Cla97C09G170720 (gene) Watermelon (97103) v2.5
Overview
Sequences
The following sequences are available for this feature:
Legend: exonCDSpolypeptidethree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.ATGGAGATAAGGTGGTTTGGAGATGAAGTTGAGTTTGAAAACGCTGAAGAACTTAAAGCCGGAGCTAGGGTTTCTGAATCTGTCGGAGAAACCGAGAAAGCAAACAATGGAACAATTGTTCACAACAGCAAAAGTAGAACACAGAACTGTCGATTGTTCCATAAAAGCAATTCATAAGTTTTTTTTCTTTTTCTTCCGATAGATTGATGAAGAGTTTAGATAATTAATCCCAAACATTGTCAACAAAGAAAAATAATAATAAGAAACATTTTCTTTTTGAAAAAATCCAGAACAAAACAGAAAAATTATTATAAGTAGAAAAAATATCAAATTATTTACAAATATAACAAAATTTTACTTTTTATCTCGGATATACCATGATAGACCGGTAGAGTTATATATGTTTATTTGGATCTATTGCAGTCTATCACTATACAAAGTAAAATTTCGATATATTTATAATTATTTTTGACAATTATTTTTAAAACATCCCTAATAATAATAATAATAAATATTGTTTTTACAAATATATAAAAATTTGAGCAATAGGTCATGATAGACTATCACTAGGCGATAGACCACACGCTAAAATTTTTTATATTTATAAATAGTTTAATATTTTTTTCATTTATAATAATTTCCCTAAAAAATAACTAAATTATAGAAAATACTTCTATTGTTTTTTAGCACAATAAGGTGGGGATCTAACCTTCTATCTCTAAAATAAAATATTATATCAATTATTGAGGAGCTAATTTGGTAATATTTTCAATTTTAAACTTTATTTAAAAGATGCTTTTCAACTTTTAAAATTTTCAATAATATGCTTAAACTTTAAAAATAAAAAATAATAAAAAAATGCCTTTATGTTATTTTTGGAAAAAAAATGACAATTAAATTGTTTATAAAATATTTCTAAACTTTCCAAAGTTTCAATATAAAAAAAAAAAATATTATTGTTCGGCAAACAAAGAAGAAAAAAGAAAAAGAAAAAGATAAAGAAAAATACATTTTATCGTTGGGTAGAAATCATTAGTACCTTGTTTAAAAAATATGTCTAAATTTTTAAAAGTTGCATTAGTATCATTAACCCTTTAAAAAAACGGTTAAATAATGTCATTTATCTACACTCATCATTCATCCATTTCCTATTTTTACTCTTCTTCAATATATGACCTAACACTCCCTTTTTTTTTTTTTTTTTCAAAAAACCTTAAAACTTAATGTTTTAATAGTTGTTGTATAGTAAGATAAAAAATTTGAGTTTAATACATATAAAGAGAGACACGTTGAAAATTTAAATCATAATTTTGACAGTAACCAATAGGAGTAAAAAGAAAGAAAACACGTGTATTATTAAATTTGTATAGATAAAAACTTTGTTAAGCCTTCTTATTGTTCAAATTAGTCTATTTGATGTGATTAGATGAAAAGGTCCCAAGCTAAAGCGAGTTTAGCTTAGCAGTAATTGACATAACCTTCCATCCTAAAGGTGGAAAGTGGAAGGTAGAAGGTGGATGGAAGGTTCAAATTCCCCAACCCCAATTGTTGTACTAAAAAAAAAATATGAAAAGGTCCCATGACCAAAGATAATATATATATATTTTATTGTTGGCTCTTTTCTATGTTTAGTGATTCTTCATTTTGTTGAGTTTTGATGGGAGATTTTGATATAGATAAATTCATTAGATTTTGTGATATTTTATGCTTTCACTTGAAATTTTGGGCTATGTTTGGTACTTGAGAAAATTAGTATAGGAATTAGAGATTGTCCACCGTGCAGGACAGAGATTGTCCACCTTCAATTTTGTCTATAGATGTTATATGTAAATGTGGGGTGGGAATCAAATATCTTTCTTTTTAAAATGTTAATATAAAATAGCTTTTTTTAGTTCAACAATATATGGAGGTGAGATTCAAACCTTTGACTTTTTAGTAAATGATATAATGTCTTAACCAGTGTTAGGAACATATTATATATGTTATTAAAATTCGTTGACCTATTAAAAAAATTTAGAGACCAATTAAATATTTTTTTAACACATTAAACACAACTTTGAAACTTTAATGAGATAAGTAAATGATGGCTATTAAAATCTAATTACTTACCAAATGGAAACAGAATTCAAAACTCAAGATATAAATATAATATATTGAAATTTAGAAACCAAATGAAAATTAGGCCGAAGATCCTAGATCTAAGAATGAAATATGTGATTTTTGATTCTTTTATTTTTTATCTTGATTTTTAAAAAATTTTTAAAACAATGTTTGACCCCCTTTTGAACGAAAGAGATGAACTTGGAATAGTTTGGATATTCTATGTCACGACGCGTTTAGGGGAATATAAAAATTGTGAAAAAATACTATTTTTTTAAATAAAAAAGTTAAAAGTAATAATATGGAAAAGATTGTAAATTTCCCATTTTTAGCTCCAAATTATTATGAATTTTTTTTTTTAGACAAAAGAAAAAAAACTCCAATTTAATGAAACTAAGAAGAATTTAAACCCAAATCGTTGGCGCATTTTCGGGTTATAAATAATCAGCTCTAAACAATTCCGGCTCCACTCTCCTCCGTTCTGTAACAAAACCGCCAACGATCTACCTCACTTCCTCCGCCGCCGACGAAACTTTACTACCAAATCTCTCCGCCGCCGTTATGGCTACTAGAACTGCAAGACACCTTCTTCACAACTTCCGTAAGTGAAATTTCCTCTTTAGTTCTTTGCTCAATTGGTACTACCTCATCAATATTTGAATTCTTGCATTTGTTTCTTGATTGTTGAATTAGTGCGAGTTTAATGCGTTTTTGAGTTTGTTTGTTATATTGCCTCTTTGGCGGTTTCTTTAATAATTCTTGGAGAATCTTGACACACTATGAAAATGTGATGATTACTGTGCATTTTTTTCTAATTACGCAATCTATAAGCTGCATTGAGAAGAAAAATTGATGTTAGTTTTTGTTACTTTGTTTTTCCGATCTCTTAGTAAGTTAGGATTGATAATTTGTTGATATTGTTTGTGGAAGGCAATGTCTAGAGATTTACTTAATCTATTTCATGATCTTATCTGACTTTGAATTTGATTGGATTCTTTAGGGTTCTTTTATTTATTAATTTTTTAAAATAAATTATAAATCTCTAATTAATGGATTTGAATGTGAATTAACCTTCTGCTACTTTTGTGTCTTGAGAAGGTTTATTCCATGCATAACTGTTAATTAACACGGAAAAGTTAGTATGCCTTACTTGTAGAGGATGTTATTCTAATTGTATATCTATATTATTCAACTAGCTAATGAGGGGGATGGAAATGAACTTTTCCCTCTTCTAGTTATGATCTAGTATGGAAATCAAGGGTTTTGGTTCTTATGATTTAGATTTACATTGATGAATGATTCTGATCACACTTCTATCTTTTATCATATGTTTTAAAGTGGGTTTCTCTCAGGTATCAAGTTTGGGTTTCATTCATAATTCATAGGTGGTATGGTATTTACGCTTTTTTTTTTCCTCTTCAACCTTGCAGATTATGCCAGAAGTTTTCTTAGGAAACAGGAGTGGCAGGCAAGATCTGTAACTGTGAATAATGTTCTTATGCATTTTCAGAGGTCAAAAGTAGATAAGGTGGAAAAAGGTGTGCATAAAGAAGGTGAAGTTTTACATGAAGTTTCTGTAAGGTCAGAAATGGGGAAGAATGGCAAAAAAGGTTCTAAACATACCAAGCACGTTTCTGACGCTGAAGTTACAACTGATAGTAACCGGAGGTTAGAGCATGCATGGTTGACAAAAGCTCTAGAACCAGCTTCGCAATTGTATAGGTGGGCACTGTCATCAGGTCTGTTTATGTTAGTAGGATTTCTCATCTCTCTTGTAGGCAATCTTTATTTATTTAATTTGATTATTACTTGCTTCCAAGAAAAAATGTACAGATTCAATATTTTATTGCTCAACAAACACAATTTACTTTTTTGTAATTTTCTGTTGATGCACTTCTGTTTGTTCAAGGCAGGTGGTGGCCTATACTATCTGCAAATTGTTTTTGCTTTTCTCATGGTCTTTTTAAAGTTCCAGGATGTATCGAAGTTATAGTCTTGGACCAATTAAGTTTTTGTGACTTACAGGGAATGGAATTCCACCTAGAAGTCGTTCTGTTTCAGAAATCATAGCAAGTATCCAGCGGAGTAAGACAGGAATCCAGGATTGGAGCTTGAGTGATCTTACAATTGGATTATGCCTTATATATCTCCGTCAGGCTGCAGCAAATCCACTGGAGGACCTCAAGGGTGTCCAGATCTCTTCAGATGCGATTGTAATCTGTTATACAATATATGCTCATTGAAATTATGTTTTCGTGTGTCCCTTTTGTCTTCTATTTAAGAATTTTCAAACCCTTATAAGCGTAAATCTGAATTGAAATCTTATTGGCAATGATTTTGTGAACCAGGTCGAAGATCTCATCTACTTCGTTGAACTAGCTGAAGGTTCTTATAAGGATTCTGCAGCTATGCTTGCAAAAACCACCATGCTTAGAGAGTGCAACATATTGAAATTTGTTAAAAATTCCAGTGTTATGAGGCCTGGTTATTATATAGGGGTTGATACAAGAAAGAAACTTGTAATCCTTGGAATTCGAGGAACTCACACAGTGTATGATCTCATCACTGATGTTATTACAACAAGTGGTGGAGATGTCACATCTGAAGGATACTCTATGCACTTTGGCACGTCTGAATCTGCTCGCTGGTTTCTTCAGCATGAGATTGGAATGATAAGAAGATGCTTGGAGAAATATCAGGTGGTATTTATGTTTGCTAAAGTTTTTTTAGCTTATTCTTTACATTCTTCCATCACATTGTCATGGCTGTATCTAACTCATTAACAGGGTTTTAGGTTAAGGCTGGTGGGTCATTCTCTTGGTGGAGCTATAGCTTCGTTATTAGCCGTAATGCTTCGTAAAAAGTCAAATAAGGAGCTTGGATTTAGCCCTGATATTGTTTCTGCCATTGGATATGCAACACCTCCTTGTGTTTCAAGGAAACTTTCTGAGAGTTGTGCTGACTATGTTACCACTGTTGTGATGCAGGTTTGCATTTGCTACATACAGTTCTCATATGTATTCTAACAATAGCCTCCATTTTTTTAAGTAAAATTTTCCTGGAGTTTTATTTTGATAGTTCTTATTTCATTTTGTTGCTTCACTAAGTCTCTGACTTTACTTTGGACAGGATGATGTTATCCCTAGACTGAGTGTAGCTTCCCTAACAAGGTTAAGGATTGAAATTCTACAAACTGATTGGTAAGTTATTATGCTCTATTTGGAAGGCTAAATCTAATTTTCTTCTATGGATGTGCTGAAAATAAATATGGATGTTGAAGGTGTGAAGAGACATTCAAAGCATTCCTAATGATGATTAGCTGGGATTAAAAACTATCCTTGGAAATCTATGGATAAGGCTCTAGGTTAAGGGATCACCTAATCAATTTTATCTTTTACAATGTGATAACCACAATTGTTATACTGCATCTGAATATAGTTGGTTACCGTCTTGTCATAATATCTATTATCTAAAGCATATTACTAATTAATTTATACAGAGTATTACAGCTGATAAATCCAGTTAGGAGTTGGTTTGTGAAATGCGATTCCAATTTCCTTGGGGTATGTATCTTTATGGAATATGTATTAATTGGGTAGTGGACGGGGTAGAATTCACTTAGATTCAAAGAATTTCTTGTGTAAAGATACCCTCCAAACTGCTGTATTTTGTACAAGATTACAAAAAGTCAAAAAGCTAGACGAATTAGAGGACTTATCTTCAAAGGATCTAGCTTTCCTGTTCTTCTAGAGGTGGCACAAAGGAGCAGCTACCCACCACCTTAGTTTCTTTTTCAAATTCCACGCAAAAAGGCCTTCCATCAATCCTTTTAGGGATACAGAAAGATAAGCCCAAGCTTTCATCTAAGAAGTTCCACGAGCCATAAGCAATCACAGTGGAGGAAGAGGTGATCTAAGTCTTGCCTCTTTTAAGCACATTCTTCAACAGTACAACTTGAAGGTGAGAGAGACCACCTTCTAAACTTTCTTTGGAATTGGAATCTACCATCGGTATTCAAACTTTCATAGGCCAAAAGACCAAAGGAACACTTTCACTTTCTTCGGTTTTTTATGCTCTTCCAAATCGATCTAGTCACAGACAAAGCCACCTTAGTAGCCTTAGCAGCAAGAGCAGACTTACATGTGTAAAGTCCGGAACTTTCAAGAGACCACAAAATACGGCCAGCTGCCTCTCCCATCCACACCGAGCTTAACTTTTCCACCAGACCAACCCAACTATGTAATTCTCTATAAAAAAGCCCTCTCCTCAAACCTAAATTCCAAGTTTGGTTATTCCCATTACAGGTTTATGATGTCAAAGTTTGCAATTCAATTGCAGAACTTCTATTTGCTATAGAGATGGTCGATGCTGTCTTTTGAAACTTATGCTCAATTTGCTTCGAGGATGACCAGATTACGGTGTCGATCTAATTTGAAGAGCTATTTTAAGGGATGAAAAATAAAAGATTGAGGAAATGAACATAGCTGATTTTATTTTATTTATTTATTTATTTATTTAATGAGAAACATTCAATCATAGATGATTTCTTGTTATTGAACGAGCTTGAGGGAAAGGTAATCTCAAATTTTCATGTTCAATCTGATTCAGGACGAGTTTGATAGATAAAGAAGACTGGAAAAGTATCATTGGTTTGGTTACAAATGCAAAGCAGGTAGTTACATCAGTACAAGATGTTGCTCGAAAACTTACAGATTATGCAAATTTCACAAGCAAAAAAAGCTCTGGTAAGCGAATCTATTTTCCCTAGTTTGTCTTTTGTTTCGTCTCCAAATATTGCTGTCACAATCTTGCTAATCCTAACGTTCTTAAGTTTAACTTCATGTTTTCCTCAGGCATAAATTAATTGAATATTGTTTTTTTAGTGGGTTTCTGTTAGTTTTGGTCCTAGATTGGGCAAGATTGACCGAGCAGTCGTGATGAAACTTTGTTCCGTGGTCGGTATTTTCTAACAGGGAACTCTATATTTCCAAATAATTCCAAATATAGCTCACACTGATTTAACATCAAAGATCAGCTATACTGCTCTCCATAATAATTCCAAATCCTTTTAGATCTCCTTCTCTTAACAAGTTACTTTCTTCCACAGATGATAGCAATAGAAAAGAGTCACATGTGGCCTCTGGATCTCCTCCTTCACACGCTACCACTGCGCTACAGAGTGCTACCGGTGCTCAAAACGAAGCCGCAAGATGTAAAATTCCGGAGGAACTATTTGTACCAGGGACAGTGTATTATCTGAAGAGGCATACGGATAGTACCGCAGAATACTTCAGTCTGTGGAAGCGGCATCCTGATGAACATTTCCAGCAAATAGTGCTCTCAAGCATCCTCATTTCGGATCATAAATGTGATAGCCACTACTATGCTTTGAGGGATGTGCTTAAAGGCCTGCCATCATGCAGCGATGAAGGTATTTTCTCATAAAGTCCTTTACCAGTCGTACAGTAGCCTAAAAATATAGTGACACAAACAACAATCAAAATAGTAACACAAAGAGAATACATGAGATGGACAACGGGAGGATGTTTTTCTTTTTCGCCATTCGGAGAGCCTTTTTGTTAACTCCGTTGGTCGGTGTATAACCTAATTCTCTGTGTACTTTTCACTCCTTCAATGAAAAGTTTTGAAAATTAAGGTCTCATTTGGTTTTTTATTTTTAGTATTTCAAAATTAAACCTATAACCATTCTTTCTACCTCTAAATTTATTGCTTTCTTAACTATCTTTTACCAATATTTTCAGAAATTAAGTCAAAATTTGAAAACTAAATTTTTTTTTTTAAAAACTTGTTTTTGTTTTTAGATTTTGGTTAAGAATTTGATTGTATAGTTGTTCGAAATGTGAGTAATATAATATTTTTTCCCCTTCAATGTTTTGTACATCAGTATATATACTTTAATATGTTTGAAATTACTTTATTTTATATGGGCCAAAGTGTCCAAGACTAAGAGTTTCAAGAGTCTCAAGACTTGCTGAAAATGTTCTTATAAGGAAAGATCCTTATCCTCTCAAAGTTGATAACCATACACCAATGAATTTCAACATTTTCATGCTTATATATATATATATGATTGGGGTTGAATACTCTGTTATATATATATATATATGATTGGGGTTGGAATACTCTGTTATGTACTCTTTTTAGATTAAAAACAAAAGCTTCATTAGATTATTTTTGAAGTAATGATTATTAGTCCTTAATAGTGTTTAGATTGACTTTCAAGGTGCTTTAAAAGTTGTTTAAGTGAAAAAAAAAGTGTTTTTAAGCACTTGGGAATTAATGCAAACAAACTCTAAATGATTTGGTCATATACTTATAAATTTGTTACGTTTTAGCTTCTAAATTTTAGTATAAAATGATTTTATCTATAATTTGAACGAAGTTAGTTCATAAGCTTTAGTATATATTAGTTTCACATCCTTATAATTTAAAATTTGTAAAAAATGGTTTAGTCCGTATAGAGAAAACTCCAATCAAGGTGAAGTGTACTTTTGATTTTGCCCTTGTGGTTTGTAAACCCATTTAGTTTTTAAGTGGTATATCATCTATATCTATAGGAACTAATTTGTTATAAATTTGAAAGCATTAAAGTTAAAAGAATTGAAATATAGAAAAAAAAAAAAAGGGTACACAAAAAGTGCAAGAAGTTAATGCTCCTCCCTAGAAATAAAAAGAGAGAATCTATGAAAGGACCCAATTGCCTGTACAATTTTCTCACAATGCAAAAATCCCTGTTGATCTCTTAAATTTACACCATTATTATATTTAGCATTTCAAATATGGAGCGGTTTATAATAACCAACTCCATAAACTTCAGGAGGCCCAAATAGGCCCTTAGTCTTTCTAATGTTAGTTTAGTTTCAATTTGGTCTCTACAATTTAGGTATATCTCACGATCTACTTGCATCTCACAAATGATTAAAATGTTAATGTTGATATTGATATCAAGATTTAATTTAACGGATTTATCAATACCCATAGATATTTTTGTAAATAAATAAATATGTGAAAATTATTTAAATTAATAATTGAGTTATTAAATGTTAAGGTTTAATGCAACTTTCGAAAATTCAAGAGTATTGTTGAAGCACGATATGAATTTATTTATTTATTTATTTATTTTTTAAGAAATCAAAGTAGCTCTCATACCAAATGATATGAAACATAGTACATGTAACTATAAGAACCTATCAAGAAATTTGAATCCTTATAAATACTACACACTAAAATCTCAAATTCAGATTGTATTAACCCAAGAATAAATGAAGTTCTACTTAAAGTAGTTTGAAGTATATTTATATTGATTGATGTGTGACTTGCATTAAATGAACCTTGAGATGCACTTGAATTTCTTCGATGCAACTTGACGTTAAGACAAGCCGATCATCAATGAAGTTTGAGTGCATGTAATGAAACTCTTTCTTGAAGTTCTACTTGCATACACATGTAGGAGACAATACCAACATCTTCCTTCAAATCTTTTGTCTGAGTTCTCCAATGATTGAACATGAAGAATCAAAGATTGATTAAGTTTTTTACCTTTTGATCTTGTGATTGGACCTGAGGCATAACAGTGGAGGTCACTTGATTCAAATCAATTTCCATCTATATACTAAAAATATTTTTGAATTCTTTCCAAAAAGAACAAGGGTCTATTAATGCAATTATTGAAAGTTCGATATTATCAAAAACAAGAAATAAAGTTTAGAGATTTATTAAACACTTTTAATACAAATTTTAAAATTCAAACCTAAACACGTAATTTAGTCATTAATACACAAATAAATATTGTAATCTTTTTAGTTATTCAAATAGTGATGGTGGGAAAAAGGTGAGAAAAGTTTGTACCAATTGAAAAGTAGGAGAGAGACAAGAAAGTATG ATGGAGATAAGGTGGTTTGGAGATGAAGTTGAGTTTGAAAACGCTGAAGAACTTAAAGCCGGAGCTAGGGTTTCTGAATCTGTCGGAGAAACCGAGAAAGCAAACAATGGAACAATTGTTCACAACAGCAAAAGTAGAACACAGAACTGTCGATTGTTCCATAAAACTCTAAACAATTCCGGCTCCACTCTCCTCCGTTCTGTAACAAAACCGCCAACGATCTACCTCACTTCCTCCGCCGCCGACGAAACTTTACTACCAAATCTCTCCGCCGCCGTTATGGCTACTAGAACTGCAAGACACCTTCTTCACAACTTCCATTATGCCAGAAGTTTTCTTAGGAAACAGGAGTGGCAGGCAAGATCTGTAACTGTGAATAATGTTCTTATGCATTTTCAGAGGTCAAAAGTAGATAAGGTGGAAAAAGGTGTGCATAAAGAAGGTGAAGTTTTACATGAAGTTTCTGTAAGGTCAGAAATGGGGAAGAATGGCAAAAAAGGTTCTAAACATACCAAGCACGTTTCTGACGCTGAAGTTACAACTGATAGTAACCGGAGGTTAGAGCATGCATGGTTGACAAAAGCTCTAGAACCAGCTTCGCAATTGTATAGGTGGGCACTGTCATCAGGGAATGGAATTCCACCTAGAAGTCGTTCTGTTTCAGAAATCATAGCAAGTATCCAGCGGAGTAAGACAGGAATCCAGGATTGGAGCTTGAGTGATCTTACAATTGGATTATGCCTTATATATCTCCGTCAGGCTGCAGCAAATCCACTGGAGGACCTCAAGGGTGTCCAGATCTCTTCAGATGCGATTGTCGAAGATCTCATCTACTTCGTTGAACTAGCTGAAGGTTCTTATAAGGATTCTGCAGCTATGCTTGCAAAAACCACCATGCTTAGAGAGTGCAACATATTGAAATTTGTTAAAAATTCCAGTGTTATGAGGCCTGGTTATTATATAGGGGTTGATACAAGAAAGAAACTTGTAATCCTTGGAATTCGAGGAACTCACACAGTGTATGATCTCATCACTGATGTTATTACAACAAGTGGTGGAGATGTCACATCTGAAGGATACTCTATGCACTTTGGCACGTCTGAATCTGCTCGCTGGTTTCTTCAGCATGAGATTGGAATGATAAGAAGATGCTTGGAGAAATATCAGGTGGGTTTTAGGTTAAGGCTGGTGGGTCATTCTCTTGGTGGAGCTATAGCTTCGTTATTAGCCGTAATGCTTCGTAAAAAGTCAAATAAGGAGCTTGGATTTAGCCCTGATATTGTTTCTGCCATTGGATATGCAACACCTCCTTGTGTTTCAAGGAAACTTTCTGAGAGTTGTGCTGACTATGTTACCACTGTTGTGATGCAGGATGATGTTATCCCTAGACTGAGTGTAGCTTCCCTAACAAGGTTAAGGATTGAAATTCTACAAACTGATTGGACGAGTTTGATAGATAAAGAAGACTGGAAAAGTATCATTGGTTTGGTTACAAATGCAAAGCAGGTAGTTACATCAGTACAAGATGTTGCTCGAAAACTTACAGATTATGCAAATTTCACAAGCAAAAAAAGCTCTGATGATAGCAATAGAAAAGAGTCACATGTGGCCTCTGGATCTCCTCCTTCACACGCTACCACTGCGCTACAGAGTGCTACCGGTGCTCAAAACGAAGCCGCAAGATGTAAAATTCCGGAGGAACTATTTGTACCAGGGACAGTGTATTATCTGAAGAGGCATACGGATAGTACCGCAGAATACTTCAGTCTGTGGAAGCGGCATCCTGATGAACATTTCCAGCAAATAGTGCTCTCAAGCATCCTCATTTCGGATCATAAATGTGATAGCCACTACTATGCTTTGAGGGATGTGCTTAAAGGCCTGCCATCATGCAGCGATGAAGGTATTTTCTCATAAAGTCCTTTACCAGTCGTACAGTAGCCTAAAAATATAGTGACACAAACAACAATCAAAATAGTAACACAAAGAGAATACATGAGATGGACAACGGGAGGATGTTTTTCTTTTTCGCCATTCGGAGAGCCTTTTTGTTAACTCCGTTGGTCGGTGTATAACCTAATTCTCTGTGTACTTTTCACTCCTTCAATGAAAAGTTTTGAAAATTAAGGTCTCATTTGGTTTTTTATTTTTAGTATTTCAAAATTAAACCTATAACCATTCTTTCTACCTCTAAATTTATTGCTTTCTTAACTATCTTTTACCAATATTTTCAGAAATTAAGTCAAAATTTGAAAACTAAATTTTTTTTTTTAAAAACTTGTTTTTGTTTTTAGATTTTGGTTAAGAATTTGATTGTATAGTTGTTCGAAATGTGAGTAATATAATATTTTTTCCCCTTCAATGTTTTGTACATCAGTATATATACTTTAATATGTTTGAAATTACTTTATTTTATATGGGCCAAAGTGTCCAAGACTAAGAGTTTCAAGAGTCTCAAGACTTGCTGAAAATGTTCTTATAAGGAAAGATCCTTATCCTCTCAAAGTTGATAACCATACACCAATGAATTTCAACATTTTCATGCTTATATATATATATATGATTGGGGTTGAATACTCTGTTATATATATATATATATGATTGGGGTTGGAATACTCTGTTATGTACTCTTTTTAGATTAAAAACAAAAGCTTCATTAGATTATTTTTGAAGTAATGATTATTAGTCCTTAATAGTGTTTAGATTGACTTTCAAGGTGCTTTAAAAGTTGTTTAAGTGAAAAAAAAAGTGTTTTTAAGCACTTGGGAATTAATGCAAACAAACTCTAAATGATTTGGTCATATACTTATAAATTTGTTACGTTTTAGCTTCTAAATTTTAGTATAAAATGATTTTATCTATAATTTGAACGAAGTTAGTTCATAAGCTTTAGTATATATTAGTTTCACATCCTTATAATTTAAAATTTGTAAAAAATGGTTTAGTCCGTATAGAGAAAACTCCAATCAAGGTGAAGTGTACTTTTGATTTTGCCCTTGTGGTTTGTAAACCCATTTAGTTTTTAAGTGGTATATCATCTATATCTATAGGAACTAATTTGTTATAAATTTGAAAGCATTAAAGTTAAAAGAATTGAAATATAGAAAAAAAAAAAAAGGGTACACAAAAAGTGCAAGAAGTTAATGCTCCTCCCTAGAAATAAAAAGAGAGAATCTATGAAAGGACCCAATTGCCTGTACAATTTTCTCACAATGCAAAAATCCCTGTTGATCTCTTAAATTTACACCATTATTATATTTAGCATTTCAAATATGGAGCGGTTTATAATAACCAACTCCATAAACTTCAGGAGGCCCAAATAGGCCCTTAGTCTTTCTAATGTTAGTTTAGTTTCAATTTGGTCTCTACAATTTAGGTATATCTCACGATCTACTTGCATCTCACAAATGATTAAAATGTTAATGTTGATATTGATATCAAGATTTAATTTAACGGATTTATCAATACCCATAGATATTTTTGTAAATAAATAAATATGTGAAAATTATTTAAATTAATAATTGAGTTATTAAATGTTAAGGTTTAATGCAACTTTCGAAAATTCAAGAGTATTGTTGAAGCACGATATGAATTTATTTATTTATTTATTTATTTTTTAAGAAATCAAAGTAGCTCTCATACCAAATGATATGAAACATAGTACATGTAACTATAAGAACCTATCAAGAAATTTGAATCCTTATAAATACTACACACTAAAATCTCAAATTCAGATTGTATTAACCCAAGAATAAATGAAGTTCTACTTAAAGTAGTTTGAAGTATATTTATATTGATTGATGTGTGACTTGCATTAAATGAACCTTGAGATGCACTTGAATTTCTTCGATGCAACTTGACGTTAAGACAAGCCGATCATCAATGAAGTTTGAGTGCATGTAATGAAACTCTTTCTTGAAGTTCTACTTGCATACACATGTAGGAGACAATACCAACATCTTCCTTCAAATCTTTTGTCTGAGTTCTCCAATGATTGAACATGAAGAATCAAAGATTGATTAAGTTTTTTACCTTTTGATCTTGTGATTGGACCTGAGGCATAACAGTGGAGGTCACTTGATTCAAATCAATTTCCATCTATATACTAAAAATATTTTTGAATTCTTTCCAAAAAGAACAAGGGTCTATTAATGCAATTATTGAAAGTTCGATATTATCAAAAACAAGAAATAAAGTTTAGAGATTTATTAAACACTTTTAATACAAATTTTAAAATTCAAACCTAAACACGTAATTTAGTCATTAATACACAAATAAATATTGTAATCTTTTTAGTTATTCAAATAGTGATGGTGGGAAAAAGGTGAGAAAAGTTTGTACCAATTGAAAAGTAGGAGAGAGACAAGAAAGTATG ATGGAGATAAGGTGGTTTGGAGATGAAGTTGAGTTTGAAAACGCTGAAGAACTTAAAGCCGGAGCTAGGGTTTCTGAATCTGTCGGAGAAACCGAGAAAGCAAACAATGGAACAATTGTTCACAACAGCAAAAGTAGAACACAGAACTGTCGATTGTTCCATAAAACTCTAAACAATTCCGGCTCCACTCTCCTCCGTTCTGTAACAAAACCGCCAACGATCTACCTCACTTCCTCCGCCGCCGACGAAACTTTACTACCAAATCTCTCCGCCGCCGTTATGGCTACTAGAACTGCAAGACACCTTCTTCACAACTTCCATTATGCCAGAAGTTTTCTTAGGAAACAGGAGTGGCAGGCAAGATCTGTAACTGTGAATAATGTTCTTATGCATTTTCAGAGGTCAAAAGTAGATAAGGTGGAAAAAGGTGTGCATAAAGAAGGTGAAGTTTTACATGAAGTTTCTGTAAGGTCAGAAATGGGGAAGAATGGCAAAAAAGGTTCTAAACATACCAAGCACGTTTCTGACGCTGAAGTTACAACTGATAGTAACCGGAGGTTAGAGCATGCATGGTTGACAAAAGCTCTAGAACCAGCTTCGCAATTGTATAGGTGGGCACTGTCATCAGGGAATGGAATTCCACCTAGAAGTCGTTCTGTTTCAGAAATCATAGCAAGTATCCAGCGGAGTAAGACAGGAATCCAGGATTGGAGCTTGAGTGATCTTACAATTGGATTATGCCTTATATATCTCCGTCAGGCTGCAGCAAATCCACTGGAGGACCTCAAGGGTGTCCAGATCTCTTCAGATGCGATTGTCGAAGATCTCATCTACTTCGTTGAACTAGCTGAAGGTTCTTATAAGGATTCTGCAGCTATGCTTGCAAAAACCACCATGCTTAGAGAGTGCAACATATTGAAATTTGTTAAAAATTCCAGTGTTATGAGGCCTGGTTATTATATAGGGGTTGATACAAGAAAGAAACTTGTAATCCTTGGAATTCGAGGAACTCACACAGTGTATGATCTCATCACTGATGTTATTACAACAAGTGGTGGAGATGTCACATCTGAAGGATACTCTATGCACTTTGGCACGTCTGAATCTGCTCGCTGGTTTCTTCAGCATGAGATTGGAATGATAAGAAGATGCTTGGAGAAATATCAGGTGGGTTTTAGGTTAAGGCTGGTGGGTCATTCTCTTGGTGGAGCTATAGCTTCGTTATTAGCCGTAATGCTTCGTAAAAAGTCAAATAAGGAGCTTGGATTTAGCCCTGATATTGTTTCTGCCATTGGATATGCAACACCTCCTTGTGTTTCAAGGAAACTTTCTGAGAGTTGTGCTGACTATGTTACCACTGTTGTGATGCAGGATGATGTTATCCCTAGACTGAGTGTAGCTTCCCTAACAAGGTTAAGGATTGAAATTCTACAAACTGATTGGACGAGTTTGATAGATAAAGAAGACTGGAAAAGTATCATTGGTTTGGTTACAAATGCAAAGCAGGTAGTTACATCAGTACAAGATGTTGCTCGAAAACTTACAGATTATGCAAATTTCACAAGCAAAAAAAGCTCTGATGATAGCAATAGAAAAGAGTCACATGTGGCCTCTGGATCTCCTCCTTCACACGCTACCACTGCGCTACAGAGTGCTACCGGTGCTCAAAACGAAGCCGCAAGATGTAAAATTCCGGAGGAACTATTTGTACCAGGGACAGTGTATTATCTGAAGAGGCATACGGATAGTACCGCAGAATACTTCAGTCTGTGGAAGCGGCATCCTGATGAACATTTCCAGCAAATAGTGCTCTCAAGCATCCTCATTTCGGATCATAAATGTGATAGCCACTACTATGCTTTGAGGGATGTGCTTAAAGGCCTGCCATCATGCAGCGATGAAGGTATTTTCTCATAA MEIRWFGDEVEFENAEELKAGARVSESVGETEKANNGTIVHNSKSRTQNCRLFHKTLNNSGSTLLRSVTKPPTIYLTSSAADETLLPNLSAAVMATRTARHLLHNFHYARSFLRKQEWQARSVTVNNVLMHFQRSKVDKVEKGVHKEGEVLHEVSVRSEMGKNGKKGSKHTKHVSDAEVTTDSNRRLEHAWLTKALEPASQLYRWALSSGNGIPPRSRSVSEIIASIQRSKTGIQDWSLSDLTIGLCLIYLRQAAANPLEDLKGVQISSDAIVEDLIYFVELAEGSYKDSAAMLAKTTMLRECNILKFVKNSSVMRPGYYIGVDTRKKLVILGIRGTHTVYDLITDVITTSGGDVTSEGYSMHFGTSESARWFLQHEIGMIRRCLEKYQVGFRLRLVGHSLGGAIASLLAVMLRKKSNKELGFSPDIVSAIGYATPPCVSRKLSESCADYVTTVVMQDDVIPRLSVASLTRLRIEILQTDWTSLIDKEDWKSIIGLVTNAKQVVTSVQDVARKLTDYANFTSKKSSDDSNRKESHVASGSPPSHATTALQSATGAQNEAARCKIPEELFVPGTVYYLKRHTDSTAEYFSLWKRHPDEHFQQIVLSSILISDHKCDSHYYALRDVLKGLPSCSDEGIFS Homology
