Spg015106 (gene) Sponge gourd (cylindrica) 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.ATGGGCGAGAAGCGAAATAAGCACTCCTCAAATCTGTAGGTCAAATCTTGTTAATTTTTCTCAAAATTACTTGCATTTTGTTCCGAGATTGTCATTGTCACCCAACTTTTGTGAATCTCTTGATTCAGTCTCTACGTTCGGTGAATTGGATATGAGCTCCCAGTTTTCCTTGAGTTTTCATCTGTTAGTGAATTAGGGTTCTTCTATCTATGCAGCTGCTGCGGTAGAGGTATGTGGTTGTTTTTATTTTTCCTCTTTCCATTTTCGGTAATGTGGGTTCGTCGGAATGGATTAGGGTTTCCGGGTATGTCGCTAACGGGGCCTTTTTTGTAATGTCAGTTTGATTTAGTAGCTTTTACTTCGAATTGAGTTTATTTTTGCGTTGCATGGTTCATTTGGAGCATATGCATTAGCTTTTCCTTTTGCCGTCTGCTTTTCCCTGGTTGTTTATAGATAAGCCCATGACTGTGATCGCATAATTCTTTGCTTTGGTATATAAAATTTTTGTGGTTGTGCAATCTGGTTCTAATGAATGCTGCTGTTAAATTGGTATGTTGAATTCAGAGTACCACTTTCAACTGTTTTTTTCTTTTACATTATACTTAGAACGAGCATTGTCAGATTTTTGAAGCTTTATAGAATTCTTTTTTTTCTTTACCCCCGAGCTAGTGGTGAGAAAATGATAAGCCCGTGTAATGAAATAAATATTGTAAAAGCTTTGAAGTTAGAGGACAGGGCGTTTAATTAATCTATTTGAAGCTAAAACTTTTATATTACTCACTTCTAATGTAAATAAATGTTTTTGTTACGCAGTAGTTGAAAGTATGGTAAAGGATACTCGATCTAGTGTCAGAGCGAGGAATGAGGATAACAACAATCCAAAAGGGAAACAAAATGGTGACAAGGCTACGACAAGAGCAGGTTCTACTACGCCAGATACATCTGCTTTGAGAAGGTCTGCGAGAGAGACATCATTGAAGAAAAAGATTGATGCAACCCCTTCCAAATCTAGAAAATCTGAGCGTCTTGACAAGCAACCACCTAGCACTCCTCGTGATAAAAAGAAACATGGTACCATTGAAAAGCAGAACGAGCTTAATCCACTTAGAAGATCTGAGAGGGGTAAAAAACAGTCTTCATCTACTTCTTCAGGATCTAGATCTAAGAAATCAGATAAAAGTTCATCTACCTCTTCAGGATCTGTATTTAAGAAATCAGATAAAAGCTCAGGTTCACCAAATATGAAAGGAAAAAGGGAAACGAAAGAGAAGAGTATTGAACAGTTGACTTTTGAAACTAAAGAGGCTGGCAAATCTCCAAAACAAGACAAGGTTTCCAAAAATGCCAAAAGTAAGAGAATGGATGCTCGTGCTTATAGGGCATTGTTCAGGGAAAAGCTCAAGAAGGCTAATTCATCTGGTATCTTAATTGTATTCTCTCATTTTATGCATTTCTTCCTCCATGGACATCCACATTCACATTTGGTCTGTATTATTATTTTCTAGAGTGACGATGGTTCTCTAACTATCAATTAGTTGATTTTCTTCTATACCTATGCAAATATAATCATTATGGCTAGAATCCAGATCTCATCACAGTAATATTTTTTATCTTAATTACTTAGTGAAATTTTAACAAGTTGATGATCATGCCTTCTTATCTTTTATTGTATTGACTCAGATGGGGAATGTAAATTAATTTCTTTGAAAAGAAAAAGAAGCACGGTGGACCTGGATTCTAATGCCTCAGTAAGGAAAGAAAGTGAAAATACATGCTCTTCACCTGCTGGAGCCGTCCAATCATTATTATCTCCATGCAGACAGAGTGATCAAATTGAGACATGTGGCAGATGTTTGAAGAGACAAAGGTACTAGTCTTGACTGTTATATTTTGGATGTCAAATATTTGTTGCAATTCAAAGAACCATTGGTTACTTAATGAACATTTTTTTTTGAGAAAGTTACTTAATGAACATGAAGTCCACAAATACCACAAAATGTTATTTTCCATTACCCATTGATCACTGATCACTAAGCAATAGGGGATGCCAATATGTCACTGAATTGCGAATGATAAGGATAATGCAGATGTAGAATTGAGTACCTGGTTTGCCATATTAATTTTAGTGTTGTCAAAATGATACTGATAGGGAATGTAAGTATTTTTAGTAAATAAGAAAATGGAAGACATAGATAGTAAGCATTATGACTGTGAACCTATTTATTCCTTTGGATTGGAGTCCCACTCGGTAGTAGTTGAACTCCTCTTGTTGAGTTGTTTTTCCATATGCCATTATATATTCTTTCATTTTTTTTTTCAATGAAAGCTTGGTTTTTGGAAAAAAAAAAAACCTATGAACCTTTGCATGCCACACTTGCATCAAGTGAGAGGCAGAATGGAAGTGGTATATAATTTCAATCATGTAGGACATGTCCACTTATTTGGGCACATTAGGATTCATCACGGGGGAAATATTTCTACACCTTATCGGCCTATCCACACAAAGCACTTGAGAATAATAACTTATTCAGTACAAATACGGCCTTGTTAAGGCTATGGCCATATTGGTTAGTGCACTAGGATGGCAAAACAATGTTGCATATTGAGATAATGATGCTATGCTCGACATTTGTAAAAGTGGAAAAGCTCTTATGTTTCACCTTAAAAGCAGGAAAAACTAATCTACAAAGACTTTTATTGACTTATATTATGTATGCCAATATATTTTGATAACTTTCTTGGACTTGTTTGCTCCCAAGTTCGTTCTTCGTTTCACTTTAGTTGTTGATGAATTAAAGAAAAGATTGAAGAGATGAAAGACCCTTTTATTTTGCTCAAATAGTGAGGAGAACCATGAGATTTTAGGAATCGTTCAAGATGGGTTCAAGGATAGTTCCAATGCATTTGATTTGTTAACTCTTTTTTTTAGGTGAGATGAAACTTTCTAGGCAGTAGAACCTTGCTTTATTTACGAGGTGGATGATTGGGCCCAATGTCTCCCTCTTTTTTGGGATTAATTGTTGAAGGAGCTGCTTGGAGTAGAAGAATGGGCTTTTCTTTTTCTATGAGTTTCGGGGTGAGTTGTTTGGTCTACATCTATATGCTTATTGTAGGGTCGTTAGAGTTCGGCTGAGGACTGTAAAGGTCTATGAGAAATCAAATGGGCTAAGAAAAACAAGAACTATGAGAAATTTTGTGAACTTATTGATGGCCTCGATTTTACAAAAGGGAGATCCCTAATCCAAGGGAGTTACAAAAAACTTCTCCAATTGGATATCAAAAAGCTAAAACTGTAATGATGAAAGAGAGGGGAGCATTGACACTAAGAAACGACCAAAAGGACTATAGAGTCAAAAAGAGGATCAAAAGAGTGCTCATTATCTTGGAAAATTCTGAGATTTCTTTATGTCCACAGAGCCCAGAAAAAAGCCCCCACAAAAAACATCCATAAGAATCTTTTCCTTCTTAAAAGGATGGCCTACCAAAGTGTGAGAGAGATGGTGGTAGGATCCGGCGGCAGAGTAGCTGTCCAGCCAAAGGATGAGAGGATTCTGTCCCAAAATGAACGAGCAAAAGCACAACAAACAAAAAGATGCTTCTGTGATCCCCCACTACTTTTGCACATAATATCATCTGTGAAATTGTTTCTTAAAGAGAAAAAAAAAAAGACAATCATGGGTACAAGGGCAAGGAACAAATATTCACTAGCTTTACAACTATTGTTGCATAATCAATTAGGAGATAAATAACAGAAAGGATGCTTCTTTTGAGCCATCTTTGCCGCATTAATGCCAAGCGACTGTTCATACACAAAGTCAATCATTGTAGGAGTTTTCTGGTTCATCTTCCAGTTAGCCTTGTAGATAGTCTTAGTCATCAAGTCATCCTTGATCCTTAGAGAATGGAGATAAATAGGTGCATAATGATCTTATACTATGATGGTACCCAAGTTATCCTCTCCACTCCTTTGAAAGAATCTTCCTAGCCTATGTTCCTATGTCGAAGTTTTCAGCACAACCATTAATTTTTTCAGGATAAGTGTATATATAGTTGTGACCATGGAAAATGATTTTTTTGTTTTTTTTATAAAGAAACGAGAGGATAAATATATTATCAACAAAAACACAAGAACAACCTAAGAGCCAGGGGAGGAGATCGCCCCTGTCCGAGAACTACTTCAAAAGAGCCTGCCAATCGTTTGTAATCATTAGCAAGCAGAAAATTTGGGATTTTTTTTAATCTGAATAATGATAGGTGTTAGAGGTGGCATATTCATTCTGATGCCTGGTCGCATCAAACCGTTTCACTTAATATAAAAGCTTTCTGGAGAACTGTTTAGTGGGAATAAACCATTGTCACTTGTTTTAATCATTAATTGGTAGATCTGAAGATCATGATTTTTAATATTTCTAGTCACCAGTGACTCATTTGATGGGTTCTTCATTATTACATATTGCAGGGTAGACAATAATTCATCGAAGGACTTCTGCTCTTGTGCAGATATAGACCAGCAGAATGGAAAAACATCCATTGATATGGTTTGTTTGTTCTTTCTTTCTTTCTTCAGTTGTTGTCATTCTTTTTTTTTTTTTTTTTTTTCACTTTAATATCCTTCAATAATTAATTGCACCGTTTGATGATCCACTGCTTGGCCCATGGCCCACCAATGATTTCATGAAGTTTACGCCTCTATGCCTTTGCCAATGATTTCACGAAGCTTACGCCTCAAAGCCTCAAAGGCGTAGGAATAGAGGCGTAAGCCTTGAGGCATGAAAATGCTGCCTCGCCTCAAGGCACGCCTTGAGCGATTTTTAAAACATTGTGTGGGGGAAGGCTATGATGTTTACTTTTGGGAAGACACGTGGGTGGGCGACAAACCTTTATGTATCTTATTCCCTCGTCTCTATATTCTGTCAGAGAAGAAGTTGCATTCATTGACCTCTGTGTTGTCTTCTCTTGACCCTGTTTTCTCGATTCCTTTGGGTTTTCGTCGCCCTTTTTTCGATAGGGAGGTGATAGATGTGACATACCTCCTTTATATTCTTTGAGATTAGTTTATTCATTTTGGGAGGAGGGATGTCAAAGTTTGGTCCCTAGACCTATCTAGGGGTTTCTCCTGTCATTCCTATTTTCATTCCTTATCCCTCTCTTCTGCTTCCCATGCTGCTCTTGAGGCTTCTATTGTTGCCAAGCTCTCAAGAAGGTAAAATTTTTTGCTTGGCAAGTCTTGCTGAGGAAGGTTAGCACTTTGGAATTTGGATTGTGCTCAAAGACATTCTTTCTTAGTTTTGCTTTCGCAATGGTGTATTCTTTGCAAAATCCATGAGGAGGATTTGCATCATTTGTTGTGGGAGTGTTAGTTTGCTAACTTCCTTTGGGATCGTAGGAGAAGGTCGTTTGGTGTTAGTGGGCTGCGTAACAAAGATGGGCGAGAGTTGGTGGGGGAAGTGCTCTTGCATCCTTCCTTCTGAGAGAGAGGCAATGTGGTGTGGTAGTTTTGTTTTTTTTTTTTTGCTGGTTTTTGGGGTGTTTGGCTTGAGAGAAATAATAGGATCTTTAGGGAAAAGGAGAGATCGATTGAGGAAGTTTGGGAGATTGTTAGGTTTAATTCTTCCTTATGGGCGTCAGTTACAGACCTTTTTGTAATTAATATCTTGGTCTCGTTCTTTTGGATTGGAGTTTGCTTTTGTAGTTTTTGTCGGTCTCCATTTTTTCTTAGGCTTGTTTTTTTGTATTCCTTTGGATTCTTTCATTTATTCAATGAAAGTTCGGTTTCTTACTAAAAAAAAAAAACTACTTCTAGAAAATCCCAACCCACATATCAAAAACTTTCTCAATATCAAATTTCAAGATCCATCCTATTTTCTTCTTTGATCGATATTCCTCAACTACCTCATTGGCAATTAAGATAGGATCAAGAATCTATCTTCCTTTGATAAAAGCACTCTGATAACCAGAGATAATCCCAATCGAAGGCAAGGCATTACTTTCTTCCAACGATCTGCAAGGATCTTTGCAAGACTTTTGTAAATTGAAGATATTAAATTGATGGGTCTGAGATCTTTTACTGATTTAAAAGAATCCTTCTTTTGTACCAAATAGCTAAAGTTTTCCTTCAAAGCGGCATTAACATGCCTATTAACATGGAATTTTAAAAAAGACGAAGGAAATCTTCTTTAAAAAATGACCAGAATTTTAAATAAAATTCCACCCTGAATCCATCAGGGCCTACTGCCTTGTTCCTTCCTAAAAGGCTTGATCTAATACACTGAGTGTTGAAAAAAAATGGATTCCCAAATTACAGAAAAGGTTTGATCTAATACATCGGGAGTGCTGAAACAAAATGAATTTCCAAATTTCAATAGCCGAAAGGATTTTGGAATTGGAAATTCTTTTATTACATTAATATGACGGTTAAAGTAGGGCCCTTCGTGTTAATAACCTAGAGAACTCTTTTATGCCCATCGAACTTGTGATCAATGACTGCTAGATGCATAGAATGGGTGCTAAAGTTGAAAAATGTCCAGGGGTTAGGCCCAAAGGTTAATTGTTGATGAACAAAATTGGAATAGACTCCTTTTACATAGATTGCACCAATTTTGATTAAGGTAGAAGCTAGAGTTCCTTCTCCAGATTTTACCGTTAGCATTCAAGTTGCCAAGATTAGGTGACCAAAGGAAGAATTAACACCTTTTGTGGAGAGATAGATTACAAAATAAGGAAGAGTGACTTATCCATTTCTGGGACGCATGAGGAGGGAGACTTGAGCATAAAGGAGCTTGTGTTGTCTAAAAGCCACCTTTAGGAATCTTTTTTTGTTGGGAGGAGACATGCCTTTTGAGATGATTTAAAAATAGGATGAAGGATAACCATCATGGGTTGGCCCTAGTGGTCAATAAAGGCCATAGAAAAAATAAAGGGCTTAGAGGGAATGACTTCACTTCAATCCATGATGACCACCTACATAGGATTTAATATCCTACGAGTTTCCTTGGCAACCAAATGTAGTAGGGTCAAATGGTTGTCCCGTGAGATTAGTCGAGGTGCGCGCAAGCTGACCTGGACACTCAGATATATAAAAAAAATGAAGGATCCAATTCTCTTCTTTGTCCCAATGAAGGGAGATATTCATTGGAGATGGAGCCATAAATTCATTTAATAACTATTTCCTTGTGAAGAGCCAACAAGCATAATCTTGGAAAAATTTGTCTAGGCATCTATCATCTTGCAATGTTGAAGTCTGACTAGAGTGGTTAATGTTAACCTATTACTTGGTGAGCAAATTTGAGACCAAGGAAATATGAAGTTGGAAAATTTAGAGATGTTTTAGGATTGCCAACTACGGAGGCGTTGTATTTGCTGCTAATCATCCCTTCGTAAAGAGCATTTTTGTCATTAAAAAAAATGTGCCACAACCATTTATTGAGCAAGAAGTTGTTAATTTGCCAGATCCTACATATGATCCTCCAAATGCTAAGGCCCTTATTCTAAAAAAAAAAAAGCTAAGGCCCTTTGATCTTTAGGGAGTGACTAAGTTTCACCTGATGGTGGGCACAGTGTCATGCAGAGTGCCCTTGCATAAGAAATCTCATATAAGCTTCTCAATTTTTTTTGGAGAGAGTGGTATGGGCTACGAAAACTGATGAACGAATAAATATATGTTGGGAGGGAATTGATTGAATAAGAGTTAACTTGTTCCTTGAGGAGATATGGCCATGTTTTTTGGCTGCAAAAAAAGGAAGCTTCTAATCTCTGAATTGTGTTCTTCAGATGGAAATTCTCCTCTCGCTTTTGGTGAAATCGAAGTTGATATCCTTCGTTTCTTTTCCACATTATATCAGAAAATTCCAGATGTGGATGCTCTCAACATATCTTTTTTGATTGCCTTTATTCTCGGCCATGTTGGTTCAAGTTGTTCTCAACTTTCAACATTCAGTGGGAGTTTTCCAGTTCATTCATGGAAAATGTTCTTCATTTGCTTCTTGGTCCTCCCGTGGGTTCAAAATCCAAAATTTTGTGGATTAATGCTGTTAAAGCTCTACTTTCTGAGTTAATCAAAGAATCTTCCATAACAAGCACCTACCTTGCTTAGATCGTTTTGATTCAGCTTGTCTGAAGGCCTCTCATGGTGTTCTCTTTCTAAATCTTTGGTTGATTTCTCTTTTCTGGATATGTCTTATCTGGAATGCCTTTATTTTTCAATGGTGATTTTTCATTTCATCAATGAAAAGTTTCATCTCTTGTTCGAAAAATGAAAGAGCTCGAAGAGAAGCATTAAAATGTCATCACACTCTGCACGATAGACATCTTCATGCAAACTATCTTCCCCCAAATGTTCTCGTGTCCTTTCGAACCAAATATTGAAGAACCTAGATCTTGTCAAAGAACCTGGTCAATAGGTGTTGCATGTTCATTGAATGCTGGGACAGGGGAGCTCACGGTAATGTATCCATTACTGTGAAGAGCAATGTTTTAAAAGGCTAAAGGCAGCCTCCTTTTCCTCTTGAAGAGGCGAGGCACAAGCCTTGAGGCGATATGAGGCGTAAGCCTCAATTTTAATTAAAAAGTTCACATAAATCCTAAATTTGTGTGAATAAGTAATGCTAAACATAATGCTTATATAAAAGTATAAAAAAAGCCACCCCTTGAATTGCTACTTGAACAAAAATTCTACAAGTATATCTTTAACATCACTACTATTATCACTTATTGAATTGACTTATTCTATAAATCAGTGTTTTCGAGGCGCACTTGGGCGTGCGCCTCAGGCGACGGGCGAGGCGATTTTGCCCAAGTGCGACTCATAGAGTCCCCAAGTGAGTGCCTTCAATCGGGCGCTCGCCTGGGCACACCTTTGCGCACCTAGGTGCGCCTGTCGCCTGATGCGAGGCAATCGCCTCGTTGAAGCGATGCAATCTGCCCTTTTTTTTTAATTCGTTTAAAGCTTTAAAAAAAACAAAACCCTCTCAAACCCTAACCCTTTCATTTGCAAAAAAAAAAAAACCTAACCATTCGAAAAAACGAAAAAGGTTGAAAAAGAAATGAAGAAGAAGAAGAAAGTAGAAACAAAGAAGACGAAGAAACAAAAGAAGATGAAGAGGCAGTCGCGGCTAGGGTTGGATGTTGACGAGAAGTAAATAGAAAATTAGGGCTTCACTTAGAATTCTATAATTCTATTTACTAGGAGAGAGAAAATTAGGTTGGGCTAGCAGTAATTCTATTTACTAGGAGAAAGAAAATTAGGTTGGACTAGCATTAATTCTATTTACTAGGAGAGAGAAAATGGAAGGTGAAAAGCCTTCATAGAAATTTGGAAATAAAAACTTAAATATTTACCTAAATCTATATATATATAGGTAAATATTTCTATGGCACTATTTTGATATTCATTTTCTAAACTATGTTTACTATATAAATTATATATATATATTATTTATTTTTTTATTAAGGTGCGCCTCGCTTCACTCGGACGTCGCCTTTTTATCGCCTCTCGACTCCGGGCGATCAAAGGGCTCGTCGCCTCGAGGTGAGCCTTGCGCCTTGAAAACACTGCTATAAATTTTTATTTTCAATGTTTCTAAAGCCTAAGTGGTAAAAATAGTAATATTTCAAATTGTTACAACTCAAACCTTTATATTTTTAAAGAAGGTAAAAATTAATATTACTCTTCTAACCATTATATGAGGCGTAGAGACTTTAAGCCTCAGTGCGTTTTTATAAAGGCGTAAGCCTCTCTTGTGAGAGGCGTAAGCCTCTTATGGTCCAAAGAAGGCGTAAGTCTCGAGGCTAAAATTTAAAGTTTTGCCTCGAGGTGAGCCTCAAGGGGTAAGCCTCAATAGCTTTTCAAAACATTGGTGAATGAGCTAAGAAGCACAAGCACTTTAGTTTGGCTAGTGTGTCCATGTCTGACACGTGTTGGCACTTGGACACTCCGACACTTGTTAGACACTTATCGGACACTTGTTAGCACAAATGATATGTGACTAGTCAAATACTAGTTATACAAAGTCAATATAGGTCTATATTGAACACTGGTAAGTATACTAAAAAGACGTAATACTAAATGACAAAAATAATAAATTTTAAGAGTGAAATACATCACTCATTATTTTAAAAATGACGTGTCACCGTGTCCGTGTCGTGTCCGTATCCGTGCTCCTTAGGTGAAGAGTACACCATTTAGTAACCACCTCTCTACAAGAAGGAGCTGAATAGGACAATAAGGCTTCATTTGTCGATCCATTCACTATTTTCCAAATTCATGAGATTTCTTCTAAACAAGCCTCTGACCAGCATTGGCTTATATAACTTCCCTTGGAGTTGGCTACATTATAAAGCCCTGGGAAAGAGGATTTGAACGCACAGCTTCACCGATCCAAAGCTCTTCCCAAAAACAGATTTCTCTCCCTTGCCAAGCTTTAGCTTGTACTATTTCTCCACTAGCCTACAAGCTTTGACAATCTGACTTCCATGGATCTTTAAAAGACACAGTGCCTTTGTATTTGCTTGCAATAACCACCTTCCATAAAGCATCTGGTTTATTCATAAATTTCTATCCCCATTTGGCAAGGAGGCTCAAGTTTCTGCATCTAAAATTACCAACTACCAGACCACGTCTCCTATTGGGAAAGGAGGTAGTCTTCTAATTGACCAAAAATACTGGCACTATCTTTAGATGCTCCTTTCCACAAGAAGGTGCAGATGTATAAAATAATTTTTGATATCTTTATATGAAGAAAAGCACCAAGATACAGCAAAAAGTTTTATCATCGCAAATCTTCCATCCCAAAAAGTTTGTCTGTGTTCAAAGATTCGTTGATTCTTTCTATGGCCCATTAATTTTTCTCATTCTTCTATCTTTTTCTAATATGATTATAGAATTTTAGTTGTTCTCAGTTTAAAACTTTCTCCAGTTTTCATGATTGGCTGAATGGACCATGAAAAACTACATACTTGTTTGTGTTTTAGCCTAGAATTTGTTTATTCCCAATGACATTTCTGATAAGAAAGGGAAAAATGGCTCTAATGTCTTGTTTGATGTCTTGACAGTGTTGTAATCATCCTTATATTGTGGAACCTTCAATGGGACATGTGATCACGAAGGGGCATCCGGAGGTGGAGTATTTGGATATTGGAATAAAAGCAAGCGGTAAGCTACAACTTCTTGATGCAATGCTAAAGGAGATGAGAAATAAGGGCTCAAGGGTCCTAATTCTTTTCCAGGTAAGTCCTATGGTTGAATTGGTAATTTTTATTTCTGAGGTTGATAACTTTTGAATGGGCGAGAAGCGAAATAAGCACTCCTCAAATCTCTGCTGCGGTAGAGTAGTTGAAAGTATGGTAAAGGATACTCGATCTAGTGTCAGAGCGAGGAATGAGGATAACAACAATCCAAAAGGGAAACAAAATGGTGACAAGGCTACGACAAGAGCAGGTTCTACTACGCCAGATACATCTGCTTTGAGAAGGTCTGCGAGAGAGACATCATTGAAGAAAAAGATTGATGCAACCCCTTCCAAATCTAGAAAATCTGAGCGTCTTGACAAGCAACCACCTAGCACTCCTCGTGATAAAAAGAAACATGGTACCATTGAAAAGCAGAACGAGCTTAATCCACTTAGAAGATCTGAGAGGGGTAAAAAACAGTCTTCATCTACTTCTTCAGGATCTAGATCTAAGAAATCAGATAAAAGTTCATCTACCTCTTCAGGATCTGTATTTAAGAAATCAGATAAAAGCTCAGGTTCACCAAATATGAAAGGAAAAAGGGAAACGAAAGAGAAGAGTATTGAACAGTTGACTTTTGAAACTAAAGAGGCTGGCAAATCTCCAAAACAAGACAAGGTTTCCAAAAATGCCAAAAGTAAGAGAATGGATGCTCGTGCTTATAGGGCATTGTTCAGGGAAAAGCTCAAGAAGGCTAATTCATCTGATGGGGAATGTAAATTAATTTCTTTGAAAAGAAAAAGAAGCACGGTGGACCTGGATTCTAATGCCTCAGTAAGGAAAGAAAGTGAAAATACATGCTCTTCACCTGCTGGAGCCGTCCAATCATTATTATCTCCATGCAGACAGAGTGATCAAATTGAGACATGTGGCAGATGTTTGAAGAGACAAAGGGTAGACAATAATTCATCGAAGGACTTCTGCTCTTGTGCAGATATAGACCAGCAGAATGGAAAAACATCCATTGATATGACCTATCTAGGGGTTTCTCCTGTCATTCCTATTTTCATTCCTTATCCCTCTCTTCTGCTTCCCATGCTGCTCTTGAGGCTTCTATTGTTGCCAAGCTCTCAAGAAGGTAAAATTTTTTGCTTGGCAAGTCTTGCTGAGGAAGATGGAAATTCTCCTCTCGCTTTTGGTGAAATCGAAGTTGATATCCTTCGTTTCTTTTCCACATTATATCAGAAAATTCCAGATGTGGATGCTCTCAACATATCTTTTTTGATTGCCTTTATTCTCGGCCATGTTGGTTCAATGTTTTCGAGGCGCACTTGGGCGTGCGCCTCAGGCGACGGGCGAGGCGATTTTGCCCAAGTGCGACTCATAGAGTCCCCAAGTGCGCCTCGCTTCACTCGGACGTCGCCTTTTTATCGCCTCTCGACTCCGGGCGATCAAAGGGCTCGTCGCCTCGAGTGTTGTAATCATCCTTATATTGTGGAACCTTCAATGGGACATGTGATCACGAAGGGGCATCCGGAGGTGGAGTATTTGGATATTGGAATAAAAGCAAGCGGTAAGCTACAACTTCTTGATGCAATGCTAAAGGAGATGAGAAATAAGGGCTCAAGGGTCCTAATTCTTTTCCAGGTAAGTCCTATGGTTGAATTGGTAATTTTTATTTCTGAGGTTGATAACTTTTGA