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Csor.00g093610 (gene) Silver-seed gourd (wild; sororia) v1
Overview
Sequences
The following sequences are available for this feature:
Legend: polypeptideCDSinitialstart_codonintroninternalterminalstop_codon Hold the cursor over a type above to highlight its positions in the sequence below.ATGGCTCCATCGGCTGCTTGTCGTTGCTTCTGTAATCGCAACTGCTATGTGGTACGGGTGTCCCAGTCCATGGTATATGGAAAACGGGATAAGGAATAGGTTGTCTATGACCTTAAAGAGTAATGAAATTTTAATACAAATTGATATTCTATTAATACAATAATATTGTACTTATCTCGAACCAGTGTCGAAATATTATGGCTTAACCAACTGTGAATGTACTGTTTGTTATTTAGACGTCTAGTGTTTAATTCCAAAGACCAAACCATGACTGTGCGACTGCAGAGTTTAAAGCAGCGGAGTGACGGTTGGTGTTTAACATCGTTACCGGGAAAGGAAAAGGATAAAAGCCAATATCTCTGAAGAATGAAAGCCTGGAGCAACAATCCCATCTCTCCCCCGAGCTCTGCCACTGATGCTGTCATTGTCACTTCTACAACTACACAACCATTGCAACAGTGATTTGTCAATTTAATGGTTTTTGGTCCACTTAGTCAGCACACCAGCCAAGCCTACCGCCGTCAGAACTGCTGCATCACAGTCCCAATCACAACTTCAGCCACAGCAAACTAAGTGGAGACGAGATGGGCAACTGCGGTACTAGAGAAGAGCCTGCAGTTGTTTCCAATGCTCAAGGTACATTCAGAAAACCCGGATCTAGGGTTTTTATCTGTACGCGCGCTTTCTGTTTATTTTTGCCTAATGCCCAACTTAGAAACTAACTGAATCAAACTAAAGCGATGATGGGCTTGTTGTCTCTTAAATGGGGACGCTTCTGCTGCAATTATGAACTCAATTATAGTAGCTTTCGTTCTTACACAGTTCAACAGCTGCATACTTCATCGTCTTCCTTGGTTGTGAAAAGCGCCAGCAACAATGCTCCAGATAAAAGACATATTCATAACCGGTCCATATCAGATCTAAGCGATCCCTCGACCCCTCGCAACCTCGAGGACTTTAGAAACAATTCGGTGCTTTACACACATGTTATTGCCTTCACATTATACGAGCTGGAAACGATCACCAAGAGTTTCCGCTCCGATTACATTCTCGGAGAGGGCGGTTTTGGAACTGTTTATAAAGGCTACATTGATGAGAACGTCAGGGTTGGCCTCAAATCTCTTCCTGTCGCTGTCAAGGTTCTCAACAAGGAAGGCCTGCAGGGCCACCGAGAATGGCTTGTATGTCTCTTCTCCCACGCCACCATACAAGTCATGTTTCCAAGTCCCTTCTCTCTCTCTCTTTGGTATCTCATTCCCCTTGTTGCTTTTTTGCAGACAGAAGTCAACTTTCTTGGTCAGCTGAGACATCCAAACCTTGTTAAGTTGATTGGTTACTGCTGCGAGGATGATCACAGATTACTTGTCTACGAGTTCATGTTTAGAGGAAGCCTTGAAAACCACCTCTTTCGAAGTACATACTTATCTTGAGCTTCAGCTTCTTTTCTTCGCTTATCAATTATGTTTCTACTTTCAGCCTCTATTTATCAATTGCTCTTGCATTTCTCTTAGCATCGGCTGGCACCAACTATAATTAGTTCTGTGGGCTACTTGACGGTAGATGAATTAGGTAATATGGTTGATTAGAGATTTATTGACTGAAGCATGAAGCACGCTTCATCTTAAATTGAATGTGTGGTCTCTACCCCCACTTCAACCTACAATGCTTTCAATCAATTATTTATATAATTTGTTCATGCATGCACATTGCTTAATCCACATAATCGGAAGATGCAATGCGGTACTTATTTAATCTATTGTTGTTTTTTTTTCAATTTTCCGACTTATTTTCCAGTTTCCTTGAATGCATTATTGTTTATTCTTAGCATGGAGGATCTGTGACAGAGTCCACTCCCAGCAGAATTCATTTGTTTTATTATCTGGTCATCTGGCATATCTTTTGATGAAGCAATCATGTGCTTTTCGATAGACCTGACTATATAAGCATCACTATTAGCTATTCATTTGTTTCATTTTGACCTAGTTTTTTTAATAACACGCTCTAATTTTGTGCACTCGCTAGACGACATAATGTTGATGTAGGATTAGGTGAAAAAGTGTTTCTTGGAAGAAAATTAAAGTAATTGATGGGCATGGATGAAAATTTAATTCTCATGGTCAAAACGGCCATATCTCAATTCACTTTTGAGCTTTGTATATGGGCCCTTTTTTTTTTTCCTTTTAGGAGAAAGTGAACTTTCATAGAGAAAAATGAAAGAATACAAGTGGGCCTTCAAAGTGATAACCCAACAAAAGGAGCCAAACCAAAACATGAACTACCTATATGACAAAAGTCTCCAATTCAAAAGATCAAGTCAGGGGTTAATTATTGAAATTCTTTAGCAATAGATGTACAAAGAGAAACATTAAACCTAAGTAGAGATTAGACCTCTCAAGTCAAATACACCATAAAACAACCCAAATACCAGCACACCAAAGGATACAACCCTTATTGACGAAGGATGGGTGTGCAACAAAACTTCCTCTATCAAAAAACAACAATCCTCGTTATGAGCCAACCAGATACCGAATGAATAGAAAAAAGAGTCTCAAATTGAGTGAACAAACTCACAATTGCAAAGGATATGAACCAAATCTTCATTAAGGAAATACATCATCACATCCTCAACAAAAAGAAAGAATGCCTTTGGATATAGTCCAAGCTCCAAAGTGCTTCCTCTCCCATGCAAGACATGCCAATCAATGAATTTGATCTTCTTGGCAATGTTAACCTTCCACAATGAGAAGAAAGGGTATTGAGGAGTGTTGGGATCACTGAAAAAAAAAAAAAAAGAAGGAAAAAAAGAGTGAAAAACAGAACTTCATGAAAACTCTTGCAGGGACAACATGATAGGAAATATGACCTTGAAGAATAGATGAGGGCATCCGATTAATCAAAAAAAAAAAAAAAAAAAAAAGTTGTGAAAATTGCATCAACCTAAAAATGCTTTGGAGCATGCATTTGAAAGGATAATGATCTTGTAGGTTCAAGAATTGTGAGATGGGAAAAAAAAAAGTTGTGAAAATTGCATCAACCTAAAAATGCTTTGGAGCATGCATTTGAAAGGATAATGATCTTGTAGGTTCAAGAATTGTGAGATGGAGTATCAACAGAAGATGATTAATGAATAATCCAATGCTTCTTATCAAAAAAATAAATAAAATAATCCAATGCTTATAGAGGTACAACATGAGTGTTTTGTTAAAAGTATTCGCCAACATTGTCACGTTGTAAAATTTTAAGGGATACACCAAAACTGAATTCAAATTTCAGCATGAAAATTACAAAAATGAGAAAGGACCTCAGAATGATTTTTTTACAAAATATGACCAGGTCATGTGAAAGTGGTCATCAACAAAGGCCATGAAATAGAAAATCCAGTTTTGGACATAATTGGACAAGGTCCTCAACTATCCAAATGAACTAACTTGAAAGGAGAACGTACTCAAAATTCAATAAGACAATATGAAACTGAGGACAGAGCTTTCTTAATGTGGAGAGTGATGGATGACCGAGGTGACAATAGACATCAAGAGGAGAAACAACTCTCGAACAAGCAACAACTTCCGGTACTTGATGATCAAAAGTTTAAAGTCCTCCAAATACATGTCGGATCCCAATAATCTTCTTTGTCTCAAGATCTTAAAACAAACAATAGCCAAGATAGAATGACATAACAATGAAGGTCACAAGTGAGATTACTAACAAAGATCAAGTTACAAGAAAATTGAGGTAAATGAAGAGCATATAACAAAGAAAGAGATGGAATGAGGTTTACGGTGCCAGATCCAAGAACAGAGGATTTGGATCCATATGTAAATGTAACATTTGTAAGGGATGTAGATGACAAAATGGTTGAAAATAAATTGGGATTATGTATCATAAGATCGGTAACACCTTAGTCTATGACCCATTGGTAGATGAGGAAAAACAATAACAATTCATGTTATATGAACCAGCAATTGTTGTAATAAGAGTAAGTGTGAATGATGAAGAGGATGCTTTACATGATTTTTGGTACTGTTGAAATTAACCAACATCGATTATTGAATTAACAAATGGCTTCTTAAATGAACCATAAATGGATGAGTCCTTGATTGAACCACACTAGATATCATTGCTACCTTGTGTTCAACCATAGATCAAAGAAAAATATAGGAACACAAAATCTAATCGAAGTCAATAATTCTGACGAACATAATTCTTGAAAATCTGATATGAATGGAGTTTCCAATAAAAGAACTCTACTTCTTTTACAAAACAACTTCAAACCCGATCTGACTATGACCAGAATACCACACAAAGAAGTCAAAAGTTGCAAGAACCAAGGAACCACGCTACGCTAATTGAAGAGACAAAAACAGAGCTGAATTGCAAAGAATCTCCAAAAATAGAACATAACGGCAAAAAGCAGAATTAAACCAAGACAAAAAAAAAACTTATCCAAGTTTCCTCACAACCAAGAGCCTTGAAGTCATGAAGCGAAAAATACCAGACCAATGACCATAATTTGAGATGTTATATTTAGAAGAATAACTTTCAACCATATAGCCTCTTTTTTAAGGTGACATCTCCAAAACTATTTAGCAAGTGGAGAGAGAAGTTTTTAAGATCATTGATTCCTAGGAGCCCCCTTCCATATCAATGGTTATTGAACCTTTGCTTGGTTAAGCAAGTCATGCTACCCTTTTTCTAGCTTCTTACCAAAGAAAGTTTGGAAGAACTTTTCATTTGAGTTGGCAACCTTAGTTTGCAGAGAAAAACAAACACAAATAAATAGGAATATTAGGAAGAATGGCTCAGGGGATGGAAAAAAGTAGCATATTCTCTACAATATATCTTTGACGGGACCTTGCATCATATGGAGTTACTGGAAAATAACTTTATCATATCAATTAAATGTTATCCAAAAAAAGAGGTAGGAGAAGAAAAAGAGTGGCTTGGAATAGATGATTATGCCTTTTGAGAAGGAGAGATGTTCTACCACTTCTTGTGTTTGTAACCAATTCTGTCAATAATGGGGCTGAAAAGTGTAAGGTTACCTTTAAGGGCTGACCCCAAGTAAGAGACATGCCATCGGCCTAATTTGTCTCTAAAGTTAATAGCCATATTGTGAGATTCCATATCGGTTGGGGAGGAGAACGAAACATTCTTTATAAGGGTATGGAAACCTCTCCCTAGTAGACGCGTTTTAAAAAAAGCCTTGAGGGGAAGCTTGAAAGGGAAAGCCCAAAGAGGACAATATCTGCTACCTAGTGGTGGACTTGGGCTATTACAAATGATATAAGAGCTAGACACCAGGCGATATATCAGCGAGGAGGTTGAGCCCCGAAGGGGGGTGGACACGAGGTGGGCTTAGGCTATTACAAATGGTATCAAAGCCAGACACCGGGCGATGTGCCAGTGAGGAGGCTGAGTTTCGAAGGGGGATGAACACGGTGGTGTGCCAGCAAGAACGTTGGGCCCCGTAGGGGGGTGAATTGTGAGATCCCACATCGGTTTGGGAGTAGGATGAAGCATTGTTTATAAGATTGTGGAAACCTCACCCTAGCTGACGGATTTGAAAAACCTTGAGGGAAAACTCGAAAGGGAAAACACAAAGAACACAATATCTGTTAGGGGTGGGCTTGGGCTAGGGCTGTTACACATATGATGATAACATAATTTTATTTTGCCCACTCGGGCTTGGGCTTGGGCTGTTACAGAAAAAGAAAAAGAAAGTGCCCTCAATGAATGCTCTTGAATCTTATATTTTGCCCACTTATGATGATAGCATAATTTGGACTAGAGAGAAGGTATAAATCCTAGTTCTCCATTGGTACACCAAAGCCTTGAGCAAGTAAGTGGCGTAAAAAATTTCCAAATCAGTCCGTGAATGGCCTTTCGAGATCAAGTTTGATAACGGTACCTTTCACTTTTTTTCTTCTCTGCTCATCAAATGAGCTTATTAGCAGTAAGTAACGCAATTATTAATCATCTGCATGCTAGAAATTATGGCAGATGGAAATTGATTTCTGGTTGGAGAACCTTTTTGGCCATTCGAAGAGAACCTTTCCAATAATTTTGACTCAAAGGTTTAAATTTATAAATTGTTGTGGCATCCAATTTCTTTGGTATGAGAGAAGCACAAGTCTCATTGAGACTAGCCATGCGGACACTGTTCTTGAAACCAGAGTCATGGAACACTATCAAGGCATTAGGATTAAGGGTGATCCAAGACATTTTGAAGAATTTCATTGTGATTATCATTTGGTTGGTGCTTTGTTGAAAGGGCAAGCCCAAGGAGTTACTTGCGTTAAGTATTTTTGGTAAAGAAAAATAGCCTCGGCGTTTGACTATGGGCAGCTGAAATGTGATTCAAATGTCTTATTGCGAGAATATGTCAACCCTCTATTTTAATCTAAAGAGACTGAAAAAGGGCCCTAAATTCATTTTCAATGGTTTTATCATAGAGTAGGAATGTAGGATCCTTCCATGTCTAAAGAGAATTTTCAGAAATAGACCCTTCGTGTTGTTACAGGCAGCACATTGATGGAATTGGTTCTTTTATATATGTGGAGGATTTTGAGATCCAAAAGCAACCAAAAAAGAAAAAGAAAAATCAATAAAAAGAGGAAAATCATTTTCTGTTGTCCGTTTTGATTAATTCTTATTGTGCATTTGCAAGGAAAATTTTTTAAGACGAAAGTTGAAGATTTCGTTTCAGTTCGGGGAGAATTGATTTCTAGTATCTGTATGAATGGGTCCTTGTGGTCCTACTTGGTTCTTGATTCGTTTTTTATATATATATATATATATATATATATATATTTTTGAAAATAAAAAGTACAAGAAAAACAATGAAGATATGCTTGTGATTCTTGTTTTCAAAAAGGGTTTTAAAAAACACCTAAAATGGCCTATTTTCAAAAATATCAAGCTGCTGTTTTTTTTTTTAAAATTTTGTTTTAAAAAATTATGAAAACAAGAACTACACTATTCAGGAAAACATGTTTCTGTGAATTAACAAATTAAATATTACGATCTACTATTTTTCTTCCAAATGCAGAAGTCCACCTCTGTCTACAAAGTGGAAATTTCATCATTTTCTTTATGAAGGATTTTTAATTCTAGAAACTACAATTAACAAATATCAACAAATTAAGCTAAAGTGACTGTATACATCCGTCATATAAACATTAATTCAAAAAAATTGTCATATATTGTCATATATTCCTTTTCGACAAAGAACTTCTGTTCCTTTCTCTTGCCGAAAAAGATTTTCTTTTTCTCTTACAGATTTTAGAGGTTTAATTTTTTAAAGAATGGTTTGTTCCTTAAATTATTTTAACTGATACTAGAAAGAATTGCCATGAGAATCAAATACAAAAGTACAATTAGATTAAATTAATATTATTTTCTTTTTATCATTTTCAAATTTACAACTCTTCAAGTTTATAGTTTTTATATCGTAACCAAACATGTTTTCAAATATAGAAATTTGTTTTTGTTTCTATAACAGCCCAAGCCCACCGCTAGTAGATATTGTCCTCTTTGGACCTTCCCTTTTGGGCTTCCCCAAGGTTTTTAAAACGCGTCTACTAGGGAGAGGTTTTCACACCCTTATAAAGGGTGTTTCGTTCTCCTCCCCAACCAATGTGGGATCTTGCAATCCACCCTCCTTCAGGGCCCAACGTCCTTGCTGGCACTCGTTCCTTTCTCCAATGGATGTGGGACCCCCACCAAATCCACCACCCTTCGGGGCCTAGCGTCCTTATTGGCTCACCGCCTTGTGTCTACCCCCGTCGGGGAACAATCTCCTTGCTGGCACATCGCCCGGTGTCTGTCTCTGATACCATTTGTAACAGCCCAAGCCCACCCCTAGCAGATATTGTCCTCTTTGGGTTTTTCTTTTCGGGCTTCCCCTCAAGATTTTTAAAACGCATCTGCTAGAGAGAGGTTTCCACGGTTCTCCTCCCCAACGAATGTGGGATCTTACAGTTTCTTACAAAATTCTTTGTTTCTGAAAATAAATCTTTGAATCATGGACTGAACGAGGCCTAAACATTAAATATTATCTGATGGTTCTTTCAATTTTTCTAGTACTTGACTGGCTCCACTTTGATATATTGTTCTACTAAATTTTACATGATCTTTCCTGTGGAAACTCAGAGACAACTGTTCCATTGCCATGGGCAAGAAGAATGATGATAGCTCTTGGAGCGGCCAAGGGACTTGCATTCCTTCATAATGCTGAAAGGCCTGTCATCTATCGGGATTTTAAAACCTCTAATATACTGTTGGATTCTGTATGTGAAGTTTATTTTGCACCAACACTGTCATTATTCTTTTCTCAAGCTTGTTGGTAAGATGATATTTCTTCTCATTTGCCTCCACTTGGCTCATTATTCTGTAGGACTATGCAGCCAAGCTTTCTGATTTTGGGCTTGCAAAAGCTGGACCACAAGGTGATGAGACACATGTTTCTACTCGAGTAATGGGTACTTATGGTTATGCTGCCCCTGAATATGTCATGACTGGTATGATCTTTTCTTTATGATTGGAGCTTGCACAAAACTTCTCATTTGCTTGGTCTTCTTCTTTTTTTCCCCCAGTTATACAAATGTATATGGGCAATTTTTGTATTTTATGGCCTGTGGGCCGCCTATTATTTCAAGGTGAAGCCATTTTCAATATAGGATCATCTATGAAAGGGAGAGTCTAACCTTAGCAGGAACATAGTGCATAAGAGGTTAAGGCTAGAACTAACTATACCCGGTTTTTTCTCCTTGCTAAAAATATTAAGAGGGAAAATATTTTCCTATATTCCATAATAAAAGAGAAGGATTTCTCAAGTAAAAGAGAAAAGGACCCGTTATAGACAAGGAAATACAATAAATACAAAGAGATTCCTATTCCAAAAAGAGAATTACCATCACCCCCTCAAGCTGGTTTAAAGATATCTTTCATTGCCAACTTGTTAATTAGTTTGTCGAATTGTAGCTTTGGAAGTCCCTTAGCACATCATCTACTTTTGCTCTGTAATTGGAAGGAAAGGAACACATATTGCTTCAGCATCAATTTTCTCCTTTATTAAATATTTATTGACTTCATTATGTTTTGTTAAATGTTTATTGACCTGATTAGCAACTAATCTGACTTTATATCTTTGGATGTATCCAACAGCATTGCGTTTTATAATAAATAAATACCCATTTGCAACCTACTATTTTTTATTCTTAGGTAATTCCACGACGTCCCATGTGAAATCTTGTTTAAGAGCATTCATCTCTTCCATAACAGTTTATTCTCAATTTATATTGTTTAGGGCCTCTTGTATATTCCTTGGAACAAATAGGTTGGTTAACCTAGAGGTGAAGGCTTTATGACCATCAGATAGTCTATGATAGAACAAATACTTTGCATTAGGATATTTGGTGCACTTACAAGTACATTTCCTATGAGTTATTGAAATGCCAATAACAGAAATATCAGAAGGAATATCATGAATAGTAGAAGATGCAGCAATAAAGGATTTATTACTTGAGTCTTCAACATCATTCATTAAATCATTAGATTGGTTTTGTGTCAAGTTTACTATATGGTTTCGTTCTTTTGGTTGAATTCCCTTTTAGTATAAACTTGAAGTTCATGGTGTAGATTAATTAGATCGTTGTGTAGTATTTCTCCCTCTGTAGAAGAATTTTCGATACTTGACATTGAAGCCCTGTCCCTAGAATAAATGATGGTGGAAGAGGACTAAAACTTGTATTCTCAAAATGAGTTATGTTAGGAAGAGGAGAAGTATCCCAAAACTTATCTTTGAAGTTGGATGTTTCCCCTCGAAGAGAATTTGAGCTAAAAAGGGTTGATTTTCAAAAACAATAAAACATCCGTACTTCCAAAATATTATTTTCCATAGGATAAAACATTTATAACCCTTTTTTGTGGGAACATACTCTGAAAGATGCATTTAACAGTCCCAGGGTCAAGTTTAGAACGATGAAGACTAGGAATATGAACATATGCAGTAAACCCAAGACTTTAATTGTTAAATTAGAGAACAAGCAAACATTTTGAAAAAAAGGTTTTAAAGTAATCCAAATAAAGCCTTCCTAGATATCCAATATATAAGATAAGCAACTGTTAGAGTTGCATCTCCCCATAGGTAATTAGGTATGTGCATAGAAAGCATAAGAGCACGAGCGACTTCAAGTAAATATCTATTTAGTCGTTCAACAATGCCATTTTGTTAGGGAGTATCTTGACAAGTAAATTGATGAAAAGTTTCTTTTTCTTTTAACAAAACATTTCAATATTCATTGAAATATTATGTCTGATTATCCGAATGATGAGTACTTTCAAAATGAGTGTTTAGGGTGGTGTATAATTTTGATGGTTCGATCAACAAATACAAAGCAAGGTTTGTAGTAAAAGAATATGCACAACACCCAGAGTTGATTATGGAGATACATTTGCTCCAGTTACATGACATGCTACTATACGATTAATTATTGCTTTACCTGCACATCTGTTGTGGAAAATACCCCAACTAGATGCCAAATCAACTTTTTTTGGATGGAAATCTTGAGGAGATTTATGTGGGGCAATTTGAAGGTTTTGTTGATAAAGGTAAAAAGATAAAGTGTAAAGCGTATCGTCTGAAAAAAAGCTCTCTCGTGCTTGGTATAATAAAATTGATTCATACTTGCTTCTTCAAGGTTTCAGGAAGAGTACGAGTGAAACTACTCTTTATGTTAGGGCTACTGACAACTTTAATCAGCTCATTCTTTCTCTTTATGTTGATGAGATACTTGTAACTAGAAATAATTGTCAAATGCTACAAGATTTTAAAGTTGAAATGGAAAGGATGTTTGAAAGGTCAACTCTTGGTTACATGTATTACTTTGTTGGCATGGAAATTCATCCCCACAAGGGTATTTGTATTGCCAAAAGTAAGTATGCTCAAGAAAATTTGAAGAAATTCAAGATAAAGTTGTTGCTCATTTTTCTCTCCTCCTTGTTTGTCGCTTCTAGCCCTTCAGAAACTGTCAATCTTGGTCTCCTCTCACCACCATTCTGAGCCTTTGGTCAACGATTTAGTCTCCTGGCTTTTTTTTCGTCCAAAGGCTTTTTATCCACCATCTTCAACCATCTCGTTGATCTCTGATTTGCCTTCTCAACTTTTCGCCATTTCTTTTTTGCTCCAATGTCATTCGCTGTTTTTTGATCAGAGGCTTCTGCACTAACCTTTCTAATCGGAGTTTTCACTCGTTATTCTTAGATAAATCTTTTGAGAACTTTCAGTTGTATTCACTAATTATGAAGGTAGGAAGTTGTTGTGTAGGTAATCTTTCTTCTACATATGCTTCAAAGATGGCATGTTTTATATTTGAGGATTTGAAATTTAAGCAAGTGATTCCTTTATCAATTTTTCATGTGCATTGGTTCAAAAGTTCATTGGTTGAGCTCCCTACAAAATCGGATGTGTTCGTATTATTTTAAACAAGATAGAGATGTTAACCAGACTACTAAATGGTCAAAGTGTTGAAATATCATCACTAGCCAATAGAGTCAAGCCCAGTATATTTATTTTAGTAGAGATTTTAGGAGAAAGAGATCTAGATATTTTAGAAAAAAGATTCAGATTTGTTAGGTCTAGATTCAAATCTGTTAGGTCTAGATTTAGATTGGTTAAGTATAGATTGCTTAGGCTTAGTATAAATACCCCTCCACCCTACCTAGGTTATTCATCCAAGAAATCCAAAAACAATAAAAAGCAGAAGTATTCTACAATTGTCTTGTATTCTCTTCTCGATTGGTCTTAATAAAGAGTGCGAGTGTTTTCCACAGAGAGTTGTGTTCAACACAAAGAACAATAGATTCCAAAGGTGGTTTGTTGATTGTGTTGTCTGGCCTTCTTCTGGCAGTGGGAAACTTTTTCTTGTTTATTCTTATCTCGATAAAAGGAGACTGGTTAATTTTCAGAGAAATATTGCAGGAGATCCTTCTGAAATATGA