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Report for Sequence Feature Glyma18g01470
Feature Type: gene_model
Chromosome: Gm18
Start: 788942
stop: 797456
Source: JGI
Version: Wm82.a1.v1.1
High confidence: yes
A newer version of this gene model can be found here:
Annotations for Glyma18g01470
Database ID Annotation Type Annotation Description Annotation Source Match Score Evidence Code
AT1G24460 AT
Annotation by Michelle Graham. TAIR10: unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biological_process unknown; LOCATED IN: cellular_component unknown; EXPRESSED IN: 23 plant structures; EXPRESSED DURING: 14 growth stages; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT4G31570.1); Has 181008 Blast hits to 85359 proteins in 3551 species: Archae - 3290; Bacteria - 48304; Metazoa - 70793; Fungi - 13943; Plants - 10118; Viruses - 785; Other Eukaryotes - 33775 (source: NCBI BLink). | chr1:86
SoyBase E_val: 0 ISS
GO:0007034 GO-bp
Annotation by Michelle Graham. GO Biological Process: vacuolar transport
SoyBase N/A ISS
GO:0009651 GO-bp
Annotation by Michelle Graham. GO Biological Process: response to salt stress
SoyBase N/A ISS
GO:0005737 GO-cc
Annotation by Michelle Graham. GO Cellular Compartment: cytoplasm
SoyBase N/A ISS
GO:0032588 GO-cc
Annotation by Michelle Graham. GO Cellular Compartment: trans-Golgi network membrane
SoyBase N/A ISS
GO:0003674 GO-mf
Annotation by Michelle Graham. GO Molecular Function: molecular function
SoyBase N/A ISS
KOG4593
KOG
Mitotic checkpoint protein MAD1
JGI ISS
UniRef100_G7J2J8 UniRef
Annotation by Michelle Graham. Most informative UniRef hit: Myosin-like protein n=2 Tax=Medicago truncatula RepID=G7J2J8_MEDTR
SoyBase E_val: 0 ISS
UniRef100_I1MYK5 UniRef
Annotation by Michelle Graham. Best UniRef hit: Uncharacterized protein n=1 Tax=Glycine max RepID=I1MYK5_SOYBN
SoyBase E_val: 0 ISS
Expression Patterns of Glyma18g01470
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
To see more experiments click HERE
Paralogs of Glyma18g01470
Paralog Evidence Comments
Glyma11g37520 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 Glyma18g01470 Gene Call Version Wm82.a1.v1.1
Corresponding Name Annotation Version Evidence Comments
Glyma.18g011200 Wm82.a2.v1 IGC As supplied by JGI
References for Glyma18g01470
Transcripts of Glyma18g01470
Show Sequence BLAST Sequence at SoyBase BLAST Sequence against GenBank NT Limit To All Plant Sequences
>Glyma18g01470.3 sequence type=transcript gene model=Glyma18g01470 sequence assembly version=Glyma 1.0 annotation version=1.1 JGI Gene Call confidence=high
