![](http://cucurbitgenomics.org/sites/default/files/styles/slideshow/public/carousel/101322_web.jpg?itok=EG-G51x6)
CmaCh09G011020 (gene) Cucurbita maxima (Rimu) v1.1
Overview
Sequences
The following sequences are available for this feature:
Legend: exonCDSpolypeptide Hold the cursor over a type above to highlight its positions in the sequence below.ATGTTTGACGAGGTTATACGAAAACTCAATGATCTGAGGTATGCCCCTGATTTGAAGAAAAAATTGATTTTCCTTGGCGTTTTGGATGCGAGTGGTTATCGCATCATTTTGGAAGGAGGGAATTTGAAGGTAGCTCGTGGAGCTTTGGTGGCAATTAAAGGAACTAGAAGAGGTAGCATATACTACCTCAACGGAACCACAATAATTGAGCATGCTACTATGGCAAGTTCGAAAGAACAAAACATATCAAAATTATGGCACATGAGACTTGGGCATGCTGGTGATAAGGCACTTCAGACATTGGTGAACCAAGGAGTTCTTAAGGGTGCCACAATAGGTAAAATTGATTTCGGTGAACATTATATATTTGGTAAACAAAAAAATGTGAAGTTTTGTACAGCTATACATCAAACAAAAGGCATTTTGGATTATGTTCACACTGATGTATGGGGCCCCACGAAGAATGTCTCATTGGGAGGAAAGAGGTGGTTTGTCACCTTTATCGATGACTACTCGAGGAGAGTTTGGATGTATCCTATGAGGCACAAAAACGAGGTTCTCCAAATCTTCCAAGAGTGGAAGAAAATGGTAGAGAATCAGACGAACAGGAAAATCAAAAGGCTGAGATCAGACAACGGTGGAGAATATCCTTATGATCCATTCCTTAAAGTATGTCGAGATGAAGGGATCATTCGACACTTCACTGTTCCTGGTAAGCCACAACAAAATGGAGTTGCTGAGAGAATGAACCAGACATTAATAGAGAATGTTCGATGCATATTGTCTCAAGCAGGATTGAGTAAGGCTTTTTGGGCTGAGGCCCTCAGTTATGCAGTTCACTTGGTGAATCGTTTACCTGTTTCTGAAAATGGTGGAAAAATTCCGCTTGAGGTATGGTCGGGTACTCCTGTTAGTGATTATGATAAATTGCATGTGTTTGGGTGTCCTACTTATTATCATGTGACAGACTCAAAGCTGGATCCTATAGCAAAAAAAGCCAAGTTTATGGGCTTTAGCAAAGGTGTAAAGGGTTATAGGTTATGGTGCCAGAAACAAGTGAGATTGTTAATAGTCGAGATGTGACATTCGATGAGTCTGGAATGTTTTTGCAAAAAATTGAAAATAATGACGAGGCATTGAAACAGGTGGAGAAGGTGGTGTTCTCTCCTGATATGGTTGCTCCTACTGAAGAACTTATTGATCAGGTAGATAATAACTCTGATGTATTAGAATAGGAGAAGCAAAGCCTCGTAAATGAAAGAGTGGAGGAACATGAGTCTATCGACAAGAATAGACCACGAAGGGTAATTCGAAAACCTGCAAGGTTTGATGATACGATAGCATATGCTTTCTCATGATTGATGGAGTTCCCAACGTAAGTATTGAGGCTTGAGGAGGTAGCAACCAATTAGTTATCAACTTGGAGATCTTATGACAAGGAGAAGATTATTGTAAATTGTAAAAGTTTTGATTTGATTATTTGGATTAGATTATTTGAATTAGATTTAGTCATACCAGGGTTTAGTGATATATCGAGATTTGATATCGGAATTTGATATCGGGATTTGGGAGAGTTTTGAGGGTCACATCGTATTTGTTGAGTGACATATTGGTGAGTCTTTGTAGTGTGATAGTGAGGTATTCACTTGTAACACTTTGTTTATTAGTGATTGGTTGCTACCCGTGGATGTAGTTGAACTTCTTCTCTCCGAACCACGTAAATATTTTAGTGTCTCTTTGTGTAATTCCGTTCATTGGTGTTGTGAGTACATTTGTTCCGCTTTCGGCGCACAAGTGGTATCAGAGCTTGATTGTGGTATTTGGGGTATTGTGAAAGTTTTGGCCTCATCGACCACTAGACGTGCTCAAAATCGTGCTTATTTTCTTGAAAATGGCAGAATCATCTGGAATTAAATCACGGCGTGGATCAAGATTTTTGAGTTCTCATCTCGAAGTAGAGAAATTTGATGGAACCAATAATTTTGGTGTTTGGCAAGGCGAAGTTAGCGATTAGCTGGGCATGCAAGATCTTGATGCTTCTCTCCAAGAGGTGATGCCTGAAGACATGACAAAAGCAAAATGGACGAAATTAAATTGGCAAGCTTGTGGAATTATTCGATCCTGTCTTGGCAAGGATCAGAAATATCCATTTATGAAGGTGACCATGACGAAAGAACTATGAGACAAGCTTGAGGGAAATATATGCAGAAGAGTGTGGAAAACAAACTCTATTTGAAGAAGAAACCCTTCCGTTTTGACTATAAGAATAGGTATTTCAATAGCTGAGCATTTGGATGATTTTAACAAAATCATCACTAATTTGCTCAATCTTGATGTTAAGATTGATGATAAAGACAAGACGACGTTATTATTAAATTCTTTGCTGGAGTCCTACGAGTTTTTAGTAACCACTCTACTGCATGGAGCCTATGATATTGATTTTGAAGATGTTTCAAATGCCTTGATGAATAATGAGGTGCGAAAGAAGGAAAAGGAGGCATATCAAGATTCTAGCTCAAATGTTCTCACTGCTCGTGAAATGACTTCTACTTGGAAAAGGAGCGAATGTGGAGAGTCCCTATCAAAGTCAAGAGGTAGATATGGTAATTGGAGAAAACTTGATAAAAATGAGTGTGCATATTGTCGACAGAAAGGCCATTGGAAGAAAGATTACCCGATCTTAAAAGAGAAGGGGTCGAAGTCCAATGTGGTTAGAGATGACGACACTGATACAGATAATGCCTTGACGATCTCTCAGTCAGCCAAACTAGTGAATGGATTCTTGATTTTGGGTGCTCCTATCATATGTATTCCAACAGAGAGATGTTTTTGGACTTCAAAGAGTTCAATGGTGGAGTTGTCTATATGGGCAATGATAGTACTTGCAATATGACGGGAATCGGCTCAATACAAATCAAGATGTTTGACAAGGTTATACGAAAACTCAATGATCTGAGGTATGCCCCTGACTTGAAGAAAAAATTGATTTTCCTTGGCGTTTTGGATGCGAGTGGTTTTCGCATCATTTTGGAAGGAGGGAATTTGAAGGTAGCTCGTGGAGCTTTGGTGGCAATTAAAGGAACTAGAAGAGGTAGCATATACTACCTCAACGGAACCACAATAATTGAGCATGCTACTATGGCAAGTTCGAAAGAACAAAACATATCAAAATTATGGCACATGAGACTTGGGCATGCTGGTGATAAGGCACTTCAGACATTGGTGAACCAAGGAGTTCTTAAGGGTGCCACAATAGGTAAAATTGATTTCGGTGAACATTATATATTTGGTAAACAAAAAAATGTGAAGTTTTGTACAGCTATACATCAAACAAAAGGCATTTTGGATTATGTTCACACTGATGTATGGGGCCCCACGAAGAATGTCTCATTGGGAGGAAAGAGGTGGTTTGTCACCTTTATCGATGACTACTCGAGGAGAGTTTGGATGTATCCTATGAGGCACAAAAACGAGGTTCTCCAAATCTTCCAAGAGTGGAAGAAAATGGTAGAGAATCAGACGAACAGGAAAATCAAAAGGCTGAGATCAGACAACGGTGGAGAATATCCTTATGATCCATTCCTTAAAGTATGTCGAGATGAAGGGATCATTCGACACTTCACTTCCTGGTAAGCCACAACAAAATGGAGTTGCTGAGAGAATGAACCAGACATTAATAGAGAATGTTCGATGCATATTGTCTCAAGCAGGATTGAGTAAGGCTTTTTGGGCTGAGGCTCTCAGTTATGCAGTTCACTTGGTGAATCGTTTACCTGTTTCTGAAAATGGTGGAAAAATTCCGCTTGAGGTATGGTCAGGTACTCCTGTTAGTGATTATGATAAATTGCATGTGTTTGGGTGTCCTGCTTATTATCATGTGACAGACTCAAAGCTGGATTCTATAGCAAAAAAAGCCAAGTTTATGGGCTTTAGCAAAGGCGTAAAGGGTTATAGGTTATGGTGTCTAGAAACAAGTGAGATTGTTAATAGTCGAGATGTGACATTCGATGAGTCTGGAATGTTTTTGCAGAAAATTGAAAATAATGACGAGGCATTGAAGCAGGTGGAGAAGGTTGTGTTCTCTCCTGATATGGTTGCTCCTACTGAAGAACTTATTGATCAGGTAGATAATAACTCTGATGTCTTAGAACAGGAGAAGCAAAGCCTCGTAAATGAAAGAGTGGAGGAACATGAGTCTATCGACAAGAATAGACCACGAAGGGTAATTCGAAAACCTGCAAGGTTTGATGATACGATAGCATATGCTTTCTCATGATTGATGGAGTTCCCAACATAAGTATTGAGGCTTGAGGAGGTAGCAACCAATCAGTTATCAACTTGGAGATCTTATGACAAGGAGAAGATTATTGTAAATTGTAAAAGTTTTGATTTGATTATTTGGATTAGATTATTTGAATTAGATTTAGTCATACCAGGGTTTAGTGATATATCGAGATTTGATATCGGAATTTGATATCGGGATTTGGGAGAGTTTTGAGGGTCACATCGTATTTGTTGAGTGACATATTGGTGAGTCTTTGTAGTGTGATAGTGAGGTATTCACTTGTAACACTTTGTTTATTAGTGATTGGTTGCTACCCGTGGATGTAGGGGAAGTTCTATAAACTTTGAGGGATAAGTCAAGTTAATATCGAAGATAGGATAGAATGTTGGCTAAGGCCAACGAAGTAAGTGACCTTACTATCGGTATGGTTGGAAGATTTGTGTGATGCAAGATGACACATGTTCAATGGCCCCGCACTTGTCATATGTTTGATATGTGTACTTTTTATGATGTGATATGTTATATGCTATGATATCTTTAATTGTATGATATGTTGAAGGATATGATGTGTTTTTGAAAGAAAGTTGAAAGGTACAATATGTTGAATAGGAAATGTTGAACGACATAATACATTGCATGACATGATATTGACATGTATTAATGAATCATTCGGATATTCATTGATTTTTCAATATTTTGCTTTGTTTTATTTTAATTTACTTCAAATATTTTGCTTCGATGTATAATTTCATGACATCATTTTGTGAAATCAAACCTTAGCTTCAAAAAACAAATCTACCAAAACCCAACCCACACACCCTCAGCCACCCGAACCAACAACGTTTCGACCTAAAGAATGAGATAAATGAGCTTACTATTAGAGTGCCTTCAGACTAGGTTGGATAAATTGTGATATATGACTAACACAACTTTTGGCTTATTTATGAAATATGGATATGCTTATGATATGTTGTGTTACATGTACTTTCAAGTGTATTGATTTATATATGTTATGATACTATGATCACATTATGTCCCATAAGTTGAATGATATTTCTTGCATGTGTGCATGTCTCATAGGGAATTCATGTCATGAAATAAGTACGATGCATGTCATGACCATGTACAATGATTTAAAATATAAGACCTCATGCATGTTGTATGTCCTGAGAACAAGTTACTGTCCTAATATGTTACGTAATATGTTACGTACGAACATGTACGTCATGATATGATATATGCTCCTTTCTTTTTGTTGGTTTCTAGTAGTGTGAGCATGCACTAACCCATAGTCAAGCTTAGGGGGTACATATACAAGTCAGCCTAATAGGTTCATGCATGCTTACGTGCTCAATGTCTAGAGAAGTACTATACATATAACTCTATCCAAAAAATAAACTATACCCAAGGAATAGTAACAAAAAGTAGGTCCCTTGCATGTGTTGCATTTTTCAAATCTAATGTCACTTACTAATTATTTTTAAATACTTAACTTACGTTTGACATTTTTTGAAGTAAAAGTAAGAACCTCATGTACAGATGATACATCAATTAATGAAGCCATAGACACCAAAGAGGACAGCTACGTAAGAAGAGAATCAATGAAAATCGTGCAAAGAGGAGGGCATGCCTAATTTGTCTTGAATTCGATCAACTCGAGATTATAAAAGAATACGAGTCGTTTTTTTGGTAGAATGTGGAGGAAGATTGACAAGATACCTGTTACAAGAAAACAGACCCAAGAAAGGAAGCCTAGGAAGGTTTACTTATCTCTTAGGAGAGCATAGACGCAAGAATAGCCAACATAGAAACAAAGAGTATCTAAAGCAAGAAGATGGAACTAAGGGAACTTTGAGGAAGCTTATGCTAATTCTTCTTTCCCTCCACTGTTCATCTATCTTTGATAGTGTTGTGTCAATTTTTATATACCATGTCATAAGTGTAATGACTTTGCTCTGGAATTTCTCCTACCTGTTACATCCAAATTACTTAAGCAAGATTAAGAAGACCATTGTAAAGAGTTATGAACTTAAGCCAAAGCAGACATTATAAAATTATGGCCTAGAGTTTCTATTAGATCAAGAACTTGAAAGAACTTTTAATAGAAGATTGATTGAACGAAGAGCTAGAATGATAGAACAACTCGTACCAAATCTTGATCCTAAAGTAAAGCTAAACCTTGAGTTAAAAGACACCAAATGATGCAACCAATCAGACTAGAAATTCTGCAAGTATCTATTGAATCATGTGTGTGTTGGAGAGAATGACAACGAATAGCCAATATAAACTATTGGAAGATCATAGAGAATAAGTCGAGACCTAACAAAAGTACCCCTGAAGTGTTGCGAAAGACTGAAATGGGAAGGGAAACAAAACGAAATGTACCGGATTTTTAGCACGTACAACCATCAAACCAAGAACCAAAACTGAGCTCGACAAAACAACATTCAAATTTTTCCCAAAAAATCCACCTCAGTTGTCTATGTTGCAAACCAAGGGAATCAGGGAAATAATCCATTCTCAAACACTGTCTAACCCTGAGGGGAGAAATCATTCAAAATTTTCCCATGGAGATTTAGGACATAATGCTAACAACTCTCATATGCAATAGAAACTGAACTATCTCCCTAGATTTGAACAAAATCAACAAAATTTTGGAATTCAATAAGCCACAACCGAATCAGAAGTTAAACAGTGCTCAATGAGGAGGAGGTTTGTTAAGTGAAGCCAATAGAATCATAAAGTTGTGTCCCCTTCACCAAACAAGCATATACCCATCTCCCTCCTTTTTTCACGAGATTGAAGAAGAAGAGGAAACCCACTTAGAAAAGTTTATGGACATTCTAAAGAAAATACATATAAACACACCATTATAGAAGCTCTCAAGCAAATGCATAACCATGCAAAATTCCTCAAGGACATCGTCACAAAGTGGAAAAAGTTTGAAGAGTTTAAGGTAGTTCCATTGAATGAGGAATGTACAGTCCTGAAAAATAAGATACCTCAAAAAGAGAGACTCTAGATTCTTCACTATTTCAATGTCAATTAGAGGACAGTTGCTAGGAAGAGCTCTTTGATATCTGTGAACAAGCATCAACCTAATGCCTCTTTCTGTTGGGTATTGGTAAAGCTCGACTAATCTCATTCACACTTCAACTAGCTAATAGATCTATCACTTATCCTGAAGGAGACATTGAAGATATCCTATTGCAAGTAGATAAATTTATATTCCTATCAGATCTTTTAAATTTTGGACTATGAGGCTGATAAATATGTACATATCATTTGGGAAGACCTTTCATTAAAATAGGAAGAACTGTGGTGGGTGTGTATAAATGCACTATAACCCTAAGGATGATAAGCTTCTTAGAATATGCAGAATTTTTTTCTTAAAAGTTACAAAACCCATCTGCAACCTACTAGAAGTAAACAAGAATTTTGAGTTTGATGAGAAGTGTTTAATAGAATTTTAAGCACTAAAACGGCCTTGATCACTGCACTTATATTGTTTTCACTCAATCAAGAGTTTCCATTTAAACTAATGTATGATGCTAGTGATTATGTTGTTGGTGCAATGCTTGGACAAAAGAATGAAAAAATACTGCACCTAGTTTACTATGCTAGTAAAATATTATATGAATCTCAAATCAATTATACCATTACTAAAAAGGAGTTGTTGGCTGTAGTGTTCGTCCTATTTGGTTGGCGCAAAGGTTAAAGTATGCACGGACCACACAGCAATCAAATACCTAATGACTAAGATAGATGCAAGGCGAAAGTTGATTCCGTGGATCCTGTTGTTACAAGAACTTGAAATAGAGATTAAAGATACAAAAGGGTCTAACACTCAAGTGGCTTATCATCTGTCTAGTCTTGAGCATCCTGAGTAGAAGACATTAAGAATTCCTTCCTTGATGTTCAACAGTTAATTGTGGATATCCCTAAAGACTTGTCTAGACAGCAAAAGAAAAATTATTCCATAGAGCAGAAAGTTATTTATAGGATGATCCCTTCCTATTTAAGTAATGTGTTTATGATATGCTTACTCATTGTCTCTCAAACGATAAAATATAATCCATTTTAGAGCAATGTCGTGCAACTTCATATGGAGGTCATTTTGGAGGTCAAAAAATAGCTACAACTTCAATAATCCAATCAAATTCAACTTAATTAGACATAATAAAGTTTAAATTAATCTTCAAATGGATAAAATAATCTTATCTTAAAACCTGAGACATTATACTACGAACTATGGTAAAACAATTTATGAGAATTTTATCAAACCATAGGGATAAATTCAAATTTTTAAATCATATGGACTAAATTTTAATTTTCTCTTGGGGACTATACTCATAGCAAGGGATCATACTCATAGTTTAGCCCTACCAAATTTAATAGATATAACCTCCCAAATTTAGAAATATAAATAGTTCTTTTTCCCTAAAAAATTAATCATGCAGATTCTATAAGCAACCATTAACAAGCCATGGTATAGTACACGTCTCAACAAAATATACCCAAGCAAATGTAACCAAACGATGGAAAAATGGTTTTTCGACTGAAAATGAAACCATTCCTAATGTTTAAGTTATTGCTCTTTGAATTAAGGAACACCCAAAAACATTCCATACTAACAAAACGAAACCACAGCTACAACCAAAAGAACTATTCAAATCTCCATAGTCATTTCCTCCAAGAGTTTTCCAGAAATTTTAGTAAATTAGTCCCTATTTGGAATTGTCCCAATAAAATTAGGCTCTACAAATGGCTATTACTAAGTCCAAACGAATGAAGCTTAACTAGAAGGGTATAATAACATAATAACAATAGGAATGGTTCAAGCACAAAATCTACCAAACTAAAGCTTTTATGTTCAAACTTTTACAATATAACAAGTAGGGAATGACTGCCAGGTTTAACCGAGAAAAGAAAAAACGTGACAAAAAAAAGAAAATAAAACGTTATGCCAGACTCTGTCGCTCAATCTAGGAACTAACCTGCATTACTTTGTGTGCTATGTTTTCTTTAGATATTCATAATTCAGATACACCATCATAAAATGTTGAGAAAAGAGCACAAGGAGGACAAAGAAATGAATAATAAAACACAGAAGTTAACTCATTAG ATGTTTGACGAGGTTATACGAAAACTCAATGATCTGAGGTATGCCCCTGATTTGAAGAAAAAATTGATTTTCCTTGGCGTTTTGGATGCGAGTGGTTATCGCATCATTTTGGAAGGAGGGAATTTGAAGGTAGCTCGTGGAGCTTTGGTGGCAATTAAAGGAACTAGAAGAGGTAGCATATACTACCTCAACGGAACCACAATAATTGAGCATGCTACTATGGCAAGTTCGAAAGAACAAAACATATCAAAATTATGGCACATGAGACTTGGGCATGCTGGTGATAAGGCACTTCAGACATTGGTGAACCAAGGAGTTCTTAAGGGTGCCACAATAGGTAAAATTGATTTCGGTGAACATTATATATTTGGTAAACAAAAAAATGTGAAGTTTTGTACAGCTATACATCAAACAAAAGGCATTTTGGATTATGTTCACACTGATGTATGGGGCCCCACGAAGAATGTCTCATTGGGAGGAAAGAGGTGGTTTGTCACCTTTATCGATGACTACTCGAGGAGAGTTTGGATGTATCCTATGAGGCACAAAAACGAGGTTCTCCAAATCTTCCAAGAGTGGAAGAAAATGGTAGAGAATCAGACGAACAGGAAAATCAAAAGGCTGAGATCAGACAACGGTGGAGAATATCCTTATGATCCATTCCTTAAAGTATGTCGAGATGAAGGGATCATTCGACACTTCACTGTTCCTGGTAAGCCACAACAAAATGGAGTTGCTGAGAGAATGAACCAGACATTAATAGAGAATGTTCGATGCATATTGTCTCAAGCAGGATTGAGTAAGGCTTTTTGGGCTGAGGCCCTCAGTTATGCAGTTCACTTGGTGAATCGTTTACCTGTTTCTGAAAATGGTGGAAAAATTCCGCTTGAGGTTATGGTGCCAGAAACAAGTGAGATTGTTAATAGTCGAGATGTGACATTCGATGAGTCTGGAATGTTTTTGCAAAAAATTGAAAATAATGACGAGGCATTGAAACAGGTGGAGAAGGTGGTGTTCTCTCCTGATATGGTTGCTCCTACTGAAGAACTTATTGATCAGATTGATGATAAAGACAAGACGACGTTATTATTAAATTCTTTGCTGGAGTCCTACGAGTTTTTAGTAACCACTCTACTGCATGGAGCCTATGATATTGATTTTGAAGATGTTTCAAATGCCTTGATGAATAATGAGGTGCGAAAGAAGGAAAAGGAGGCATATCAAGATTCTAGCTCAAATGTTCTCACTGCTCGTGAAATGACTTCTACTTGGAAAAGGAGCGAATGTGGAGAGTCCCTATCAAAGTCAAGAGTCAGCCAAACTAGTGAATGGATTCTTGATTTTGGGTGCTCCTATCATATGTATTCCAACAGAGAGATGTTTTTGGACTTCAAAGAGTTCAATGGTGGAGTTGTCTATATGGGCAATGATAGTACTTGCAATATGACGGGAATCGGCTCAATACAAATCAAGATGTTTGACAAGGTTATACGAAAACTCAATGATCTGAGGTATGCCCCTGACTTGAAGAAAAAATTGATTTTCCTTGGCGTTTTGGATGCGAGTGGTTTTCGCATCATTTTGGAAGGAGGGAATTTGAAGGTAGCTCGTGGAGCTTTGGTGGCAATTAAAGGAACTAGAAGAGGTAGCATATACTACCTCAACGGAACCACAATAATTGAGCATGCTACTATGGCAAGTTCGAAAGAACAAAACATATCAAAATTATGGCACATGAGACTTGGGCATGCTGGTGATAAGGCACTTCAGACATTGGTGAACCAAGGAGTTCTTAAGGGTGCCACAATAGGTAAAATTGATTTCGGTGAACATTATATATTTGGTAAACAAAAAAATGTGAAGTTTTGTACAGCTATACATCAAACAAAAGGCATTTTGGATTATGTTCACACTGATGTATGGGGCCCCACGAAGAATGTCTCATTGGGAGGAAAGAGGTGGTTTGTCACCTTTATCGATGACTACTCGAGGAGAGTTTGGATGTATCCTATGAGGCACAAAAACGAGGTTCTCCAAATCTTCCAAGAGTGGAAGAAAATGGTAGAGAATCAGACGAACAGGAAAATCAAAAGGCTGAGATCAGACAACGGTGGAGAATATCCTTATGATCCATTCCTTAAAGTATGTCGAGATGAAGGGATCATTCGACACTTCACTTCCTGTTATGCAGTTCACTTGGTGAATCGTTTACCTGTTTCTGAAAATGGTGGAAAAATTCCGCTTGAGGTATGGTCAGGTACTCCTGTTAGTGATTATGATAAATTGCATGTGTTTGGGTGTCCTGCTTATTATCATGTGACAGACTCAAAGCTGGATTCTATAGCAAAAAAAGCCAAGTTTATGGGCTTTAGCAAAGGCGTAAAGGGTTATAGGTTATGGTGTCTAGAAACAAGTGAGATTGTTAATAGTCGAGATGTGACATTCGATGAGTCTGGAATGTTTTTGCAGAAAATTGAAAATAATGACGAGGCATTGAAGCAGGTGGAGAAGGTTGTGTTCTCTCCTGATATGGTTGCTCCTACTGAAGAACTTATTGATCAGGTAGATAATAACTCTGATGTCTTAGAACAGGAGAAGCAAAGCCTCGTAAATGAAAGAGTGGAGGAACATGAGTCTATCGACAAGAATAGACCACGAAGGATATTCATAATTCAGATACACCATCATAAAATGTTGAGAAAAGAGCACAAGGAGGACAAAGAAATGAATAATAAAACACAGAAGTTAACTCATTAG ATGTTTGACGAGGTTATACGAAAACTCAATGATCTGAGGTATGCCCCTGATTTGAAGAAAAAATTGATTTTCCTTGGCGTTTTGGATGCGAGTGGTTATCGCATCATTTTGGAAGGAGGGAATTTGAAGGTAGCTCGTGGAGCTTTGGTGGCAATTAAAGGAACTAGAAGAGGTAGCATATACTACCTCAACGGAACCACAATAATTGAGCATGCTACTATGGCAAGTTCGAAAGAACAAAACATATCAAAATTATGGCACATGAGACTTGGGCATGCTGGTGATAAGGCACTTCAGACATTGGTGAACCAAGGAGTTCTTAAGGGTGCCACAATAGGTAAAATTGATTTCGGTGAACATTATATATTTGGTAAACAAAAAAATGTGAAGTTTTGTACAGCTATACATCAAACAAAAGGCATTTTGGATTATGTTCACACTGATGTATGGGGCCCCACGAAGAATGTCTCATTGGGAGGAAAGAGGTGGTTTGTCACCTTTATCGATGACTACTCGAGGAGAGTTTGGATGTATCCTATGAGGCACAAAAACGAGGTTCTCCAAATCTTCCAAGAGTGGAAGAAAATGGTAGAGAATCAGACGAACAGGAAAATCAAAAGGCTGAGATCAGACAACGGTGGAGAATATCCTTATGATCCATTCCTTAAAGTATGTCGAGATGAAGGGATCATTCGACACTTCACTGTTCCTGGTAAGCCACAACAAAATGGAGTTGCTGAGAGAATGAACCAGACATTAATAGAGAATGTTCGATGCATATTGTCTCAAGCAGGATTGAGTAAGGCTTTTTGGGCTGAGGCCCTCAGTTATGCAGTTCACTTGGTGAATCGTTTACCTGTTTCTGAAAATGGTGGAAAAATTCCGCTTGAGGTTATGGTGCCAGAAACAAGTGAGATTGTTAATAGTCGAGATGTGACATTCGATGAGTCTGGAATGTTTTTGCAAAAAATTGAAAATAATGACGAGGCATTGAAACAGGTGGAGAAGGTGGTGTTCTCTCCTGATATGGTTGCTCCTACTGAAGAACTTATTGATCAGATTGATGATAAAGACAAGACGACGTTATTATTAAATTCTTTGCTGGAGTCCTACGAGTTTTTAGTAACCACTCTACTGCATGGAGCCTATGATATTGATTTTGAAGATGTTTCAAATGCCTTGATGAATAATGAGGTGCGAAAGAAGGAAAAGGAGGCATATCAAGATTCTAGCTCAAATGTTCTCACTGCTCGTGAAATGACTTCTACTTGGAAAAGGAGCGAATGTGGAGAGTCCCTATCAAAGTCAAGAGTCAGCCAAACTAGTGAATGGATTCTTGATTTTGGGTGCTCCTATCATATGTATTCCAACAGAGAGATGTTTTTGGACTTCAAAGAGTTCAATGGTGGAGTTGTCTATATGGGCAATGATAGTACTTGCAATATGACGGGAATCGGCTCAATACAAATCAAGATGTTTGACAAGGTTATACGAAAACTCAATGATCTGAGGTATGCCCCTGACTTGAAGAAAAAATTGATTTTCCTTGGCGTTTTGGATGCGAGTGGTTTTCGCATCATTTTGGAAGGAGGGAATTTGAAGGTAGCTCGTGGAGCTTTGGTGGCAATTAAAGGAACTAGAAGAGGTAGCATATACTACCTCAACGGAACCACAATAATTGAGCATGCTACTATGGCAAGTTCGAAAGAACAAAACATATCAAAATTATGGCACATGAGACTTGGGCATGCTGGTGATAAGGCACTTCAGACATTGGTGAACCAAGGAGTTCTTAAGGGTGCCACAATAGGTAAAATTGATTTCGGTGAACATTATATATTTGGTAAACAAAAAAATGTGAAGTTTTGTACAGCTATACATCAAACAAAAGGCATTTTGGATTATGTTCACACTGATGTATGGGGCCCCACGAAGAATGTCTCATTGGGAGGAAAGAGGTGGTTTGTCACCTTTATCGATGACTACTCGAGGAGAGTTTGGATGTATCCTATGAGGCACAAAAACGAGGTTCTCCAAATCTTCCAAGAGTGGAAGAAAATGGTAGAGAATCAGACGAACAGGAAAATCAAAAGGCTGAGATCAGACAACGGTGGAGAATATCCTTATGATCCATTCCTTAAAGTATGTCGAGATGAAGGGATCATTCGACACTTCACTTCCTGTTATGCAGTTCACTTGGTGAATCGTTTACCTGTTTCTGAAAATGGTGGAAAAATTCCGCTTGAGGTATGGTCAGGTACTCCTGTTAGTGATTATGATAAATTGCATGTGTTTGGGTGTCCTGCTTATTATCATGTGACAGACTCAAAGCTGGATTCTATAGCAAAAAAAGCCAAGTTTATGGGCTTTAGCAAAGGCGTAAAGGGTTATAGGTTATGGTGTCTAGAAACAAGTGAGATTGTTAATAGTCGAGATGTGACATTCGATGAGTCTGGAATGTTTTTGCAGAAAATTGAAAATAATGACGAGGCATTGAAGCAGGTGGAGAAGGTTGTGTTCTCTCCTGATATGGTTGCTCCTACTGAAGAACTTATTGATCAGGTAGATAATAACTCTGATGTCTTAGAACAGGAGAAGCAAAGCCTCGTAAATGAAAGAGTGGAGGAACATGAGTCTATCGACAAGAATAGACCACGAAGGATATTCATAATTCAGATACACCATCATAAAATGTTGAGAAAAGAGCACAAGGAGGACAAAGAAATGAATAATAAAACACAGAAGTTAACTCATTAG