![](http://cucurbitgenomics.org/sites/default/files/styles/slideshow/public/carousel/101322_web.jpg?itok=EG-G51x6)
MC05g0889 (gene) Bitter gourd (Dali-11) v1
Overview
Sequences
The following sequences are available for this feature:
Legend: utr5CDSpolypeptideutr3 Hold the cursor over a type above to highlight its positions in the sequence below.CTCTGATTCTCTTTCGTGATATGTAATCTTTCTGAATTTTTCTTGAGGCGTTGTATGCAAAAGTATTTATCAACGCCTGCTTTTACTTACGAAACTCTCCTCCTTGACTTGGTGTAGAATATCAGTCTACTTTTTTTTCAAAGTAGGAGTGAAAGAAACCGAATCGAATCGAGCTGGTTCGGGTAACTGAATTGAAGTCGAAGCGGACCGAAAATGGCCGGTTCGATTCGCTTTCTTTTTCTTTTAAAGCAGGGTTTCCTTTTAAAACACCAGCGCCGTCCCCCTTCTTCCATCAGTTCACGACCCACGACTCCCCCCTCTCCTCTCGTTCTCTGTGACCATCTCCGGCGGCGGCGACGCTCTCTGTGAACGACCCAACGGCGGCGACGACGACGAGTTCTTCAATCCCCCACCTGGGTCTTCTTCAACAGCTTGGACTCTCGTTTTCCGCCAAAATTTATAAAGGTGTTCCACTTTTCTTCTCGATTCTGGATTTGGGTTTGTTCTGTTCTGTTTGAAATTGATCTTGACTTGTGGGAACTGCAAGAAAACAGTACCAGTCCAAAAAAATAATTGAATACTCTGTTTCATTGCCAGCTAAAACGAAACAATACACAAAAAAAAAAAAAAAATTGTTCTATGTTCTTGCGATACAGCCTTGGATTTTTTGGGTACACTTTGTGAATAGAAGTAGGTGATGATACTAAGGGCTTATTGCCATTATATTAGGGAAGTTTGGAGAATAAGTAGGTGATGATACTGCCAAAAAGCCAAAAAGCCAAAAACGAGGAATAGAAAATATGGTAGGACAGACCAGGGCTCTTGTTTAACAGAGGACTAATTTAAGTCAAGGGTATGGTGTGAATATGGGTCGGCGTGCTTCTTATATATTCAAGGTGATGGTAGTGGGATTAAGAAAGTTGAAGAATACGTTATAGGGTGATCCCCTTTGCCTGAGAAAGTGATTGACTGACCATCGGGTTGTAAAATCATAACCTTGTGGCTAGTTATTCTATTATAGAGTACTCAAGCATACGTAAGGAGATCCCATCAGTCTAGTCTCTTCCCTCTATAAGATTATTGCCAAGGTGCTGGCTGACAGATTAAAAAAAGTCCTTCCTTCTATCATTGTGGATGTCGAAGCTGCCTTTGTGGAAGGAAGGCAGATCTTGGATGCTATTTTAGTGGCTGCTGAGACTGTTGGAGAGTGGCAGTCCACTAAAAAACCAGTTTTTTTGCTCAAGCTAGACTACAAAAAAGTGTATGATAAGCTCAAGCTACACTACGAAAAAGTGTATGATAAGGTGGACTGGGACTATATAGATGCAGTCTTGGAGACCCTCACTCTCCTTTCCTTTTCACTCTTGTAGGAGATTCTTTCAGCAGGCTTATCCACTTTTGTTGTGAGAAGAGAATGATTAAGGGGTTTGAGGTGGGGACTAAAAAGGTGATGATTTCCCATTTGCAATATGCTGATGACACTATTCTATTTTGTCTTGATGAGAATGACTTTCTGTTTAAATGGTGGATTGTGGTAAATTGGTTTTTAAGGGCTTCAGGCCTCTCCTTAAATCTAGACAAGACCTCTCTTGTGGGATTAAATATCAGTGATGAAAGATTGGAGGATAAAGCTTTAAGCTTGGGCTACAGAGGGGAAACTTTTCCTTTATCCTATCTTGGGCTTCCATTAGGGGGAAACTACAAAGCTGCTACCCTGTGGCAGCCTTTGGTAGAGAAAATGAAGCAAAAGCTTAACAAATGGCACAACCTAGTTCTCTCAAAATGAGGTAGATTGACTCTAGCCCAATCGGTATTGAACAGTATGCCCATATATTATCTCTCTTTTAAAAGCTCCTGTGGGAATTGCTAAAACTCTTGATAAGCTTGTGAGAGATTTTTTTTTGGAAATCAGACAGATTACACCCCACAGAAATTTGGTTAATTGAGAAACTACTTCTCTGCCCTTGAAGGAGGGAGGCCTTTGGCATATAGGGGCTTTTCACCTCCGAAATAATGTGCTATTGTTGAAGTGGTTATGGAGATTCACTCAAGAGGAAGATGCCCTATGGAGAAGAGTTAAAAGTATTTACGGGATTGAGCCTCTCAGGTGGATGTCAAAAAAGCCTAAAAGAAAAGCAGTTGGTAAACCTTGGTTTGAAATAGCAAAGAACAGCATCCTCTTCCTCAAATTCTTGTCTTTCAAAGTAAAGCATGGTGATAGAGTTCGCTTTTGGTTGGATAGATGGACTGAAAATTCCACCCTTGCTCATGACTTTCCAGAAATTTTTGCTTTATCTTTGACGTAAAAGGCCGCAATTGCTGACTGTTGGAATGATGAGCAGCTCGCTTGGGATCTTGGCCTAAGGAGGGGTCTTTTTGACAGAGAAGTAGGGGTTGGGTTGACATAATGAGTAGATTAGATACTACTTGGATTGGAGAAGGAGCTGATAAAGTGGTATGGTTTCTAGACTCTTCTGGTGCTTACACGGTGAAATCAGGCTTAAAAATTCTGTTGGAAGACACTCCACACTTGAGTCCGCTTGTTACCTCTCTTCTTTGGAAATACTCAATCCTTAAGAAGGTAAAAGTCTTCCTTTGGACCCTAGCCAACAGAGCGGTTAACATAGCCGACAGACTCCACTCCAGAGAAGATGTCCAAATTGGACTCTTTCCCCTCCTGTTTGTGTTCTTTGCAAACAAAATGAGCAAACCATAGATCACACTTTCCTTCACTGTCAGTTTGCTCTCCTAGGGTGGTCTTTTCTTCTTCAAATCTTTGGATACTCCAGTTGCACGCCTTAGAATGTTGAAGGGTGGATGAATGAAGCTCTGCGGGGTTGGGATTTCAAAGGAAAAGGAAAAATTCTGTAGAATTCTGCAGCCAGAACCCTCCTTTAGAATCTTTGGATGGAAAGAAACAATAGAATTTTTGAGGATAAATCTTCTTCTTTTGATAACTTCTGTAATACAGTTCAGTTACACACTTTTTGGTGGTGTTATAGGCATAGAAAATTCTTTTGTAATTACAGCCTGTCATCGATTTTGCAAGATTGGAGAGCCTTTCTTCATTAGTTCTTAGGGGGGTGGGGGGGGGAGCCCTCTTCCCCCTACCCTTAAGCTGTTTTTTTTTGGCTCCGTGCCTTTTGTCTGTAAAATGTTTCTTATCTAAAAAAAAAGCATACATAAGGAGATGGATGTTGCCTTGAAAAACTTTTGTCTATAAAATGTTTCTTATCTAAAAAAAAAGCATACATAAGGAGATGGATGTTGCCTTGAAAAACTTGAAATTTGATTATGCAGTTTTAACCTCTACTTTCAAATATTTTTTATCTCTATTTTATTTATATGAATTTTATTATATGCTAAATATTAATTAATAATTCTGGTTTCTTTTGTAGAGTTTTGAAGTCTAAAGATGAAATTGGAGTCGGAATAGAAATCAAGATTCAACTAGTACAAGAGATTCAAAAGGATTTTGTAATTTTGTTAGAATTTTGTAAAACTTATTATTGGAATCTTTGTTTACTTAAAATGATACGTAGAATCTTGTTGAATATGTTTTGACGGCTAGACATTGTCTTTTAAACTTCAAAAGTAGATGCTATGTATGTGATTACCTATTTAATGTTGTTGCAAAAGTATATACTATATTAGGTTTGTTGCAAACAAGTTTGAGGCACATAATTTCATTGTTCTTTTTCTCAAATCAAGGGGTAGTGTAAAAAAGAAAGAACATAACTGGTTCATTTCGGTTTGGTTTTTGTCCCTGCTGAACCGAACTGAACCGCCATTTTTTCATCCCTGCAAATGAGTATCAGTCTGCTCATTGCAGTTGTTTAGACGATTCGAGTGAACAATAACTCTTAAGTTTGTTTTGATGCTGGTGTGGCGTGATTCCAAATGTGCTCTTAAAATTCTATGCATGTCGTAATGGACAAAGTATGAATTGATGGAATTGTCTGAGGATATTAATCTATTCTGATTAGTGATTAGTAAGTCCATAGCGTGTTTTCTTTTCTAGTTTTTGTAAAATAATGCGTGGCCTTGGCTGTGTCCATGCATCTTATTCCGCTAGGTTTTAGTCATGTTCATATAGTGAAAAAACTCAAGTTAGAAAGATGAATTTTGTATGATCAAATTGTAAATGGAGCGAACTATAGCAGCTATATGGATAGCAATTAACTAACGTCTGAATGGTGCTTATCCATGTTGTTATACTGTTTTATACCATGTTGAGACGCTTAACTTTTATCCAGAACTGATGCATGTTAAATTTTCAATTCACATTGCAGGAAAGTGAAGTGATTTTGAGGAATTTTCCCAATGGCAAAGAATCAGTCTTTTTTTATAAAAGACACTATCCACAAATTGCAGCTTGCACTCCTTGAGGGCATTCAAAATGAGAACCAGCTATTTGCAGCTGGGTCTCTAATGTCTCGCAGTGACTATGAAGATGTGGTGACTGAGCGGTCTATTTCTAACCTCTGTGGATATCCATTATGCCATTCTAATTTGTCGCCTGATAATACTAGGAAAGGCCGGTACAGAATTTCATTAAAAGACCATAAGGTGTATGATTTACAAGAGACGTATAAGTACTGCTCTTCTACTTGCCTCATTAACAGCCGTGCCTTTGCTGGAAGATTGCAAGAAGAGAGGTGCTCGGTTATGAATCCTGAGAAACTTAAAGAAATTCTGAGGCTGTTCGAGAATCTGAGTTTTGATTCCAAGGAAAATATGGGAAATAATTGTGATTTGGGCCTATCAGACCTTGAAATTCAGGAGAAGGCAGAAAGCAATGTTGGAGAAGTTCCTATTGAAGAGTGGATGGGACCATCAAATGCAATTGAAGGCTATGTGCCGCACAGAGATCATAAGACCAAGACTTCACCCAGTAAAGATGGCAAAGAATCCGAGAATGGTAACTTCTTTTCAATTTATTTTCTAGTATGCCCAAGGTTTACTGTATCTGATTGTTGAATTCCATATTGGAGAAGCTTATGCATTCAAAAGATCTTTCTAGCAAAAGAAAATTGTTCTTAGAATGCTAAAATGTAGAAGTTGAGTGGAACTACAGATTTATTTACATCGGTGGTTATAAGTGAGATTAAGTACTCTGTCGTAGGGTCTATAAAGCTAAAAGTAATGAATTGGGGTTTTTCTACTATGTTGATAAAAAAAACGAAAAAAAAAGAAATAAAGAAAAGAAAGGGAAAAAGGAAAAAGGAAGAAAGAGTAAAACAGTGTATTTATATGTACCTGTTTGTTAAATTGAGTTTTGATGCTCTATTTTAGGTTCTAAAGCTAAAATTAAGCCACTGGACGGTGGAAAAAATTTCTTCAGCGATCTGTCCTTCACCCGTACTATAATCACAGATGAAGAGTATAGTGTTTCAAAGATATCGTCTGGTTTGAAAGAGATGACTTTTGATACTAAGTTGAAGGCACAAACAGGAGAGTCAAAGGAACAATTCACCATTTTGGAAACACCATCCGCTGCAGCTCCCGTGAAAAACAGTGTTGAACAGAAACCAAGAGGATTAAAAGAAAGGAATAAAGTATCAGCCAACGGAAAAAGTACTACTAATTTGTCTGATGCTCCTTCAACTTCAAACCAGTGTGATACTAGTTGCAATTTAACGACAGAACCAAATGGTGGATCCAGTGATCTTAGTGGAACCCAGATCAAGCCCTCCCTTAAACAACCAGGCAAGAAAAACTTGCGTCGCTCTGTAACCTGGGCAGATGAAAAAATCGATGACACCAGTATCAGCAACCTTCCAGAAGTCAGAGAAATTGGGAAGACAAAGCATAATTCTAGAGTCACAAGCAATTTGGCAACTGTCGACAATGATAATGAGGACATATTACGTATTGAATCTGCTGAAGCCTGTGCAATGGCACTGAGCCTAGCAGCTGAAGCGATAAATTCTGGGCAAAATGTGGTGTCTGATGCAGGTATTCTACTATATGCATGATGATTGAGGTTAGTTATTGTACTACATGCTATAAAGATAATGTTACTTGTTTGGCCATTAGATGAGCTCTACCCCTGAAATTATTTCTAGATATCCAATTCCAAATTTTGACACACAAATCAATTATGGATCTAATTTTTTTGTCACTCCAGTTATTATTAGCATCAATATATATCATCTTTTTTACCTCTGTTATTCTTTTGCCTTGAAATAATGAAATTTCTGTAAAAAAACAATAGTGGCTCTTACTGGTTGTGAAAATTTGATTTATGAACGAGAACTAGATAGTTACTCAAATATTTTTTCCTTCTGTGCTCTGTTCTTTGTAATATCTCAAGGAATTTCATAGTTTTTCTGTGTTTGGTTCGTAATATTCAGTTTCGAATGCTGGAATTATTATATTGCCACGTCCAAGTGATGCCAACGAAGAAGCATCCATTAACGGTGATGATTTACCTGTACCACATTCAACCCCAGAGAGGCCAAACAAACCTGGGACATTACATTCTGATCTCTTTGATCCCAAAGACTCTTGGTATGATGCACCTCCAGAGGGTTTCAGCCTAAGTGTAAGCATTTTTTCCATTTTATTTCTCATTTTTCATTTTTTATGTACTCTTTTCTTCCTAACCTCAAATGTTTTTGTTTTTAGTTATCTTCTTTTGCAACTATGTGGATGGCAATTTTTGCATGGGTAACATCGTCTTCCCTGGCCTACATATATGGAAAAGATGAAAGTTTTCACGAGGAGTTTCTATATATTGATGGGAGGGAGTATCCTAAGAAAATAATTTCTGCTGATGGTCGATCTTCTGAAATCAAGCAAACACTTGCTGGATGTCTAACACGGTCAATACCAGGACTTGCTTCTGAACTCAAGCTATCAACCCCAATATCAAGTTTGGAGCATGGAATGGTATTGATGAAATAATATGAGACTCATGTTCTTTTTTTCTCAATAAGTTTTGTTGGTGATAATTGAAAATTTACATTATGGGTTTGCATATGCAGTGCCGATAATTATTATTTTCATTGTGTTAATATGTATATTTAGTATCTGTGGAAATTCTTGGTTTTGACACTTAAAAACACCGGCAACTAGTTAGGAAAATTTTTATAGGAGAAAATAGTGGACGTTGAATTAGATTCTCCTGAGGAGTAAGTTCTTAGGAGAAATGTCATCTGGAGTCCTCTTGGTTCATTAGGTTATAGAGATATTAGAAGGAGCGGAAACAGAGTTTAACTTATAAACTTCTTTTGGGACTTCTTTACTTTCTCCATTTCCAGATGCACTGCTCGTGAAAAGGATTTTTCTATTATTACCCCTTCTTGATAGGTTTCAAAGTTTTTTTTTGTTTAATTACTTTTTTTGGGTTAAAAGTCCTTCCGGATGATTTCCTATCTCCTAATCCTTGTAGTAGTGGACCTTTTGTATTACTGGTGTTATTGATACAAGTTTCTTTCGACGTACGGCGTGTGAGTGGTGATTCAGTAGGTTGGGTCGACTGGCTGGGTACTTGGGCATCAAACTGTCGGCACGGCTCCTCCTCATTGATTCGATGTGCCCCAAAGTAGTAGTATTTCGAGCGGCCGCTATGTGGATCAAAAAGGAAAAAAAAATTGATACGAGTTTCTTTTCCCTACGAAATATGTTATCATTGTGCTGCTGTTAATCCAGCTTTTGCAAATGAGGGACGTTGGTTCATCTTGTGCAGGGGCAATTGTTAGAGACTATGACTTTCCTTGATGCACTTCCAGCATTCAGAATGAAGCAGTGGCAAGTAATTGTTCTCCTATTTATAGAAGCTCTATCTGTTTGCCGGATCCCTTCAGTTGCCTCTCAAATGACGAATAGTAGAAGTTTGTTTCACAAGGTTTGTCTCAATGTAATGTGCTCACTTGCGTAGAATTGAATGTTTATTTTGCACTAGGTGTTAAAGTAAGCCAATAAGGGTCTAAGGGTTCAAAATGATAGTGTAGATAATCTAAAACATGCTTAATTTGTCATCTAGTTGATGCCATTTTCCAAACCTGTATTATAGGATCTTTCGAATTATATGTGCATTCGTAGAATTGATATCAACTTATGCTCAGGAAAATTTGTTTTGCCTTTGTTTTTGTTTTTTTTTTTTTTGCAGATGAGAGATATTTACTTCTTGATTCTAATGGTGTATTTTCTTGAAAATATTATTTGAAGTTTTTAATTATTATTCCTTTCTGTCCTAAATTTGAAACTTGTACTATTATATTGTTTAGTTCTCATACAAATGCTTTTATATTATATAATTTAATTAAAATAACCTCTAAAGTTCATGTTTGTCTTTAAACTCTGGCTTAAAGGAATTCTAAATACTCGTGCTACATACAACTTCATGTGATGCTCCAGGGCTTGGTCCTTACTCCTGAGGTTCCCAGAGTGCTATAATCATCATATATATTCTGTAATTATAATTATATAGAATTACTTAGACTTGTGTATTCTAGAATAGTCCACATATGTCTCGATGGGTAAGACTAAACAATCTGCTTCTGGGATGATGAGACATTGAGGTATATTGGAGGGGGGGGGGGGGGGGGGGGTCTTTGGAAACCGCAAGAAAGACTCTATTGAGACTAGACCTCATGGAAGCATAAGGATATTCTATCAATTGTGAAACAAAAACAACAGTGGTTCATCCCAGCTGAAGTTTGGTTACCCACTTCCTTGGCGTCCCCAATAGCGGTGCATATTGACCCTTTCTTTGTCTTAAAAGATCGCTTTGGCTATATCGCTGATAGTTCAAATCTTTCTATCTACTGTATGTCTCTGTGCTTCTAAGGTGATCAATTCCATAGAGAAAATGTCTATAAAAGCTTCCTTTGGAAAGGAAATTGTGATTCGGGTCTTCACCTTGTTAGATGGTACAAAAATTTCCTCCCTATCGAGGATGGTGACTTAGGTCTCCATAGGCTTAGAGACAAGAGAAAAAAGGCCCTTTGGAGGAAAATTGTTGATGCAAAGTATGTGGCCTCCTTATTCCTTGTTGAATAACAAGCTGGGAAATCACTACTACTGCTAAAGGTCCGTTAGCCTCTGCTCTTCCATATCTCTCAAAAAGCAAGTCTCTAGTAAAGATATGTGGGTGGAAGAAAACGACATATGGAACTTGGGTTTGAGAAGGAATCTTAAAGGATGTTGAAATCAAAGAATGGACAGAAATATTCCACCTTTCATCAGTACACTTGACCCAAACAATGTAAGGACTTGGAAGGTTGATAAAAATGGCTTCTTTTCTACAAACTCCCTTCTACGGTACATTTCTCTCAGATTACCAAACCATAACCTTCTTTATATGAATCTATTTGGAAGGAGCATTATTCAAATAAAGTTAAATTTTTCCTAGGGGAACATAGCCACTCCTAGGATGCCATACATGAGAATCTCTCCCTAATGGTGTGTCATTTTCAAAAGCAATACGGAATCATAGAGCTACTAATTCCTCACATGTCAAATGCATCTTTTTTTTTTTGGGAGAGACCTCTTATCCTTGTTCAATAATCAATTGGTCCACGGCCTTCCCCCAACGATCCATCCCTTTTACTATTTTTCACTCTTTCAGTCATCTGTTTAGAGAGGAAAAAAGCATCTTTGGCAACACATTGTTCAGGCTTATTATTGGATGACTTGACTAGAAAGAAATCAAAGGATCTTCAATGATAAAGAGCTAACTTTTGATCGTTTTTAAGAAGCTATAGTTTTTTTGTTGCCATCTCCGGGTGTAAATTGTCTCCCACATTTCATTTTTTTTATTTTTTTTTATTTTGCAACTCCCTTGAATTTTGGGGCTTCTCCCCCATGTTGTAATTTCATAAATCAATGAAATTGTTTCTTATAAAAAAATAAGTCACATGAAGTTTTTAAAGATTGTGTGCACCTAGATGGAACTTTGTAGGAGATCCTTTTGTTGGTCCAAATTGATCATGTGAGTTGGGGTTGGGATGTGTAGCACTACAAATACGAGACATCTCCATTTTCAAACCTTCCAAGTAATCAGCCTCGTGTAATAGTTTAGTTTATTTTTTGATTGTAAACCGGCTTTCATTGAGAAAAAATGAAAGAGAACAAGTACAAAGGGGCATACAAAAAGACAGCCCACCCATGGAGTCTGAAAGCTAACTATACAAGAAGGGATTCCAATTCAAAGAAATAAGGCCTAATGAGTAAGAACAAAACTCGAGGCTCTTTTAGCCAAGTGGAGCTGGAGATTTCTTTCGGAAGAAACTGCCCTTTGGAGGAGAGTGATTTTGGCAAATATGCCTTCTCCGACCACTGGAATTCTCATCCAAACCGGATTTTTGCTTCAACAAAAGGTTTATGGAGAGACATTGACAAGCGGAAATCCTTGATCTTTGACAGAATCACTTATAAAGTGGGTACAGGCTTTCTCCCAAGGTTCTGGATTGATGTTTGGCTCACCAGAGAACCCCTCTGTCAAGCCTACCCCCTTCTATTTTCCTTACACTCCAGAAAGTTGGGCTCTGTACAAGATTTTTGGTCCTCGTCGGATAACAATTGGGACATCCAATTTCGAAGGCACCTAAAGGATGCTGAGATTGATGAGCTAGCATCTTTCCTCCACAATCTTTCCTCCATCAGCCCTTCTACCAATCGAGATACTATTATTTGGAGTTTGGAATCACATAGACAATTCACCACCTCCTCCCTCATTAAAGACATCCACCAAACAGCAACATCACAGACAAATTCCTCTCTGTACAGTGCTATCTGGAAAGATCACTACCCAAAGAAGATAAAGTTCTTCCTATGGGAAACTAGTTTCAATGCTATCAATACACAGGAAAAGCTCTAAAGACGTATGCCCTTCATGAATATTTCTCTGCACCCGCAAAAAACATGGCGAATCTAGTTGTCTCTTGTGATTTAACCTCAAGTTTTTGGCAAAAGCTCCTTTCTCTTTTTGGATGGTCGACGGCTTTACCTACCGATTTATCGATGCTTCTGGACTATACCCTAACCGGTCACCCGTTCAAAAGGAAGAAACTTTGCCTTTGGCTTCATTTTGTTTGGACGTTTCTTTGGACGATTTGGTTGGAAAGAAATCAAAGAATCTTCCAAGATAAGGAGCGTTCCCCGCATCTCTTATTTGAATCCATAGTTTTCTTGGTGATATCTTGGTGTAAATGCTCCCCTATATTTCATCACTATAGATAAGAGAGCTTTTTTGTAGCCCAATTTGGGCCCCTTTTGTTATCATATTTCATATATCAATGAATAGTTTCTTGTTCAAAAAAAAAAAAAAAAGAGTAAGAACAAAACTCTTTAGACATCGACGCTGGAATAGAGGTGTTACATCTAGCAAAAGGCCACACCAACTCGGGTGGGAGATCGAAGATTCCTGAAAATTTTGTTGTTCCTTTCCAACTAGAGGCTCCATGTCATTGCAAAAAAACCCATCTGCCAAAGAATCCAGTCGTTGCCACGAAAAGGAGGATTGCGATAACCTCCTCTATCATATCTGAGCAGCCTCTAAGTTTAACCTATGGTGGAACACCTGGAAGAAACAATCCCAAATAGTATGGGCATACTAACAATTTCATAAAAAATGGTTCAGGTTTTCAGCATCCTTGCAAAAAACACACCAAAACAGCCCCACTACCATGGAAGAAGGCCTTAGGAAGGATCCAAAGTGTTCACTTTGCGAAGTAAGTTCCGTGTAATAGTTTATTCTCTTGAGCTATACTAGTCTCTTTCTCAATGTTCTATTTACTTGCTAACCTTCTTAGTCAATCCGCACTTGGACAGTGCTATTCAGGCTCATGTAGGAACTTAAGGCACCTAAAGTATGTCATAAGCGCTGAATGAGTGATTCCAAAATCACTTGGCAACGTACTATTATCTTTCAAATGAAAATCTCTCATTACTTCTATTAAGGTCGGTGATGAATTCATTAGGTATGTATTTCTTTATTATGGCTTTGCGAGTGATTTTGATAGGTAGGAAAAGCCCCAATCAGATTTACTTATCTGAGTAGAAAGGCACCTGAGCCTAAGTGATATAAGAGTGAGGTAGGAAGTTGAGTTGCCCTTGTGGGTATATTTTGCAAGGGGTGTGGCAGGATAGGTGGCCCACTTTTGTACTTCTGTTAGCACATGATTGCTGCCTGGTCGGGGTAAAAGGGTAGTGAATATTTTGAATCGGTATGGAAGAGACTCAAACCTCGCGAGAGCTTTGGGTACTTGTTTGGTTGCTTGCTACTTCTATTCTATTGGCAATTGTCTTTTGTGTTCATTTTAGATGTGTTTTCTTGAATGAATTTTTTAACTTGACATTCTTTTGGGCATTTTCCGAAGAAGTCTCTTTTTTTTTTTAATTTATTGGTTCAATTTCTTGAGGTGAGAAAAGGACTGGCAGTAAAAATCCTACCTAGCCCATTGAGATTACGAATGTATTAACACAAGAACAAAAGAACCGAATAAGGGCAGCAGGGATGTAAAGGCCCCCCGAAAACTAAAACATTAAGGCCTTCCAATCTTGTAGGATCAAGTATAAGCTATAGTTACAAAAGAACTGAGGGTTGAAAATGATCATAGTTTAGTGGTTAAGGCATTTATGCCTTCAAATTTTAACTCCTACATTTGTTGTAACTAAACAAGTTTATAGATATTAAAAAAAGATTCAGAGTGCCGAACAGGGAGCTGTTGGTCTATTAATTTCAAAACTCTTTATTAAATTAGGCTATAAAAAATCTGGAGGTGTGCAATTCTTACAAAATTTTGTACGTTTTGTGGATGGAGCACGATAATGAGATGCATGCTAATTTTGGCTAATTTGCTGTTTTTCTGGTCTACTATTTGTCTTGATAGAAACAATTTGTCTTCGATTCTGATTTAAAAGATGAACTAATGATGATTGCTCTTCACAGTTTTGATTCAAGAGGCATTGTGTTTTAGTTACTATTGTCAATCTCTGAGTGTTTTGTTTATTTAGCAATAGATGTCCCGGTGCCAGTATATATTTGTGCCACGTTAAGGCTCTTAAATTTGTTTATTTAGAACTTGGGAAACTTCTGATGATATGCCATATTCCCTTGGTTCTTAAATTGTTATATTTTGACATCCTGCTCTCGTGTATGTAGGTGCTTGATCGTGCTCAGATACGGTCCGATGAGTACGAGGTTATGAAAGATCATATCTTACCGCTTGGTCGAGTACCTCAATTTTCATCACAGAATGACGCCTAGAGGACAAAAACTTGCATCTTCAACCAAAACGTCAGTAGTACACTTGAGACAGATTTAAATTTCTGGCATTGGCAGGGTTGATATTTCGATTCGTGTCGATGTTCAATTCCCAGAGGGTCCGATCCAATTCACTCTGTGTAATAATCAGTAACTGTATATATTTCACTCTATTTTTACGGGTAGGTACTTATTGGTATTTTTTCGGGAAGAATTAGTTCGACCTCCAGGCGGGTCAGTGTTGGTTGATAATGTAAAGATTTTCTTCAAGGACTGGTTATAAACAGGTGTGGTCTCTGTGCCATTGTGGTGATTTTTACCTTGTTATTTTTGAACAACTCAACCCAAAACCACATTTTCTCTGTTTGACCCCTTTTTGTCCCAAAATTTTGAGGTTTTATTAGAGAATATTATAAATATCACACTATTATTACGGTTATTTGGAGCTTTGATTTATTTTAAACCTTTTATAGG CTCTGATTCTCTTTCGTGATATGTAATCTTTCTGAATTTTTCTTGAGGCGTTGTATGCAAAAGTATTTATCAACGCCTGCTTTTACTTACGAAACTCTCCTCCTTGACTTGGTGTAGAATATCAGTCTACTTTTTTTTCAAAGTAGGAGTGAAAGAAACCGAATCGAATCGAGCTGGTTCGGGTAACTGAATTGAAGTCGAAGCGGACCGAAAATGGCCGGTTCGATTCGCTTTCTTTTTCTTTTAAAGCAGGGTTTCCTTTTAAAACACCAGCGCCGTCCCCCTTCTTCCATCAGTTCACGACCCACGACTCCCCCCTCTCCTCTCGTTCTCTGTGACCATCTCCGGCGGCGGCGACGCTCTCTGTGAACGACCCAACGGCGGCGACGACGACGAGTTCTTCAATCCCCCACCTGGGTCTTCTTCAACAGCTTGGACTCTCGTTTTCCGCCAAAATTTATAAAGGAAAGTGAAGTGATTTTGAGGAATTTTCCCAATGGCAAAGAATCAGTCTTTTTTTATAAAAGACACTATCCACAAATTGCAGCTTGCACTCCTTGAGGGCATTCAAAATGAGAACCAGCTATTTGCAGCTGGGTCTCTAATGTCTCGCAGTGACTATGAAGATGTGGTGACTGAGCGGTCTATTTCTAACCTCTGTGGATATCCATTATGCCATTCTAATTTGTCGCCTGATAATACTAGGAAAGGCCGGTACAGAATTTCATTAAAAGACCATAAGGTGTATGATTTACAAGAGACGTATAAGTACTGCTCTTCTACTTGCCTCATTAACAGCCGTGCCTTTGCTGGAAGATTGCAAGAAGAGAGGTGCTCGGTTATGAATCCTGAGAAACTTAAAGAAATTCTGAGGCTGTTCGAGAATCTGAGTTTTGATTCCAAGGAAAATATGGGAAATAATTGTGATTTGGGCCTATCAGACCTTGAAATTCAGGAGAAGGCAGAAAGCAATGTTGGAGAAGTTCCTATTGAAGAGTGGATGGGACCATCAAATGCAATTGAAGGCTATGTGCCGCACAGAGATCATAAGACCAAGACTTCACCCAGTAAAGATGGCAAAGAATCCGAGAATGGTTCTAAAGCTAAAATTAAGCCACTGGACGGTGGAAAAAATTTCTTCAGCGATCTGTCCTTCACCCGTACTATAATCACAGATGAAGAGTATAGTGTTTCAAAGATATCGTCTGGTTTGAAAGAGATGACTTTTGATACTAAGTTGAAGGCACAAACAGGAGAGTCAAAGGAACAATTCACCATTTTGGAAACACCATCCGCTGCAGCTCCCGTGAAAAACAGTGTTGAACAGAAACCAAGAGGATTAAAAGAAAGGAATAAAGTATCAGCCAACGGAAAAAGTACTACTAATTTGTCTGATGCTCCTTCAACTTCAAACCAGTGTGATACTAGTTGCAATTTAACGACAGAACCAAATGGTGGATCCAGTGATCTTAGTGGAACCCAGATCAAGCCCTCCCTTAAACAACCAGGCAAGAAAAACTTGCGTCGCTCTGTAACCTGGGCAGATGAAAAAATCGATGACACCAGTATCAGCAACCTTCCAGAAGTCAGAGAAATTGGGAAGACAAAGCATAATTCTAGAGTCACAAGCAATTTGGCAACTGTCGACAATGATAATGAGGACATATTACGTATTGAATCTGCTGAAGCCTGTGCAATGGCACTGAGCCTAGCAGCTGAAGCGATAAATTCTGGGCAAAATGTGGTGTCTGATGCAGTTTCGAATGCTGGAATTATTATATTGCCACGTCCAAGTGATGCCAACGAAGAAGCATCCATTAACGGTGATGATTTACCTGTACCACATTCAACCCCAGAGAGGCCAAACAAACCTGGGACATTACATTCTGATCTCTTTGATCCCAAAGACTCTTGGTATGATGCACCTCCAGAGGGTTTCAGCCTAAGTTTATCTTCTTTTGCAACTATGTGGATGGCAATTTTTGCATGGGTAACATCGTCTTCCCTGGCCTACATATATGGAAAAGATGAAAGTTTTCACGAGGAGTTTCTATATATTGATGGGAGGGAGTATCCTAAGAAAATAATTTCTGCTGATGGTCGATCTTCTGAAATCAAGCAAACACTTGCTGGATGTCTAACACGGTCAATACCAGGACTTGCTTCTGAACTCAAGCTATCAACCCCAATATCAAGTTTGGAGCATGGAATGGGGCAATTGTTAGAGACTATGACTTTCCTTGATGCACTTCCAGCATTCAGAATGAAGCAGTGGCAAGTAATTGTTCTCCTATTTATAGAAGCTCTATCTGTTTGCCGGATCCCTTCAGTTGCCTCTCAAATGACGAATAGTAGAAGTTTGTTTCACAAGGTGCTTGATCGTGCTCAGATACGGTCCGATGAGTACGAGGTTATGAAAGATCATATCTTACCGCTTGGTCGAGTACCTCAATTTTCATCACAGAATGACGCCTAGAGGACAAAAACTTGCATCTTCAACCAAAACGTCAGTAGTACACTTGAGACAGATTTAAATTTCTGGCATTGGCAGGGTTGATATTTCGATTCGTGTCGATGTTCAATTCCCAGAGGGTCCGATCCAATTCACTCTGTGTAATAATCAGTAACTGTATATATTTCACTCTATTTTTACGGGTAGGTACTTATTGGTATTTTTTCGGGAAGAATTAGTTCGACCTCCAGGCGGGTCAGTGTTGGTTGATAATGTAAAGATTTTCTTCAAGGACTGGTTATAAACAGGTGTGGTCTCTGTGCCATTGTGGTGATTTTTACCTTGTTATTTTTGAACAACTCAACCCAAAACCACATTTTCTCTGTTTGACCCCTTTTTGTCCCAAAATTTTGAGGTTTTATTAGAGAATATTATAAATATCACACTATTATTACGGTTATTTGGAGCTTTGATTTATTTTAAACCTTTTATAGG ATGGCAAAGAATCAGTCTTTTTTTATAAAAGACACTATCCACAAATTGCAGCTTGCACTCCTTGAGGGCATTCAAAATGAGAACCAGCTATTTGCAGCTGGGTCTCTAATGTCTCGCAGTGACTATGAAGATGTGGTGACTGAGCGGTCTATTTCTAACCTCTGTGGATATCCATTATGCCATTCTAATTTGTCGCCTGATAATACTAGGAAAGGCCGGTACAGAATTTCATTAAAAGACCATAAGGTGTATGATTTACAAGAGACGTATAAGTACTGCTCTTCTACTTGCCTCATTAACAGCCGTGCCTTTGCTGGAAGATTGCAAGAAGAGAGGTGCTCGGTTATGAATCCTGAGAAACTTAAAGAAATTCTGAGGCTGTTCGAGAATCTGAGTTTTGATTCCAAGGAAAATATGGGAAATAATTGTGATTTGGGCCTATCAGACCTTGAAATTCAGGAGAAGGCAGAAAGCAATGTTGGAGAAGTTCCTATTGAAGAGTGGATGGGACCATCAAATGCAATTGAAGGCTATGTGCCGCACAGAGATCATAAGACCAAGACTTCACCCAGTAAAGATGGCAAAGAATCCGAGAATGGTTCTAAAGCTAAAATTAAGCCACTGGACGGTGGAAAAAATTTCTTCAGCGATCTGTCCTTCACCCGTACTATAATCACAGATGAAGAGTATAGTGTTTCAAAGATATCGTCTGGTTTGAAAGAGATGACTTTTGATACTAAGTTGAAGGCACAAACAGGAGAGTCAAAGGAACAATTCACCATTTTGGAAACACCATCCGCTGCAGCTCCCGTGAAAAACAGTGTTGAACAGAAACCAAGAGGATTAAAAGAAAGGAATAAAGTATCAGCCAACGGAAAAAGTACTACTAATTTGTCTGATGCTCCTTCAACTTCAAACCAGTGTGATACTAGTTGCAATTTAACGACAGAACCAAATGGTGGATCCAGTGATCTTAGTGGAACCCAGATCAAGCCCTCCCTTAAACAACCAGGCAAGAAAAACTTGCGTCGCTCTGTAACCTGGGCAGATGAAAAAATCGATGACACCAGTATCAGCAACCTTCCAGAAGTCAGAGAAATTGGGAAGACAAAGCATAATTCTAGAGTCACAAGCAATTTGGCAACTGTCGACAATGATAATGAGGACATATTACGTATTGAATCTGCTGAAGCCTGTGCAATGGCACTGAGCCTAGCAGCTGAAGCGATAAATTCTGGGCAAAATGTGGTGTCTGATGCAGTTTCGAATGCTGGAATTATTATATTGCCACGTCCAAGTGATGCCAACGAAGAAGCATCCATTAACGGTGATGATTTACCTGTACCACATTCAACCCCAGAGAGGCCAAACAAACCTGGGACATTACATTCTGATCTCTTTGATCCCAAAGACTCTTGGTATGATGCACCTCCAGAGGGTTTCAGCCTAAGTTTATCTTCTTTTGCAACTATGTGGATGGCAATTTTTGCATGGGTAACATCGTCTTCCCTGGCCTACATATATGGAAAAGATGAAAGTTTTCACGAGGAGTTTCTATATATTGATGGGAGGGAGTATCCTAAGAAAATAATTTCTGCTGATGGTCGATCTTCTGAAATCAAGCAAACACTTGCTGGATGTCTAACACGGTCAATACCAGGACTTGCTTCTGAACTCAAGCTATCAACCCCAATATCAAGTTTGGAGCATGGAATGGGGCAATTGTTAGAGACTATGACTTTCCTTGATGCACTTCCAGCATTCAGAATGAAGCAGTGGCAAGTAATTGTTCTCCTATTTATAGAAGCTCTATCTGTTTGCCGGATCCCTTCAGTTGCCTCTCAAATGACGAATAGTAGAAGTTTGTTTCACAAGGTGCTTGATCGTGCTCAGATACGGTCCGATGAGTACGAGGTTATGAAAGATCATATCTTACCGCTTGGTCGAGTACCTCAATTTTCATCACAGAATGACGCCTAG