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HG10014344 (gene) Bottle gourd (Hangzhou Gourd) v1
Overview
Sequences
The following sequences are available for this feature:
Legend: CDSpolypeptide Hold the cursor over a type above to highlight its positions in the sequence below.ATGGGAAGAACTGAAGTTTCATCTCTGCTTCCTCCTTTCCCTCATTCAAATAGTTCTTTAATCTCTAATTTTTTTCCTCAACATTCCCTTTCATCGCCACATCCATGCAGAAACTTTGCGCTTCCTCCTCCAGCTCCAGCTAACGGAAAGCGGACTGGAGCACGACGTAAGTTTTAGTTATTTTATGAATTTTTTCAGTCTACCATGATCTGTGTGACTTATTCACCCTCCTGTTAGAAATTCTGATTCATGTTCTCCTCAATAATTTTTCCAGCCTGTCCAGTATGTTATATCCCTGTGGAGCAGGCTATTGCTAGTATGCCAATTGCACCATCAATATCTCCTGTACTACGCTATTTAACATATATTCATGACGGAAATCCAATAAAAACAGAACCACATGGGGGGTCTGATTTTGGTGGATATCCTTCTTTAAGACAGAGAAATGATTCTTTTAATATAAAAGAGTCGATGACAGTTCACTGTGGGTATGTTTCACTTCCTTACCTGTTTTTGTGTACGTAATGATGATTACTTTTCCAAAGATTTAAATTTTGATGTTCATCATACATGTATTCTTATTTCCTAAAATTTAAATTTGTTTGCTGTTGTAAATGCATACACTCGTGTTCTGCTCTCCTGTACTTATTAGATTTGTTAAAGGAAGTAAACCTGGTAATCAGAGTGGTTTCGATATTGATGAAGCCGACCTTTTGGAGTTGGAGGAGTTTCATGAGGTCATTGTTGCATCAGCCATATTTGGTATGGTGGCGCATTGCAATAGTTCTTCTTTTACTTTCTTTCTATGCACGTGGTTCTTTTCGTGACTACTATTTTCATTTTCCTTTTTCCTTTTTGAAGGAAACTACGATGTATTACAGCAGCCTATTAATATTAGTGAAGAATCAAAAAGATTTGTTCCTTTCTACATGTTCATTGATGAAGAAACAGAAGCATATATGAAGAACTCTAGCCTCTTAGATAGCAGAAGGAGGATTGGCTTGTGGAGAATCATTGTAGTTCGTAATGTTCCTTATGCTGATTCAAGACGTAATGGCAAGGTCAGTTAAATTCTTTCCCTCTCCCCAATTTGTTCCTTTCCACACTTGTGCCAAAAATTTGAGTCTTCCAAAAGTATCTTGATTTCAGGAATTCTTCAGGTTGATTTTTTCAACTTGTGAGAAAATTGTTTCTTGTATTGAATCGCTTTTTTTAAGTTTAGATTAATCATTAAATAAATGTTCCATGAAATTATTTGCATGGGCGGAAATTAGGCTTAAACGCAACAAAGAGTATGTTGTAGATTACGTATATCTAGGCAGGCACTATTTATTTATTTGTTTTACTTCCCCAAGAAAAAAATAAAAAAATTGTTTTGATTGAGATGAATAGAAGTAAAACTGAAAGGTGGTCATTCGAAAACAAAGGCCGAACCATAAAGCACTGAATTAACAAAAAATGAAAAAAAGAAGGCCCCAAGAAGTAATGATCAAGTTCAGAAACAAAGGTAATAACAAAAAGCCTTGATCATGTGGACCCAAAGAGAATCACTAAAATGATTTAGAATCTAAATGCTCAAAATCCTCCTATTTGCCTCTAACTAAATAGGGAAATGGTAAAAAATAGCGCCTTCAAGTTTTCATATTTTAAAAATATCACACTTTTTCAAAACTTGTTAAAAGAGTTTTTCTTGGGGCATCTCGGCCGAGATCGACCACCGAGATTTAGATAAGAAAAATAACTTTTTCATCTTATTGATTGTTTTGAGCTTTCTCGATGAAATCTCGGACATGATTAACACCAAGATTCTATATATTTATCAAATCGTACTTAATTTTTCGCAAAATTTGATCTTTCCAAGAATTTAAAAATCACATTGCAAGATCATTTAGAAAATCCATTTGAAAATTTAGAAATTCGGATAATTGAAACATAAATTGGGCGAAATATTTGAAAATTTTACTATAAGATTTGGAAAAGATAACAAAATTTGAAAAGATGTAAGATTTGGTATAAGATTTGGAAAGATTACATAATATTTGAAAAAATTAGGAGAATCTCTTTCATCCGCCCGATACTTCATTGAGAAATCCCAAAACAATTGATAAGATGAAAAGGTCAAATTTTTATTCAAATCTCGGTAGTAGATCTTGCCCGAGATGGACCTAAAAAAACTATTTTAATGAATTTAAAGGGAGCTAGTTGTGAAAGATGGAAACAATGAAGGGTTGTTTTTGACAATTTCCCAACTAAATATTCAAGCAGCCAAAAATCTAGCCTGCTATAGAAGGAGGATGTAAGGTTACATACCCCATCATACCATGGCAACTCTGAGAAGGAGCCAGCATCCACTCCAAAAAAGTCGAAGAACCTAACCCAAATCTGAACAGCAAATGCTCATTTCCAAAACATTACTTTTACTAGCTTGAATGCATGTATTGTTATTGGTATCATTTTTCATAATCTGCCAAATATAACTCTGATAAAATGTATACAATTTTGTAGCTTAAAACTCGTGGGATGCTTTGATTTTGGTCATTTTGTGGATTCCTGGGTTGAGAGCGTTGTTGAATTATTAACATATATGAATGCTGATGATAATTGAAACTCAGTTCACTCCATAGCCATGTTTCAAAACCTACTACTTTTCCCCTTTTCTAATGATAACACTATGGACGTGCACATGTTACGGAGTGGCATCCTTGTTGGCCTTGATATAGGCTTTTTTTGTTCCAACTTTTTGAAGTTCGTTTTTTCTTTCTCTTTCCTTCTTTCAGCAACAGGAATTTCCTTATTCCCCTTACAGTTGTGATTTGATGCACAAGTGACAATTTTGTTTTTATTCATTTCTCAGAAGTGGAAGGATCATAAATTGTGATCGCCTATTTTTTTCTATTACTTTATGTCTTGTGTTTCCCACTATGCACTGATAATAAAATTTCAAAACTACTGTCCTATCGTTTTTAGTATTAGGTTTAAATCCTAATTCAGTTTTGGACTTTTGAGCTTATTTCTTTTCTTCTTTATACTTTCAAATATCTTAATTTGGTTTTGACACTTTCAAATATTCTATTCTTTTCATCTTAAAACCTTTTTCAAAATCCATTTTACTTGTATTTATTAAATTTATGTGTGCATTTAACAAAAGATTTATGCTGCCCATTTCTAAACTCATCGCCAAACTCTACACGGTTGAAAAATGCATGTAATGCCACTTTAGGTTTTTGTTGGATACAATACAAAAATCTAACAATAAAGATGATATGAGTTCTTATGTAAAGTTCATGGAATAAAACGCAACATTTGAATGTATGAGAACCAAAATAGAGTACCTGTGAAAGCTGAGCTTGTTTGGTAGGCAACTCAGATTCTATTTTATGTTTTCAGATTCACTAAGTTCAATGAATGTGCATTTGGTAGGCAGTTTTCAAAAACTGTTTCGGATTATGTGATCCAAACTGTGGAAATTCTAGAAACAACATTTTTGTGTTTTCATTGTATCCATATTTTGAATTTGATATTTTAAAATGCAGAATTATACTAAAAAAGATAAAAACATTAACAAATATAGTATTTCATGTTACAAAATAATAATTATACAATTTTTTTAAAACTTAAAACAAGTTCATAAATTAATTTGTAATAGTTTATATCTAAGAAGCACAGACACTTTAGTTTGTGTCCGTGTCTGTATCCGACATGTTGGACACTTGGACACTCCGACACTTGTTGGACACGTAGTGAACATTTGTTAGTGCAACAAATGTGTTAAGACATGCATATAACACTTGTTGAGTAGACTAAAAAGAAACATATATGACAATAATAATAAATTTTGAGTGTGAAATACATCAAACTAAGTTTTTTTAAACATATAAATGCATCAACCCATTTGCTTTGAATTTTCTTTTGGTATAAAAATGATATAAATTTGTAAAAATGTATATTTAATAAATGTGTCCTTGTCGCATCGTGTCCTAGATTTTTAAAAAATGACGTGTCACCATGTTCGTGTCGTATCTATGTCTCGTATCTGTACTTCTTAGGTTTATATTTAACTTAATATTTAGTAACTATAATTAGTCTTATAGTTTATAAATATATCATCAAACCCATTTTGAAAAATTGTTTAAATTGAAATTTAAATTCTGAATTTGCTACCAAACACATATCTGAAAACATGAAATACAACTCTGTTTTCATTGACTCCCTTGTTTTTAAATTTCTGTTTTCAGATTGCCTACCAAATAAGCCCTAAGTTTTTGTTAGATGCAATAATAAATTTAACAATAAAGACAAAATGAATTCTTATGGAAAGTTCATGGGCAAGACAGAACGTTTAAGTTTATGAGAATCAAAATAGAGTAACTGTGGAAGTTGAGAGATTGAAATAATATTAAAAGTTTAAAACCTTATTATTATTGTTATTTTATCATCATCATCATCATTATTATGATTATTGTCATGCTTTGAAACCATAGAGGTTCTGATGATCTAGAGTCAAATTAATTGGCATATTATGTCATTCTGTTTCGGGACATTGAAATGTGCCCTCTAAATATCCAAGATATTCATAATCCCCATCCAGAAAATGCAAAGTAAATAAGCCCATAACATTGTTGTAGATAGGAAGAGAGCAATAAGACAGAACTTAGCGCTAAAGTGAGCATCATTACTAGTGTCCTGAGAACATTTACTCTTTACATTTAAATCTTACCCGGATAATTTCTTTACTGCTTAAAAATTAATCAACAGATGTTTGCGTCCCTCTTAAACGAGGTCAATATATTAACAGGTTATACAGATTTTTCTGTACTTGGTTGGACCTGTGATGTAATGTCATGGGTTCATTAGGTCTTACTTGATCTAATTGTGCAGATTCCCAAGCTTCTTCTGCATAGGCTTTTCCCAAACATTCAATACTCTATATGGATAGATGGAAAACTTCAGCTTGTTGTGGATCCATTCCAAATTCTTGAGAGGTACGTCCAATGTTCTATTTTCTGTGGGCTCAGACTTCTAAAGCATGAAATTCCAAGTTGATCATTTTTAAACTTCCCGCTTGCGTTCTACAGTAATTTATTTCCTTTATGTCTGATTGTTATTTGGTTTAAATTTTCCATAACATGGCCATTATTCTGCCAATTCTTTTGCTTTGTGCAATTTTTTGTATCCGTCGACATTTATTTTGGATCCTGGTAAAAGGAGAGGTCATTTTGAAGCCCATGGAGTTTGGAGGTTTAGATATCAGCAACCTAAGATTACATAATGAGACACTGTTAGCGCAATGGTTGTGAAAATCGTAAGAGACTCTTCCTTGTGTTCTGGTTTTCTTCAGGTTGATTTTTGCAACTTGTGAGAAAATCGTTTGGGGACTCTGTCATAGGTAAGAATCGTAAGAGGCTTGCCTCATGGGAAAAGAGCTTTGTCTCGAAAGGCGAGACACTTACCCTTATTCAGTTAGTTTGGCATTCCTACCTATTTTATGTCCCTATGTAGAGTCCCTAGCTCAGTTGGTAAGGTTCTTGAGAAGTTATGAGGGATTTCTTATGGGAGGGGGTTGAGAAGGGGATGGGTTCACTGTTGTTCACATCTTGTACATTAGGAGGTGGTTTCTAGGCCACTAGGCCTGGCGGGCTGCAGGTTACGCATTAGTAATGTGAGGGCGAGAAACATATCCTTATTGGCTAAATGGCTCTAGTGATTCTACCATGAAGATGTCATGAGGTCATTGTTAGTAAGTATGGGCTTCACTTCTTTGATTGGACTGATAGTGGGATCAAAGACATAAATGCATGGAGAGATATCTCGATTGATTTTCCTGTTTTTTCCCAGTTTATTCATAATGTGGTGGGGGATGAGAGAGATACTTATTTTTGGGAGGATAATTGGTTGGGGGTTAGACCCCTTTACTATTTGTTTCCTCATTTATTTCAATTGTCCTCTTCCATAAACTATTTGGCAGCGTCAATCCTCTCCCCAAGAAGAGGCTTTGCCTTCTTCTTCTTTGGGTTTCTGTAACGATGGATATCTTGGCTCTTTTTTCTTTGCTTGGTGAGTTTTGTCTTAGGCTCAAATAGGGGGGACGTTCACCTTTGGAGTTCTTGTCCTCTCAAAGGTTTTTCTTGCAGTTTTTCCTTTTGTTGCTTTTTTTTTTTCTAAGTGTGGAAGGTGAAAATTCCCATCTTTTTTTCAAGTTCTTTGTGTGGCAATCGGTAGGTTTTGAATGAAAGAGTTTACATCTTGGATCAATCTTATTAGCCATAAGTTCCTTTTTGGTCGGGGCACATTGTTGTATTCCTTGTAGGGATTTTGATCATATCCTCTGGACTTGTGATTTTACTTGGGTAGTTTGGTGTGGTTTCTTGAAGGTGTTTGGCTATAGCTTTGCTAGCCCTCTAGATGTTAGGGAGTCGATTGAGGAGCTTCTCCTCCATGTGCCTTTTCGGGGGAAATGGTTGTTCTTGTGATAGTCTAGGAATTGTGATTTTTTTGTGGGGTCTTTGGTGCAAGATAAATAAAAGAATCTTCACGAGGAGAGAGTTCTTTCAACGATGTTTGATTCTTTATTACATTCTTTGTTTCTCTTTGGGCATCGATTTTTAGACCCTGCTGTAATTATTCGTTTGGTCCCATTTTTTACTTGATTGGAGCCTTCTTGTAGTTGGCCCCCTTTTTTGTGAGCGTGTGTATTCTTTTATTTCTTCTCAATGAAAGTCCACTTATGTACGTGTGTATGTGTGTATATGTCAAAGGCAGTTTCTCTTCTTTATGTCATTTCCATTCAGTTGTTCAGTTCAGGGGAAGGGATTTGCAACTGTAGGTGCCTAACACATTGGAGGGTTGATCTTGTAGATCGTTTTTCCATATCCTTTGCTCCTCATCTCTCTTGTATGTTGCCTTAGCTTTCTCCGTTCTCTCTAGAAGGTCAAACTTTCTAAGAAAGTTGAGCTATTTGCTAGGCAACTTTTGTATGGGAGGGTGAACATTCAAGACTGTATTTAGAGGCACTCTTCCTTTGTGTTCCATCCACAATGGTGTATTTTCTTAGGCAGCAGAGGAGGTTATTGATTGAGATTGTCCTTCTATGATTGAAAAGGTGGTCCTAACCTCTATCTCATGGGATAAGGGAGATGTTTTGTGATAGGTTTATATTTTTTTGTTTATTTTTTAATCTTGTTGCTATTCTGTGAGGAGTTAAGTTGGAGAGTAATAGTAGAGTTTTTAAAGTGCCCGAGAGATCTTTAAAGGAGGTTTGAAAGGCTGTGAAGGTTTAATGATTGCGCAGTGCCAAGAAGGTTAGAGATAGTGGCAGTTTTTCTTTTGCTTTCTCAATTTATTCATAATGACGTTGGGGACAGGTGGAGTGCCTATTTTTGGGAGGACAAGTGGTTAGGGATAGACCCTTTGCTCTTTATACCCTAGTCTATATCACTTATCTTCTCTCAGGAACCACTTGGTTGCTTTGATCCTTGGTCATTTGGACTTATTTTCGTCTCAGCTCTGCTTTGCCCCCTCTCTTCTTTTCTCTTTAAGCTCGGAAGCAGAGATTCCCGCCTTTGGAACCCATGCCCTTCAAAAGCTTTTTCTTATAGCTCTTTCTTCCTGTGCTTATCCAACCCATCATCGGTGGGGGTTCTATGTTTTCTTCGGTTTGGGAGGTGAAAATTTCCAAGAAGGTTAAGTTCTTTGTGTGGCAGTGTTGCATGAAAAGTTAACGCCTTGGATCGGACTTCGGGTAGATGGTCTTTAGTGGTTGGGCCGCTTTATTCTATTCTCTGCAGGAAGACAGTTGAGGACTTGGAGCACATCATGTGGAGTAGTGATTTTGCTCCTGCTGTCTTGAGCAGTTTATTTGAGGCTTTCGGTTTCTGTTTTGTCAGCCATTGGAGTTGTAGGGAGTCGTTTGAGGAGCTTTTCCTCCACTGCCTTTTCGTGATAAAGGGTGGTTGTTGTGGCAAGTTGAGGTGTGTGTTGTTTTGTAGGGGCTTTGGGGAGAGAGAAACAACAATCTTCAGAGGGTGTGAGAGCTCCTATGTTGATGTTTGGATGTTATCGATGTTTAGATGTTCAAAGATTGTATTCTCCTCCCTCTGGATGCAGATTAATGTTTAAGGGAGGGTGAGTCTATTGACCACCTCTTCATTCATTGTGATGTTGCCCATCGGGCTTGGTACATCCTAGCAGTTCTCATGGGAATTTCGTTTTGTATGTCAAGAAAGATTGATGGTTGGATTTTGGAGGGTTTGAGTGCTTGGAATCTGAAAACTAAGGGTGTGTTTGGCCCAAGGAGCTGGGAAGTAGGAGTTGGGTAGTAGGAGTTGTGAACTCCACTCCTTATTTAGCCCAAGGAGTTTGTGGGTCCCACTACTAAAAAAAACATCAATTTTATACCTTATCAACTCCTTGCACTATAGGCCCAAGGAGTCCCAACTCCATAGACTTCATAACTCCTCGGAGCTTACTATTCCACTCCTTGCCCCAAACACGTCCTAAGATGTGGGTGATTGGTAGTTGCGCCTTTCTGGCTCTCTTGTGGATTTTGTGGAAGGAAAGAAATGCTCGTTCGTTTGAATGTTTTGATTCTTTTTGTAACTCTGTACAAAATATGACATCTTGTTGATTGCTTTACACAAAAAATTCCTCTTGTAACTATAGTCAGTTGTTGATCATTAACGATTGACAGACTCTTTTGAAGTAGTTGGTGGGGTCCTCTTGGCCCAACCCTTAGGTTGTTTTTATCTTTTTGATTGAATTTACTCCTTTTGGGGTTTCTTTTTTTTTTTTTTTTATTAAAAAAAAGTTTCGCTTTGAACTTTGTTTTAGGCTCTTTGGTAACTACTCGCTTGATCTTATTTCTCAATTAGAGTCTCTTTTTGTATTTTGGCTCTTTTTTGTATGTCCTTGTATTCCTTGGTTTTCGTCAATGAAAGCCAAGTTATCTTACCAAAATAAAATAGGTTGACACAACTTTAATTTGTTACTCCAATTGTCTTCTTGACTCGGCTGATTTAACTAGACAAATAAATGAGATTGTGAGCTTTGTTTGGCTACAATAGTTCAATATTACTAATGAAGAAAATTTGCATATTTTCATAACCTTTCTTATTTGATTGTCCAACACACATTTATTGAACTGTTGGACGCATTTTGTTTGGTGATTGCAATTTGCACGGGAGATTGTTCAGTTCCATTAAAAAGCTATCTAAAGATTTGCTGTGGATCTTATTTATTTTCATATTAGTGAGTGACCAATACAATTGAACAATTAGGACCATAATAACAAATGGCCCAGTGTCGTCTTTAGTGGGAAGCTTTGAAAATGCCTGGATGGATCTGCAAGGCTCATCATTTACAGAAGAATATTTTTACGTCCTCTTACATCGACATAATAATGGGCTTTTTCTATTGCTCTTATACATGATGTTTTGCCGTGGATCGTTTCTGAATATTTTCTGGTTTGATTCTCGTTTGTAGGTTCTATGCCTGATATATTTTTGGGTGCTAATTTAAGCTTTATCGCTGTAAAGTATTTTTAACACATGTATTATTATGTTAATTGTCCTGACAGGTTCTTGTGGCGTCAAAATGCAACTTTTGCTATTTCAAGACACTATAAACGATTTGACGTCTTTGAAGAGGCTGATGCTAATAAGGCTGCAGGAAAATATGACAATTCCTCCATTGATGAGCAGATTGATTTTTATGTTAGAGAGGGTTTAACACCATATTCTTTGGCTAAGCTTCCTATAACAAGTGGTATGAAGTGATTCATTACAAGCACCAGTTCCGTTTTTCCGCACCTGCTTTTTATGTATGCAACCTATATCTCTGTATGTTTCACACTTTTTGGCTCTGCCTTGGACTTCCTGCAGATGTTCCGGAAGGATGCGTTCTAATTCGAGAACATGTTCCTATAACAAATTTATTCACTTGCCTTTGGTTCAATGAAGTTGATCGTTTTACTTCAAGGGATCAGTTAAGCTTCTCGATGGTGAGAGATAAGATAATGTCAAAAGTCAATTGGAGCATTAACATGTTCTTGGATTGTGAAAGGCGCAATTTTGTTATACAGGTCTTGAACTCCTTTCTTCTGGTTAGAAAAACAAGCATGCATACAGCTTACGAAATCCTAATTAGAATCAAAGAATTAACAGAGCATAGTTTAATTCAATTTACTGGAACATATAATTCTATGGACATGTCTTTCAGCTTTTTGCAATATTTGAGTTCTTGAACCTTATTTTTTTCCTGTTTCTCTCTCAACCTAGTGGCTTTTAAATCTTGTTCCAAACCTTTTGTCCTTTGAGATTTGAGAAAAATGATTCTTGACATTCTGCTCTTTCCCCTTTCACATTTATAGACGTATCATAGAGAACTACTGGAACACATGCCACCTCCTGTCAGAGTAGTTATCCGCCGTTCTTCGCCCGTGCCCGACGGTCATACTGTTTCTAAGCCTCCGGTTCATATTGTTCAGAAGGCTCCACCAGTAAAAAGAAATCCTTCCAAGCGGGGAAGAAGTGATAAGAGGTCCACTTCAAAGCGGCATCGTAAAGTTATTTCTGGACATAGAGAGGATAATTCGTTCTAA ATGGGAAGAACTGAAGTTTCATCTCTGCTTCCTCCTTTCCCTCATTCAAATAGTTCTTTAATCTCTAATTTTTTTCCTCAACATTCCCTTTCATCGCCACATCCATGCAGAAACTTTGCGCTTCCTCCTCCAGCTCCAGCTAACGGAAAGCGGACTGGAGCACGACCCTGTCCAGTATGTTATATCCCTGTGGAGCAGGCTATTGCTAGTATGCCAATTGCACCATCAATATCTCCTGTACTACGCTATTTAACATATATTCATGACGGAAATCCAATAAAAACAGAACCACATGGGGGGTCTGATTTTGGTGGATATCCTTCTTTAAGACAGAGAAATGATTCTTTTAATATAAAAGAGTCGATGACAGTTCACTGTGGATTTGTTAAAGGAAGTAAACCTGGTAATCAGAGTGGTTTCGATATTGATGAAGCCGACCTTTTGGAGTTGGAGGAGTTTCATGAGGTCATTGTTGCATCAGCCATATTTGGAAACTACGATGTATTACAGCAGCCTATTAATATTAGTGAAGAATCAAAAAGATTTGTTCCTTTCTACATGTTCATTGATGAAGAAACAGAAGCATATATGAAGAACTCTAGCCTCTTAGATAGCAGAAGGAGGATTGGCTTGTGGAGAATCATTGTAGTTCGTAATGTTCCTTATGCTGATTCAAGACGTAATGGCAAGATTCCCAAGCTTCTTCTGCATAGGCTTTTCCCAAACATTCAATACTCTATATGGATAGATGGAAAACTTCAGCTTGTTGTGGATCCATTCCAAATTCTTGAGAGGTTCTTGTGGCGTCAAAATGCAACTTTTGCTATTTCAAGACACTATAAACGATTTGACGTCTTTGAAGAGGCTGATGCTAATAAGGCTGCAGGAAAATATGACAATTCCTCCATTGATGAGCAGATTGATTTTTATGTTAGAGAGGGTTTAACACCATATTCTTTGGCTAAGCTTCCTATAACAAGTGATGTTCCGGAAGGATGCGTTCTAATTCGAGAACATGTTCCTATAACAAATTTATTCACTTGCCTTTGGTTCAATGAAGTTGATCGTTTTACTTCAAGGGATCAGTTAAGCTTCTCGATGACGTATCATAGAGAACTACTGGAACACATGCCACCTCCTGTCAGAGTAGTTATCCGCCGTTCTTCGCCCGTGCCCGACGGTCATACTGTTTCTAAGCCTCCGGTTCATATTGTTCAGAAGGCTCCACCAGTAAAAAGAAATCCTTCCAAGCGGGGAAGAAGTGATAAGAGGTCCACTTCAAAGCGGCATCGTAAAGTTATTTCTGGACATAGAGAGGATAATTCGTTCTAA ATGGGAAGAACTGAAGTTTCATCTCTGCTTCCTCCTTTCCCTCATTCAAATAGTTCTTTAATCTCTAATTTTTTTCCTCAACATTCCCTTTCATCGCCACATCCATGCAGAAACTTTGCGCTTCCTCCTCCAGCTCCAGCTAACGGAAAGCGGACTGGAGCACGACCCTGTCCAGTATGTTATATCCCTGTGGAGCAGGCTATTGCTAGTATGCCAATTGCACCATCAATATCTCCTGTACTACGCTATTTAACATATATTCATGACGGAAATCCAATAAAAACAGAACCACATGGGGGGTCTGATTTTGGTGGATATCCTTCTTTAAGACAGAGAAATGATTCTTTTAATATAAAAGAGTCGATGACAGTTCACTGTGGATTTGTTAAAGGAAGTAAACCTGGTAATCAGAGTGGTTTCGATATTGATGAAGCCGACCTTTTGGAGTTGGAGGAGTTTCATGAGGTCATTGTTGCATCAGCCATATTTGGAAACTACGATGTATTACAGCAGCCTATTAATATTAGTGAAGAATCAAAAAGATTTGTTCCTTTCTACATGTTCATTGATGAAGAAACAGAAGCATATATGAAGAACTCTAGCCTCTTAGATAGCAGAAGGAGGATTGGCTTGTGGAGAATCATTGTAGTTCGTAATGTTCCTTATGCTGATTCAAGACGTAATGGCAAGATTCCCAAGCTTCTTCTGCATAGGCTTTTCCCAAACATTCAATACTCTATATGGATAGATGGAAAACTTCAGCTTGTTGTGGATCCATTCCAAATTCTTGAGAGGTTCTTGTGGCGTCAAAATGCAACTTTTGCTATTTCAAGACACTATAAACGATTTGACGTCTTTGAAGAGGCTGATGCTAATAAGGCTGCAGGAAAATATGACAATTCCTCCATTGATGAGCAGATTGATTTTTATGTTAGAGAGGGTTTAACACCATATTCTTTGGCTAAGCTTCCTATAACAAGTGATGTTCCGGAAGGATGCGTTCTAATTCGAGAACATGTTCCTATAACAAATTTATTCACTTGCCTTTGGTTCAATGAAGTTGATCGTTTTACTTCAAGGGATCAGTTAAGCTTCTCGATGACGTATCATAGAGAACTACTGGAACACATGCCACCTCCTGTCAGAGTAGTTATCCGCCGTTCTTCGCCCGTGCCCGACGGTCATACTGTTTCTAAGCCTCCGGTTCATATTGTTCAGAAGGCTCCACCAGTAAAAAGAAATCCTTCCAAGCGGGGAAGAAGTGATAAGAGGTCCACTTCAAAGCGGCATCGTAAAGTTATTTCTGGACATAGAGAGGATAATTCGTTCTAA MGRTEVSSLLPPFPHSNSSLISNFFPQHSLSSPHPCRNFALPPPAPANGKRTGARPCPVCYIPVEQAIASMPIAPSISPVLRYLTYIHDGNPIKTEPHGGSDFGGYPSLRQRNDSFNIKESMTVHCGFVKGSKPGNQSGFDIDEADLLELEEFHEVIVASAIFGNYDVLQQPINISEESKRFVPFYMFIDEETEAYMKNSSLLDSRRRIGLWRIIVVRNVPYADSRRNGKIPKLLLHRLFPNIQYSIWIDGKLQLVVDPFQILERFLWRQNATFAISRHYKRFDVFEEADANKAAGKYDNSSIDEQIDFYVREGLTPYSLAKLPITSDVPEGCVLIREHVPITNLFTCLWFNEVDRFTSRDQLSFSMTYHRELLEHMPPPVRVVIRRSSPVPDGHTVSKPPVHIVQKAPPVKRNPSKRGRSDKRSTSKRHRKVISGHREDNSF Homology
