MELO3C029747.jh1 (gene) Melon (Harukei-3) v1.41
Overview
Sequences
The following sequences are available for this feature:
Legend: polypeptideexonCDS Hold the cursor over a type above to highlight its positions in the sequence below.ATGGTTATAACGGCTCATTTCATTGATGATGATTGGAACTTGCACAAAAGAATTTTGAACTTTTGTCAAGTAGCTAATCATAAAGGAGATACCATAGGTAGAGCCATTGAAAAGTGCTTAGAAGGTTGGGGTATTGATAGGCTCTTTACTGTAACGGTTGATAATGCGAGTTCAAATGATGTAGCCATTGCCTACTTGGTTAAAAAGTTTAAAGGCAGAAATGGGTTGGTGTTGGATGGTGAATTTATTCACATTAGATGTTGTGCTCATATTCTTAATTTAATTGTTAGTGATGCCTTAAAAGATTTGCATGTGTCTATCATTCGAATCAGAAATGCTGTGAAGTATGTTAGGTCATCTCCTGCTAGATTGCAAATATTTAAAGATTTTGCTAAAGAAGATAAGATGTCAACAAAAAATTGTCTTACAATGGATGTTCCGACACGATGGAATTCTACTTTTACTATGTTGGATGGAGCAATTAAGTGTCAAAAGACTTTTGAAAGATTGGAGGAGCATGACCCTAGTTATTTGCCAAAGGATGATATTCCTACTACTGAAGATTGGGATAATGCAAAAGTGTTTGTAAAGTTCCTAAAGACTTTTTCAGAGGTAACAATGAAGTTTTCTGCATCTATGTCTGTGACTTCAAACATATTTTTTCATGAACTTTGTTTGATCCAAGAAATAATTCGTGAATACTCATCGTATGAGAATGCATTATTGAGTCAAATGACATTAAGCATGCAGACAAAATTCAACAAGTATTGGGGTATAACTACAAGTGAGAAGACCAATTTATTATTGTATGTTTCTGTAGTTCTTGACCCTAGATACAAGCTAGCTTATGTGAATTATTGTTTTAATGAATTTTTGGAGGAAGATTGTGCAAAAATATGGACAAATAAGGTTGAAGAAGCATTTCGTCGATTGTGTGATGATTATTATATGAGAATGTCAAAAGAAAAATATTCACAAACACAATCATGTACACCTATCGAAGGATTTGGCTTTCAAAGTCAAAGTGAAATACCTTCTATCTCATCTAGTGGATCTTACAAGGCACGTGCTACTGTTCATGATAGATTTAAACAAAGTAACAAAACATGTCTAGATGATGCTAAAACAGAGGTGACTCGTTATCTGGATGAGGCTCGTATAGATTGTATGGGCGATGAATATTTAGATTTGCTAACTTGGTGGAAGGTGAATGCCTCTCGATTTAAGATCATTAGCCAAGTAGCTAGGGACATCTACAGTATTCCTATATCAACTGTGCCTTCTGAGTCCGCCTTTAGCACTGGAGGACGGGTGTTAGATTCTTTTCGAAGTTCTTTAACTCCTCAAACTGCAGAGGCACTCATTTGTGCTCAGAATTGGATTCAGTCTAAACCTTTGGATGACATGACTGAAGAAATTGACGGGGCTGAAGAAATTGATGAAGGTAATATTCTTTTTGAAGTACGCATTTAAAATTTTCAATTATCCCATATAAGCTAACTGTTTGTCATTTTGATCTAGAATTCATAAACATAGGAAAGGAGATGGAAGCTGCATTTGAGAATTTGAATAATGACTCTATGGTTTAAATCCTTACTCTCAAATCTTTATTTACATTTTTTTAAAATTATTAACTTATTAAATATCGAATCTTGTTTTTTTAGAGTCTTGAAGCTCAATGATGGAAGCACTTTGGGTTATACGAACAAGGTGGTCTCGTGAAGATGTTCATTAATTCATACCTTCCCAATTGTAAACTTTGTTCATGAGGTTCCTTGGTTAACCTTCTTTATATAAAAGAAACAAAAGAAGGGCTGAGAGATTATTGGTTGTTTGTTTGTTTTGTTTTTTGTTTTAGTTGATTTCATGGTGGTTTCGTTGAACCGGTAACTTACTGATTTTCTTGTTCTTGTCATCTTCATCAAGTTTTTTTGACCAATTTGTTGGTTTGGTTTTTATTGTCTTCCATGCGTTTGTAAAAGTTCCCCAGTGTTTTTCAAAATTCCTTTGTTATCTTTTATACTCTCTACTTTCAATCTATCTGAAACATGGATTTAGCGAATGCGGGCGAGGTTGGCAAGGCTCCGGTGGCTAATCAAGTAGCTGATGTTGTTTCTGCTAAATCTAGCAATACCCAAGAGAATGAATTGGGTTCAAAGTTGGGGACAGGAAGCAAAAGCAATAGGGATATGGTATTTCAAAGGTATATTTACAGATCCTGGATCACATTTTGTCAGGTTCTGCTTCTTTATTCGTAATTGTCAAAGTCCTTAAGTTCACTACTTGAATATTTGAGGCTAATGTAATTTCCAGAAGTTCTATACAAATCTTTAATCTTATTTTTTTGTCCTTCTCATGACAATTCCAGAATCACATTTTGTCAGGTTGGCAAGGACTTGCTTCATGCTTGTTAATGGGATATCTCTTCCTCCCAGAGGCATTTCTATTGTTTATTTCTAACTTTGTGTCTAAATATTACTTCAGGTTTTTGGCAAAGGTATAGATGCAGACACTGTTGTTCTAATGGCTGCTCGTGCATCAAGAATTGAGAATCAAGATGCTATTGATACTGCCATTGTTGGGATGCTAGCTGATCCAAAGGAGGTAAGTTGTCAATAAACATCACTCTTTCGAAATGACTATCAAAAAGTTTAAAATGTTAATCGATCTTCCATGCTTTCAAAGGCACGTGCTGGGATTCAGGAAGTACATTTCCTTCCTTTCAATCCTACTGATAAGCGAACAGCTTTGACTTATATTGACCACGAGGGCAAGATGCACAGAGTCAGTAAAGGTGCTCCCGAACAGGTAAAAAGGCTGCTCCATTTGAACTTGTGCAAATGTTGTCTCTGTTTTAACTGAGAACAGACTACTGAATATAGGTTCCTGTTTTAACTCACTTTTAGATTCTAAATCTTGCATACAACAAGTCAGAGATTGAGAGAAAAGTTCATGCAGTGATTGATAAATTTGCTGAACGAGGTTTGCGTTCGCTTGCTGTAGCATACCAGGTCAGTGAACATGGGGTTGTAGATTTTTTGAGCCCTTGGTTATAAGACCACTATGCATCTTCTTTAGCCCAGTAGTTAAAGTACTGTTGATTATGAGTCGTATATCATCTATTGGATTCATATCAGGAAGTTCCAGAAGGAAGAAAAGAAAGTCCTGGAGGTCCCTGGCAATTCATGGGCCTCTTGCCTCTGTTTGATCCACCAAGACATGATAGTGCAGAGACAATTAGGAGAGCTTTAAATCTTGGAGTAAACGTGAAAATGATTACTGGTACGTTTCACATTTTACATGCCTGGTAAAAATGCTCTCCATGTATGGAATGTCACAAATATTCTTATGTGATTCTGACTAGAGATTGCTAAAACATTGCTACATCTATTAAGCTCGCTGAATTTATCTAGCTTGTTAGTTCATTTACCTTGCTTCTTTTATAGGAGATCAGCTGGCTATAGGCAAGGAAACAGGACGTCGATTGGGGATGGGAACCAACATGTATCCGTCTTCTGCTTTGCTAGGACAGGAAAAGGATGAGTCAATTGCTGCTTTACCTGTTGACGACCTTATCGAGAAAGCAGATGGTTTTGCGGGTGTATTCCCTGGTATTTTTCCAGTAATTCACTCAAAATGTTAGTTTGGGGAACCGAAAAAATTCGGTTTTTGTCTTAGGATATTGGCTCACCATGGTTTTTGTTGGTTCAGAGCACAAGTATGAGATTGTAAAACGCTTGCAAGCTATGAACATATCTGTGGTATGACTGGTGATGGAGTGAATGATGCTCCTGCACTTAAAAAAGCAGACATAGGTATAGCTGTTGCAGATGCAACTGATGCCGCTCGAAGTGCTTCTGATATTGTTCTTACTGAACCTGGTCTCAGTGTTATCATCAGTGCTGTCTTGACTAGTAGAGCAATATTTCAGAGAATGAAGAGTTACACGGTAACCTGTGGTTTGACCTTTTAATATCTCTTCATTCAGTAGTTGGTTTTTGAGGTTGCAGCCTTTGAGATTGCATTATTACCATCTCTTTTTCTACTTTTGAAGTTTGATTTGTTTGCCTATTCTGACTCACGTTTAATTTTTGCCCATGTCAGATTTATGCAGTTTCCATCACAATACGTATTGTGGTAAGTTGTTAGAATATATACTAATTATATGTGAGGTCTGCTGTTTTGTTCTGTCATGTCCCGAATGACAAGTTATGTTGCTTCTATAATCATAAATTCATGCGATTGTTTTAGCATGATCTTCTGATTGTCTGTTGCAGCTTGGTTTCATGTTGCTGGCTCTCATTTGGAAATTTGATTTTCCACCATTTATGGTGCTTATCATTGCTATCCTTAATGATGGTTTGTTCTAAATCCTTGTATCTGATCTGCTGATTATTTGAAGTTCATATTAATCAATGTGATTCTTTTTCCACTGTTTATTGAAACTCATCAAATGATTAATGTGTAGGTACAATCATGACAATATCAAAGGACAGGGTTAAACCATCTCCTCTGCCAGATAGTTGGAAGCTGGCTGAAATTTTTACTACTGGCGTTGTACTTGGTAGTTACTTGGCAATGATGACGGTCATATTTTTTTGGGCATCGTATAAAACCAACTTTTTCCCTGTAAGACAATCCAATTTCCTTAATACTAAGTAATAATCTGTTAATGATGGGTTCAGATGGAACCATTGTTTATGTTGTGTTCTGTAATCTAAAACTAATAAACTCTTTTTTCCTGCTCCTTGTTTTTAGTTTCCTTACACTTAGCTTGCTGGTAGCCACTGCAATTTTTTTGATTTCTGCTGATCTGTCTCGTTTTGTGTAAAATTCAGCGAATGTGATTTGAGTTATCTACACTCCAATGTGATTTGAGTTATCTACACTCCAATGTGATTTCTGCAGTTTGAGTTATCTACACTCCAATGTGATTTTTTTAATTACTGCAGAGGAGATAAGTGCTAAGGAAGGAGGAAAGAAGAAGAAGAAGAAAAAAAAAAAAAAAAAAAAAGAGAGACACCGACCCGACCCATTCGCCCAACCGAATGTGGGTTGGGTCGGGTGTAATCAACAGTACATTTCGGGTCGGGTCGGTTTGAAGAAAACCCGACCCGACCCGACCCAATTACACCCCTAATATTATGTGCAACATTATACGCAAAAATGTTGTCTACAACTACATTAATTCTATTTCACATTTTTCCTGTCATGGTATAATTTATCGAGATCTCATTGTTATCTTCATATACTTGAGTCTCTTCTAAATTTTTACCACTAGTCGTGTCCATGACTTTTTCTTGAATGTTTCTATTGTCAATTAAGTCATTTCGACTATTGGTCACTTTTCTTTTTCGAGGATTTATCCTTTGAACTCATCGGTCTATCATGCTTTTGGTGCAGCACTGATTCATTAATTGTATCAACTTGCTGAGTTGGATTTCAATTCTAGATGGAGCATTTACAGTTGGAATATATGACTTGGTCACTTTCTTAGTATCTTTAAATGCATCTGGCATTTGGTTTGCTACACTTTGTAAATGAATTATCTTTTGAACTTCTAGTTCATATTGCTTTGTACGATGATCTAAATGAGACAATAACGATACATTTTAGGCAATTTCATTTTCCAACTTCTTAATTCCTCCCCCTAATGTTGGAAAATTTGTCTCATTAAAATGACAATCAGCGAATCGTGCAGTAAATACATCCCTCGTCAAGGGTTCAAGATATCTAATAATTAATGGAGATTCAAATCCGACATATATTCTTAACCTTCTTTGAGGTCCCATTTTAGTACGTTGTGGTAAGGAAATTGGAACATATACTGCACAACCAAAAATTCGCAAATGAGAAATATTTGGTTCCTGGCCATAAGCTAATTGTGTTGGGGAATACTTATGATAAAATGTTGGTCTTATGCGTGTAAATGACGTTGCATGCAGAATAGCATGACCCCACATAGATAATGGAAGTTTTGCTCTCATAAGTAATAGTCTGGCAATCAATTGTAAACGCTTGATAAATGATTCTGCCAAACCATTTTGTGTGTGAACATAGAGCTACAAGATGTTCAATATTTATCCCAGTTGACATGCAATAATTATTAAATGCTTGGGATGTAAATTCACCAGCATTATCAAGTCGAATGTTTTTTATTGTATAATCAGAAAATTGTGTTCTTAATTTGATTATTTGAGCAAGTAATCTTGCAAATGCAAGGTTTCGACTTGATAATAAACACACATGTGACCATCTACTTGATGCGTCGATTAAAATCATGAAGTATTTAAATGGTCTACTTGGTGGATTGATTGGTCCACATATGTCACCATGAATCCGTTCTAAAAATGTAGGTGACTCAACTTCCATTTTGGCTGGTGATGACCTAATAATTAATTTTCTTTGAGAGCAAGTCATACATTATAATTCATTGGATTGAATAATCTTCTGCTTCTTTAGTAGATGTCAATAAAAATTTTCAATAATTCTTCTCATCATTATTGACCTGGGATGACCCAATCGATCATGCCAAAAAGTAAACATATTTAAATTCATGAACTTCGAGTTCATGGTGGCATATGTTTCAATTACTCGTATATGAATATAATATAATCCAGAAGAAAAGACAGACAATGTTTCCAATATACGCTTCTCATGTGAAACAATAAATGTAATATAAAGATATTCTATATTATTTTTATTGTTAATTTCAACACGATAACCATTTTGACGTATATCTTTGAAACTCAATAAGTTTCTTGGTAAAAAGAAAAAACTAACCTTGAAATGTAAATAATGTAAATAAACTGGTAAATGTTAAATAGAGAAAATATAATGCAAATATTAGTTTTGGACATTATCATAATTAAAGGAAGAAAGTATTTGTTATTCCTTCATTAATATCATTTTTCTCTTCAGAAGACTCAAAGAAGTCCATCACATCCAAATGGGTCATGTTGGAAGGGTCAAACACATCATCTTAATAGACAAAGTTTACTTCTACATTCTTCCCTTTTTCCTTCAATGAGGCTTGATAGAGGTCGACTAAGTGCTTGGATGTACGACAAGTACGAGTTCAATGACCATTCATACCACAACGGAAGCATTGATTTTCACCACTTTTAATTTTCTTATTTTTGTGGAGTTTTCCTTCTATGATCATCATTTGTGGTTTTCTTGAAATCTAAATGATTATTACCACGTAAAGTATAATTATTTCTTCCTCTACCACGGTCACGAACTTGGCTACGATTACGACCACGACCTCGACCTTGACCATTAATATTATTTAAAAATATAACATTCGCTTCAAGGAATGGTGTTACTCCAGTTGGTCGATATTCATGGTTTTTCATTAATAACTCATTATTTTGTTCAGCCATAAGAAGACATGATATGAGTTCGGAATACTTTTTAAAACCTCTTTCTCGATATTGCTGCTGGAGCATATTTGAGACATGAAATGTTGAAAAGGTTTTCTCTAACATATCTTCATCAGTAACTTTTTCTCCGCATAACAATAATTTTGAACAAATTTTAAATAATGCTGAATTATAATCACTTACTGATTTAAAATCTTGCAACCTTAAGTGCATCCAATCATATCGAGCTTTAGGAAGAATAACACTTTTTTTATGATCATACCTTTCTTTTAAACTTTGTCATAGTTTATAGGGATCTTTTATCGTAAGATATTCAATCTTTAGTCCCTCAGGAAGATGATGTCGAAGGAAAATCATGGTTTTCGCCTTTTCTTGACTTGAAGTTGTGTTTCCTTCTTTAATCGTTTCTCCAAGATTCATGGCATCCAAATGAATTTCAGCATCAAGCACTCATGATAAATAATTATTACCATTGATATCAAGAGCTAGAAATTCTAATTTGGTAAGACTTGACATGGTAAAACTATAACAAAGAACAAATAAACTAACTTATATTAGAAATTTAATAAACATGTCAAACATGCATTCTAAGACAACTTAGATAAATATCATATTATGTACATGATACAAAAATTAATAGAACCCATATATAATAATTCAAAACATGCATGTTAATGTACAATAATTAAAATTACAAATAAAAATTACTTATACATATTATGGAAAATTAACAACAATACACACCAAAAATGTTAATTTTACAACATACTTAAATAAATTGATAAAAGCATTTAGATCATAAAAACAATTACAAAACTTATACTAATAGAAAGTAAACAACTAAATTATAAAGAACCCATAAACTATAAATAGATCTTAAAATAATTGATATAAGAACCAAACATAAACGATCATATAAATCATAAAGAAATTAAAGATGAACTAAATCATAATCTTATCATGAACTAAAAATATTTTTTAACAAACAATAACCATGTAAACGTAATATGTAAAATTACAACATGCAATAGGTATAAAATATTATATTCTCAAACATTTAAACTATGCATGATGTATATATGGATTGTTTCATGCAATATTCACAAATACCAAAAAGACAAACTAATATTATAGCCTACCTTTTGCAAATAATAAAATTGTAGAGTGTCGTGTTGATAACATGTTATGAAATAAAGGATAATGAAACAAACAAAGAGAAGAATAGAGAAGAGAAGACAATTGAACTCAATTGTGGTGTGTCTTGGGCACCACACTCCTCTATTTATAGGACATATTATGGTATAGGTTACATTATGGAATTCAATGGAATGGATGTTACAATATGGAATTGAATGTGAGAGTTATATGAAAATTGTAACCTACGTAGGTTATGGATATCTACATTTATAATATATCATTATATTTACAATAAATTTGTTTTAATTAGGTCTTTTTTAGCATGGTAATCACTAAAGTGTTTAGTTGCATCTAGAGTGATGTTCGATCTTTGTTTCCACTACGCATGTTTCATATTCTATCATGTGGTATCAGAGCATGCTTAATTTTACTCATTTGCATATGGTGGGTATTTCAATTTATTTGATAAATTGTTATGGTTTGAAGTAAAATGGATATATTACAATTTTAACCCTAAATTAGGTTTAAATTTGTAATAATTATTCTATTTCGCCCGGTTTGTGGCTTATTTATTTTTTCAAAGTGTTTGTAAATTTATTTCAGTTATTAGAGTTGCAAATTAGATTGTAATTGTTTCAATCGGGAGAGAGAAAAGCTGAAAAGTTGAAGAAAACTGGAAGATAGACCCGTTTTCCTCTTCCAGACCCGAAGGCCCGACCAAAATCCGGCTTGCGACCCGTAACCATCATTTACCCCACTTGGCATCGCCCTTTTGTTTTGCACATGCAACCCAGATTTTGGAAGCCTGCAACCTGCAAGCCCATGCCCCGACCCAGTGTCGACCGGAGTCCTGTCCCGCCCAGCTTGGGGACCTCTCGCGCACTCGCCCGGCCCAGCTGGCGTCTGACATTCCCACTCGGTCCAACGGCTGCGCCGTGCCTATTTCGTGCAGCTCGGCTCGTGCTCCGTGA ATGGTTATAACGGCTCATTTCATTGATGATGATTGGAACTTGCACAAAAGAATTTTGAACTTTTGTCAAGTAGCTAATCATAAAGGAGATACCATAGGTAGAGCCATTGAAAAGTGCTTAGAAGGTTGGGGTATTGATAGGCTCTTTACTGTAACGGTTGATAATGCGAGTTCAAATGATGTAGCCATTGCCTACTTGGTTAAAAAGTTTAAAGGCAGAAATGGGTTGGTGTTGGATGGTGAATTTATTCACATTAGATGTTGTGCTCATATTCTTAATTTAATTGTTAGTGATGCCTTAAAAGATTTGCATGTGTCTATCATTCGAATCAGAAATGCTGTGAAGTATGTTAGGTCATCTCCTGCTAGATTGCAAATATTTAAAGATTTTGCTAAAGAAGATAAGATGTCAACAAAAAATTGTCTTACAATGGATGTTCCGACACGATGGAATTCTACTTTTACTATGTTGGATGGAGCAATTAAGTGTCAAAAGACTTTTGAAAGATTGGAGGAGCATGACCCTAGTTATTTGCCAAAGGATGATATTCCTACTACTGAAGATTGGGATAATGCAAAAGTGTTTGTAAAGTTCCTAAAGACTTTTTCAGAGGTAACAATGAAGTTTTCTGCATCTATGTCTGTGACTTCAAACATATTTTTTCATGAACTTTGTTTGATCCAAGAAATAATTCGTGAATACTCATCGTATGAGAATGCATTATTGAGTCAAATGACATTAAGCATGCAGACAAAATTCAACAAGTATTGGGGTATAACTACAAGTGAGAAGACCAATTTATTATTGTATGTTTCTGTAGTTCTTGACCCTAGATACAAGCTAGCTTATGTGAATTATTGTTTTAATGAATTTTTGGAGGAAGATTGTGCAAAAATATGGACAAATAAGGTTGAAGAAGCATTTCGTCGATTGTGTGATGATTATTATATGAGAATGTCAAAAGAAAAATATTCACAAACACAATCATGTACACCTATCGAAGGATTTGGCTTTCAAAGTCAAAGTGAAATACCTTCTATCTCATCTAGTGGATCTTACAAGGCACGTGCTACTGTTCATGATAGATTTAAACAAAGTAACAAAACATGTCTAGATGATGCTAAAACAGAGGTGACTCGTTATCTGGATGAGGCTCGTATAGATTGTATGGGCGATGAATATTTAGATTTGCTAACTTGGTGGAAGGTGAATGCCTCTCGATTTAAGATCATTAGCCAAGTAGCTAGGGACATCTACAGTATTCCTATATCAACTGTGCCTTCTGAGTCCGCCTTTAGCACTGGAGGACGGGTGTTAGATTCTTTTCGAAGTTCTTTAACTCCTCAAACTGCAGAGGCACTCATTTGTGCTCAGAATTGGATTCAGTCTAAACCTTTGGATGACATGACTGAAGAAATTGACGGGGCTGAAGAAATTGATGAAGCGAATGCGGGCGAGGTTGGCAAGGCTCCGGTGGCTAATCAAGTAGCTGATGTTGTTTCTGCTAAATCTAGCAATACCCAAGAGAATGAATTGGGTTCAAAGTTGGGGACAGGAAGCAAAAGCAATAGGGATATGGTTTTTGGCAAAGGTATAGATGCAGACACTGTTGTTCTAATGGCTGCTCGTGCATCAAGAATTGAGAATCAAGATGCTATTGATACTGCCATTGTTGGGATGCTAGCTGATCCAAAGGAGGCACGTGCTGGGATTCAGGAAGTACATTTCCTTCCTTTCAATCCTACTGATAAGCGAACAGCTTTGACTTATATTGACCACGAGGGCAAGATGCACAGAGTCAGTAAAGGTGCTCCCGAACAGATTCTAAATCTTGCATACAACAAGTCAGAGATTGAGAGAAAAGTTCATGCAGTGATTGATAAATTTGCTGAACGAGGTTTGCGTTCGCTTGCTGTAGCATACCAGGAAGTTCCAGAAGGAAGAAAAGAAAGTCCTGGAGGTCCCTGGCAATTCATGGGCCTCTTGCCTCTGTTTGATCCACCAAGACATGATAGTGCAGAGACAATTAGGAGAGCTTTAAATCTTGGAGTAAACGTGAAAATGATTACTGGAGATCAGCTGGCTATAGGCAAGGAAACAGGACGTCGATTGGGGATGGGAACCAACATGTATCCGTCTTCTGCTTTGCTAGGACAGGAAAAGGATGAGTCAATTGCTGCTTTACCTGTTGACGACCTTATCGAGAAAGCAGATGGTTTTGCGGGTGTATTCCCTGTGAATGATGCTCCTGCACTTAAAAAAGCAGACATAGGTATAGCTGTTGCAGATGCAACTGATGCCGCTCGAAGTGCTTCTGATATTGTTCTTACTGAACCTGGTCTCAGTGTTATCATCAGTGCTGTCTTGACTAGTAGAGCAATATTTCAGAGAATGAAGAGTTACACGATTTATGCAGTTTCCATCACAATACGTATTGTGCTTGGTTTCATGTTGCTGGCTCTCATTTGGAAATTTGATTTTCCACCATTTATGGTGCTTATCATTGCTATCCTTAATGATGGTACAATCATGACAATATCAAAGGACAGGGTTAAACCATCTCCTCTGCCAGATAGTTGGAAGCTGGCTGAAATTTTTACTACTGGCGTTGTACTTGGTAGTTACTTGGCAATGATGACGATAGACCCGTTTTCCTCTTCCAGACCCGAAGGCCCGACCAAAATCCGGCTTGCGACCCGTAACCATCATTTACCCCACTTGGCATCGCCCTTTTGTTTTGCACATGCAACCCAGATTTTGGAAGCCTGCAACCTGCAAGCCCATGCCCCGACCCAGTGTCGACCGGAGTCCTGTCCCGCCCAGCTTGGGGACCTCTCGCGCACTCGCCCGGCCCAGCTGGCGTCTGACATTCCCACTCGGTCCAACGGCTGCGCCGTGCCTATTTCGTGCAGCTCGGCTCGTGCTCCGTGA ATGGTTATAACGGCTCATTTCATTGATGATGATTGGAACTTGCACAAAAGAATTTTGAACTTTTGTCAAGTAGCTAATCATAAAGGAGATACCATAGGTAGAGCCATTGAAAAGTGCTTAGAAGGTTGGGGTATTGATAGGCTCTTTACTGTAACGGTTGATAATGCGAGTTCAAATGATGTAGCCATTGCCTACTTGGTTAAAAAGTTTAAAGGCAGAAATGGGTTGGTGTTGGATGGTGAATTTATTCACATTAGATGTTGTGCTCATATTCTTAATTTAATTGTTAGTGATGCCTTAAAAGATTTGCATGTGTCTATCATTCGAATCAGAAATGCTGTGAAGTATGTTAGGTCATCTCCTGCTAGATTGCAAATATTTAAAGATTTTGCTAAAGAAGATAAGATGTCAACAAAAAATTGTCTTACAATGGATGTTCCGACACGATGGAATTCTACTTTTACTATGTTGGATGGAGCAATTAAGTGTCAAAAGACTTTTGAAAGATTGGAGGAGCATGACCCTAGTTATTTGCCAAAGGATGATATTCCTACTACTGAAGATTGGGATAATGCAAAAGTGTTTGTAAAGTTCCTAAAGACTTTTTCAGAGGTAACAATGAAGTTTTCTGCATCTATGTCTGTGACTTCAAACATATTTTTTCATGAACTTTGTTTGATCCAAGAAATAATTCGTGAATACTCATCGTATGAGAATGCATTATTGAGTCAAATGACATTAAGCATGCAGACAAAATTCAACAAGTATTGGGGTATAACTACAAGTGAGAAGACCAATTTATTATTGTATGTTTCTGTAGTTCTTGACCCTAGATACAAGCTAGCTTATGTGAATTATTGTTTTAATGAATTTTTGGAGGAAGATTGTGCAAAAATATGGACAAATAAGGTTGAAGAAGCATTTCGTCGATTGTGTGATGATTATTATATGAGAATGTCAAAAGAAAAATATTCACAAACACAATCATGTACACCTATCGAAGGATTTGGCTTTCAAAGTCAAAGTGAAATACCTTCTATCTCATCTAGTGGATCTTACAAGGCACGTGCTACTGTTCATGATAGATTTAAACAAAGTAACAAAACATGTCTAGATGATGCTAAAACAGAGGTGACTCGTTATCTGGATGAGGCTCGTATAGATTGTATGGGCGATGAATATTTAGATTTGCTAACTTGGTGGAAGGTGAATGCCTCTCGATTTAAGATCATTAGCCAAGTAGCTAGGGACATCTACAGTATTCCTATATCAACTGTGCCTTCTGAGTCCGCCTTTAGCACTGGAGGACGGGTGTTAGATTCTTTTCGAAGTTCTTTAACTCCTCAAACTGCAGAGGCACTCATTTGTGCTCAGAATTGGATTCAGTCTAAACCTTTGGATGACATGACTGAAGAAATTGACGGGGCTGAAGAAATTGATGAAGCGAATGCGGGCGAGGTTGGCAAGGCTCCGGTGGCTAATCAAGTAGCTGATGTTGTTTCTGCTAAATCTAGCAATACCCAAGAGAATGAATTGGGTTCAAAGTTGGGGACAGGAAGCAAAAGCAATAGGGATATGGTTTTTGGCAAAGGTATAGATGCAGACACTGTTGTTCTAATGGCTGCTCGTGCATCAAGAATTGAGAATCAAGATGCTATTGATACTGCCATTGTTGGGATGCTAGCTGATCCAAAGGAGGCACGTGCTGGGATTCAGGAAGTACATTTCCTTCCTTTCAATCCTACTGATAAGCGAACAGCTTTGACTTATATTGACCACGAGGGCAAGATGCACAGAGTCAGTAAAGGTGCTCCCGAACAGATTCTAAATCTTGCATACAACAAGTCAGAGATTGAGAGAAAAGTTCATGCAGTGATTGATAAATTTGCTGAACGAGGTTTGCGTTCGCTTGCTGTAGCATACCAGGAAGTTCCAGAAGGAAGAAAAGAAAGTCCTGGAGGTCCCTGGCAATTCATGGGCCTCTTGCCTCTGTTTGATCCACCAAGACATGATAGTGCAGAGACAATTAGGAGAGCTTTAAATCTTGGAGTAAACGTGAAAATGATTACTGGAGATCAGCTGGCTATAGGCAAGGAAACAGGACGTCGATTGGGGATGGGAACCAACATGTATCCGTCTTCTGCTTTGCTAGGACAGGAAAAGGATGAGTCAATTGCTGCTTTACCTGTTGACGACCTTATCGAGAAAGCAGATGGTTTTGCGGGTGTATTCCCTGTGAATGATGCTCCTGCACTTAAAAAAGCAGACATAGGTATAGCTGTTGCAGATGCAACTGATGCCGCTCGAAGTGCTTCTGATATTGTTCTTACTGAACCTGGTCTCAGTGTTATCATCAGTGCTGTCTTGACTAGTAGAGCAATATTTCAGAGAATGAAGAGTTACACGATTTATGCAGTTTCCATCACAATACGTATTGTGCTTGGTTTCATGTTGCTGGCTCTCATTTGGAAATTTGATTTTCCACCATTTATGGTGCTTATCATTGCTATCCTTAATGATGGTACAATCATGACAATATCAAAGGACAGGGTTAAACCATCTCCTCTGCCAGATAGTTGGAAGCTGGCTGAAATTTTTACTACTGGCGTTGTACTTGGTAGTTACTTGGCAATGATGACGATAGACCCGTTTTCCTCTTCCAGACCCGAAGGCCCGACCAAAATCCGGCTTGCGACCCGTAACCATCATTTACCCCACTTGGCATCGCCCTTTTGTTTTGCACATGCAACCCAGATTTTGGAAGCCTGCAACCTGCAAGCCCATGCCCCGACCCAGTGTCGACCGGAGTCCTGTCCCGCCCAGCTTGGGGACCTCTCGCGCACTCGCCCGGCCCAGCTGGCGTCTGACATTCCCACTCGGTCCAACGGCTGCGCCGTGCCTATTTCGTGCAGCTCGGCTCGTGCTCCGTGA MVITAHFIDDDWNLHKRILNFCQVANHKGDTIGRAIEKCLEGWGIDRLFTVTVDNASSNDVAIAYLVKKFKGRNGLVLDGEFIHIRCCAHILNLIVSDALKDLHVSIIRIRNAVKYVRSSPARLQIFKDFAKEDKMSTKNCLTMDVPTRWNSTFTMLDGAIKCQKTFERLEEHDPSYLPKDDIPTTEDWDNAKVFVKFLKTFSEVTMKFSASMSVTSNIFFHELCLIQEIIREYSSYENALLSQMTLSMQTKFNKYWGITTSEKTNLLLYVSVVLDPRYKLAYVNYCFNEFLEEDCAKIWTNKVEEAFRRLCDDYYMRMSKEKYSQTQSCTPIEGFGFQSQSEIPSISSSGSYKARATVHDRFKQSNKTCLDDAKTEVTRYLDEARIDCMGDEYLDLLTWWKVNASRFKIISQVARDIYSIPISTVPSESAFSTGGRVLDSFRSSLTPQTAEALICAQNWIQSKPLDDMTEEIDGAEEIDEANAGEVGKAPVANQVADVVSAKSSNTQENELGSKLGTGSKSNRDMVFGKGIDADTVVLMAARASRIENQDAIDTAIVGMLADPKEARAGIQEVHFLPFNPTDKRTALTYIDHEGKMHRVSKGAPEQILNLAYNKSEIERKVHAVIDKFAERGLRSLAVAYQEVPEGRKESPGGPWQFMGLLPLFDPPRHDSAETIRRALNLGVNVKMITGDQLAIGKETGRRLGMGTNMYPSSALLGQEKDESIAALPVDDLIEKADGFAGVFPVNDAPALKKADIGIAVADATDAARSASDIVLTEPGLSVIISAVLTSRAIFQRMKSYTIYAVSITIRIVLGFMLLALIWKFDFPPFMVLIIAILNDGTIMTISKDRVKPSPLPDSWKLAEIFTTGVVLGSYLAMMTIDPFSSSRPEGPTKIRLATRNHHLPHLASPFCFAHATQILEACNLQAHAPTQCRPESCPAQLGDLSRTRPAQLASDIPTRSNGCAVPISCSSARAP Homology
