HG10000492 (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.ATGGTCTCTGGAGTCTCTACTGAGATTCGTTGTCAAGGTGATCAGTTTTGAGGATATTAGTTTTTGCCATTTCATAATTTCTGGTTTGGGAATTTGGAGTGTGCAAATGTATGAATTCTATGTTCTAGTTTATTTTTGGTTAATGCTTTCAATCTTTCCTTCAATATTTCACGTGAAAATCTCTTTAATTATTTATTCATGTTAATTATCTGTCAACAGGGGAATCGACTAAACAAATAGTTGATTGATTTTCGATGAACTTTGTGACAATGGCAGAGCAGAAGACTGAGGATGGTAGCTCAATGAAGGAAGGAGGGGAGCTGGAGAAGGAGAAACAGAAGAAAAATGTGGATCTGGAACTTCTCAGCTGCTTGCTTCAACCTATGAGTATTGGTGTTGATCCGGATTATATTGGCACTCGTCGTCTCTTGCTTTATCGGAAGGCTGAAGCCGCGGTTCTCCGTCGTAAAGTATGCTTGCAGCTTTATTTTTTTAATTTGGATTTTTTTTCCTGTTTGATTCGGAAATTCGGATGTTAGGGAGCATAATTTAAGTAGATTTGGGAGGACAATGTAGTCTGTTTTACATTGGGGGTTTCGTGATTCTTTATTTTTTCTTCTAGGACCTAGGTTCCAACGATTTTACTCATGTCCATCAAAAGGAAGACAAATTATAAGGGTTCAACTTCATAACATTATGAAACAGTTTAGGCTTTCTGTTTGGAAAGAAATTTTGTTAAATTGTTGCCTTCATTCTTTTCAGATGCACATAGCCTATTCACTTCATTAATTTCCAATGGTTCAATTCGTTTATGCATCATTTCCTGAGATTAAAGTTAGGCACTTTCTATTGGTGTTATCCATAGGACTGGAGGTGCAATGGGAAAGGTTATGTGGCATTCCGCAATTTCATACGCCGGCCAAGGAATTGGGAAAGCTCGCGTTTACCAAGTCTTCAAAGCACCCCCGGAAACAGGTTGCTAAGAGCTAAGGCCTAATTGATAACGATTTCGTTTATAGTTGTCTGTTTTTGAAATGTATGTTTGTTTCCTCGAAATTTTATTACTATACTTTTCGCCTTTCTTAAACAAACATTTGAAAATCTTTAGTTAACTTTCAAAACAAAAACAAGTTTATAAAAACTACTTTTTGTAGTTTTCATGCTTGATTTTTCAAAACAGGGGTAAAAAATGGATAACAAAATAATAGAATTCATAGGTAATTTTAGTGTTTAACTTAATTTTCATAAATTAAAAAAAAAAAACTCAAATGGATATCAAACGGGGCCTAAAGTTTTATTTAATGACTTAAAAAATCTATTTCATAACTTGACATGTGCTTCTCATGTCTTCCCTTTACTAATTTTAATTTGTTCTTTTATCTCAGTTGAAAGAAATTATTATGAATTGTAATGACGAAACCTCCTATTTAACGTTACTGTTAATGTTATATTCCGCATAACTCTGACATCAAGATACTTTGTTGGTTCATGCATCAGTGGAAGATGGGTTCCTCCTCCAAGTTCACTCTCTCTCTTGCATGAGGTGGAGAGTTGGAGTTCTAGCAAGGTATATCTAAATTCTGTGATATATGTATATATTTAGACACAAACACATTGTCTATTTTTTGTTTGTTTTTTGGTAAGAAATTACCCTTTCATTAGGGGCAAAGGAATACTGACCTTGCACGAGATGAAAACTATCAAAAAGCTGAAATGTCGTGTTTATTTGAAGTTGTATGCATAGCTTAGTAGAAAGCATTCTACGTTCTCTATGAGAGACGGGGCTGCTTTTCCATAATTTTAACTCAAGGGGATTCTTCTATGATTTTGGATCTTACGTCTTGAACGCTTGCTTTTCTACTTAGAGTTTGTTTCCCCTAAATTTAGGCCTCCATCTTTGGACTACTCTCGATTTATTGAGTATCTTATCTTGTAAATCTTTCTTTGCCTGTTTGCTTGTTCAGCCTAATTCTTCCGTCCTTTTGCCAAGCTTTGGAAGGGAAAATCCTTTTGCCAAGCTTTGGAAGGGCAATTTTCTGAGAGGATTAGATTCATCTCTTGGTTGGTTGCTTAGGAGAGGATTTAATACTACAAATTTTATCTAGAGATCTTATCTTTTTGCTCTATGCCTTTAATGGTGCGTTTTGTGTAAAAGAATGTTAAAAGACTTTGAATCATATTTTATGGATGTCATTTACTGCAAAAATTTGGGGTATATTTTGTAAAAATTTTCAGGTTTGTTTGGTTCCTGGTAGGAATTGTTTCTCCACTCTTTTTTTGCATTTGAGGACAATTTTTTAATTAATTATCCATGAATATTCAGATCACGTCTCAATTGATTTTATGAGATAATTGTCTAATGCAACAATATTTGGTTATTAGAAGACCCATAAGATTTCAACATCTTAATTAGGTAGATGGCCTCTTTTCTATTATTTCTAATCCGGTGATCATGCATGAGAGAAGGGACTCGTAATTTTGGGTCCCCAATCCGTCCAAGGATTTCTCCTCTTTTGGAATGTTAAAATTTCTAAGAAAGTGAGACCTTTTGCCTAACAAGGTTTGCAGTGAACACTCAAGACCATCCTCAGAGATATTCTTCTTTTGTGTTGGACCCGCAATGGTGTGTTCTTTGCAGGCAAGAAGAGAAGGCCTTGACCATTTGCTGTGGAATTTCAGGTTTGCTTATCCGTTGGAGTTAGTTTTTTTAGGACCTTTGGGAAAGTTTTGGCTTGCAACGAAGGCTGTTCTATGATTTTTGAGGAGGTGCTCTTGGACTCTCTTTTTTGCGTTAAAGGAAGAGTTGTGGCAGACTTGTTCTTTTCTGGTATTTTGGAGGTATTTGGCTTCAGAATAATAAGATCTTTAGAAGGACTGAGAGATCTTGAAAGGAGCTTTGAGAATTGGTTAAGATTAATTCTTCTTTGTTGGTTTCTGTTAATCAATTTTTTTTTTGTAATTACCATCTTTTTGAATAAAGAAACATTTCATTGAATAAATGAAATAAGGGAAAAAATCCAACACCTATAGGTGATTACAATCTTCAATTGGAGACTAAAAATGATAAATTGAAATGACAAAAGGGGTGCTTATTTTTGCACCAATAAAACGTAGGAGACAACACCGAATCCATAAAGCAATCAAAAGAGGAGAAAAAGTCCCTGAAAAGACAACCATTGTGTTCACCCCACAGACTCCAAAAGATGTGCAGAAAAGATAATTACCATCTTGGTCTCATTCTTTTTGATTTGGCTCCGTTCTCGTAGCTAGTATTGGGCTCCTTTTGGTGGGCTTGCTTTTTGTATGTCTTGTACATTCTTTTATTTTTTCTTAATTAAGGCTCGATTTGTTATAACAGAAAAAAGTATCTTAAGTAGGTAGTTCCCACAGGGGTTCTTTGATATTATTTGGAATTTTGGGTTTGAATGGAATTGGAGAATTTTTAAGGATGTAGACTGTAGAGGGGTCTTGGGAGGAACACAACTTATTTCATTGCCTGCCTTTTATCTGTTTTTGACTGATTCTTTTGTATTTATCCATTTATCTATGATCATCAGCAACTTGAGCATCGCTAGAACCAAATCTTTCTTTTAGAAAACTCGTGTTATAAGCTGGGAAATTGTTGTTGTTGTTGTGTGTGTTTTATTTTTTATTTTATTTTATATATATATGGAATCAACAACTTTCATTAAGAAAAAATTAAAGCAAAAAAATCAGCCCGCAAACAAGGGGAATTCCCCCTACAAAAAGGGCATCCAACTATGTAAAATCACACCTATAGAATAGTTACAAAAGGTCTTTGAAATCGAAGCCCATAGAGAAATATGAAAGCGAACTAGTCAAACATTATGTGGTTATGGAGGTGTGAAACAAGGGGTTTTCGTACGAATGACCCCTTTTTAGGGGCCCAAATGAAATTTGGCCCAAGATTCAAATTTGCTCGAAAAATGGCATTTTGCTTACATCAGCCGCATGTGAAAGTATCATCTTGTCCCCATACCGCGTGTGAGGGCTTAACACTCAAAGGAATTCTCGTTTCTTCCTCTTGCTCCTCATTTCTTCCTCTCGCTTCTTCCTCTCGTTCCTTATCACTCGCAACTGCAATTTTTTTCCTTCGTTTGAATTCTTCCTCTAACTTCTTCCTCCTCTTCTTCCTCTAGCTTCTTCCTCCTCTCCTTCCTCTAGCTTCTTCCTCATCAATTTTGTAGTTTCTTTCTTTGAGTTTTTTTTTACTTCATTCAAATTCTCGTTCTCGTTTCTTCCTCTCGCTTTTAGGTTTCTCTCTCGCTTCTTCCTCTCGTTTCTTGGTCTCACTCTCGCTTCTTCCTCTCGTTTTGATTCATGCGCTCCAACTTACATCTTTGATTCTAAAAGAAGAAGAAGGCGGCATAAAGAAAAGAAATCGCCGGAAAAGAGGGCAACTGTTGAAATTTCAACGAAGTGGGTCAGCGGTAGGACTAAAAGCCTGGAAGAAAACAAAAAAATGCACAAAAAAGAAACGGGGGAGATACGCAAAAAAATGCAAAAAAAAAAAAAGAAAAAAAAAGGAAAAAGGAAGAAGAAAAAACTCAAAAAGAAAAAGAAAAAATGAAAAAGGTTACAAAAGGACGAAGGAAGAAGAAAGAAGAAAGGTTAAAGTGGTAATTTCACACGATGATGAAATCAACAAAAGGCCAAACTTCATTGCTTTGAAACTTGGAGTTACTTTTCATTTAGGCCCCTATAAAGGGGCCTTCTATACAATTATTTATGTGAAACAATTCTAATTTTGCTTGGGATCTCAATCTCAGGAGAAACCTCTATGATTTGGAGATGGATGAATGAGCTTTTCTGTAATCGGTGTTTTTTCATTGTATTTTTATAGGCTTTGTTTCCTCATGCCTTTTGTTGGCCTTTTCTTTTGTACTTTTATTTATTTTGATAAAAGTTGGTTTCTTATAAGAAAGAGAAATAAAAAAACAGAACAAATTTATAAAATTGAAAGAGATGAAAATTTTGAAATAAATATGCATGGGAAGGGCACATGCGAGTCAGTGGGAGAGTTGTTATTTCAAAATTTTCTAGTTAGGCTGCAGTTAGATGAATGGTTATTTCAAAAAGAGAATTTCCGGTCCGAAGGTTTTGTCATATAGGGTACAGTTGTTACTTGTTAGTTTTACTTGTTTATAGCTCATGCAGAATTTTCAATGATTTAAATAATTAAATCAAATTAACTTCTTTGAGCGTTGAACAAGGACCACGGTAAGTTTAAAACTGAGTGCAATTCTATGCATCTTGCTTTTGTTTCATCATAATTATAATCTATTGTTTTCTTTCACTCAGGACTTACAGAGCCACCGAAGATCAAGTTTTAGCTCAAGTGCAAGTGATAATAGTCAGCTGCAGACTCGTAGAGTTGAATTTGCATATTCGTTCATAGGAATGCATTGTATATTTGATCAATGCAAAGCCGCTGGTAAACTTTCACTGAAGAAGAATTCTGAACCGATCATATGATTATTTTAAATTTCTTATCAACACATAATGAAGTTGTTTCCATAAGAAGACTAATTGTCAATTCTGCAGTTACGGTTGTGAAGTTTGGGCACATGAGCTCTGATCTATTAGCATATGGGTCATCGGATGGGACCTTGACTGTATGCAATGTCTCTGAACCATCTTCATCCGTCAAGCAGTTGCTGGGCCATTCAAAAGACGTCACAGGTTGGATTGGCTGGTACTGCTTTTTTGTCTTTTACACTGTCTCTTCTCCCAATCACAACTTCAAGGATTGTTAAAAGCTAGAATGAGTAGAAACTTCTGTTGGTTTTTTCTCTAAAATCTTTCTCCAGGGTTCATTTCTTTTGGTTTGCTCCTCTGCTTGGGTCATTATTATTTGTAGGCCCTTTTTTTTTAACACTTTCATTCATTTAGTGAAAGCTGGTTTCTTATAAAACTAATGCTTAGATGTAAGCGCAAGAGGATGTTTATGTTTTCTTGTCATTCATGAATTATGCCACTGTTTCAGTTGTGAATTTTCATGCATCAATCCCTCAATGATGTTGATGAATCTCATTCCTTATGAATTTTCCTTGAACGTGCATATTGTAGAAATAAATACTCTCTCTCATGTGTGTGCAGCAGACATGCACATAATGATGAGTTGTAGTAGAAATGAACTTAATTGATATTTGAGGAGGATATGACTTTTCTTTGACTTTTTAGGAAAAAAAAGTAACGTAATCCATCTTCATTATAAACTAGAACACTAGAATAATGATCTTCCAAACAAGTAGCCATTCTGTTTGAATCAGTTAAAGGAGGCTGGAGGTTGAAATTTGCAAAAGCCAGCCATAAAAGAGAGATGCCAAACACCTCCACTAGTAATAATCTTTAACTGAACTATCTAATTGTATGTACGTACATGTGTAAGTCCCTATAGATTGCTGAGCAGCGTGTTTGGGAGAAAAGCATTTGTACTTGATGTAAAAGAAGTTTGAAAACCAGCCGAGTCTAGCAGTGGAATAAAAGAATAAATGAAAACTCTTTCAAATATACTCCCTGGAGCATTCCAAAAGGATACATTAATCTACACCAAAAAGAAAGCATTATATTGCATATGGTCGTTTCTTCTTTTGGATTGGAATACTTTCCTGTGGTTAGTTGTGGGATCCCTTTTGCAAGTTTTTTTTTTCTTTTCTTTTTTCCTTTTTCCTTTTTTAATTTTTATGCCTTGCACATTCTTTCATTAATTCTCAACAAAAGCTTAGTCTCTTTCCCCAAAAAAGGAAAAAAAATCTAAATTCCTAGTTATCAAAAAGTAAAATTTGTTTCTCTAAGCATCAGATCTGATGTTAAATTTGTTTCTCTAACGGGGGATTAAGAAAAAGTAGCATTTTATTATTGTCCAGTTCCAAAAGTAAAATTCTAACATACTGGTGTTTCTTCAGACTTTGATTTTTCATCAAATAATCAGTACATTGCATCGTCGTCCATGGATAAAACCGTTAGAGTATGGGAGATATCGAAAGGACTTTGCATTAGAGTAATCTATGGAGTATGTTCACAATTGTGTATACGTTTTCATCCGGTAAGTATGAAACAATAATTATTTCATTCTTTTGAGAATAAGATGGTTAACTTAAAACTCTTTTCTTTTCTATTCATTACAATCCAGTGAAAACTCTCTTAACCTTGAAAAGGCCCAACAAGTCTTCAGATCTTTTTATGGTATGTTAAGAGGCTAACTAAAACTTAGGATGGATTGATACTAACTTAAAACAATCTGGTAGTATTTATCCTGTAAGAGTCAATAAAATGTTTTTTTTTTTAAAATCTTGTTGGAGTCTTAACTTAGCTGATGATTTTGTGGTCAAATTTTTGTGAAGATCAAAACACACATGGTTAGGATGTTCTTGATTTGGTTGGAACTTCTAGGATGTCCTGATTGGTTGAGACAAATTACTCCATTCTGGGATGGAGCATGTTGTTGACTCATTATATTTCTCTCACAGTTTTTCTCTAGTTGTTTCTTTTCAATTCTGGGTATTAAGATCATTCCTGCAGCGGCTTAAAGATAATTTTATGGAGATTGGAGACTCATAAGCTCAATAATCCATTAGTCGTCACGATTCTCAGAGAAGTCTGACTGGTTTCAACTTGGAAATCTTGTTGTCGAGGAAAATAATATATGGAAGCAAAAAGGATACAAAGTCATAAATTGAGGGATGAGAACTCCTTCCTATAGGTAGATCAGAGGATTATAGGCTTCCTTAATAGACCATATCAGAAGTGTCTTTCTGAGGCTTGAAAGTTAGGAGAAATCCTGAACTTTTAGGTAATGAGGTTGTGGAAGATAGAAAATTTTGGAAGCTTGGAGGTTTTGGTTTCTTCAATTGATTTGGAAAAGATTTATATTTATCGTGCCATTGTCTTGATCCTCCTTTTCTTATGCTATCAAATTGTAGCCCAAACTATTTTGGCCTCCCCTCAAGAAGTAGAGTCCTAGGTACCTTTAATTTTTGGGTCCAAACACTTGGTTATAATTTTTAGGAAAGGCATCCTACATTCCTACCCAAAAGCTTAATCAAGTTATCTTGTAGTTCCTAAATTGAATTCTTCGGCCATGGAATTTTGTGGACATTCTTCGTTGTTATTAATATAAATTGAGAGATCTTTTTGTAGTATACCTAACTTGACCAAGGAGGATGATATCTCACCTTTCTTGTGGTCTTTCTTTCATAGACGTTTATTTTTTCATTATGTCTAGCACCCAACTATATATACATATATACATAGATATAAATATGTTTCCATGCATATCCGTATATAATAATATTGTGAAAATATAATTGAACATTTTCTTCTCTTTTCTTTTTTTCATTGTCGTGTGTAGGTAAATAATAACCTCCTCTCAGTTGGCAATGCAAATAAGGAAATCACGGTAAGCATGTTGTAAATTTGTTCACAGCCACTTGAGAAAGAAAAATTGATGATATTTAAATAATGATTGTCCTGAAAATATGAATTAATGAAAAGCTGTAGCTCTCAGCAATGATTGTTTGAAAATGTAATTACATTGAAAAGTAAGATATCTTTCTCTCTTCTTTGAGTTTCAGATTATAATTTTGTTGGAAATTGAACTCTCTCGCACATGCACATAGATTAGACATAATCAATGAGATTCATGGTCGTGAATGCATAGAGGATCTTGTTCTGGGAGTGAAATGTAATTGTAATAGTGTCCCAGGTCAATATGATGCTTGCAGTAAGTAGGAACAGCTGTAAAAACTGAGTTTTAAAAAATAAGATTACGTTCCTTGAGATTTTTTGTATTTTGTTGTTTTGAGTTGTGAGCTTGACTCTCTCCAAGTATCATTGCTCGAGGGGAAAATGTGTGATGCTTTTTATGAAATGTTTCATCCATTTAAATTTCTCTTGCACCTAATTCTTGATTCTTGAAATTGTCTGTTATTTCTGTCTTGGACCTGATTTATGAAAACGTGCTACAGAGTTCCACTTCACCAGAATTTGCTCATTCCTGATAGTTGCATCTTTTTCAAGATATGTCCAGCTGATTTTCATGAATATTTTAGGTGCTTAATTTCAGCACTGGGAGGATTGTGACAAAATTAGTTCTTGATAGTGCGGTTACCTCCATGGATCATGATCACACTGGTCAGCTCCTTTTCTGTGGGGACGCAAATGTATGTCATTGGCGCAATTATATTGTGAACTTTCTTCTCTGAAAACCAAACTTTCATTTGCTAAGATTGACCGTTGAGATTGCATATATAGGGATATGTATACTCTGTGAGCATGAACTCTCATACAGGAGCATTATCCCGTACTCACCGCCAGTGGTGTAGTAGTCGGCGAAAATCTCCTGTATCTACTGTACAATATCGAAGCTTCTCTCTACTGGCCAGGGGCCCTGTATTGCTAACTTGCACTCAAGATGGGAACTTGTCTTTCTTCAGGTTTTGTCGACATAAATTGGCTTTCATTTTATCTTTTTTATTTCTCGTTGACTACTTATAAGGTTTTATGTTGCTCTAGTATTGCTTTGGAAGTTCAAGGATATTTGACCCTCCGCTGCTCACTCAAATTAGCTCCAAGGATACATAGCATCCGTGCTTCGTTCTGCCCCCTACTCTCCCTGGAAAAAGGAGAGTACATTGGTAAGGACTGTTTATTTAATGTTCAATAGTCATTTTGTTGATGGTAATATTAGCCATCATTATTAATTTACTTCAGAAATCATATGATCAAGTGGTGAATAAAGATAACTGTATATTTAGGCTCAAGTGGTGAATAAGTGGTGAATAAAGATATGATCAAGTGGTGAATAAAGATAACTGTATTTTGGTATTTAGACTCCGTTTGCTAACCATTTGGTTTTTAGTTTTCTATTTTTGAAAATTAAACCTACAAACACCACTTCCATCTATTGATTTCTATTTTTTGTTGTCTAACATTTTAAGAGTGTTTTTAAAATCAAAACCAAAATTTGAAAAAACAAAAAAAGTAATTTTCAGAAACGTGTTATTGTCTTTAGAAATTGGCTAAGAATTCAAATGCTTACATAAGAAATATAAAAATCATGACTAAGAAATTATGAGAAAACAAGCATAATTTCCAAAACCTAAAAACCAAAAGCTAAATAGTTACCAAAAGTATAATTGTAGATTGTGCATACTATTCTAATGTTGTCTGTTCGTTCCACAATGTGATTGATTACATATTTGGATTTCGTTATGAATTGAAGTTGCAGGAAGTGAGGATTCAAATGTCTACTTCTATGATTTGACACGACCTAAACATACTTGTGTCAACAAGCTACAGGTTCACATTTTCTTCATGTGTTGTCTCCAAGATAAAACTATTTAGTTGACAGTTTGTTGTTGATTAACCAGCACGCATGTGACTCTGCAGGGCCACCGGTTTCCAGTTATTGGGGTTGCTTGGAATCATGGGGAGAATTTGTTGGCTTCATCAGATTTTTATGGGACGGTAATTGTATGGAAGAGATCGAAGATGACTTAGATGGTCTCTGGAGTCTCTACTGAGATTCGTTGTCAAGAGCAGAAGACTGAGGATGGTAGCTCAATGAAGGAAGGAGGGGAGCTGGAGAAGGAGAAACAGAAGAAAAATGTGGATCTGGAACTTCTCAGCTGCTTGCTTCAACCTATGAGTATTGGTGTTGATCCGGATTATATTGGCACTCGTCGTCTCTTGCTTTATCGGAAGGCTGAAGCCGCGGTTCTCCGTCGTAAAGACTGGAGGTGCAATGGGAAAGGTTATGTGGCATTCCGCAATTTCATACGCCGGCCAAGGAATTGGGAAAGCTCGCGTTTACCAAGTCTTCAAAGCACCCCCGGAAACAGTGGAAGATGGGTTCCTCCTCCAAGTTCACTCTCTCTCTTGCATGAGGTGGAGAGTTGGAGTTCTAGCAAGGACTTACAGAGCCACCGAAGATCAAGTTTTAGCTCAAGTGCAAGTGATAATAGTCAGCTGCAGACTCGTAGAGTTGAATTTGCATATTCGTTCATAGGAATGCATTGTATATTTGATCAATGCAAAGCCGCTGTTACGGTTGTGAAGTTTGGGCACATGAGCTCTGATCTATTAGCATATGGGTCATCGGATGGGACCTTGACTGTATGCAATGTCTCTGAACCATCTTCATCCGTCAAGCAGTTGCTGGGCCATTCAAAAGACGTCACAGACTTTGATTTTTCATCAAATAATCAGTACATTGCATCGTCGTCCATGGATAAAACCGTTAGAGTATGGGAGATATCGAAAGGACTTTGCATTAGAGTAATCTATGGAGTATGTTCACAATTGTGTATACGTTTTCATCCGGTAAATAATAACCTCCTCTCAGTTGGCAATGCAAATAAGGAAATCACGGTGCTTAATTTCAGCACTGGGAGGATTGTGACAAAATTAGTTCTTGATAGTGCGGTTACCTCCATGGATCATGATCACACTGGTCAGCTCCTTTTCTGTGGGGACGCAAATGGATATGTATACTCTGTGAGCATGAACTCTCATACAGGAGCATTATCCCGTACTCACCGCCAGTGGTGTAGTAGTCGGCGAAAATCTCCTGTATCTACTGTACAATATCGAAGCTTCTCTCTACTGGCCAGGGGCCCTGTATTGCTAACTTGCACTCAAGATGGGAACTTGTCTTTCTTCAGTATTGCTTTGGAAGTTCAAGGATATTTGACCCTCCGCTGCTCACTCAAATTAGCTCCAAGGATACATAGCATCCGTGCTTCGTTCTGCCCCCTACTCTCCCTGGAAAAAGGAGAGTACATTGGAAGTGAGGATTCAAATGTCTACTTCTATGATTTGACACGACCTAAACATACTTGTGTCAACAAGCTACAGGGCCACCGGTTTCCAGTTATTGGGGTTGCTTGGAATCATGGGGAGAATTTGTTGGCTTCATCAGATTTTTATGGGACGGTAATTGTATGGAAGAGATCGAAGATGACTTAG