Glyma10g36251 - SoyBase

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Report for Sequence Feature Glyma10g36251

Feature Type:	gene_model
Chromosome:	Gm10
Start:	44448485
stop:	44458944
Source:	JGI
Version:	Wm82.a1.v1.1
High confidence:	yes

A newer version of this gene model can be found here:

Annotations for Glyma10g36251

Database ID	Annotation Type	Annotation Description	Annotation Source	Match Score	Evidence Code
AT1G34260	AT	Annotation by Michelle Graham. TAIR10: FORMS APLOID AND BINUCLEATE CELLS 1A \| chr1:12485967-12491799 FORWARD LENGTH=1456	SoyBase	E_val: 0	ISS
GO:0044267	GO-bp	Annotation by Michelle Graham. GO Biological Process: cellular protein metabolic process	SoyBase	N/A	ISS
GO:0046488	GO-bp	Annotation by Michelle Graham. GO Biological Process: phosphatidylinositol metabolic process	SoyBase	N/A	ISS
GO:0005634	GO-cc	Annotation by Michelle Graham. GO Cellular Compartment: nucleus	SoyBase	N/A	ISS
GO:0005524	GO-mf	Annotation by Michelle Graham. GO Molecular Function: ATP binding	SoyBase	N/A	ISS
GO:0016307	GO-mf	Annotation by Michelle Graham. GO Molecular Function: phosphatidylinositol phosphate kinase activity	SoyBase	N/A	ISS
GO:0016308	GO-mf	Annotation by Michelle Graham. GO Molecular Function: 1-phosphatidylinositol-4-phosphate 5-kinase activity	SoyBase	N/A	ISS
KOG0230	KOG	Phosphatidylinositol-4-phosphate 5-kinase and related FYVE finger-containing proteins	JGI		ISS
PTHR23086	Panther	PHOSPHATIDYLINOSITOL-4-PHOSPHATE 5-KINASE	JGI		ISS
PTHR23086:SF7	Panther	SUBFAMILY NOT NAMED	JGI		ISS
PF00118	PFAM	TCP-1/cpn60 chaperonin family	JGI		ISS
PF01504	PFAM	Phosphatidylinositol-4-phosphate 5-Kinase	JGI		ISS
UniRef100_B9T500	UniRef	Annotation by Michelle Graham. Most informative UniRef hit: Phosphatidylinositol-4-phosphate 5-kinase, putative n=1 Tax=Ricinus communis RepID=B9T500_RICCO	SoyBase	E_val: 0	ISS
UniRef100_UPI000233DB02	UniRef	Annotation by Michelle Graham. Best UniRef hit: UPI000233DB02 related cluster n=1 Tax=unknown RepID=UPI000233DB02	SoyBase	E_val: 0	ISS

Expression Patterns of Glyma10g36251

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

Glyma10g36251 not represented in the dataset	Glyma10g36251 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

Paralogs of Glyma10g36251

Paralog	Evidence	Comments
Glyma20g31341	IGC	Paralogs in soybean determined by Steven Cannon using BLAST, DAGChainer, PAML, and selection of gene pairs from synteny blocks with median Ks values of less than 0.3.

Gene model name correspondences to Glyma10g36251 Gene Call Version Wm82.a1.v1.1

Corresponding Name	Annotation Version	Evidence	Comments
Glyma.10g218400	Wm82.a2.v1	IGC	As supplied by JGI