BLAST of MELO3C029747.jh1 vs. NCBI nr
Match: ACX85638.1 (putative transposase [Cucumis melo]) HSP 1 Score: 975 bits (2521), Expect = 0.0 Identity = 482/483 (99.79%), Postives = 482/483 (99.79%), Query Frame = 0
BLAST of MELO3C029747.jh1 vs. NCBI nr
Match: KAA0058067.1 (putative transposase [Cucumis melo var. makuwa]) HSP 1 Score: 755 bits (1950), Expect = 5.67e-265 Identity = 394/481 (81.91%), Postives = 394/481 (81.91%), Query Frame = 0
BLAST of MELO3C029747.jh1 vs. NCBI nr
Match: ADN33674.1 (transposase [Cucumis melo subsp. melo]) HSP 1 Score: 687 bits (1772), Expect = 3.44e-239 Identity = 339/340 (99.71%), Postives = 339/340 (99.71%), Query Frame = 0
BLAST of MELO3C029747.jh1 vs. NCBI nr
Match: KAA0047565.1 (putative transposase [Cucumis melo var. makuwa] >KAA0050235.1 putative transposase [Cucumis melo var. makuwa] >TYJ98171.1 putative transposase [Cucumis melo var. makuwa]) HSP 1 Score: 684 bits (1766), Expect = 1.15e-237 Identity = 363/481 (75.47%), Postives = 363/481 (75.47%), Query Frame = 0
BLAST of MELO3C029747.jh1 vs. NCBI nr
Match: KAA0026183.1 (putative transposase [Cucumis melo var. makuwa]) HSP 1 Score: 684 bits (1766), Expect = 3.24e-234 Identity = 363/481 (75.47%), Postives = 363/481 (75.47%), Query Frame = 0
BLAST of MELO3C029747.jh1 vs. ExPASy Swiss-Prot
Match: P22180 (Plasma membrane ATPase 1 OS=Solanum lycopersicum OX=4081 GN=LHA1 PE=2 SV=1) HSP 1 Score: 640.6 bits (1651), Expect = 2.9e-182 Identity = 335/378 (88.62%), Postives = 346/378 (91.53%), Query Frame = 0
BLAST of MELO3C029747.jh1 vs. ExPASy Swiss-Prot
Match: P23980 (Plasma membrane ATPase 2 (Fragment) OS=Solanum lycopersicum OX=4081 GN=LHA2 PE=3 SV=1) HSP 1 Score: 639.4 bits (1648), Expect = 6.5e-182 Identity = 333/378 (88.10%), Postives = 346/378 (91.53%), Query Frame = 0
BLAST of MELO3C029747.jh1 vs. ExPASy Swiss-Prot
Match: Q9LV11 (ATPase 11, plasma membrane-type OS=Arabidopsis thaliana OX=3702 GN=AHA11 PE=1 SV=1) HSP 1 Score: 636.7 bits (1641), Expect = 4.2e-181 Identity = 330/378 (87.30%), Postives = 346/378 (91.53%), Query Frame = 0
BLAST of MELO3C029747.jh1 vs. ExPASy Swiss-Prot
Match: Q08435 (Plasma membrane ATPase 1 OS=Nicotiana plumbaginifolia OX=4092 GN=PMA1 PE=2 SV=1) HSP 1 Score: 636.0 bits (1639), Expect = 7.2e-181 Identity = 330/378 (87.30%), Postives = 345/378 (91.27%), Query Frame = 0
