HG10009465 (gene) Bottle gourd (Hangzhou Gourd) v1
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Overview
Sequences
The following sequences are available for this feature:
Legend: polypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below.ATGGCAGCTTCTCGGGTGGCTGGAGGATTAGCGCAATCTTCCTCAAGTTCTGGGATTTTTTTCCAAGGAGATGGGCAGTCCAAGGCTACTGTTAAATCTCACTTGGGCTCATCTTATGGAAACTCATCAAATTCAATTCCAGGAACTGGCCATTCACATTTGGGTCCAGTTTCTGGGGACACTAATGGCGTGTTTAATAGTGTGGCAAACTCGGGACCAAGTGTTGGGGCAAGTTCTCTGGTTACAGACGCAAACTCTGCACTTTCAGGTGGGCCTCACTTGCAGAGAAGTCCAAGCATGAATGCGGAATCATACATGCGATTACCCACGTCGCCTATGTCTTTTACATCAAATAACATGAGTATGTCAGGTGCATCACTCATTGATGCATCTTCTGTACTGCAGCACAATTCTCAGCAGGATCATAATGCTCCCCAATTGCCACAGACCCAGCCACAGGCCCGACAAGTTTCTTCAGGTGATGCATTACTGTCAAATTCACAAACCGTCCAAGCTTCACTCCCCATGGGTGCACGTGTCTCTGGATCTCTCATGACAGATCCCAATAGTTATTCTCAATCACAGAAGAAACCACGCTTGGATATTAAGCAGGATGATTTTCTGCAACAGCAGGTACTACAACAGCTATTGCAGAGACAAGATTCCATGCAGTTGCAAGGTCGTAATACACCTCAGTTACAAGCAGCATTATTTCAGCAGCAACAGAGATTACGACAACAGCAACAAATTTTTCAGTCTTTGCCTCCTTTGCAGAGAGCTCATATGCAGCAGCAGCAGCAGATACAGTTGAGGCAGCAACTTCAGCAACAGGCAATACAGCCTGTAAATGCTATGAAGCGGCCTCATGATGGTGGTGTATGTGCTCGGCGGCTAATGCAGTACCTATACCATCAGCGTCAAAGGCCTGCTGTGAGTTCATCTTCTGTTTTCTTCTCTTGTTTATTGGGGTTATCATCTGCATATTTATTAAAAAGTCTTCTTTAATGAGTTTATGTTTACTTTTATCCATCCCAGGTAAATATTTTAGGTTCTATTTCGCATTCTTTTTTACATGCACTTTTTGTTAGCCTAAATATCAACTATTAGTTTTATGACTTCTGATAGGATAATAGTATTGCCTATTGGAGGAAGTTCGTGACTGAATATTATTCCCCTCGTGCAAAGAAAAGATGGTGTTTGTCATTATATAACAATGTTGGGCATCATGCACTTGGTGTTTTCCCTCAAGCAGCTATGGTCAGTTTTGCCTTACCTTGATATTATTGTGGGTTTTTTTAATCTGTAATGTTTGAGTTTTCTACTTGTTATTTACTCTCACTATGATAATTATGTCTTTTGGAATTTGATTAATCTTTTTATGAAAAGAATCTGTTGTGAAATTGGTCAGTGTGCAGGCTGCTAAATTGATGTCTGCAACTTTTATTTTGTTATTTCAATTAGATAGTCGTGACATTTAGCTTCTCCTCCTGAATTCTCCCTTGTGATCTATATTTCAGGATGCATGGCAGTGTGATATTTGTGGTTCAAAATCTGGACGGGGATTTGGTATGATACTGTTAACCTTCTTTATATTACTTATAGATAATTCACGTCTCCAAAGTAATGGTGTGGAATGTGTTCTTATCCAAAAAAATGGTGTGGAATGTGTAAATTCTGTTTGAAGCTAACGCTGTTGTAGAGGTATAATTCTTGCCCCTCCCCACCCTCAACAAAAATCTCAATTGCAGGGGTTTTCTTTTTTTCCCCTATGTTTTTGGTAAGAAACCGAACTTTTACTGAGCAGTAGTGAGCATACAGAAAATAAGTCTGCAAAAGGAGTCCACTACTATCTACAAGAAAGGACTCCAATCCAATAGAATAACACCAGGTTGATAATTACTAAAAGACCGATTAACAGAACCCTGTAGAGACGTGTTAAACCTAACAACCTTCCTTATCTCCTCCAAAGACCTCTCAAATAATTGTTGAAGTTGTCAGAATCAATCTATTATTTTCAATTCTTGCCCCTACCCACCCCTCAACAAAAATCTCAATTGTAAATTATTATTATTATTATTTTTTTTTTTTATTTTTAGTTAAGAAACCAAAATTTTATTGAGAAGTAGTGAAAGAATTACAAGGACATAAAAAATAAAAAGTCCGTAAAAGGAGTCCACTACTATCTACAAGAAAGTACAATCCAATAGAATAACACCAAGTTGATAATTACTAAAATACCGATCAACAGAAATCCAGAGAGACGCATTAAACCTAACAACCTTCCACACCTCCTCTAAACCTCGAAAAATCCTATTATTCCTCTCAAGCCACACTCCCTTCAAAATAGCAGAAGAACAAGCCTGCCACACAACTCTTCTTTTATCATGAAAAGGAGAGTTTATCAGTATGTCATCCAACAAAGAGCGACAATCCTTATTATGCACCATAACCACCCAAAACATCCTAAAAAACTGACTCCAGAGCGAATAAGCAAACTAGCAGCCCCTCAGAAAATCCATAAGTGGCAATCCCTATTACGCACTACAACCACCTCAAATATCATAAAATGGTGACCCCACAAGGAACAAGCAAGTTGGCAACCCCACAAATATGGTCAAGATCTTCCTTTGACGACAAAAGACACACCACTGCAGATGCATAACTAAAGAATAATGTTGCTGGATATGATTATGGGTGTTCACTCTTCCATGTAAGAATTACCAGGCAAAGAACTTCACTTTTTAGGAACTTTCACTGTCCAAATAGAGGAAAAAATTGAAGTCTTCCGAATGAGAGAAGGGAAATTGTTGAGGATCTCACATTTGAAAAATCAAGGTACTTTACAATGTTTATAAAATAGATGGACTACTACTCTCATTGCCAATTGGTTTTGAGAAGGAATCTCATGTTATCTAATATGGTATTAGAGCCCATGAAGGCCTAAACAGGCATTCGGTTCAATAAAAAAAAAAGATATGATTCAACAATGGTGAACTCAATGAGGCACTATCTTGAGGGGGCACATTGAGGATTTCACATTGGAAAAATCAAGGGACCTCACAATGGTTATAAGATAGCTCATCAAAAACAATGTTTATAAGATAATGAGCTACTCCGCTCATTGCCAATTAGTTTTAAGATGAAATCTCATGTTATCTAGTATGAACAAAGAATGAAGGAGAAAAGAGTGACATGGATACCTTCAGATGGAGTAGGAACCTAAGCCGAAACATCACTTCTCCCAACAAAGACTCAAGATTGGTGAGAGGACGACGAATACCCAAAGAAGGCGAAGAGTATGACCAAGAGGATGATGAGATAGAAGCCACCATATGTACTATAACCTCTTATCAGTTGAAAGATAAATCTGATGGAATACTCCCAAAGGGGCTAACACCCACTAGGCAATATGTTAGGTACTAGATATTTAGTTAGTGTATGATAGGGAGTTACTGGTAGTTATTGTATAAAGGTGGTTACTACTTGTTATAAATAGAGGGAAGCTAAGTGAGTGAAGGGAGGTTATTTCTGTGGAGTGATCTAGAGCTTGGGTGAGTACACTCAAGAGTGAGGTTCCAAATGCCTTATACTTGAGTTTATCTTGTATTTCTTCATAGTTATATTTCAATAAATTCAGATCTTGTTCTTGTTAGGAAGTATTCTAGCACAATCCTCAACTAAGTTGTTGCCAAACTAAGAGAACAAAGGAAGATCCAAAGTTGTAGTTATCTAGAGGCTTTGATGCAGACCATACTTACTCATAATAACCCTATACCAAAGAGCATGCGGTTCGATGGGGAAACGCTACAACCACTTTCCCGATAAAGCCTTGTTACATAATCTCAGGTTACTAATGTAAACCTCTGGCCTTCATTGATTTTGAGACAACCTCCACCCTCTTCAATTCCTTTCCAAAGGAAATTCTTTGTAAGCCCTTTAATAATATTACTTACTACAAGCATCATTGGTTGACCTAGTGGTAAATAGGGGGCATGACCTAGATAAAGGGCTAAGAGGTCATGGGTTCAATCCATGGGGCCACCTACCTAGGATTCAATATCTTACGGGTTTCCTTGACACTCAAATGTTGTAGGGTCAAGCGGGTTGTCCCATGAGATTAGTCGAGGTGCGTGTAAGCTAGCCCGGACACTCACAGATATAAAAAAAAAAAATTACTTGCTACGATCAGAATCTAAGAAGCACAATCACGACACAACATGGACACAACTACATGTCAATTTCTATAATAGTAGGACATGGAGACATCGGGGACATGTTTTTTTTTTTTTTTTTTGTAATACATGTGTACATAATATATTAATACTCTCTATAGATAAAAGTATAAAATTAACATGAAAACAAAATATAACCCTAAAAACGCACCGTTAATTTAGTTAATAATATTCAAAATCTTAAAAGATACAGAAAATTTTGGGTGGTTGACTGGAGGAAGATGTATTCTAATACTTTAGGATGATCAATATATAAAGATTCAGTCCGTTAGAAAATGTTTCCCCTAATTTTTAGATTAAATATTTTCAAGAGTCATTTCCAACAGTGTCTAGTTGTGTCCAAGTCCTTTCTAAAATTAGGAAAAAAAATTTAATCCATACATGTCTTTTAGTGCATCGAACACATATTCGGATGTATCCGTGGATATAGACACTTCTGCGAAGTGTTCATGCATCATAAGCTGGAATTCTAAATAGAGAGAGGTAAGAGATGAGGTTACCACTTAGGACCGATTGGATCAAACTAAGTCTCCCTTCTTTAAAGTAGATAGTCTGTTTACGAGGGAAAAGGTCTTTTTGGACTTTCTCCACCATTGGATTCGACAAAGATGTGGTCCTTGGGTTGCCACCTTAGAAGGAGCCTTAAATACAGGCTAACTCACAACCCACCGAAGTTCCCTAAGACTTCACTTCAGAGGGATTGTAATTTAAACCTGTGATAGAGCTTTTTCTCCTATTTATCTCAAGTCCAGAACTCACTTCAAAGAATTAAAATTTTTGAAACCCCTCTCCGCCAAAAATTAAAAAAATAAAAAAAATAAAACAAAAACAAAAAAAAAAAGAGGAGAAAATCATCACAAGACTTATTTGCTTCAAGTCTATTACTTTATTTGCCTTGGCTTTTTTGGGAATTAGGCACATGCATGCCTCATTCATAGTTTCTCTCATAAAACCTAAGAAGCATAGACATTTTAGTCCGACTAGCGTGTTCGTGTTGGACACGTATTGGACACTTATTAGTACAATAGATGTATTAGACACTAGTACACTTGTTAAGCATACGAAATAGACACATATGTGACAAGAAATAAATTTGAGAGCGAAATACATCAAACTAATTTTTTAAGAATCTCTTCTTCAATCTATGGGCTTGGGAAAGGGGTGAGAGCGTTTAGACTAGAGAAAAAGGACATGATCTCTTCTTCAATCTTGCTCTCCCACTTCACTACCTCCCCACTATCCTTAATTGGAAACTCAATCAAACTTATATTCCTTTGGCCTCTCTAGCAATTCTCAGATAAAAAGTCACCGGTTGGCCTTATTGGTCAATATAGACTATGGATTTGTTAAAGGACTTAGAGGGAATGGATTCAATCCATGGTAGTTCTTACTTAGGATTTAATATCCTACGAGTTTTCTTGGCACTCAAATGTTATAGGATCAGGCAGGTTGGCCTGTGAAATTACTTGAGGTGTGCATTGTGCGCAGCTTGGCTCGGAGATTCACAAATATAAAAAAAATAAAGAGAATAAATAAAATACTCTAACTAGTTGTGTTGACATCTCCATCCAATCATTGCCATAAAGATTCCAACTTCTTAGAGCATCTTTATGGGCTTTAAGCCTCCTCAAGCAGAGGAAACTCTCCCACCTTCCTTTGATCCTTGCTCTCCACCACGAGACGAAAGAAGACTTGAAAAAGAGGTGGGGCAATTATCAAATCTGAATGGGCATGGACCCAGACCACACTTCCGATGTTCAGAATTAAATAGACCAACGATCTGAAGAAGTTTTAAGCTCTCTAACTTGTCTCGGGAATCCCTCCTGTGCCACCTTTTCTAGTCTTCAAAACACCACCCTTTCCCTGCCACTTGACCAAGTAAACCTGCCATCACCAAAGAGGCATCTAGGAGATCACTCTTACAAGACTGAACTTCATCGACTTCATAACCCTCCCTACACTAGACTTCTTGGACAAAAATCTAGTAATATTGAAATCACTTGCTAAACTAAACACCAGCAGCTCCCACAAATATCATGGACACCTTCCTTCCTTTTGTCAAAGGAATAAACACCTGATAACCCCCCCGCCTTTGAATCATGGAATTCAAAAGCCACTGTAATAGAAACTCACCTTCCAAGACCTCTAACAACTTGGATAAACTCCCATCCCACATCACAAGGATTCCCCCCAAGGCTCCAACAGACTCTAACCCCACCCACTTAACATGACTGCCTCCCCAAAGGCTCCTCACACACTGTCTGCAAATACTCACAAGTTAAAAACTCCTTAACCAACCTTCTCTTATCCTTCAATTGCAGGGTTTATTTATTGTTTGATTATTAATAGTATCTTTGTACCATAATCTTTTTTTAGTATTCATTTGAATGTTGGACATGAAAGTGGACTTGGTGAACAATTGATCCAAATTGTCTTATCCTATAACACACATATTGCATTGTTTTGCAATGGAAATGGCGGGAAATTAAAATGCATAGTTGATCCTGTTATCTTGGAATTTATATGGTAACACTAGCAAGTTGGTTGTGGACGATATATCTTTAGTATAATTAGGTGCTTTTTCTATTCATTTAGTTTGTTAGGTACTTAAGCACCTTGGAGAACCACACCTCAAAAGCTAGTTATTGAAGTGGGAGAGCCGAGCCACTTAAGTACCACATTGGTCATCCCATTCTAACCAATGTCGGACAAAGGTAGCCCATACTACCTTGGTTCCTAACAATACCCCACCCCCGAAAAGCCGACGTCCTGGTGGCTACTCCGACGATACTTCACTCGGCCATACCCGGTCAGAACCCCCTGCCGGTTTCACTCCGGAATGTCAACAACCTAGTTCTGATGCCATTGTTAGGTACTTAAGCACCTTGGAGAACCACACCCCAAAAGCTAGCTATTGAGGTGGGAGAGCCAAGCCACTAAAGTACCACATTGGTCATCCCATTCTAACCAATGTGGGACAAAGTAGCCCATACTACCTTGGTTCCTAACATAGTTCCACGTTTTTGGGAAGAGGGTTTGGGAAAAAGTGCAACCTATATGGCCTCCCTTACTCAATTGGGGCACATGAAATACTAGATGGATGGAAGCAGACTTAGGTAGTAGAGCGTAGGACACTGTCCCAGTGTCACCAGGAATGTGAAAAGGTCTACAAATCTACAAGCTTTCAATTAGTACATTTAGGCAGAATTCCTTATCGATAATGACAAAGTGTTTAAATACACTCTTTTAACCATGATAATCGGATGTGGCAATGTTTACTATTAGCTATGTTTATCACTTGAGCACATTGTTAATGACATGTTGGCTATGTTGACATGTTATCCTTGTCCCTAAGTTGCTGATCTACCTTAGAAATGGGGACATGTGGAGAGTAATGATGATTCTTGACATGTCAATTTCTAAGAAAGTAGTAATGGTCACGTTGATTTCTAGTATGAATACGAACTGTGAAAGCGTGACCTATCAATCCTTTAGACCTTCGAAATTTGAAGCTAGAGGTGTCAGAAAAGTTACTATAGGGATAACTGGCTTGTGGCAACCAAACATTCATAGCGGCGTTGCTTTTTTTTCTAAAAAAAAAATTCTAAGAAAGTAGGATACAGACAAGTTGGAGACGCATTTCCTTTTTGATGGAGTATACAGATATCTTGGTTTTATATTTCTAGTAAATTTTTATTATTCCTTTTTTATTACCTACATTTATTAGATTATTTAGATAGTTTTCTTGTTTATAATAGTTTGACCTTTATATAAGGGTTGGTTAAAATAGTTTGACCTCTATACATACGTCTCCTAATGGTTGATAAGTAACTGATTCTGTGTGGATAGTTGAAAAGGGTTGGTTAAAGCATTGGTCGGTTACTTTTGATGGTTAGCTTGGGGAAAGTTGGCCCACAGAAATGTCCTTTTCCATATGGAAAGCCGCTATGGTTGCTTGTTTGGATGTTGGAATTGTAAAGTTTGTTCATGCCTTCTGGTTTGTATTATCTGTTAGCTATACAGATTTCCTCGTTCTAAAAATACCTTTGCAGAATCAAAGGCTTAGAAAATGTGCAATATAATGCTTGTGGTTTTATATTTTGTTAAGTATCATTGTTTGAATTATCATATTAATATACAGTCAGTGACATCTGGCCCCATTTTGGATTGAAGTTAATGTCTTGTATTTCACATTTCTAATTTGTCTTTGCTGCAATGTAAAGCATAACATAATCCATTTCATGTGATGGTTTCAGAGGCTTCCTTTGAAGTGCTTCCTAGACTTAATGAGATCAAATTTGGCAGTGGAGTCATTGATGAGCTATTGTTCTTGGATATGCCACGGGAATTCAGATATTCATCTGGAATTATGATGTTAGAATATGGAAAAGCAGTTCAAGAGAGTGTATACGAGCAGCTTCGTGTTGTTCGGGAGGGACAGCTTCGTATCATATTTACTCATGAATTGAAGGTTACCAGAATGATTATGTAAATTGAGTTTTCTGAATCTGTTTAAGAGTAAACTCTTTTGCACTAAAATATTTTGGCAATTGGATTATACTTCAGATTTTGGCATGGGAATTTTGTGCAAGACGCCATGAAGAACTTCTTCCACGTAGACTGGTTGCACCTCAGGTATTGTTTTATATATTTTTTTGTTTCTCATGTAGCACAAATATGTGCTACTAAGATTATGAATTGATACTAACTTCTCATAAGAAAAGATAGACTGATATTATCTGGGATTTGCCAGTTTACGTGTGAAAGAAAAATGTTAAGTTCTTGGAACAAAGTTAATATATAAATTTGACCGCATCTCTAACCAGAAATGATGATTGCTCCTTTAAAGAGACTTCCAACAGTCTATTTTGGAATTAGAACTTCTGGGTACTTTTTTCTGCCTAGCTTCAATATATGTTTGGTTTGGTTTTATTTGTTTTGTTTTTGTTTTCTTTCCTTTTTTACAACTGAAGTTTTAGTAGTTTTTAATCTGTTTTTTTTTTAAAATTTCTTGATTACATAATTATCCTTAAACCAGTTTTTTAGAAGTTGGCATCCGATGTTGGCTTTCTGATTGTTATTTGGATGTGACTGATGTCGTGTATCCTTTTAGTTGTTGACTGATCCTTTCAGTGGACAAATGTTTAAATACAGGTGAATCAGTTGGTCCAGGTGGCACAGAAATGCCAGAGCACTATTGCTGAAGGAGGATCTGATGGGGCTTCTCAGCAGGATTTACAAGCAAATAGTAATATGTAAGTTGATCAAACAGATGGTGAAATCCATCTTGTATCAAATTTGTCTATTTCCCATATTAATCTGAAAAGTATTAATTATTTAAATCATTTTGTTTCTTGCTAGTGTAAGTCAAGTGACCTTGATGATGTTCTATCATTTGTTTGTGTGGGAGTATATAATGAATAGTAAAACCTGCTAATGCTCTTCCTATGACCACTTTTGATCAATCAAAATGCTAAATGCAGGTCATCCAGGTGTCTTTATTACTTATTAGAGACTGAGATGCTGAATGGCAGAGAAAATTTATATTAACTCTCCCTTTCGAGTATAGAATTATCTCCTCATTGGACATTGAAGACTGGCACTTTTTTACATAACTGACATATTGGTGTAATGGGATGGGTCTAAAATAGTCGGCTTTCTTTTGTCGTAGGGACCTCATGTTCTCGTAAAATTTCTAAGCAATGAAATAATTTTATATTTTAGGAAAGAAAATATATTACTTGGTAAATTTTAGCCTATAACATTCAGTAGGTGAAAAAGAAGAGAAGTAGATGAGGGAAGAGTTCAGGAATCTCCCCAATCCCCACTCTTCTCCAGCCACTGGAGTTCCCTATCAGGACAATTCATATAAAGTCTACTTGTGCATCTTTCTTTCCTTTGTAGTTTGCGCCTGTATTCACTTTTCGATTTTTGGCATCTCATATCATGGTTTTGTTGAACTTCAAGTCCAAACACCGAATGTTGCTTAATCACTTTGTTCTATTTCTCTCTCTCTGTTTTGATAAAAACGCACATAGTAGAGGAAAAATTTGAGGTCGTGGTGGATACTTTGGTTTATTTTGTTAATTGAGCTGTCAATACAATACTGGAAAGCTTTAATTCCTCTCTTAGTCCAAATACCATCTAGGAATGTTAGGGAATTTCTATCCAAGTACATGGGACTTCAGGACATTGGCTATCCAATATGTGCTTGCTATATATGTTCGCTGATTGCACTTTCTTGCTCCTGGATATTGGTGGATCACCTTTATCAATTCTAACGCGTCAGAATTTGCTAATGAAATCCTTCTTTTAGGGTTTTGACAGCTGGGCAGCAGCTTGCCAAGAGTCTGGAGTTGCAGTCACTGAATGATTTGGGGTTCTCTAAAAGATACGTCAGATGCTTGCAGGTGCATTATCACGTAGTTTTACAAAAGAGTATCTACTCTTCATTTCTGCTTTGCTTTCATTTTTTTCATATTTGGTTTAATTGTATTTGTTTCTTTTCAACAAGTACAGATATCAGAGGTTGTCAATAGCATGAAAGATTTGATTGATTTCTGTAGGGAGCAGAAAACCGGACCAGTTGGTATGCCTCATTCTTTCCTTACAACTTTGTGAATGGCAGCTTCTCGGGTGGCTGGAGGATTAGCGCAATCTTCCTCAAGTTCTGGGATTTTTTTCCAAGGAGATGGGCAGTCCAAGGCTACTGTTAAATCTCACTTGGGCTCATCTTATGGAAACTCATCAAATTCAATTCCAGGAACTGGCCATTCACATTTGGGTCCAGTTTCTGGGGACACTAATGGCGTGTTTAATAGTGTGGCAAACTCGGGACCAAGTGTTGGGGCAAGTTCTCTGGTTACAGACGCAAACTCTGCACTTTCAGGTGGGCCTCACTTGCAGAGAAGTCCAAGCATGAATGCGGAATCATACATGCGATTACCCACGTCGCCTATGTCTTTTACATCAAATAACATGAGTATGTCAGGTGCATCACTCATTGATGCATCTTCTGTACTGCAGCACAATTCTCAGCAGGATCATAATGCTCCCCAATTGCCACAGACCCAGCCACAGGCCCGACAAGTTTCTTCAGGTGATGCATTACTGTCAAATTCACAAACCGTCCAAGCTTCACTCCCCATGGGTGCACGTGTCTCTGGATCTCTCATGACAGATCCCAATAGTTATTCTCAATCACAGAAGAAACCACGCTTGGATATTAAGCAGGATGATTTTCTGCAACAGCAGGATAATAGTATTGCCTATTGGAGGAAGTTCGTGACTGAATATTATTCCCCTCGTGCAAAGAAAAGATGGTGTTTGTCATTATATAACAATGTTGGGCATCATGCACTTGGTGTTTTCCCTCAAGCAGCTATGGATGCATGGCAGTGTGATATTTGTGGTTCAAAATCTGGACGGGGATTTGAGGCTTCCTTTGAAGTGCTTCCTAGACTTAATGAGATCAAATTTGGCAGTGGAGTCATTGATGAGCTATTGTTCTTGGATATGCCACGGGAATTCAGATATTCATCTGGAATTATGATGTTAGAATATGGAAAAGCAGTTCAAGAGAGTGTATACGAGCAGCTTCGTGTTGTTCGGGAGGGACAGCTTCGTATCATATTTACTCATGAATTGAAGATTTTGGCATGGGAATTTTGTGCAAGACGCCATGAAGAACTTCTTCCACGTAGACTGGTTGCACCTCAGGTGAATCAGTTGGTCCAGGTGGCACAGAAATGCCAGAGCACTATTGCTGAAGGAGGATCTGATGGGGCTTCTCAGCAGGATTTACAAGCAAATAGTAATATGGTTTTGACAGCTGGGCAGCAGCTTGCCAAGAGTCTGGAGTTGCAGTCACTGAATGATTTGGGGTTCTCTAAAAGATACGTCAGATGCTTGCAGATATCAGAGGTTGTCAATAGCATGAAAGATTTGATTGATTTCTGTAGGGAGCAGAAAACCGGACCAGTTGGTATGCCTCATTCTTTCCTTACAACTTTGTGA