References for Glyma10g36251

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

Transcripts of Glyma10g36251

Limit To All Plant Sequences

>Glyma10g36251.2   sequence type=transcript   gene model=Glyma10g36251   sequence assembly version=Glyma 1.0   annotation version=1.1   JGI Gene Call confidence=high
CTTCGTTGTGTTTTATTCTTTTTCTTCTTCTTCTTCCTACTTCTTTTCCTCTTCACACAGTTCTCTTGTTTTTTTTCTTCCATTCAGCAATTCTTCCATTCTTCATATCTCTCCTTTCTCTTGCTTACCCTCTTCTGTTTCCTCCTAAAAGATTGCGACTTTGCCTATGTGGCTCGGTTTCTTTGACTCGTTCACACCAAATTCTTTGCTTATTTCTGAAAACAGTGCAATTTTGTGTCTTTAGGAGCTCGGATTCATTTGGGGGTCACATCCTTGTATTTGTTCTTGGGTTTGCTTTGACGAATAAGTGATCAAAATCAGGCCTCTTTATAATATAGTTTCTGGATCAGTGTTGGATCGGATGTGTAGTATGTGCCGTTATTGTGGTGTGGGCTTGTCAGAATCAAATTTTGACAACAAGAAACAGGGAAATGAGAGTAGTCTAAAGTTGAATGGTAAAGTTTCCATTAGGCCTTGCAAATCTTGTGGAGAGAAGCTAGAGCGAGCAAATGCGAAATGGCATAGTACAAGTCCTTATGCAACACCACTTATCAGTCCAACTACGTCATTGCTAAGTACTGATAGCTGTGTCTCCACTTGCAGTGAGTTTTCAGTTGATGTGAACTCATGTGATAGGAATAGTCAAGAAGAAAGTTCAGTTGAAGGTGTTGTGGAAGAGCTTGATTATAAGTTGAATGGTTCACCAAAAGTGATGGAAAACAATAACAACAATGAGGGTTACACAGTGAGAGATGTGGAGATTGCACAAGGACATAACTTTCAAGAAGTAAAAGCTGATTTTTCTGAAGAACCTACTGCATCCTCTGCTGCTGAAGAAGCTGAATATTCTCTTCCTGATGATTTGGATGTCCAAACTTGGGAACCTCCTGAGCCAGAAAACCCACAGGATGATATGGAAAATAGTGTGACTTGTAATGACGACGATGAAGACCAGGGCCTAGGGATTGCAAACTGGGGTGAGCCTACCTCTATGAGTAGTTCTGAGAATGAATTAAGTGGGAGCTATAGGTTCAAAGAGGAAAAACAAAGAGCAATGGAAGAAGTAATGAATGGGAAATTCAAGGCACTTGTTGGTCAGCTTCTTAAATCTGTGGGAGTTTCCTCTTCTGATCAATGTGATAAGAGTTGGGTGGACATAGTTACATCTTTATCATGGGAAGCTGCTTCTTTTTTGAAGCCTGGTGCCATTGGAGCTAATGCAATGAATCCTGATGGATATGTTAAAGTGAAGTGCATTGCTGCTGGTTCCCGCAGCGAAAGTCAACTGATCAGAGGTTTGGTCTTCAAAAAACATGCTGCTCACAAGCATATGCCTACTAAGTATAAAAATCCAAGATTATTACTGATCAGCGGTGTGCTTGGCCATTCTATCAATGGGCTGTCCTCATTTGACTCCATGGACCAGGAGAAAGATGATCTGAAATCTAAAATGGATCGTATAGAAATGTGTCATCCAAATGTTATATTAGTGGAGAAAACTGTTTCTCGTGATATACAAGAGTCAATTTTGGCAAAGGGAATGACACTTGTGCTTGATATGAAGCTTCATCGTCTAGAAAGAGTTGCATGTTGTACTGGTTCACCAATTTTATCATGCGATAATTTGAACGGTCAAAAGCTAAGACACTGTGACTTTATCTATTTTGAGAAGTTTGTGGAGGAACATGATGCTGTTGGTGAAGGAGGAAAGAAGCCCATCAAGACTTTGATGTTCATTGAGGGCTGTCCTACACGTTTGGGCTGCACGATTTTACTGAAAGGTACACACAGTGATGAACTGAAGAGGATCAAATGTGTCATGCGGTGTGCAGTTGTCATGGCATATCATTTAATCCTTGAAACCTCCTTTCTTGTTGATCAGAAAGCAATGTTCTCTACCATTCCTGCTGTGAGTGTAGCAGATATCTTGCCAACTGATAAAAAATCCTGTGATTTAGCATCCACTAATTCAAGCATTCCATCTCTTGAGTATTCTGCTGAGAATGGAATAGTTAGTACTGATATTCCCATATGCAATGGACTTCATGAAAACAACATCAATGGTTTAAACCTAGGATCAGAGGAGTTTTCTCCATTCTCTTGTGAACCATATAATCCAGCCGTATTTTCTGGGTTCTCAGCTATTTCATCTTCTCTTAAAAAGGTTATGGGGGACAGTTTTCCCTTTGCATCTTCTGCTCCTTATCAATCTTTATCAGCTTACTTTGGCTTCAATGGAAGGAAACCTGACGGTCAGGTTAATGAGTCGATTTCTGTTTTAAACTCTCTGGAGGCTGATGAAAATACCATGATGGAAGCAAAAAGTCATTCTAATGAAGTGAAGTTACTTAATGGTGGACAATCCCTGTCTTCACCTGTGCATTTAGATTCCAATGGGGATATAAGTAAATATGATGAAAATAATAGAAAAGAACTCCAACGTAAAGATGATATCAATGCAGTGTTGGATTCTCAGAGTATTTTGGTCTTGATGTCTAGATGGAATGCCTTAAGAGGGACTGTATGCCAGCAAAGTCATTTTTCACATATTATGTTCTACAAGAATTTTGATATTCCACTTGGAAAATTTCTGGAGGATAACTTACTCAATCAGACAAGACTTTGTGATGCCTGTCAAGAATTGCCAGATGCCCACTTTTATTATTATGCTCATCACAGTAAGCAGCTTACTATCCAAGTTAAATGCTTGCCCCAGGAAAAAAGTTTGCCTGGGGAGGCAGAAGGGAAAATTTGGATGTGGAGCCGTTGTCGAAAATGCAAGTCTGGTTCTACAAAGAGAGTGCTGATATCCACCACTGCCCGTAGTTTATCATTTGGAAAATTTTTGGAGCTCAGCCTTTCTTACTATTCTTCTAGCAGAAAATTGAGTTGTGGACATTCTCTTGATAGGGATTTTCTCTATTTCTTTGGATTAGGTCACATGGTTGCAATGTTCAGATATTCTTCTGTTGCCACATATTCTGTGTGTATGCCTCCTCGAAAGCTGGAGTTCTGTGGTGCAATAAGACAAGAGTGGCTTTTGAAAGAGACTCAGAATGTGTATATGAAAGGCATAACATTATTCACCGAAGTTGCAAACTGTTTGAAGACAATACAATTTGATGGCCTTGGAGGATCAATTAGAGATTTGTCTGAAGTTGAGAAGATGTTCAAGCAAGAGCAAGAAGAATTCGAGGCAAACATCAAGACTGCTGTTGCTAAAAAAGGGGATCCAGACCAGGCTGCCTTCAAACTTCTCAGTTTAAACCGATTGATGTGGGATCTTTTGCTTCAATCCTATGTGTGGGTCCGGCGCTTGTACCCATTACACTCACCTGATGGTTTAAGACTTGAATCTGATGTCTCTGAGAAAGTTATGCATGAACATGATTATTCAAAGGTGGAAGGTATTGCTAGTAGAGAAACTGGGTCTATGGGTAATTTTATGGAAGATGGGGATGCCAATGTAAAAATTATGTTTGGCTCATCTGTGCAAGTAAATGAACTACCGATAAAGGAAATTCCTATCAGTGGACCTTTTCTAGAGTGCAATGAACTGGCTGATCCATCTAACGCACAGAATGAGAGGATACCGATTGTTGATGATTTGAGATCAAGAAGATCTTCTGACCAAAACTTGAATTTGAGTCTGGATGTTATACCAACTCATCTTGAAGTAGGTGAAAACTCTCCAGTTTCTACAGATATTCAAACTAATCATTTGGTTGCTGATTTAAAGGTATTAAACAAAATTTCTTCCTTTCATTCACCAATTTCCAACATGCTGGATTCAAATGATTGGTTCTGGAAGCCATTTGCTGACATTCGACAGATAGGCATAAAGGAATTCCAGAAAAGATTATTGCCAAAATTTGAATTTGTAAGCAGCTCTATTGCTGAATATATACCCACAGCCCATCAATTAATCACTGAGGAAGGTACAAGGTTGCATATCCCTCTCAAGACTGACAATCATGTTGTGTCTGACTTCGAGGGTGAACCCTCAAGCATAATTGCTTGTGCACTGGCCTTATTGAAAGATGCATATGAGGTGTCAGAAATTGATGATGAGGATGAGAGAAACGAAAGTGGAATAACTTCAAACTCAACAGAATGTTTGCATGGCTTGACCAATGGTGCTGCCTTAACTTCTTCACACTCATTTTCAAGAAGTTCTTCAGATTCAGATTCTGTGCATTCTGCAGGAAGCACTTCTTCAGAAGAGTCACGAGCCTCTCGTGCTACAGAAAACCATAGCATAGAGATTGCTATGGGTTATGCTAAATCACTTGGGAGGGAAAAATATTCAGTGATATGTCATTATTTTAAGCAGTTCCGTGAACTTAGAAATTGGTGTTGCCTATCTGAGCTTGATTTTATTGCTTCTTTAAGCCGCTGTAGGAATTGGGATGCCAAAGGTGGAAAAAGCAAGTCCTATTTTGCAAAAACACTTGATGACAGATTCATCATAAAGGAGATTAAGAAGACAGAACTTGATTCATTTTTGGGGTTTTCTTCTCTGTATTTCAAACACGTGAGAGAATCATTTGAGTCTGGCAGCCAAACTTGTCTTGCAAAAGTCTTGGGGATATATCAGGTTACTAAAAGACACGTTAAAAGTGGAAAAGAGGTTAAATATGACCCCCTCATGGTGATGGAAAATCTTACCTACAATAGAAATATTACTCGCCAGTATGATCTTAAAGGTGCTCTTTATGCCCGGTACAATTCTGCTGCTGATGGAGCTGGAGATGTTCTGTTGGATCAGAACTTTGTGAATGACATGAACTCGTCCCCATTATATGTCAGTCTTAAAGCAAAGCGTTATCTTCAACGTGCTGTTTGGAATGACACATCTTTTCTGAATTCTATCAATGTGATGGATTACTCCTTGCTTGTTGGAGTAGATTCTCAGAAGAGCGAGCTTGTCTGTGGGATCATTGATTATCTCAGGCAGTATACGTGGGATAAACATCTTGAGACATGGATGAAGTCTTCACTTGTTGTGCCAAAAAATGTGTTGCCGACTGTAATATCTCCTAAAGAATACAAAAAGAGGTTCAGAAAGTTTATGTCTACATATTTTTTGAGTGTTCCAGATCACTGGTGTTCCCAGAAATCCTCCAATCCTTGCAAACTTTGTGGCTCAGGGGAAGATGACCCTTCTCAGCAAAAGCCCTAGCACAAGAGTGCCAAGTGGTTTCTCTGTCCAAATCTTTTTGATTTAATTTCTCAAAAGAAAAAAAAATACAAATTGAGAATTTATGCAAGTAGTTAGCAGTACTGTATATAGACAGTCAATATTGATTATAAACCTAGCCCCCTGCTATTCTGCGATTTTTAGCGAATTTCTAAGGATGCTGTCATACAGGTCCATCCTCTCCCAGTATATGAGATGAGTAAATTTTTGTAAAGCCTAAGGTAAATGTAAAGGTTTATTTAATCATTGAAAAGTACAGTTGCTAGCTTTCCTTTGTACCCCTCCCCTATTTTTTTTTTTTGCCACTTTACAGACTAGAGTAAAAGCACATGCTTAAATTGTTTTCTTAATCAGATTGTTATT