ATGGCTCCATCGGCTGCTTGTCGTTGCTTCTGTAATCGCAACTGCTATGTGGTACGGGTGTCCCAGTCCATGTCAGCACACCAGCCAAGCCTACCGCCGTCAGAACTGCTGCATCACAGTCCCAATCACAACTTCAGCCACAGCAAACTAAGTGGAGACGAGATGGGCAACTGCGGTACTAGAGAAGAGCCTGCAGTTGTTTCCAATGCTCAAGTTCAACAGCTGCATACTTCATCGTCTTCCTTGGTTGTGAAAAGCGCCAGCAACAATGCTCCAGATAAAAGACATATTCATAACCGGTCCATATCAGATCTAAGCGATCCCTCGACCCCTCGCAACCTCGAGGACTTTAGAAACAATTCGGTGCTTTACACACATGTTATTGCCTTCACATTATACGAGCTGGAAACGATCACCAAGAGTTTCCGCTCCGATTACATTCTCGGAGAGGGCGGTTTTGGAACTGTTTATAAAGGCTACATTGATGAGAACGTCAGGGTTGGCCTCAAATCTCTTCCTGTCGCTGTCAAGGTTCTCAACAAGGAAGGCCTGCAGGGCCACCGAGAATGGCTTACAGAAGTCAACTTTCTTGGTCAGCTGAGACATCCAAACCTTGTTAAGTTGATTGGTTACTGCTGCGAGGATGATCACAGATTACTTGTCTACGAGTTCATGTTTAGAGGAAGCCTTGAAAACCACCTCTTTCGAAAGACAACTGTTCCATTGCCATGGGCAAGAAGAATGATGATAGCTCTTGGAGCGGCCAAGGGACTTGCATTCCTTCATAATGCTGAAAGGCCTGTCATCTATCGGGATTTTAAAACCTCTAATATACTGTTGGATTCTGACTATGCAGCCAAGCTTTCTGATTTTGGGCTTGCAAAAGCTGGACCACAAGGTGATGAGACACATGTTTCTACTCGAGTAATGGGTACTTATGGTTATGCTGCCCCTGAATATGTCATGACTGGAGATCCTTCTGAAATATGA ATGGCTCCATCGGCTGCTTGTCGTTGCTTCTGTAATCGCAACTGCTATGTGGTACGGGTGTCCCAGTCCATGTCAGCACACCAGCCAAGCCTACCGCCGTCAGAACTGCTGCATCACAGTCCCAATCACAACTTCAGCCACAGCAAACTAAGTGGAGACGAGATGGGCAACTGCGGTACTAGAGAAGAGCCTGCAGTTGTTTCCAATGCTCAAGTTCAACAGCTGCATACTTCATCGTCTTCCTTGGTTGTGAAAAGCGCCAGCAACAATGCTCCAGATAAAAGACATATTCATAACCGGTCCATATCAGATCTAAGCGATCCCTCGACCCCTCGCAACCTCGAGGACTTTAGAAACAATTCGGTGCTTTACACACATGTTATTGCCTTCACATTATACGAGCTGGAAACGATCACCAAGAGTTTCCGCTCCGATTACATTCTCGGAGAGGGCGGTTTTGGAACTGTTTATAAAGGCTACATTGATGAGAACGTCAGGGTTGGCCTCAAATCTCTTCCTGTCGCTGTCAAGGTTCTCAACAAGGAAGGCCTGCAGGGCCACCGAGAATGGCTTACAGAAGTCAACTTTCTTGGTCAGCTGAGACATCCAAACCTTGTTAAGTTGATTGGTTACTGCTGCGAGGATGATCACAGATTACTTGTCTACGAGTTCATGTTTAGAGGAAGCCTTGAAAACCACCTCTTTCGAAAGACAACTGTTCCATTGCCATGGGCAAGAAGAATGATGATAGCTCTTGGAGCGGCCAAGGGACTTGCATTCCTTCATAATGCTGAAAGGCCTGTCATCTATCGGGATTTTAAAACCTCTAATATACTGTTGGATTCTGACTATGCAGCCAAGCTTTCTGATTTTGGGCTTGCAAAAGCTGGACCACAAGGTGATGAGACACATGTTTCTACTCGAGTAATGGGTACTTATGGTTATGCTGCCCCTGAATATGTCATGACTGGAGATCCTTCTGAAATATGA MAPSAACRCFCNRNCYVVRVSQSMSAHQPSLPPSELLHHSPNHNFSHSKLSGDEMGNCGTREEPAVVSNAQVQQLHTSSSSLVVKSASNNAPDKRHIHNRSISDLSDPSTPRNLEDFRNNSVLYTHVIAFTLYELETITKSFRSDYILGEGGFGTVYKGYIDENVRVGLKSLPVAVKVLNKEGLQGHREWLTEVNFLGQLRHPNLVKLIGYCCEDDHRLLVYEFMFRGSLENHLFRKTTVPLPWARRMMIALGAAKGLAFLHNAERPVIYRDFKTSNILLDSDYAAKLSDFGLAKAGPQGDETHVSTRVMGTYGYAAPEYVMTGDPSEI Homology
BLAST of Csor.00g093610 vs. ExPASy Swiss-Prot
Match: Q8GXZ3 (Probable serine/threonine-protein kinase PBL8 OS=Arabidopsis thaliana OX=3702 GN=PBL8 PE=1 SV=1) HSP 1 Score: 432.2 bits (1110), Expect = 5.3e-120 Identity = 219/271 (80.81%), Postives = 229/271 (84.50%), Query Frame = 0
BLAST of Csor.00g093610 vs. ExPASy Swiss-Prot