ATGGCAGCTTCTCGGGTGGCTGGAGGATTAGCGCAATCTTCCTCAAGTTCTGGGATTTTTTTCCAAGGAGATGGGCAGTCCAAGGCTACTGTTAAATCTCACTTGGGCTCATCTTATGGAAACTCATCAAATTCAATTCCAGGAACTGGCCATTCACATTTGGGTCCAGTTTCTGGGGACACTAATGGCGTGTTTAATAGTGTGGCAAACTCGGGACCAAGTGTTGGGGCAAGTTCTCTGGTTACAGACGCAAACTCTGCACTTTCAGGTGGGCCTCACTTGCAGAGAAGTCCAAGCATGAATGCGGAATCATACATGCGATTACCCACGTCGCCTATGTCTTTTACATCAAATAACATGAGTATGTCAGGTGCATCACTCATTGATGCATCTTCTGTACTGCAGCACAATTCTCAGCAGGATCATAATGCTCCCCAATTGCCACAGACCCAGCCACAGGCCCGACAAGTTTCTTCAGGTGATGCATTACTGTCAAATTCACAAACCGTCCAAGCTTCACTCCCCATGGGTGCACGTGTCTCTGGATCTCTCATGACAGATCCCAATAGTTATTCTCAATCACAGAAGAAACCACGCTTGGATATTAAGCAGGATGATTTTCTGCAACAGCAGGATAATAGTATTGCCTATTGGAGGAAGTTCGTGACTGAATATTATTCCCCTCGTGCAAAGAAAAGATGGTGTTTGTCATTATATAACAATGTTGGGCATCATGCACTTGGTGTTTTCCCTCAAGCAGCTATGGATGCATGGCAGTGTGATATTTGTGGTTCAAAATCTGGACGGGGATTTGAGGCTTCCTTTGAAGTGCTTCCTAGACTTAATGAGATCAAATTTGGCAGTGGAGTCATTGATGAGCTATTGTTCTTGGATATGCCACGGGAATTCAGATATTCATCTGGAATTATGATGTTAGAATATGGAAAAGCAGTTCAAGAGAGTGTATACGAGCAGCTTCGTGTTGTTCGGGAGGGACAGCTTCGTATCATATTTACTCATGAATTGAAGATTTTGGCATGGGAATTTTGTGCAAGACGCCATGAAGAACTTCTTCCACGTAGACTGGTTGCACCTCAGGTGAATCAGTTGGTCCAGGTGGCACAGAAATGCCAGAGCACTATTGCTGAAGGAGGATCTGATGGGGCTTCTCAGCAGGATTTACAAGCAAATAGTAATATGGTTTTGACAGCTGGGCAGCAGCTTGCCAAGAGTCTGGAGTTGCAGTCACTGAATGATTTGGGGTTCTCTAAAAGATACGTCAGATGCTTGCAGATATCAGAGGTTGTCAATAGCATGAAAGATTTGATTGATTTCTGTAGGGAGCAGAAAACCGGACCAGTTGGTATGCCTCATTCTTTCCTTACAACTTTGTGA MAASRVAGGLAQSSSSSGIFFQGDGQSKATVKSHLGSSYGNSSNSIPGTGHSHLGPVSGDTNGVFNSVANSGPSVGASSLVTDANSALSGGPHLQRSPSMNAESYMRLPTSPMSFTSNNMSMSGASLIDASSVLQHNSQQDHNAPQLPQTQPQARQVSSGDALLSNSQTVQASLPMGARVSGSLMTDPNSYSQSQKKPRLDIKQDDFLQQQDNSIAYWRKFVTEYYSPRAKKRWCLSLYNNVGHHALGVFPQAAMDAWQCDICGSKSGRGFEASFEVLPRLNEIKFGSGVIDELLFLDMPREFRYSSGIMMLEYGKAVQESVYEQLRVVREGQLRIIFTHELKILAWEFCARRHEELLPRRLVAPQVNQLVQVAQKCQSTIAEGGSDGASQQDLQANSNMVLTAGQQLAKSLELQSLNDLGFSKRYVRCLQISEVVNSMKDLIDFCREQKTGPVGMPHSFLTTL Homology
BLAST of HG10009465 vs. NCBI nr
Match: XP_038906895.1 (probable transcriptional regulator SLK2 isoform X1 [Benincasa hispida]) HSP 1 Score: 809.7 bits (2090), Expect = 1.3e-230 Identity = 444/553 (80.29%), Postives = 448/553 (81.01%), Query Frame = 0
BLAST of HG10009465 vs. NCBI nr
Match: XP_038906896.1 (probable transcriptional regulator SLK2 isoform X2 [Benincasa hispida]) HSP 1 Score: 809.7 bits (2090), Expect = 1.3e-230 Identity = 444/553 (80.29%), Postives = 448/553 (81.01%), Query Frame = 0