Coding sequences of Glyma10g36251

Limit To All Plant Sequences

>Glyma10g36251.1   sequence type=CDS   gene model=Glyma10g36251   sequence assembly version=Glyma 1.0   annotation version=1.1   JGI Gene Call confidence=high
ATGTGTAGTATGTGCCGTTATTGTGGTGTGGGCTTGTCAGAATCAAATTTTGACAACAAGAAACAGGGAAATGAGAGTAGTCTAAAGTTGAATGGTAAAGTTTCCATTAGGCCTTGCAAATCTTGTGGAGAGAAGCTAGAGCGAGCAAATGCGAAATGGCATAGTACAAGTCCTTATGCAACACCACTTATCAGTCCAACTACGTCATTGCTAAGTACTGATAGCTGTGTCTCCACTTGCAGTGAGTTTTCAGTTGATGTGAACTCATGTGATAGGAATAGTCAAGAAGAAAGTTCAGTTGAAGGTGTTGTGGAAGAGCTTGATTATAAGTTGAATGGTTCACCAAAAGTGATGGAAAACAATAACAACAATGAGGGTTACACAGTGAGAGATGTGGAGATTGCACAAGGACATAACTTTCAAGAAGTAAAAGCTGATTTTTCTGAAGAACCTACTGCATCCTCTGCTGCTGAAGAAGCTGAATATTCTCTTCCTGATGATTTGGATGTCCAAACTTGGGAACCTCCTGAGCCAGAAAACCCACAGGATGATATGGAAAATAGTGTGACTTGTAATGACGACGATGAAGACCAGGGCCTAGGGATTGCAAACTGGGGTGAGCCTACCTCTATGAGTAGTTCTGAGAATGAATTAAGTGGGAGCTATAGGTTCAAAGAGGAAAAACAAAGAGCAATGGAAGAAGTAATGAATGGGAAATTCAAGGCACTTGTTGGTCAGCTTCTTAAATCTGTGGGAGTTTCCTCTTCTGATCAATGTGATAAGAGTTGGGTGGACATAGTTACATCTTTATCATGGGAAGCTGCTTCTTTTTTGAAGCCTGGTGCCATTGGAGCTAATGCAATGAATCCTGATGGATATGTTAAAGTGAAGTGCATTGCTGCTGGTTCCCGCAGCGAAAGTCAACTGATCAGAGGTTTGGTCTTCAAAAAACATGCTGCTCACAAGCATATGCCTACTAAGTATAAAAATCCAAGATTATTACTGATCAGCGGTGTGCTTGGCCATTCTATCAATGGGCTGTCCTCATTTGACTCCATGGACCAGGAGAAAGATGATCTGAAATCTAAAATGGATCGTATAGAAATGTGTCATCCAAATGTTATATTAGTGGAGAAAACTGTTTCTCGTGATATACAAGAGTCAATTTTGGCAAAGGGAATGACACTTGTGCTTGATATGAAGCTTCATCGTCTAGAAAGAGTTGCATGTTGTACTGGTTCACCAATTTTATCATGCGATAATTTGAACGGTCAAAAGCTAAGACACTGTGACTTTATCTATTTTGAGAAGTTTGTGGAGGAACATGATGCTGTTGGTGAAGGAGGAAAGAAGCCCATCAAGACTTTGATGTTCATTGAGGGCTGTCCTACACGTTTGGGCTGCACGATTTTACTGAAAGGTACACACAGTGATGAACTGAAGAGGATCAAATGTGTCATGCGGTGTGCAGTTGTCATGGCATATCATTTAATCCTTGAAACCTCCTTTCTTGTTGATCAGAAAGCAATGTTCTCTACCATTCCTGCTGTGAGTGTAGCAGATATCTTGCCAACTGATAAAAAATCCTGTGATTTAGCATCCACTAATTCAAGCATTCCATCTCTTGAGTATTCTGCTGAGAATGGAATAGTTAGTACTGATATTCCCATATGCAATGGACTTCATGAAAACAACATCAATGGTTTAAACCTAGGATCAGAGGAGTTTTCTCCATTCTCTTGTGAACCATATAATCCAGCCGTATTTTCTGGGTTCTCAGCTATTTCATCTTCTCTTAAAAAGGTTATGGGGGACAGTTTTCCCTTTGCATCTTCTGCTCCTTATCAATCTTTATCAGCTTACTTTGGCTTCAATGGAAGGAAACCTGACGGTCAGGTTAATGAGTCGATTTCTGTTTTAAACTCTCTGGAGGCTGATGAAAATACCATGATGGAAGCAAAAAGTCATTCTAATGAAGTGAAGTTACTTAATGGTGGACAATCCCTGTCTTCACCTGTGCATTTAGATTCCAATGGGGATATAAGTAAATATGATGAAAATAATAGAAAAGAACTCCAACGTAAAGATGATATCAATGCAGTGTTGGATTCTCAGAGTATTTTGGTCTTGATGTCTAGATGGAATGCCTTAAGAGGGACTGTATGCCAGCAAAGTCATTTTTCACATATTATGTTCTACAAGAATTTTGATATTCCACTTGGAAAATTTCTGGAGGATAACTTACTCAATCAGACAAGACTTTGTGATGCCTGTCAAGAATTGCCAGATGCCCACTTTTATTATTATGCTCATCACAGTAAGCAGCTTACTATCCAAGTTAAATGCTTGCCCCAGGAAAAAAGTTTGCCTGGGGAGGCAGAAGGGAAAATTTGGATGTGGAGCCGTTGTCGAAAATGCAAGTCTGGTTCTACAAAGAGAGTGCTGATATCCACCACTGCCCGTAGTTTATCATTTGGAAAATTTTTGGAGCTCAGCCTTTCTTACTATTCTTCTAGCAGAAAATTGAGTTGTGGACATTCTCTTGATAGGGATTTTCTCTATTTCTTTGGATTAGGTCACATGGTTGCAATGTTCAGATATTCTTCTGTTGCCACATATTCTGTGTGTATGCCTCCTCGAAAGCTGGAGTTCTGTGGTGCAATAAGACAAGAGTGGCTTTTGAAAGAGACTCAGAATGTGTATATGAAAGGCATAACATTATTCACCGAAGTTGCAAACTGTTTGAAGACAATACAATTTGATGGCCTTGGAGGATCAATTAGAGATTTGTCTGAAGTTGAGAAGATGTTCAAGCAAGAGCAAGAAGAATTCGAGGCAAACATCAAGACTGCTGTTGCTAAAAAAGGGGATCCAGACCAGGCTGCCTTCAAACTTCTCAGTTTAAACCGATTGATGTGGGATCTTTTGCTTCAATCCTATGTGTGGGTCCGGCGCTTGTACCCATTACACTCACCTGATGGTTTAAGACTTGAATCTGATGTCTCTGAGAAAGTTATGCATGAACATGATTATTCAAAGGTGGAAGGTATTGCTAGTAGAGAAACTGGGTCTATGGGTAATTTTATGGAAGATGGGGATGCCAATGTAAAAATTATGTTTGGCTCATCTGTGCAAGTAAATGAACTACCGATAAAGGAAATTCCTATCAGTGGACCTTTTCTAGAGTGCAATGAACTGGCTGATCCATCTAACGCACAGAATGAGAGGATACCGATTGTTGATGATTTGAGATCAAGAAGATCTTCTGACCAAAACTTGAATTTGAGTCTGGATGTTATACCAACTCATCTTGAAGTAGGTGAAAACTCTCCAGTTTCTACAGATATTCAAACTAATCATTTGGTTGCTGATTTAAAGGTATTAAACAAAATTTCTTCCTTTCATTCACCAATTTCCAACATGCTGGATTCAAATGATTGGTTCTGGAAGCCATTTGCTGACATTCGACAGATAGGCATAAAGGAATTCCAGAAAAGATTATTGCCAAAATTTGAATTTGTAAGCAGCTCTATTGCTGAATATATACCCACAGCCCATCAATTAATCACTGAGGAAGGTACAAGGTTGCATATCCCTCTCAAGACTGACAATCATGTTGTGTCTGACTTCGAGGGTGAACCCTCAAGCATAATTGCTTGTGCACTGGCCTTATTGAAAGATGCATATGAGGTGTCAGAAATTGATGATGAGGATGAGAGAAACGAAAGTGGAATAACTTCAAACTCAACAGAATGTTTGCATGGCTTGACCAATGGTGCTGCCTTAACTTCTTCACACTCATTTTCAAGAAGTTCTTCAGATTCAGATTCTGTGCATTCTGCAGGAAGCACTTCTTCAGAAGAGTCACGAGCCTCTCGTGCTACAGAAAACCATAGCATAGAGATTGCTATGGGTTATGCTAAATCACTTGGGAGGGAAAAATATTCAGTGATATGTCATTATTTTAAGCAGTTCCGTGAACTTAGAAATTGGTGTTGCCTATCTGAGCTTGATTTTATTGCTTCTTTAAGCCGCTGTAGGAATTGGGATGCCAAAGGTGGAAAAAGCAAGTCCTATTTTGCAAAAACACTTGATGACAGATTCATCATAAAGGAGATTAAGAAGACAGAACTTGATTCATTTTTGGGGTTTTCTTCTCTGTATTTCAAACACGTGAGAGAATCATTTGAGTCTGGCAGCCAAACTTGTCTTGCAAAAGTCTTGGGGATATATCAGGTTACTAAAAGACACGTTAAAAGTGGAAAAGAGGTTAAATATGACCCCCTCATGGTGATGGAAAATCTTACCTACAATAGAAATATTACTCGCCAGTATGATCTTAAAGGTGCTCTTTATGCCCGGTACAATTCTGCTGCTGATGGAGCTGGAGATGTTCTGTTGGATCAGAACTTTGTGAATGACATGAACTCGTCCCCATTATATGTCAGTCTTAAAGCAAAGCGTTATCTTCAACGTGCTGTTTGGAATGACACATCTTTTCTGAATTCTATCAATGTGATGGATTACTCCTTGCTTGTTGGAGTAGATTCTCAGAAGAGCGAGCTTGTCTGTGGGATCATTGATTATCTCAGGCAGTATACGTGGGATAAACATCTTGAGACATGGATGAAGTCTTCACTTGTTGTGCCAAAAAATGTGTTGCCGACTGTAATATCTCCTAAAGAATACAAAAAGAGGTTCAGAAAGTTTATGTCTACATATTTTTTGAGTGTTCCAGATCACTGGTGTTCCCAGAAATCCTCCAATCCTTGCAAACTTTGTGGCTCAGGGGAAGATGACCCTTCTCAGCAAAAGCCCTAG