Match: Q8H1E3 (Probable serine/threonine-protein kinase PBL17 OS=Arabidopsis thaliana OX=3702 GN=PBL17 PE=1 SV=1) HSP 1 Score: 319.7 bits (818), Expect = 3.9e-86 Identity = 155/217 (71.43%), Postives = 173/217 (79.72%), Query Frame = 0
BLAST of Csor.00g093610 vs. ExPASy Swiss-Prot
Match: Q9ZUF4 (Serine/threonine-protein kinase RIPK OS=Arabidopsis thaliana OX=3702 GN=RIPK PE=1 SV=1) HSP 1 Score: 312.8 bits (800), Expect = 4.7e-84 Identity = 156/224 (69.64%), Postives = 181/224 (80.80%), Query Frame = 0
BLAST of Csor.00g093610 vs. ExPASy Swiss-Prot
Match: Q9SY91 (Probable serine/threonine-protein kinase PBL15 OS=Arabidopsis thaliana OX=3702 GN=PBL15 PE=1 SV=1) HSP 1 Score: 312.4 bits (799), Expect = 6.2e-84 Identity = 150/224 (66.96%), Postives = 183/224 (81.70%), Query Frame = 0
BLAST of Csor.00g093610 vs. ExPASy Swiss-Prot
Match: F4JZW1 (Serine/threonine-protein kinase PBL13 OS=Arabidopsis thaliana OX=3702 GN=PBL13 PE=1 SV=1) HSP 1 Score: 305.4 bits (781), Expect = 7.5e-82 Identity = 151/224 (67.41%), Postives = 181/224 (80.80%), Query Frame = 0
BLAST of Csor.00g093610 vs. NCBI nr
Match: KAG6580417.1 (putative serine/threonine-protein kinase PBL8, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 669 bits (1726), Expect = 1.07e-242 Identity = 329/329 (100.00%), Postives = 329/329 (100.00%), Query Frame = 0
BLAST of Csor.00g093610 vs. NCBI nr
Match: KAG7017178.1 (putative serine/threonine-protein kinase PBL8 [Cucurbita argyrosperma subsp. argyrosperma]) HSP 1 Score: 545 bits (1405), Expect = 1.21e-194 Identity = 269/270 (99.63%), Postives = 269/270 (99.63%), Query Frame = 0
BLAST of Csor.00g093610 vs. NCBI nr
Match: XP_022982591.1 (probable serine/threonine-protein kinase PBL8 [Cucurbita maxima]) HSP 1 Score: 547 bits (1409), Expect = 7.54e-193 Identity = 270/270 (100.00%), Postives = 270/270 (100.00%), Query Frame = 0
BLAST of Csor.00g093610 vs. NCBI nr
Match: XP_023527052.1 (probable serine/threonine-protein kinase PBL8 [Cucurbita pepo subsp. pepo]) HSP 1 Score: 547 bits (1409), Expect = 7.54e-193 Identity = 270/270 (100.00%), Postives = 270/270 (100.00%), Query Frame = 0
BLAST of Csor.00g093610 vs. NCBI nr
Match: XP_022934518.1 (probable serine/threonine-protein kinase PBL8 [Cucurbita moschata]) HSP 1 Score: 545 bits (1404), Expect = 4.35e-192 Identity = 269/270 (99.63%), Postives = 270/270 (100.00%), Query Frame = 0
BLAST of Csor.00g093610 vs. ExPASy TrEMBL
Match: A0A0A0LCK4 (Protein kinase domain-containing protein OS=Cucumis sativus OX=3659 GN=Csa_3G727920 PE=4 SV=1) HSP 1 Score: 582 bits (1500), Expect = 2.57e-205 Identity = 289/300 (96.33%), Postives = 292/300 (97.33%), Query Frame = 0
