MELO3C018409 (gene) Melon (DHL92) v3.5.1
The following sequences are available for this feature:
Legend: CDS Hold the cursor over a type above to highlight its positions in the sequence below.GTGCCAAGCTGAGGAACTAGTAACTTCTCATCCTTTCTTATGAAACAATTTATAATTTTAATTTAGTGCCTTTTTCAATTGCTTTCTTCAAATTAGTTTATAATTTGAGCATTTCAAAATTTTCTGGGGGTGCACTGAACAGGACACAAATTCTCTTCAATGGAGTGTACCTGCAGTTCTCTGCGGTCACCGGCTTTAACCACAGTGCCTTCCTCTTTAGTTAGAACTGCGTTCTTAGAGAAGTCATTGTTGAATGCTCAGCCTTTGAAATTCTCGAATAAGAAGACGTACCCACTTGCTGGAACGCTCAAATTTCTTCACCCCAGAGCTCAAGCTTCTTCGAGTATGGATCATTGTTCTTATTGGTTTTGGTTTATTGATTCTTCTGTGTTTTAGTTGACTGGTACATTTGATTTTTTGATTATTTTGAACTCATTATAAGCTTGATTTGAGCGTTTGTTGCTGGAATTCTTCGGTAGAAGTAGAAGTAGAAATATGTTTTGTGGATAATGGTTGAGTTGGATCAAGGTAAAGTAGTTTTCGCATATGTGAAGATATGAATGTTATCTATTTAAGAAAAGAACTAGATACAAAAACAATTTGGGTATCCCATTGGTCATTTCTGAGAAAGGATAATGGAAATATGCACGGTTTATGTAAGGTACCTAGATAAGAATTTATTAGTATTGTCTTAGTCAGGGGTACAGGGGTGATTAAATAGAAAGTTAATATTGAATCTTGTTACGAATAAGAGGGTGATTGAGTGAAGACAAGGAATTTTGGAGTGATCTAGGGCTTGAGTTAGTACACTCAAGAGAGAGGTACCAATTGCCTTAAGCTTGGTTTATCTTGTATTTCTTCATAGTTATATTTCAATGTGTCCATATCTCATTCCAGTTCGGAAGTCTCCTAAAAGGTTTCTTCAAATTGCTCATATTTGCTCGTTTTCTGAGTTCTTCTGGGAGGCATTTGAAATGAGTGTAGAAAATCTTTAATAAGCTTGCTGGTTGGTTTTTGTTCACTGCTATATGATATCAATAGAATAATTCACCATCTACAAAATGTTCTTGTAACCTCCAGTAGCCTTTCAAGCATGATTTTTCGTCTTACTTTGGTAGTCATCAATGGATAAGTGGGAGAAATGGATATAAATATTGAAAATGATAGAAGAAAACTCGGTCCGTGTTTCATTGTTAATTTTCAAGATGACAGTTTCGTAATTATTTTTTCTAATAGAATGAAATTATATTTGTATGGTTTGTGATATTATGACAATCGTATCCATATTTTAAACATCCTCCTGGTTTTTGGAAATTGCAAATAGTACTTTTTGATTAAAATTTTATAGTTAGTTTAGTGCAATTGACAAACATGACTTACTCTATTTTTACAACCTTTTAATGTAAAATTATGATTGGTAGATTTCACCTATCATGGAGGTGTTTAAAAGCTTTTCTCAAAGTTCAGGTCTGCAAATGACAAAAGTTGTATTTCGCAATTATCATCCAAGTAGATGGTTCTTACTGCTTCCTTGCAGTTTTTAGCTCACATTTCTTGATTTTGACAAGGCACAAGCAATTTTAGCTCAGAGGCAGCTCCCACAATTTCAAAGAAGGAAGATTCAAAAAACGAGGATCTTGTATTTGTTGCTGGTGCTACAGGAAAAGTTGGTTCAAGAACAGTGAGGTAAGTTCGATCTCTTGCTTCGTATTGGAGCAATTCATCTTTCAGTTGATCTCTGCACGCTATATGCTAAAGAGCTGTGAATCCTAACCAGGGAGCTTTTGAAACTTGGATTCCGGGTAAGAGCCGGTGTAAGGAGTTCTCAGAAGGCAGAAACTCTTATTGAGGTAAAAAAACATTGAGTATTGATAAAAACATTTCACTACCATTTTTTAGTAACAGCTTGTTATTGATAAAAACTTCATTTATATGCAGAGTGTTAAAAAGATTAATCTTGATGAAGGTAATGCAAGTTCGAAAAGTCCCCCCAAACCCCGCCCTGTTACCCATAGCATCTATTTTCTCTTGTATCTACTTGTCAAAAATGTAAAGGGAACACTGGATATTCTTGAATAATAAAAATTCCAAGAAAATAACAGATAGTTTTTGGTCTTTAGCCCAGCTGTAGAAAAGCTTGAAACTGTGGTATGTGACTTGGAGAAACCAAATCAGATTGGAGCTGCGATAGGGAATGCATCAATAGTTATTTGCTGCATTGGTGCAAGTGAGAAAGAGATTTTTGACATTACTGGACCTTATCGAATTGACTATCTGGCTACCAAAAATTTGGTTGAAGCAGGTAAGAAGATGCTTTTTGGGTGCTTTATTTTTCATTATTTATTTTTAATTTTAAAACATATATGAAATAGGAATACTATGGTTCTCTTCATTAGAACCATACCTTCCAAGATGCAAGAAATTTTAATCACATAAGAGATGGATAAGAGAGGAGAAAACAAAATCATAGAAATGAAGAAAGGGAAAGATAGAAGAGAATATGAGTGGAATTAGGGAAACTGAAAGGAGAAACACAGCAATTCAGTAATCAGTTAAATATTTAAGTTTACAATCTTAAAGATAGTAGACAAATATCCAAAGATGACAGTAGTCTGAAATATCTTCTATTGTCATGACTAACAACAATATCTCTAGCTATTCAACGCCAATCAGTCAATCACATATGCTGGTGTAAATGATCCAGAGTATGTGATTCTAGGATTTGATTCTATTATATTACTGTTTTTAATAAAGATGTATTGTTCTTTTGGTGGAGCTTACTAGCTTTTAATGCGTCAGCTATAAAGCTCTCATATTTAACCTCCTTAAAGTTCTTGAGGTTAAGAGGAAATAAGATTGACAAAATTTCTGCATGTAGCAACTGTTGTAAAAGTGAAGCACTTTATTCTGCTTACGTCCCTGGGAACCAACCAAATTGGATTTCCTGCTGCCATTCTTAAGTAAGTGTCCATGGATTAGTTTTTCTTAAATGATTGATAAATTTTACTTTTGTTGTTTATAGTAGTTCAGCTTTCACAAAAGATGAATTTTTTTCGTTCCATAATTTTAATGTTAAATAACTAATTTTGGTAACTTGCTTCTAAAGTTTGTTTTGGGGAGTCCTCTTGTGGAAAAGGAAGGCAGAAGAAGCATTGATTGCAAGTGGTCTTCCTTATACAGTAAGAAAATACTAGTACCTGTTCAGTATATATTTGTGGTGACCCAGAGACAGTTTGATAGTATTTTTGAATGTTGTTTCCTTTTTCAAAACCATGCTTATTTATTTACATAAAAAAAAAAGCGTTTTTGAATTCCTAGACCCATTTTAGAAACTTAAAAAGTTTTCAAAAATCCAACTTTGTTTTTAACAAATTTTTGTTTTGTTTTTCTTTTATATTTAAATTTAACAAGATTCCAGAAGTGTTTTCAGAAAGTTATAAATTGAGCTAGGAAAATAATGGGTCTAAGCAGTTGCCAGTTGGTATAACCTTAATAGTCAAAGGTCGATTTCATCAAAAGCAAAATCGTTATCAAATGGGCGTTTAATGTTTGATTTATTTAAAATATGTTTTTCAGATAGTGAGACCTGGAGGCATGGAGAGACCTACAGATGCTTTCAAGGAAACTCATAATACTACTCTTTCGCCAGAAGATACCTTATTTGGTGGTCTAGTGTCAAACCTTCAGGTATATTTATAAATTTTGATGTGCCAGATGATCTCAATCCTGAATAGCTGTAATTGTAATAACATTTTTATCTGTATCAGTGAAGCTAATAATGACTTGGAATTATGAAAGACCGATTTTATATGCCACTATAAGCTTTTTTGTTCTCTTTATTAGCTGGATTTGGATACACGCCGGTAATTCTCTAAAGATATGTATTCTCACAAAACTCAAATGAATTTTTAAAACAATTTCTGCATCTTGTAAACTCTCACATCATTTTTGTTTTACTATTGAGACTTGTTAGATTTAGTGAGCTGGGTCCAGGGGACGATTTGACCTTATATTTTTTTTTACTTTGTTTATTCCTTGATGTAGTCTATTTATTTCCCCCTTGTATCATTTGTTCTTATCAGAAAATAATAAAAAGCGAGATTCGCACCATGGTTTTTCTCCCCGAACTAGAGTTTCCATGTAAAAAATTGTGTTTGCTCTTCGTCTCTTTTTTCAATATGGTATCAGAGTGAGATAGTGATCAAACCCTAGATAACACACCCCTTGGACACCAAGCAGAGGAGAGCCGTCGGTACAAGCACCACCGTCGATGCTTGGATCAGTGCCGCCATGAATGAATGGTTCTGCCATCTTCGGACAACGGCGGGAAACTTAATTCCGCAGCTTTTTTCATCATCCGCGTCGCCAGGAACCACCTACACGCTGGCCCATCCTGTTCAGACACCGCCAAGCGACCTAGCTGTGCCACCCTTGTCTTCATTTGCGACCTGTAGTGTCCCCCACGTGCCGATTCATGTGCTGCCACCTAATTCCGATTGGCCACCACCGCTTCTGTAGTCAAATTTGTATGTCCTTTCACCCAATGACCTTAGTTACCATACCGATGTTAGGAACCCTAAAATTCACTCAACATTTGAGGTTGATGAGTCTTCAACACATTCCAACCCTAAGGTGCAAGCCTCCGCTTCTTCTTCGGTATAGGTCACTAACAACTAGAAAGACTTTGACAACAGATTGCAGCAATTGAGGCTACCTTAGGGGCGACATCCAACACTCTGGGTCATGACCTTCATACACCTATATCGATGTACACTTTATCCTCTTCTTATGTGACTAATACAGTGGCACAGTCTGCATAATATTTTTCAGGGAAAATTTGAACGACAATAACCATTTCTCATGGTCTAAGTTAGTGAAAATGGTCCTTGAAGGACGACATAAATTTGGTTTTTTGACAGGAAAGAAATACCTCGTCCTCCACCGGGAGACCCACAGAAACCATACTGGAAGGGAGAGGACTCTCTTCTTTGATCCACATTGATCAATAGTATGGAGCCACAGATCGGAAAACCCTTATTGTATGCTGCAATTGCTGAGGATATTTGGGACTCAACCTAGGAACTATATTCTAAACGTTAGCATGCCTCTCGTCTATACACGCTAAGGAATCAAGTTCATGAATGCAAGCAAGGAACCATGGATGTCACATCCTTTTTTAATAAGCTTTCTCTTATCTGGCAGGAAATTGATCTATGTAGAGAACTAGTCTGGACCAGCCCCGATGATGGTTTGCAATACTTTAGAATTGAAGAAATTGACAAGATTTATGACTTTCTTACTGGTCTTAATCCTAAGTTTAATGTAGTTCGAGGGTGTATACTAGGCTAGAGATCAATTCCATCCCTGGTGGAAGTCTGTTATCAAATCCGCTTCGAGGAGGATCGTACAAGTGCTATGAGCATTTCGGCAACTCCTACTATTGACTCTGTTGCTTTTAGTGCGCGATTCTCTACCAGTGGCAATGACAAGCACAATGGAAAACCGATTCCTGTCTGTGAGCATTGCAAAAAACAATGGTATACCAAGGAACATGTTGAAAGTTACATGTTCGTCCCCCAGGAGGTAAGAAACTCTCTCTCAACGACAAACAGAACACAGGGTGGGCGTATATGAGTGAGTCCATTGGTTCCTCTAAACATTTGTGTCCTATATTCCATGTGCTTGCAACGAAACAATTAGAATTGCAGATGACTCCTTCGCCCTCATTGTTGGGAAGGGGAAGATTTCTCCCAGTATAGGACTCTCCTTACATAATGTTTTACATGTGACCAAAATTTCTTATAATCTGCTATCTATAAGCAAGATTACTCATGAGTTAAACTATAAAGCAATATTCTTATCGGATTCTGTCTCTTTTCAGGACTTGAGTTCTTGGCAGATGATTGACATTGCTCGGCATATTAGGGGACTCTACCTCCTTGATGATGACACCTCTTCTAGTAGCACTGCTAGGACTAGTCTTTTATCTTCCTATTTTACTACTTCTGAAGAAGATTGTATGCTGTGGCATTTTCGTTTAGGCCACCCTAATTTCCAATATGTGACATTTATTTTCTCAACTTCTCTCTAAACTTGATGTGGGTACCTTACCTTGTGACATATGTATTCGGGCTGAACAACATCGGGTTTTTTTCCTTCACAACCATACAAACCAACCTACCCTCGTTCATAGTGATGTCTGGAGACCATCCAAGATAATTATCTCATCTGGGAAACGGTGGTTCGTAATCTTTATTGATGATCATATCCGTCTTACTTGGGTTTTTCTTGTCTCTGACAAATCTAAGATCACCTCTGTCTTTAGGGACTTCTATAACACTGTAGAAACGCAGTTCAATTCAAATATTGCTATTTTGCGAAGTGACAATGGTCGTGAGTTCCAAAACAACACCCTCAATGAGTTTTTGCCCTCCAAAGGTATTATCCACCAAAGTTCCTGTGCCTACACCCCCAACAAAATGGGGTAGCCGAACGCAAAAACTGTCACCTTTTGGAAGTCGCTCGTTCTCTTATGTCGTCTACTTCCCTTCCTTCCTATCTTTGGGGCGATACTATTCTCATTACAACCCATCTTATCAACTAAATGCCTTCTCATGTCCTATATCTCCAGACCCCTTAGAGTGTCTTAAAGAGTCATATCCCTCTACTCGCTTCATTTCTGATGTTCCTCTTCGAGTATTCAGGTGCACCGCCTATGTTCATAACCATGGTCTTAACCCATCTAAGTTTACCCCTCGAGCCCAGACATGTGTTTTTGTTGGTTACCATCTGCATCAACGAGGCTATAAATGCTTTCATTCGTCTTCTCGTAAGTAATTTGTCTCCATGGATGTTACCTTTCTTGAGAACCGTCCTTTCTTTCCCGTTAGCCTACTTTAAAGGGAGAGTGAGAGTGAAGAGTCTAACTCTAACCGAGTAATATCCGTAGAGTCTACCAATTCTACTCTTGTTATCATACCAAGTCCAGAGCCTCACAACAAAGTCCTGCCTACGAATCAAGTTCATTGGAAAACCTACTATAGGAGGAATCTTAGAAAGGAAGTTAGGTCTTCTGCTAATCAGTTGGCTCCGGTCCAAGATTGAAGATTTTGAACCTTCACGAGATCAAGGTATGACTGATTCTATTGACTCACATATTGACAGTAAAATGAGTGAAAGTGATAGGTCCAAGACGGCTATTCCTAAAAATATAGGTGAACATGGTAATGTTTATACCGAGGTCATCCTGGATGGAAGGGGCAGTAATGATGAGAATGAAGTCAGTGCAAGAGTTACTGAAAATGAAACTAGAGAGAATCGTTAAGAAAATATCAGTAAGTATGATCCATCTCTTGATCTGCCTATTGCACTAAAGAAGGGTACCAGGTTCTGTATTAAGCATGAAAAACAATTATAGTAGGGAGGATCGTTAAGAAAATCTTTATGAGATTGATTAAAAAATTTGACTGTTAGTGTATAGCAGATGCACACCTTTATGTATAATTTTCTCTCAAAACTCAACATTACGACCTACTTAGAAACTAACCAATGAAGAAAAACAATTTTCGTGGACCTCTAATTTACTATAGGCCCTTTGAGCTGAGTCACATGACTTTTACCAAATATAAAGTCAGCACTCAACATAGGTATATGTAGTTTGGCACTCCCATTGGTGTATGTACTTTGCCTTTTCTTTATGGAACTACTGTAGGTTTCAGAACCTTGTGCTTGTTCTTACAGGAAAAAAGAAAAAAAAAATTAATAATAAAGAGAAAAAAGAGATAATTTTATTTTTCATTTCAGGTTGCAGAGCTAATGGCATGCATTGCAAAAAATCCTGATCTTTCATACTATAAAGTGCTAGAAGTAATTGCTGAGACAACTGCACCATTGATTTCCCTGGAGGATCTTCTTAGAAAAATACCATCTAAAGTTGCAAATGGTTTCCCAGAGAAGGTCAGTTGTTTCTGTAAGTAGAAGGGTTAGAAATTCCTCATAAGAATTCATACAATGTTTCATTTTTCTAAAACATAGACTCATTTTATGTTCTTAGTTTTAACAATTCATGATAACCTGCAGAGAACAATTTTGTCAGAACAGCTTCATATGTATTTAAGAATATCATTTAAATTTGCTTGTACATTTGAACTCAGCACCGAAGTTATTATTAAAATTATCCTCTTGATTACTTCATATATCTTGGAGGTTATGCGTATGTTTTTGCCCTGCTGCAGTTAGTTTATCACCAGAGACTGATTGGGAAACTGTGACTGAACCATAGAACTGAAATAATATTGAAATATGAAATTTACAAGAACCACGAGAAAACCTAAGAGGTCTAAACTAGCAATGACTCTCCCTCTCTTGAGTATTCTTATTCAAGCTTAAAGCCACCAAACAATTATCTACTTCTATCCTTTCCCGCTCATACTGTGTTTAACAAATCTCCCTAACAAATTTTCTAACTAATTTCTAACGTCTCCTTAATCCCCTAATAATGTCCCCAATTTTATCCTAATAGCATTCTTATCAAACTTATTATTCAAAAACCTGAATCAACAACCTTACCGAAATTGATTTTTTTTTTTAGGTAAATAAATAAAAAGTAAACCAATCAAGTTCCTTGCTGATTAAAAATCTAAAACCAATCTTTATTTTCCTTTAAAAAGAACAACACTAACTGAGTCTAGTCTAATTGACTGCTCTTCTTGTCAGTTTTTTCAAATTTATCCACCCTTATTTTTTTGCATATTTTATAATTAACTAGATGGGAAATCCAAAACGTGTTTCTATTCACAAATGATCTTCCAAATACTTCATGAAATTAGATACTTGCTGGATCTGTGCTAGGAATATGGTGCTGCACAAACTGTCGATTCATCTCCAAAACAGTCGAGTATTGCCAAAGAAAAGGAGTCAGCCGAAGAAAATGTGACAGAACAGCCACCATCTCAAAGTGTTTCATCAGAACAGTTGAACATCAGAAAGGAAAAGGAATTAGCAGTAGCAAATGCTACAAAACAGTCATCATCACCCTACATTGCGTAAGACAATAGGGAAGCGGAAGAGGCTGGTCTATATTTCTTGAACTTTTCTTTTTCTCCATATGCAGAACAAATGTTCAAGTCATCATGCTCAAATGCCTAGGTTAACAGCTAATAAGATAGTAAGAATGATAAATGAAGTCCAAATTGGTAGGTTATTTCTCCAGTATATATATGATTATCTTGTCCTCTTATGACTGATTTTGATTCACACCAAAGATGATAAACACTGAAGAAAGATTGTTATTTCTGTCCATGAATTTTCCAAGACCGTAGGTTCTGTGAAAATTGTATATTATCCTTGGCAGTTAATAGTTATCTTACATTGTGTCTTCTGCCAGGTATGAGGATTTAAAACCTCCAACATCTCCTACTCCAGCTGCACCTGTTGGGAAAATAGATTTAAATGTTGTCCAAGGAGTCTCATCTAGTGCTCAAACTAGTTCAGTAGAGGCGTCTTCTGAGATTGCTGAGGCAAATCCCCCACCTGCACCTGCTCCTGAAAAAGCAGCGACATTGAAACCTCTCTCCCCTTATATAGCGTAAGTGTCTTATATTAATGAAGTTTATAGTGAAACTCTGTGGTCCAAAGAAAGAACGTCATTGCAAGTTCGTTGCCACTGCTTGCATTAGAATCAACAACCACATGCAAAGTCCTGAGGGGATATAGAGTTCCACTTCCAATATTCCTATATTTGCTCACTGGATGACAAGATTTTTTATCATTCTGATTTCATTACTTTGTATCATCTTACTGATCTTGCACTTCATATTATTTCTTCCAGATATGAAGATTTAAAGCCTCCTACATCACCATCTCCTAGTGTACCTTCCCTATCATTTTCTTCAGCATCTACCTCAAACGGTCCACCTCAACCTGCTACCTATGCCATAAACAGCCCATCGGCGATTCCAGAGGCAGAAGACTCAAAGAGTGAAGCACATCTTCCCAAGCCGAAGAAACAACAACCGCTGTCACCTTTTACCATGTAAGTTCCTTCCTAGTTCTTTTATGTTCCTGATATAAGAGAGTCGGTGTCTGGGAGAATTCTTGAAAAAATGATTATGAACTCATCAAGGCTGAAGTAAAAAAGAGGAGCCTTTTATATAGGCTGCCTAGCTAATGAACAGAGCTGGATAATTAGAAACCAGCTACAAAGGGTGCAATAGTAAAACATCTGCTAGAAGGCATACTCCAAACTAAGGAAAACCCCAAAAGGCCCTTACAACACTGCCTTAGTTGATTTCTCTGTAAAAGTTGCATGTTATATTATACAAAACTTCGACCAGCTGATAGGGTTAGCTTTTGTTTAGCATATAGATCGAGGTTGAACACCAAAAATTTAAGTGAATTCTATGTTAGTGATTAGGAAAGGGTAAAAGGTAGACAGTCATGTTTTCTCATTTTATATTTGATCAAACCAGGTATGAGGATTTGAAGCCTCCGGCCTCTCCAACGCCATCTCTTTGAAAATCTTAAAGAAAGAGCTTTCAGTTTTCTGCTAGTTACAATTTGGACAGAGACAAACAATTGATGAGGGGTGATACCGCCAGAGTATATACATCTTTATATGTAATAATACCAACCTTTTGTGTCTGAAGAACATTTATTAATTTTTCCCGTCCAGATTCCATAGACGACACTGTTGAATGTGCTTTTGCAACCTCCAAGTTGCTTATTGTTTTGGCTGTAATTTCTATCAAAGTTACAATTTTGTTGGCATTAGCTTCATTCTGGTTTTTGAACTATATTGGGTTTTTCCAAAATACCACTACGTTTTCTCT GTGCCAAGCTGAGGAACTAGTAACTTCTCATCCTTTCTTATGAAACAATTTATAATTTTAATTTAGTGCCTTTTTCAATTGCTTTCTTCAAATTAGTTTATAATTTGAGCATTTCAAAATTTTCTGGGGGTGCACTGAACAGGACACAAATTCTCTTCAATGGAGTGTACCTGCAGTTCTCTGCGGTCACCGGCTTTAACCACAGTGCCTTCCTCTTTAGTTAGAACTGCGTTCTTAGAGAAGTCATTGTTGAATGCTCAGCCTTTGAAATTCTCGAATAAGAAGACGTACCCACTTGCTGGAACGCTCAAATTTCTTCACCCCAGAGCTCAAGCTTCTTCGAGCACAAGCAATTTTAGCTCAGAGGCAGCTCCCACAATTTCAAAGAAGGAAGATTCAAAAAACGAGGATCTTGTATTTGTTGCTGGTGCTACAGGAAAAGTTGGTTCAAGAACAGTGAGGGAGCTTTTGAAACTTGGATTCCGGGTAAGAGCCGGTGTAAGGAGTTCTCAGAAGGCAGAAACTCTTATTGAGAGTGTTAAAAAGATTAATCTTGATGAAGCTGTAGAAAAGCTTGAAACTGTGGTATGTGACTTGGAGAAACCAAATCAGATTGGAGCTGCGATAGGGAATGCATCAATAGTTATTTGCTGCATTGGTGCAAGTGAGAAAGAGATTTTTGACATTACTGGACCTTATCGAATTGACTATCTGGCTACCAAAAATTTGGTTGAAGCAGCAACTGTTGTAAAAGTGAAGCACTTTATTCTGCTTACGTCCCTGGGAACCAACCAAATTGGATTTCCTGCTGCCATTCTTAATTTGTTTTGGGGAGTCCTCTTGTGGAAAAGGAAGGCAGAAGAAGCATTGATTGCAAGTGGTCTTCCTTATACAATAGTGAGACCTGGAGGCATGGAGAGACCTACAGATGCTTTCAAGGAAACTCATAATACTACTCTTTCGCCAGAAGATACCTTATTTGGTGGTCTAGTGTCAAACCTTCAGGTTGCAGAGCTAATGGCATGCATTGCAAAAAATCCTGATCTTTCATACTATAAAGTGCTAGAAGTAATTGCTGAGACAACTGCACCATTGATTTCCCTGGAGGATCTTCTTAGAAAAATACCATCTAAAGTTGCAAATGGTTTCCCAGAGAAGGAATATGGTGCTGCACAAACTGTCGATTCATCTCCAAAACAGTCGAGTATTGCCAAAGAAAAGGAGTCAGCCGAAGAAAATGTGACAGAACAGCCACCATCTCAAAGTGTTTCATCAGAACAGTTGAACATCAGAAAGGAAAAGGAATTAGCAGTAGCAAATGCTACAAAACAGTCATCATCACCCTACATTGCGTATGAGGATTTAAAACCTCCAACATCTCCTACTCCAGCTGCACCTGTTGGGAAAATAGATTTAAATGTTGTCCAAGGAGTCTCATCTAGTGCTCAAACTAGTTCAGTAGAGGCGTCTTCTGAGATTGCTGAGGCAAATCCCCCACCTGCACCTGCTCCTGAAAAAGCAGCGACATTGAAACCTCTCTCCCCTTATATAGCATATGAAGATTTAAAGCCTCCTACATCACCATCTCCTAGTGTACCTTCCCTATCATTTTCTTCAGCATCTACCTCAAACGGTCCACCTCAACCTGCTACCTATGCCATAAACAGCCCATCGGCGATTCCAGAGGCAGAAGACTCAAAGAGTGAAGCACATCTTCCCAAGCCGAAGAAACAACAACCGCTGTCACCTTTTACCATGTATGAGGATTTGAAGCCTCCGGCCTCTCCAACGCCATCTCTTTGAAAATCTTAAAGAAAGAGCTTTCAGTTTTCTGCTAGTTACAATTTGGACAGAGACAAACAATTGATGAGGGGTGATACCGCCAGAGTATATACATCTTTATATGTAATAATACCAACCTTTTGTGTCTGAAGAACATTTATTAATTTTTCCCGTCCAGATTCCATAGACGACACTGTTGAATGTGCTTTTGCAACCTCCAAGTTGCTTATTGTTTTGGCTGTAATTTCTATCAAAGTTACAATTTTGTTGGCATTAGCTTCATTCTGGTTTTTGAACTATATTGGGTTTTTCCAAAATACCACTACGTTTTCTCT