gene model can be found here:
Database ID | Annotation Type | Annotation Description | Annotation Source | Match Score | Evidence Code |
---|---|---|---|---|---|
AT3G28030 | AT | Annotation by Michelle Graham. TAIR10: 5'-3' exonuclease family protein | chr3:10424321-10431178 FORWARD LENGTH=1479 | SoyBase | E_val: 4.00E-169 | ISS |
GO:0006281 | GO-bp | Annotation by Michelle Graham. GO Biological Process: DNA repair | SoyBase | N/A | ISS |
GO:0006289 | GO-bp | Annotation by Michelle Graham. GO Biological Process: nucleotide-excision repair | SoyBase | N/A | ISS |
GO:0006486 | GO-bp | Annotation by Michelle Graham. GO Biological Process: protein glycosylation | SoyBase | N/A | ISS |
GO:0009408 | GO-bp | Annotation by Michelle Graham. GO Biological Process: response to heat | SoyBase | N/A | ISS |
GO:0010213 | GO-bp | Annotation by Michelle Graham. GO Biological Process: non-photoreactive DNA repair | SoyBase | N/A | ISS |
GO:0010224 | GO-bp | Annotation by Michelle Graham. GO Biological Process: response to UV-B | SoyBase | N/A | ISS |
GO:0005634 | GO-cc | Annotation by Michelle Graham. GO Cellular Compartment: nucleus | SoyBase | N/A | ISS |
GO:0003677 | GO-mf | Annotation by Michelle Graham. GO Molecular Function: DNA binding | SoyBase | N/A | ISS |
GO:0003697 | GO-mf | Annotation by Michelle Graham. GO Molecular Function: single-stranded DNA binding | SoyBase | N/A | ISS |
GO:0003824 | GO-mf | Annotation by Michelle Graham. GO Molecular Function: catalytic activity | SoyBase | N/A | ISS |
GO:0004518 | GO-mf | Annotation by Michelle Graham. GO Molecular Function: nuclease activity | SoyBase | N/A | ISS |
GO:0004519 | GO-mf | Annotation by Michelle Graham. GO Molecular Function: endonuclease activity | SoyBase | N/A | ISS |
GO:0005515 | GO-mf | Annotation by Michelle Graham. GO Molecular Function: protein binding | SoyBase | N/A | ISS |
GO:0016788 | GO-mf | Annotation by Michelle Graham. GO Molecular Function: hydrolase activity, acting on ester bonds | SoyBase | N/A | ISS |
PTHR11081 | Panther | XP-G/RAD2 DNA REPAIR ENDONUCLEASE FAMILY | JGI | ISS | |
PTHR11081:SF1 | Panther | NUCLEOTIDE EXCISION REPAIR-RELATED | JGI | ISS | |
PF00752 | PFAM | XPG N-terminal domain | JGI | ISS | |
PF00867 | PFAM | XPG I-region | JGI | ISS | |
UniRef100_B9RUC5 | UniRef | Annotation by Michelle Graham. Most informative UniRef hit: DNA-repair protein UVH3, putative n=1 Tax=Ricinus communis RepID=B9RUC5_RICCO | SoyBase | E_val: 0 | ISS |
UniRef100_UPI0002337905 | UniRef | Annotation by Michelle Graham. Best UniRef hit: UPI0002337905 related cluster n=1 Tax=unknown RepID=UPI0002337905 | SoyBase | E_val: 0 | ISS |
Glyma01g16370 not represented in the dataset |