ATGGTCTCTGGAGTCTCTACTGAGATTCGTTGTCAAGAGCAGAAGACTGAGGATGGTAGCTCAATGAAGGAAGGAGGGGAGCTGGAGAAGGAGAAACAGAAGAAAAATGTGGATCTGGAACTTCTCAGCTGCTTGCTTCAACCTATGAGTATTGGTGTTGATCCGGATTATATTGGCACTCGTCGTCTCTTGCTTTATCGGAAGGCTGAAGCCGCGGTTCTCCGTCGTAAAGACTGGAGGTGCAATGGGAAAGGTTATGTGGCATTCCGCAATTTCATACGCCGGCCAAGGAATTGGGAAAGCTCGCGTTTACCAAGTCTTCAAAGCACCCCCGGAAACAGTGGAAGATGGGTTCCTCCTCCAAGTTCACTCTCTCTCTTGCATGAGGTGGAGAGTTGGAGTTCTAGCAAGGACTTACAGAGCCACCGAAGATCAAGTTTTAGCTCAAGTGCAAGTGATAATAGTCAGCTGCAGACTCGTAGAGTTGAATTTGCATATTCGTTCATAGGAATGCATTGTATATTTGATCAATGCAAAGCCGCTGTTACGGTTGTGAAGTTTGGGCACATGAGCTCTGATCTATTAGCATATGGGTCATCGGATGGGACCTTGACTGTATGCAATGTCTCTGAACCATCTTCATCCGTCAAGCAGTTGCTGGGCCATTCAAAAGACGTCACAGACTTTGATTTTTCATCAAATAATCAGTACATTGCATCGTCGTCCATGGATAAAACCGTTAGAGTATGGGAGATATCGAAAGGACTTTGCATTAGAGTAATCTATGGAGTATGTTCACAATTGTGTATACGTTTTCATCCGGTAAATAATAACCTCCTCTCAGTTGGCAATGCAAATAAGGAAATCACGGTGCTTAATTTCAGCACTGGGAGGATTGTGACAAAATTAGTTCTTGATAGTGCGGTTACCTCCATGGATCATGATCACACTGGTCAGCTCCTTTTCTGTGGGGACGCAAATGGATATGTATACTCTGTGAGCATGAACTCTCATACAGGAGCATTATCCCGTACTCACCGCCAGTGGTGTAGTAGTCGGCGAAAATCTCCTGTATCTACTGTACAATATCGAAGCTTCTCTCTACTGGCCAGGGGCCCTGTATTGCTAACTTGCACTCAAGATGGGAACTTGTCTTTCTTCAGTATTGCTTTGGAAGTTCAAGGATATTTGACCCTCCGCTGCTCACTCAAATTAGCTCCAAGGATACATAGCATCCGTGCTTCGTTCTGCCCCCTACTCTCCCTGGAAAAAGGAGAGTACATTGGAAGTGAGGATTCAAATGTCTACTTCTATGATTTGACACGACCTAAACATACTTGTGTCAACAAGCTACAGGGCCACCGGTTTCCAGTTATTGGGGTTGCTTGGAATCATGGGGAGAATTTGTTGGCTTCATCAGATTTTTATGGGACGGTAATTGTATGGAAGAGATCGAAGATGACTTAG MVSGVSTEIRCQEQKTEDGSSMKEGGELEKEKQKKNVDLELLSCLLQPMSIGVDPDYIGTRRLLLYRKAEAAVLRRKDWRCNGKGYVAFRNFIRRPRNWESSRLPSLQSTPGNSGRWVPPPSSLSLLHEVESWSSSKDLQSHRRSSFSSSASDNSQLQTRRVEFAYSFIGMHCIFDQCKAAVTVVKFGHMSSDLLAYGSSDGTLTVCNVSEPSSSVKQLLGHSKDVTDFDFSSNNQYIASSSMDKTVRVWEISKGLCIRVIYGVCSQLCIRFHPVNNNLLSVGNANKEITVLNFSTGRIVTKLVLDSAVTSMDHDHTGQLLFCGDANGYVYSVSMNSHTGALSRTHRQWCSSRRKSPVSTVQYRSFSLLARGPVLLTCTQDGNLSFFSIALEVQGYLTLRCSLKLAPRIHSIRASFCPLLSLEKGEYIGSEDSNVYFYDLTRPKHTCVNKLQGHRFPVIGVAWNHGENLLASSDFYGTVIVWKRSKMT Homology
BLAST of HG10000492 vs. NCBI nr
Match: XP_004150062.1 (WD repeat-containing protein 13 isoform X1 [Cucumis sativus] >XP_031737023.1 WD repeat-containing protein 13 isoform X1 [Cucumis sativus]) HSP 1 Score: 933.7 bits (2412), Expect = 6.4e-268 Identity = 465/488 (95.29%), Postives = 473/488 (96.93%), Query Frame = 0
BLAST of HG10000492 vs. NCBI nr
Match: XP_008460990.1 (PREDICTED: WD repeat-containing protein 13 isoform X1 [Cucumis melo]) HSP 1 Score: 929.9 bits (2402), Expect = 9.2e-267 Identity = 465/488 (95.29%), Postives = 472/488 (96.72%), Query Frame = 0