ATGGAGTGTACCTGCAGTTCTCTGCGGTCACCGGCTTTAACCACAGTGCCTTCCTCTTTAGTTAGAACTGCGTTCTTAGAGAAGTCATTGTTGAATGCTCAGCCTTTGAAATTCTCGAATAAGAAGACGTACCCACTTGCTGGAACGCTCAAATTTCTTCACCCCAGAGCTCAAGCTTCTTCGAGCACAAGCAATTTTAGCTCAGAGGCAGCTCCCACAATTTCAAAGAAGGAAGATTCAAAAAACGAGGATCTTGTATTTGTTGCTGGTGCTACAGGAAAAGTTGGTTCAAGAACAGTGAGGGAGCTTTTGAAACTTGGATTCCGGGTAAGAGCCGGTGTAAGGAGTTCTCAGAAGGCAGAAACTCTTATTGAGAGTGTTAAAAAGATTAATCTTGATGAAGCTGTAGAAAAGCTTGAAACTGTGGTATGTGACTTGGAGAAACCAAATCAGATTGGAGCTGCGATAGGGAATGCATCAATAGTTATTTGCTGCATTGGTGCAAGTGAGAAAGAGATTTTTGACATTACTGGACCTTATCGAATTGACTATCTGGCTACCAAAAATTTGGTTGAAGCAGCAACTGTTGTAAAAGTGAAGCACTTTATTCTGCTTACGTCCCTGGGAACCAACCAAATTGGATTTCCTGCTGCCATTCTTAATTTGTTTTGGGGAGTCCTCTTGTGGAAAAGGAAGGCAGAAGAAGCATTGATTGCAAGTGGTCTTCCTTATACAATAGTGAGACCTGGAGGCATGGAGAGACCTACAGATGCTTTCAAGGAAACTCATAATACTACTCTTTCGCCAGAAGATACCTTATTTGGTGGTCTAGTGTCAAACCTTCAGGTTGCAGAGCTAATGGCATGCATTGCAAAAAATCCTGATCTTTCATACTATAAAGTGCTAGAAGTAATTGCTGAGACAACTGCACCATTGATTTCCCTGGAGGATCTTCTTAGAAAAATACCATCTAAAGTTGCAAATGGTTTCCCAGAGAAGGAATATGGTGCTGCACAAACTGTCGATTCATCTCCAAAACAGTCGAGTATTGCCAAAGAAAAGGAGTCAGCCGAAGAAAATGTGACAGAACAGCCACCATCTCAAAGTGTTTCATCAGAACAGTTGAACATCAGAAAGGAAAAGGAATTAGCAGTAGCAAATGCTACAAAACAGTCATCATCACCCTACATTGCGTATGAGGATTTAAAACCTCCAACATCTCCTACTCCAGCTGCACCTGTTGGGAAAATAGATTTAAATGTTGTCCAAGGAGTCTCATCTAGTGCTCAAACTAGTTCAGTAGAGGCGTCTTCTGAGATTGCTGAGGCAAATCCCCCACCTGCACCTGCTCCTGAAAAAGCAGCGACATTGAAACCTCTCTCCCCTTATATAGCATATGAAGATTTAAAGCCTCCTACATCACCATCTCCTAGTGTACCTTCCCTATCATTTTCTTCAGCATCTACCTCAAACGGTCCACCTCAACCTGCTACCTATGCCATAAACAGCCCATCGGCGATTCCAGAGGCAGAAGACTCAAAGAGTGAAGCACATCTTCCCAAGCCGAAGAAACAACAACCGCTGTCACCTTTTACCATGTATGAGGATTTGAAGCCTCCGGCCTCTCCAACGCCATCTCTTTGA MECTCSSLRSPALTTVPSSLVRTAFLEKSLLNAQPLKFSNKKTYPLAGTLKFLHPRAQASSSTSNFSSEAAPTISKKEDSKNEDLVFVAGATGKVGSRTVRELLKLGFRVRAGVRSSQKAETLIESVKKINLDEAVEKLETVVCDLEKPNQIGAAIGNASIVICCIGASEKEIFDITGPYRIDYLATKNLVEAATVVKVKHFILLTSLGTNQIGFPAAILNLFWGVLLWKRKAEEALIASGLPYTIVRPGGMERPTDAFKETHNTTLSPEDTLFGGLVSNLQVAELMACIAKNPDLSYYKVLEVIAETTAPLISLEDLLRKIPSKVANGFPEKEYGAAQTVDSSPKQSSIAKEKESAEENVTEQPPSQSVSSEQLNIRKEKELAVANATKQSSSPYIAYEDLKPPTSPTPAAPVGKIDLNVVQGVSSSAQTSSVEASSEIAEANPPPAPAPEKAATLKPLSPYIAYEDLKPPTSPSPSVPSLSFSSASTSNGPPQPATYAINSPSAIPEAEDSKSEAHLPKPKKQQPLSPFTMYEDLKPPASPTPSL*
BLAST of MELO3C018409 vs. Swiss-Prot
Match: TIC62_PEA (Protein TIC 62, chloroplastic OS=Pisum sativum GN=TIC62 PE=1 SV=2) HSP 1 Score: 412.5 bits (1059), Expect = 5.1e-114 Identity = 237/401 (59.10%), Postives = 281/401 (70.07%), Query Frame = 1
BLAST of MELO3C018409 vs. Swiss-Prot
Match: TIC62_ARATH (Protein TIC 62, chloroplastic OS=Arabidopsis thaliana GN=TIC62 PE=1 SV=1) HSP 1 Score: 405.2 bits (1040), Expect = 8.2e-112 Identity = 233/390 (59.74%), Postives = 277/390 (71.03%), Query Frame = 1
BLAST of MELO3C018409 vs. Swiss-Prot
Match: Y2446_ARATH (Uncharacterized protein At2g34460, chloroplastic OS=Arabidopsis thaliana GN=At2g34460 PE=2 SV=1) HSP 1 Score: 131.3 bits (329), Expect = 2.3e-29 Identity = 102/277 (36.82%), Postives = 150/277 (54.15%), Query Frame = 1
BLAST of MELO3C018409 vs. Swiss-Prot
Match: PTA16_ARATH (Protein plastid transcriptionally active 16, chloroplastic OS=Arabidopsis thaliana GN=PTAC16 PE=1 SV=1) HSP 1 Score: 77.0 bits (188), Expect = 5.1e-13 Identity = 83/318 (26.10%), Postives = 146/318 (45.91%), Query Frame = 1
BLAST of MELO3C018409 vs. Swiss-Prot
Match: Y2766_ARATH (Uncharacterized protein At2g37660, chloroplastic OS=Arabidopsis thaliana GN=At2g37660 PE=1 SV=2) HSP 1 Score: 69.3 bits (168), Expect = 1.1e-10 Identity = 55/193 (28.50%), Postives = 84/193 (43.52%), Query Frame = 1
BLAST of MELO3C018409 vs. TrEMBL
Match: A0A0A0K3D2_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_7G075630 PE=4 SV=1) HSP 1 Score: 730.7 bits (1885), Expect = 9.5e-208 Identity = 380/398 (95.48%), Postives = 387/398 (97.24%), Query Frame = 1
BLAST of MELO3C018409 vs. TrEMBL
Match: M5VMA7_PRUPE (Uncharacterized protein OS=Prunus persica GN=PRUPE_ppa017158mg PE=4 SV=1) HSP 1 Score: 475.7 bits (1223), Expect = 5.5e-131 Identity = 249/347 (71.76%), Postives = 286/347 (82.42%), Query Frame = 1
BLAST of MELO3C018409 vs. TrEMBL
Match: A0A0B0PUD5_GOSAR (Protein TIC 62, chloroplastic OS=Gossypium arboreum GN=F383_11276 PE=4 SV=1) HSP 1 Score: 470.7 bits (1210), Expect = 1.8e-129 Identity = 257/381 (67.45%), Postives = 291/381 (76.38%), Query Frame = 1
BLAST of MELO3C018409 vs. TrEMBL
Match: A0A0D2RK20_GOSRA (Uncharacterized protein OS=Gossypium raimondii GN=B456_005G229200 PE=4 SV=1) HSP 1 Score: 470.3 bits (1209), Expect = 2.3e-129 Identity = 255/370 (68.92%), Postives = 288/370 (77.84%), Query Frame = 1
BLAST of MELO3C018409 vs. TrEMBL
Match: W9R8Q4_9ROSA (Uncharacterized protein OS=Morus notabilis GN=L484_013631 PE=4 SV=1) HSP 1 Score: 457.6 bits (1176), Expect = 1.5e-125 Identity = 256/402 (63.68%), Postives = 297/402 (73.88%), Query Frame = 1
BLAST of MELO3C018409 vs. TAIR10
Match: AT3G18890.1 (AT3G18890.1 NAD(P)-binding Rossmann-fold superfamily protein) HSP 1 Score: 405.2 bits (1040), Expect = 4.6e-113 Identity = 233/390 (59.74%), Postives = 277/390 (71.03%), Query Frame = 1
BLAST of MELO3C018409 vs. TAIR10