BLAST of Csor.00g093610 vs. ExPASy TrEMBL
Match: A0A6J1IZR2 (probable serine/threonine-protein kinase PBL8 OS=Cucurbita maxima OX=3661 GN=LOC111481422 PE=3 SV=1) HSP 1 Score: 547 bits (1409), Expect = 3.65e-193 Identity = 270/270 (100.00%), Postives = 270/270 (100.00%), Query Frame = 0
BLAST of Csor.00g093610 vs. ExPASy TrEMBL
Match: A0A6J1F7W3 (probable serine/threonine-protein kinase PBL8 OS=Cucurbita moschata OX=3662 GN=LOC111441671 PE=3 SV=1) HSP 1 Score: 545 bits (1404), Expect = 2.10e-192 Identity = 269/270 (99.63%), Postives = 270/270 (100.00%), Query Frame = 0
BLAST of Csor.00g093610 vs. ExPASy TrEMBL
Match: A0A6J1DW35 (probable serine/threonine-protein kinase PBL8 OS=Momordica charantia OX=3673 GN=LOC111024027 PE=3 SV=1) HSP 1 Score: 529 bits (1363), Expect = 3.63e-186 Identity = 261/270 (96.67%), Postives = 263/270 (97.41%), Query Frame = 0
BLAST of Csor.00g093610 vs. ExPASy TrEMBL
Match: A0A5D3DMS5 (Serine/threonine-protein kinase OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold352G00040 PE=3 SV=1) HSP 1 Score: 527 bits (1358), Expect = 2.02e-185 Identity = 262/270 (97.04%), Postives = 264/270 (97.78%), Query Frame = 0
BLAST of Csor.00g093610 vs. TAIR 10
Match: AT5G01020.1 (Protein kinase superfamily protein ) HSP 1 Score: 432.2 bits (1110), Expect = 3.8e-121 Identity = 219/271 (80.81%), Postives = 229/271 (84.50%), Query Frame = 0
BLAST of Csor.00g093610 vs. TAIR 10
Match: AT2G07180.1 (Protein kinase superfamily protein ) HSP 1 Score: 319.7 bits (818), Expect = 2.7e-87 Identity = 155/217 (71.43%), Postives = 173/217 (79.72%), Query Frame = 0
BLAST of Csor.00g093610 vs. TAIR 10
Match: AT2G07180.2 (Protein kinase superfamily protein ) HSP 1 Score: 319.7 bits (818), Expect = 2.7e-87 Identity = 155/217 (71.43%), Postives = 173/217 (79.72%), Query Frame = 0
BLAST of Csor.00g093610 vs. TAIR 10
Match: AT2G05940.1 (Protein kinase superfamily protein ) HSP 1 Score: 312.8 bits (800), Expect = 3.4e-85 Identity = 156/224 (69.64%), Postives = 181/224 (80.80%), Query Frame = 0
BLAST of Csor.00g093610 vs. TAIR 10
Match: AT1G61590.1 (Protein kinase superfamily protein ) HSP 1 Score: 312.4 bits (799), Expect = 4.4e-85 Identity = 150/224 (66.96%), Postives = 183/224 (81.70%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Silver-seed gourd (sororia) v1
Date Performed: 2021-10-25
Relationships
The following mRNA feature(s) are a part of this gene:
GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
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