BLAST of HG10014344 vs. NCBI nr
Match: XP_038897638.1 (uncharacterized protein LOC120085624 isoform X2 [Benincasa hispida] >XP_038897639.1 uncharacterized protein LOC120085624 isoform X2 [Benincasa hispida] >XP_038897640.1 uncharacterized protein LOC120085624 isoform X2 [Benincasa hispida]) HSP 1 Score: 844.0 bits (2179), Expect = 6.0e-241 Identity = 419/468 (89.53%), Postives = 427/468 (91.24%), Query Frame = 0
BLAST of HG10014344 vs. NCBI nr
Match: XP_008452456.1 (PREDICTED: uncharacterized protein LOC103493486 [Cucumis melo] >XP_008452457.1 PREDICTED: uncharacterized protein LOC103493486 [Cucumis melo] >XP_008452458.1 PREDICTED: uncharacterized protein LOC103493486 [Cucumis melo] >XP_008452460.1 PREDICTED: uncharacterized protein LOC103493486 [Cucumis melo]) HSP 1 Score: 820.8 bits (2119), Expect = 5.5e-234 Identity = 406/460 (88.26%), Postives = 418/460 (90.87%), Query Frame = 0
BLAST of HG10014344 vs. NCBI nr
Match: KAA0064330.1 (Inner membrane protein oxaA [Cucumis melo var. makuwa] >TYK20256.1 Inner membrane protein oxaA [Cucumis melo var. makuwa]) HSP 1 Score: 820.8 bits (2119), Expect = 5.5e-234 Identity = 406/460 (88.26%), Postives = 418/460 (90.87%), Query Frame = 0
BLAST of HG10014344 vs. NCBI nr
Match: XP_031740483.1 (uncharacterized protein LOC101219639 [Cucumis sativus] >KGN55129.1 hypothetical protein Csa_012323 [Cucumis sativus]) HSP 1 Score: 812.4 bits (2097), Expect = 1.9e-231 Identity = 406/459 (88.45%), Postives = 415/459 (90.41%), Query Frame = 0
BLAST of HG10014344 vs. NCBI nr
Match: XP_038897641.1 (uncharacterized protein LOC120085624 isoform X3 [Benincasa hispida]) HSP 1 Score: 809.7 bits (2090), Expect = 1.3e-230 Identity = 403/461 (87.42%), Postives = 412/461 (89.37%), Query Frame = 0
BLAST of HG10014344 vs. ExPASy Swiss-Prot
Match: Q9FZ97 (Probable hexosyltransferase MUCI70 OS=Arabidopsis thaliana OX=3702 GN=MUCI70 PE=1 SV=1) HSP 1 Score: 505.4 bits (1300), Expect = 6.7e-142 Identity = 256/443 (57.79%), Postives = 320/443 (72.23%), Query Frame = 0
BLAST of HG10014344 vs. ExPASy TrEMBL
Match: A0A1S3BTU6 (uncharacterized protein LOC103493486 OS=Cucumis melo OX=3656 GN=LOC103493486 PE=4 SV=1) HSP 1 Score: 820.8 bits (2119), Expect = 2.7e-234 Identity = 406/460 (88.26%), Postives = 418/460 (90.87%), Query Frame = 0