CAAATCCAAAAAGGATATCGTTTTGAGTATGAAAAGAAACAGCAGAAAGGTCAACGACGGGTCTCGCAACGTTGCCGTTTACCACATAGCAGTTTCAGGATCTGTAGTACCAATCCAAAACAATAATAATAACTAAATGATAAATTAATTAAATAAATAAAATTTGTAATTTCACTTTTCTTACAATCCGAATTTCGTCGTCATAACAGACAGGAAAGAAACAGAAATTGCAGATCCAAATCTCGTTTTGGAGTGAGGAATTTGAATGTTGAGATGTCTGAGAATCACGTAGCAGGGCAGGTTTCGGAAGCGGATTCGGATTCGGGTCATGGTGTTGTGCACGACGAATCAAATGTGGATACCGAATCAAACACTGATACTTATCAAGATCAGGGAGAGCGTGTTGATCTCAGAGATCCTGAAGATGGAAAATCTACAGAGGATTCTGCCAGAGATGACATGTTTGTTGATTGCCCTGATGAGTTAACCACATTTGATGGTAGGCAAAAGGAGGAGGAAGTTGCTGCTGCGAAAAATGAAGATGACGGATCAGAGGAAAATGAAGTTATGCATCAACAGCAGAGTCATTTTGATAAATTGGGCAATGGAGTGGGAGATGGTTACTCCTCAGGCCAGCTAGAGAAAGTTGTTGCTCAGAAGGAAATTATTTTGAAGGAATACCAGGAAGAAAGACAAACTGTTACTCAAGGAGTGCTTGATCTTTGTTGTCAGCTGAAGACTCTCACTGGTCAACAGAATGAAGCTGAAGTTGGAGATAGGGAAGTGACTGATGTTTCATTGAGGGAGATGATAAAGGAATGTTTGGAGTTTGTGAAGACCGCCTCAGAAGAACAGTCAAACAGTGAAACTACTATAAATAATCTTCGTGAACATCTATCTACAAAGGACCGTGAGATAGAGGATCTTAATGCAAAGCTTGCCCAATTAATGGTATCTAATGAAAGTATGCAAGTTTCATCCGAAGCTCAACTTGAAAAGGATCGTAATGTTGAGATTGTGATAGATAAGATGATATCTTCTCTTGCAACAGTTGTTACTCGAGAGCAAGTATTGGATGATTCTATTAGTGGGAAAATAGTTTATATTGAGGAAGGCACTATCCATTTAATTGAAAAGTATAATCAGATTCTTTCTGAAATTTATCAACTTGGGCAATCTTTCTCTGAGGTAGGCTTGGATACTAACGAGCATGAATACGGGAACATACTCGCTGATGCTCGTGGTGGGTTACTGGAGCTCAAAAAAAAGGAAACAGAATTGGTTGAAAAACTGGCTCATTTAGAAGATGAAAATCAGAAAATGGTTGATGAGCTTGACAAGGGAAAGGTGATGATAAGGACATTAAATACTGAACTTGGAAATCTGAAAATAGAACTCGAGCAGGAAAAGGTTAAATGTGCTAATACGAAAGAAAAGCTCAGTATGGCTGTGACAAAAGGAAAGGCATTGGTACAGCAGCGAGATTCATTAAAGAAGTCTCTGGCTGATAAATCCGGTGAGCTTGATAAATGTTTGATTGAATTGCAAGAGAAGTCAGTTGCACTACAAGCTGCTGAACTTGCTAAGGAGGAGTTGTCCCAAAGTGAAAATATGGTTGCATCCCTGCAGAACTCATTACTAGAAAAGAATGCAGTTATTGATCAAGTGGAAGAAATCTTGTCTCAGGCAAAACCTGATGAACCTGAAATGTTTGATATGCCAGAGAAACTAAGATGGCTTGTGGATGACAGAAATACTTTGAAGGAAGCCTTCCTAGAGCTATGCAAATTGAAGAAAGCTCTATCTCTAGCGGACCTGCCAGAGCCTGTTTCGTCATCTGATTTGGAATCACAAATGAAATGGCTTACAGATTCTTTGCTCAGGGCCCATGACAACATGCATACTCTACAGGAAGAAATTTCCACAATCAAGGAATCATCCCGTAACTATATTGATCAGCTTAGTGTTTCTCTTTTGCTGGCATTGCAGGAAAAAGATTACCTTCTGTCAGAATTAACTGATTTGAGGTTCAAATATGATGAGCTTGTTAGCAAGAACCATCAGATTTCTTTGGAGAAGGATCAGATAGTGCATATGTTAGTCGATCTTTGTGGTCTGAACTTGGAAGATGAAGGGATTGATCAAATCTCTTCCAGCACTTATACGATCATCAATTTATGCTTTAAAGTTATCAAAGGACAGAGTGGTCCCTTGTCTAGAGCATCCCATATTGATGCTGAGTTGTTTGAAAGGATTCAAAGTCTCTTGTATGTTAGAGATCAGGGATTAATACTCTATGAAGATATACTGGAAGAGGAGATGCTAATTAGATCAGATGTGAATAAGCTGTCAAATGAGTTGAAAGTGGTATCTGAGGAAATTATAGCACTGAAAGAAGAAAGGAGTTCTCTGCTGCAAGATCTTGAGCGATCAGAGGAGAAGACTTCCATGCTTAGGGACAAGTTGTCCATGGCAGTTAAGAAAGGAAAGGGGCTGGTTCAAGATAGGGACAATCTAAAAGGTCTTCTAAATGAAAAGAACTCAGAGATTGAGCAGTTGAAGGCTGATTTGCAGAAGCAAGAATCTGCAGTTTCTGAATACAGGGATGAGATCAATAGATTGTCCAATGATGTGGAAAGCATCCCGAAGCTGGAGGCTGATCTTCTGGAAATGAAAAGGGATAAGAATCAGTTTGAACAGTTCTTAATGGAGAGCAATAACATGTTACAGAAAGTGATGGAGTGTATTGACGGTGTTGCTCTTCCAGTTGTTCCAGTTTTTGATGAACCAATAGAGAAGGTGAAGTGGCTTGCTGGTTATGTCAATGAATGTCAAGATGCTAAGGTACACAGAGAACAGGAATTGCAGCTAGTGAAGGAAAATGCCAGTATACTTGAAATTAAATTAGCAGAAGCCCAAGCAACTGTAAAATCCCTTGAACAGGAATTATCATCTTCAGATGACAATGTTTCTCAACTTGCTGAAGAAAAAATTGAGTTAGAACATGGCAAAGTGAAAGTTGAGGAAGAGTTACAGAAAGTTAAAGATAAAGTTGCTGAAGTTTGTAATACTACTAAGTCACTTGAAGATGCCTTATCACAAGCAGAAAAAGAAATTTCTATTCTTTCCGAAGAGAAAGAGCAGGCTCAAGTTAGCAGAGTTGCTGCAGAGAGAGAGTTAGAGATTTTTAAAGATGAAGCAGCCAGGCAAACAAGCATACTGGCAGAGGCTAGCAAGACCATTAAGGATCTAGAAGATAAACTATCTCAGGTTGAGGGTAATGCCAATTTATTGACTGAAAAGTATAATGCCGATCAAGTTGCCAAAATTGACATGGGAAATGAATTGAAGAAGCTACAAGATGAAGCTTCAAATCATGCTAGTAAACTGGTGGGTGCCTCTGGAACTATAAAATCACTGGAGGATGCATTATTGAAGGCGCAAGATGATATTTCTGCCTTAGAAGATGCAAATAAAATTGCGAAACAGGAGATATCTTCACTTGGCTTTAAGTTAAATTCATGCATGGACGAGTTAGCTGGAAAGAGTGGCAGCTTAGAAAACAAGTCCTTACAGCTCATTGGACTCCTTAATGATCTTCAGGTGCTCATGAAAGATACTACTCCATTTCCCGGAATTAAACAATGCTTTGAGAGCAAATGTGAGACGCTAAAGAATATGAATCTCATTCTGAACAAAATAAGAGATAATGTTGCCATGACTGCAAAGGATTCAAAGGGACAGCCTGTGATGGTGGAAAATCCACTTGTGAGAGAAACATTCTTGGACAGCCCTGAAAATTATGAAGTTGAACTGGACAATACAGAGATTGATGGTGCTGACATTGACACCATAATCTCATCATTTGGAAAGATTGTGAAAGGATTTCAGTCGAGAAACAAACACATTGCAGATAAGTTTTATGAATTTTCGGATTTTATGGATGAGTTTATTTCTCCTCTCCATGAAAAACTACTGGAAACAGAGACCATGTCAACGACTATTGTTGAGAACATGGAAATTATGAAAAAAGAAGCAAATACCATGGAAAAATTGAAAGAAGAACAGGAAAATACTATTGCCACTTTAGAAAACAATGTCAGTGTATTGCTATCTGCTTGCACAGACTCTACCATTGCACTTCAGAGTGAAGTTGACAAGAATCTTGGGCAGCCAGGCTCCATTTCCGAGGTTGAACAGTTAAACCTTGAAGCAGGTGCACAAACAGAGCATCATAAGAACAGCAAATACGTGGAAGCCACACATAAGTTGATGAATGCTTCTAGAAAAGCTCAAACTTTGATTGCACAGTTTGGATGTAGAAGTGAGCAAGTGGATGCAACAATTGAAGATTTGCGGAATAAATTGAAAGAAACAACTGTTGCTTTTGAATTAGTCACTGATGAGAGAGACTTGAATAAAAACAGAGTTTCACAACTGGAGTCTGATATTCAATCACTGCAAAGTGCTTGCAGTGAGCTTAAGGATAAGTTAGAGGATTATCATGCCTTGGAAGAAAAATTAGAGGAAAAAGAGGCTGAGATTTCATCAATGCACAATGCTTTGTTGGCAAAAGAAGAAAACTCCCTCTTTCCAGCATCTCAAATGAGAGATCTCTTTGACAAGATAGATAGGATCAAAATCCCTATTGTAGAGTCCAAAGAAGATGATTTGGAGCCACATACTTCAGCCCCTATGAGAAAACTCTTTTATATTATTGATAGTGTTCCTAGGTTGCATGATCAAATAAACTCTCTGTCTCATGATAAAGAAAAGCTGCAATCAATCCTTGAAACTAGGGATCTTGACATTAAGGATCTGAAGGATGAAGTCAAACAACTCAATAGAATCTGTGAAGACTCTAAAATGATCAAGAATGAATTGTCTGAGCTCACCTATGTATTAGAAAAAATTATGGATATTTTGGGAGCTGGTGAATGGGTTGTAGATAGGAAATCTAAAGGTTCGAAGGAATTAATACCAGCATTGGAGAAGCATATCATTGCCATTCTTTCAGAATCTGAAAATTCAAAATCCAAGGCTCAGGAACTTGATATTAAGTTAGTTGGAAGTCAGAAGGTTATTGATGAATTAACGACCAAGGTTAAATTACTTGAAGATTCACTCCAAGATAGGACTTCTCAGCCAGACATTGTACAGGAGAGGAGCATATATGAAGCACCCTCATTACCTGCTGAATCTGAGATAATTGAAGTTGAAGAGGGATCATCACTTAGCAAGAAAGCAATATCTCCTGTCCCATCGGCTGCTCATGTGCGGAATATGCGAAAAGGATCTACTGACCATCTTGCACTCGATATTAGTGGGGAGTCTGATAATTTGATTAACAGGGTAGATAAGGATGATGATAAAGGTCATGTATTCAAGTCTCTGAGCACTACTGGATTCGTACCAAAACAGGGAAAGCTCATTGCAGATCGTATTGATGGACTCTGGGTATCTGGTGGCCGGGTTCTCATGAGTCATCCTAGAGCAAGATTAGGACTTATTGGCTATTTGTTTGTCTTGCATATATGGCTACTGGGGACGATCTTGTAGAAAAGTTGTGACCAAACCTACCTGGACTGCTCAACATTGAATGTCCTGCGTCTGCAAATTGTATTATCGATATAAAATTGTCCCTTTTTATTCATGTCTTTCTTTTTGCTTCTTTAGCCTGTTTTTCTTTAGTCTCGTCAATTCACTATTTGTTCTCTGCAATCACATTTTAGGGATTCAGAGATTCTGGTCTTCAATGTTTGGGCTCATTTTTTGACAGCCTTCTTTTTCTTTAAAATCGAAGCCCCTCCATTGTATTAGCCTACAATTGTTTGATTGCTTCAATATTAAAGGATTTGGTGGGTAGAAAATAGGTAGATGAATTTTTTCGAACGTTAATGTAATAAAAATGTAGAAAGATTTTAAGGATGACTTATTTATATCTCAAGCAGTGAATGAGAATGAAGTTGAAGGATGACTCATTTGTGTTTTTGTCTGCTGTTTTCGTTTTATGAACCATCTAAGTTTATTGTAAATAGTTAGCTGTGATTTTGCAACGGAAACAGGATTTTGGAGAGGTGTTGTGTGTAAGAGTTTGATTCATACTTATGTAAGTTGATTCCTTTATGTAAGGGTCATATATAACGAAAATAGTTCTTATTTTAAAAATGTGAAAATAATAAATCTTGATCATAAATAAAGATTTATAGTTCTGATTAAGATTAAGACATGAATAATGAAAAATGTCATATATATTATTTTTTTAGTTTTAATCATTCAAATAATATTGAATGATCAAAATTCAATAGTCATTTTTCGTAATTTACCTAACATATATCACTGGTATTTTGGAGAGTTGTTAGCTAACATATTTCTTCAATTTC
Coding sequences of Glyma18g01470