>Glyma10g36251.2   sequence type=CDS   gene model=Glyma10g36251   sequence assembly version=Glyma 1.0   annotation version=1.1   JGI Gene Call confidence=high
ATGTGTAGTATGTGCCGTTATTGTGGTGTGGGCTTGTCAGAATCAAATTTTGACAACAAGAAACAGGGAAATGAGAGTAGTCTAAAGTTGAATGGTAAAGTTTCCATTAGGCCTTGCAAATCTTGTGGAGAGAAGCTAGAGCGAGCAAATGCGAAATGGCATAGTACAAGTCCTTATGCAACACCACTTATCAGTCCAACTACGTCATTGCTAAGTACTGATAGCTGTGTCTCCACTTGCAGTGAGTTTTCAGTTGATGTGAACTCATGTGATAGGAATAGTCAAGAAGAAAGTTCAGTTGAAGGTGTTGTGGAAGAGCTTGATTATAAGTTGAATGGTTCACCAAAAGTGATGGAAAACAATAACAACAATGAGGGTTACACAGTGAGAGATGTGGAGATTGCACAAGGACATAACTTTCAAGAAGTAAAAGCTGATTTTTCTGAAGAACCTACTGCATCCTCTGCTGCTGAAGAAGCTGAATATTCTCTTCCTGATGATTTGGATGTCCAAACTTGGGAACCTCCTGAGCCAGAAAACCCACAGGATGATATGGAAAATAGTGTGACTTGTAATGACGACGATGAAGACCAGGGCCTAGGGATTGCAAACTGGGGTGAGCCTACCTCTATGAGTAGTTCTGAGAATGAATTAAGTGGGAGCTATAGGTTCAAAGAGGAAAAACAAAGAGCAATGGAAGAAGTAATGAATGGGAAATTCAAGGCACTTGTTGGTCAGCTTCTTAAATCTGTGGGAGTTTCCTCTTCTGATCAATGTGATAAGAGTTGGGTGGACATAGTTACATCTTTATCATGGGAAGCTGCTTCTTTTTTGAAGCCTGGTGCCATTGGAGCTAATGCAATGAATCCTGATGGATATGTTAAAGTGAAGTGCATTGCTGCTGGTTCCCGCAGCGAAAGTCAACTGATCAGAGGTTTGGTCTTCAAAAAACATGCTGCTCACAAGCATATGCCTACTAAGTATAAAAATCCAAGATTATTACTGATCAGCGGTGTGCTTGGCCATTCTATCAATGGGCTGTCCTCATTTGACTCCATGGACCAGGAGAAAGATGATCTGAAATCTAAAATGGATCGTATAGAAATGTGTCATCCAAATGTTATATTAGTGGAGAAAACTGTTTCTCGTGATATACAAGAGTCAATTTTGGCAAAGGGAATGACACTTGTGCTTGATATGAAGCTTCATCGTCTAGAAAGAGTTGCATGTTGTACTGGTTCACCAATTTTATCATGCGATAATTTGAACGGTCAAAAGCTAAGACACTGTGACTTTATCTATTTTGAGAAGTTTGTGGAGGAACATGATGCTGTTGGTGAAGGAGGAAAGAAGCCCATCAAGACTTTGATGTTCATTGAGGGCTGTCCTACACGTTTGGGCTGCACGATTTTACTGAAAGGTACACACAGTGATGAACTGAAGAGGATCAAATGTGTCATGCGGTGTGCAGTTGTCATGGCATATCATTTAATCCTTGAAACCTCCTTTCTTGTTGATCAGAAAGCAATGTTCTCTACCATTCCTGCTGTGAGTGTAGCAGATATCTTGCCAACTGATAAAAAATCCTGTGATTTAGCATCCACTAATTCAAGCATTCCATCTCTTGAGTATTCTGCTGAGAATGGAATAGTTAGTACTGATATTCCCATATGCAATGGACTTCATGAAAACAACATCAATGGTTTAAACCTAGGATCAGAGGAGTTTTCTCCATTCTCTTGTGAACCATATAATCCAGCCGTATTTTCTGGGTTCTCAGCTATTTCATCTTCTCTTAAAAAGGTTATGGGGGACAGTTTTCCCTTTGCATCTTCTGCTCCTTATCAATCTTTATCAGCTTACTTTGGCTTCAATGGAAGGAAACCTGACGGTCAGGTTAATGAGTCGATTTCTGTTTTAAACTCTCTGGAGGCTGATGAAAATACCATGATGGAAGCAAAAAGTCATTCTAATGAAGTGAAGTTACTTAATGGTGGACAATCCCTGTCTTCACCTGTGCATTTAGATTCCAATGGGGATATAAGTAAATATGATGAAAATAATAGAAAAGAACTCCAACGTAAAGATGATATCAATGCAGTGTTGGATTCTCAGAGTATTTTGGTCTTGATGTCTAGATGGAATGCCTTAAGAGGGACTGTATGCCAGCAAAGTCATTTTTCACATATTATGTTCTACAAGAATTTTGATATTCCACTTGGAAAATTTCTGGAGGATAACTTACTCAATCAGACAAGACTTTGTGATGCCTGTCAAGAATTGCCAGATGCCCACTTTTATTATTATGCTCATCACAGTAAGCAGCTTACTATCCAAGTTAAATGCTTGCCCCAGGAAAAAAGTTTGCCTGGGGAGGCAGAAGGGAAAATTTGGATGTGGAGCCGTTGTCGAAAATGCAAGTCTGGTTCTACAAAGAGAGTGCTGATATCCACCACTGCCCGTAGTTTATCATTTGGAAAATTTTTGGAGCTCAGCCTTTCTTACTATTCTTCTAGCAGAAAATTGAGTTGTGGACATTCTCTTGATAGGGATTTTCTCTATTTCTTTGGATTAGGTCACATGGTTGCAATGTTCAGATATTCTTCTGTTGCCACATATTCTGTGTGTATGCCTCCTCGAAAGCTGGAGTTCTGTGGTGCAATAAGACAAGAGTGGCTTTTGAAAGAGACTCAGAATGTGTATATGAAAGGCATAACATTATTCACCGAAGTTGCAAACTGTTTGAAGACAATACAATTTGATGGCCTTGGAGGATCAATTAGAGATTTGTCTGAAGTTGAGAAGATGTTCAAGCAAGAGCAAGAAGAATTCGAGGCAAACATCAAGACTGCTGTTGCTAAAAAAGGGGATCCAGACCAGGCTGCCTTCAAACTTCTCAGTTTAAACCGATTGATGTGGGATCTTTTGCTTCAATCCTATGTGTGGGTCCGGCGCTTGTACCCATTACACTCACCTGATGGTTTAAGACTTGAATCTGATGTCTCTGAGAAAGTTATGCATGAACATGATTATTCAAAGGTGGAAGGTATTGCTAGTAGAGAAACTGGGTCTATGGGTAATTTTATGGAAGATGGGGATGCCAATGTAAAAATTATGTTTGGCTCATCTGTGCAAGTAAATGAACTACCGATAAAGGAAATTCCTATCAGTGGACCTTTTCTAGAGTGCAATGAACTGGCTGATCCATCTAACGCACAGAATGAGAGGATACCGATTGTTGATGATTTGAGATCAAGAAGATCTTCTGACCAAAACTTGAATTTGAGTCTGGATGTTATACCAACTCATCTTGAAGTAGGTGAAAACTCTCCAGTTTCTACAGATATTCAAACTAATCATTTGGTTGCTGATTTAAAGGTATTAAACAAAATTTCTTCCTTTCATTCACCAATTTCCAACATGCTGGATTCAAATGATTGGTTCTGGAAGCCATTTGCTGACATTCGACAGATAGGCATAAAGGAATTCCAGAAAAGATTATTGCCAAAATTTGAATTTGTAAGCAGCTCTATTGCTGAATATATACCCACAGCCCATCAATTAATCACTGAGGAAGGTACAAGGTTGCATATCCCTCTCAAGACTGACAATCATGTTGTGTCTGACTTCGAGGGTGAACCCTCAAGCATAATTGCTTGTGCACTGGCCTTATTGAAAGATGCATATGAGGTGTCAGAAATTGATGATGAGGATGAGAGAAACGAAAGTGGAATAACTTCAAACTCAACAGAATGTTTGCATGGCTTGACCAATGGTGCTGCCTTAACTTCTTCACACTCATTTTCAAGAAGTTCTTCAGATTCAGATTCTGTGCATTCTGCAGGAAGCACTTCTTCAGAAGAGTCACGAGCCTCTCGTGCTACAGAAAACCATAGCATAGAGATTGCTATGGGTTATGCTAAATCACTTGGGAGGGAAAAATATTCAGTGATATGTCATTATTTTAAGCAGTTCCGTGAACTTAGAAATTGGTGTTGCCTATCTGAGCTTGATTTTATTGCTTCTTTAAGCCGCTGTAGGAATTGGGATGCCAAAGGTGGAAAAAGCAAGTCCTATTTTGCAAAAACACTTGATGACAGATTCATCATAAAGGAGATTAAGAAGACAGAACTTGATTCATTTTTGGGGTTTTCTTCTCTGTATTTCAAACACGTGAGAGAATCATTTGAGTCTGGCAGCCAAACTTGTCTTGCAAAAGTCTTGGGGATATATCAGGTTACTAAAAGACACGTTAAAAGTGGAAAAGAGGTTAAATATGACCCCCTCATGGTGATGGAAAATCTTACCTACAATAGAAATATTACTCGCCAGTATGATCTTAAAGGTGCTCTTTATGCCCGGTACAATTCTGCTGCTGATGGAGCTGGAGATGTTCTGTTGGATCAGAACTTTGTGAATGACATGAACTCGTCCCCATTATATGTCAGTCTTAAAGCAAAGCGTTATCTTCAACGTGCTGTTTGGAATGACACATCTTTTCTGAATTCTATCAATGTGATGGATTACTCCTTGCTTGTTGGAGTAGATTCTCAGAAGAGCGAGCTTGTCTGTGGGATCATTGATTATCTCAGGCAGTATACGTGGGATAAACATCTTGAGACATGGATGAAGTCTTCACTTGTTGTGCCAAAAAATGTGTTGCCGACTGTAATATCTCCTAAAGAATACAAAAAGAGGTTCAGAAAGTTTATGTCTACATATTTTTTGAGTGTTCCAGATCACTGGTGTTCCCAGAAATCCTCCAATCCTTGCAAACTTTGTGGCTCAGGGGAAGATGACCCTTCTCAGCAAAAGCCCTAG