Glyma01g16370 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 |
Corresponding Name | Annotation Version | Evidence | Comments |
---|---|---|---|
Glyma.01g077200 | Wm82.a2.v1 | IGC | As supplied by JGI |
Schmutz et al. 2010 Genome sequence of the palaeopolyploid soybean Nature 2010, 463:178-183 |
>Glyma01g16370.3 sequence type=transcript gene model=Glyma01g16370 sequence assembly version=Glyma 1.0 annotation version=1.1 JGI Gene Call confidence=high CCGACTTAAATCATGAAGCATATTGATATCGGCCTGGCTGTTTGGCGCGATAAAGACTGCTGACAGGCGATTGAAGCACAAGAAGCCGCGCTGCAACACAATGGGAGTCCACGGTCTCTGGGAACTCCTCGCCCCCGTCGGTCGCCGCGTCTCCGTCGAAACCCTTGCCGGAAAAACCCTAGCCGTTGATGCGAGCATATGGATGGTACAGTTTGTCAAAGCGATGCGCGACGAGAAGGGCGAAATGGTTCGCAACGCCCATTTGCTGGGCTTCTTCCGTCGCATTTGCAAACTTCTTTTCCTCCGCACCAAGCCGGTCTTCGTCTTCGACGGCGGGACCCCTGCCCTCAAGCGCCGCACTGTCATTGCACGCCGCCGCCAGCGTGAAAACGCCCAAGCCAAAGTCCGCAAAACCGCCGAGAAATTGCTGCTCAATCATTTAAAGGCATTAAGGTTGAAGGAACTGGCTGATGATCTTAAGAACCAAAGGATGAAGAAGAATAGTGATACTAAGGGTCAGAAAAAATCTAATCAGAAGGACTTTGTTGGAAGTGATTTAGGAGGAAGTCATGTGAAAGAGCTAGATGAAATGTCTGTGGCTAAATATGCAGCTAAGGAGGACGGAAATTCTTCGCAGGCAACAATATTGACTACTTACAACCAGGAGGAACTTCATGAAATGTTGGCAGCGTCTATAGCTGCAGAGAAAAATGGCATACATGCCAGAAAAGGAATGCCGTCTATTGTAATTAATCCTTTAGAGGAGGAACGTGATGCAGACGAACAAATTATATTGCCATCAGTAAATGCAGAAGTTGATATGGCTGTATTAGCTGCCTTACCACAATCAATGCAACTTGATATTCTTGCACAGCTTAAAGGAAAGAAAACCGAAGGACTAGTAAAGGAAGTTGACAATCAGAATCAACATGATGTCAATTATCGGGGCAAGGGTAAGGGGATTCTGCTCATTGAAGCTGACATGGTAGGTTGTAGCTCCAGACATGACAATGTTACATCAAGGAGTGACAATCAACACTCAATTGATGAAATGTTAGCTGCATCTATTGCTATGGAGGAAAATGAAGAGTTAGTAAATAATACATCAACTTCTGTTGGGGCTTCCGCTATTGAGGAAGAGGAAGTTGACTATGATGAAGATGAAGAAATGATACTGCCAGCTATGCATGGTAAAATTGATCCTGCTGTTCTAGCCTCATTGCCTCCATCAATGCAACTGGACCTTCTTGTTCAGATGAGAGAGCGTTTGATTGCAGAGAACAGACAAAAGTATCAGAAAGTCAAAAAGGATCCAGCAAAATTCTCTGAGCTACAGATACAAGCTTACCTTAAAACTGTCGCTTTCAGACGGGACATAGATGAAGTGCAGAAAGCTGCAGCTGTAGGAGGAGTAGGTGGTGTACAGACTTCACGGATTGCATCTGAAGCCAACAGAGAATATATTTTCTCGTCTTCTTTTACTGGTGATAAACAAGAACTTACCTCCACCAGCTTAGAGAAAAATAAAGATACACAACAGAAGGTCCAGGGAGTACATCCTTCACAGAACCTTACAGATAGCATTGTGGCAGGAAATGATTCTAATACTTCAAGCGGATTGGTTCACAATGAACCTGGTGAGCCTGCTGATGAAAGTATTCAGACATATCTTGATGAGAGGGGTCGGTTTCGAGTTAGTAGATTGAGAGCTATGGGGATGCGTATGACCTGTGATATACAACGGAATTTGGATTTGTTGAAGGAGATTGAGCAGGAAAGAGCATATGTGAACAAGGCTGCGAATATTGGAACAGTGGAAAATGCTGAGAATAATGGTCCATATGAAAGTTCTGGGATCCAGCTTGTTGGTAAATCACAAGAGATGAATGTTGACTTAGTTGGACAGAATATGCAAAATGAACAAACAATGCTTGACAGAGATACATTGATAGAGATATCTTTTGAATATGATTGCAAGAATAAGTTCGCAAATGATGAGGATGATATATTTTCTAGTTTAGTAGGAGGAAATCCAGTGGCAATCTTTGGTGCTGATGATACTGCAGCAACCGAACAACCTTCTCATTCTGATTCAGATTGTGATTGGGAAGAAGGAATTCTCGAAGGTAAGAGTAATGCTTATCCTGAACATGACGTGGTAGAATTGAAGTCTTCTGTTGCAGATGATCATAAAAATAATGAAAGAGAAGTAGAATGGGAGGAAGGAGATTGTGATGGTGCTAACAGCACCTTACTGTCAGGAAAATTGGCATCTCAAGGGTGGTTGGAGGAGGAGTCTGATTTGCAAGAGGCAATAAGGAGAAGTCTTGAAAGTATAGGGGATATGAAACTTAAATGCATGCCAGCTGTAGATGAGCATTCAAATACTTATGAGAACAAATTGGATTGTGGTTTAGAACATGGTGATGATCTGTATTATTCTGACCCTGTGGATTTAAATGACAACGTTGGGTTTCTGAATAATAAAAATAGGGAAGACAGTACTGAAAAAAATGAATTACATGAAATTGAAGATGGAGATAAAAAGCATGATTTTGTTTCTGGCAATAATGAACAAACTTTCCATTTTCATGGAAGTCAGTCAAAGTCATCTGTGACTTTTAATTCCAATAACACTGAGATATTGATCGACACACCTTGCAGAATGGACAGTCACTCTTGTTTTGTAGATTCAATTTCAGATACAAATGTAATGACGAAGGACCTAGTCCCTATGGTTGCTGAGCAATTATTGGATAAACATGATGATGGTAAAGTGTCTTTCTATTGTGACAATACATCCAAGGTTGATCCAGTTGGTGCAACTGAAGAGGGGAAAAAAAACTATATTCAAGAATCTGAACCATTGAGTAATTCTACTGACACTACCAAACCTGCTATTTTGGTAGAGTCATCCTTGAAAGGATCAACAGAAGACCTTGATATTGAGCCAAAATTGCCTTCAGAGGACAGTAATAGAAATTTCTACGAGGAAAGGAATAGTAGCCTTGGCAATGATGTGGTTAACACCCCGGGACATTTTCCTGCTCATGCAGCTGAGGTTAGCTTGGAGGAAGAAATGCAAATTCTTGGTCAAGAATATATCAACCTAGAAAATGAGCAGAGGAAGCTAGAGCGGAATGCAGAATCTGTAAACAGTGAATTATTCACTGAATGTCAGGAACTACTGCAAATGTTTGGCTTGCCATATATTATTGCTCCAATGGAAGCAGAAGCTCAATGTGCTTATTTGGAACTTGAGAAACTAGTTGATGGTGTTGTGACTGATGACTCTGATGTCCTTTTATTTGGGGCACGCAGTGTTTACAAAAATATATTTGATGACCGCAAATATGTAGAGACATACTTCATGGAGGATATTGAAAAGGAGCTTGGATTGACCAGAGAAAAATTAATACGCATGGCTCTACTTCTTGGGAGTGATTATACTGAAGGTGTAAGTGGGATTGGCATTGTTAATGCTATTGAGGTTGTGAATGCATTCCCTGAGGAAGATGGCCTCCTGAAATTCCGGCAATGGGTTGAGTCACCGGATCCCACCATCCTTGGAAGGTTGGATGCAAATAGTGGTTCAAATTCCAGAAAGAAAGGGTCAAAAATTGAAGAAAAGATGAATTCCTCAAGTTGCAATGTTAAAGAGTCTGCGGTGATGCAAAACATCTGCCATGCTCAGGAGCAAAATGAGTTGTCAGATTACATCCAAGAAATAAAACAAACTTTCTTCAATAAGCATAGAAATGTTAGCAAGAATTGGCACATTCCTTCTTCTTTTCCAAGTGATACTGTTATATCTGCTTACTATTCTCCCCATGTTGATAAATCCACTGAGCCATTCACATGGGGAAAGCCAGATCATCTTGTTCTTCGAAAATTGTGCTGGGAGAAATTTGGGTGGACTGGCCAGAAAGCAGATGAATTGATCCTACCAGTCTTAAAGGAGTATAACAAGCGTGAGACTCAATTGCGGTTGGAAGCATTTTACAATTTTAATGAAAGATTTGCAAAAATTCGTAGTAAAAGAATTAAGAAAGCGGTAAAAGGAATCACTGGTAAGCAGCCTTCAGATTTGATAGATGATTCTGCAGAAGAGTTCTCCAAGAGTAGGAAGACTGGGAGAGAACCTGAGGATATCACATTGGAGACTTCAAGGGGAATAGAGGGAAATCTTGAGGGTAGAAGGAAATCAAAAATAAAACAGTCAAGGAAGAATGATACTGTTGCTAAGGAACAGTCAAAGAAAAAGAAAGTCAATGATGATCCCTCTTCAGCACCTGGTACATCTGAGATTGAGAATTTACAGCCAAGTCTGCAGATAGAAGAAGAGCAACATGATGGTAAGGCATTGATTCGGAATAGAAGTGGCAGAGGAAGAGGTAGAATTATGGGAATAAAAAGAGGAAGGGATAACAAAGGTCTCAGTTTTCAATCTTGCGAAACTGAAGCCTCATCTGGTAGCAGTGACATTGATGATCATGGGCCAAGAGTGCATGTGGATAGAGTTCCAAAAGATGTGCGAAGGGTGAACCTTCATTCCGATTTTTCTGATTTATAAAATGAAAAATATATAGGCTCTGTTTGGATAAATTTTTCTAAAAGTACTTATAGGAGAAAAATATAAGATAAGATCATTGAGCTTTGTCATAATCTATAATAAACTTATACTCCTTAACTTATGTGAGAAGCTCAATTCATTTTACCTTATTTTATTCTCCTACAAGTACTTATAGAGAAGTATATCCAAACAGGGCCATACAGTGTTCATTAAGTTGTTTCTTTGTTGGCAACCTTCCTTAATTCTTAATCA
