MELO3C026941.2 (gene) Melon (DHL92) v3.6.1
The following sequences are available for this feature:
Legend: five_prime_UTRexonCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.TATCAAAGTATACAAGTGTTTTTTTGGTTTGGAAAATATGTGGTTTGTTTTATTCAAATTCACAGCTCACCATATTTCTTCTCAACTCTTCAATCACATGTTACACAGAGACAGAAAGCTTAACAAACAACTGCCACAACAATTCATGGCGACAGATCATGGGTCCACCGCCATAAAGGTCCTCGAGATCTGCACGGTAGCTCCTCCGCCCGGATCCACCGTGCCGGCCACTCTTCCCCTGACCTTCTTCGACATCCTCTGGTTCCGCTTCCCTCCCGTTGAACGCCTCTTCTTCTACAAATCTCCGGTGCCATTCCACGTCATCGTTTCAAACCTCAAAAAATCTCTCTCTCTCGTCCTCCAACACTACCTCCCCCTCGCCGGAGCAATCGTCTGGCCGGAAAATTCCCCCAAACCGGCCGTCGAGACCGCAGCCGGCGACGGAATTGTGCTTACAGTCGCGGAATCCGACGACGACTTCGACCATCTCGTCGGCGACGGGTTGCGTGAAGAGGCGAAACTTCAGCCGTTAGTGGCGGAGCTTGCCGCGGAGGAGGAGCGGGCAGCGGTGGTGGCTGTGCAGGTAACTTGGTTTGGGAATGGTAGATTTAGCATCGGAATAACTTCACATCACGCGATTCTGGACGGAAGGTCGTCGACTTCGTTCATGAAATCGTGGGCCGGGTTGTGTAAGAATTTGGTTGGGGGCGGTGACATTTTTTTCCCGGCGGCTGAGACGATGCCGTTTTATGATCGCAGCGTGGTGACCGACAACGTGGGACTTGAAGCCATTTATTTGGAATGCTGGTTGGCCCATGAAGGACCCAACAATAGAAGCTTGAAATTTTGGGACGTCAAAACTCCGCCAGATTTATTCCGAGGTAAACAATAATATCTATTATTTATTCAAGGTTGAATTATAAAAAAATACCCATAAATTTATGTATCAAAAATATGAATGAAATTTCAAATTAATGAGTTCAGAAAATATCAGCTTAGTTTTTAGTAGAAATCCTTACAAATACTTTTGAATTTTCAAAAATTTAAACATAATCTTAACCTAATAAAAGTTTAAAAAAAAATAATAAGAAAAAACCGTTAATTATTCATAGTAACAAAGATAACTTTTAAAAATAAAAAATGTTTAAAAAAATTGATCAATTTATTTGAAGTTTTCTTAAATTAAAAAAAACAATTTTAAAACAATTATATATATAGATATCTTCAAATATTCTCATATTTCTCTTAATTTTTCAATTCTTAGTTGCATCTATTTTCTAAACCATTAAAATAAAAATAAAATTTTTAAGTTAAAACCAACATGAAATAATCTCACAAATTTCAAAAATCAATATCTCCTCATAAAACATATCAAAATGATAAAAAGTCAAATAAAAAAAGTATTTATCTATTAAAATGTACTCAACTAAAAAAAGTACAATTTTGTTAAAATATTTTAGTCTTGAAATCATTTGGCACCTTCTTTTTATTATGTTTTTCTCATATTGTAGTTCATATACCCTAATTAAAGTGCTCAATCTTATTTTATTTCTTTATTTATTTTAGATAAATAAGTGTCAAATAATTTTTTTTGGAAAAAAAAAAGGAGTAGGAGGACATTGAGGAAGGGGTGAGAAAAATATGGAAACAAAGACATCATTCAGGATTATATGTTTTTATTGTTACAGTAGCGAGAGTTTTTTTTTTTTAAATAAAAAAAAAAAGAAATCTTAAATTTTAGAAGATTTTTGGAAGTTTAGAAAGTGTAGGACATAAAACATCAACAAATTCCTTGCAGAACTAACAAGGGGATACCTTTGAAAATTTTGAAATTTTAGTGACATTTTTTACCAAAAGTGTAGAGTTCACTTATAATTTATAATTTTGCCTTCATTTAATCAGAGCAATAATAGTTCAGGTACTAATTTAAATGACTTTAATAAATCATTTCACTTGCAGGAGATACTCAACCACATAACGGTTGAAATTGAAACTTAGTTATAGATAATAGTATTCAAAATTTAATCACGTTCTATCGTTATATGTTTAGTCTAATGTATAAATTCAATTTTCTATTTTAGTTTCTATTTTTGTTCTTTACAAACGAACGATTAGTGTGGTTTTTTTCTTATGGCCAAGGTAGGAGTTAGAAGTAAATTATATTTTGGGTTAGATTACATGTAGTTAGTATGCATTTGAAATACACTTTTAGGTCTTTTATTGATAAAATAAATAGTTTCAAAAGAAAATTAGAATATTTGGTAGTCAAACAAAACAAACAAAACATTTTTAAAGTATATTTTAAATATTTTTTATTAAAAAAATTAAATAAAAATGACTTTTTTTGAAGAAAAAAAAATTCCTAAATCAATCCGATTAGATGTTTCATCTTTGAAGGTTTGGGCATATGTATAGTAGGTCCCTAACCTATCCATTGTGTATTTGATCGGCCCATGCACTCCCAAATTTGTTTTTAATATAATGATCCTTGACAAATTAAATGCAATATTTTTACTTTCTTAACTATAGTCTATTATATAAGTGTGAGATTGTGTGTGAACCTCTTTCAATTTTGTAATTAATTATATATTTTTTTTAAAAAAATTAAAGTACAAAAAAAAAAAAAAGACTCAATTTGTACATAGAAAATTTAGGAACTAAATACTATGGACCAAATTTTTCATGTAACTATTTTTGTTAGTGCTAACACAAATATGGTGGAACTTGGAATAATAATTCAAACTATAGAATGCTAAATACCTTGAGTTATTTTGATATGAACACTTCTTTTCATATTCATCCTCTAATTATGGAAACTAAGATTTCAAAAAAATTTTGACATCCAAATATTGTAAGATTGTTTCACAAAATCACTAAGTTAAGCTAAAAACATATAGTTTAGAAAATGTGTATTTCTAGAAAGTATAAATTAAAAAATTAAAAGAAAATTATTCAACACAAAATATAGAAAAAAGTTTAGAAGAGAAGTGTGAAAAAAATGTATTTAATTAGGATAAAATAGGCCCGAGGTATTCAATAGGGAAGCAAAATAAGATTTTGTTTCCCTTTCATTGTAGGAGAGTAGGTTTCAAGTTCGACCTTGAATACCAAAAATCTTATTATTATCACTAAATCAAACTCACTTCTAGATATAAAATGAGAAATAATAATAATAATAAAAATTTGCATAAAACCCCTAAGCTGTGGGGTTGATTGCATTCATACCCTCCAACTTTCGTCCCCAGAGTTTGTTAATGAATGCAATTAACCTCTTTCTTGAATGAATCTTTATTACTTTAACTGTGATCAGACATTTTAAAATTTAAAAAAAATAAAAATAATTTCTCATCTCACACCTTTTCCTCCCTCCTCCATCTTTTCCTTCCAACTACGTCTACATCTCCATCATCAAAGAAATCTTGAAACGACACTATAAAGTAACTTCCTAAATCTTATTATCCAAATTTATCTCTCTTTTAGGTGCACTTTTTGTGCCTTCCCAAGGCTTGACAACCATTGTAGAAACCACTGTCACTGTTGCCATCATCGCAACTTTCGTTGCTGCAGAGGCCATTGCTGTCTCTTCAAAATTTAACCCTTAATCGCCCTCTTTTCCTTCTTCCTCAACCTTTCTCCAAATTTCATCTCTATCTTCTTTCTCATGCAACCGATAACTTCTGTACTCTCTTTCATCGTGTGTTTTCCTAATTCAATAAAATGTTCATGCTTTTTATAACGATATAACCCTTTATATTAAACTGAGTTCATTACTACTAAAATTAATTAAAGACTTTTTTTTATTGAAAATGGATGAGAACACTAAACTTTCATTGAAAACTTCAAATAATCATTTATAAATCATAAATAAAATGTTTAGAAATAAAAGCTAGAAGATAAAATTCTAGATCAGATCCTATCTAACTTTGAAATAAAAATAATATAAAATAATCTATGAATTTGATAAATTCAAATAAGAATACAAAGATCAAATACAAAGAAAAATGTGAAAGGCAGAAGCAACAAAAGTCCTCTATGGCAAGTCGCAGCCACTTCTTGTTATTCGCCAAGCTTTCTTCTACCTCTATCTCTACCTGAAAAATTAAACATAAAAAGAGTTAGTATAAACATATACTCATTAAGAGACCCATTACTAGTCCCACTAGGTGTCTATTAACTTCCCACTAAGGTCCCGTAAAGAAGTACCTAAATACTAGCATGCTCCTAAACACATGCAATCTAGTGATCATGTAGGAACACATTAAGTCTTCGGTGAACTCGAAGGAACACCTTGGAGAAACTGGTCTTCGGTGAACCCGAAGGAATACCTAAGAGAAACTGGTCTTCAGTGAACCTGAAATCACTTAAGAGAATCGGGCTGTAAGTGACCCCATTAGATCACTCATAAAACATACCATGACAGACTTGTGGTCTCGTCGAACCACACAATCATAAAAAGGTAATCCTAAGGGACACCCATATGGGTACGACATTAATAAACAAAGTTAACAGAACACCTACCCATAGCATGTAGCATATCATAAACATGACATGAATATCAATCATAACCTCCTTAATCATACGATTAATATATCATGCATCATCATCAACATAATATCAGTCATCATCATCAACATAATATTAGTCATCAATATCAATCCTCACTATCAGTTATCAAAATAAATCATCAACATCAACACATTATGCATCTTAACTACATTAATGAATAATTGAAATTTACATGCGAGCTCTTAACTTCAGTTCGAAGGTCTAGAAGAGAATCTCTTACATCAATATTACCTTAACCAAAATTATTTCTAACAGTTACGGTCAAGCTTTCTAAATAATAGGACCTAAACAACAAGGGAACCCAATAACTAAAAATAATAATTTTTAATGATTGACTAATGACCCAAGAATCATTTTAATTCAACTTACCCAAAATCGAGATTGAATTCCAATTCAACCTTGATTTGAAAAAATTCATATATAGCTTAGTTCTTCCAATTTAATCTAGCCAAACCTTCAAGAAAAATTCCAAATTAAAATCCAACATTAACTTTATTTAGGACCAAAATCAATATTTGTTATGCATACCTAAAATCCAATCAAATACTCACCAAAACTTACCAAAAGTTGCTCAAAATTGGTGGAAAAATGCAAAATAATGTTGGCAGCTCGACTAAGCAAGGAGCGGCTCGAATCTGGCTTAAGTCTATATGTACGGCTTGGAGTAGGGGAAATCGGGTCGAGCTCAAAGGAACGGCTTGCACGCGGCTCGCGAAAGGATTTGGCTCGATTTAGTTTGCACATACGACTCAGATAAAGGAATAGGGCTCGACTTAGCTTGTGCGTGCAGCTCGGACAGAGGAGGGATGTGACGGTCGAGCAGAGACGAGTGAAGACAATCTGATGCGCGGTAGACGGGTTGACGGAGTTAGTGGTGATGGACAGAGACGGGTGACACATACAGCGAGGCAAAACAGCTTGGAACAACTTGGACTTCGATGATGCTTGCAACGTAGAACAAGAAACGATGGGGTTAAGCTTCACGGTGACAAAGGAAGAGAGAGGTGACTGATAGCGTGATGAAAACGATCAGAGATGGACGACGGAAAGAGTGGTGACAGCAGTGGAGCTAGGATTTTCCAAGGAAGGAGAAGATAAATGAGGAAGAAGATGAAGTGCATGCAAACCAAGAAGGTCTTTTTAAAATAATAATAATATTATTATTTTACTTTATCTTTTTACCTTTACCTTTTCAAATGAAAAACAAATCACTCTCTTTCCTCATTTAATCCAATCCAATCAACTCCTTCTTTTTCCAAAAATAAAATAACAATTAAATCTTCTCTCTCCATTTAATACCCATCAAATCATCTTAATATAATTATTTTTCCCTTCCTTTAAAACTAATTAATTAATTAATTATATATATATATATATAATTAATGAATCAAAATCATTAAATCTCACAAAATTAATTAACCAATATCAAATCGTTAATAGCATCAAATTCCCAATCTTCAAATTAATTAAATATTCTTCCAAGTAAATATTTAATTAATCATAATTTCCACAAAATCAACCAATTATCTCAAAATAATACCTCAATAATTCCAACATCTCTTTGTTATTTATTTGATGATCATTTTTTAAGAGGAAAGAGATTTAAAAGATTAAAAGCAAACAAAGCAAATGAAACAAAATGAGAGAAAGGAGAAGTGTAGTGTACCAACCATTTTTGTTACTCACACTTGTTACTAAAATAAACGCCTCTATTTATAGGCGAGGGTTGATGTGACAGTACATTCTACACTCCATTAATTCTTTTGATAAAGTTGTGTTGTCGATGCCGCAGATGTCCTTTTGTCCTTTTTCTAACATGTGCGCAAACCATTTTTGTTTGCTAGTGCTTTAGACCGCCTAGCTTGTTATGATCGCCACCTTGCTAGCTGCACGTGTCTCCTCGCCAAATGTTCTATTGTCAAGCTATACTTCTTTTTGCATAAAAAAGGGAGAAAGTTCTTTTGTAGTTCGTGATGCATAACTTGATCAATTCTCCGACTTTTCTCCGCGTTTTCTTCCAATCTTATGCATTAAGGCTTCATTATTTTACATAAAAGGCTATAATAACTTGTATTTTTACAAGTTATCAAACATAGAACTTACACATCTAGCAGGAACTTAAAACAAACTTTATATAATAATTAAGTGTCGCCCATCTAAACAATCAAGTACAATGAGTTTGTTATAAACGAATACAAACTAGAGTTCATATGAGTCAAAGACTAATACTTACAACCAATAACTTACAAACTATAGCTAAACTCAAGTACGGACCATAAGTACTTCTAGAACAAGGCATACTAGTATGAAACTCAAAATGCACTAGTAGATAGACGGATGAAGTAAGGTGTCAGGTCCATGATCTCTACCTGAAAAGTAAGAAAACGTTTTTAGAAAGAGTGAGCTAAAACTCTAAATCCGCAAATCAATGTGTAGTAAACAACTTATCAAATACATTTTAAATAAATCAAATACACAGTTCTCAAACATAAACAATTGTGTCAAACATTTCTCTTTCACTTCCTATATCTTGAATCTTTGTACTTTACAAGATGAAATTTTAAGCATCAATAGCGCTCTATCTCGTAATGGCTACTATGAGATGAAAAATCTAAGCATTTGTAGAATGCCCTCATCTTTATCTAGTCATAGTGATAGGTTTCTAGGCATCTATTGAATACCCTCATCACAGGACCTCTGTGCACAGGAAAAACTCCCCTGGTAGGGTTGCCACAAATCTCTAGATATATCTTAGGTATAGACTAAAACATGCTCAAAACATTTCCTGCTTAAAACATTATATCAAATTAAAACAACATGTTATATAAATCTCTTGCATTTAGCAAGTCTTAAATCTGTAAAACAAGCTTTATTTAAACAACATTTAACCTAAATACTTTCAGAAGCCCAGCATCCATATTCTTGCCCATAAATTAATGTATAAAGATCCATTCTCAATAAACTTATTAGTCAAACTCATGTTTTTCAAAATTTTCTAAACTTGAAACTTATGCTTTGGAAATCTAACTATTTAAATCAAGTACAATTCTGAAATATGTTAACTCAAAGCATGCTTTAAACATAAACTTAGTAAATCCTGTTTAGGAATCAATTTCAAATTTATTTTTCTCACTCACACGTGGTAGTTAATTCCTTGTCCTATAATTTTTTTCAATCTCCTCTTGCCTTGAAATTAGTTAATTTAAACTCATTTTAAACCTTTAAAATCAGAAAACATCAAAACTTAGCCCAAAACTCACAAAAACACCAAAATTGCTAAAAAATGGTGTTATGGCACGACTAACCGTTGAGCATGGGCAATGGGTAGCATGTACAAGCACACAAGTCTATCCCAGGTGCTTGGCCATGTGCTAGCTTAGCACGCCCCACAGTCGCATGACACCGTACTATGCCCCATTCTACATATGCATTCGGGCAGCTTTGAGCGCATGTGGCCTGTTGCACGGCCTAGGCGCGACCCCATATTTTAAAGACCTTTACGACTCACAAGAACTTGGTAAAGGAAGGAGAAGATTTGAAAAGAAATTCTAAGAAAAACTTATTATGTAACAAGATTTAAGTGACATGGCTAAGGAAGAGGAATTTTTTGGTGAAGTGTTAAGAAAAGAATGCTAGGAGGTTATGTGGGCGACCACAAGAGGAGTAAAAAAACTCTATAAAGGTGCGCAGGCATTATTAGCATGTATAGATGGCCCAGGCTTGATTGCTATGGCTTAAACGAGGAGAACCTCTAAAGACATGTAATAGGCTGCCAAATGAGCTAAGGTAATGATTTGTAGATTTGTTGGTTACTTTATGCTTGACTTGTTTAATAATAAATTCATTGATACGTCATTGAGACTTTATGTCTGCGACTACGCTACGCAATAAGACATGATTGCCATATACAACATGCTCACTATATCTCTAAGTGAGGATTGTGCAATAAAAGGTACACATCCTTTCCACACGTGACTAGTACTCCTGCATTGAGTACAAGTTTTCCTATCGCTTGCTCAAGTGTAAGTGAAGCGATATGTTTCTTGGGTAAGTCAAGGTCGCACACAAGGAATTGCTACCAAACTTAGTTATAATGTTTACTTCTTTCCAAGCGGTATAAATATCCATACAGTATAAAGTGTGTGTAAATGTGTATGTGTGTATTAAATCTACTATTTACACTAGAGATTCTGTAGAAGGTGATGTGAAATGGTATGAATATGGAGAATGAACTAACTTGTACTAAGAAAATATGAAGGAAATTCTCCGCATTATAGGCGATTAAGTCATGCGACTATCCTTGATGCGATAGAGATTACATACCCAACTTCTAATTTAAGGTAAGAACCTCTCGATGCTTAAAGGCCACACTTGTTCACCTCTCAGGATACAAATGGTAAATATGAACTATGTGATAGCTATCTAGATTTCACTATTTATAAGGGTCATATTGCTTCTCTTTTAAGGTGGACAACCTCTCACTGTCAAGATACAACACTTGTTCTCCTTTCGAGACACAAATGATGGAGGTCAATCGCCAGAATGGATTTTGTTTCCAAACTCCTTCTAGTACGCGTTTAACTATGTCTTTGTTATTTACTCTATTGAGTAGTTGGCAATAAACGTTAGCCAAGCGATGAACCTTATAAGTGCTCTTCTCAAGCACTTATCATGAACTTGAACTACTTATAACCGTTCAGCAAGATAAACAGTAAAGAAGTGACATAATGTCAGTGAATATAAATGCAATGTGTTGATTGAATTAAGGCTTTCAGCCATTGAAATATACAAGCGTCAAAACATTACAAAGAAAGTACAAAAATAGAATGTAAAGAAGATTAGTTGAGTTGCAAAATGCCTTATGAGCATCCCTTGGCTCTTTTACAAGTTAGGAGGAAAGATGGTGGTTTCTCTCTCTAATCTCACTTTATGCTCTCACTCAGAAGTTGATCGGAGAAGAGGAGAAGAGAGAAAATACTTCTACAAAAGGGGAAAAACTACTCTTTTTTGACGATACTACTCTTTTCTGACGACCCTTAGGAAGATAGATCTCTCTAGAGCTCTCTAGTTCTTAGTCCATGCAAACCTCCTTTACATGGTGAAGATGGAGGTGTTTTATAGGCAACTTTGGGCTAGAAGCTTCTATTCCTCTACACATTTTAGTGCCAAAAAGCAGACTTGTCAAGTCACATCAACTCCATCTACCATTCTTGTCTTCTTTAGTGAATCTTTTCGCGTGATGATGTGGCATATTGCCTCGTAAAGTTAACCGTCAGGCAACCTTCCTACTTTAAGCTTTCGCAGGCATTCTTCTTACGATTCATTATAATTCTTATTTTCCTCATTATTTGCAATAGAAGCACTAAAATCATGAAAAACAGGTGTGGAGACTTATGTAAGTTATATTCTCTTATCTTTATGAATTTGCAGTAAAAGCTACACGTTTTAACACTTTGTCCTATGTTTAGACTCCATTGTTTTACTTAAAAGACCATAATAACTTGTATTTCTACAAGTTATCAGGTAATCTCTAAAATACACATTTTAAGCGGTCAAAGGTCGATGGAGAACCTCTAATGCTAGGCAAGAAAGGCAAGATTGGGCAACCACATATTGAGAAATAACCTCTAAAGAAGTCATGGGGAGCAAGAGGGTGCTAGGTAAAATGATTGGTTAAGAGGTTAGCAAGGATTAGTAAGGGCTATGCTAGAAGATCGTTGACGGCTAGGCCAGATGACTTACTAAGAGGTTAGTAAGTGTGGAAAGTAGGCGGCCAAGAGCTGGGCGAAGAAGTTATGCACGTGAGGAAGCTTATGACCATTGAGATTAGCAAGGCATTTGAGTAAGCAATGTGGTTGGTTATGGTTAATCGATTTAATAGAAATTCAGGTGTCTTAAGCATGTTTCATGCATTTTGTAGATAAGTAGGAGGTGATTAAGTAGCAATATGGAATTAGGAGGCTGATTAAGGAAATTAAGAGGCAAATTAAGGAAGTTAGAGGTGTCAATGCAGTTTCATTCGAGGGTTCATCATAAATAGGCAATTTCAGACAAGGATTTCTCACAATCCACTCGTGCCATTTGCTTCAAATTACTTTCAAAAGTTCACAAATTGAGTCTAGTTTCTAGACTAGGGCTGCCAGACAAATTTAAGTTGAGAAGGATTTAGTTTGAGTTGAAGAAATAGAGAAATGTCAGTTTTCTGAGCATTTTAAGTAAGGTGCACTTTTCGAAAGCCACAAAATGCATCTTTTGGAATTTGTAGCTAAAATTTTGAGGTCAAAAAGATCTTAAAGAAAATTCTAAACCAATGGCTAACAACAAGTGTAGTGAGTGATTAAATGATTTCTATAATGTTTCTTAAAGCATGATTGATAAGTTATTGCTTAAAGCATGTTTCAAGAAAAATGTTTAGGATTACTAATTTGCTATTGAGTTTGCTAAAGTTCAATGTTCAAGTATTTACAAGTTGATTTCCAAAAGACTAAATTAGGTTCAACTAAATTCTATAGCTATGTCGTCAAAACTATGTTTCAAGGTTTTCAACTATGTTTTATTGTAGCCAAAATCTTCCATGAGTCTTATTGTACACCTTCGTACTAATAGTAGGATTGATAGGTCTATTTTAACTATGAGCCATCAAAATAGATATAAATTATTATGCCTTAAAGTAAGAGGATACCAGTGAAAGTTGTTTCCTATCGACTATATCGTCTTAGGACGAAGAGGTTTAATACTGCATGTAGCTATGAATCATGTCTTCCAAAAGCTCTATGCCATGTTATTCAAAGTTCCAATATTTTCAAGTACCATACTATGAAATGAATTTCTATTGTTTAATGATTACTAAGCCGAGGTTTCATGCTAAACCGTTTATGAAAATACATTTCATAAAACCATCACTCACTAAGTCTTTTGACTTACTCTTTCAAAATGAACTTTAGGGATGAAAAAGAAATAAATACTAGTGACAAAAAATTAATCTTATATATACTAGGGGCGTACTTGGGTTTGGTTTTGTTGGGTCGGGTTGAAGTTATTTTTTGAACCAACTCGAAAATTTGGGTTAGTTGGGTTGAAAACCTAAAAGACCCAGACAAAGTTTCTAACCCAATAACCCACTCCAGTTGGGTTATAACTTATTTTTTCTTTTTAATTTTAAATATTTAAGTTTATCAATAACACATACAATTAATAACTAAAATCTCATTTAAATTCAAATATAGAATACCAAATATGTATGATATTTAATAGAAACTTTAAACAAAAGACAAATGTCATAACGATTCTAAAAGAAAAATAGTAAAAATTCACAAATAGATTAATTTGTATTTACATATTATCTAATATCTATGTAATTCGAATTAGGTTCGATCAACTCAAGCATAATTTTTTAGCCCCCTTACAACCCAATCCTACTTGATGAAAATACAAAAATGTTTAAGCCAACCCAAATTTTAGGTTTTAGAGGGGTAGTCCACAAATTATTTGAAAACCCCTATTATATGCAAAGTCCATAAGCACCACCGACATATAAAATGTTTAGGAATTCTGAAGTGTGGTTTTGAATGATTCTGGTAATGTAATGTAATATTTGAGAAAATAAATTGTGAATTGGTCGTTGAAAGGCACATTCAAGTTAAGTCCCCAAGATATCCAAAAACTAAAGCAACATGTACTCAAACACCGGAACCCGGTCCAACCGCCGCCACACATCTCCACCTACACGGTGGCGATGGGGTACACGTGGGTGTGCGCCTCCGCCGTGGCTGACGAGGAAATTAGCATCGGAGTGACGATGGACGCCCGAGGGAGAGTCTACCCACCTCTACCGGCGACATACTTTGGGAACTGCGTGGTGGGGCGGTCAACCGCCTTGGAGAGGGGGAAACTGTTGGGGGAAAACGGAGTAATCGCCGCGGTGGAGACGATATCGGAGATGATTAAAAGCTTGAAAGAAGAGGGACCTTTGAAGGGCGCAGAAAACTGGGTTTTGTTGATGACGCAAACTGTTGTAAATAACGATTACAAGCTGATTTCCACGGCTGGATCGCCGAGATTTGAGGTGTATAGCGTGGATTTCGGTTGGGGGAAGCCTGAGAAGGTGGAAGTTGTGTCGATTAACCGTACCGGAGCGGTTTGTATCTCGGAAAGCCGAAACGGCGGCGGAGTGGAACATGGGTGGACGGCGAGGAGGGATGTTATGGAGAATTTCGCTAAGCTTTTTGCTGAAGGTCTTCAACAACTTTGAGTTGGCATGCTTTCTTTAATATCGAAAAATAAGTTTAACTTTATCTGATATGAATTTGTATATTCAAATATAGTAGAATCTCATGTTACGAGATCTTATATTATTAAAAGATATATAATTTTTGTAAATAGGTAAGTAA TATCAAAGTATACAAGTGTTTTTTTGGTTTGGAAAATATGTGGTTTGTTTTATTCAAATTCACAGCTCACCATATTTCTTCTCAACTCTTCAATCACATGTTACACAGAGACAGAAAGCTTAACAAACAACTGCCACAACAATTCATGGCGACAGATCATGGGTCCACCGCCATAAAGGTCCTCGAGATCTGCACGGTAGCTCCTCCGCCCGGATCCACCGTGCCGGCCACTCTTCCCCTGACCTTCTTCGACATCCTCTGGTTCCGCTTCCCTCCCGTTGAACGCCTCTTCTTCTACAAATCTCCGGTGCCATTCCACGTCATCGTTTCAAACCTCAAAAAATCTCTCTCTCTCGTCCTCCAACACTACCTCCCCCTCGCCGGAGCAATCGTCTGGCCGGAAAATTCCCCCAAACCGGCCGTCGAGACCGCAGCCGGCGACGGAATTGTGCTTACAGTCGCGGAATCCGACGACGACTTCGACCATCTCGTCGGCGACGGGTTGCGTGAAGAGGCGAAACTTCAGCCGTTAGTGGCGGAGCTTGCCGCGGAGGAGGAGCGGGCAGCGGTGGTGGCTGTGCAGGTAACTTGGTTTGGGAATGGTAGATTTAGCATCGGAATAACTTCACATCACGCGATTCTGGACGGAAGGTCGTCGACTTCGTTCATGAAATCGTGGGCCGGGTTGTGTAAGAATTTGGTTGGGGGCGGTGACATTTTTTTCCCGGCGGCTGAGACGATGCCGTTTTATGATCGCAGCGTGGTGACCGACAACGTGGGACTTGAAGCCATTTATTTGGAATGCTGGTTGGCCCATGAAGGACCCAACAATAGAAGCTTGAAATTTTGGGACGTCAAAACTCCGCCAGATTTATTCCGAGGCACATTCAAGTTAAGTCCCCAAGATATCCAAAAACTAAAGCAACATGTACTCAAACACCGGAACCCGGTCCAACCGCCGCCACACATCTCCACCTACACGGTGGCGATGGGGTACACGTGGGTGTGCGCCTCCGCCGTGGCTGACGAGGAAATTAGCATCGGAGTGACGATGGACGCCCGAGGGAGAGTCTACCCACCTCTACCGGCGACATACTTTGGGAACTGCGTGGTGGGGCGGTCAACCGCCTTGGAGAGGGGGAAACTGTTGGGGGAAAACGGAGTAATCGCCGCGGTGGAGACGATATCGGAGATGATTAAAAGCTTGAAAGAAGAGGGACCTTTGAAGGGCGCAGAAAACTGGGTTTTGTTGATGACGCAAACTGTTGTAAATAACGATTACAAGCTGATTTCCACGGCTGGATCGCCGAGATTTGAGGTGTATAGCGTGGATTTCGGTTGGGGGAAGCCTGAGAAGGTGGAAGTTGTGTCGATTAACCGTACCGGAGCGGTTTGTATCTCGGAAAGCCGAAACGGCGGCGGAGTGGAACATGGGTGGACGGCGAGGAGGGATGTTATGGAGAATTTCGCTAAGCTTTTTGCTGAAGGTCTTCAACAACTTTGAGTTGGCATGCTTTCTTTAATATCGAAAAATAAGTTTAACTTTATCTGATATGAATTTGTATATTCAAATATAGTAGAATCTCATGTTACGAGATCTTATATTATTAAAAGATATATAATTTTTGTAAATAGGTAAGTAA ATGTGGTTTGTTTTATTCAAATTCACAGCTCACCATATTTCTTCTCAACTCTTCAATCACATGTTACACAGAGACAGAAAGCTTAACAAACAACTGCCACAACAATTCATGGCGACAGATCATGGGTCCACCGCCATAAAGGTCCTCGAGATCTGCACGGTAGCTCCTCCGCCCGGATCCACCGTGCCGGCCACTCTTCCCCTGACCTTCTTCGACATCCTCTGGTTCCGCTTCCCTCCCGTTGAACGCCTCTTCTTCTACAAATCTCCGGTGCCATTCCACGTCATCGTTTCAAACCTCAAAAAATCTCTCTCTCTCGTCCTCCAACACTACCTCCCCCTCGCCGGAGCAATCGTCTGGCCGGAAAATTCCCCCAAACCGGCCGTCGAGACCGCAGCCGGCGACGGAATTGTGCTTACAGTCGCGGAATCCGACGACGACTTCGACCATCTCGTCGGCGACGGGTTGCGTGAAGAGGCGAAACTTCAGCCGTTAGTGGCGGAGCTTGCCGCGGAGGAGGAGCGGGCAGCGGTGGTGGCTGTGCAGGTAACTTGGTTTGGGAATGGTAGATTTAGCATCGGAATAACTTCACATCACGCGATTCTGGACGGAAGGTCGTCGACTTCGTTCATGAAATCGTGGGCCGGGTTGTGTAAGAATTTGGTTGGGGGCGGTGACATTTTTTTCCCGGCGGCTGAGACGATGCCGTTTTATGATCGCAGCGTGGTGACCGACAACGTGGGACTTGAAGCCATTTATTTGGAATGCTGGTTGGCCCATGAAGGACCCAACAATAGAAGCTTGAAATTTTGGGACGTCAAAACTCCGCCAGATTTATTCCGAGGCACATTCAAGTTAAGTCCCCAAGATATCCAAAAACTAAAGCAACATGTACTCAAACACCGGAACCCGGTCCAACCGCCGCCACACATCTCCACCTACACGGTGGCGATGGGGTACACGTGGGTGTGCGCCTCCGCCGTGGCTGACGAGGAAATTAGCATCGGAGTGACGATGGACGCCCGAGGGAGAGTCTACCCACCTCTACCGGCGACATACTTTGGGAACTGCGTGGTGGGGCGGTCAACCGCCTTGGAGAGGGGGAAACTGTTGGGGGAAAACGGAGTAATCGCCGCGGTGGAGACGATATCGGAGATGATTAAAAGCTTGAAAGAAGAGGGACCTTTGAAGGGCGCAGAAAACTGGGTTTTGTTGATGACGCAAACTGTTGTAAATAACGATTACAAGCTGATTTCCACGGCTGGATCGCCGAGATTTGAGGTGTATAGCGTGGATTTCGGTTGGGGGAAGCCTGAGAAGGTGGAAGTTGTGTCGATTAACCGTACCGGAGCGGTTTGTATCTCGGAAAGCCGAAACGGCGGCGGAGTGGAACATGGGTGGACGGCGAGGAGGGATGTTATGGAGAATTTCGCTAAGCTTTTTGCTGAAGGTCTTCAACAACTTTGA MWFVLFKFTAHHISSQLFNHMLHRDRKLNKQLPQQFMATDHGSTAIKVLEICTVAPPPGSTVPATLPLTFFDILWFRFPPVERLFFYKSPVPFHVIVSNLKKSLSLVLQHYLPLAGAIVWPENSPKPAVETAAGDGIVLTVAESDDDFDHLVGDGLREEAKLQPLVAELAAEEERAAVVAVQVTWFGNGRFSIGITSHHAILDGRSSTSFMKSWAGLCKNLVGGGDIFFPAAETMPFYDRSVVTDNVGLEAIYLECWLAHEGPNNRSLKFWDVKTPPDLFRGTFKLSPQDIQKLKQHVLKHRNPVQPPPHISTYTVAMGYTWVCASAVADEEISIGVTMDARGRVYPPLPATYFGNCVVGRSTALERGKLLGENGVIAAVETISEMIKSLKEEGPLKGAENWVLLMTQTVVNNDYKLISTAGSPRFEVYSVDFGWGKPEKVEVVSINRTGAVCISESRNGGGVEHGWTARRDVMENFAKLFAEGLQQL
BLAST of MELO3C026941.2 vs. NCBI nr
Match: XP_008465393.1 (PREDICTED: phenolic glucoside malonyltransferase 1-like isoform X1 [Cucumis melo]) HSP 1 Score: 999.2 bits (2582), Expect = 4.9e-288 Identity = 488/488 (100.00%), Postives = 488/488 (100.00%), Query Frame = 0
BLAST of MELO3C026941.2 vs. NCBI nr
Match: XP_004145869.2 (PREDICTED: phenolic glucoside malonyltransferase 1-like [Cucumis sativus]) HSP 1 Score: 833.6 bits (2152), Expect = 3.5e-238 Identity = 406/446 (91.03%), Postives = 428/446 (95.96%), Query Frame = 0
BLAST of MELO3C026941.2 vs. NCBI nr
Match: XP_022948949.1 (phenolic glucoside malonyltransferase 2-like [Cucurbita moschata]) HSP 1 Score: 588.2 bits (1515), Expect = 2.6e-164 Identity = 300/464 (64.66%), Postives = 356/464 (76.72%), Query Frame = 0
BLAST of MELO3C026941.2 vs. NCBI nr
Match: XP_008465394.1 (PREDICTED: phenolic glucoside malonyltransferase 1-like isoform X2 [Cucumis melo]) HSP 1 Score: 585.9 bits (1509), Expect = 1.3e-163 Identity = 292/329 (88.75%), Postives = 300/329 (91.19%), Query Frame = 0
BLAST of MELO3C026941.2 vs. NCBI nr
Match: XP_023523638.1 (phenolic glucoside malonyltransferase 1-like [Cucurbita pepo subsp. pepo]) HSP 1 Score: 584.3 bits (1505), Expect = 3.7e-163 Identity = 298/464 (64.22%), Postives = 355/464 (76.51%), Query Frame = 0
BLAST of MELO3C026941.2 vs. TAIR10
Match: AT5G39050.1 (HXXXD-type acyl-transferase family protein) HSP 1 Score: 302.4 bits (773), Expect = 5.2e-82 Identity = 182/476 (38.24%), Postives = 264/476 (55.46%), Query Frame = 0
BLAST of MELO3C026941.2 vs. TAIR10
Match: AT3G29590.1 (HXXXD-type acyl-transferase family protein) HSP 1 Score: 286.6 bits (732), Expect = 2.9e-77 Identity = 175/462 (37.88%), Postives = 259/462 (56.06%), Query Frame = 0
BLAST of MELO3C026941.2 vs. TAIR10
Match: AT5G39090.1 (HXXXD-type acyl-transferase family protein) HSP 1 Score: 278.5 bits (711), Expect = 8.0e-75 Identity = 172/456 (37.72%), Postives = 248/456 (54.39%), Query Frame = 0
BLAST of MELO3C026941.2 vs. TAIR10
Match: AT3G29670.1 (HXXXD-type acyl-transferase family protein) HSP 1 Score: 266.9 bits (681), Expect = 2.4e-71 Identity = 163/458 (35.59%), Postives = 247/458 (53.93%), Query Frame = 0
BLAST of MELO3C026941.2 vs. TAIR10
Match: AT3G29635.1 (HXXXD-type acyl-transferase family protein) HSP 1 Score: 259.2 bits (661), Expect = 5.0e-69 Identity = 167/440 (37.95%), Postives = 245/440 (55.68%), Query Frame = 0
BLAST of MELO3C026941.2 vs. Swiss-Prot
Match: sp|Q940Z5|PMAT1_ARATH (Phenolic glucoside malonyltransferase 1 OS=Arabidopsis thaliana OX=3702 GN=PMAT1 PE=1 SV=1) HSP 1 Score: 302.4 bits (773), Expect = 9.3e-81 Identity = 182/476 (38.24%), Postives = 264/476 (55.46%), Query Frame = 0
BLAST of MELO3C026941.2 vs. Swiss-Prot
Match: sp|Q9LJB4|5MAT_ARATH (Malonyl-CoA:anthocyanidin 5-O-glucoside-6''-O-malonyltransferase OS=Arabidopsis thaliana OX=3702 GN=5MAT PE=1 SV=1) HSP 1 Score: 286.6 bits (732), Expect = 5.3e-76 Identity = 175/462 (37.88%), Postives = 259/462 (56.06%), Query Frame = 0
BLAST of MELO3C026941.2 vs. Swiss-Prot
