MELO.jh100970.1 (gene) Melon (Harukei-3) v1.41
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Overview
Sequences
The following sequences are available for this feature:
Legend: exonCDSpolypeptide Hold the cursor over a type above to highlight its positions in the sequence below.ATGGAGTTCTTTAAGTGTTCAATTGGTGGAGAGGTTTATGGCACTGGTATCACTGAAATAAAGAGGGGAATTGCTGAGCAGAATGACTTGAAAGTGGAAGAGGTTTGTGTTCTATACTCTATGCAGTGATGAATGAGGTTATCAGCCTAGTTCAACTTATAGCATATTGTTTTGCAGGCACACTAATCTGCCAATGCTGTTCAAGAAAAGGGATCCTAAGCTTATGGGAGGAGCATGGAGAAATGAGCCCAACTCTGATCTTTGCCTTCTTAATGTATTGAACATTTTTCTTTCCACACACCATTACCTTCTTAATGTATTGAACATTTATATGTGCTCTGTTGTTGAAGTGAATGTGTTGTGTATGTGCTGTGTATGTGAATATGTGTACGTGAATGTGTTGTATATGTTAAAGTGTTGTAGTTAAATGAACTGAATGTAAACTTTTCTTATATTTTTATCTTGATGTGTAGAGTCATATTCTAAAATTTCATTTTGTTTTCTTACTAGATTATACAAGAATCCATTGGAGTAGTGAAGTCATATTTGCTGCAATTGATTGATTTATAGGTCTTTTTGTAGGTTTGGTGGCAAAATTTTGGTTCAAATGTACTTATTTAAATAGCTTGTTGGTACCAAAACATGTATGTTCATTCTATCATTGTACAAATCCTTTACCAACAATTGTACAGATATTACATAGTGTATGTTAACGTATATATATTAAAGTGTGCACATGTTAACGTATATATATTAAAGCGTGCACGATTTGTTTCCATATGGGTGTGTTGTATAGTACTTTGTGCTTGAATTGTAATGGTAGGGCGGCAAGAAAAAAGGAATTGAAAAAAAAAATAAGCCAAGAAAAGCATGGACTGGAAAAAAATATGACATTTGAATTTAAAAAAAACTGTTATGGAAAAGGTATTCTTGACAATCAATTAAAGTCATGCTAGGTGAAATGATGATAGTTAATCATTGTCATAAAATATAAATAATGACAGTTATTATCTGTCATCAATAAGAGATTGATGACATTTATTTTCTATCATGAAAAACATATATCGTGACAGTTTTTTCAAACTATCATAATATACTTTCCATAACTGCTGGAACAATGACTGCAAATAACTATCACGAAATTTAACTATGACAGCGTTTAACTATCATCGTAGGCTCTTTTTCTAATAGTGAGACTTACAACCAGTTGTTTCTTTGTTAACCAAGATATTGCTCCTGAATCAAACAAAAAACACATAACCTGAATTGCTCTTCTATATCCTCCAAATCTTCAGCATAATCACTACCGGTGTTGACTTTGAGGCCAATATCTTCATTTCTTTCCTACTTATAGAGGGTTTGCAACCTGGAACAATTGGATGGAAAGGTAAGTTGCACTTATCCATGCCAAATCTTCTGACTTATCATGAATATACCATTTGAGTGTTGGAGGACTTCAAGACCAAGAAAAATTTTTTATCTTTCATGAGTCATTGCAAACTCAACTTTCATCAAATATTTAAAATTTACAACCATTTGTTCATGATTATCGGTAAAATTAGATGATCAACATATATGATTTATGATCAAAATTTTACCTTTGTGGCTCTTCTTGACAAAATGAGCATGTTGATAGTCACATTTATCATTATCAAAACCTTCCTTTATACAAATAAGATTCAGTGTGAATGTACCAGACATGTGAAGCTTGTTTGGGACCATCAAGTCTTTTGTAATTTCTAGATCTTGTGTTCATGTTCTTTTTACACATAAACCTTAAGGTTGCTCCGCAAAACCTCCTTCTTTTTTGTACATACCTCACATTTATCAAAACCTTCCTTTACATAATAAGATTCAGTGTGACTACTAGATACGTGAAGCTTGTTTGAGACCATAGAGAGTGTTTTGTAATTTATAGACCTTGTGTTTATGTTCTTTTTGCACATAACCTCAAACTTGCTCCACAAAAACCTCCTTCTTTAGCTCACATACGAAAATGTTGATTTAACATCTAATTGATAGTTAGTCCAGCCTCGTTGAGCTGCAAGAGACACTACTGGATGAATTATTTCCAAACGTACGTGCAGTAGGTGCAAACACTTCAGTGAAATCAACTCCATGTTGTTAAGAATATCCCTTTACAACGAGTTTTGTTTTGTTGTCTACTTCACCTTCTTCATGGAACTTTGTTTTATATATCCATTTTACTCCAATTACCTCTCTACATCTACTGGGTAGCTAGTTCAGTTAATTCCCATGTGGCATTAAATCGGATTGCCTCCATTTCTGCATCCATGGCTTTCCTCCATTTTTCTTTCTTTACAACATTGTTAAAATGAATGAGATCAAAAATTGAAAACATGGCCAACTAGGTTTCTTCTTCATAAAGTCCATCTTTTGTTTCATAATATTTGTACTTAAGGTTGAATGGGTCTTCTAATCCGCTTTTCCTGTGAGCTCAGTTGAACTCTTCTCATTGGAAGAATTAGTGTTGGACTTAGGAGCTTCTTCTCATACATTTGTATTAGGATCAGCTTCATTAGCAATAGGATATATTGATTCCACTTATTCTTCCTCTTGATCGTCACACTTTAAGTTACATGCAATTTGTTCCTCATATAATTTCTGTCCACTACAAGAAAAACTACTTATTATGACAGTTTGTTCTATCTCAAATTGAAAGGAGGGAAGAAATAACTGTCATCAAAGGTCAAAAAGCACGTTTTTGGCGGGAAAAGACGGAATTTTTCGGATTTGAAGAATTTATGACAGTTTTTAAGTGTCATAAATCTATGAAAATTTTTAACTGTCATCAATTATAAATAATTTGTAATTGTCATCAATTATAAATGTCAAAATTCGTGTTGTTGACAGGAAAAAATGCTGTTTTTGGATTGCACTTATAGATGACAGCTATATGTTGTCATAAAAGGAAAATTTATTAAATAATTTATTAAAATAAATTTTATTCAAATTTATTAAAAATATCTTTTAATAAAACTCAAACCCTAACACAAAAAGAACCTTACGGAAAGTGTTGTCGTCCGTCCTCTCCCTTCATCAAATTGTCGAACTCCACCCTCAACCTCGTCTGCAAACGCCGCCGACCATCTCCAAACTCTTCGCCCACCCTCGACCTCGTCTGATAAGTGATAAGTCAATTACTGTTACCAAAAACCATTCTCTTTTTGTATGTAAAACAACTTAAGGTAGCACTTCTATTCTTCAAATGGAACGAACCAATTTCCAATTTGTATGAATCCTCAGCGTCTACTCCGGCGGCTCCTAGCAAGACGCTCACGCCACCTTCTACGGCGGCAGCGATGCCTTCGGAACTATGGGTATCTCCCTTTTCCTTCTCTTCTTACCACATTTTCTTTTTTGGGGTATCTTTCTCTGATTTTCTCTGTTTTAGTGGTGCTTGTGGGTATGGGAATCTCTTAAAAAGTTTGAGGTAGACAGAGAGAACAACAAAATAAGTTCTTGGAAAGAGCTACAATGTTTATCTCTTGAAAAGCTTTCTTTATTCCGTCAAGTCAAGACTCTTGAAGATTGAATGGGTAACTACTAAAACAGTCTATGTGTGTGTGTTTGTTTGTGTTTGGTAGGTTGGTTGGTTGTGTTTTCAATTTCTGATATTGAACTGCCATTATTTTAATATATTACATGGTAAAACTAATGCTTCCTTTAGGCGAATAAAGTTGCAGATTTCATTTGTCTAATTAAAAAAAATGTTCAAATTAAAGCACAACAGAAGAATTATTATTATTATCGGTCTCAATTCCAGAATTCAGGGCTCCTTAATTTCTTCAGAAAATAATACAAAAAAATAATTGAGAGACTCTGCAGCGTTTCTTCATTTCTCACCAACTTTCTTCTAACGGTGAATTAAATATTAGCCAACTGTTATGTTGGAAGCCAGCCAATTAAACACTTTAGCAATGCCATTCATTCATTTGTATTTCAAATTAAAAGCCCAATCTGTTTGTTTGGAATTTGAAAATCTTTGCAAGGGTAAAAAAAGCAAGATGATTCTTTGACCACAAGATGTTCTCTCTCTCCAGTCTTCACTTTTTATAAGCAATTGTCCCTCAAACTGTTACACCAGTAACAAGTTCCCTACTGTGAGTTCATCTTCCTAAGTTACCATTTTTCAAGTGTTTTTCTTCTATTTGTGTTATAAATTCACAGTTGTTTTTTTTTTAGGTAGGATTATATTCCTTTAGTTTTTGATAACTTCAGTGCTAATGTGGCTGTGGATGGGCATATTGTCAACTCGGGATTATGGGACACTGCTGGTAAAATGGGACATATACCAACTCGGGATTCTTGCCCTTTTGGTAGTCTGCTTGCTTTTAATAGATTATAATCTCCCTAAGTTGGTATATGTTGCTCTCTTTTGAAGGTCAAGAAGATTTCAGTAGACTTAGGTAATGGGCTTTTTGCTATTGTTTGATGTGTTATAGTTTGATAGAGGTGTTGTCGTCTTCTTTTTCTTTACATAAAAAATAATAAGTGGTCTCTTTTACCAAGACATCAATTTTTTTTTTTTGGTTTGCATTTAATTGAATTGTTTGTTATGTTGCATAGAGTCATTGGAGCCTTTACTTCTTTACCAAATGAAGGATGAACTGTTTTAACTTTTAAGTCAATCCATGTCTTTTACAAATTGTTCCACAATTTCGTTCATTTTACCGTAGTTTTTGTAGGACAAAAGAATTTAGACAAGCCATTGTCACGTCTTTTTTGATTTTTTAAAGTAAGGCGCATTCTAATTAAATTATGTCATAATTGGAGTCTTCTATCCTCTAAGAGTCGAGAGTTGAATATATTGACCAACATCTCCCTGATATTTTTCACCCTTATATTGGTTCCATAACTTATTCTACTTTTTGGGTTCTAAACTGTAATATAATTTTGTATTCAACTCATCAACAAGTGTATATTTGGGTTCTAAACCTTTGGATTTTGTATCGTTATAGACTTTATAGACATTGATGCTAGTTTTATCAATATGCAATATACAAGTGTTTTATGAGTTATAAGGCCAGTTAAAGAGGACTAATAATGTGTATGTTGAAGAGATAGTGCCAATGTTTTTGTATATATGCTTGCACACCATGTGAAATATCGAGTAATTGGTTGTGGTTTTAAACAATTTAGTTGAACTTTTAGTAAATGTTATTGACATTCATATCTAATGCCAATATTTTCTTTTTTTTTTTTAAGACCTTGGTGGCAATACAAGCATGTTCAAAATAATATTCATATCAAATAACTACATTGAAAAAAATGTAAGTATTAAAGATTCATATTCTTCGCCTTTTTTATCTAATTGTGGTGTTTATCTTTAATCTCGTTGCTTTTGCACTTGCTGTTGTTGTAGAGTAGAGAAGAGCTACTGTAAGTTATGTGTATTTGTTGCAACTCTCTATTGATTGCTTTTATTGTTTGATGAATGGTGTTTTTCTGATAAGAAGTATTATTGAAAATTTGAAAGGGTTTGTGATTTTCATATTGGTTGTGCTGAAATGGCTTATTGATTTTTGGGTTAAGTTATATGTAGGTGGCTTTTGTATAGAAATGCTTTAGGTGGTTTAAGTTATGTGTAGGTTGATGTAATTACATGTGTATATTATCTTGTTTTTAGATCATTTTTTCAATTGTTTGTGAATTATGATGGGATTGTGAAGATCATTTTTTTTAATCGTTGTTATTGGTTTAGGATTAATTAAGACTAATGACGGTTGCTTTGTGGATATTTGGACCATTTTATTTATCTTTATACTAAGTTCGGGTTGTTATTCGTTGTGGGTGTGCGCTATTTCCTGTCTTTATAATAAGTCTTATTCTGAGTTACAATCATCATTTTCTTTTCTTATTAGATTTTGCAAGAATCCATTGGAGCAGTGAAGCCATGTTTGCGGCAATTGATTGATTTATAGGTCTTTTTGTAGGTTTGGTAGCCAAATTTTGGTTCAAATGTATTTATTTAAATAGCTTGTTCATCACTTTATTGTACAAACACTTTATGACGAACAATTGTACATATATTAAAGTGTATATATTAATACGTTCACCATTTCTTTCAATATGGGTGTGTTGTATAATATTTTGTGATTGTATTAGTGTGTAATGGCAGGGTGACGAGAAAAACAGGGATTCAATTAAAAATAGGGCAAGAATGGTAGATGAAATGATGACAGTTAATAAAAGTCATAAATGATAAATAATGACATTTAATACTTGTCAAACAAGATTAATAATGACAGTTATTCTCTGTCACAAAATATAAACAATGACAGTTATTCTCTATCACAAGATATAAACAATGACTGTTATTATTTGTCATAAAATCTAAATGACATTTATAATCTGTCATAAAATAAAGAATTCGTGACATTTATTCTCTGTCATGAAAAACACATTTCGTGACAGTTTATAGAACTGTCATAAAATACTTTTCATGACTGTCGCATCAATGACTGCAAAATAACTGTCACCAAATCATTTTATGACAGCATTTAACTGTCATTGTAGGCCCTTTTTTTACTAGTGGTCTTCTTTGAACACAACATCTCTACTTGTTATGATCTTTTGTGAAATAGGATCATCAAGTCGATAGGCCTTCGATTCTTTGCTAACACATCCAACAAAACACAAGTGAAACTTCGAAATTTCTTAAGAGGGTGAGAAATTGTAAAACCCAAATCTTTAAGGTCCTTTAGGACTTGATAAAAGGAAGAGAAAAATGAGTTAGTAGGAAAATGAAAAGGAAATTTCTTGGAAAGATTGATTAAAGGGAGTGATAAGGTTTGTGATTCATTAAAAGCTTAAATGGAAAAGTAAGTTAAAAAATAGCTAAGTGTGAGTTATGCATAGAAGGAAGGCTATGCAGCCAAGATGAGTCAAGATAACCTCTAAAGGAGGGTAATGAGCGACTATAGTTATGTTGAAAGTGTGGCCGAGAGTGTCTCCAAGAACTTCTAAGTGCAAGGAAGACTAAGAGAGTAATGTTTGGTAGGCGGCTAAGAAAAGAAAAATAACCTCTAAGGGTTCATTTAGGCGGCCAAGGAATGGTTTGAGAACCTCCATGACATTAGGCGAGATGGGCAAGTTGGGCTGACATATAGCTATGTGAAAACCTCTAAAGGACTTGACTAGGCACCAAACATGAAGAGTTAGCAAGATAACCTCTAAGGAGAGGTTATGGGTGTCCAAATTGTGCCAGATGAGATGCTTGTATAGGCAAGTTGTTACTACTAGGCGTGATAGCTTGTAGGTGGGTTGTGCAAGGATAGGCCTTACGACTATGGTTATAAGGTTAGCATGCGAGTAAATGGAAGTTTGGGCATGGAACCAATGGTTGGGCGAAATGATGAGGGTTGTAAGTTTTCAAGGCAAGTCGGTGTGGTAGTTTCTAGGTGCCCACAACATGCAACATGGATTTTTACGCCAAGCAAGAGGTGACATGATGTGGCATCAAGATAGCATGCAAAGGGCTCTATAAAAGGATGACTTCAGACGATGAGTGGGAGTAATTCATTAGTATGTTTTGCCTCAAATCACTTGCAAATGCCTTCTTTATGAGTCTATTTTATTGAAGAGGGCTACTACATGAAAATTAGGTTTGAGTTGAAGAAAGAAGAAAAGGTCAATTTTTGACAGATTATAAGCAGTCTTCAATTCCAAAAGGCTACAAAACTCAATTATTAGAGTTTTGGGCTGAAATTTTAAGGTAAGCAATTTAATAAAAATTTAAACAAGTTTATAGAAGAAACTTTTTCATTTTGAGGTCTGGATTAAAATTTATAAACGCTGAAATTTAAATGATGATTATGGAAATTTCGCAGTGTCTAGGCAATCCTAAGGTGACCAAGTGACACAACGTGAAGGGGTTTGACATGCATGTGAAAATCAGGTAAAGAGGTTATTTTGGATGCTATGGGACTTGCGGCACGACTAAGGCACACTTGAGTGGCAAGGATGTGCTCAGGCCATGCATAAGATCATGCGCAAAGAAGATTATCATTCAAGGCAAGACGACGTGCGAAGATGAACACGCGTGTGAAGGGCATGCTGCATAGTGTTAGGGCACCAGACGCACACTACATTTATGCCCGCATGGAAGACACACGGTTAGGCTTTCTGATGCCCTTTGAGCGCACACATCTGCCTGTGCCTATGTTGTATGGCTAGTAATGCCATGACATGGTTTCTGGGGTTGCTTTGCTATTTTTTGCAATTTTGAGCAAATTTTGGGTATTTTTCATGGTTAGGGAGTTAATTAAAACTAAATTATGGATTTTTCAGGTCAAGGAGAATTTTAAGAAAATTCTAAGTCAAGGGTTGGACTAAGTATAAAGAGTGACAACTGATGGAAATTGATTTCTAAAGCATGATTTACAAGCTAATGTTTAAAGTATGTTTTGAGAAATATATTGAGCTTCCTGATTTCTATAGTAATTTGCAAAGCATGAATGATTAAGTATTTGCAAGCAGAACTTATGATTTAGAAAAGCTTGTATTTAAGTTGTTTTACCAAAGTTTATGTTATGTTCAAAAGTATGTGCCATGACTATGTGAATTAAAAGCAAAAGTATGTTTTAAGTCAAGTTTCCAAGCATGTTTTCGATGATCCTAGGCCTGTATGATCTAAGAGTATTATCTATGGTCCTAAAAGCACATTTGGTTTACTCCGCTACCTAGTGCAAAGGCTGACGAACCTATGGTCTACAATTCATTAGGGAAGGTATACTTTGTTATGCCTATGAGAAAAATGATACAATGGTAATGGTATCCTATGTGGTTTCATTGTCTAGTACGTCTTTTGATGATAAGGTGATTTGATGCCTAGTCTTCTTATGACGATGGGGTTAGTAATATCTGGATTATGGATTCATGATTACAAATGGTTTGTGAAATGTTATCAAATGTTTAATGTTTACAATTATCGTTTTTATGAAATGATTTCTTATTGCTTGAATGTTTCTTTAAACCAAGGTTTTATGCTAAACTATTTCTGACAAGTATATTTTATTAAATTATCACTCACTAAGTCTTTCGACTTGACCTTTCAAATGTTTTATCACCTTTCAGGTACAAATTATGCATTCTCGAGTGCTGAACTTACTATTGTCAGGCCAATCGGTTTATACTATTGTTAAGGAATAATGAGAGATAAGTTCACTCTGTAAACAGGTTCAAGATAGGCATGTTTATAATTTTAGGCTAAAGTCCCATTGATATAATCGTCTAAATAAGAATTATGTTTACATTGTCACTATTGTATCACATAAATTACAACTAATAGTCTAAGTTGTTAGTAAAAGCATGCATTTGTGTCATGACTACTAGTCGAGTTAGGTAGTTAGTCAACTGGTGGATGTTGTCAAGATATGGTAACACCGACCTGCCCTCATACCCTCTTTTAAAGCTAAGTAAAAGTTCAGTTAAGGAGTTTTGGGAGGGTGTATGACATATAGTCAGTGATTAGCAAGTTGTGCTCGATCTGACAATTACCACCTCAAGTGCAAACAAGATCAACAGTGCTACACATAATTAGAGGTGGGTGTCAAGAGGAAAGATTGATAAATTTCCCCATTTGTAGACTCTTAACGGAGAAGAGCACTCCAAATGAAGGCTTCAATTTTACTTCTTGTACGCTTAACTACACTACACATTTCTTATACATAGAAATCGAAGTGTAGTAGGGCTTGGCATGACATCAGTGTGAGACTCTCTTACGTAAGTGAACCCAAAAAGAGATACTAGATCGAAATAGTGGGTTGAAGGTGAAGCCGACGATAGGCCCGCAGTGATGACAAATCCAACAAGATTAATTGGCAACATGTATGTACATATATTATATACCACCAAAGAGTTAGTATATACCATAGACATAATGGAAAATTAAAAACAACCCGGTATTGAGTTATGCATGTGTAAAGACAACGTGGAAAACTTCCATCGAACTTTTCAAAGACCTTAAATTTTCAATTAAGGAAAATTTCATTTTTTTTCCCTGTTTCGACGAAACTTCGAGAAAATCATTTTTTTTTCAAAACTAGCCATGTTAAATTAGTTTAAGTTTTGTCAGGGGCAAAATCATTTTTGATAAAGAATGAAACTTTATCATTGTGCTACTTTTTTTAACTTATCTTTCACAACTTTTAGCTTTATTATGAGTCCAAAGTTTTAGGTTTTGTTGTCTAAAACTATTTTCAAATCATAAACTTGGACTTTATTTCTCTTTAAATAAATTGAATTTGAAGAAAAAAACACAAAAAAGAACCTATATTTATTCTTTTACCTTATTCAAACATTTTCTATTAAATTTTTACATCATTTCATCGCATAAGTCAATTAAGGGTCGTTTGGCCCCTCGTTTTGGAATCAAGTGGGCTTGGCATTTAATGTCAAGCCCACGTTTGGCCCACAGTCTAAAAAGATGGGATTAAGAAATGGGGTAAATTGGCGGTTTAATCTTTTTACAAAATAAAAGAAAAATCTCTTCTTAATTTCTTTCCGATCTTTCATCGTCTCTCTCCCCATCTCTTCTTCTTCGCGTTCGCATCAAACCCTAGCCTCCTCCGCTCTTCATCTCCTTTAATTTCTCTTATTTCTCTTTTTCTTTTTCTCATACAAAGAAGCAAGGTAAGAGAAAATCGGATTCTGGCGGAGATTTATTGGGGGGTCTGATCTTTTTTTTTTTTTGTAATTTTTTAATGCTTTATTTGTTCTATTTTTTTTGTTCCTTTGTTCCATTTTTTTTTTGTTTGTTGAATCTTTGTTGTTCTGCTAAGGTTCTTTTTTTTTTTTTTGTGTTTTTTCCTACATGCTTCTTTATCTTTGTTATAAGGTTTTATTGGCGGATATGTGCTATTTTTTTTTTGTAATTTTTTAATCCTTTATTTGTTCTAATTATTTTTTGTTCTGTATTGCTTTGTTCCATTTGTTTTGCTTGTTCAATCTTATTTGTGTGTTTTTTCCTGGTCTACATTCATCTTTATCTTTGTTGTAAGGTTTTCTTTCATGTGTTTTCATGCATTTCTTTGTTGGAAGTTCTTTTTTTCCTTTTTCTTGTTTTGTAAATACAATTTTTGTTTTTTTAATTTTACTGAATATAGGAAAAAACAAATTAGAATTGGAGATATTATTGCGTTTAATTCTTTTTTTTTATTACCTAATCTGAAAAAGTTTTGGATGGAAATGATATTGAACTTGTGTCACCGTTTTGTGCCCTTATTAACGAGGCTTGTCTTCTTCACACTCACATACTCAAATCATGTAGAGGCTTGTTCTTCTTTACCTTATTTTGCAGAAATATCATGTCAAGAACAAGGATATATGGAAGTTCCTTGATGGTATCTATGTCAAGAAGATAAGTTGGAGCTTGGAAGTGATCAATACAAGTGCAAGTTATATCTACACTTAGTTTCTCTTTTGCAATTATTTTTTCATGACTAATAGCTTAATTTTGTGATGTTTCTTTTTTGTGTCTGCTTTTTGAAAATCTTTGAAAATACATAACAGTTTTAGTTAAGGCACCAAAACAATGCTCCTCTTTAACCCATTTTTCACTTATGAATCTAATAATAATGATCTTAGGTTCTTCATGTGTGCATTGCATTAACATTATATTGATCCTGAATTTTTAGTTATGTGAAGCTTAGATGCTCATTAACCATTTATTTTAAAACATCAAACTTCAATTTTTATTCTTTTGCAATTGTGGAACATTTTGGTTATTTGTTTGTTTTAAAACATCAAGTTTTGATATTTTGATTACTTTTCTAAATCAAAGTTTGTGTAGTCTTAGTGTTTGAGTTTTAAAACATTTTGGTAACTTGATTTGTTTATTTGGTAGTTGAGAAATTTAAATTTGACAAAACTGATTTGATAGTAGATAAAATAAAACTGATTTGATAGTTGATAATAGTTGAGAGAGATTTAAATTTAGAAATCTTATTTTTATATATATATGGGGTAGTTGTATTTGTATTAAAAAAAATTTAATGTTTACTTTTGGTAGTTGAGACATTTAATTTTTGGAAATCTTAATTTTATTTTATTCGTATTTAATACATAGCAATTATTTTTTTTTTTCATTTATCAATGGTCGTTGAGTGATTTAAAAGGAAAAAATTATTAGTTCACACACCCATTTGTTTTAAATAGAGCACTTCTCCTTCATTTTTAAACACACAACCTCCTTGGTTTGTTTCTAAAATTTACTTTTTTTGAGGTTGTTCTCCCATATCTTTGAGTGGTATTTATTTTACATTTATTTTATATAGACTTTGTTATATATATATTATTATCTTTTTTTTTTCTTATACTATTATTTTCCTTCTTTTTCCATTGTTCTTTGATATTTTGTTTGGGTATGTATATTTTACTTTGTTAATATGGATTTTTCTTAGTTTTCCAACTATCAAGAAGTAGCTCAATTATATTAATTCCACTTATCTCATCTCATCGACCATTCTATTTTGCTTTTTTTTTAAGGTTTGTCTTAGCCTTGCCTTGCATAGTCACATCATTATGTAATGTTCTCTTTTCTTTCCTACATTTGGATATGGACTTTTTGTGTTTTTAATTTTTTTTGTTAGTACATTCATGTTTTGTATATTATGATTGTGTTATATTTGTCAAATTATTTGATTTAACTTTCGAGAATACTGTGAAATTTAATTTGTAATATTATTTTTTCATTTTTAAGTTAATTTATATTGTTCACTTGCTATAATAAAACATGAGGGTTACATGTTTTCTTATAAACAAAAAATTCATTGTAAATAACAATAATTCTGATTTTTTTATAGAAACAAATGATGAGTATTACTAAATTTTTTTCTTAACCTAAACAAATGATTGATGCAATATTGGCTTGTTATATAAAGATTTGTACAAAATTGAATTTTAAAAATGATTGGCTTTAACCTATTTTAGAAAAGCAAAATTAAATTAAATTTAAATTTCATATAAAATTAAATATTTAATTTTAGAAAACTGATATGTCATTAAAAAGATTAAAGAAGAAAGAAAATTTCTTACTATGATTTTTGTTATTTTGGATTTTAAAATGAAAGGAAAATTAACAACTTATTACTAACTTCTAAAACGTTGGTATTTGTAACAAAGCAATATGTTAAAACTTTTGTTTGTAAATTATTAAAAAAGATAATCTACAAAGCAAGTTTTTTTTTCTTTTTTTTTATTAAAAGATATCATTATCTTTTCTAAAATCAAAACTAAATAAAAAAACTTGTTTTACTTCATAACTAAATTGAGTTACATAAATTGAGAAAACGAAAAAAATTTCTTAAATTTTTTTTTAAGAAAATAATCGTAAAAGAAGATAATCTAGTATTTTTTTTAAAAGCAATTCTAAATTAAAATTAAGTAAGTCTCAAATTTTTTTTTTAAAAGACATCATTGTCTTTTTTTTAAATCAAAACTAAATCAAAAAAATTTTCAAACTTCATAGCTAAATTATATAGATAATGAGTTACATAATTAAAAAAACAAAAATAATTTTTTAAAACTTTTGTTTTTAAGGAAAAAATTGTAAAGATAATGTTGTACTTTTAAAAGCAATGCTAAATTAAAATCAATTAAGACACCATTGTCTTTTCTAAAATTAAAACTAAATCAAGAAAAAATTCAACTTCATAACGAAATTACATAGAGCAAAGAGTTACATAATTAAAAAAAAAACAATTTTTTTTAAAACTTTTGTTTTGAAGAAAAAAATTGTAAAATAAGATAATCTTGTATTTTTAAAAAAAAAGAAACATTGCTAAATTAAAATCAAGTAAGTCGCACAATTTTTTTTCCCTTAAAAAATACTATTGTTTTTTCTAAAATCAAAACTAAATCAAGAAAATTTTCAAACTTCATAACTAAATTATATAGAGAAAAGAGTTACATAATTAGAAAAAAAACAAAAGAACCTCGTGTACTAGGAACTCAATTGTGTTTGTTTTGTCAGTAACTTATCGTTAATTAAAGTACTAAAATAGCATGGACATAGAACCAAACGAGTTGATTGCAATACTTTCTGTCATTTGCATAACACAACAACAATGGATGCTTATGTTCAATATGATAATGAGACTTGGAGACAGAATAATAGAAAACCAATCACCACACCTAAGACACCAAATTAGGCAACTTAACTTTTTTCGTCTAATTCATGAAAGTGATATAGCTTGTCGAGAGAGTACACAGATGGATCAAAGATGTTTTACTATCTTGTGTACTATGTTAAGAACAAGAGGGGGATTGGAAGCCACTCAATATGTGGATGTTGAAGAGATGACTGCGATTTTTTTGCATATTGTAGCACACGATGTTAAGAATAGGGTAGCTCGACGACATTTTGCAAGGTCTGATGCAACAGTGTCAAGACACTTCAATGTTGTTCTTAACGCAGTTCTTAGAATCCATGAAATCCTTCTTAAGCAACCTGATCCAGTGGCCCATTCATGTTCGCACGAGAAGTGGCAATGGTTTCAGGTATATAATTGGCCCGCTACTACTTTACAGTCGATATGTGCTTCTGTGAATTGACGAATAAATGTCTTTTGCCCTTGACAAAATTGTCTAGGTGCATTAGATGGTACACACATCAAAGTGAATGTAAGTATGAGTGATCACCCAAGGTATAGGTCTAGAAAGAGTGACATTACCACAAATGTACTTGGTCTGTGTTCACAAAATGGTGAGTTCATATTTGTCATGCCTGGATGGGAAGGGTCTGCATCTGATTCGAGAGCACTTAAAGATGTAGTGTCACGACCTATTGGTCTAAAAGTCCCAAAGGGTAAGATGATGCATTCTCTTACCCCCACACAGTGGTATTAGACCATATGCTCATTTAATATGGTGTACCCTAATAATTCATTATGGGTGCAACATGGGCAGGTTACTACTACTTATGTGATGCTAGTTATCTAAATGTTGAAGGATTCCTCGCTCCATACCGAGGTCAACGTTATCATCTAATTGAATGGCGTGGAGGAAACCCACCAAAATGCCCGAAAGAGCTATTTAACATGAGGCATTCCTCTGCTAGAAACGTTATTGAAAGAGCATTTGGATCATTGAAGAGTCGGTGGGCCATTCTACGAGGGAGATCCTATTACCCCGTTGACATACAATGTAAAATAATAACAGCATGTTGCCTCTTACATAACTTGATACATAGAGAAATGGGTTCAGAGGCAACATTTGAGGAGCCACATCTTGGTGAAGATGATTCAAGCGAGATGAACATTGAGAATATAAACTTAGTGGAAACGACTAATGTTTGGACTGAGTGGAGGGATAATCTTGCAAACCAAATGTTTGAGGATTGGAATAATGTATGACTAATATATGTAGTTTAGTTTCCTATATAATTTTGTTGTTTTATCACATGATCTGTACTTGAACTATTTTTTGTGTGTAATTGGAGTCAGAAATACATAAGGTTTCCTCTAAACTATGAGAACTAAATTGTCTATATGTCAATCTATAGGTTTTGTATCCATTGACTTTTATAATATTCATGTGCTAATTTAGATGACATCGACAAATTTAAAAGCCACTCAGCATCGGTGGACCACTGTTGAGGATGAGGCGTTAGTTGAGTGCTTATTACAACTAATGGAGGAAGGTGGTTGGAGGGCTGATAATGGAACATTCAAACTGAGATATTTGGTACAAATACAAAAACTAATGAAAGAAAAAATTCATGGAAGCAACATACAAGTGACTCCAAATCTAGAGTTAAGAGTAAAAATTTTAAAGAAGCAGTACACTGCCATATAAGAGATGATGGGGCCAGCTTGTAGTGGGTTTGGATAGAATGAGGAACGAAAGTGCATTGAGGTAGAGAAATTCGTGTTCGATGACTAGGTTAAGGTAAAAAGATGAATATAATTCATACTTTCTATAAAAGTAAAATATAATATACTTACATATGTTAACTCCATGTAGGGACACCCCAATGCTCGAAGCCTACTAAATAAACCATTTCCTTACTTCTATGACTTGGAAGTTGTGTTTGGTAGAGATAGGGCCACTGGTGGTAGATGTAAGACATCTGTTGAAATGGGCTCACAGACTGTAAGAGATACTGAGGAAGATGACATGGACATTAATCTTGAACACTTTGATATTCTAAATCCACATGGACTCGAGCTACCTTCGGGGGAGGACATGCCATCGACTCCAACAAGTATGGTACATGATGCGAAATCATCTAGGCCAAGTAAGAAAAGACGGTCATATTCAGGAGACCTCATGGACACATTTCGTGCAAGTATGCGAGAAACTTCCAAGGAAATTGGAAAGATTGCTGCATGGCAGAGAGAAACAATTGAAATAGAATCATCCCTACACAAACGATTATATGCTGAATAAATGGAGTTCTTTAAGTGTTCAATTGGTGGAGAGGTTTATGGCACTGGTATCACTGAAATAAAGAGGGGAATTGCTGAGCAGAATGACTTGAAAGTGGAAGAGGTTTGTGTTCTATACTCTATGCAGCACACTAATCTGCCAATGCTGTTCAAGAAAAGGGATCCTAAGCTTATGGGAGGAGCATGGAGAAATGAGCCCAACTCTGATCTTTGCCTTCTTAATGTAGCACTTCTATTCTTCAAATGGAACGAACCAATTTCCAATTTGTATGAATCCTCAGCGTCTACTCCGGCGGCTCCTAGCAAGACGCTCACGCCACCTTCTACGGCGGCAGCGATGCCTTCGGAACTATGGGTATCTCCCTTTTCCTTCTCTTCTTACCACATTTTCTTTTTTGGGGTATCTTTCTCTGATTTTCTCTGTTTTAGTGGTGCTTGTGGGTATGGGAATCTCTTAAAAAGTTTGAGTGCTAATGTGGCTGTGGATGGGCATATTGTCAACTCGGGATTATGGGACACTGCTGGTGGGTTGTGCAAGGATAGGCCTTACGACTATGGTTATAAGGTTAGCATGCGAGTAAATGGAAGTTTGGGCATGGAACCAATGGTTGGGCGAAATGATGAGGGTTGTAAGTTTTCAAGGCAAGTCGGTGTGGTAGTTTCTAGGTGCCCACAACATGCAACATGGATTTTTACGCCAAGCAAGAGAACAAGAGGGGGATTGGAAGCCACTCAATATGTGGATGTTGAAGAGATGACTGCGATTTTTTTGCATATTGTAGCACACGATGTTAAGAATAGGGTAGCTCGACGACATTTTGCAAGGTCTGATGCAACAGTGTCAAGACACTTCAATGTTGTTCTTAACGCAGTTCTTAGAATCCATGAAATCCTTCTTAAGCAACCTGATCCAGTGGCCCATTCATGTGCATTAGATGGTACACACATCAAAGTGAATGTAAGTATGAGTGATCACCCAAGGTATAGGTCTAGAAAGAGTGACATTACCACAAATGTACTTGGTCTGTGTTCACAAAATGGTGAGTTCATATTTGTCATGCCTGGATGGGAAGGGTCTGCATCTGATTCGAGAGCACTTAAAGATGTAGTGTCACGACCTATTGGTCTAAAAGTCCCAAAGGGTTACTACTACTTATGTGATGCTAGTTATCTAAATGTTGAAGGATTCCTCGCTCCATACCGAGGTCAACGTTATCATCTAATTGAATGGCGTGGAGGAAACCCACCAAAATGCCCGAAAGAGCTATTTAACATGAGGCATTCCTCTGCTAGAAACGTTATTGAAAGAGCATTTGGATCATTGAAGAGTCGGTGGGCCATTCTACGAGGGAGATCCTATTACCCCGTTGACATACAATGTAAAATAATAACAGCATGTTGCCTCTTACATAACTTGATACATAGAGAAATGGGTTCAGAGGCAACATTTGAGGAGCCACATCTTGGTGAAGATGATTCAAGCGAGATGAACATTGAGAATATAAACTTAGTGGAAACGACTAATGTTTGGACTGAGTGGAGGGATAATCTTGCAAACCAAATGTTTGAGGATTGGAATAATATGACATCGACAAATTTAAAAGCCACTCAGCATCGGTGGACCACTGTTGAGGATGAGGCGTTAGTTGAGTGCTTATTACAACTAATGGAGGAAGGTGGTTGGAGGGCTGATAATGGAACATTCAAACTGAGATATTTGGGACACCCCAATGCTCGAAGCCTACTAAATAAACCATTTCCTTACTTCTATGACTTGGAAGTTGTGTTTGGTAGAGATAGGGCCACTGGTGGTAGATGTAAGACATCTGTTGAAATGGGCTCACAGACTGTAAGAGATACTGAGGAAGATGACATGGACATTAATCTTGAACACTTTGATATTCTAAATCCACATGGACTCGAGCTACCTTCGGGGGAGGACATGCCATCGACTCCAACAAGTATGGTACATGATGCGAAATCATCTAGGCCAAGTAAGAAAAGACGGTCATATTCAGGAGACCTCATGGACACATTTCGTGCAAGTATGCGAGAAACTTCCAAGGAAATTGGAAAGATTGCTGCATGGCAGAGAGAAACAATTGAAATAGAATCATCCCTACACAAACGATTATATGCTGAATAA ATGGAGTTCTTTAAGTGTTCAATTGGTGGAGAGGTTTATGGCACTGGTATCACTGAAATAAAGAGGGGAATTGCTGAGCAGAATGACTTGAAAGTGGAAGAGGTTTGTGTTCTATACTCTATGCAGCACACTAATCTGCCAATGCTGTTCAAGAAAAGGGATCCTAAGCTTATGGGAGGAGCATGGAGAAATGAGCCCAACTCTGATCTTTGCCTTCTTAATGTAGCACTTCTATTCTTCAAATGGAACGAACCAATTTCCAATTTGTATGAATCCTCAGCGTCTACTCCGGCGGCTCCTAGCAAGACGCTCACGCCACCTTCTACGGCGGCAGCGATGCCTTCGGAACTATGGGTATCTCCCTTTTCCTTCTCTTCTTACCACATTTTCTTTTTTGGGGTATCTTTCTCTGATTTTCTCTGTTTTAGTGGTGCTTGTGGGTATGGGAATCTCTTAAAAAGTTTGAGTGCTAATGTGGCTGTGGATGGGCATATTGTCAACTCGGGATTATGGGACACTGCTGGTGGGTTGTGCAAGGATAGGCCTTACGACTATGGTTATAAGGTTAGCATGCGAGTAAATGGAAGTTTGGGCATGGAACCAATGGTTGGGCGAAATGATGAGGGTTGTAAGTTTTCAAGGCAAGTCGGTGTGGTAGTTTCTAGGTGCCCACAACATGCAACATGGATTTTTACGCCAAGCAAGAGAACAAGAGGGGGATTGGAAGCCACTCAATATGTGGATGTTGAAGAGATGACTGCGATTTTTTTGCATATTGTAGCACACGATGTTAAGAATAGGGTAGCTCGACGACATTTTGCAAGGTCTGATGCAACAGTGTCAAGACACTTCAATGTTGTTCTTAACGCAGTTCTTAGAATCCATGAAATCCTTCTTAAGCAACCTGATCCAGTGGCCCATTCATGTGCATTAGATGGTACACACATCAAAGTGAATGTAAGTATGAGTGATCACCCAAGGTATAGGTCTAGAAAGAGTGACATTACCACAAATGTACTTGGTCTGTGTTCACAAAATGGTGAGTTCATATTTGTCATGCCTGGATGGGAAGGGTCTGCATCTGATTCGAGAGCACTTAAAGATGTAGTGTCACGACCTATTGGTCTAAAAGTCCCAAAGGGTTACTACTACTTATGTGATGCTAGTTATCTAAATGTTGAAGGATTCCTCGCTCCATACCGAGGTCAACGTTATCATCTAATTGAATGGCGTGGAGGAAACCCACCAAAATGCCCGAAAGAGCTATTTAACATGAGGCATTCCTCTGCTAGAAACGTTATTGAAAGAGCATTTGGATCATTGAAGAGTCGGTGGGCCATTCTACGAGGGAGATCCTATTACCCCGTTGACATACAATGTAAAATAATAACAGCATGTTGCCTCTTACATAACTTGATACATAGAGAAATGGGTTCAGAGGCAACATTTGAGGAGCCACATCTTGGTGAAGATGATTCAAGCGAGATGAACATTGAGAATATAAACTTAGTGGAAACGACTAATGTTTGGACTGAGTGGAGGGATAATCTTGCAAACCAAATGTTTGAGGATTGGAATAATATGACATCGACAAATTTAAAAGCCACTCAGCATCGGTGGACCACTGTTGAGGATGAGGCGTTAGTTGAGTGCTTATTACAACTAATGGAGGAAGGTGGTTGGAGGGCTGATAATGGAACATTCAAACTGAGATATTTGGGACACCCCAATGCTCGAAGCCTACTAAATAAACCATTTCCTTACTTCTATGACTTGGAAGTTGTGTTTGGTAGAGATAGGGCCACTGGTGGTAGATGTAAGACATCTGTTGAAATGGGCTCACAGACTGTAAGAGATACTGAGGAAGATGACATGGACATTAATCTTGAACACTTTGATATTCTAAATCCACATGGACTCGAGCTACCTTCGGGGGAGGACATGCCATCGACTCCAACAAGTATGGTACATGATGCGAAATCATCTAGGCCAAGTAAGAAAAGACGGTCATATTCAGGAGACCTCATGGACACATTTCGTGCAAGTATGCGAGAAACTTCCAAGGAAATTGGAAAGATTGCTGCATGGCAGAGAGAAACAATTGAAATAGAATCATCCCTACACAAACGATTATATGCTGAATAA