ATGGGCGAGAAGCGAAATAAGCACTCCTCAAATCTCTGCTGCGGTAGAGTAGTTGAAAGTATGGTAAAGGATACTCGATCTAGTGTCAGAGCGAGGAATGAGGATAACAACAATCCAAAAGGGAAACAAAATGGTGACAAGGCTACGACAAGAGCAGGTTCTACTACGCCAGATACATCTGCTTTGAGAAGGTCTGCGAGAGAGACATCATTGAAGAAAAAGATTGATGCAACCCCTTCCAAATCTAGAAAATCTGAGCGTCTTGACAAGCAACCACCTAGCACTCCTCGTGATAAAAAGAAACATGGTACCATTGAAAAGCAGAACGAGCTTAATCCACTTAGAAGATCTGAGAGGGGTAAAAAACAGTCTTCATCTACTTCTTCAGGATCTAGATCTAAGAAATCAGATAAAAGTTCATCTACCTCTTCAGGATCTGTATTTAAGAAATCAGATAAAAGCTCAGGTTCACCAAATATGAAAGGAAAAAGGGAAACGAAAGAGAAGAGTATTGAACAGTTGACTTTTGAAACTAAAGAGGCTGGCAAATCTCCAAAACAAGACAAGGTTTCCAAAAATGCCAAAAGTAAGAGAATGGATGCTCGTGCTTATAGGGCATTGTTCAGGGAAAAGCTCAAGAAGGCTAATTCATCTGATGGGGAATGTAAATTAATTTCTTTGAAAAGAAAAAGAAGCACGGTGGACCTGGATTCTAATGCCTCAGTAAGGAAAGAAAGTGAAAATACATGCTCTTCACCTGCTGGAGCCGTCCAATCATTATTATCTCCATGCAGACAGAGTGATCAAATTGAGACATGTGGCAGATGTTTGAAGAGACAAAGGGTAGACAATAATTCATCGAAGGACTTCTGCTCTTGTGCAGATATAGACCAGCAGAATGGAAAAACATCCATTGATATGACCTATCTAGGGGTTTCTCCTGTCATTCCTATTTTCATTCCTTATCCCTCTCTTCTGCTTCCCATGCTGCTCTTGAGGCTTCTATTGTTGCCAAGCTCTCAAGAAGGTAAAATTTTTTGCTTGGCAAGTCTTGCTGAGGAAGATGGAAATTCTCCTCTCGCTTTTGGTGAAATCGAAGTTGATATCCTTCGTTTCTTTTCCACATTATATCAGAAAATTCCAGATGTGGATGCTCTCAACATATCTTTTTTGATTGCCTTTATTCTCGGCCATGTTGGTTCAATGTTTTCGAGGCGCACTTGGGCGTGCGCCTCAGGCGACGGGCGAGGCGATTTTGCCCAAGTGCGACTCATAGAGTCCCCAAGTGCGCCTCGCTTCACTCGGACGTCGCCTTTTTATCGCCTCTCGACTCCGGGCGATCAAAGGGCTCGTCGCCTCGAGTGTTGTAATCATCCTTATATTGTGGAACCTTCAATGGGACATGTGATCACGAAGGGGCATCCGGAGGTGGAGTATTTGGATATTGGAATAAAAGCAAGCGGTAAGCTACAACTTCTTGATGCAATGCTAAAGGAGATGAGAAATAAGGGCTCAAGGGTCCTAATTCTTTTCCAGGTAAGTCCTATGGTTGAATTGGTAATTTTTATTTCTGAGGTTGATAACTTTTGA MGEKRNKHSSNLCCGRVVESMVKDTRSSVRARNEDNNNPKGKQNGDKATTRAGSTTPDTSALRRSARETSLKKKIDATPSKSRKSERLDKQPPSTPRDKKKHGTIEKQNELNPLRRSERGKKQSSSTSSGSRSKKSDKSSSTSSGSVFKKSDKSSGSPNMKGKRETKEKSIEQLTFETKEAGKSPKQDKVSKNAKSKRMDARAYRALFREKLKKANSSDGECKLISLKRKRSTVDLDSNASVRKESENTCSSPAGAVQSLLSPCRQSDQIETCGRCLKRQRVDNNSSKDFCSCADIDQQNGKTSIDMTYLGVSPVIPIFIPYPSLLLPMLLLRLLLLPSSQEGKIFCLASLAEEDGNSPLAFGEIEVDILRFFSTLYQKIPDVDALNISFLIAFILGHVGSMFSRRTWACASGDGRGDFAQVRLIESPSAPRFTRTSPFYRLSTPGDQRARRLECCNHPYIVEPSMGHVITKGHPEVEYLDIGIKASGKLQLLDAMLKEMRNKGSRVLILFQVSPMVELVIFISEVDNF Homology
BLAST of Spg015106 vs. NCBI nr
Match: XP_038894573.1 (helicase protein MOM1 [Benincasa hispida]) HSP 1 Score: 339.3 bits (869), Expect = 5.8e-89 Identity = 234/438 (53.42%), Postives = 254/438 (57.99%), Query Frame = 0
BLAST of Spg015106 vs. NCBI nr