BLAST of MELO3C029747.jh1 vs. ExPASy Swiss-Prot
Match: Q08436 (Plasma membrane ATPase 3 OS=Nicotiana plumbaginifolia OX=4092 GN=PMA3 PE=1 SV=1) HSP 1 Score: 634.0 bits (1634), Expect = 2.7e-180 Identity = 331/378 (87.57%), Postives = 346/378 (91.53%), Query Frame = 0
BLAST of MELO3C029747.jh1 vs. ExPASy TrEMBL
Match: D0UIX2 (Putative transposase OS=Cucumis melo OX=3656 PE=4 SV=1) HSP 1 Score: 975 bits (2521), Expect = 0.0 Identity = 482/483 (99.79%), Postives = 482/483 (99.79%), Query Frame = 0
BLAST of MELO3C029747.jh1 vs. ExPASy TrEMBL
Match: A0A5A7UTL3 (Putative transposase OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold274G003730 PE=4 SV=1) HSP 1 Score: 755 bits (1950), Expect = 2.75e-265 Identity = 394/481 (81.91%), Postives = 394/481 (81.91%), Query Frame = 0
BLAST of MELO3C029747.jh1 vs. ExPASy TrEMBL
Match: E5GB32 (Transposase OS=Cucumis melo subsp. melo OX=412675 PE=4 SV=1) HSP 1 Score: 687 bits (1772), Expect = 1.67e-239 Identity = 339/340 (99.71%), Postives = 339/340 (99.71%), Query Frame = 0
BLAST of MELO3C029747.jh1 vs. ExPASy TrEMBL
Match: A0A5A7U1Q3 (Putative transposase OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold180G00550 PE=4 SV=1) HSP 1 Score: 684 bits (1766), Expect = 5.58e-238 Identity = 363/481 (75.47%), Postives = 363/481 (75.47%), Query Frame = 0
BLAST of MELO3C029747.jh1 vs. ExPASy TrEMBL
Match: A0A5A7SNJ1 (Putative transposase OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold19G001460 PE=4 SV=1) HSP 1 Score: 684 bits (1766), Expect = 1.57e-234 Identity = 363/481 (75.47%), Postives = 363/481 (75.47%), Query Frame = 0
BLAST of MELO3C029747.jh1 vs. TAIR 10
Match: AT5G62670.1 (H(+)-ATPase 11 ) HSP 1 Score: 636.7 bits (1641), Expect = 3.0e-182 Identity = 330/378 (87.30%), Postives = 346/378 (91.53%), Query Frame = 0
BLAST of MELO3C029747.jh1 vs. TAIR 10
Match: AT3G47950.1 (H(+)-ATPase 4 ) HSP 1 Score: 632.5 bits (1630), Expect = 5.7e-181 Identity = 329/378 (87.04%), Postives = 346/378 (91.53%), Query Frame = 0
BLAST of MELO3C029747.jh1 vs. TAIR 10
Match: AT2G24520.1 (H(+)-ATPase 5 ) HSP 1 Score: 573.2 bits (1476), Expect = 4.1e-163 Identity = 298/378 (78.84%), Postives = 321/378 (84.92%), Query Frame = 0
BLAST of MELO3C029747.jh1 vs. TAIR 10
Match: AT2G18960.1 (H(+)-ATPase 1 ) HSP 1 Score: 564.3 bits (1453), Expect = 1.9e-160 Identity = 294/378 (77.78%), Postives = 324/378 (85.71%), Query Frame = 0
BLAST of MELO3C029747.jh1 vs. TAIR 10
Match: AT4G30190.1 (H(+)-ATPase 2 ) HSP 1 Score: 563.1 bits (1450), Expect = 4.2e-160 Identity = 295/378 (78.04%), Postives = 321/378 (84.92%), 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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