MELO3C015361.jh1 (gene) Melon (Harukei-3) v1.41
Overview
Sequences
The following sequences are available for this feature:
Legend: exonpolypeptideCDSstart_codonstop_codon Hold the cursor over a type above to highlight its positions in the sequence below.TATATATAGAGGTTGGTGGAAGTAAAATTAGAAGAGAGATCATTTGGGGTTGGTAGTTCCACTGACATGGTGATGGAGATGATGAAGAAGAAGATGATGATGATGACGAGGATATCAAAAGGAAATGTTTTGAAGAGTTGGTTGATATGTGGAGTTGTTGGTTTGGTTGTGATGTTGGGATCAATGGTTTGGTTGGCAAATTCTTCATCTTTTAATTCTCCTACGAGAATTCTCGTCGATACTGACGCTGATGCCGATGATATCTTTGCTCTGTTCTACCTTCTCAAGCAACCTTCTTCCCTCTTTCATCTCCAGGTAAATTTACAGTTTTGTAAAACATGCATATACACGATCGTATTAACTAGGTTTAGATTCAAGAAGGTACGATAGGTATGTCTCTTTTTATGTTCTCTTAAATTAAAAAGAGTTGCACATTTAAATTCATCTAAAAAAATTAATGTATATAACAATCTTTTTTCGGTTGAGTTATATTCCTTTTTATTAAATGCTTGAAAGGAAGAAAATTAAACGAGTATAATAGAAAGTTAAAGATGACGAGGGAGGGTGGAGAGTGAAGGAAGGAGTAGTGGGAGATGAAAGCGAATTTTATTTTTATTTTTTAATTTTAAAATGCCAACCGAGAATTAAAATTATAAAGTAATAAATAAAAAATATAAATCAAAGTGAGCTTAGTTCTAGTAATATTTAATCTTCGAGATGGTCACTTCCCGAGGATTAAGATCTTAAAAAGTAATTTTCTCAAACAAAATCAGAGAAATTAAATATGTTTTAACCCTTTTTTAAATCTTTGTGTGTAATTTTCTTTTAAAAAATAACATTTACTACTTTTAATTGGATTCTTCCCATGAAATTACAATTTCTATTTCTTTATCATCTTCATCAATATCCAAATTTATATCCCTCAAAATTTCAAATAAAATTTCCAACTTAAACAATTTAAAATGTTAAAACTCAATTATATCCCTTGGAATTAGAACATAGAACGTCATTAAGTAATGGTCGAGATCGATATCGTGGAGCTAGTGTGTCTTAAGGAGAAGATAAGTAGCTTGACTCCTTGAGGAAATGGCTAAAAAGGCTTGATCGATAGGGCTAAGTTTCCAAATTTGAAAAACTATTCTATTTAATTACCGTTCAAATTTTTGTTTCGTTTTTTAAAAAAATCTATTAAAATGTATTAAAAAATGTCGCTTACGAAACTTAATAACCCATTCCATTTAAAAAGAAAAACCAAAAAACAAAAATTCGTTCGATAAATCATTTGCTTGCTTTATAATCTTTAGTAGTTTGAAACTTAAATCTAAAAACAATCATTTCACTACTAAATTTTTTGTATTGTTAACTACTTTTTATCAAACCCGATCAAAAAAGTGGGGATTGTTAAATATATATACATATATAAACCCAAATAATTACATTTAATTTCTACCATCCAAACATATATATGGATCAAAGGATTAATGGGAGTTCTTATCCTTTCAAAAAAGGTTAGAAAAATTTCAAAGAATCCATCATCAACCCTTCAAGTGATCATCATGAATAGTACATATATATACAGCAATGTCTCTGGTGACAAAAATTACCAAACAATGTCAAAAGGATATTTTTGCAATTTTATATAAATAGAGGGTGGTGGAAGTAAAATTATAAAGAAGAGAGATTTGGGTTTTGGTTTCACTAATAACATGGCAATGGAGATCGAGATGGAGATGAAGATGCAGATGATGGTGAAGATGATGGTGAGGAGAATATCAAGACGAAATTACTTTTGGAAGAGTTTGTTGATATGTGTTATTGTAGGTTTGGTTGTGACGTTGGGATCAATGGTTTGGTTGGAAAATCATTATTTTTATTCTCGTATGAGGATTCTGGTAGATACAGACGTTGATACCGATGATGTCCTTGGTCTCTTATACCTTCTCAAGCAATCTTTTTCACTCTTTCATCTCCAGGTAAACGTGTAGTTTCGTCAAACATGCATATACACATGATCGTATTAGGTTTGGATAATCCAATAAGATATATCTCTTTTTATGTCATTCTTAAAATAAAAAAAGTTAATGCAATAATCACTAACATATTATTCAAATTATGTCGAGTTATATTTTTCTTTATTAAACATTTTTTATTTTATAATGGTGAATGGAAGTAAACTCAAAATTACAAGAGATATATGACGAGAGAAGACGGAGGGAGAAGGGAGAAGCAGCGAGAGACGAGAAACAATTTTTATTTTTTAAGTTTAAAATGTCGAGTACAAATTTAAATTATAAAATAAAATAATAATAAAATGAAAAATATAAAGCAAAATGAGCTTAGCTCGATGATAATTGACATGATTTTTCATGTTTGGGATGAAACGTTCGACCTTTCATTTACATAATTACACTAAATTTTAAACAAATTACTTTTTTTTAAAAAAAAAATTATGTAAATTTCTTTTAAAAAAACATTTTTATTTATTTATTTATTTTAAAAAAAAAAAACATACCTCCTTTATTTGGTACAAACAAAGGGGAAAAAGACCAATTTCCTCATTTATTGAAGACCCCATCCCCTTTTACCACTTTTAGGTTTCATCCCATGAAATCACAATTTCTATTTTTTTATTGTTATTAATATCCAAATTATTATATCCCTAAAAAATTCAAGTAAAATTAATAATTGAAAAGGTAAAAAAAAAATATTAAACTAAATCTCAATTTTTATTTCTCACTAAATATCAATTTTTAGTATAAGAAAAAGTTTGTTATTAATATAAATTTTAAGTATATTAATATAATATTAATATGGTTGGTGTTGGTTTGGTTAATAACTTAATTATGTTGTAGGGAATAACAATAAACGGGAATGGATGGAGCGACGCGGGACATGCGGTGAACCATTTGTACGACATGTTGTTCATGATGGGGCGAGACGACATCCCAGTTGGTGTCGGCGGAGATGGCGGCATTTCCCCTGACGCCACTATTTCCCCTAATCTTGGTGGTTACCTTCCACTCATTGATCAGGTTAATTAACCTAACCCCCATACCCCATTACCCATTTCTTTTTCTTTTTTTTTTTTCAAAATACACTAATGTTAAGTTTAGAGGTGATCATTGGTCGGTTGGAATCAGATTTTTGACAAAATCGCCATCGAAACAACCATAGTCAGTTTAGTAAATGTTCAAACCAACTTTGACCTTGATGAGCAAGGGTCTCTCGGGTCGTTTCTAATACTTACAAAGACTTCTTGGAAATTCTTGGTTTAAAACTTTTCGAAATCGACCCCTCTTGTTTCTGAATAACTGAACTTAGTCGGTTGGTTCGATTTTTCGGTATATCATGCTTTAGTTTAGACTATTAGATTTGGGAAATAGGATTCCTAATTTATGAAAGAAAAAAAATTGATCCATGATGTAATACATTTCTAGCAATTTCTATGAAATGTAAGTTTAAATATAGAATTTTAACATGCGTACAAGTTTGAGGGTTTAATTCTTGCACTTGAAGTATAATTGCAATTCTTTTTAGAACATCAACTAAGGTAGAAGGATTCGAACCACAGACAAGTATAATTGCAATTCTTTTTAGAACATCAACTAAGGTAGAAGGATTCGAACCACAGACAAGTATAATTGCAATTCTTTTTAGAACATCAACTAAGGTAGAAGGATTCGAACCACAGACAAGTATAATTGCAACTATCACTATACTTTTTCTATAGCGGTAGTTATAACTTATATTTTTCATCCTTAATTTTTTTAATTGTAAAAGTTGGGCAATAAAACTTTATATAAATATTAAAACTAGACCCTCCGACTAGGAGTGAATATGATAAACCGAAATTCCGAACCAACTGATCAAATCGAAGTCGTTCGATCAAAAAACGAGAAGGGAAGGTCGGGGTTGGTTTCGGAAAGTTTCAAATTATTTTTAAGTGTTAAACCAACCCAACCAACCCTTACTCATCGATTTCGAGGTCACTTTGACACTTTACTAAATTGACTATGATCGGTTTGGGGTCGTTTTTTTTTCAAATAATTCCAACCAACCAATATCACTCTCAAGAATAGTATTCATTAAAGATCAACAAAAAATGTTGATATGCATACATACATATATATATATTGGTACACGAATTACAGAATTACGGGCCACTAAGATTATGTTAATATGACTGGGAAGTATTGAATTTGTTGATACTTTTTCTTTGGTTGAGCAAAACTGAAATGGGGCGGTGGGGGGTGGTTGGTTTGGACAGGGCGTGTCGACGGCCGGGCAATGCAGATACAGGCAAGCCATTCCAGTGGGAGGACGTCTCAATGCCAATACCAATTTTGGTTTACGTAAATACTTTCTTCCTCAGGTACTGCTCTTTCCATTTTCTTCTTTCTTCAATTCAATAGACCAACTCATTTCCACTTCAGATATGATTCCTTTGTTGTACTTGTTTTTGCCTTGCACATCTTTGATTTAACTTGCTCCATGAACTTCAAATTACTTATTTCGTTCAATTGGTTTAGTCTCTATGCTTTGAGCTTAGTTTGAGTTTGATCTCTATAATTTTGGTTTAGTTTCAATATAGTCTATGGTGTTAAGAAATCAATAAACAAATAAAGCAAGCAAATGTAAGCTGTGGGGAAATCGATACGAGGATTTAACAATCAACAGTGTGTTAGCTATGTTTACGGGCGAAGGAAGAGACTGGTTTATTATTAAATCGTAAGTAAATAGCATAAGTAACATAGATATAAATACAAATATAATTTAAAATTTTTCAGTTTGTGTTTTTTCTATGGTTTGTTCACACATTACCACGTTGACAAATATTTTGCACATGACAATTTTACATTTGGTTGATTGTGTTAGTTGATTGTATAGTGGTTTAAGGCTGAGAAAAAAATTTCAAAGAATTTAGGTAGGTTGTTTAAGTGAGAAACACAATTTTGGGACAAGTTGTGAGGTCAAACCAAATTATTGTAACCAAATTGAAATTTGAAACTGATCTCATACCATAGACTGAATTGAAACTAAGCACAAACCACGAAGATTAAATCAAAACTTTTAATACCATAGAACTTGATCCAAGCTATAAAATTCAGCCACACTTATTTGTTGATAGTTTGTACTAGTTTCAATATTGTAGTCCCCCAGTTTAACTTTTTTTTTCTTATTTGGTCTATATTTTTGTTAAATCTCCTACATGCTTCCATGGTATCGCCAAACATTTAATATTTATCTTATGTAGAATCTTTCCTTTGGACCCAATAAAGAAGTAGAATGACTTGGCATCGGAAGAAAATGTGCCTCTTAAGAAAACTATCAACATTTCGCATGGATTAAATGATTTTTTAGAGATTTAAGGTAAGTATAAGGATAAAATAGAAACACTGAGAAGTACAAAGTTCAAACTGGAAACAAGCCTAAAAGACTAAAGTAACAATAACTTATTCTAGACTGATAAGACTTGGCTGATTTTCAACAATTTTGCAATCCACTGTGCTTTTGATTAATTACCTCATTATTCAAACAGAAATTCAAATCTTGTTTTATTTCAAGTGCCCCCTTTTTTCTATGTTGATACTTGACAGGGTAAGAGAAGATATATTCCTATGAAGCAGCCGACTGCACAGCAGGTTATGAAAGATGCAATATCTGCAGGGCCTACTGCAGTTTTTCTTATGGGAGCTCATACAAACTTGGCTATATTTCTTCTGTCAAATCCTCATTTGAAGAAAAATATAAAGCATGTTTATGCCATGGGTGGTGCTATTAGAGAAATTTGCTCAGAGAGTTCTCATGGGAAGACATGCAGCAATATTGGGAACTTGTGGCCTCCAAATACAAATCCATATGCCGAGTTCAATATATTTGGAGACCCTTTTGCTGCCTACACAGTAACTTCTACTTTTACTGTTGTTATCAGTTGATTATTAATTTTTAATCTATGGAACAATCTGCATATGATGATGAATGTTATGTGTCAAATGTTCTAAATCATATCTTTAAATGAGATAACTCAACATAGAGTGCAGCTAAATAAGGAAATAGAGAAACTTAATTAATCTTTTTGTCAATGCTTTTGCTACAAGTTAACATGCCACTACTTGCAATAGGACATTAGAACTTGTGTAGAGATATGGATCTCGCATATTGAAACTCTCTCTTTGTTTTTCTTTCTTCATTTTGTTTATCATATATCCTTTGCTAGTTGAGTTTTGTATATTGCCATTATATATCGAGTGCATTGATAATTAGTTCTACGTTTTTTGAGTGCTTGGCTATCAATCACTTGGGCCGAAAAAACACTCCGTATGTTCTCACTTTGAGATGCTTTTGATTTTTTTGATAGAACGCTTCAGATACTTCCAAAAAGGAACCTTTTTAGTGAGAAGTGCTTGTGGCCAGATTTTCTTTTGTGTAATATTGGAATATGCGTCTGATATTACAGTGTTGCTTCTCAGGTATTACATTCTGGAATTCCTGTTACACTCGTTCCTCTGGATGCAACAAGTACCATTCCTGTGAATAAGGAAGTATTTTTGGCATTTGAACAGAGACAAAACACTTATGAGGCCAAATATTGTTTCCAGTCGTTGAAAATGGCTCGCGACACTTGGCCTAGCAGTGGATTTTTCGAGGTAATCTTCTGTAACTGATTGATTTAATTATCTTTCACTTAGAAAGATGTCTGATTTTTATAGCTTCTCAAGCTAAGATAAAATAATAATCACAAATTTAACATGTTCATTGTAGTGACTTACTATTTTTACAGATGTATTCGATGTGGGATTCTTTTATGGTTGGTGTAGCTTTGTCCCAAATGTATAATTTGCACAGAGGGGGCGGAATCGGAATTAATGCTTTTTCGAAGATGGAATATCTAAATCTCACAATTGTTACATCGAACGAACCATATGGGATCTCTGATGGATCAAATCCATTTGTTAATGGACGTTTGCTCTCAACATTTGGTTTCCAAAAGAATGGGGTGCATAGTGGTCATGTTCAGACAGGAATGCTCGATCCATTCTGCCTTGCTTCAACAGGAAAAGGGAAATGTCAGGTATGCTGCCTTTAAAAGTTTCGAGCAAATTTTTATTTATTCTACTATTTATTTTTTATAATAGAGAGCAACTTTTTTTAATCATATATGTACAAGAAAGTATTTCATATGTTAGCATATTTGGAATTGTCTGTTAAGGTCTTCATAGAAGATTTGTTGCAGCTAAGAAGTAAATTTCTACTTTTTAGGAAGTAGGTTGAAATTGCAATAAATTATAGGGTCTAACTTAAGAAACTTATGGCATACTCTTCAATCACAAAAAACTATTTTATGGTTTTGTGCTAAATATAATTTGTTGGATTACAAAATAGTGGTAGTGCAGCTTCCAAGGATTGGCCCCGGTTCTGGGTTCAAGCTCTCAAGTGAAAATTCATTTGATAACCATTTGTTTTTTCTTTCCCCTGAAAGTTGTTCTTCTTTTTACACATTCTTTCTAATTGTGTTCATCTTTCCAAAGGGAACCTTTGAATTTCAAAAGCAAAAATACATATTTAAAGCTATGATTTAGAAAACGTCCTTAAAAAGAAGATAAAAAATCCACATGTAGAAGTATTGTTTATAAATGTAATTTTCATAACGCAAAACTCAAATAGTTATTGAGCAGTGAAATGTTCTTATTTCTTGAAGTTGGCAAAGGAGTGGGAGAAACAAGTGGGCCTTGAGAACATTGCATGGACTGGATCCTCCATTTATCAAAAATAAAAAAATAAAAAAATAAAACGTATTATTTCTGTAATTCATTCTGTAGCCAAATGTCTCTGAATATAGACGTCTAGAAGTTTAGATTTAAAAACAAGTTGATAAAGTCTGATGGCTTTATGTTTTTGTTGCTGATGAATTTTCTTTTAAACAATTATGAAATTTTAGTAGAAGTTCGTATTTTTCATTACTAGACATGTGTAAACGAGTTCCACAAAATGCTGATAGGATGGTTATACAAAGGAAGCAGATGGCTCGGAATCAGTTCAAGTTCTAGTTGCTGTGGAAGCTAAATCAACTATTGACACCAACAGCTCAATTAATAAAGCATTTTATATAAGCTTCCTGGATGTAAGCCTGACAAAAAGTTTTATTTTGTCAATTTATTATTTTTTATGCTTACATTTAGTTTGTCCTTTTCACTCAATTATCTTACAAACTACAATCTTATTAGATTGGTACTTATCACTTTATACGTCTGCATGAGGAAGTTGCTCCTTTTGTTTAGCATGGGGAACAATTTAATTCATTGGTCTCTTGTTTCATAGTTAATGGCTTTAAACAATTAAATGAATGGGAAAGCACCATAAAAGGTATCCCTGGTGTTGATTGCATGAAATGTTTAAATATGCTTCAAGGTATCCCTAGTATTTTTCTTTTATGTACAAAATGATCAGATTATGTGCAAGAAAGTGTTGGATTTTTCTAGTATAGTGTTAGGGATACCTCCTAAAACTCAAGAACACTCAAATATGGAAATGTACGAAAATATACTATAATTACATAAGAAAGTTACAAGAATATCTAGCCTTTCGAGAGGATTAGTCTATCCACCAAATTTTCCAAAGGAAAACCCACAAAATTCTTCACACAGTTCCTCCCAACCCACTCCCTCTATCTATAACTTAGAGTCCTAACAAACTTACTATCTAATGACTGATATGCTTGTAATAACCATAATAATATTTCCCCAAATACTTACGTACAACTGAACTAAAACTTTGATGCTTGATAGTTCTAGCATTTTTGCCCTCAAAATTTCTACCCTGTTTACTCTCTCAGTGAAATGTTTATATAAAAAATGCAGGTTCTTAATAGTCCACGACAGACGGGGAGGTTTGATTTTAGAGCTCAGTTTCCTAAATACAGGGAAGTATTATATAGACCAAATTTTGGGAAGAGATTACTAGGAAAACCAGTTATTTTTGACATGGATATGAGCACAGGAGATTTTCTCACGCTTCTCTATCTCTTGAAGACGCCCATTGAAATCATCAATCTAAAGGTATGGTGCTATTTTACTTGGTTTTTCATGTTTTGAAAACACTTTACAACTTTACCCAGATTTTAAAAACAAAAAAGAAGTTTCTATAAACTATTTTATTTTTTAGACCTCGTTTGACAACCATTTAGTTTTCAAAATTATGCTTCCTCTCGCAATTTCTTAATCTTGTTTTCATCTCTCCTAAATAAACATTTGAATTCTTAGACAAATTTTGATCACAAAAATAAGCTTTTACTTTTTACCAACTACTTGTTTTTAGTTTTAAGTCGTGGCTTGGATTTTGATAACACTCTTAAGATGTAAACAACAAAACAAAAGAAACCAATAGTTGTAATTTAAAAAATATAAATCCAAACGTTATCAAACAAGACCTTAGCTTTTAAAATTTAGCTATGCTTTAAAAAAGACCGAGAGTTCATCACAAAACCGAGAAAAGTGTTAGGAAATAAGCATACATATTAGAAAAAGTGCAAAAAAAAAAAAAAAAGCTATGAATGTGTAGGATGTTTATGCAAATCTTAATGTAGACTTTATTGGATGATCTTATAAAACCAATCAAGATGATCCTATAGCTTCTACTTTTAGTAGAAGTGTTCATTTGCAAAGGCCAAGAATTGTGTGTATTTCAAAGAGAACTTCAAATCTATTTCAATAGTTGTCTGTGTTTACCTCCTCACTTGTAGCTAAGGCATGACTGCTTCTCTTTCTTTTGTTATTATAAGTGTTAACGCACCATTTTCCAGGGAATTATAATCAGCCCAAATGGATGGGCAACGGCTGCGACAATAGATGTTGTATATGATGTATTACATATGATGGGACGTGACGACATTTCAGTTGGTCTTGGAGATTTATTTGCCATTGGAGAAGAACATCCATTGTTTCCTCCTATTGGAGACTGCAAGTATACCAAGGCCATTCCTCTTGGTAGTGGAGGCTTCTTGGACTCGGATACACTTTATGGATTTGCTCGAGACTTACCTCGTAGTCCTAGAAGGTATTTCTTTTTAGAATGCATATAACTTGATATAACTTCTTCTGATGGTTGGATGGTTGTTTTTCTTCTTTTCCTAGTTCATAGTGTGTGAGATTGGGAGCATCGGGATTGATGGTCGAGAGTATGTATTTAACTAGTCACGGTGTATGCTCAAATTAACCATGATTTGATGATTGTTTGGTAGTAGATAATTCCCACACGTTGTCTTAGGTGTTTTAAGTATGAGTTTGGAATGACTTTGTGGAGAGTGAAAATGCTTTTGGCTAGTTAAATGCATTTTTCAATATTTTCTTGCCATTTGGTTAAGTTGAACAAAAAGTGCTTTTAGAAATTGTAGAAACATCTAAAATTGTTATAAAGCGCTTTTTAGAGAACTTACTTAGGTCCTGCTTAATATGATTTTCTAATTGCTTAAAAATTTTTTGAAAAAAAAAAAAGGAATCTTTAGAAGACTATTCCAAACAAACCCTTAATCAATGGTTATTTTCAAATTATTTACAGGAAAACACTTCACTTAAAAGCATTACTCTCAGAAATCCTCTACACTTACTTTAAGTTCCATCTAACAGCCTAGCTCAAACCTCTTGCAATATTTGGTAGACCTATGGGTTCAAATGATCAAGTGGAAAGAATAAAAGGTTTTGGTGTCACTCAGAACTGAGACTTACTAGGGTGTGCAGATCCATTTATGGATAAGTAAAATGGGGCTCAATACCATGATTACCATAAAATAAAATGACATTGGTTAACCATTTGTTCTAGTTTTCAATAGAAATGGAACATAGTCATTTATATATGATGATTATATGTAGAAAATCATTTGCTGTGCAGATCTTAATGGATGATTTTCTTCAAGTACATGCAACATTGCTACAGCACAACTGACCCAATTTTGAACAAAACCAATTTCCCATCCCTTTTCCTGTTCAGATATACAGCTGAAAATTCAGTGAAGTTTGGAGCATTTAGAGATACTGATCACCCTGAACTCAGACAAATGTCTGCACTTGATGTTTGGAAAGACGTTTTACGAACTCTAGATCTGGATGCAAAAATTACTGTTTTAACCAGCGGACCTTTGACGAATCTCGCTAAAATCATACATCATAAAGCCATGAGCGCAAGGATTGAGGTAAACAATGGTAACCTTTAATTATTGCATAGGCATATTATTTATCATTGAGGATTGATGGTGTGATGACAAGCTGTGCAGTGAAAACATTCTTTTATTGGGTTAAAAAACACTTTTGGTCCTTGAACTTTAAGGAAGTAACAATTTAGTCTCCAAGCTGTGGCTTGCAATAATTTATTCCATGTATTTTATTGCATTAGTATCGCTTTATAGATGTGAAAAAATTAGCAAGTTCACTGGATTTGAGTACCCAAATTGAAGAACATGATCATATAGTATCTACGTTTCTTGTGGAAAATCTTGGTGCATGACAGTTTATGCTTTTTCATGTCTAATTAGTGTACGTATTAAGCTTTTTCCCCCTTTCTGGAAGAGTGAGTACTGTATTAAGTTATTAACTATTATGCTTAGCCTACTAAAATGTTATGGTCAGAACTTGCCAGTTTCTTAGGAAAAAGATTGTTCCAAGTTTAGCCTATGATTCTAAAATCTTTGTTTTGAATGGTGTGAAATGAATATTTGAAGTGTGAAGTATTACAAAATTCTGTATTTGTTTTTTAGACACAAGTGGAAATTCATATGCTTTTACTTTTGGTACTAAAAAATGTCACTTTAAACACAAGATCATGTATATTGAAACTGTTATAGTCATTGTATAAAAGTTTATGACCTCAACCTTCTATCAATGCTAAGTGGTCTATTAATCAATTAATCCAAAAACTTGAAGCATCATGCAAAATTAAACTTATAATAGGTCAAAAGTGTAAAAGAGTGTCGTTAGCGATTAAAAATGCACATTGAAACATAAAATATATAATAAATGAAGGTTCTAGAAACCAAGAACAAGTTTAATAGTAACCAAAATATTGTCTTGATTATTTGTTGTTGCAGGAGGTATATATAACTGGAGGACACATTAGTTATGGGGTAGACAAGGGAAATTTGTTCACTATACCTTCAAATGAGTATTCAGAATTCAACTTCTTTCTGGACCCTATAGCTGCAGATTTGGTTTTTGGCTCAGGATTGAACATCACGCTTATCCCATTGAACGTGCAACGTAGAGTAAGTTCTTTTTACAAGATCCTCAAAAAGTTGAAGTTCAGAAACAGAACACCCGAAGCATGGTTCTCTCGACGTCTACTCTACAGGCTATATGACCTTAAGCAGAAGCATCATCAATACCATCATGTGGTAAAGTTGCTTAATTAACTTGATTATTCCCTAACGAATCTGCTTTTTACATTGGTCAATTAGGAAGTAGTTTCTTAAGTTTCTTTATCTCTGCTAGCTCTTTGACATCTTATGGATTTTTTCATGTCGAATATGCATTTATAATCAATCTGCTGCATTGTAGGTTTTTTAGACATAAAACTTTCATCCTCGGTTGAGAACCATAGTTTAAGAAGAGAAAACACTAGGAGTGTGCTAGATGGGTTTTTGGTTGTTTTCTTTCCTAAAAATATTAAATTACTAATTCAGTCTCTAAACTAACACTTAACAGTTTCAATCACATCTCTCAACTTTATAATGGTTCGATTACATTTTTCAATCACGAGTTCCTATTTCATTTATCCTCTAAAAGATTTGACGTATCAATTGGAGAAATGCTAGAAGATTTGGTATGATATGATGTGAATGACAAAAGAACATAAATAAATTGGACAAATTTTCTAACATTTTCTTTTAACAGGATATGTTCTTAGGAGAAGTCGTTGGTGCAGTGAGCTTGGCTGGAAAACATTTGAATTTGAAGCAAACATTCAGCTTCAAGCCTCTCAAGGTAATCTCAAATGGAGGTGAATCAAAAGTAGGGCAAACAATTATAGATGGGAAGAAAGGGAAGTGGGTGAGAGTTTTGGAAAGTATAGAACCACTTGCAGTTTATGAAGATCTTGCAAATGCATTGGCTGATGAAAAGCAAACTGCTGTTATTGCAAGTTTTGAAAGCTAGAAAATGCTCTGGAGTGCTTAAGTACTGATTTTGCAAGGAAATGTGATGAAGAATGTACATATGGAGCTCAATGATAAATAGCTACACAAGAAAAAAAAAAA TATATATAGAGGTTGGTGGAAGTAAAATTAGAAGAGAGATCATTTGGGGTTGGTAGTTCCACTGACATGGTGATGGAGATGATGAAGAAGAAGATGATGATGATGACGAGGATATCAAAAGGAAATGTTTTGAAGAGTTGGTTGATATGTGGAGTTGTTGGTTTGGTTGTGATGTTGGGATCAATGGTTTGGTTGGCAAATTCTTCATCTTTTAATTCTCCTACGAGAATTCTCGTCGATACTGACGCTGATGCCGATGATATCTTTGCTCTGTTCTACCTTCTCAAGCAACCTTCTTCCCTCTTTCATCTCCAGGGAATAACAATAAACGGGAATGGATGGAGCGACGCGGGACATGCGGTGAACCATTTGTACGACATGTTGTTCATGATGGGGCGAGACGACATCCCAGTTGGTGTCGGCGGAGATGGCGGCATTTCCCCTGACGCCACTATTTCCCCTAATCTTGGTGGTTACCTTCCACTCATTGATCAGGGCGTGTCGACGGCCGGGCAATGCAGATACAGGCAAGCCATTCCAGTGGGAGGACGTCTCAATGCCAATACCAATTTTGGTTTACGTAAATACTTTCTTCCTCAGGGTAAGAGAAGATATATTCCTATGAAGCAGCCGACTGCACAGCAGGTTATGAAAGATGCAATATCTGCAGGGCCTACTGCAGTTTTTCTTATGGGAGCTCATACAAACTTGGCTATATTTCTTCTGTCAAATCCTCATTTGAAGAAAAATATAAAGCATGTTTATGCCATGGGTGGTGCTATTAGAGAAATTTGCTCAGAGAGTTCTCATGGGAAGACATGCAGCAATATTGGGAACTTGTGGCCTCCAAATACAAATCCATATGCCGAGTTCAATATATTTGGAGACCCTTTTGCTGCCTACACAGTATTACATTCTGGAATTCCTGTTACACTCGTTCCTCTGGATGCAACAAGTACCATTCCTGTGAATAAGGAAGTATTTTTGGCATTTGAACAGAGACAAAACACTTATGAGGCCAAATATTGTTTCCAGTCGTTGAAAATGGCTCGCGACACTTGGCCTAGCAGTGGATTTTTCGAGATGTATTCGATGTGGGATTCTTTTATGGTTGGTGTAGCTTTGTCCCAAATGTATAATTTGCACAGAGGGGGCGGAATCGGAATTAATGCTTTTTCGAAGATGGAATATCTAAATCTCACAATTGTTACATCGAACGAACCATATGGGATCTCTGATGGATCAAATCCATTTGTTAATGGACGTTTGCTCTCAACATTTGGTTTCCAAAAGAATGGGGTGCATAGTGGTCATGTTCAGACAGGAATGCTCGATCCATTCTGCCTTGCTTCAACAGGAAAAGGGAAATGTCAGGATGGTTATACAAAGGAAGCAGATGGCTCGGAATCAGTTCAAGTTCTAGTTGCTGTGGAAGCTAAATCAACTATTGACACCAACAGCTCAATTAATAAAGCATTTTATATAAGCTTCCTGGATGTTCTTAATAGTCCACGACAGACGGGGAGGTTTGATTTTAGAGCTCAGTTTCCTAAATACAGGGAAGTATTATATAGACCAAATTTTGGGAAGAGATTACTAGGAAAACCAGTTATTTTTGACATGGATATGAGCACAGGAGATTTTCTCACGCTTCTCTATCTCTTGAAGACGCCCATTGAAATCATCAATCTAAAGGGAATTATAATCAGCCCAAATGGATGGGCAACGGCTGCGACAATAGATGTTGTATATGATGTATTACATATGATGGGACGTGACGACATTTCAGTTGGTCTTGGAGATTTATTTGCCATTGGAGAAGAACATCCATTGTTTCCTCCTATTGGAGACTGCAAGTATACCAAGGCCATTCCTCTTGGTAGTGGAGGCTTCTTGGACTCGGATACACTTTATGGATTTGCTCGAGACTTACCTCGTAGTCCTAGAAGATATACAGCTGAAAATTCAGTGAAGTTTGGAGCATTTAGAGATACTGATCACCCTGAACTCAGACAAATGTCTGCACTTGATGTTTGGAAAGACGTTTTACGAACTCTAGATCTGGATGCAAAAATTACTGTTTTAACCAGCGGACCTTTGACGAATCTCGCTAAAATCATACATCATAAAGCCATGAGCGCAAGGATTGAGGAGGTATATATAACTGGAGGACACATTAGTTATGGGGTAGACAAGGGAAATTTGTTCACTATACCTTCAAATGAGTATTCAGAATTCAACTTCTTTCTGGACCCTATAGCTGCAGATTTGGTTTTTGGCTCAGGATTGAACATCACGCTTATCCCATTGAACGTGCAACGTAGAGTAAGTTCTTTTTACAAGATCCTCAAAAAGTTGAAGTTCAGAAACAGAACACCCGAAGCATGGTTCTCTCGACGTCTACTCTACAGGCTATATGACCTTAAGCAGAAGCATCATCAATACCATCATGTGGATATGTTCTTAGGAGAAGTCGTTGGTGCAGTGAGCTTGGCTGGAAAACATTTGAATTTGAAGCAAACATTCAGCTTCAAGCCTCTCAAGGTAATCTCAAATGGAGGTGAATCAAAAGTAGGGCAAACAATTATAGATGGGAAGAAAGGGAAGTGGGTGAGAGTTTTGGAAAGTATAGAACCACTTGCAGTTTATGAAGATCTTGCAAATGCATTGGCTGATGAAAAGCAAACTGCTGTTATTGCAAGTTTTGAAAGCTAGAAAATGCTCTGGAGTGCTTAAGTACTGATTTTGCAAGGAAATGTGATGAAGAATGTACATATGGAGCTCAATGATAAATAGCTACACAAGAAAAAAAAAAA ATGGTGATGGAGATGATGAAGAAGAAGATGATGATGATGACGAGGATATCAAAAGGAAATGTTTTGAAGAGTTGGTTGATATGTGGAGTTGTTGGTTTGGTTGTGATGTTGGGATCAATGGTTTGGTTGGCAAATTCTTCATCTTTTAATTCTCCTACGAGAATTCTCGTCGATACTGACGCTGATGCCGATGATATCTTTGCTCTGTTCTACCTTCTCAAGCAACCTTCTTCCCTCTTTCATCTCCAGGGAATAACAATAAACGGGAATGGATGGAGCGACGCGGGACATGCGGTGAACCATTTGTACGACATGTTGTTCATGATGGGGCGAGACGACATCCCAGTTGGTGTCGGCGGAGATGGCGGCATTTCCCCTGACGCCACTATTTCCCCTAATCTTGGTGGTTACCTTCCACTCATTGATCAGGGCGTGTCGACGGCCGGGCAATGCAGATACAGGCAAGCCATTCCAGTGGGAGGACGTCTCAATGCCAATACCAATTTTGGTTTACGTAAATACTTTCTTCCTCAGGGTAAGAGAAGATATATTCCTATGAAGCAGCCGACTGCACAGCAGGTTATGAAAGATGCAATATCTGCAGGGCCTACTGCAGTTTTTCTTATGGGAGCTCATACAAACTTGGCTATATTTCTTCTGTCAAATCCTCATTTGAAGAAAAATATAAAGCATGTTTATGCCATGGGTGGTGCTATTAGAGAAATTTGCTCAGAGAGTTCTCATGGGAAGACATGCAGCAATATTGGGAACTTGTGGCCTCCAAATACAAATCCATATGCCGAGTTCAATATATTTGGAGACCCTTTTGCTGCCTACACAGTATTACATTCTGGAATTCCTGTTACACTCGTTCCTCTGGATGCAACAAGTACCATTCCTGTGAATAAGGAAGTATTTTTGGCATTTGAACAGAGACAAAACACTTATGAGGCCAAATATTGTTTCCAGTCGTTGAAAATGGCTCGCGACACTTGGCCTAGCAGTGGATTTTTCGAGATGTATTCGATGTGGGATTCTTTTATGGTTGGTGTAGCTTTGTCCCAAATGTATAATTTGCACAGAGGGGGCGGAATCGGAATTAATGCTTTTTCGAAGATGGAATATCTAAATCTCACAATTGTTACATCGAACGAACCATATGGGATCTCTGATGGATCAAATCCATTTGTTAATGGACGTTTGCTCTCAACATTTGGTTTCCAAAAGAATGGGGTGCATAGTGGTCATGTTCAGACAGGAATGCTCGATCCATTCTGCCTTGCTTCAACAGGAAAAGGGAAATGTCAGGATGGTTATACAAAGGAAGCAGATGGCTCGGAATCAGTTCAAGTTCTAGTTGCTGTGGAAGCTAAATCAACTATTGACACCAACAGCTCAATTAATAAAGCATTTTATATAAGCTTCCTGGATGTTCTTAATAGTCCACGACAGACGGGGAGGTTTGATTTTAGAGCTCAGTTTCCTAAATACAGGGAAGTATTATATAGACCAAATTTTGGGAAGAGATTACTAGGAAAACCAGTTATTTTTGACATGGATATGAGCACAGGAGATTTTCTCACGCTTCTCTATCTCTTGAAGACGCCCATTGAAATCATCAATCTAAAGGGAATTATAATCAGCCCAAATGGATGGGCAACGGCTGCGACAATAGATGTTGTATATGATGTATTACATATGATGGGACGTGACGACATTTCAGTTGGTCTTGGAGATTTATTTGCCATTGGAGAAGAACATCCATTGTTTCCTCCTATTGGAGACTGCAAGTATACCAAGGCCATTCCTCTTGGTAGTGGAGGCTTCTTGGACTCGGATACACTTTATGGATTTGCTCGAGACTTACCTCGTAGTCCTAGAAGATATACAGCTGAAAATTCAGTGAAGTTTGGAGCATTTAGAGATACTGATCACCCTGAACTCAGACAAATGTCTGCACTTGATGTTTGGAAAGACGTTTTACGAACTCTAGATCTGGATGCAAAAATTACTGTTTTAACCAGCGGACCTTTGACGAATCTCGCTAAAATCATACATCATAAAGCCATGAGCGCAAGGATTGAGGAGGTATATATAACTGGAGGACACATTAGTTATGGGGTAGACAAGGGAAATTTGTTCACTATACCTTCAAATGAGTATTCAGAATTCAACTTCTTTCTGGACCCTATAGCTGCAGATTTGGTTTTTGGCTCAGGATTGAACATCACGCTTATCCCATTGAACGTGCAACGTAGAGTAAGTTCTTTTTACAAGATCCTCAAAAAGTTGAAGTTCAGAAACAGAACACCCGAAGCATGGTTCTCTCGACGTCTACTCTACAGGCTATATGACCTTAAGCAGAAGCATCATCAATACCATCATGTGGATATGTTCTTAGGAGAAGTCGTTGGTGCAGTGAGCTTGGCTGGAAAACATTTGAATTTGAAGCAAACATTCAGCTTCAAGCCTCTCAAGGTAATCTCAAATGGAGGTGAATCAAAAGTAGGGCAAACAATTATAGATGGGAAGAAAGGGAAGTGGGTGAGAGTTTTGGAAAGTATAGAACCACTTGCAGTTTATGAAGATCTTGCAAATGCATTGGCTGATGAAAAGCAAACTGCTGTTATTGCAAGTTTTGAAAGCTAG