MELO3C008116.jh1 (gene) Melon (Harukei-3) v1.41
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Overview
Sequences
The following sequences are available for this feature:
Legend: exonstart_codonCDSpolypeptidestop_codon Hold the cursor over a type above to highlight its positions in the sequence below.TCCAAAGGCTTTTGTAACCGAGCAAAGCCATAACAGTTGATCACTTCCATGAGAGAGCAAGAGAGAGAAAGCTCATACTTTTTGTAACCATAACGCAACGCAATGCAATGCAACCCACCATCGAAAATCCTCAATCCATTCCTTTTCTCTACGCTTCATGATCATCTCTCTCCATCAATCCATAATCTCCTTCATCTTCATCACTGAACAATCCAAATTTCATCATCTTTTCCCCGCGATCCAACCCTTCCCTCTGTTTCTCCCTGATTTTCCCTCGTCTTTTTTGGTGCACCACCGCCGTTCTTTTTTCTTTCTCTCCGATGATACCTCTTTCAACCTCCTTGATTATGATTAGCATGGCCGATTTGATGGGGCTACATTGAGTTTGCATGGATCGTATGGAATGGATGCTTTTCGATTTATGAGTTCTTATTTTCAACTGCTCCTTCAATTTCAGCCATGGCAGTTAGTGGGCCGGCTTCCAGTTCGGAGAGGCCCTGGAGTGACCCTCGCAAAGGCATGTCCAGTGATAACATCAAGGGTTTGGTCTTAGCTTTGTCTTCTAGTTTCTTCATTGGTGCCAGCTTTATTGTCAAGAAGAAAGGCCTTAAAATAGCCGGGGCTTCTGGTGTTAGGGCAGGTGATGAATGCACTTTTTTCATTATCCCTTCTCTTTTCAAACGTTTCGACTCAGATGAACGTGTGTTTTTTGGATCCATTTTGGTTGCCTTTCCTTACTGATCTTAATCTTCGTCTTAATCTTTTATCTTTACCTGGCAGGCGCTGGCGGTTATTCTTACTTATATGAACCATTATGGTGGGTCGGCATGATAACTAGTAAGGTTTCTTCAATCTACGTGGTTGCTGCTGTGTTTTAATTAAAGGCTTCGTTGAGAAGAATTATTTTGAGAATTATTGTAAGCCCCCCAAGAAGAAGTAACCACTGAAGTTATTCTATCTGTTGAGTATTTCTAAACTAGTAGATGATGAATGATACCTAAAGTATTTCTGCTGTTCTGGGCCTCGGTGGCTAATACATTGACAAGCGGATGCATTTAGGTTTTTGCTTTTGATATCAGTGTCTTTGGGAATATATTATCCATGTATACGCGTGTCTTTAGACTAAGATAACCTCTCTAAGTTCATTCCATTTTGTGGGTAGTAATCATCTGGGGGATCTAGAAAACATATTGACTTACCGGGACTAAAAGAAAAATATACTAGACTAACTATTAAGCTGACTATAAATATTAAAAAATAAATAGTTTTCTTTATATATATTATATAAAGACAATCAAGTTGAGTGGGGCTCGAGCCCCCCCGGGCCTATGCTAAATCCACCGGTGGTAATCATTGGCTTCTGATGCTTTTTCGTTCATTCTTCTGTTCCAAGTTAGATAACGTCCTTTTCTCCCAGTTTCCTTGCTTCTTCAGTTATTCTATTTTTGTCCCTCAATTTCTTCTAGGTGGATTCTTATTTGCAAGTAAGAGAATACTAGAAAGAATTATTTATTGCATTATGATCTCCGTTTCCTTTTGCATTTCTTTTTTAAGTATTAAGCTGAGGTGTTCTTACTTTATTAAAACCTTGAGTATTAAATATTTCATCAGAAAGATATCTGTATTCTAATGGATGTATTTTTCACTTGGCACTTGCCAGTGGTTGTAGGAGAAATTGCTAATTTTGCAGCTTATGCATTTGCACCAGCTATTCTTGTAACTCCCCTTGGTGCACTCAGTATAATTATCAGGCAAGACGACAAAACTGTCGTAGTTTTTAATGCATTTTGGGATTCACTGTGTTTTGACCATTTTGTGGCATGTTTTGTGCAGTGCTGCTCTTGCTCACATTATATTAAGAGAGCGATTAAACATTTTTGGTATTCTTGGTTGTGTGTTATGTGTTGTGGGTTCGACAACAATTGTTCTGCATGCACCTCAAGAGCGTGAGATAGTATCTGTCAAGGAAGTATGGGATCTTGCGACAGAGCCAGGTATACACTAAAGGACATTCTATTTCCATTACCACATTTAAGTTTTTTTTTTTTTAGAAAAAGTCTTGTGTGAGTATCAAATATACTGACGGCTTCTCTCCTTAATGTAACACGTGCATGTTTTCTGTAGCTTTCCTTCTGTATGCTGCTTTGATGATAGCCACAACTCTCATACTCATAATACACTTTGTGCCTCGTTATGGCCAGACATATGTAATGGTCTACATAGGGGTTTGTTCTATTGTGGGGTCACTTTCGGTATGTAGTCAGTTTTTCATCTGTTTTTTTCTTCTTTTTTGTTTTTACACCAGTCTATTTAAAGTTTCTGAAGCCGCATTGACAGGTTATGAGTGTTAAAGCACTTGGCATTGCCCTGAAGTTGACATTTTCTGGATTGAATCAATTAACATATCCTCAAACTTGGGCATTCACAATGATTGTGATTACTTGTGTGATCATTCAAATGAATTATCTAAACAAGGTATCCATCTTTTTTATTTGAAAGCATTAAATTAATTATTTAACCACTTTTGCCTGTCGAGGGATCATCAACTAGTGTTCGAGTTTTAATAGTTTGGTAGTTGGCACAATATAGTTGGTTAGCTGTATAAATATATTGGTTATTGGTAGTTCCAGCATGCTGTAAGGGTTGAAGGTGGCACATTCTTGGCAAAATCCTCTTGTGCTATTTCAAAATGAACTTCTGAATCTTTTGTTATGATCAGTTGTCAGGTTGTGGGAAATAGTCACAAGTATTAAGCGATATCATGTTATAAAATCCCAAAGTTCCTGCATTGAAGCGATTGAAAGTTTTATTAGGTTTCTGGTCAGATATGCTTGATAAATGAATTACAAATTAATAAAGTTGAGCAGTGTGCCATGCGAACTTCTAAATATACAACTTCAATTATCAGAAAAATTATGGCATGATCATATTTTTTCTTATCAGACACGTGAACTGAGAATACAAACTATCAGGCTATAACCTGGAAGAGATGAAAATTTCTCCTTAATTTTAATGACCAGTCCGATTATGTTTTTAAAAAAGAATTTGAAATTTTCTGATGGTATTTTATTATTGTAGGCTCTTGATACTTTCAACACTGCTGTAGTATCCCCTACATACTATGTGATGTTTACAACATTGACCATCTTGGCTAGCATAATTATGTTTAAGGTAAAGACATTTAGCTCTTATTTTACCTTGGCTTCACAAAACATAATTGATTTCTCCCGACTGATGAATATGAGGCAATGAACACTTTAAATTTAAGATTTTCACTTGTGAGTTTGACAAATATTCCTCTTCTTTTATGCTCGTATATCTATGTGTGGGTTGTAAATTTTTAGGGAAATCAAAGTTGCTTTCGATGAGCAGCTTTTTGTTCATAATTTCAAATATCGACTCAACAGTTGTATGGTGCTGTTGCCTGATTTCATGTAATTATGGAGGCTATTAGTAAGCCAATTGTCCTGTTTGCTTATTATGTATTTATGTTTTTTCGTCTAAAAAAAATCATGTTCTTAATCAATAATGTTTTTAGGTTGGTAGTTGTCTTTTTAGATACCGTCCTCTTGTCTTGGACTTTCCTTTACTTGTTCTATTTTTTTACTCCTTTTTCTCAAATGAAAGCTAGACTGCTCTTCCAATAGAAAGGGAAAAAATTGGTCAAAAGAATGCACAAGCAAGGTAATTATTTGCTGTTGGTCTTTGAAAACATTATGTATCAAGACTCGACGAATTAAGTTCAAGGCCATTACTTCATGTGGATATGTGCGATCTAAGATAAATCCTATAGTATATAATCCTGTGAAAAGCTTTTCATATGCCTAGCATGTTTTATCATTTCTGTCAACAGTTTGAGCTCTGGGGTCGATTGAGATAGGAGGGAGGGTCTCTTTCCTTGAATCTTAATAGAATAACTAAAAGTCAGTCTCAACCGAAGCACAAGATCAATGCACCCGATAGAGGTTAAGGGAAATGATAAAAATTTGAAGCAACCTTCTCAGGGAGGCATTGTGGCAGTAACTTCTGTCTATTATATTTTGTTTAGGAACAACTGATTCTTACCTTAAAAGAGGTTTCCTTTCTTCTCATTTCAGTCAAAGGTTTCATCTTATGTAATAACTCACGAATGTAAAAGCATTCCAATTTAAATAAAAATCCTGAAAAGAACACCAGTGGCTCGGGTAGAGAACATTAAGTAGAGGCCTTCAATCCAGCTGACACAAAACAATCTCGTCAAAGAAGTTTGCAAGAAAAGATAATTAAATTCCTTACAAAGCAAGACATCACAAAACTCCCAATACTGCTAAAATCCACTCAACAAATCCTCCAGAAAAACCTGTTGCTAAAGTCTTAATTTAAAGTGAGATCCACACTTCCAAACTATAGAAATGCTGAGCCAGCCAACCATATGTAATATCCAAGTTTTATCAAACACAAAGCAATTCAAATAGTTTCCAAGACAATGGCCACATTCGACTGTGCATCACATTGTGGATGGGAAAAGGTACTTCTCTTGAGCTTCTTCTGTTGTACTTGAAAGAACTCAAGGCAGGAAGTGCCAATCCAATATCAGACAGAACTAACCTGCAGACAGTCCTCATTTTAACACCATGTTGCCTAGACACTCCAACCGTTCTCTAGCAAAAAACTGTTAGACCTCCAATCAAACTAGTTTACCAAAGAAGAAACAAACTACAACAGAATTAGTTAGGAAAGCAGTAACAAAAAGCAGTTAATAAATTAGTTAGAAAACACATGTTAAATGTGTTAAGAAAAATGTGTATAAATAGAGGATTAATGATAGAAGAAGGATATGAGAAATTTAGTAAGAAGTTGTACTTGATTCTTGAGAAGCAAGATCAAGAGCTTGTGGCAGAATTGATAACTCATCAATTCTGTGTGTTCGTTGTTACTGATATTAATAAGAGAAAAATAAATTCAGCTTACTTGGCTAGAGTTCTATCAAATTGGTATCAGAGTCGTGATCCGACAAAATGGTGCAAACTAGGATCGAAGAACGACTTGAAGTAATTGATCAAGAGATAGCACTGATGAAGAAAGAACTCGGGAAGATGCCGATCATCGAATTAACTCTGAACGATATCGCGAAGAATATGCAGACGATGCGAGCCTAGTCGGACAAACAAGAGCAGATGATGTTGATGATAATGGAAACTATAGCCAAAGACCGAACGACCACCAGCGTATGTAATGAAGAACCCAATGCGCACATGTCTGTGACAAATAAAGGGAAGGAAAAAGAAGCAAACTCCAGCAAATCGGCCGTATCGGGTCGAAGCAACTCCGACGACCGAAACGAAGGAAAAATAGAGACCGAAGAAGCCGCTGCCGACCGGAATAAATTCAAGAAAGTCGAAATGCCCGTGTTCGCCGGAGAAGATCCAGACTCATGGCTCTTCAGAGCCGAAAGGTACTTTCAGATCCATAAACTATCCGATTCTGAAAAAATGCTAGTTTCCACGATCAGTTTCGATGGCCCTACCTTGAATTGGTATCGATCTCAAGAAGAAAGAGAGAAGTTCACCAGCTGGTCAAACTTGAAGGAAAGACTATTCGTAAGATTCAGATCGAGTCGAGATGGAACAATATTGGGAAAGTTTTTACGAGTTAAGCAAGAATCCACAGTCGATGATTACCGGAATTTGTTCGACAAGCTCGTCGCACCATTGAGTGATGTTCCAGATCCAGTCGTCGAAGATACCTTCATGAATGGCTTGTTCCCATGGATAAGAGCGGAAGTGATACTCTGTCGGCCAAAAGGATTAGCCGAAATGATGGAATTCGCGCAGTTGGTCGAAAACAGAGAAATCGTGCGCAACGAAGCAAATTTGAATAACCTCGCGGGCGGGAAATATTTTCAGCAAAATACAGTAAACAACAGAACATCGGCTAACACCAACAGCGATAACAAGAAAAATACTAATTTCCCCATGCGAACTATTACCTTAAGGAGCTCTAATAACGCCGAAATTCGTAAGGCTACCAACTCAAGAAGACTACCTGACGCAGAGTTTCAGGCCCGAAAAGAAAAAGGACTCTGTTTTAGATGCAACGAAAAATATTCAGCTGATCATAGATGCAAAATGAAAGAATTACGCGAACTGAAAATGTTTGTTGTGAAAAAAGAAGGAAAGGAATACAAGATAATTGAGGAAAATGCCACCGAAGAGAAAACATTAGAACCTCTGCAAGAAGAAGAAAAGAAAAAGACCTTTGCCGAGTTATCTCTAAACTCTGTTGTTGGACTGAACGATCCGGGCACGATGAAAGTCAAAGGAAAACTCCAAGAGAAAGAAGTGGTCATCCTCATAGATTGTGGAGCCACCCACAACTTCATTTCTGAAAAATTAGTGGAATCACTACAATTACCGGTCAAGGAAACCGCCCACTACGGTGTTATACTTGGATCCGGAACAGCAGTACAAGGCAAGGGAATATGTGAAAATGTGGAAATTCAACTAACAAATTGGAAAGTGAAGGAAGACTTTCTACCATTAGAACTCGAAGGAGTTGACGTCGTACTAGGTATGCAATGGCTCCATTCGCTCGGGATAACAGTAGTCGATTGGAAAAACCTCATACTTACATTTTCTAGTGAGGGAAAACAGATATCAATAAAGGGAGACCCCAGCCTCACTAAGTCACGCATTAGCCTCAAAAGTATGATCAAGACCTGGGTTGAACAAGATGAAGGATTCTTAATTGAATGCAGGGCAGTACAAGTTCATAAAGAAAATGAACAAAGCAATACAGCAGTAACAACCATTGAAGATGGACCTCTGCAAAACGTGCTGAAACAATTCGAAGATGTATTTGACTGGCCGGAAAAACTCCCACCAAGAAGAGAAATTGAACACCAAATACACCTCAAAGAAGGAACCAATCCAATAAACGTTAGACCCTATAGATATGAGTTTCAACAAAAGGCGGAAATGGAAAGATTAGTGGAGGAAATGCTAACTTCAGGCATCATCAGACCAAGCAATAGCCCCTTCTCAAGCCCTGTACTATTAGTTAAAAAGAAAGATGGCAGCTGGCGCTTTTGTGTCGATTACCGAGCAGTAAACAATGCCACAATTCCAGACAAGTTCCCAATACCAGTGGCTGAAGAATTATTTGACGAGCTAAATGGGGCAACGGTATTCTCAAAAATAGACCTCAAGTCAGGATACCACCAAATACGAATGATTGATAAGGATATTCCAAAAACGGCTTTTCGCACTCACGAAGGCCACTACGAATTCCTTGTTATGCCGTTTGGGTTAACCAACGCCCCGGCCACTTTCCAAGCCTTAATGAATAGCATCTTTAGACCATTTTTGAGAAAGTTTGTTCTGGTCTTCTTCGATGATATCCTGATCTACAGCAAGAATGAGAAAGACCACTTAGAGCATATTGAAAAGGTCTTCCTTGCATTGAGAAAGCATACCCTCTTCGCCAATAAAAAGGAGTGCAACTTTGGCCAGAAGAAGGTAGAATACTTGGGACATATCATATCAGGAGAAGGAGTGGAAGTAGACTCTGATAAAATAAAGGCAGTTGCGGATTGGCCATGCCCAACAAATATAAGAGAAGTTCGGGGATTCCTTGGATTAACAGGCTACTACAGGAGATTTGTCCAACATTATGGATCAATAGCAGCCCCATTAACTCAACTACTCAAAAAAGGGGGGTTCAAATGGAACGAAGATGCTGAAGAATCGTTTCAAAAGCTGAAATCTGCAATGATGTCTCTGCCAACGTTAGCCTTACCCAACTTTACACTTCCATTTGAAATAGAGACTGATGCATCCGGTTTTGGAGTGGGAGCAGTACTAATCCAGGCAAAGAGACCCATTGCCTTCTACAGCCATACACTATCCATGAGAGATAGAGCCCGGCCAGTATATGAACGCGAGTTGATGGCTGTTGTACTATCCGTACAAAGGTGGAGGCTCTACTTACTTGGGGCAAAATTCGTAGTAAAAACGGATCAAAAGTCACTGAAATTCTTGCTGGAACAAAGGGTCATCCAACCACAATATCAAAAATGGCTATCTAAACTATTGGGATACTCATTTGAAGTGGTGTACAAACCGGGCTTAGAAAATAAAGCAGTCGATGCTTTATCAAGAAGACCACCAGATATACATTTAAACAGCATTTCAGTTCCATATTGGATGGACTTGGAAACCATAAAGGAAGAAGTGGAGAAAGATGAAAAGCTAAAGAAGATAGTAGCAAGCTTAAGCAAAGAAGACGAAAACCAAGCCAGCAAATTCACACTAAAGAATAGCCTCCTGCATTACAAGAATGGACTGGTAATCTCAAAAACTTCCTCCCTAATTCCAGCCATATTGAATACGTTTCATGACTCAGTAGTAGGAGGACACTCCGGGTTCCTAAGAACATATAAAAGACTAGCAAGTGAGCTATATTGGGAGGGGATGAAATCGGATGTTAAAAAACATTGTGAATCCTGCATAACCTGCCAACGCAACAGAAGCTTAGCTCTATCACCGGTCGGACTATTAATGCCACTTGAAATACCGCATCAAATTTGGAGCGACATCTCTATGGACTTCATTGATGGTCTACCTAAAGCAAAAGGATGGGATGTGATACTCGTGGTAGTAGATCGGCTTAGCAAATACAGCCACTTCTTGGCCCTTAAACACCCTTACACAGCCAAGACAGTAGCAGAAACCTTTGTAAAGGAAATAGTTCGACTGCACGGCTTCCCTACTTCCATTGTCTCCGATCGAGACAAAGTTTTTCTCAGCCATTTCTGGAATGAATTGTTCAAAATGGCGGGCACTAAACTGAAGAAAAGCACAACTTACTACCCACAGACCGACGGACAAACTGAGATGGTCAACAGGGGACTAGAAACCTATCTCAGATGCTTTTGTAGTGAACGCCCAAAGGAATGGATTCTGTGGCTACCTTGGGCCGAGTACTGGTACAACACTACTTATCAAAAGGCGCTAGGAAAATCACCCTTCCAAGTGGTCTATGGCCGTAAACCGCCAGCCCTACTATCTTATGGTGAAAGAACTTCAAATTTCTCAATAGACGAGCAATTGAAAGAACGAGATGTGGCATTAGACGCACTACGGGAGCATTTATTACTAGCTCAACAACAAATGAAACTATATGCTGACCGAAAAAGAAGACAAGTGGAATTTCAGGTTGGTGAGTTAGTGTTGCTTAAAATACGTCCATACCGACAAGCCAACTTACGAAGCAAACGGAATGAAAAGTTATCATCACGGTATTTTGGACCTTACAAAATTCTCGAAAGAATTGGTGAGGTAGCGTATAGATTGGAATTACCAACGGATGCCGCTATCCACCCTGTTTTTCATGTTTCGCAACTAAAGAGGTTCGTAAATCAGCAGTCGAATATATTGCCCACACTACAAAACATAACAGAGAAACTCGAGTGGCAGTCTCAACCGGAAGAAGCACGTGACTACAGACAAGACAAAACCGGGAAATGGGAAGTGCTAATTGCCTGGAAGAATTTACCGGACTATGAAGCATCGTGGGAAGACTATGATGAGATGAACCAGCGGTATCCTAGTCTACACCTTGAGGACAAGGTGAATCTCAAAGGGGGGAGTAATGTTAGACCTCCAATCAAACTAGTTTACCAAAGAAGAAACAAACTACAACAGAATTAGTTAGGAAAGCAGTAACAGAAAGCAGTTAACAGATTAGTTAGAAAACACATGTTAAATGTGTTAAGAAAAATGTGTATAAATAGAGGATTAATGATAGAAGAAGGATATGAGAAATTTAGTAAGAAGTTGTACTTGATTCTTGAGAAGCAAGATCAAGAGCTTGTGGCAGAATTGATAACTCATCAATTCTGTGTGTTCGTTGTTACTGATATTAATAAGAGAAAGATAAATTCAGCTTACTTGGCCGGAGTTCTATCAAAAACACCCCGTGAAGTTGGCAGGTAATTCGTGCTTATAAAGAATAGTGAATATGACATTTGGATGCCCAATGTGGTCATTCCAATTCCAAGCGTAAAACAAGAATACCTTTAAAGCACCAACATTAGGTATGGTTGAATACTTTGTTCATCATTGATGTGATGAGAAAGTAACCGTGGGTTGTTCATGAGGCTGAACATTGAACAACATTCAGTTAACATATACGATATCTATCTTGTGTGCTTTTCTAACAACTTGTCCCCTCTACTCCCTACTCTTTAACATAAATTTGGTGAAGACCTAATTTTAGGGGTCTAGCTCGGATGATATGGTTACTCCATGTAACTCGTCTTTAACCAGGTCTAGAAACTTGACTATCAGACTGACCATTTCCTTATCAAGAACATATCAATTTTCCTTCTAACAAATAATACATGGATGAAAAAGGCGCTTACTTTTACACATGATACTATATGATAGCATTAAGGAGAAACAATGGAAGATTCACATTTCTTCCACTGATATCTATAGTCTGTAACTATTCGTATCAGTGATCAATTGATAAAATTCACCACAAACCCTCATGAATTTCTAATTGTTGTTAAGTACCAAACTGTGCTTTCTCTTCTCATTCTTATTACTTTATTACCCTTTCCTTGTTGCCTTTTCCTATTTTAATCATGTGTGTACGATGTACTTGAGGGAGATCATTTGGTCGTTATTATACTTTGAACAGTGGTGAACTATATCTATTTCCTTTTTAATGTCTATTCTTAACTTTTGGGACTCATCGGGAAGAATTTTCATTGTTGATGCTGATTAACCTGTTCCTTAACTTCTTGTTAGGATTGGGATCGACAAGGTGCAATCCAGATTTTCACCCAAATGTGTGGTTTTGTGACAATTCTCGCTGGTACTTTTCTTCTTCACAGAACGAAGGATATGGTTGAGGGTGGGTCATCACTTCTTCCATTGTTTCTATCCACATCAGTTACAAAATATCTCATAATTGAAGTTTTGTTTCATTGTAGCTTCAACAGCACCATCTTTTTCAATGCGACTTTCTAAACACATAGAAGATGGTTGTGAACTCGAGGCCATCCCACTTCAGCGTCATGCATCATTGTGATAAGATTAGACATAGTCATTAGATCTGCGAATTCACTTTTATCATCATGTTACATTTCGTGCATAAAATCTTAGGAGAAGCTACGACATCCATTGGCTTTGTGATTGTCAACATTGTTGGATAAACTTGAAGGGGATACAAGCATGGTTGTGGAAGGATGGTAATCTCTTTTCTTCCTTGAAATCCAAAGGCTTTTGTAACCGAGCAAAGCCATAACAGTTGATCACTTCCATGAGAGAGCAAGAGAGAGAAAGCTCATACTTTTTGTAACCATAACGCAACGCAATGCAATGCAACCCACCATCGAAAATCCTCAATCCATTCCTTTTCTCTACGCTTCATGATCATCTCTCTCCATCAATCCATAATCTCCTTCATCTTCATCACTGAACAATCCAAATTTCATCATCTTTTCCCCGCGATCCAACCCTTCCCTCTGTTTCTCCCTGATTTTCCCTCGTCTTTTTTGGTGCACCACCGCCGTTCTTTTTTCTTTCTCTCCGATGATACCTCTTTCAACCTCCTTGATTATGATTAGCATGGCCGATTTGATGGGGCTACATTGAGTTTGCATGGATCGTATGGAATGGATGCTTTTCGATTTATGAGTTCTTATTTTCAACTGCTCCTTCAATTTCAGCCATGGCAGTTAGTGGGCCGGCTTCCAGTTCGGAGAGGCCCTGGAGTGACCCTCGCAAAGGCATGTCCAGTGATAACATCAAGGGTTTGGTCTTAGCTTTGTCTTCTAGTTTCTTCATTGGTGCCAGCTTTATTGTCAAGAAGAAAGGCCTTAAAATAGCCGGGGCTTCTGGTGTTAGGGCAGGCGCTGGCGGTTATTCTTACTTATATGAACCATTATGGTGGGTCGGCATGATAACTATGGTTGTAGGAGAAATTGCTAATTTTGCAGCTTATGCATTTGCACCAGCTATTCTTGTAACTCCCCTTGGTGCACTCAGTATAATTATCAGTGCTGCTCTTGCTCACATTATATTAAGAGAGCGATTAAACATTTTTGGTATTCTTGGTTGTGTGTTATGTGTTGTGGGTTCGACAACAATTGTTCTGCATGCACCTCAAGAGCGTGAGATAGTATCTGTCAAGGAAGTATGGGATCTTGCGACAGAGCCAGCTTTCCTTCTGTATGCTGCTTTGATGATAGCCACAACTCTCATACTCATAATACACTTTGTGCCTCGTTATGGCCAGACATATGTAATGGTCTACATAGGGGTTTGTTCTATTGTGGGGTCACTTTCGGTTATGAGTGTTAAAGCACTTGGCATTGCCCTGAAGTTGACATTTTCTGGATTGAATCAATTAACATATCCTCAAACTTGGGCATTCACAATGATTGTGATTACTTGTGTGATCATTCAAATGAATTATCTAAACAAGGCTCTTGATACTTTCAACACTGCTGTAGTATCCCCTACATACTATGTGATGTTTACAACATTGACCATCTTGGCTAGCATAATTATGTTTAAGGATTGGGATCGACAAGGTGCAATCCAGATTTTCACCCAAATGTGTGGTTTTGTGACAATTCTCGCTGGTACTTTTCTTCTTCACAGAACGAAGGATATGGTTGAGGCTTCAACAGCACCATCTTTTTCAATGCGACTTTCTAAACACATAGAAGATGGTTGTGAACTCGAGGCCATCCCACTTCAGCGTCATGCATCATTGTGATAAGATTAGACATAGTCATTAGATCTGCGAATTCACTTTTATCATCATGTTACATTTCGTGCATAAAATCTTAGGAGAAGCTACGACATCCATTGGCTTTGTGATTGTCAACATTGTTGGATAAACTTGAAGGGGATACAAGCATGGTTGTGGAAGGATGGTAATCTCTTTTCTTCCTTGAAA ATGGCAGTTAGTGGGCCGGCTTCCAGTTCGGAGAGGCCCTGGAGTGACCCTCGCAAAGGCATGTCCAGTGATAACATCAAGGGTTTGGTCTTAGCTTTGTCTTCTAGTTTCTTCATTGGTGCCAGCTTTATTGTCAAGAAGAAAGGCCTTAAAATAGCCGGGGCTTCTGGTGTTAGGGCAGGCGCTGGCGGTTATTCTTACTTATATGAACCATTATGGTGGGTCGGCATGATAACTATGGTTGTAGGAGAAATTGCTAATTTTGCAGCTTATGCATTTGCACCAGCTATTCTTGTAACTCCCCTTGGTGCACTCAGTATAATTATCAGTGCTGCTCTTGCTCACATTATATTAAGAGAGCGATTAAACATTTTTGGTATTCTTGGTTGTGTGTTATGTGTTGTGGGTTCGACAACAATTGTTCTGCATGCACCTCAAGAGCGTGAGATAGTATCTGTCAAGGAAGTATGGGATCTTGCGACAGAGCCAGCTTTCCTTCTGTATGCTGCTTTGATGATAGCCACAACTCTCATACTCATAATACACTTTGTGCCTCGTTATGGCCAGACATATGTAATGGTCTACATAGGGGTTTGTTCTATTGTGGGGTCACTTTCGGTTATGAGTGTTAAAGCACTTGGCATTGCCCTGAAGTTGACATTTTCTGGATTGAATCAATTAACATATCCTCAAACTTGGGCATTCACAATGATTGTGATTACTTGTGTGATCATTCAAATGAATTATCTAAACAAGGCTCTTGATACTTTCAACACTGCTGTAGTATCCCCTACATACTATGTGATGTTTACAACATTGACCATCTTGGCTAGCATAATTATGTTTAAGGATTGGGATCGACAAGGTGCAATCCAGATTTTCACCCAAATGTGTGGTTTTGTGACAATTCTCGCTGGTACTTTTCTTCTTCACAGAACGAAGGATATGGTTGAGGCTTCAACAGCACCATCTTTTTCAATGCGACTTTCTAAACACATAGAAGATGGTTGTGAACTCGAGGCCATCCCACTTCAGCGTCATGCATCATTGTGA MAVSGPASSSERPWSDPRKGMSSDNIKGLVLALSSSFFIGASFIVKKKGLKIAGASGVRAGAGGYSYLYEPLWWVGMITMVVGEIANFAAYAFAPAILVTPLGALSIIISAALAHIILRERLNIFGILGCVLCVVGSTTIVLHAPQEREIVSVKEVWDLATEPAFLLYAALMIATTLILIIHFVPRYGQTYVMVYIGVCSIVGSLSVMSVKALGIALKLTFSGLNQLTYPQTWAFTMIVITCVIIQMNYLNKALDTFNTAVVSPTYYVMFTTLTILASIIMFKDWDRQGAIQIFTQMCGFVTILAGTFLLHRTKDMVEASTAPSFSMRLSKHIEDGCELEAIPLQRHASL Homology
BLAST of MELO3C008116.jh1 vs. NCBI nr
Match: XP_008441214.1 (PREDICTED: probable magnesium transporter NIPA4 isoform X1 [Cucumis melo]) HSP 1 Score: 663 bits (1711), Expect = 1.06e-239 Identity = 350/350 (100.00%), Postives = 350/350 (100.00%), Query Frame = 0
BLAST of MELO3C008116.jh1 vs. NCBI nr
Match: XP_004138651.2 (probable magnesium transporter NIPA4 [Cucumis sativus] >KGN63098.1 hypothetical protein Csa_022312 [Cucumis sativus]) HSP 1 Score: 644 bits (1661), Expect = 4.41e-232 Identity = 341/350 (97.43%), Postives = 343/350 (98.00%), Query Frame = 0
BLAST of MELO3C008116.jh1 vs. NCBI nr
Match: XP_016899435.1 (PREDICTED: probable magnesium transporter NIPA3 isoform X2 [Cucumis melo]) HSP 1 Score: 628 bits (1619), Expect = 6.83e-226 Identity = 337/350 (96.29%), Postives = 337/350 (96.29%), Query Frame = 0
BLAST of MELO3C008116.jh1 vs. NCBI nr
Match: XP_038886718.1 (probable magnesium transporter NIPA4 [Benincasa hispida]) HSP 1 Score: 628 bits (1619), Expect = 1.07e-225 Identity = 332/350 (94.86%), Postives = 339/350 (96.86%), Query Frame = 0
BLAST of MELO3C008116.jh1 vs. NCBI nr
Match: XP_022962388.1 (probable magnesium transporter NIPA4 isoform X1 [Cucurbita moschata] >XP_022962397.1 probable magnesium transporter NIPA4 isoform X1 [Cucurbita moschata] >XP_022990189.1 probable magnesium transporter NIPA4 isoform X1 [Cucurbita maxima] >XP_022990190.1 probable magnesium transporter NIPA4 isoform X1 [Cucurbita maxima] >XP_023550502.1 probable magnesium transporter NIPA4 isoform X1 [Cucurbita pepo subsp. pepo] >XP_023550511.1 probable magnesium transporter NIPA4 isoform X1 [Cucurbita pepo subsp. pepo]) HSP 1 Score: 603 bits (1555), Expect = 6.48e-216 Identity = 318/351 (90.60%), Postives = 332/351 (94.59%), Query Frame = 0
BLAST of MELO3C008116.jh1 vs. ExPASy Swiss-Prot
Match: Q9LNK7 (Probable magnesium transporter NIPA3 OS=Arabidopsis thaliana OX=3702 GN=At1g34470 PE=2 SV=1) HSP 1 Score: 507.7 bits (1306), Expect = 1.1e-142 Identity = 267/339 (78.76%), Postives = 302/339 (89.09%), Query Frame = 0
BLAST of MELO3C008116.jh1 vs. ExPASy Swiss-Prot
Match: Q94AH3 (Probable magnesium transporter NIPA4 OS=Arabidopsis thaliana OX=3702 GN=At1g71900 PE=2 SV=1) HSP 1 Score: 503.1 bits (1294), Expect = 2.6e-141 Identity = 264/343 (76.97%), Postives = 296/343 (86.30%), Query Frame = 0
BLAST of MELO3C008116.jh1 vs. ExPASy Swiss-Prot
Match: F4JKQ7 (Probable magnesium transporter NIPA5 OS=Arabidopsis thaliana OX=3702 GN=At4g09640 PE=2 SV=1) HSP 1 Score: 488.4 bits (1256), Expect = 6.7e-137 Identity = 252/334 (75.45%), Postives = 287/334 (85.93%), Query Frame = 0
BLAST of MELO3C008116.jh1 vs. ExPASy Swiss-Prot
Match: Q9LIR9 (Probable magnesium transporter NIPA1 OS=Arabidopsis thaliana OX=3702 GN=At3g23870 PE=2 SV=1) HSP 1 Score: 425.2 bits (1092), Expect = 6.9e-118 Identity = 214/308 (69.48%), Postives = 261/308 (84.74%), Query Frame = 0
BLAST of MELO3C008116.jh1 vs. ExPASy Swiss-Prot
Match: B3LFA3 (Probable magnesium transporter NIPA2 OS=Arabidopsis thaliana OX=3702 GN=At4g13800 PE=2 SV=1) HSP 1 Score: 422.2 bits (1084), Expect = 5.9e-117 Identity = 211/296 (71.28%), Postives = 251/296 (84.80%), Query Frame = 0
BLAST of MELO3C008116.jh1 vs. ExPASy TrEMBL