Show Sequence BLAST Sequence at SoyBase BLAST Sequence against GenBank NT Limit To All Plant Sequences
>Glyma18g01470.2 sequence type=CDS gene model=Glyma18g01470 sequence assembly version=Glyma 1.0 annotation version=1.1 JGI Gene Call confidence=high
ATGTCTGAGAATCACGTAGCAGGGCAGGTTTCGGAAGCGGATTCGGATTCGGGTCATGGTGTTGTGCACGACGAATCAAATGTGGATACCGAATCAAACACTGATACTTATCAAGATCAGGGAGAGCGTGTTGATCTCAGAGATCCTGAAGATGGAAAATCTACAGAGGATTCTGCCAGAGATGACATGTTTGTTGATTGCCCTGATGAGTTAACCACATTTGATGGTAGGCAAAAGGAGGAGGAAGTTGCTGCTGCGAAAAATGAAGATGACGGATCAGAGGAAAATGAAGTTATGCATCAACAGCAGAGTCATTTTGATAAATTGGGCAATGGAGTGGGAGATGGTTACTCCTCAGGCCAGCTAGAGAAAGTTGTTGCTCAGAAGGAAATTATTTTGAAGGAATACCAGGAAGAAAGACAAACTGTTACTCAAGGAGTGCTTGATCTTTGTTGTCAGCTGAAGACTCTCACTGGTCAACAGAATGAAGCTGAAGTTGGAGATAGGGAAGTGACTGATGTTTCATTGAGGGAGATGATAAAGGAATGTTTGGAGTTTGTGAAGACCGCCTCAGAAGAACAGTCAAACAGTGAAACTACTATAAATAATCTTCGTGAACATCTATCTACAAAGGACCGTGAGATAGAGGATCTTAATGCAAAGCTTGCCCAATTAATGGTATCTAATGAAAGTATGCAAGTTTCATCCGAAGCTCAACTTGAAAAGGATCGTAATGTTGAGATTGTGATAGATAAGATGATATCTTCTCTTGCAACAGTTGTTACTCGAGAGCAAGTATTGGATGATTCTATTAGTGGGAAAATAGTTTATATTGAGGAAGGCACTATCCATTTAATTGAAAAGTATAATCAGATTCTTTCTGAAATTTATCAACTTGGGCAATCTTTCTCTGAGGTAGGCTTGGATACTAACGAGCATGAATACGGGAACATACTCGCTGATGCTCGTGGTGGGTTACTGGAGCTCAAAAAAAAGGAAACAGAATTGGTTGAAAAACTGGCTCATTTAGAAGATGAAAATCAGAAAATGGTTGATGAGCTTGACAAGGGAAAGGTGATGATAAGGACATTAAATACTGAACTTGGAAATCTGAAAATAGAACTCGAGCAGGAAAAGGTTAAATGTGCTAATACGAAAGAAAAGCTCAGTATGGCTGTGACAAAAGGAAAGGCATTGGTACAGCAGCGAGATTCATTAAAGAAGTCTCTGGCTGATAAATCCGGTGAGCTTGATAAATGTTTGATTGAATTGCAAGAGAAGTCAGTTGCACTACAAGCTGCTGAACTTGCTAAGGAGGAGTTGTCCCAAAGTGAAAATATGGTTGCATCCCTGCAGAACTCATTACTAGAAAAGAATGCAGTTATTGATCAAGTGGAAGAAATCTTGTCTCAGGCAAAACCTGATGAACCTGAAATGTTTGATATGCCAGAGAAACTAAGATGGCTTGTGGATGACAGAAATACTTTGAAGGAAGCCTTCCTAGAGCTATGCAAATTGAAGAAAGCTCTATCTCTAGCGGACCTGCCAGAGCCTGTTTCGTCATCTGATTTGGAATCACAAATGAAATGGCTTACAGATTCTTTGCTCAGGGCCCATGACAACATGCATACTCTACAGGAAGAAATTTCCACAATCAAGGAATCATCCCGTAACTATATTGATCAGCTTAGTGTTTCTCTTTTGCTGGCATTGCAGGAAAAAGATTACCTTCTGTCAGAATTAACTGATTTGAGGTTCAAATATGATGAGCTTGTTAGCAAGAACCATCAGATTTCTTTGGAGAAGGATCAGATAGTGCATATGTTAGTCGATCTTTGTGGTCTGAACTTGGAAGATGAAGGGATTGATCAAATCTCTTCCAGCACTTATACGATCATCAATTTATGCTTTAAAGTTATCAAAGGACAGAGTGGTCCCTTGTCTAGAGCATCCCATATTGATGCTGAGTTGTTTGAAAGGATTCAAAGTCTCTTGTATGTTAGAGATCAGGGATTAATACTCTATGAAGATATACTGGAAGAGGAGATGCTAATTAGATCAGATGTGAATAAGCTGTCAAATGAGTTGAAAGTGGTATCTGAGGAAATTATAGCACTGAAAGAAGAAAGGAGTTCTCTGCTGCAAGATCTTGAGCGATCAGAGGAGAAGACTTCCATGCTTAGGGACAAGTTGTCCATGGCAGTTAAGAAAGGAAAGGGGCTGGTTCAAGATAGGGACAATCTAAAAGGTCTTCTAAATGAAAAGAACTCAGAGATTGAGCAGTTGAAGGCTGATTTGCAGAAGCAAGAATCTGCAGTTTCTGAATACAGGGATGAGATCAATAGATTGTCCAATGATGTGGAAAGCATCCCGAAGCTGGAGGCTGATCTTCTGGAAATGAAAAGGGATAAGAATCAGTTTGAACAGTTCTTAATGGAGAGCAATAACATGTTACAGAAAGTGATGGAGTGTATTGACGGTGTTGCTCTTCCAGTTGTTCCAGTTTTTGATGAACCAATAGAGAAGGTGAAGTGGCTTGCTGGTTATGTCAATGAATGTCAAGATGCTAAGGTACACAGAGAACAGGAATTGCAGCTAGTGAAGGAAAATGCCAGTATACTTGAAATTAAATTAGCAGAAGCCCAAGCAACTGTAAAATCCCTTGAACAGGAATTATCATCTTCAGATGACAATGTTTCTCAACTTGCTGAAGAAAAAATTGAGTTAGAACATGGCAAAGTGAAAGTTGAGGAAGAGTTACAGAAAGTTAAAGATAAAGTTGCTGAAGTTTGTAATACTACTAAGTCACTTGAAGATGCCTTATCACAAGCAGAAAAAGAAATTTCTATTCTTTCCGAAGAGAAAGAGCAGGCTCAAGTTAGCAGAGTTGCTGCAGAGAGAGAGTTAGAGATTTTTAAAGATGAAGCAGCCAGGCAAACAAGCATACTGGCAGAGGCTAGCAAGACCATTAAGGATCTAGAAGATAAACTATCTCAGGTTGAGGGTAATGCCAATTTATTGACTGAAAAGTATAATGCCGATCAAGTTGCCAAAATTGACATGGGAAATGAATTGAAGAAGCTACAAGATGAAGCTTCAAATCATGCTAGTAAACTGGTGGGTGCCTCTGGAACTATAAAATCACTGGAGGATGCATTATTGAAGGCGCAAGATGATATTTCTGCCTTAGAAGATGCAAATAAAATTGCGAAACAGGAGATATCTTCACTTGGCTTTAAGTTAAATTCATGCATGGACGAGTTAGCTGGAAAGAGTGGCAGCTTAGAAAACAAGTCCTTACAGCTCATTGGACTCCTTAATGATCTTCAGGTGCTCATGAAAGATACTACTCCATTTCCCGGAATTAAACAATGCTTTGAGAGCAAATGTGAGACGCTAAAGAATATGAATCTCATTCTGAACAAAATAAGAGATAATGTTGCCATGACTGCAAAGGATTCAAAGGGACAGCCTGTGATGGTGGAAAATCCACTTGTGAGAGAAACATTCTTGGACAGCCCTGAAAATTATGAAGTTGAACTGGACAATACAGAGATTGATGGTGCTGACATTGACACCATAATCTCATCATTTGGAAAGATTGTGAAAGGATTTCAGTCGAGAAACAAACACATTGCAGATAAGTTTTATGAATTTTCGGATTTTATGGATGAGTTTATTTCTCCTCTCCATGAAAAACTACTGGAAACAGAGACCATGTCAACGACTATTGTTGAGAACATGGAAATTATGAAAAAAGAAGCAAATACCATGGAAAAATTGAAAGAAGAACAGGAAAATACTATTGCCACTTTAGAAAACAATGTCAGTGTATTGCTATCTGCTTGCACAGACTCTACCATTGCACTTCAGAGTGAAGTTGACAAGAATCTTGGGCAGCCAGGCTCCATTTCCGAGGTTGAACAGTTAAACCTTGAAGCAGGTGCACAAACAGAGCATCATAAGAACAGCAAATACGTGGAAGCCACACATAAGTTGATGAATGCTTCTAGAAAAGCTCAAACTTTGATTGCACAGTTTGGATGTAGAAGTGAGCAAGTGGATGCAACAATTGAAGATTTGCGGAATAAATTGAAAGAAACAACTGTTGCTTTTGAATTAGTCACTGATGAGAGAGACTTGAATAAAAACAGAGTTTCACAACTGGAGTCTGATATTCAATCACTGCAAAGTGCTTGCAGTGAGCTTAAGGATAAGTTAGAGGATTATCATGCCTTGGAAGAAAAATTAGAGGAAAAAGAGGCTGAGATTTCATCAATGCACAATGCTTTGTTGGCAAAAGAAGAAAACTCCCTCTTTCCAGCATCTCAAATGAGAGATCTCTTTGACAAGATAGATAGGATCAAAATCCCTATTGTAGAGTCCAAAGAAGATGATTTGGAGCCACATACTTCAGCCCCTATGAGAAAACTCTTTTATATTATTGATAGTGTTCCTAGGTTGCATGATCAAATAAACTCTCTGTCTCATGATAAAGAAAAGCTGCAATCAATCCTTGAAACTAGGGATCTTGACATTAAGGATCTGAAGGATGAAGTCAAACAACTCAATAGAATCTGTGAAGACTCTAAAATGATCAAGAATGAATTGTCTGAGCTCACCTATGTATTAGAAAAAATTATGGATATTTTGGGAGCTGGTGAATGGGTTGTAGATAGGAAATCTAAAGGTTCGAAGGAATTAATACCAGCATTGGAGAAGCATATCATTGCCATTCTTTCAGAATCTGAAAATTCAAAATCCAAGGCTCAGGAACTTGATATTAAGTTAGTTGGAAGTCAGAAGGTTATTGATGAATTAACGACCAAGGTTAAATTACTTGAAGATTCACTCCAAGATAGGACTTCTCAGCCAGACATTGTACAGGAGAGGAGCATATATGAAGCACCCTCATTACCTGCTGAATCTGAGATAATTGAAGTTGAAGAGGGATCATCACTTAGCAAGAAAGCAATATCTCCTGTCCCATCGGCTGCTCATGTGCGGAATATGCGAAAAGGATCTACTGACCATCTTGCACTCGATATTAGTGGGGAGTCTGATAATTTGATTAACAGGGTAGATAAGGATGATGATAAAGGTCATGTATTCAAGTCTCTGAGCACTACTGGATTCGTACCAAAACAGGGAAAGCTCATTGCAGATCGTATTGATGGACTCTGGGTATCTGGTGGCCGGGTTCTCATGAGTCATCCTAGAGCAAGATTAGGACTTATTGGCTATTTGTTTGTCTTGCATATATGGCTACTGGGGACGATCTTGTAG
>Glyma18g01470.3 sequence type=CDS gene model=Glyma18g01470 sequence assembly version=Glyma 1.0 annotation version=1.1 JGI Gene Call confidence=high