MVMEMMKKKMMMMTRISKGNVLKSWLICGVVGLVVMLGSMVWLANSSSFNSPTRILVDTDADADDIFALFYLLKQPSSLFHLQGITINGNGWSDAGHAVNHLYDMLFMMGRDDIPVGVGGDGGISPDATISPNLGGYLPLIDQGVSTAGQCRYRQAIPVGGRLNANTNFGLRKYFLPQGKRRYIPMKQPTAQQVMKDAISAGPTAVFLMGAHTNLAIFLLSNPHLKKNIKHVYAMGGAIREICSESSHGKTCSNIGNLWPPNTNPYAEFNIFGDPFAAYTVLHSGIPVTLVPLDATSTIPVNKEVFLAFEQRQNTYEAKYCFQSLKMARDTWPSSGFFEMYSMWDSFMVGVALSQMYNLHRGGGIGINAFSKMEYLNLTIVTSNEPYGISDGSNPFVNGRLLSTFGFQKNGVHSGHVQTGMLDPFCLASTGKGKCQDGYTKEADGSESVQVLVAVEAKSTIDTNSSINKAFYISFLDVLNSPRQTGRFDFRAQFPKYREVLYRPNFGKRLLGKPVIFDMDMSTGDFLTLLYLLKTPIEIINLKGIIISPNGWATAATIDVVYDVLHMMGRDDISVGLGDLFAIGEEHPLFPPIGDCKYTKAIPLGSGGFLDSDTLYGFARDLPRSPRRYTAENSVKFGAFRDTDHPELRQMSALDVWKDVLRTLDLDAKITVLTSGPLTNLAKIIHHKAMSARIEEVYITGGHISYGVDKGNLFTIPSNEYSEFNFFLDPIAADLVFGSGLNITLIPLNVQRRVSSFYKILKKLKFRNRTPEAWFSRRLLYRLYDLKQKHHQYHHVDMFLGEVVGAVSLAGKHLNLKQTFSFKPLKVISNGGESKVGQTIIDGKKGKWVRVLESIEPLAVYEDLANALADEKQTAVIASFES Homology
BLAST of MELO3C015361.jh1 vs. NCBI nr
Match: XP_008450713.1 (PREDICTED: uncharacterized protein LOC103492210 isoform X1 [Cucumis melo]) HSP 1 Score: 1775 bits (4597), Expect = 0.0 Identity = 880/882 (99.77%), Postives = 882/882 (100.00%), Query Frame = 0
BLAST of MELO3C015361.jh1 vs. NCBI nr
Match: XP_016900935.1 (PREDICTED: uncharacterized protein LOC103492210 isoform X2 [Cucumis melo]) HSP 1 Score: 1697 bits (4395), Expect = 0.0 Identity = 848/883 (96.04%), Postives = 856/883 (96.94%), Query Frame = 0
BLAST of MELO3C015361.jh1 vs. NCBI nr
Match: XP_016900936.1 (PREDICTED: uncharacterized protein LOC103492210 isoform X3 [Cucumis melo]) HSP 1 Score: 1671 bits (4327), Expect = 0.0 Identity = 826/843 (97.98%), Postives = 829/843 (98.34%), Query Frame = 0
BLAST of MELO3C015361.jh1 vs. NCBI nr
Match: XP_011659920.1 (uncharacterized protein LOC101212769 isoform X1 [Cucumis sativus] >KGN66123.1 hypothetical protein Csa_007600 [Cucumis sativus]) HSP 1 Score: 1665 bits (4311), Expect = 0.0 Identity = 824/880 (93.64%), Postives = 849/880 (96.48%), Query Frame = 0
BLAST of MELO3C015361.jh1 vs. NCBI nr
Match: XP_008450714.1 (PREDICTED: uncharacterized protein LOC103492210 isoform X4 [Cucumis melo]) HSP 1 Score: 1571 bits (4069), Expect = 0.0 Identity = 776/778 (99.74%), Postives = 778/778 (100.00%), Query Frame = 0
BLAST of MELO3C015361.jh1 vs. ExPASy Swiss-Prot
Match: Q8EIM7 (Pyrimidine-specific ribonucleoside hydrolase RihA OS=Shewanella oneidensis (strain MR-1) OX=211586 GN=rihA PE=3 SV=1) HSP 1 Score: 73.2 bits (178), Expect = 1.7e-11 Identity = 76/250 (30.40%), Postives = 101/250 (40.40%), Query Frame = 0
BLAST of MELO3C015361.jh1 vs. ExPASy Swiss-Prot
Match: A8AJF8 (Pyrimidine-specific ribonucleoside hydrolase RihA OS=Citrobacter koseri (strain ATCC BAA-895 / CDC 4225-83 / SGSC4696) OX=290338 GN=rihA PE=3 SV=1) HSP 1 Score: 71.2 bits (173), Expect = 6.4e-11 Identity = 73/253 (28.85%), Postives = 105/253 (41.50%), Query Frame = 0
BLAST of MELO3C015361.jh1 vs. ExPASy Swiss-Prot
Match: B7LKV4 (Pyrimidine-specific ribonucleoside hydrolase RihA OS=Escherichia fergusonii (strain ATCC 35469 / DSM 13698 / CCUG 18766 / IAM 14443 / JCM 21226 / LMG 7866 / NBRC 102419 / NCTC 12128 / CDC 0568-73) OX=585054 GN=rihA PE=3 SV=1) HSP 1 Score: 70.1 bits (170), Expect = 1.4e-10 Identity = 73/252 (28.97%), Postives = 102/252 (40.48%), Query Frame = 0
BLAST of MELO3C015361.jh1 vs. ExPASy Swiss-Prot