MEFFKCSIGGEVYGTGITEIKRGIAEQNDLKVEEVCVLYSMQHTNLPMLFKKRDPKLMGGAWRNEPNSDLCLLNVALLFFKWNEPISNLYESSASTPAAPSKTLTPPSTAAAMPSELWVSPFSFSSYHIFFFGVSFSDFLCFSGACGYGNLLKSLSANVAVDGHIVNSGLWDTAGGLCKDRPYDYGYKVSMRVNGSLGMEPMVGRNDEGCKFSRQVGVVVSRCPQHATWIFTPSKRTRGGLEATQYVDVEEMTAIFLHIVAHDVKNRVARRHFARSDATVSRHFNVVLNAVLRIHEILLKQPDPVAHSCALDGTHIKVNVSMSDHPRYRSRKSDITTNVLGLCSQNGEFIFVMPGWEGSASDSRALKDVVSRPIGLKVPKGYYYLCDASYLNVEGFLAPYRGQRYHLIEWRGGNPPKCPKELFNMRHSSARNVIERAFGSLKSRWAILRGRSYYPVDIQCKIITACCLLHNLIHREMGSEATFEEPHLGEDDSSEMNIENINLVETTNVWTEWRDNLANQMFEDWNNMTSTNLKATQHRWTTVEDEALVECLLQLMEEGGWRADNGTFKLRYLGHPNARSLLNKPFPYFYDLEVVFGRDRATGGRCKTSVEMGSQTVRDTEEDDMDINLEHFDILNPHGLELPSGEDMPSTPTSMVHDAKSSRPSKKRRSYSGDLMDTFRASMRETSKEIGKIAAWQRETIEIESSLHKRLYAE Homology
BLAST of MELO.jh100970.1 vs. NCBI nr
Match: TYK08067.1 (retrotransposon protein [Cucumis melo var. makuwa]) HSP 1 Score: 964 bits (2492), Expect = 0.0 Identity = 468/479 (97.70%), Postives = 470/479 (98.12%), Query Frame = 0
BLAST of MELO.jh100970.1 vs. NCBI nr
Match: KAA0048191.1 (retrotransposon protein [Cucumis melo var. makuwa]) HSP 1 Score: 934 bits (2414), Expect = 0.0 Identity = 468/535 (87.48%), Postives = 470/535 (87.85%), Query Frame = 0
BLAST of MELO.jh100970.1 vs. NCBI nr
Match: KAA0065306.1 (retrotransposon protein [Cucumis melo var. makuwa]) HSP 1 Score: 793 bits (2047), Expect = 1.44e-281 Identity = 401/493 (81.34%), Postives = 417/493 (84.58%), Query Frame = 0
BLAST of MELO.jh100970.1 vs. NCBI nr
Match: TYK06362.1 (retrotransposon protein [Cucumis melo var. makuwa]) HSP 1 Score: 642 bits (1656), Expect = 9.80e-224 Identity = 338/487 (69.40%), Postives = 349/487 (71.66%), Query Frame = 0
BLAST of MELO.jh100970.1 vs. NCBI nr
Match: KAA0049607.1 (retrotransposon protein [Cucumis melo var. makuwa]) HSP 1 Score: 493 bits (1269), Expect = 2.08e-167 Identity = 235/266 (88.35%), Postives = 243/266 (91.35%), Query Frame = 0
BLAST of MELO.jh100970.1 vs. ExPASy Swiss-Prot
Match: Q9XIE6 (Phospholipid-transporting ATPase 3 OS=Arabidopsis thaliana OX=3702 GN=ALA3 PE=1 SV=2) HSP 1 Score: 79.7 bits (195), Expect = 1.5e-13 Identity = 40/73 (54.79%), Postives = 49/73 (67.12%), Query Frame = 0
BLAST of MELO.jh100970.1 vs. ExPASy Swiss-Prot
Match: Q96MB7 (Putative nuclease HARBI1 OS=Homo sapiens OX=9606 GN=HARBI1 PE=1 SV=1) HSP 1 Score: 67.4 bits (163), Expect = 7.5e-10 Identity = 48/167 (28.74%), Postives = 76/167 (45.51%), Query Frame = 0
BLAST of MELO.jh100970.1 vs. ExPASy Swiss-Prot
Match: Q17QR8 (Putative nuclease HARBI1 OS=Bos taurus OX=9913 GN=HARBI1 PE=2 SV=1) HSP 1 Score: 66.2 bits (160), Expect = 1.7e-09 Identity = 48/167 (28.74%), Postives = 76/167 (45.51%), Query Frame = 0
BLAST of MELO.jh100970.1 vs. ExPASy Swiss-Prot
Match: Q6AZB8 (Putative nuclease HARBI1 OS=Danio rerio OX=7955 GN=harbi1 PE=2 SV=1) HSP 1 Score: 57.0 bits (136), Expect = 1.0e-06 Identity = 50/213 (23.47%), Postives = 88/213 (41.31%), Query Frame = 0
BLAST of MELO.jh100970.1 vs. ExPASy Swiss-Prot
Match: Q9LK90 (Probable phospholipid-transporting ATPase 8 OS=Arabidopsis thaliana OX=3702 GN=ALA8 PE=3 SV=1) HSP 1 Score: 51.2 bits (121), Expect = 5.6e-05 Identity = 25/73 (34.25%), Postives = 39/73 (53.42%), Query Frame = 0