MAKNQSFFIKDTIHKLQLALLEGIQNENQLFAAGSLMSRSDYEDVVTERSISNLCGYPLCHSNLSPDNTRKGRYRISLKDHKVYDLQETYKYCSSTCLINSRAFAGRLQEERCSVMNPEKLKEILRLFENLSFDSKENMGNNCDLGLSDLEIQEKAESNVGEVPIEEWMGPSNAIEGYVPHRDHKTKTSPSKDGKESENGSKAKIKPLDGGKNFFSDLSFTRTIITDEEYSVSKISSGLKEMTFDTKLKAQTGESKEQFTILETPSAAAPVKNSVEQKPRGLKERNKVSANGKSTTNLSDAPSTSNQCDTSCNLTTEPNGGSSDLSGTQIKPSLKQPGKKNLRRSVTWADEKIDDTSISNLPEVREIGKTKHNSRVTSNLATVDNDNEDILRIESAEACAMALSLAAEAINSGQNVVSDAVSNAGIIILPRPSDANEEASINGDDLPVPHSTPERPNKPGTLHSDLFDPKDSWYDAPPEGFSLSLSSFATMWMAIFAWVTSSSLAYIYGKDESFHEEFLYIDGREYPKKIISADGRSSEIKQTLAGCLTRSIPGLASELKLSTPISSLEHGMGQLLETMTFLDALPAFRMKQWQVIVLLFIEALSVCRIPSVASQMTNSRSLFHKVLDRAQIRSDEYEVMKDHILPLGRVPQFSSQNDA Homology
BLAST of MC05g0889 vs. ExPASy Swiss-Prot
Match: F4K1B1 (Putative RNA polymerase II subunit B1 CTD phosphatase RPAP2 homolog OS=Arabidopsis thaliana OX=3702 GN=At5g26760 PE=2 SV=1) HSP 1 Score: 452.6 bits (1163), Expect = 7.6e-126 Identity = 306/770 (39.74%), Postives = 420/770 (54.55%), Query Frame = 0
BLAST of MC05g0889 vs. ExPASy Swiss-Prot
Match: A2Y040 (Putative RNA polymerase II subunit B1 CTD phosphatase RPAP2 homolog OS=Oryza sativa subsp. indica OX=39946 GN=OsI_18345 PE=3 SV=1) HSP 1 Score: 347.4 bits (890), Expect = 3.5e-94 Identity = 258/722 (35.73%), Postives = 378/722 (52.35%), Query Frame = 0
BLAST of MC05g0889 vs. ExPASy Swiss-Prot
Match: Q6AVZ9 (Putative RNA polymerase II subunit B1 CTD phosphatase RPAP2 homolog OS=Oryza sativa subsp. japonica OX=39947 GN=Os05g0134300 PE=3 SV=1) HSP 1 Score: 347.4 bits (890), Expect = 3.5e-94 Identity = 259/722 (35.87%), Postives = 383/722 (53.05%), Query Frame = 0
BLAST of MC05g0889 vs. ExPASy Swiss-Prot
Match: F6RRD7 (Putative RNA polymerase II subunit B1 CTD phosphatase RPAP2 OS=Bos taurus OX=9913 GN=RPAP2 PE=2 SV=1) HSP 1 Score: 70.1 bits (170), Expect = 1.1e-10 Identity = 44/132 (33.33%), Postives = 68/132 (51.52%), Query Frame = 0
BLAST of MC05g0889 vs. ExPASy Swiss-Prot
Match: Q5RA37 (Putative RNA polymerase II subunit B1 CTD phosphatase RPAP2 OS=Pongo abelii OX=9601 GN=RPAP2 PE=2 SV=1) HSP 1 Score: 59.3 bits (142), Expect = 1.9e-07 Identity = 86/331 (25.98%), Postives = 139/331 (41.99%), Query Frame = 0
BLAST of MC05g0889 vs. NCBI nr
Match: XP_022145788.1 (putative RNA polymerase II subunit B1 CTD phosphatase RPAP2 homolog [Momordica charantia] >XP_022145789.1 putative RNA polymerase II subunit B1 CTD phosphatase RPAP2 homolog [Momordica charantia]) HSP 1 Score: 1287 bits (3330), Expect = 0.0 Identity = 659/659 (100.00%), Postives = 659/659 (100.00%), Query Frame = 0
BLAST of MC05g0889 vs. NCBI nr
Match: XP_038893419.1 (putative RNA polymerase II subunit B1 CTD phosphatase RPAP2 homolog [Benincasa hispida]) HSP 1 Score: 1066 bits (2758), Expect = 0.0 Identity = 552/665 (83.01%), Postives = 593/665 (89.17%), Query Frame = 0
BLAST of MC05g0889 vs. NCBI nr
Match: XP_022955995.1 (putative RNA polymerase II subunit B1 CTD phosphatase RPAP2 homolog isoform X1 [Cucurbita moschata]) HSP 1 Score: 1038 bits (2684), Expect = 0.0 Identity = 538/665 (80.90%), Postives = 583/665 (87.67%), Query Frame = 0