>Glyma01g16370.2 sequence type=CDS gene model=Glyma01g16370 sequence assembly version=Glyma 1.0 annotation version=1.1 JGI Gene Call confidence=high ATGGGAGTCCACGGTCTCTGGGAACTCCTCGCCCCCGTCGGTCGCCGCGTCTCCGTCGAAACCCTTGCCGGAAAAACCCTAGCCGTTGATGCGAGCATATGGATGGTACAGTTTGTCAAAGCGATGCGCGACGAGAAGGGCGAAATGGTTCGCAACGCCCATTTGCTGGGCTTCTTCCGTCGCATTTGCAAACTTCTTTTCCTCCGCACCAAGCCGGTCTTCGTCTTCGACGGCGGGACCCCTGCCCTCAAGCGCCGCACTGTCATTGCACGCCGCCGCCAGCGTGAAAACGCCCAAGCCAAAGTCCGCAAAACCGCCGAGAAATTGCTGCTCAATCATTTAAAGGCATTAAGGTTGAAGGAACTGGCTGATGATCTTAAGAACCAAAGGATGAAGAAGAATAGTGATACTAAGGGTCAGAAAAAATCTAATCAGAAGGACTTTGTTGGAAGTGATTTAGGAGGAAGTCATGTGAAAGAGCTAGATGAAATGTCTGTGGCTAAATATGCAGCTAAGGAGGACGGAAATTCTTCGCAGGCAACAATATTGACTACTTACAACCAGGAGGAACTTCATGAAATGTTGGCAGCGTCTATAGCTGCAGAGAAAAATGGCATACATGCCAGAAAAGGAATGCCGTCTATTGTAATTAATCCTTTAGAGGAGGAACGTGATGCAGACGAACAAATTATATTGCCATCAGTAAATGCAGAAGTTGATATGGCTGTATTAGCTGCCTTACCACAATCAATGCAACTTGATATTCTTGCACAGCTTAAAGGAAAGAAAACCGAAGGACTAGTAAAGGAAGTTGACAATCAGAATCAACATGATGTCAATTATCGGGGCAAGGGTAAGGGGATTCTGCTCATTGAAGCTGACATGGTAGGTTGTAGCTCCAGACATGACAATGTTACATCAAGGAGTGACAATCAACACTCAATTGATGAAATGTTAGCTGCATCTATTGCTATGGAGGAAAATGAAGAGTTAGTAAATAATACATCAACTTCTGTTGGGGCTTCCGCTATTGAGGAAGAGGAAGTTGACTATGATGAAGATGAAGAAATGATACTGCCAGCTATGCATGGTAAAATTGATCCTGCTGTTCTAGCCTCATTGCCTCCATCAATGCAACTGGACCTTCTTGTTCAGATGAGAGAGCGTTTGATTGCAGAGAACAGACAAAAGTATCAGAAAGTCAAAAAGGATCCAGCAAAATTCTCTGAGCTACAGATACAAGCTTACCTTAAAACTGTCGCTTTCAGACGGGACATAGATGAAGTGCAGAAAGCTGCAGCTGTAGGAGGAGTAGGTGGTGTACAGACTTCACGGATTGCATCTGAAGCCAACAGAGAATATATTTTCTCGTCTTCTTTTACTGGTGATAAACAAGAACTTACCTCCACCAGCTTAGAGAAAAATAAAGATACACAACAGAAGGTCCAGGGAGTACATCCTTCACAGAACCTTACAGATAGCATTGTGGCAGGAAATGATTCTAATACTTCAAGCGGATTGGTTCACAATGAACCTGGTGAGCCTGCTGATGAAAGTATTCAGACATATCTTGATGAGAGGGGTCGGTTTCGAGTTAGTAGATTGAGAGCTATGGGGATGCGTATGACCTGTGATATACAACGGAATTTGGATTTGTTGAAGGAGATTGAGCAGGAAAGAGCATATGTGAACAAGGCTGCGAATATTGGAACAGTGGAAAATGCTGAGAATAATGGTCCATATGAAAGTTCTGGGATCCAGCTTGTTGGTAAATCACAAGAGATGAATGTTGACTTAGTTGGACAGAATATGCAAAATGAACAAACAATGCTTGACAGAGATACATTGATAGAGATATCTTTTGAATATGATTGCAAGAATAAGTTCGCAAATGATGAGGATGATATATTTTCTAGTTTAGTAGGAGGAAATCCAGTGGCAATCTTTGGTGCTGATGATACTGCAGCAACCGAACAACCTTCTCATTCTGATTCAGATTGTGATTGGGAAGAAGGAATTCTCGAAGGTAAGAGTAATGCTTATCCTGAACATGACGTGGTAGAATTGAAGTCTTCTGTTGCAGATGATCATAAAAATAATGAAAGAGAAGTAGAATGGGAGGAAGGAGATTGTGATGGTGCTAACAGCACCTTACTGTCAGGAAAATTGGCATCTCAAGGGTGGTTGGAGGAGGAGTCTGATTTGCAAGAGGCAATAAGGAGAAGTCTTGAAAGTATAGGGGATATGAAACTTAAATGCATGCCAGCTGTAGATGAGCATTCAAATACTTATGAGAACAAATTGGATTGTGGTTTAGAACATGGTGATGATCTGTATTATTCTGACCCTGTGGATTTAAATGACAACGTTGGGTTTCTGAATAATAAAAATAGGGAAGACAGTACTGAAAAAAATGAATTACATGAAATTGAAGATGGAGATAAAAAGCATGATTTTGTTTCTGGCAATAATGAACAAACTTTCCATTTTCATGGAAGTCAGTCAAAGTCATCTGTGACTTTTAATTCCAATAACACTGAGATATTGATCGACACACCTTGCAGAATGGACAGTCACTCTTGTTTTGTAGATTCAATTTCAGATACAAATGTAATGACGAAGGACCTAGTCCCTATGGTTGCTGAGCAATTATTGGATAAACATGATGATGGTAAAGTGTCTTTCTATTGTGACAATACATCCAAGGTTGATCCAGTTGGTGCAACTGAAGAGGGGAAAAAAAACTATATTCAAGAATCTGAACCATTGAGTAATTCTACTGACACTACCAAACCTGCTATTTTGGTAGAGTCATCCTTGAAAGGATCAACAGAAGACCTTGATATTGAGCCAAAATTGCCTTCAGAGGACAGTAATAGAAATTTCTACGAGGAAAGGAATAGTAGCCTTGGCAATGATGTGGTTAACACCCCGGGACATTTTCCTGCTCATGCAGCTGAGGTTAGCTTGGAGGAAGAAATGCAAATTCTTGGTCAAGAATATATCAACCTAGAAAATGAGCAGAGGAAGCTAGAGCGGAATGCAGAATCTGTAAACAGTGAATTATTCACTGAATGTCAGGAACTACTGCAAATGTTTGGCTTGCCATATATTATTGCTCCAATGGAAGCAGAAGCTCAATGTGCTTATTTGGAACTTGAGAAACTAGTTGATGGTGTTGTGACTGATGACTCTGATGTCCTTTTATTTGGGGCACGCAGTGTTTACAAAAATATATTTGATGACCGCAAATATGTAGAGACATACTTCATGGAGGATATTGAAAAGGAGCTTGGATTGACCAGAGAAAAATTAATACGCATGGCTCTACTTCTTGGGAGTGATTATACTGAAGGTGTAAGTGGGATTGGCATTGTTAATGCTATTGAGGTTGTGAATGCATTCCCTGAGGAAGATGGCCTCCTGAAATTCCGGCAATGGGTTGAGTCACCGGATCCCACCATCCTTGGAAGGTTGGATGCAAATAGTGGTTCAAATTCCAGAAAGAAAGGGTCAAAAATTGAAGAAAAGATGAATTCCTCAAGTTGCAATGTTAAAGAGTCTGCGGTGATGCAAAACATCTGCCATGCTCAGGAGCAAAATGAGTTGTCAGATTACATCCAAGAAATAAAACAAACTTTCTTCAATAAGCATAGAAATGTTAGCAAGAATTGGCACATTCCTTCTTCTTTTCCAAGTGATACTGTTATATCTGCTTACTATTCTCCCCATGTTGATAAATCCACTGAGCCATTCACATGGGGAAAGCCAGATCATCTTGTTCTTCGAAAATTGTGCTGGGAGAAATTTGGGTGGACTGGCCAGAAAGCAGATGAATTGATCCTACCAGTCTTAAAGGAGTATAACAAGCGTGAGACTCAATTGCGGTTGGAAGCATTTTACAATTTTAATGAAAGATTTGCAAAAATTCGTAGTAAAAGAATTAAGAAAGCGGTAAAAGGAATCACTGGTAAGCAGCCTTCAGATTTGATAGATGATTCTGCAGAAGAGTTCTCCAAGAGTAGGAAGACTGGGAGAGAACCTGAGGATATCACATTGGAGACTTCAAGGGGAATAGAGGGAAATCTTGAGGGTAGAAGGAAATCAAAAATAAAACAGTCAAGGAAGAATGATACTGTTGCTAAGGAACAGTCAAAGAAAAAGAAAGTCAATGATGATCCCTCTTCAGCACCTGGTACATCTGAGATTGAGAATTTACAGCCAAGTCTGCAGATAGAAGAAGAGCAACATGATGGTAAGGCATTGATTCGGAATAGAAGTGGCAGAGGAAGAGGTAGAATTATGGGAATAAAAAGAGGAAGGGATAACAAAGGTCTCAGTTTTCAATCTTGCGAAACTGAAGCCTCATCTGGTAGCAGTGACATTGATGATCATGGGCCAAGAGTGCATGTGGATAGAGTTCCAAAAGATGTGCGAAGGTCAATGCGATCTCGGAAACCTGTCAACTATTCTTTCAAAGAGCCTGAAGATGAAGATTCTGATGATTCATTTGATCGGAGAAATCAGACTGGTCCAATAGAAGAAAATTTATCTCATATTCTTGGTGCTTGTGAAGATGGTGCAACAGATTTCAGCATGGCGAAAGAATGCAGTGCAATGAATTTTCCTCCAGAGGAGAACTTGCCTACAGACTCCCTTGAGTCAGGTGGTTGGTTTTGCACAGATGCCGGTGAAACTTGTCATCCTGGTACTGGCAATCAGGACTCTTCTGATGACTACCTTAAAATGGGAGGTGGATTCTGTTTAGATGATGGTGATACAGGTGTCAAGCAGGATACAAGTGACAATGTCGATACTGCTACAGTCGATTATAATGCAGACTTTCCACACGGTTCTGATTATTTGGATGAAACTAATCGTGATAAAAGTAGTTCAGATATATTATTTTCTGGCGCTGAAAAGCCTGAAAATGGGATACAAGGTGGAGGGCCATTCAATATAGAGCCAAATGACCTTGCAAGTGCTAGTAGTTATGATCATTCTGATATAGCGGTCTTGAAACAGGAGAATACTCGCAACAATAGTGGAGCCTCCACTGGAGCATTTAGTGCCATGCCGTTTTTGAAGAGAAGAAGGAAAAACTGA >Glyma01g16370.3 sequence type=CDS gene model=Glyma01g16370 sequence assembly version=Glyma 1.0 annotation version=1.1 JGI Gene Call confidence=high