BLAST of MELO.jh100970.1 vs. ExPASy TrEMBL
Match: A0A5D3C7X6 (Retrotransposon protein OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold265G002160 PE=3 SV=1) HSP 1 Score: 964 bits (2492), Expect = 0.0 Identity = 468/479 (97.70%), Postives = 470/479 (98.12%), Query Frame = 0
BLAST of MELO.jh100970.1 vs. ExPASy TrEMBL
Match: A0A5A7U3R2 (Retrotransposon protein OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold63G001010 PE=3 SV=1) HSP 1 Score: 934 bits (2414), Expect = 0.0 Identity = 468/535 (87.48%), Postives = 470/535 (87.85%), Query Frame = 0
BLAST of MELO.jh100970.1 vs. ExPASy TrEMBL
Match: A0A5A7VG45 (Retrotransposon protein OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold1023G00220 PE=3 SV=1) HSP 1 Score: 793 bits (2047), Expect = 6.98e-282 Identity = 401/493 (81.34%), Postives = 417/493 (84.58%), Query Frame = 0
BLAST of MELO.jh100970.1 vs. ExPASy TrEMBL
Match: A0A5D3C542 (Retrotransposon protein OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold163G00540 PE=3 SV=1) HSP 1 Score: 642 bits (1656), Expect = 4.74e-224 Identity = 338/487 (69.40%), Postives = 349/487 (71.66%), Query Frame = 0
BLAST of MELO.jh100970.1 vs. ExPASy TrEMBL
Match: A0A5A7U5I3 (Retrotransposon protein OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold163G00600 PE=3 SV=1) HSP 1 Score: 493 bits (1269), Expect = 1.01e-167 Identity = 235/266 (88.35%), Postives = 243/266 (91.35%), Query Frame = 0
BLAST of MELO.jh100970.1 vs. TAIR 10
Match: AT5G41980.1 (CONTAINS InterPro DOMAIN/s: Putative harbinger transposase-derived nuclease (InterPro:IPR006912); BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT1G43722.1); Has 1807 Blast hits to 1807 proteins in 277 species: Archae - 0; Bacteria - 0; Metazoa - 736; Fungi - 347; Plants - 385; Viruses - 0; Other Eukaryotes - 339 (source: NCBI BLink). ) HSP 1 Score: 173.3 bits (438), Expect = 6.9e-43 Identity = 110/321 (34.27%), Postives = 157/321 (48.91%), Query Frame = 0
BLAST of MELO.jh100970.1 vs. TAIR 10
Match: AT5G35695.1 (CONTAINS InterPro DOMAIN/s: Putative harbinger transposase-derived nuclease (InterPro:IPR006912); BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT5G41980.1); 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: 127.1 bits (318), Expect = 5.7e-29 Identity = 81/219 (36.99%), Postives = 112/219 (51.14%), Query Frame = 0
BLAST of MELO.jh100970.1 vs. TAIR 10
Match: AT1G59820.1 (aminophospholipid ATPase 3 ) HSP 1 Score: 79.7 bits (195), Expect = 1.0e-14 Identity = 40/73 (54.79%), Postives = 49/73 (67.12%), Query Frame = 0
BLAST of MELO.jh100970.1 vs. TAIR 10
Match: AT5G28950.1 (unknown protein; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT5G41980.1); Has 448 Blast hits to 446 proteins in 74 species: Archae - 0; Bacteria - 0; Metazoa - 31; Fungi - 21; Plants - 396; Viruses - 0; Other Eukaryotes - 0 (source: NCBI BLink). ) HSP 1 Score: 70.1 bits (170), Expect = 8.2e-12 Identity = 30/63 (47.62%), Postives = 43/63 (68.25%), Query Frame = 0
BLAST of MELO.jh100970.1 vs. TAIR 10
Match: AT4G10890.1 (unknown protein; CONTAINS InterPro DOMAIN/s: Protein of unknown function DUF2439 (InterPro:IPR018838); BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT1G43722.1); 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: 68.9 bits (167), Expect = 1.8e-11 Identity = 64/214 (29.91%), Postives = 86/214 (40.19%), 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:
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