Match: AT2G34460.1 (AT2G34460.1 NAD(P)-binding Rossmann-fold superfamily protein) HSP 1 Score: 131.3 bits (329), Expect = 1.3e-30 Identity = 102/277 (36.82%), Postives = 150/277 (54.15%), Query Frame = 1
BLAST of MELO3C018409 vs. TAIR10
Match: AT4G31530.2 (AT4G31530.2 NAD(P)-binding Rossmann-fold superfamily protein) HSP 1 Score: 80.1 bits (196), Expect = 3.4e-15 Identity = 93/295 (31.53%), Postives = 130/295 (44.07%), Query Frame = 1
BLAST of MELO3C018409 vs. TAIR10
Match: AT3G46780.1 (AT3G46780.1 plastid transcriptionally active 16) HSP 1 Score: 77.0 bits (188), Expect = 2.9e-14 Identity = 83/318 (26.10%), Postives = 146/318 (45.91%), Query Frame = 1
BLAST of MELO3C018409 vs. TAIR10
Match: AT2G37660.1 (AT2G37660.1 NAD(P)-binding Rossmann-fold superfamily protein) HSP 1 Score: 69.3 bits (168), Expect = 6.0e-12 Identity = 55/193 (28.50%), Postives = 84/193 (43.52%), Query Frame = 1
BLAST of MELO3C018409 vs. NCBI nr
Match: gi|659109787|ref|XP_008454879.1| (PREDICTED: protein TIC 62, chloroplastic [Cucumis melo]) HSP 1 Score: 767.7 bits (1981), Expect = 1.0e-218 Identity = 398/398 (100.00%), Postives = 398/398 (100.00%), Query Frame = 1
BLAST of MELO3C018409 vs. NCBI nr
Match: gi|449438462|ref|XP_004137007.1| (PREDICTED: protein TIC 62, chloroplastic [Cucumis sativus]) HSP 1 Score: 730.7 bits (1885), Expect = 1.4e-207 Identity = 380/398 (95.48%), Postives = 387/398 (97.24%), Query Frame = 1
BLAST of MELO3C018409 vs. NCBI nr
Match: gi|657990248|ref|XP_008387345.1| (PREDICTED: protein TIC 62, chloroplastic [Malus domestica]) HSP 1 Score: 483.8 bits (1244), Expect = 2.9e-133 Identity = 262/406 (64.53%), Postives = 309/406 (76.11%), Query Frame = 1
BLAST of MELO3C018409 vs. NCBI nr
Match: gi|694400417|ref|XP_009375300.1| (PREDICTED: protein TIC 62, chloroplastic isoform X1 [Pyrus x bretschneideri]) HSP 1 Score: 483.0 bits (1242), Expect = 4.9e-133 Identity = 265/408 (64.95%), Postives = 310/408 (75.98%), Query Frame = 1
BLAST of MELO3C018409 vs. NCBI nr
Match: gi|694400419|ref|XP_009375301.1| (PREDICTED: protein TIC 62, chloroplastic isoform X2 [Pyrus x bretschneideri]) HSP 1 Score: 483.0 bits (1242), Expect = 4.9e-133 Identity = 265/408 (64.95%), Postives = 310/408 (75.98%), Query Frame = 1
The following BLAST results are available for this feature:
GO Assignments
This gene is annotated with the following GO terms.
This gene is associated with the following unigenes:
The following mRNA feature(s) are a part of this gene:
The following transcribed_cluster feature(s) are associated with this gene:
Analysis Name: InterPro Annotations of melon
Date Performed: 2016-09-28
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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