BLAST of Cla97C09G170720 vs. NCBI nr
Match: XP_038897252.1 (uncharacterized protein LOC120085373 isoform X1 [Benincasa hispida]) HSP 1 Score: 941.8 bits (2433), Expect = 3.1e-270 Identity = 486/542 (89.67%), Postives = 508/542 (93.73%), Query Frame = 0
BLAST of Cla97C09G170720 vs. NCBI nr
Match: XP_031744204.1 (uncharacterized protein LOC101216108 isoform X1 [Cucumis sativus]) HSP 1 Score: 904.8 bits (2337), Expect = 4.2e-259 Identity = 473/546 (86.63%), Postives = 499/546 (91.39%), Query Frame = 0
BLAST of Cla97C09G170720 vs. NCBI nr
Match: TYK18006.1 (Alpha/beta-Hydrolases superfamily protein [Cucumis melo var. makuwa]) HSP 1 Score: 903.7 bits (2334), Expect = 9.3e-259 Identity = 472/546 (86.45%), Postives = 499/546 (91.39%), Query Frame = 0
BLAST of Cla97C09G170720 vs. NCBI nr
Match: XP_008447247.1 (PREDICTED: uncharacterized protein LOC103489737 isoform X1 [Cucumis melo]) HSP 1 Score: 899.4 bits (2323), Expect = 1.7e-257 Identity = 472/546 (86.45%), Postives = 499/546 (91.39%), Query Frame = 0
BLAST of Cla97C09G170720 vs. NCBI nr
Match: XP_008447248.1 (PREDICTED: uncharacterized protein LOC103489737 isoform X2 [Cucumis melo]) HSP 1 Score: 898.7 bits (2321), Expect = 3.0e-257 Identity = 471/544 (86.58%), Postives = 498/544 (91.54%), Query Frame = 0
BLAST of Cla97C09G170720 vs. ExPASy Swiss-Prot
Match: P0C1S9 (Diacylglycerol lipase-beta OS=Rattus norvegicus OX=10116 GN=Daglb PE=1 SV=1) HSP 1 Score: 78.6 bits (192), Expect = 2.9e-13 Identity = 60/193 (31.09%), Postives = 105/193 (54.40%), Query Frame = 0
BLAST of Cla97C09G170720 vs. ExPASy Swiss-Prot
Match: Q8NCG7 (Diacylglycerol lipase-beta OS=Homo sapiens OX=9606 GN=DAGLB PE=1 SV=2) HSP 1 Score: 72.8 bits (177), Expect = 1.6e-11 Identity = 60/188 (31.91%), Postives = 98/188 (52.13%), Query Frame = 0
BLAST of Cla97C09G170720 vs. ExPASy Swiss-Prot
Match: Q91WC9 (Diacylglycerol lipase-beta OS=Mus musculus OX=10090 GN=Daglb PE=1 SV=2) HSP 1 Score: 72.8 bits (177), Expect = 1.6e-11 Identity = 58/193 (30.05%), Postives = 103/193 (53.37%), Query Frame = 0
BLAST of Cla97C09G170720 vs. ExPASy Swiss-Prot
Match: Q9Y4D2 (Diacylglycerol lipase-alpha OS=Homo sapiens OX=9606 GN=DAGLA PE=1 SV=3) HSP 1 Score: 60.5 bits (145), Expect = 8.2e-08 Identity = 74/321 (23.05%), Postives = 137/321 (42.68%), Query Frame = 0
BLAST of Cla97C09G170720 vs. ExPASy Swiss-Prot
Match: Q6WQJ1 (Diacylglycerol lipase-alpha OS=Mus musculus OX=10090 GN=Dagla PE=1 SV=2) HSP 1 Score: 59.3 bits (142), Expect = 1.8e-07 Identity = 76/322 (23.60%), Postives = 137/322 (42.55%), Query Frame = 0