Match: sp|Q9LRQ8|PMAT2_ARATH (Phenolic glucoside malonyltransferase 2 OS=Arabidopsis thaliana OX=3702 GN=PMAT2 PE=1 SV=1) HSP 1 Score: 266.9 bits (681), Expect = 4.3e-70 Identity = 163/458 (35.59%), Postives = 247/458 (53.93%), Query Frame = 0
BLAST of MELO3C026941.2 vs. Swiss-Prot
Match: sp|Q9FNP9|AGCT_ARATH (Agmatine coumaroyltransferase OS=Arabidopsis thaliana OX=3702 GN=ACT PE=1 SV=1) HSP 1 Score: 256.9 bits (655), Expect = 4.5e-67 Identity = 161/458 (35.15%), Postives = 242/458 (52.84%), Query Frame = 0
BLAST of MELO3C026941.2 vs. Swiss-Prot
Match: sp|Q8W1W9|5MAT1_SALSN (Malonyl-coenzyme:anthocyanin 5-O-glucoside-6'''-O-malonyltransferase OS=Salvia splendens OX=180675 GN=5MAT1 PE=1 SV=1) HSP 1 Score: 256.1 bits (653), Expect = 7.6e-67 Identity = 164/463 (35.42%), Postives = 243/463 (52.48%), Query Frame = 0
BLAST of MELO3C026941.2 vs. TrEMBL
Match: tr|A0A1S3CNS2|A0A1S3CNS2_CUCME (phenolic glucoside malonyltransferase 1-like isoform X1 OS=Cucumis melo OX=3656 GN=LOC103503024 PE=4 SV=1) HSP 1 Score: 999.2 bits (2582), Expect = 3.2e-288 Identity = 488/488 (100.00%), Postives = 488/488 (100.00%), Query Frame = 0
BLAST of MELO3C026941.2 vs. TrEMBL
Match: tr|A0A1S3CP69|A0A1S3CP69_CUCME (phenolic glucoside malonyltransferase 1-like isoform X2 OS=Cucumis melo OX=3656 GN=LOC103503024 PE=4 SV=1) HSP 1 Score: 585.9 bits (1509), Expect = 8.5e-164 Identity = 292/329 (88.75%), Postives = 300/329 (91.19%), Query Frame = 0
BLAST of MELO3C026941.2 vs. TrEMBL
Match: tr|A0A0A0L9V3|A0A0A0L9V3_CUCSA (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_3G280980 PE=4 SV=1) HSP 1 Score: 468.0 bits (1203), Expect = 2.6e-128 Identity = 225/246 (91.46%), Postives = 237/246 (96.34%), Query Frame = 0
BLAST of MELO3C026941.2 vs. TrEMBL
Match: tr|A0A2I4HM45|A0A2I4HM45_9ROSI (phenolic glucoside malonyltransferase 1-like OS=Juglans regia OX=51240 GN=LOC109019354 PE=4 SV=1) HSP 1 Score: 434.1 bits (1115), Expect = 4.1e-118 Identity = 227/459 (49.46%), Postives = 304/459 (66.23%), Query Frame = 0
BLAST of MELO3C026941.2 vs. TrEMBL
Match: tr|W9QTK6|W9QTK6_9ROSA (Agmatine coumaroyltransferase OS=Morus notabilis OX=981085 GN=L484_021037 PE=4 SV=1) HSP 1 Score: 427.9 bits (1099), Expect = 3.0e-116 Identity = 231/465 (49.68%), Postives = 297/465 (63.87%), Query Frame = 0
The following BLAST results are available for this feature:
The following terms have been associated with this gene:
GO Assignments
This gene is annotated with the following GO terms.
The following mRNA feature(s) are a part of this gene:
Analysis Name: InterPro Annotations of melon v3.6.1
Date Performed: 2018-09-25
The following gene(s) are orthologous to this gene:
The following gene(s) are paralogous to this gene: None The following block(s) are covering this gene:
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