Predicted protein sequences of Glyma10g36251

Limit To All Plant Sequences

>Glyma10g36251.1   sequence type=predicted peptide   gene model=Glyma10g36251   sequence assembly version=Glyma 1.0   annotation version=1.1   JGI Gene Call confidence=high
MCSMCRYCGVGLSESNFDNKKQGNESSLKLNGKVSIRPCKSCGEKLERANAKWHSTSPYATPLISPTTSLLSTDSCVSTCSEFSVDVNSCDRNSQEESSVEGVVEELDYKLNGSPKVMENNNNNEGYTVRDVEIAQGHNFQEVKADFSEEPTASSAAEEAEYSLPDDLDVQTWEPPEPENPQDDMENSVTCNDDDEDQGLGIANWGEPTSMSSSENELSGSYRFKEEKQRAMEEVMNGKFKALVGQLLKSVGVSSSDQCDKSWVDIVTSLSWEAASFLKPGAIGANAMNPDGYVKVKCIAAGSRSESQLIRGLVFKKHAAHKHMPTKYKNPRLLLISGVLGHSINGLSSFDSMDQEKDDLKSKMDRIEMCHPNVILVEKTVSRDIQESILAKGMTLVLDMKLHRLERVACCTGSPILSCDNLNGQKLRHCDFIYFEKFVEEHDAVGEGGKKPIKTLMFIEGCPTRLGCTILLKGTHSDELKRIKCVMRCAVVMAYHLILETSFLVDQKAMFSTIPAVSVADILPTDKKSCDLASTNSSIPSLEYSAENGIVSTDIPICNGLHENNINGLNLGSEEFSPFSCEPYNPAVFSGFSAISSSLKKVMGDSFPFASSAPYQSLSAYFGFNGRKPDGQVNESISVLNSLEADENTMMEAKSHSNEVKLLNGGQSLSSPVHLDSNGDISKYDENNRKELQRKDDINAVLDSQSILVLMSRWNALRGTVCQQSHFSHIMFYKNFDIPLGKFLEDNLLNQTRLCDACQELPDAHFYYYAHHSKQLTIQVKCLPQEKSLPGEAEGKIWMWSRCRKCKSGSTKRVLISTTARSLSFGKFLELSLSYYSSSRKLSCGHSLDRDFLYFFGLGHMVAMFRYSSVATYSVCMPPRKLEFCGAIRQEWLLKETQNVYMKGITLFTEVANCLKTIQFDGLGGSIRDLSEVEKMFKQEQEEFEANIKTAVAKKGDPDQAAFKLLSLNRLMWDLLLQSYVWVRRLYPLHSPDGLRLESDVSEKVMHEHDYSKVEGIASRETGSMGNFMEDGDANVKIMFGSSVQVNELPIKEIPISGPFLECNELADPSNAQNERIPIVDDLRSRRSSDQNLNLSLDVIPTHLEVGENSPVSTDIQTNHLVADLKVLNKISSFHSPISNMLDSNDWFWKPFADIRQIGIKEFQKRLLPKFEFVSSSIAEYIPTAHQLITEEGTRLHIPLKTDNHVVSDFEGEPSSIIACALALLKDAYEVSEIDDEDERNESGITSNSTECLHGLTNGAALTSSHSFSRSSSDSDSVHSAGSTSSEESRASRATENHSIEIAMGYAKSLGREKYSVICHYFKQFRELRNWCCLSELDFIASLSRCRNWDAKGGKSKSYFAKTLDDRFIIKEIKKTELDSFLGFSSLYFKHVRESFESGSQTCLAKVLGIYQVTKRHVKSGKEVKYDPLMVMENLTYNRNITRQYDLKGALYARYNSAADGAGDVLLDQNFVNDMNSSPLYVSLKAKRYLQRAVWNDTSFLNSINVMDYSLLVGVDSQKSELVCGIIDYLRQYTWDKHLETWMKSSLVVPKNVLPTVISPKEYKKRFRKFMSTYFLSVPDHWCSQKSSNPCKLCGSGEDDPSQQKP*