ATGGGAGTCCACGGTCTCTGGGAACTCCTCGCCCCCGTCGGTCGCCGCGTCTCCGTCGAAACCCTTGCCGGAAAAACCCTAGCCGTTGATGCGAGCATATGGATGGTACAGTTTGTCAAAGCGATGCGCGACGAGAAGGGCGAAATGGTTCGCAACGCCCATTTGCTGGGCTTCTTCCGTCGCATTTGCAAACTTCTTTTCCTCCGCACCAAGCCGGTCTTCGTCTTCGACGGCGGGACCCCTGCCCTCAAGCGCCGCACTGTCATTGCACGCCGCCGCCAGCGTGAAAACGCCCAAGCCAAAGTCCGCAAAACCGCCGAGAAATTGCTGCTCAATCATTTAAAGGCATTAAGGTTGAAGGAACTGGCTGATGATCTTAAGAACCAAAGGATGAAGAAGAATAGTGATACTAAGGGTCAGAAAAAATCTAATCAGAAGGACTTTGTTGGAAGTGATTTAGGAGGAAGTCATGTGAAAGAGCTAGATGAAATGTCTGTGGCTAAATATGCAGCTAAGGAGGACGGAAATTCTTCGCAGGCAACAATATTGACTACTTACAACCAGGAGGAACTTCATGAAATGTTGGCAGCGTCTATAGCTGCAGAGAAAAATGGCATACATGCCAGAAAAGGAATGCCGTCTATTGTAATTAATCCTTTAGAGGAGGAACGTGATGCAGACGAACAAATTATATTGCCATCAGTAAATGCAGAAGTTGATATGGCTGTATTAGCTGCCTTACCACAATCAATGCAACTTGATATTCTTGCACAGCTTAAAGGAAAGAAAACCGAAGGACTAGTAAAGGAAGTTGACAATCAGAATCAACATGATGTCAATTATCGGGGCAAGGGTAAGGGGATTCTGCTCATTGAAGCTGACATGGTAGGTTGTAGCTCCAGACATGACAATGTTACATCAAGGAGTGACAATCAACACTCAATTGATGAAATGTTAGCTGCATCTATTGCTATGGAGGAAAATGAAGAGTTAGTAAATAATACATCAACTTCTGTTGGGGCTTCCGCTATTGAGGAAGAGGAAGTTGACTATGATGAAGATGAAGAAATGATACTGCCAGCTATGCATGGTAAAATTGATCCTGCTGTTCTAGCCTCATTGCCTCCATCAATGCAACTGGACCTTCTTGTTCAGATGAGAGAGCGTTTGATTGCAGAGAACAGACAAAAGTATCAGAAAGTCAAAAAGGATCCAGCAAAATTCTCTGAGCTACAGATACAAGCTTACCTTAAAACTGTCGCTTTCAGACGGGACATAGATGAAGTGCAGAAAGCTGCAGCTGTAGGAGGAGTAGGTGGTGTACAGACTTCACGGATTGCATCTGAAGCCAACAGAGAATATATTTTCTCGTCTTCTTTTACTGGTGATAAACAAGAACTTACCTCCACCAGCTTAGAGAAAAATAAAGATACACAACAGAAGGTCCAGGGAGTACATCCTTCACAGAACCTTACAGATAGCATTGTGGCAGGAAATGATTCTAATACTTCAAGCGGATTGGTTCACAATGAACCTGGTGAGCCTGCTGATGAAAGTATTCAGACATATCTTGATGAGAGGGGTCGGTTTCGAGTTAGTAGATTGAGAGCTATGGGGATGCGTATGACCTGTGATATACAACGGAATTTGGATTTGTTGAAGGAGATTGAGCAGGAAAGAGCATATGTGAACAAGGCTGCGAATATTGGAACAGTGGAAAATGCTGAGAATAATGGTCCATATGAAAGTTCTGGGATCCAGCTTGTTGGTAAATCACAAGAGATGAATGTTGACTTAGTTGGACAGAATATGCAAAATGAACAAACAATGCTTGACAGAGATACATTGATAGAGATATCTTTTGAATATGATTGCAAGAATAAGTTCGCAAATGATGAGGATGATATATTTTCTAGTTTAGTAGGAGGAAATCCAGTGGCAATCTTTGGTGCTGATGATACTGCAGCAACCGAACAACCTTCTCATTCTGATTCAGATTGTGATTGGGAAGAAGGAATTCTCGAAGGTAAGAGTAATGCTTATCCTGAACATGACGTGGTAGAATTGAAGTCTTCTGTTGCAGATGATCATAAAAATAATGAAAGAGAAGTAGAATGGGAGGAAGGAGATTGTGATGGTGCTAACAGCACCTTACTGTCAGGAAAATTGGCATCTCAAGGGTGGTTGGAGGAGGAGTCTGATTTGCAAGAGGCAATAAGGAGAAGTCTTGAAAGTATAGGGGATATGAAACTTAAATGCATGCCAGCTGTAGATGAGCATTCAAATACTTATGAGAACAAATTGGATTGTGGTTTAGAACATGGTGATGATCTGTATTATTCTGACCCTGTGGATTTAAATGACAACGTTGGGTTTCTGAATAATAAAAATAGGGAAGACAGTACTGAAAAAAATGAATTACATGAAATTGAAGATGGAGATAAAAAGCATGATTTTGTTTCTGGCAATAATGAACAAACTTTCCATTTTCATGGAAGTCAGTCAAAGTCATCTGTGACTTTTAATTCCAATAACACTGAGATATTGATCGACACACCTTGCAGAATGGACAGTCACTCTTGTTTTGTAGATTCAATTTCAGATACAAATGTAATGACGAAGGACCTAGTCCCTATGGTTGCTGAGCAATTATTGGATAAACATGATGATGGTAAAGTGTCTTTCTATTGTGACAATACATCCAAGGTTGATCCAGTTGGTGCAACTGAAGAGGGGAAAAAAAACTATATTCAAGAATCTGAACCATTGAGTAATTCTACTGACACTACCAAACCTGCTATTTTGGTAGAGTCATCCTTGAAAGGATCAACAGAAGACCTTGATATTGAGCCAAAATTGCCTTCAGAGGACAGTAATAGAAATTTCTACGAGGAAAGGAATAGTAGCCTTGGCAATGATGTGGTTAACACCCCGGGACATTTTCCTGCTCATGCAGCTGAGGTTAGCTTGGAGGAAGAAATGCAAATTCTTGGTCAAGAATATATCAACCTAGAAAATGAGCAGAGGAAGCTAGAGCGGAATGCAGAATCTGTAAACAGTGAATTATTCACTGAATGTCAGGAACTACTGCAAATGTTTGGCTTGCCATATATTATTGCTCCAATGGAAGCAGAAGCTCAATGTGCTTATTTGGAACTTGAGAAACTAGTTGATGGTGTTGTGACTGATGACTCTGATGTCCTTTTATTTGGGGCACGCAGTGTTTACAAAAATATATTTGATGACCGCAAATATGTAGAGACATACTTCATGGAGGATATTGAAAAGGAGCTTGGATTGACCAGAGAAAAATTAATACGCATGGCTCTACTTCTTGGGAGTGATTATACTGAAGGTGTAAGTGGGATTGGCATTGTTAATGCTATTGAGGTTGTGAATGCATTCCCTGAGGAAGATGGCCTCCTGAAATTCCGGCAATGGGTTGAGTCACCGGATCCCACCATCCTTGGAAGGTTGGATGCAAATAGTGGTTCAAATTCCAGAAAGAAAGGGTCAAAAATTGAAGAAAAGATGAATTCCTCAAGTTGCAATGTTAAAGAGTCTGCGGTGATGCAAAACATCTGCCATGCTCAGGAGCAAAATGAGTTGTCAGATTACATCCAAGAAATAAAACAAACTTTCTTCAATAAGCATAGAAATGTTAGCAAGAATTGGCACATTCCTTCTTCTTTTCCAAGTGATACTGTTATATCTGCTTACTATTCTCCCCATGTTGATAAATCCACTGAGCCATTCACATGGGGAAAGCCAGATCATCTTGTTCTTCGAAAATTGTGCTGGGAGAAATTTGGGTGGACTGGCCAGAAAGCAGATGAATTGATCCTACCAGTCTTAAAGGAGTATAACAAGCGTGAGACTCAATTGCGGTTGGAAGCATTTTACAATTTTAATGAAAGATTTGCAAAAATTCGTAGTAAAAGAATTAAGAAAGCGGTAAAAGGAATCACTGGTAAGCAGCCTTCAGATTTGATAGATGATTCTGCAGAAGAGTTCTCCAAGAGTAGGAAGACTGGGAGAGAACCTGAGGATATCACATTGGAGACTTCAAGGGGAATAGAGGGAAATCTTGAGGGTAGAAGGAAATCAAAAATAAAACAGTCAAGGAAGAATGATACTGTTGCTAAGGAACAGTCAAAGAAAAAGAAAGTCAATGATGATCCCTCTTCAGCACCTGGTACATCTGAGATTGAGAATTTACAGCCAAGTCTGCAGATAGAAGAAGAGCAACATGATGGTAAGGCATTGATTCGGAATAGAAGTGGCAGAGGAAGAGGTAGAATTATGGGAATAAAAAGAGGAAGGGATAACAAAGGTCTCAGTTTTCAATCTTGCGAAACTGAAGCCTCATCTGGTAGCAGTGACATTGATGATCATGGGCCAAGAGTGCATGTGGATAGAGTTCCAAAAGATGTGCGAAGGGTGAACCTTCATTCCGATTTTTCTGATTTATAA
>Glyma01g16370.2 sequence type=predicted peptide gene model=Glyma01g16370 sequence assembly version=Glyma 1.0 annotation version=1.1 JGI Gene Call confidence=high MGVHGLWELLAPVGRRVSVETLAGKTLAVDASIWMVQFVKAMRDEKGEMVRNAHLLGFFRRICKLLFLRTKPVFVFDGGTPALKRRTVIARRRQRENAQAKVRKTAEKLLLNHLKALRLKELADDLKNQRMKKNSDTKGQKKSNQKDFVGSDLGGSHVKELDEMSVAKYAAKEDGNSSQATILTTYNQEELHEMLAASIAAEKNGIHARKGMPSIVINPLEEERDADEQIILPSVNAEVDMAVLAALPQSMQLDILAQLKGKKTEGLVKEVDNQNQHDVNYRGKGKGILLIEADMVGCSSRHDNVTSRSDNQHSIDEMLAASIAMEENEELVNNTSTSVGASAIEEEEVDYDEDEEMILPAMHGKIDPAVLASLPPSMQLDLLVQMRERLIAENRQKYQKVKKDPAKFSELQIQAYLKTVAFRRDIDEVQKAAAVGGVGGVQTSRIASEANREYIFSSSFTGDKQELTSTSLEKNKDTQQKVQGVHPSQNLTDSIVAGNDSNTSSGLVHNEPGEPADESIQTYLDERGRFRVSRLRAMGMRMTCDIQRNLDLLKEIEQERAYVNKAANIGTVENAENNGPYESSGIQLVGKSQEMNVDLVGQNMQNEQTMLDRDTLIEISFEYDCKNKFANDEDDIFSSLVGGNPVAIFGADDTAATEQPSHSDSDCDWEEGILEGKSNAYPEHDVVELKSSVADDHKNNEREVEWEEGDCDGANSTLLSGKLASQGWLEEESDLQEAIRRSLESIGDMKLKCMPAVDEHSNTYENKLDCGLEHGDDLYYSDPVDLNDNVGFLNNKNREDSTEKNELHEIEDGDKKHDFVSGNNEQTFHFHGSQSKSSVTFNSNNTEILIDTPCRMDSHSCFVDSISDTNVMTKDLVPMVAEQLLDKHDDGKVSFYCDNTSKVDPVGATEEGKKNYIQESEPLSNSTDTTKPAILVESSLKGSTEDLDIEPKLPSEDSNRNFYEERNSSLGNDVVNTPGHFPAHAAEVSLEEEMQILGQEYINLENEQRKLERNAESVNSELFTECQELLQMFGLPYIIAPMEAEAQCAYLELEKLVDGVVTDDSDVLLFGARSVYKNIFDDRKYVETYFMEDIEKELGLTREKLIRMALLLGSDYTEGVSGIGIVNAIEVVNAFPEEDGLLKFRQWVESPDPTILGRLDANSGSNSRKKGSKIEEKMNSSSCNVKESAVMQNICHAQEQNELSDYIQEIKQTFFNKHRNVSKNWHIPSSFPSDTVISAYYSPHVDKSTEPFTWGKPDHLVLRKLCWEKFGWTGQKADELILPVLKEYNKRETQLRLEAFYNFNERFAKIRSKRIKKAVKGITGKQPSDLIDDSAEEFSKSRKTGREPEDITLETSRGIEGNLEGRRKSKIKQSRKNDTVAKEQSKKKKVNDDPSSAPGTSEIENLQPSLQIEEEQHDGKALIRNRSGRGRGRIMGIKRGRDNKGLSFQSCETEASSGSSDIDDHGPRVHVDRVPKDVRRSMRSRKPVNYSFKEPEDEDSDDSFDRRNQTGPIEENLSHILGACEDGATDFSMAKECSAMNFPPEENLPTDSLESGGWFCTDAGETCHPGTGNQDSSDDYLKMGGGFCLDDGDTGVKQDTSDNVDTATVDYNADFPHGSDYLDETNRDKSSSDILFSGAEKPENGIQGGGPFNIEPNDLASASSYDHSDIAVLKQENTRNNSGASTGAFSAMPFLKRRRKN* >Glyma01g16370.3 sequence type=predicted peptide gene model=Glyma01g16370 sequence assembly version=Glyma 1.0 annotation version=1.1 JGI Gene Call confidence=high MGVHGLWELLAPVGRRVSVETLAGKTLAVDASIWMVQFVKAMRDEKGEMVRNAHLLGFFRRICKLLFLRTKPVFVFDGGTPALKRRTVIARRRQRENAQAKVRKTAEKLLLNHLKALRLKELADDLKNQRMKKNSDTKGQKKSNQKDFVGSDLGGSHVKELDEMSVAKYAAKEDGNSSQATILTTYNQEELHEMLAASIAAEKNGIHARKGMPSIVINPLEEERDADEQIILPSVNAEVDMAVLAALPQSMQLDILAQLKGKKTEGLVKEVDNQNQHDVNYRGKGKGILLIEADMVGCSSRHDNVTSRSDNQHSIDEMLAASIAMEENEELVNNTSTSVGASAIEEEEVDYDEDEEMILPAMHGKIDPAVLASLPPSMQLDLLVQMRERLIAENRQKYQKVKKDPAKFSELQIQAYLKTVAFRRDIDEVQKAAAVGGVGGVQTSRIASEANREYIFSSSFTGDKQELTSTSLEKNKDTQQKVQGVHPSQNLTDSIVAGNDSNTSSGLVHNEPGEPADESIQTYLDERGRFRVSRLRAMGMRMTCDIQRNLDLLKEIEQERAYVNKAANIGTVENAENNGPYESSGIQLVGKSQEMNVDLVGQNMQNEQTMLDRDTLIEISFEYDCKNKFANDEDDIFSSLVGGNPVAIFGADDTAATEQPSHSDSDCDWEEGILEGKSNAYPEHDVVELKSSVADDHKNNEREVEWEEGDCDGANSTLLSGKLASQGWLEEESDLQEAIRRSLESIGDMKLKCMPAVDEHSNTYENKLDCGLEHGDDLYYSDPVDLNDNVGFLNNKNREDSTEKNELHEIEDGDKKHDFVSGNNEQTFHFHGSQSKSSVTFNSNNTEILIDTPCRMDSHSCFVDSISDTNVMTKDLVPMVAEQLLDKHDDGKVSFYCDNTSKVDPVGATEEGKKNYIQESEPLSNSTDTTKPAILVESSLKGSTEDLDIEPKLPSEDSNRNFYEERNSSLGNDVVNTPGHFPAHAAEVSLEEEMQILGQEYINLENEQRKLERNAESVNSELFTECQELLQMFGLPYIIAPMEAEAQCAYLELEKLVDGVVTDDSDVLLFGARSVYKNIFDDRKYVETYFMEDIEKELGLTREKLIRMALLLGSDYTEGVSGIGIVNAIEVVNAFPEEDGLLKFRQWVESPDPTILGRLDANSGSNSRKKGSKIEEKMNSSSCNVKESAVMQNICHAQEQNELSDYIQEIKQTFFNKHRNVSKNWHIPSSFPSDTVISAYYSPHVDKSTEPFTWGKPDHLVLRKLCWEKFGWTGQKADELILPVLKEYNKRETQLRLEAFYNFNERFAKIRSKRIKKAVKGITGKQPSDLIDDSAEEFSKSRKTGREPEDITLETSRGIEGNLEGRRKSKIKQSRKNDTVAKEQSKKKKVNDDPSSAPGTSEIENLQPSLQIEEEQHDGKALIRNRSGRGRGRIMGIKRGRDNKGLSFQSCETEASSGSSDIDDHGPRVHVDRVPKDVRRVNLHSDFSDL*
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