MFDEVIRKLNDLRYAPDLKKKLIFLGVLDASGYRIILEGGNLKVARGALVAIKGTRRGSIYYLNGTTIIEHATMASSKEQNISKLWHMRLGHAGDKALQTLVNQGVLKGATIGKIDFGEHYIFGKQKNVKFCTAIHQTKGILDYVHTDVWGPTKNVSLGGKRWFVTFIDDYSRRVWMYPMRHKNEVLQIFQEWKKMVENQTNRKIKRLRSDNGGEYPYDPFLKVCRDEGIIRHFTVPGKPQQNGVAERMNQTLIENVRCILSQAGLSKAFWAEALSYAVHLVNRLPVSENGGKIPLEVMVPETSEIVNSRDVTFDESGMFLQKIENNDEALKQVEKVVFSPDMVAPTEELIDQIDDKDKTTLLLNSLLESYEFLVTTLLHGAYDIDFEDVSNALMNNEVRKKEKEAYQDSSSNVLTAREMTSTWKRSECGESLSKSRVSQTSEWILDFGCSYHMYSNREMFLDFKEFNGGVVYMGNDSTCNMTGIGSIQIKMFDKVIRKLNDLRYAPDLKKKLIFLGVLDASGFRIILEGGNLKVARGALVAIKGTRRGSIYYLNGTTIIEHATMASSKEQNISKLWHMRLGHAGDKALQTLVNQGVLKGATIGKIDFGEHYIFGKQKNVKFCTAIHQTKGILDYVHTDVWGPTKNVSLGGKRWFVTFIDDYSRRVWMYPMRHKNEVLQIFQEWKKMVENQTNRKIKRLRSDNGGEYPYDPFLKVCRDEGIIRHFTSCYAVHLVNRLPVSENGGKIPLEVWSGTPVSDYDKLHVFGCPAYYHVTDSKLDSIAKKAKFMGFSKGVKGYRLWCLETSEIVNSRDVTFDESGMFLQKIENNDEALKQVEKVVFSPDMVAPTEELIDQVDNNSDVLEQEKQSLVNERVEEHESIDKNRPRRIFIIQIHHHKMLRKEHKEDKEMNNKTQKLTH Homology
BLAST of CmaCh09G011020 vs. ExPASy Swiss-Prot
Match: P10978 (Retrovirus-related Pol polyprotein from transposon TNT 1-94 OS=Nicotiana tabacum OX=4097 PE=2 SV=1) HSP 1 Score: 242.7 bits (618), Expect = 1.7e-62 Identity = 127/315 (40.32%), Postives = 189/315 (60.00%), Query Frame = 0
BLAST of CmaCh09G011020 vs. ExPASy Swiss-Prot
Match: P04146 (Copia protein OS=Drosophila melanogaster OX=7227 GN=GIP PE=1 SV=3) HSP 1 Score: 144.4 bits (363), Expect = 6.2e-33 Identity = 88/286 (30.77%), Postives = 144/286 (50.35%), Query Frame = 0
BLAST of CmaCh09G011020 vs. ExPASy Swiss-Prot
Match: Q94HW2 (Retrovirus-related Pol polyprotein from transposon RE1 OS=Arabidopsis thaliana OX=3702 GN=RE1 PE=2 SV=1) HSP 1 Score: 131.0 bits (328), Expect = 7.1e-29 Identity = 113/469 (24.09%), Postives = 204/469 (43.50%), Query Frame = 0
BLAST of CmaCh09G011020 vs. ExPASy Swiss-Prot
Match: Q9ZT94 (Retrovirus-related Pol polyprotein from transposon RE2 OS=Arabidopsis thaliana OX=3702 GN=RE2 PE=4 SV=1) HSP 1 Score: 124.8 bits (312), Expect = 5.1e-27 Identity = 82/284 (28.87%), Postives = 141/284 (49.65%), Query Frame = 0
BLAST of CmaCh09G011020 vs. ExPASy Swiss-Prot
Match: Q12491 (Transposon Ty2-B Gag-Pol polyprotein OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) OX=559292 GN=TY2B-B PE=3 SV=1) HSP 1 Score: 99.8 bits (247), Expect = 1.8e-19 Identity = 58/231 (25.11%), Postives = 112/231 (48.48%), Query Frame = 0
BLAST of CmaCh09G011020 vs. ExPASy TrEMBL
Match: A0A2R6RYD4 (Endonuclease OS=Actinidia chinensis var. chinensis OX=1590841 GN=CEY00_Acc02232 PE=4 SV=1) HSP 1 Score: 599.7 bits (1545), Expect = 2.0e-167 Identity = 323/642 (50.31%), Postives = 402/642 (62.62%), Query Frame = 0
BLAST of CmaCh09G011020 vs. ExPASy TrEMBL
Match: A0A5B7BZJ7 (Putative copia LTR rider OS=Davidia involucrata OX=16924 GN=Din_043516 PE=4 SV=1) HSP 1 Score: 562.4 bits (1448), Expect = 3.5e-156 Identity = 297/585 (50.77%), Postives = 374/585 (63.93%), Query Frame = 0