Match: A6WSI3 (Pyrimidine-specific ribonucleoside hydrolase RihA OS=Shewanella baltica (strain OS185) OX=402882 GN=rihA PE=3 SV=1) HSP 1 Score: 70.1 bits (170), Expect = 1.4e-10 Identity = 74/250 (29.60%), Postives = 104/250 (41.60%), Query Frame = 0
BLAST of MELO3C015361.jh1 vs. ExPASy Swiss-Prot
Match: B7NM03 (Pyrimidine-specific ribonucleoside hydrolase RihA OS=Escherichia coli O7:K1 (strain IAI39 / ExPEC) OX=585057 GN=rihA PE=3 SV=1) HSP 1 Score: 69.7 bits (169), Expect = 1.9e-10 Identity = 72/252 (28.57%), Postives = 102/252 (40.48%), Query Frame = 0
BLAST of MELO3C015361.jh1 vs. ExPASy TrEMBL
Match: A0A1S3BP73 (uncharacterized protein LOC103492210 isoform X1 OS=Cucumis melo OX=3656 GN=LOC103492210 PE=4 SV=1) HSP 1 Score: 1775 bits (4597), Expect = 0.0 Identity = 880/882 (99.77%), Postives = 882/882 (100.00%), Query Frame = 0
BLAST of MELO3C015361.jh1 vs. ExPASy TrEMBL
Match: A0A1S4DYY6 (uncharacterized protein LOC103492210 isoform X2 OS=Cucumis melo OX=3656 GN=LOC103492210 PE=4 SV=1) HSP 1 Score: 1697 bits (4395), Expect = 0.0 Identity = 848/883 (96.04%), Postives = 856/883 (96.94%), Query Frame = 0
BLAST of MELO3C015361.jh1 vs. ExPASy TrEMBL
Match: A0A1S4DY76 (uncharacterized protein LOC103492210 isoform X3 OS=Cucumis melo OX=3656 GN=LOC103492210 PE=4 SV=1) HSP 1 Score: 1671 bits (4327), Expect = 0.0 Identity = 826/843 (97.98%), Postives = 829/843 (98.34%), Query Frame = 0
BLAST of MELO3C015361.jh1 vs. ExPASy TrEMBL
Match: A0A0A0LWJ1 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_1G572440 PE=4 SV=1) HSP 1 Score: 1665 bits (4311), Expect = 0.0 Identity = 824/880 (93.64%), Postives = 849/880 (96.48%), Query Frame = 0
BLAST of MELO3C015361.jh1 vs. ExPASy TrEMBL
Match: A0A1S3BPV7 (uncharacterized protein LOC103492210 isoform X4 OS=Cucumis melo OX=3656 GN=LOC103492210 PE=4 SV=1) HSP 1 Score: 1571 bits (4069), Expect = 0.0 Identity = 776/778 (99.74%), Postives = 778/778 (100.00%), Query Frame = 0
BLAST of MELO3C015361.jh1 vs. TAIR 10
Match: AT5G18860.1 (inosine-uridine preferring nucleoside hydrolase family protein ) HSP 1 Score: 996.5 bits (2575), Expect = 1.4e-290 Identity = 509/880 (57.84%), Postives = 644/880 (73.18%), Query Frame = 0
BLAST of MELO3C015361.jh1 vs. TAIR 10
Match: AT5G18890.1 (Inosine-uridine preferring nucleoside hydrolase family protein ) HSP 1 Score: 595.5 bits (1534), Expect = 6.9e-170 Identity = 305/519 (58.77%), Postives = 376/519 (72.45%), Query Frame = 0
BLAST of MELO3C015361.jh1 vs. TAIR 10
Match: AT5G18870.1 (Inosine-uridine preferring nucleoside hydrolase family protein ) HSP 1 Score: 290.4 bits (742), Expect = 4.8e-78 Identity = 138/237 (58.23%), Postives = 177/237 (74.68%), Query Frame = 0
BLAST of MELO3C015361.jh1 vs. TAIR 10
Match: AT1G05620.1 (uridine-ribohydrolase 2 ) HSP 1 Score: 61.2 bits (147), Expect = 4.7e-09 Identity = 61/248 (24.60%), Postives = 101/248 (40.73%), Query Frame = 0
BLAST of MELO3C015361.jh1 vs. TAIR 10
Match: AT2G36310.1 (uridine-ribohydrolase 1 ) HSP 1 Score: 50.8 bits (120), Expect = 6.4e-06 Identity = 30/83 (36.14%), Postives = 50/83 (60.24%), 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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