BLAST of Cla97C09G170720 vs. ExPASy TrEMBL
Match: A0A5D3D3Q9 (Alpha/beta-Hydrolases superfamily protein OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold306G003180 PE=4 SV=1) HSP 1 Score: 903.7 bits (2334), Expect = 4.5e-259 Identity = 472/546 (86.45%), Postives = 499/546 (91.39%), Query Frame = 0
BLAST of Cla97C09G170720 vs. ExPASy TrEMBL
Match: A0A1S3BHV5 (uncharacterized protein LOC103489737 isoform X1 OS=Cucumis melo OX=3656 GN=LOC103489737 PE=4 SV=1) HSP 1 Score: 899.4 bits (2323), Expect = 8.5e-258 Identity = 472/546 (86.45%), Postives = 499/546 (91.39%), Query Frame = 0
BLAST of Cla97C09G170720 vs. ExPASy TrEMBL
Match: A0A1S3BGF8 (uncharacterized protein LOC103489737 isoform X2 OS=Cucumis melo OX=3656 GN=LOC103489737 PE=4 SV=1) HSP 1 Score: 898.7 bits (2321), Expect = 1.4e-257 Identity = 471/544 (86.58%), Postives = 498/544 (91.54%), Query Frame = 0
BLAST of Cla97C09G170720 vs. ExPASy TrEMBL
Match: A0A5A7TF50 (Alpha/beta-Hydrolases superfamily protein OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold67G005250 PE=4 SV=1) HSP 1 Score: 897.5 bits (2318), Expect = 3.2e-257 Identity = 471/546 (86.26%), Postives = 498/546 (91.21%), Query Frame = 0
BLAST of Cla97C09G170720 vs. ExPASy TrEMBL
Match: A0A0A0K707 (Lipase_3 domain-containing protein OS=Cucumis sativus OX=3659 GN=Csa_7G373470 PE=4 SV=1) HSP 1 Score: 889.4 bits (2297), Expect = 8.7e-255 Identity = 462/536 (86.19%), Postives = 490/536 (91.42%), Query Frame = 0
BLAST of Cla97C09G170720 vs. TAIR 10
Match: AT2G42450.1 (alpha/beta-Hydrolases superfamily protein ) HSP 1 Score: 582.0 bits (1499), Expect = 5.7e-166 Identity = 324/558 (58.06%), Postives = 402/558 (72.04%), Query Frame = 0
BLAST of Cla97C09G170720 vs. TAIR 10
Match: AT4G16070.1 (Mono-/di-acylglycerol lipase, N-terminal;Lipase, class 3 ) HSP 1 Score: 101.3 bits (251), Expect = 3.0e-21 Identity = 79/291 (27.15%), Postives = 145/291 (49.83%), Query Frame = 0
BLAST of Cla97C09G170720 vs. TAIR 10
Match: AT4G16070.2 (Mono-/di-acylglycerol lipase, N-terminal;Lipase, class 3 ) HSP 1 Score: 96.7 bits (239), Expect = 7.3e-20 Identity = 76/291 (26.12%), Postives = 140/291 (48.11%), Query Frame = 0
BLAST of Cla97C09G170720 vs. TAIR 10
Match: AT3G14075.1 (Mono-/di-acylglycerol lipase, N-terminal;Lipase, class 3 ) HSP 1 Score: 87.0 bits (214), Expect = 5.8e-17 Identity = 63/264 (23.86%), Postives = 126/264 (47.73%), Query Frame = 0
BLAST of Cla97C09G170720 vs. TAIR 10
Match: AT3G14075.2 (Mono-/di-acylglycerol lipase, N-terminal;Lipase, class 3 ) HSP 1 Score: 87.0 bits (214), Expect = 5.8e-17 Identity = 63/264 (23.86%), Postives = 126/264 (47.73%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Watermelon (97103) v2.5
Date Performed: 2022-01-31
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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