BLAST of HG10009465 vs. NCBI nr
Match: XP_008467218.1 (PREDICTED: probable transcriptional regulator SLK2 isoform X2 [Cucumis melo]) HSP 1 Score: 805.1 bits (2078), Expect = 3.3e-229 Identity = 445/553 (80.47%), Postives = 448/553 (81.01%), Query Frame = 0
BLAST of HG10009465 vs. NCBI nr
Match: XP_008467217.1 (PREDICTED: probable transcriptional regulator SLK2 isoform X1 [Cucumis melo] >TYK00290.1 putative transcriptional regulator SLK2 isoform X1 [Cucumis melo var. makuwa]) HSP 1 Score: 805.1 bits (2078), Expect = 3.3e-229 Identity = 445/553 (80.47%), Postives = 448/553 (81.01%), Query Frame = 0
BLAST of HG10009465 vs. NCBI nr
Match: XP_004143626.1 (probable transcriptional regulator SLK2 [Cucumis sativus] >KGN50428.1 hypothetical protein Csa_000157 [Cucumis sativus]) HSP 1 Score: 800.0 bits (2065), Expect = 1.0e-227 Identity = 444/553 (80.29%), Postives = 448/553 (81.01%), Query Frame = 0
BLAST of HG10009465 vs. ExPASy Swiss-Prot
Match: Q94BP0 (Probable transcriptional regulator SLK2 OS=Arabidopsis thaliana OX=3702 GN=SLK2 PE=1 SV=1) HSP 1 Score: 531.6 bits (1368), Expect = 9.1e-150 Identity = 311/563 (55.24%), Postives = 358/563 (63.59%), Query Frame = 0
BLAST of HG10009465 vs. ExPASy Swiss-Prot
Match: Q0WVM7 (Probable transcriptional regulator SLK1 OS=Arabidopsis thaliana OX=3702 GN=SLK1 PE=1 SV=1) HSP 1 Score: 392.1 bits (1006), Expect = 8.6e-108 Identity = 228/454 (50.22%), Postives = 280/454 (61.67%), Query Frame = 0
BLAST of HG10009465 vs. ExPASy Swiss-Prot
Match: F4JT98 (Probable transcriptional regulator SLK3 OS=Arabidopsis thaliana OX=3702 GN=SLK3 PE=3 SV=1) HSP 1 Score: 382.1 bits (980), Expect = 8.9e-105 Identity = 224/452 (49.56%), Postives = 272/452 (60.18%), Query Frame = 0
BLAST of HG10009465 vs. ExPASy Swiss-Prot
Match: Q8W234 (Transcriptional corepressor SEUSS OS=Arabidopsis thaliana OX=3702 GN=SEU PE=1 SV=1) HSP 1 Score: 297.7 bits (761), Expect = 2.2e-79 Identity = 166/332 (50.00%), Postives = 220/332 (66.27%), Query Frame = 0
BLAST of HG10009465 vs. ExPASy Swiss-Prot
Match: O74364 (Adhesion defective protein 1 OS=Schizosaccharomyces pombe (strain 972 / ATCC 24843) OX=284812 GN=adn1 PE=3 SV=1) HSP 1 Score: 65.9 bits (159), Expect = 1.4e-09 Identity = 62/255 (24.31%), Postives = 109/255 (42.75%), Query Frame = 0
BLAST of HG10009465 vs. ExPASy TrEMBL