BLAST of MC05g0889 vs. NCBI nr
Match: KAG6581990.1 (putative RNA polymerase II subunit B1 CTD phosphatase RPAP2-like protein, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 1035 bits (2675), Expect = 0.0 Identity = 537/665 (80.75%), Postives = 582/665 (87.52%), Query Frame = 0
BLAST of MC05g0889 vs. NCBI nr
Match: XP_022980004.1 (putative RNA polymerase II subunit B1 CTD phosphatase RPAP2 homolog isoform X1 [Cucurbita maxima]) HSP 1 Score: 1033 bits (2672), Expect = 0.0 Identity = 535/665 (80.45%), Postives = 584/665 (87.82%), Query Frame = 0
BLAST of MC05g0889 vs. ExPASy TrEMBL
Match: A0A6J1CWB1 (RNA polymerase II subunit B1 CTD phosphatase RPAP2 homolog OS=Momordica charantia OX=3673 GN=LOC111015168 PE=3 SV=1) HSP 1 Score: 1287 bits (3330), Expect = 0.0 Identity = 659/659 (100.00%), Postives = 659/659 (100.00%), Query Frame = 0
BLAST of MC05g0889 vs. ExPASy TrEMBL
Match: A0A6J1GWL9 (RNA polymerase II subunit B1 CTD phosphatase RPAP2 homolog OS=Cucurbita moschata OX=3662 GN=LOC111457827 PE=3 SV=1) HSP 1 Score: 1038 bits (2684), Expect = 0.0 Identity = 538/665 (80.90%), Postives = 583/665 (87.67%), Query Frame = 0
BLAST of MC05g0889 vs. ExPASy TrEMBL
Match: A0A6J1IY57 (RNA polymerase II subunit B1 CTD phosphatase RPAP2 homolog OS=Cucurbita maxima OX=3661 GN=LOC111479539 PE=3 SV=1) HSP 1 Score: 1033 bits (2672), Expect = 0.0 Identity = 535/665 (80.45%), Postives = 584/665 (87.82%), Query Frame = 0
BLAST of MC05g0889 vs. ExPASy TrEMBL
Match: A0A1S3BXZ9 (RNA polymerase II subunit B1 CTD phosphatase RPAP2 homolog OS=Cucumis melo OX=3656 GN=LOC103494620 PE=3 SV=1) HSP 1 Score: 1007 bits (2604), Expect = 0.0 Identity = 528/665 (79.40%), Postives = 572/665 (86.02%), Query Frame = 0
BLAST of MC05g0889 vs. ExPASy TrEMBL
Match: A0A0A0KVU3 (RNA polymerase II subunit B1 CTD phosphatase RPAP2 homolog OS=Cucumis sativus OX=3659 GN=Csa_4G009360 PE=3 SV=1) HSP 1 Score: 1005 bits (2599), Expect = 0.0 Identity = 526/665 (79.10%), Postives = 572/665 (86.02%), Query Frame = 0
BLAST of MC05g0889 vs. TAIR 10
Match: AT5G26760.2 (unknown protein; CONTAINS InterPro DOMAIN/s: Protein of unknown function DUF408 (InterPro:IPR007308); Has 35333 Blast hits to 34131 proteins in 2444 species: Archae - 798; Bacteria - 22429; Metazoa - 974; Fungi - 991; Plants - 531; Viruses - 0; Other Eukaryotes - 9610 (source: NCBI BLink). ) HSP 1 Score: 452.6 bits (1163), Expect = 5.4e-127 Identity = 306/770 (39.74%), Postives = 420/770 (54.55%), Query Frame = 0
BLAST of MC05g0889 vs. TAIR 10
Match: AT5G26760.1 (unknown protein; Has 30201 Blast hits to 17322 proteins in 780 species: Archae - 12; Bacteria - 1396; Metazoa - 17338; Fungi - 3422; Plants - 5037; Viruses - 0; Other Eukaryotes - 2996 (source: NCBI BLink). ) HSP 1 Score: 288.9 bits (738), Expect = 1.0e-77 Identity = 191/441 (43.31%), Postives = 263/441 (59.64%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Bitter gourd (Dali-11) v1
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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