BLAST of CmaCh09G011020 vs. ExPASy TrEMBL
Match: A0A4Y1S2D4 (Transposable element protein OS=Prunus dulcis OX=3755 GN=Prudu_022900 PE=4 SV=1) HSP 1 Score: 538.1 bits (1385), Expect = 7.1e-149 Identity = 295/637 (46.31%), Postives = 383/637 (60.13%), Query Frame = 0
BLAST of CmaCh09G011020 vs. ExPASy TrEMBL
Match: A0A4Y1RZX4 (Transposable element protein OS=Prunus dulcis OX=3755 GN=Prudu_022093 PE=4 SV=1) HSP 1 Score: 538.1 bits (1385), Expect = 7.1e-149 Identity = 295/637 (46.31%), Postives = 383/637 (60.13%), Query Frame = 0
BLAST of CmaCh09G011020 vs. ExPASy TrEMBL
Match: A0A4D9BQS6 (Uncharacterized protein OS=Salvia splendens OX=180675 GN=Saspl_012346 PE=4 SV=1) HSP 1 Score: 536.6 bits (1381), Expect = 2.1e-148 Identity = 334/859 (38.88%), Postives = 451/859 (52.50%), Query Frame = 0
BLAST of CmaCh09G011020 vs. NCBI nr
Match: PSS35035.1 (Endonuclease [Actinidia chinensis var. chinensis]) HSP 1 Score: 599.7 bits (1545), Expect = 4.1e-167 Identity = 323/642 (50.31%), Postives = 402/642 (62.62%), Query Frame = 0
BLAST of CmaCh09G011020 vs. NCBI nr
Match: BBH09562.1 (transposable element gene [Prunus dulcis]) HSP 1 Score: 538.1 bits (1385), Expect = 1.5e-148 Identity = 295/637 (46.31%), Postives = 383/637 (60.13%), Query Frame = 0
BLAST of CmaCh09G011020 vs. NCBI nr
Match: BBH10183.1 (transposable element gene [Prunus dulcis]) HSP 1 Score: 538.1 bits (1385), Expect = 1.5e-148 Identity = 295/637 (46.31%), Postives = 383/637 (60.13%), Query Frame = 0
BLAST of CmaCh09G011020 vs. NCBI nr
Match: BBN67328.1 (transposable element gene [Prunus dulcis]) HSP 1 Score: 533.9 bits (1374), Expect = 2.8e-147 Identity = 296/640 (46.25%), Postives = 383/640 (59.84%), Query Frame = 0
BLAST of CmaCh09G011020 vs. NCBI nr
Match: BBN69445.1 (hypothetical protein Prudu_948S000300 [Prunus dulcis]) HSP 1 Score: 533.1 bits (1372), Expect = 4.7e-147 Identity = 296/640 (46.25%), Postives = 382/640 (59.69%), Query Frame = 0
BLAST of CmaCh09G011020 vs. TAIR 10
Match: ATMG00300.1 (Gag-Pol-related retrotransposon family protein ) HSP 1 Score: 90.5 bits (223), Expect = 7.6e-18 Identity = 42/112 (37.50%), Postives = 62/112 (55.36%), Query Frame = 0
BLAST of CmaCh09G011020 vs. TAIR 10
Match: ATMG00710.1 (Polynucleotidyl transferase, ribonuclease H-like superfamily protein ) HSP 1 Score: 47.4 bits (111), Expect = 7.3e-05 Identity = 22/50 (44.00%), Postives = 33/50 (66.00%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Cucurbita maxima (Rimu) v1.1
Date Performed: 2021-10-25 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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