Match: A0A5D3BMT0 (Putative transcriptional regulator SLK2 isoform X1 OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold1728G00320 PE=4 SV=1) HSP 1 Score: 805.1 bits (2078), Expect = 1.6e-229 Identity = 445/553 (80.47%), Postives = 448/553 (81.01%), Query Frame = 0
BLAST of HG10009465 vs. ExPASy TrEMBL
Match: A0A1S3CT09 (probable transcriptional regulator SLK2 isoform X2 OS=Cucumis melo OX=3656 GN=LOC103504621 PE=4 SV=1) HSP 1 Score: 805.1 bits (2078), Expect = 1.6e-229 Identity = 445/553 (80.47%), Postives = 448/553 (81.01%), Query Frame = 0
BLAST of HG10009465 vs. ExPASy TrEMBL
Match: A0A1S3CT17 (probable transcriptional regulator SLK2 isoform X1 OS=Cucumis melo OX=3656 GN=LOC103504621 PE=4 SV=1) HSP 1 Score: 805.1 bits (2078), Expect = 1.6e-229 Identity = 445/553 (80.47%), Postives = 448/553 (81.01%), Query Frame = 0
BLAST of HG10009465 vs. ExPASy TrEMBL
Match: A0A0A0KLE3 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_5G173550 PE=4 SV=1) HSP 1 Score: 800.0 bits (2065), Expect = 5.1e-228 Identity = 444/553 (80.29%), Postives = 448/553 (81.01%), Query Frame = 0
BLAST of HG10009465 vs. ExPASy TrEMBL
Match: A0A6J1ESN5 (probable transcriptional regulator SLK2 isoform X2 OS=Cucurbita moschata OX=3662 GN=LOC111435635 PE=4 SV=1) HSP 1 Score: 787.7 bits (2033), Expect = 2.6e-224 Identity = 432/554 (77.98%), Postives = 440/554 (79.42%), Query Frame = 0
BLAST of HG10009465 vs. TAIR 10
Match: AT5G62090.1 (SEUSS-like 2 ) HSP 1 Score: 531.6 bits (1368), Expect = 6.5e-151 Identity = 311/563 (55.24%), Postives = 358/563 (63.59%), Query Frame = 0
BLAST of HG10009465 vs. TAIR 10
Match: AT5G62090.2 (SEUSS-like 2 ) HSP 1 Score: 531.6 bits (1368), Expect = 6.5e-151 Identity = 311/563 (55.24%), Postives = 358/563 (63.59%), Query Frame = 0
BLAST of HG10009465 vs. TAIR 10
Match: AT4G25520.1 (SEUSS-like 1 ) HSP 1 Score: 392.1 bits (1006), Expect = 6.1e-109 Identity = 228/454 (50.22%), Postives = 280/454 (61.67%), Query Frame = 0
BLAST of HG10009465 vs. TAIR 10
Match: AT4G25515.1 (SEUSS-like 3 ) HSP 1 Score: 382.1 bits (980), Expect = 6.3e-106 Identity = 224/452 (49.56%), Postives = 272/452 (60.18%), Query Frame = 0
BLAST of HG10009465 vs. TAIR 10
Match: AT1G43850.1 (SEUSS transcriptional co-regulator ) HSP 1 Score: 297.7 bits (761), Expect = 1.6e-80 Identity = 166/332 (50.00%), Postives = 220/332 (66.27%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Bottle gourd (Hangzhou Gourd) v1
Date Performed: 2022-08-01 Position : 0 Zoom : x 1
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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