Match: XP_038894573.1 (helicase protein MOM1 [Benincasa hispida]) HSP 1 Score: 114.0 bits (284), Expect = 3.9e-21 Identity = 53/59 (89.83%), Postives = 57/59 (96.61%), Query Frame = 0
HSP 2 Score: 316.6 bits (810), Expect = 4.0e-82 Identity = 219/417 (52.52%), Postives = 244/417 (58.51%), Query Frame = 0
BLAST of Spg015106 vs. NCBI nr
Match: XP_022152921.1 (uncharacterized protein LOC111020533 isoform X1 [Momordica charantia]) HSP 1 Score: 107.8 bits (268), Expect = 2.8e-19 Identity = 49/59 (83.05%), Postives = 54/59 (91.53%), Query Frame = 0
HSP 2 Score: 316.6 bits (810), Expect = 4.0e-82 Identity = 219/417 (52.52%), Postives = 244/417 (58.51%), Query Frame = 0
BLAST of Spg015106 vs. NCBI nr
Match: XP_022152923.1 (uncharacterized protein LOC111020533 isoform X3 [Momordica charantia]) HSP 1 Score: 107.8 bits (268), Expect = 2.8e-19 Identity = 49/59 (83.05%), Postives = 54/59 (91.53%), Query Frame = 0
HSP 2 Score: 316.6 bits (810), Expect = 4.0e-82 Identity = 219/417 (52.52%), Postives = 244/417 (58.51%), Query Frame = 0
BLAST of Spg015106 vs. NCBI nr
Match: XP_022152922.1 (uncharacterized protein LOC111020533 isoform X2 [Momordica charantia]) HSP 1 Score: 107.8 bits (268), Expect = 2.8e-19 Identity = 49/59 (83.05%), Postives = 54/59 (91.53%), Query Frame = 0
HSP 2 Score: 312.4 bits (799), Expect = 7.6e-81 Identity = 222/448 (49.55%), Postives = 243/448 (54.24%), Query Frame = 0
BLAST of Spg015106 vs. ExPASy Swiss-Prot
Match: Q9M658 (Helicase protein MOM1 OS=Arabidopsis thaliana OX=3702 GN=MOM1 PE=1 SV=1) HSP 1 Score: 57.4 bits (137), Expect = 5.7e-07 Identity = 26/74 (35.14%), Postives = 47/74 (63.51%), Query Frame = 0
HSP 2 Score: 30.8 bits (68), Expect = 5.8e+01 Identity = 59/171 (34.50%), Postives = 82/171 (47.95%), Query Frame = 0
BLAST of Spg015106 vs. ExPASy TrEMBL
Match: A0A6J1DG63 (uncharacterized protein LOC111020533 isoform X3 OS=Momordica charantia OX=3673 GN=LOC111020533 PE=4 SV=1) HSP 1 Score: 316.6 bits (810), Expect = 1.9e-82 Identity = 219/417 (52.52%), Postives = 244/417 (58.51%), Query Frame = 0
BLAST of Spg015106 vs. ExPASy TrEMBL
Match: A0A6J1DG63 (uncharacterized protein LOC111020533 isoform X3 OS=Momordica charantia OX=3673 GN=LOC111020533 PE=4 SV=1) HSP 1 Score: 107.8 bits (268), Expect = 1.4e-19 Identity = 49/59 (83.05%), Postives = 54/59 (91.53%), Query Frame = 0
HSP 2 Score: 316.6 bits (810), Expect = 1.9e-82 Identity = 219/417 (52.52%), Postives = 244/417 (58.51%), Query Frame = 0
BLAST of Spg015106 vs. ExPASy TrEMBL
Match: A0A6J1DJ68 (uncharacterized protein LOC111020533 isoform X1 OS=Momordica charantia OX=3673 GN=LOC111020533 PE=4 SV=1) HSP 1 Score: 107.8 bits (268), Expect = 1.4e-19 Identity = 49/59 (83.05%), Postives = 54/59 (91.53%), Query Frame = 0