>Glyma10g36251.2   sequence type=predicted peptide   gene model=Glyma10g36251   sequence assembly version=Glyma 1.0   annotation version=1.1   JGI Gene Call confidence=high
MCSMCRYCGVGLSESNFDNKKQGNESSLKLNGKVSIRPCKSCGEKLERANAKWHSTSPYATPLISPTTSLLSTDSCVSTCSEFSVDVNSCDRNSQEESSVEGVVEELDYKLNGSPKVMENNNNNEGYTVRDVEIAQGHNFQEVKADFSEEPTASSAAEEAEYSLPDDLDVQTWEPPEPENPQDDMENSVTCNDDDEDQGLGIANWGEPTSMSSSENELSGSYRFKEEKQRAMEEVMNGKFKALVGQLLKSVGVSSSDQCDKSWVDIVTSLSWEAASFLKPGAIGANAMNPDGYVKVKCIAAGSRSESQLIRGLVFKKHAAHKHMPTKYKNPRLLLISGVLGHSINGLSSFDSMDQEKDDLKSKMDRIEMCHPNVILVEKTVSRDIQESILAKGMTLVLDMKLHRLERVACCTGSPILSCDNLNGQKLRHCDFIYFEKFVEEHDAVGEGGKKPIKTLMFIEGCPTRLGCTILLKGTHSDELKRIKCVMRCAVVMAYHLILETSFLVDQKAMFSTIPAVSVADILPTDKKSCDLASTNSSIPSLEYSAENGIVSTDIPICNGLHENNINGLNLGSEEFSPFSCEPYNPAVFSGFSAISSSLKKVMGDSFPFASSAPYQSLSAYFGFNGRKPDGQVNESISVLNSLEADENTMMEAKSHSNEVKLLNGGQSLSSPVHLDSNGDISKYDENNRKELQRKDDINAVLDSQSILVLMSRWNALRGTVCQQSHFSHIMFYKNFDIPLGKFLEDNLLNQTRLCDACQELPDAHFYYYAHHSKQLTIQVKCLPQEKSLPGEAEGKIWMWSRCRKCKSGSTKRVLISTTARSLSFGKFLELSLSYYSSSRKLSCGHSLDRDFLYFFGLGHMVAMFRYSSVATYSVCMPPRKLEFCGAIRQEWLLKETQNVYMKGITLFTEVANCLKTIQFDGLGGSIRDLSEVEKMFKQEQEEFEANIKTAVAKKGDPDQAAFKLLSLNRLMWDLLLQSYVWVRRLYPLHSPDGLRLESDVSEKVMHEHDYSKVEGIASRETGSMGNFMEDGDANVKIMFGSSVQVNELPIKEIPISGPFLECNELADPSNAQNERIPIVDDLRSRRSSDQNLNLSLDVIPTHLEVGENSPVSTDIQTNHLVADLKVLNKISSFHSPISNMLDSNDWFWKPFADIRQIGIKEFQKRLLPKFEFVSSSIAEYIPTAHQLITEEGTRLHIPLKTDNHVVSDFEGEPSSIIACALALLKDAYEVSEIDDEDERNESGITSNSTECLHGLTNGAALTSSHSFSRSSSDSDSVHSAGSTSSEESRASRATENHSIEIAMGYAKSLGREKYSVICHYFKQFRELRNWCCLSELDFIASLSRCRNWDAKGGKSKSYFAKTLDDRFIIKEIKKTELDSFLGFSSLYFKHVRESFESGSQTCLAKVLGIYQVTKRHVKSGKEVKYDPLMVMENLTYNRNITRQYDLKGALYARYNSAADGAGDVLLDQNFVNDMNSSPLYVSLKAKRYLQRAVWNDTSFLNSINVMDYSLLVGVDSQKSELVCGIIDYLRQYTWDKHLETWMKSSLVVPKNVLPTVISPKEYKKRFRKFMSTYFLSVPDHWCSQKSSNPCKLCGSGEDDPSQQKP*

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