ATGTCTGAGAATCACGTAGCAGGGCAGGTTTCGGAAGCGGATTCGGATTCGGGTCATGGTGTTGTGCACGACGAATCAAATGTGGATACCGAATCAAACACTGATACTTATCAAGATCAGGGAGAGCGTGTTGATCTCAGAGATCCTGAAGATGGAAAATCTACAGAGGATTCTGCCAGAGATGACATGTTTGTTGATTGCCCTGATGAGTTAACCACATTTGATGGTAGGCAAAAGGAGGAGGAAGTTGCTGCTGCGAAAAATGAAGATGACGGATCAGAGGAAAATGAAGTTATGCATCAACAGCAGAGTCATTTTGATAAATTGGGCAATGGAGTGGGAGATGGTTACTCCTCAGGCCAGCTAGAGAAAGTTGTTGCTCAGAAGGAAATTATTTTGAAGGAATACCAGGAAGAAAGACAAACTGTTACTCAAGGAGTGCTTGATCTTTGTTGTCAGCTGAAGACTCTCACTGGTCAACAGAATGAAGCTGAAGTTGGAGATAGGGAAGTGACTGATGTTTCATTGAGGGAGATGATAAAGGAATGTTTGGAGTTTGTGAAGACCGCCTCAGAAGAACAGTCAAACAGTGAAACTACTATAAATAATCTTCGTGAACATCTATCTACAAAGGACCGTGAGATAGAGGATCTTAATGCAAAGCTTGCCCAATTAATGGTATCTAATGAAAGTATGCAAGTTTCATCCGAAGCTCAACTTGAAAAGGATCGTAATGTTGAGATTGTGATAGATAAGATGATATCTTCTCTTGCAACAGTTGTTACTCGAGAGCAAGTATTGGATGATTCTATTAGTGGGAAAATAGTTTATATTGAGGAAGGCACTATCCATTTAATTGAAAAGTATAATCAGATTCTTTCTGAAATTTATCAACTTGGGCAATCTTTCTCTGAGGTAGGCTTGGATACTAACGAGCATGAATACGGGAACATACTCGCTGATGCTCGTGGTGGGTTACTGGAGCTCAAAAAAAAGGAAACAGAATTGGTTGAAAAACTGGCTCATTTAGAAGATGAAAATCAGAAAATGGTTGATGAGCTTGACAAGGGAAAGGTGATGATAAGGACATTAAATACTGAACTTGGAAATCTGAAAATAGAACTCGAGCAGGAAAAGGTTAAATGTGCTAATACGAAAGAAAAGCTCAGTATGGCTGTGACAAAAGGAAAGGCATTGGTACAGCAGCGAGATTCATTAAAGAAGTCTCTGGCTGATAAATCCGGTGAGCTTGATAAATGTTTGATTGAATTGCAAGAGAAGTCAGTTGCACTACAAGCTGCTGAACTTGCTAAGGAGGAGTTGTCCCAAAGTGAAAATATGGTTGCATCCCTGCAGAACTCATTACTAGAAAAGAATGCAGTTATTGATCAAGTGGAAGAAATCTTGTCTCAGGCAAAACCTGATGAACCTGAAATGTTTGATATGCCAGAGAAACTAAGATGGCTTGTGGATGACAGAAATACTTTGAAGGAAGCCTTCCTAGAGCTATGCAAATTGAAGAAAGCTCTATCTCTAGCGGACCTGCCAGAGCCTGTTTCGTCATCTGATTTGGAATCACAAATGAAATGGCTTACAGATTCTTTGCTCAGGGCCCATGACAACATGCATACTCTACAGGAAGAAATTTCCACAATCAAGGAATCATCCCGTAACTATATTGATCAGCTTAGTGTTTCTCTTTTGCTGGCATTGCAGGAAAAAGATTACCTTCTGTCAGAATTAACTGATTTGAGGTTCAAATATGATGAGCTTGTTAGCAAGAACCATCAGATTTCTTTGGAGAAGGATCAGATAGTGCATATGTTAGTCGATCTTTGTGGTCTGAACTTGGAAGATGAAGGGATTGATCAAATCTCTTCCAGCACTTATACGATCATCAATTTATGCTTTAAAGTTATCAAAGGACAGAGTGGTCCCTTGTCTAGAGCATCCCATATTGATGCTGAGTTGTTTGAAAGGATTCAAAGTCTCTTGTATGTTAGAGATCAGGGATTAATACTCTATGAAGATATACTGGAAGAGGAGATGCTAATTAGATCAGATGTGAATAAGCTGTCAAATGAGTTGAAAGTGGTATCTGAGGAAATTATAGCACTGAAAGAAGAAAGGAGTTCTCTGCTGCAAGATCTTGAGCGATCAGAGGAGAAGACTTCCATGCTTAGGGACAAGTTGTCCATGGCAGTTAAGAAAGGAAAGGGGCTGGTTCAAGATAGGGACAATCTAAAAGGTCTTCTAAATGAAAAGAACTCAGAGATTGAGCAGTTGAAGGCTGATTTGCAGAAGCAAGAATCTGCAGTTTCTGAATACAGGGATGAGATCAATAGATTGTCCAATGATGTGGAAAGCATCCCGAAGCTGGAGGCTGATCTTCTGGAAATGAAAAGGGATAAGAATCAGTTTGAACAGTTCTTAATGGAGAGCAATAACATGTTACAGAAAGTGATGGAGTGTATTGACGGTGTTGCTCTTCCAGTTGTTCCAGTTTTTGATGAACCAATAGAGAAGGTGAAGTGGCTTGCTGGTTATGTCAATGAATGTCAAGATGCTAAGGTACACAGAGAACAGGAATTGCAGCTAGTGAAGGAAAATGCCAGTATACTTGAAATTAAATTAGCAGAAGCCCAAGCAACTGTAAAATCCCTTGAACAGGAATTATCATCTTCAGATGACAATGTTTCTCAACTTGCTGAAGAAAAAATTGAGTTAGAACATGGCAAAGTGAAAGTTGAGGAAGAGTTACAGAAAGTTAAAGATAAAGTTGCTGAAGTTTGTAATACTACTAAGTCACTTGAAGATGCCTTATCACAAGCAGAAAAAGAAATTTCTATTCTTTCCGAAGAGAAAGAGCAGGCTCAAGTTAGCAGAGTTGCTGCAGAGAGAGAGTTAGAGATTTTTAAAGATGAAGCAGCCAGGCAAACAAGCATACTGGCAGAGGCTAGCAAGACCATTAAGGATCTAGAAGATAAACTATCTCAGGTTGAGGGTAATGCCAATTTATTGACTGAAAAGTATAATGCCGATCAAGTTGCCAAAATTGACATGGGAAATGAATTGAAGAAGCTACAAGATGAAGCTTCAAATCATGCTAGTAAACTGGTGGGTGCCTCTGGAACTATAAAATCACTGGAGGATGCATTATTGAAGGCGCAAGATGATATTTCTGCCTTAGAAGATGCAAATAAAATTGCGAAACAGGAGATATCTTCACTTGGCTTTAAGTTAAATTCATGCATGGACGAGTTAGCTGGAAAGAGTGGCAGCTTAGAAAACAAGTCCTTACAGCTCATTGGACTCCTTAATGATCTTCAGGTGCTCATGAAAGATACTACTCCATTTCCCGGAATTAAACAATGCTTTGAGAGCAAATGTGAGACGCTAAAGAATATGAATCTCATTCTGAACAAAATAAGAGATAATGTTGCCATGACTGCAAAGGATTCAAAGGGACAGCCTGTGATGGTGGAAAATCCACTTGTGAGAGAAACATTCTTGGACAGCCCTGAAAATTATGAAGTTGAACTGGACAATACAGAGATTGATGGTGCTGACATTGACACCATAATCTCATCATTTGGAAAGATTGTGAAAGGATTTCAGTCGAGAAACAAACACATTGCAGATAAGTTTTATGAATTTTCGGATTTTATGGATGAGTTTATTTCTCCTCTCCATGAAAAACTACTGGAAACAGAGACCATGTCAACGACTATTGTTGAGAACATGGAAATTATGAAAAAAGAAGCAAATACCATGGAAAAATTGAAAGAAGAACAGGAAAATACTATTGCCACTTTAGAAAACAATGTCAGTGTATTGCTATCTGCTTGCACAGACTCTACCATTGCACTTCAGAGTGAAGTTGACAAGAATCTTGGGCAGCCAGGCTCCATTTCCGAGGTTGAACAGTTAAACCTTGAAGCAGGTGCACAAACAGAGCATCATAAGAACAGCAAATACGTGGAAGCCACACATAAGTTGATGAATGCTTCTAGAAAAGCTCAAACTTTGATTGCACAGTTTGGATGTAGAAGTGAGCAAGTGGATGCAACAATTGAAGATTTGCGGAATAAATTGAAAGAAACAACTGTTGCTTTTGAATTAGTCACTGATGAGAGAGACTTGAATAAAAACAGAGTTTCACAACTGGAGTCTGATATTCAATCACTGCAAAGTGCTTGCAGTGAGCTTAAGGATAAGTTAGAGGATTATCATGCCTTGGAAGAAAAATTAGAGGAAAAAGAGGCTGAGATTTCATCAATGCACAATGCTTTGTTGGCAAAAGAAGAAAACTCCCTCTTTCCAGCATCTCAAATGAGAGATCTCTTTGACAAGATAGATAGGATCAAAATCCCTATTGTAGAGTCCAAAGAAGATGATTTGGAGCCACATACTTCAGCCCCTATGAGAAAACTCTTTTATATTATTGATAGTGTTCCTAGGTTGCATGATCAAATAAACTCTCTGTCTCATGATAAAGAAAAGCTGCAATCAATCCTTGAAACTAGGGATCTTGACATTAAGGATCTGAAGGATGAAGTCAAACAACTCAATAGAATCTGTGAAGACTCTAAAATGATCAAGAATGAATTGTCTGAGCTCACCTATGTATTAGAAAAAATTATGGATATTTTGGGAGCTGGTGAATGGGTTGTAGATAGGAAATCTAAAGGTTCGAAGGAATTAATACCAGCATTGGAGAAGCATATCATTGCCATTCTTTCAGAATCTGAAAATTCAAAATCCAAGGCTCAGGAACTTGATATTAAGTTAGTTGGAAGTCAGAAGGTTATTGATGAATTAACGACCAAGGTTAAATTACTTGAAGATTCACTCCAAGATAGGACTTCTCAGCCAGACATTGTACAGGAGAGGAGCATATATGAAGCACCCTCATTACCTGCTGAATCTGAGATAATTGAAGTTGAAGAGGGATCATCACTTAGCAAGAAAGCAATATCTCCTGTCCCATCGGCTGCTCATGTGCGGAATATGCGAAAAGGATCTACTGACCATCTTGCACTCGATATTAGTGGGGAGTCTGATAATTTGATTAACAGGGTAGATAAGGATGATGATAAAGGTCATGTATTCAAGTCTCTGAGCACTACTGGATTCGTACCAAAACAGGGAAAGCTCATTGCAGATCGTATTGATGGACTCTGGGTATCTGGTGGCCGGGTTCTCATGAGTCATCCTAGAGCAAGATTAGGACTTATTGGCTATTTGTTTGTCTTGCATATATGGCTACTGGGGACGATCTTGTAG
Predicted protein sequences of Glyma18g01470
Show Sequence BLAST Sequence at SoyBase BLAST Sequence against GenBank NR Limit To All Plant Sequences
>Glyma18g01470.2 sequence type=predicted peptide gene model=Glyma18g01470 sequence assembly version=Glyma 1.0 annotation version=1.1 JGI Gene Call confidence=high
MSENHVAGQVSEADSDSGHGVVHDESNVDTESNTDTYQDQGERVDLRDPEDGKSTEDSARDDMFVDCPDELTTFDGRQKEEEVAAAKNEDDGSEENEVMHQQQSHFDKLGNGVGDGYSSGQLEKVVAQKEIILKEYQEERQTVTQGVLDLCCQLKTLTGQQNEAEVGDREVTDVSLREMIKECLEFVKTASEEQSNSETTINNLREHLSTKDREIEDLNAKLAQLMVSNESMQVSSEAQLEKDRNVEIVIDKMISSLATVVTREQVLDDSISGKIVYIEEGTIHLIEKYNQILSEIYQLGQSFSEVGLDTNEHEYGNILADARGGLLELKKKETELVEKLAHLEDENQKMVDELDKGKVMIRTLNTELGNLKIELEQEKVKCANTKEKLSMAVTKGKALVQQRDSLKKSLADKSGELDKCLIELQEKSVALQAAELAKEELSQSENMVASLQNSLLEKNAVIDQVEEILSQAKPDEPEMFDMPEKLRWLVDDRNTLKEAFLELCKLKKALSLADLPEPVSSSDLESQMKWLTDSLLRAHDNMHTLQEEISTIKESSRNYIDQLSVSLLLALQEKDYLLSELTDLRFKYDELVSKNHQISLEKDQIVHMLVDLCGLNLEDEGIDQISSSTYTIINLCFKVIKGQSGPLSRASHIDAELFERIQSLLYVRDQGLILYEDILEEEMLIRSDVNKLSNELKVVSEEIIALKEERSSLLQDLERSEEKTSMLRDKLSMAVKKGKGLVQDRDNLKGLLNEKNSEIEQLKADLQKQESAVSEYRDEINRLSNDVESIPKLEADLLEMKRDKNQFEQFLMESNNMLQKVMECIDGVALPVVPVFDEPIEKVKWLAGYVNECQDAKVHREQELQLVKENASILEIKLAEAQATVKSLEQELSSSDDNVSQLAEEKIELEHGKVKVEEELQKVKDKVAEVCNTTKSLEDALSQAEKEISILSEEKEQAQVSRVAAERELEIFKDEAARQTSILAEASKTIKDLEDKLSQVEGNANLLTEKYNADQVAKIDMGNELKKLQDEASNHASKLVGASGTIKSLEDALLKAQDDISALEDANKIAKQEISSLGFKLNSCMDELAGKSGSLENKSLQLIGLLNDLQVLMKDTTPFPGIKQCFESKCETLKNMNLILNKIRDNVAMTAKDSKGQPVMVENPLVRETFLDSPENYEVELDNTEIDGADIDTIISSFGKIVKGFQSRNKHIADKFYEFSDFMDEFISPLHEKLLETETMSTTIVENMEIMKKEANTMEKLKEEQENTIATLENNVSVLLSACTDSTIALQSEVDKNLGQPGSISEVEQLNLEAGAQTEHHKNSKYVEATHKLMNASRKAQTLIAQFGCRSEQVDATIEDLRNKLKETTVAFELVTDERDLNKNRVSQLESDIQSLQSACSELKDKLEDYHALEEKLEEKEAEISSMHNALLAKEENSLFPASQMRDLFDKIDRIKIPIVESKEDDLEPHTSAPMRKLFYIIDSVPRLHDQINSLSHDKEKLQSILETRDLDIKDLKDEVKQLNRICEDSKMIKNELSELTYVLEKIMDILGAGEWVVDRKSKGSKELIPALEKHIIAILSESENSKSKAQELDIKLVGSQKVIDELTTKVKLLEDSLQDRTSQPDIVQERSIYEAPSLPAESEIIEVEEGSSLSKKAISPVPSAAHVRNMRKGSTDHLALDISGESDNLINRVDKDDDKGHVFKSLSTTGFVPKQGKLIADRIDGLWVSGGRVLMSHPRARLGLIGYLFVLHIWLLGTIL*
>Glyma18g01470.3 sequence type=predicted peptide gene model=Glyma18g01470 sequence assembly version=Glyma 1.0 annotation version=1.1 JGI Gene Call confidence=high
MSENHVAGQVSEADSDSGHGVVHDESNVDTESNTDTYQDQGERVDLRDPEDGKSTEDSARDDMFVDCPDELTTFDGRQKEEEVAAAKNEDDGSEENEVMHQQQSHFDKLGNGVGDGYSSGQLEKVVAQKEIILKEYQEERQTVTQGVLDLCCQLKTLTGQQNEAEVGDREVTDVSLREMIKECLEFVKTASEEQSNSETTINNLREHLSTKDREIEDLNAKLAQLMVSNESMQVSSEAQLEKDRNVEIVIDKMISSLATVVTREQVLDDSISGKIVYIEEGTIHLIEKYNQILSEIYQLGQSFSEVGLDTNEHEYGNILADARGGLLELKKKETELVEKLAHLEDENQKMVDELDKGKVMIRTLNTELGNLKIELEQEKVKCANTKEKLSMAVTKGKALVQQRDSLKKSLADKSGELDKCLIELQEKSVALQAAELAKEELSQSENMVASLQNSLLEKNAVIDQVEEILSQAKPDEPEMFDMPEKLRWLVDDRNTLKEAFLELCKLKKALSLADLPEPVSSSDLESQMKWLTDSLLRAHDNMHTLQEEISTIKESSRNYIDQLSVSLLLALQEKDYLLSELTDLRFKYDELVSKNHQISLEKDQIVHMLVDLCGLNLEDEGIDQISSSTYTIINLCFKVIKGQSGPLSRASHIDAELFERIQSLLYVRDQGLILYEDILEEEMLIRSDVNKLSNELKVVSEEIIALKEERSSLLQDLERSEEKTSMLRDKLSMAVKKGKGLVQDRDNLKGLLNEKNSEIEQLKADLQKQESAVSEYRDEINRLSNDVESIPKLEADLLEMKRDKNQFEQFLMESNNMLQKVMECIDGVALPVVPVFDEPIEKVKWLAGYVNECQDAKVHREQELQLVKENASILEIKLAEAQATVKSLEQELSSSDDNVSQLAEEKIELEHGKVKVEEELQKVKDKVAEVCNTTKSLEDALSQAEKEISILSEEKEQAQVSRVAAERELEIFKDEAARQTSILAEASKTIKDLEDKLSQVEGNANLLTEKYNADQVAKIDMGNELKKLQDEASNHASKLVGASGTIKSLEDALLKAQDDISALEDANKIAKQEISSLGFKLNSCMDELAGKSGSLENKSLQLIGLLNDLQVLMKDTTPFPGIKQCFESKCETLKNMNLILNKIRDNVAMTAKDSKGQPVMVENPLVRETFLDSPENYEVELDNTEIDGADIDTIISSFGKIVKGFQSRNKHIADKFYEFSDFMDEFISPLHEKLLETETMSTTIVENMEIMKKEANTMEKLKEEQENTIATLENNVSVLLSACTDSTIALQSEVDKNLGQPGSISEVEQLNLEAGAQTEHHKNSKYVEATHKLMNASRKAQTLIAQFGCRSEQVDATIEDLRNKLKETTVAFELVTDERDLNKNRVSQLESDIQSLQSACSELKDKLEDYHALEEKLEEKEAEISSMHNALLAKEENSLFPASQMRDLFDKIDRIKIPIVESKEDDLEPHTSAPMRKLFYIIDSVPRLHDQINSLSHDKEKLQSILETRDLDIKDLKDEVKQLNRICEDSKMIKNELSELTYVLEKIMDILGAGEWVVDRKSKGSKELIPALEKHIIAILSESENSKSKAQELDIKLVGSQKVIDELTTKVKLLEDSLQDRTSQPDIVQERSIYEAPSLPAESEIIEVEEGSSLSKKAISPVPSAAHVRNMRKGSTDHLALDISGESDNLINRVDKDDDKGHVFKSLSTTGFVPKQGKLIADRIDGLWVSGGRVLMSHPRARLGLIGYLFVLHIWLLGTIL*