HSP 2 Score: 316.6 bits (810), Expect = 1.9e-82 Identity = 219/417 (52.52%), Postives = 244/417 (58.51%), Query Frame = 0
BLAST of Spg015106 vs. ExPASy TrEMBL
Match: A0A6J1DHK2 (uncharacterized protein LOC111020533 isoform X2 OS=Momordica charantia OX=3673 GN=LOC111020533 PE=4 SV=1) HSP 1 Score: 107.8 bits (268), Expect = 1.4e-19 Identity = 49/59 (83.05%), Postives = 54/59 (91.53%), Query Frame = 0
HSP 2 Score: 307.0 bits (785), Expect = 1.5e-79 Identity = 218/441 (49.43%), Postives = 240/441 (54.42%), Query Frame = 0
BLAST of Spg015106 vs. ExPASy TrEMBL
Match: A0A6J1KDL3 (helicase protein MOM1 isoform X1 OS=Cucurbita maxima OX=3661 GN=LOC111493379 PE=4 SV=1) HSP 1 Score: 116.3 bits (290), Expect = 3.8e-22 Identity = 53/59 (89.83%), Postives = 58/59 (98.31%), Query Frame = 0
HSP 2 Score: 301.2 bits (770), Expect = 8.4e-78 Identity = 217/441 (49.21%), Postives = 237/441 (53.74%), Query Frame = 0
BLAST of Spg015106 vs. TAIR 10
Match: AT1G08060.1 (ATP-dependent helicase family protein ) HSP 1 Score: 57.4 bits (137), Expect = 4.1e-08 Identity = 26/74 (35.14%), Postives = 47/74 (63.51%), Query Frame = 0
HSP 2 Score: 30.8 bits (68), Expect = 4.1e+00 Identity = 59/171 (34.50%), Postives = 82/171 (47.95%), Query Frame = 0
BLAST of Spg015106 vs. TAIR 10
Match: AT1G08060.2 (ATP-dependent helicase family protein ) HSP 1 Score: 57.4 bits (137), Expect = 4.1e-08 Identity = 26/74 (35.14%), Postives = 47/74 (63.51%), Query Frame = 0
HSP 2 Score: 30.8 bits (68), Expect = 4.1e+00 Identity = 59/171 (34.50%), Postives = 82/171 (47.95%), Query Frame = 0
BLAST of Spg015106 vs. TAIR 10
Match: AT5G44800.1 (chromatin remodeling 4 ) HSP 1 Score: 48.1 bits (113), Expect = 2.5e-05 Identity = 28/69 (40.58%), Postives = 43/69 (62.32%), Query Frame = 0
BLAST of Spg015106 vs. TAIR 10
Match: AT5G19310.1 (Homeotic gene regulator ) HSP 1 Score: 47.0 bits (110), Expect = 5.5e-05 Identity = 24/72 (33.33%), Postives = 47/72 (65.28%), Query Frame = 0
BLAST of Spg015106 vs. TAIR 10
Match: AT3G06010.1 (Homeotic gene regulator ) HSP 1 Score: 46.2 bits (108), Expect = 9.4e-05 Identity = 22/67 (32.84%), Postives = 42/67 (62.69%), Query Frame = 0
The following BLAST results are available for this feature:
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InterPro
Analysis Name: InterPro Annotations of Sponge gourd (cylindrica) v1
Date Performed: 2022-08-01
Relationships
The following mRNA feature(s) are a part of this gene:
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