BLAST of HG10014344 vs. ExPASy TrEMBL
Match: A0A5A7VAS7 (Inner membrane protein oxaA OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold134G003960 PE=4 SV=1) HSP 1 Score: 820.8 bits (2119), Expect = 2.7e-234 Identity = 406/460 (88.26%), Postives = 418/460 (90.87%), Query Frame = 0
BLAST of HG10014344 vs. ExPASy TrEMBL
Match: A0A0A0L266 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_4G637690 PE=4 SV=1) HSP 1 Score: 812.4 bits (2097), Expect = 9.4e-232 Identity = 406/459 (88.45%), Postives = 415/459 (90.41%), Query Frame = 0
BLAST of HG10014344 vs. ExPASy TrEMBL
Match: A0A6J1CFM4 (uncharacterized protein LOC111010380 OS=Momordica charantia OX=3673 GN=LOC111010380 PE=4 SV=1) HSP 1 Score: 786.9 bits (2031), Expect = 4.2e-224 Identity = 395/471 (83.86%), Postives = 410/471 (87.05%), Query Frame = 0
BLAST of HG10014344 vs. ExPASy TrEMBL
Match: A0A6J1INJ4 (uncharacterized protein LOC111476854 OS=Cucurbita maxima OX=3661 GN=LOC111476854 PE=4 SV=1) HSP 1 Score: 781.2 bits (2016), Expect = 2.3e-222 Identity = 395/474 (83.33%), Postives = 415/474 (87.55%), Query Frame = 0
BLAST of HG10014344 vs. TAIR 10
Match: AT1G53040.1 (Protein of unknown function (DUF616) ) HSP 1 Score: 520.0 bits (1338), Expect = 1.9e-147 Identity = 260/434 (59.91%), Postives = 321/434 (73.96%), Query Frame = 0
BLAST of HG10014344 vs. TAIR 10
Match: AT1G53040.2 (Protein of unknown function (DUF616) ) HSP 1 Score: 520.0 bits (1338), Expect = 1.9e-147 Identity = 260/434 (59.91%), Postives = 321/434 (73.96%), Query Frame = 0
BLAST of HG10014344 vs. TAIR 10
Match: AT1G28240.1 (Protein of unknown function (DUF616) ) HSP 1 Score: 505.4 bits (1300), Expect = 4.7e-143 Identity = 256/443 (57.79%), Postives = 320/443 (72.23%), Query Frame = 0
BLAST of HG10014344 vs. TAIR 10
Match: AT1G34550.1 (Protein of unknown function (DUF616) ) HSP 1 Score: 263.1 bits (671), Expect = 4.1e-70 Identity = 140/302 (46.36%), Postives = 193/302 (63.91%), Query Frame = 0
BLAST of HG10014344 vs. TAIR 10
Match: AT2G02910.1 (Protein of unknown function (DUF616) ) HSP 1 Score: 261.2 bits (666), Expect = 1.6e-69 Identity = 153/374 (40.91%), Postives = 220/374 (58.82%), 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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