BLAST of HG10000492 vs. NCBI nr
Match: XP_038901343.1 (WD repeat-containing protein 13 [Benincasa hispida]) HSP 1 Score: 913.3 bits (2359), Expect = 8.9e-262 Identity = 455/478 (95.19%), Postives = 463/478 (96.86%), Query Frame = 0
BLAST of HG10000492 vs. NCBI nr
Match: XP_011649251.1 (WD repeat-containing protein 13 isoform X2 [Cucumis sativus] >KGN61888.2 hypothetical protein Csa_006278 [Cucumis sativus]) HSP 1 Score: 911.8 bits (2355), Expect = 2.6e-261 Identity = 454/476 (95.38%), Postives = 461/476 (96.85%), Query Frame = 0
BLAST of HG10000492 vs. NCBI nr
Match: XP_008460991.1 (PREDICTED: WD repeat-containing protein 13 isoform X2 [Cucumis melo] >XP_008460992.1 PREDICTED: WD repeat-containing protein 13 isoform X2 [Cucumis melo]) HSP 1 Score: 911.8 bits (2355), Expect = 2.6e-261 Identity = 455/476 (95.59%), Postives = 461/476 (96.85%), Query Frame = 0
BLAST of HG10000492 vs. ExPASy Swiss-Prot
Match: Q9H1Z4 (WD repeat-containing protein 13 OS=Homo sapiens OX=9606 GN=WDR13 PE=1 SV=2) HSP 1 Score: 201.8 bits (512), Expect = 1.7e-50 Identity = 129/330 (39.09%), Postives = 188/330 (56.97%), Query Frame = 0
BLAST of HG10000492 vs. ExPASy Swiss-Prot
Match: Q6DKP5 (WD repeat-containing protein 13 OS=Pan troglodytes OX=9598 GN=WDR13 PE=3 SV=1) HSP 1 Score: 201.4 bits (511), Expect = 2.3e-50 Identity = 129/330 (39.09%), Postives = 187/330 (56.67%), Query Frame = 0
BLAST of HG10000492 vs. ExPASy Swiss-Prot
Match: Q5RF24 (WD repeat-containing protein 13 OS=Pongo abelii OX=9601 GN=WDR13 PE=2 SV=1) HSP 1 Score: 200.7 bits (509), Expect = 3.9e-50 Identity = 128/330 (38.79%), Postives = 186/330 (56.36%), Query Frame = 0
BLAST of HG10000492 vs. ExPASy Swiss-Prot
Match: Q91V09 (WD repeat-containing protein 13 OS=Mus musculus OX=10090 GN=Wdr13 PE=1 SV=1) HSP 1 Score: 199.5 bits (506), Expect = 8.6e-50 Identity = 128/330 (38.79%), Postives = 185/330 (56.06%), Query Frame = 0
BLAST of HG10000492 vs. ExPASy Swiss-Prot
Match: Q9M2Z2 (COMPASS-like H3K4 histone methylase component WDR5A OS=Arabidopsis thaliana OX=3702 GN=WDR5A PE=1 SV=1) HSP 1 Score: 104.0 bits (258), Expect = 4.9e-21 Identity = 92/318 (28.93%), Postives = 159/318 (50.00%), Query Frame = 0
BLAST of HG10000492 vs. ExPASy TrEMBL
Match: A0A0A0LIV0 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_2G249890 PE=4 SV=1) HSP 1 Score: 933.7 bits (2412), Expect = 3.1e-268 Identity = 465/488 (95.29%), Postives = 473/488 (96.93%), Query Frame = 0
BLAST of HG10000492 vs. ExPASy TrEMBL
Match: A0A1S3CEX7 (WD repeat-containing protein 13 isoform X1 OS=Cucumis melo OX=3656 GN=LOC103499708 PE=4 SV=1) HSP 1 Score: 929.9 bits (2402), Expect = 4.5e-267 Identity = 465/488 (95.29%), Postives = 472/488 (96.72%), Query Frame = 0
BLAST of HG10000492 vs. ExPASy TrEMBL
Match: A0A1S3CDQ8 (WD repeat-containing protein 13 isoform X2 OS=Cucumis melo OX=3656 GN=LOC103499708 PE=4 SV=1) HSP 1 Score: 911.8 bits (2355), Expect = 1.3e-261 Identity = 455/476 (95.59%), Postives = 461/476 (96.85%), Query Frame = 0
BLAST of HG10000492 vs. ExPASy TrEMBL
Match: A0A5A7TUV5 (WD repeat-containing protein 13 isoform X2 OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold243G001280 PE=4 SV=1) HSP 1 Score: 896.0 bits (2314), Expect = 7.1e-257 Identity = 452/493 (91.68%), Postives = 460/493 (93.31%), Query Frame = 0
BLAST of HG10000492 vs. ExPASy TrEMBL
Match: A0A6J1JGR4 (WD repeat-containing protein 13 OS=Cucurbita maxima OX=3661 GN=LOC111484233 PE=4 SV=1) HSP 1 Score: 879.8 bits (2272), Expect = 5.3e-252 Identity = 432/478 (90.38%), Postives = 455/478 (95.19%), Query Frame = 0
BLAST of HG10000492 vs. TAIR 10
Match: AT2G16405.1 (Transducin/WD40 repeat-like superfamily protein ) HSP 1 Score: 693.0 bits (1787), Expect = 1.8e-199 Identity = 345/479 (72.03%), Postives = 405/479 (84.55%), Query Frame = 0
BLAST of HG10000492 vs. TAIR 10
Match: AT3G49660.1 (Transducin/WD40 repeat-like superfamily protein ) HSP 1 Score: 104.0 bits (258), Expect = 3.5e-22 Identity = 92/318 (28.93%), Postives = 159/318 (50.00%), Query Frame = 0
BLAST of HG10000492 vs. TAIR 10
Match: AT4G02730.1 (Transducin/WD40 repeat-like superfamily protein ) HSP 1 Score: 84.0 bits (206), Expect = 3.8e-16 Identity = 86/315 (27.30%), Postives = 154/315 (48.89%), Query Frame = 0
BLAST of HG10000492 vs. TAIR 10
Match: AT5G02430.1 (Transducin/WD40 repeat-like superfamily protein ) HSP 1 Score: 68.2 bits (165), Expect = 2.1e-11 Identity = 45/157 (28.66%), Postives = 80/157 (50.96%), Query Frame = 0
BLAST of HG10000492 vs. TAIR 10
Match: AT3G15470.1 (Transducin/WD40 repeat-like superfamily protein ) HSP 1 Score: 62.8 bits (151), Expect = 9.0e-10 Identity = 40/118 (33.90%), Postives = 62/118 (52.54%), 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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