Match: A0A1S3B3J9 (Probable magnesium transporter OS=Cucumis melo OX=3656 GN=LOC103485415 PE=3 SV=1) HSP 1 Score: 663 bits (1711), Expect = 5.13e-240 Identity = 350/350 (100.00%), Postives = 350/350 (100.00%), Query Frame = 0
BLAST of MELO3C008116.jh1 vs. ExPASy TrEMBL
Match: A0A0A0LMR9 (Probable magnesium transporter OS=Cucumis sativus OX=3659 GN=Csa_2G402060 PE=3 SV=1) HSP 1 Score: 644 bits (1661), Expect = 2.14e-232 Identity = 341/350 (97.43%), Postives = 343/350 (98.00%), Query Frame = 0
BLAST of MELO3C008116.jh1 vs. ExPASy TrEMBL
Match: A0A1S4DUN9 (Probable magnesium transporter OS=Cucumis melo OX=3656 GN=LOC103485415 PE=3 SV=1) HSP 1 Score: 628 bits (1619), Expect = 3.31e-226 Identity = 337/350 (96.29%), Postives = 337/350 (96.29%), Query Frame = 0
BLAST of MELO3C008116.jh1 vs. ExPASy TrEMBL
Match: A0A6J1JRE3 (Probable magnesium transporter OS=Cucurbita maxima OX=3661 GN=LOC111487158 PE=3 SV=1) HSP 1 Score: 603 bits (1555), Expect = 3.14e-216 Identity = 318/351 (90.60%), Postives = 332/351 (94.59%), Query Frame = 0
BLAST of MELO3C008116.jh1 vs. ExPASy TrEMBL
Match: A0A6J1HEN6 (Probable magnesium transporter OS=Cucurbita moschata OX=3662 GN=LOC111462845 PE=3 SV=1) HSP 1 Score: 603 bits (1555), Expect = 3.14e-216 Identity = 318/351 (90.60%), Postives = 332/351 (94.59%), Query Frame = 0
BLAST of MELO3C008116.jh1 vs. TAIR 10
Match: AT1G34470.1 (Protein of unknown function (DUF803) ) HSP 1 Score: 507.7 bits (1306), Expect = 7.6e-144 Identity = 267/339 (78.76%), Postives = 302/339 (89.09%), Query Frame = 0
BLAST of MELO3C008116.jh1 vs. TAIR 10
Match: AT1G71900.1 (Protein of unknown function (DUF803) ) HSP 1 Score: 503.1 bits (1294), Expect = 1.9e-142 Identity = 264/343 (76.97%), Postives = 296/343 (86.30%), Query Frame = 0
BLAST of MELO3C008116.jh1 vs. TAIR 10
Match: AT4G09640.1 (Protein of unknown function (DUF803) ) HSP 1 Score: 488.4 bits (1256), Expect = 4.7e-138 Identity = 252/334 (75.45%), Postives = 287/334 (85.93%), Query Frame = 0
BLAST of MELO3C008116.jh1 vs. TAIR 10
Match: AT3G23870.1 (Protein of unknown function (DUF803) ) HSP 1 Score: 425.2 bits (1092), Expect = 4.9e-119 Identity = 214/308 (69.48%), Postives = 261/308 (84.74%), Query Frame = 0
BLAST of MELO3C008116.jh1 vs. TAIR 10
Match: AT4G13800.1 (Protein of unknown function (DUF803) ) HSP 1 Score: 422.2 bits (1084), Expect = 4.2e-118 Identity = 211/296 (71.28%), Postives = 251/296 (84.80%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Melon (Harukei-3) v1.41
Date Performed: 2021-10-25
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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