Cmc06g0160441 (gene) Melon (Charmono) v1.1
Overview
Sequences
The following sequences are available for this feature:
Legend: exonfive_prime_UTRpolypeptideCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.AAAATGACGTCGTTTTCGTTAGAATACTCCAAAGTAGATATTCTTGAAGCCTCTCTCGCTCGCAACTCACAACTTCACCTTGCTCCGTGATTTTCTCTGCGGTTTTGCCGTCTACTACTCTGTTTCTTCTTCAATCCTCCTCCTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCCCCCTTCCATGTCAATCCCAGTTCTTTCTCTTTGATTTCAATTTCATTTCTCCATGACCCAAATCATTTAGCTCTTTCCTCTTCCCTTCCCTTCCATTTCCCCCTTAATCATTTTTCCCCATGGCCGCGGCCGCTGCTCTCAGGTCCAGGTCTTCCAAGGAAGTTGCTACCTTAACCCTTTCTCGTTGTAGACACTGTATTTCCAATTCTATTCACGCTGCTTTCAGTCCCAAAAAATCCAACGACTGCTTTCTCAACTCACCTTACCACTTGGTCTCTTTCAAGCCCGTCTCACTCAGAGGCGACTTCTTTGACAGCGGGACTCAACCTCTCGATCATCGGAGGATTTACCAAAATTCTACTAAGAGCTTGAATCACAGGTTGAGCAAGAAGGGTTGTTTTATGAGTACTTATGGAGACCCGCCGGAGGTGTGGTCTGGTGATGGGATTGTGATTCGTGGGAGTAACTCAAGCTTGAATGGTCGTGGAGGTGACGGTGGTAGTTCCAATCCCGGTTCTGGTGGTGGGTTTGGCTCGAACTCCAATGATGGGTGTTGGGGTGGCTCTAGTCTGGGACCTAATTTCCCTACTCCAAAGGAAATCGCTAAGGGGCTTGATAAGTTTGTGATTGGTCAGGACAGAGCTAAGAAGGTAGTAACTTGTTTGTGGCTGGACATTGTCGATTCATTTAGCTACATTCGTTTTGTTGTCTGAAGAAAGTGTGTTATTTTTGTTCCCTCTTCTGCAGGTGCTCTCTGTGGGTGTTTACAATCATTACAAGCGCATCTATCATGAATCGCTACAAAGGTTGTGAATTTGAATGTTAGATACTTCCTGTCTATGACGACGGATATTTGACTTAAGTATGGCATTGTTGGTAGGGGTGGCTTTAGATGAGGTCAATGGTTTTACTTGGGAATTAGAAGTCACAATAATGTATCTTTGGTCCTAGTTTTCTTCATTACTTGTTCTCTCTTGCGAAGTTTGGTTGTGATAAACTGATAATTAGGTGGCTAACATAATCATCAGACTCTTAAGGTAACTCCCCAAACACAGACACACTTCCTAATGCCTGTACTTGAATCATGGCATTTTTGTCGTCTAAATCCTGCATAGCCTAGTTTTAGGCATCTGGCTTGTTATTAATCCAAGAAAGGATACACTTTATTGGATGGTTGTATTGGGAACTGAAAACCATGAGCTAAACGTTAAGTCAGAAGTCCAGTTCCATCATAATTCTTCAAGAAGTTTTGCTCTCTTTTTGAGCGTCTGTTTTGCATCTATCTTTTCAATATGTATCAAATATTTGAGTTTTTCTTTTAATGACATGAAGATATCAAGAACCTTTATATGTTTTGTTTTGCTTGTGCGAGCTAGGCCAACAGGAGATGCATTTAATAACAAAGCTGATGCCGCTGATGATGATAAAGTGGAACTTGAGAAAAGTAACATCCTTCTGATGGGGCCAACAGGCTCAGGTAATTACTGTGTTTCCATTGTGCATTTCAATTCATGTTTGTAGAGTGTTTGATTTTGGTGAAGCTCAATGATAACCACGGCTTTTGAAATTTAATTTTTCATTACTCATAATTTCTAGCAAAGATCTATCCAAATTCATTATGAGCAATATTTTTCTTAAGATTTCCAATGCCAAGGCCTCTCTCCTTATTAACTGGATAGTGGCTTTTCTGCCCTCCAACTAAATATTACTCCCAGAATCGATGCCTACTCTAGCGTGAAGGTAGCCTCATGTTTTTTTCCCGAGTCTGTATGCTTTAGAGGGATTTGGATTAGTAGACATGTAATAAGTTGGCATGCTGGAGAGAACTCCAGTAGGAGTTCGGCTTTCTTATTGTAATGGCATTCTTCCACCCCATAGAAACCCCGTGGGGAGTCCTATTCCAAGAGTTTGTCTCATTATTGCTATCAGCCTGAAAAAAGTATGATACTTTTCTGAAACCTAACTAATTTCCACTTGATAAAACGCAGTTCGAATAGATCTTTTTGCTGTCTAATATTGCCGCCAATTATTGTGAACCTTTGTATGATTTTTTCTTATTCTACTTTAATGTTGTTTCAAGGACAGGGAAAACACTACTCGCCAAAACCTTGGCACGGTTTGTTAATGTTCCATTTGTTATTGCGGATGCAACTACCTTAACACAGGTAAATTAATGAATACTTGCTCCAGTGTTTTTGTTTGTTGTGTGTGTGTGTGGGGGGGGGGGGGGTATGTGCATATTAGTCGAAGTTGTGTGTTTTTCTGGGACAAGTAATCTTTGCTGTCATGGATACTCCTTTTTATTTTCTGGTTGAAATTATAATATTTTAGTTTGATACTTATTGTTGGTCTGTATAGGCAGGATATGTTGGAGAGGATGTGGAGTCTATATTATACAAACTTCTGATGGTATGTACCTGAGTACAGCTGGACTTTTCACTCCATATCCAATATATCAATTAATAAATTTCCCTTTCATTCCTTTCTTTCTTCTGCTTGTACCATTTATTGTGGAGCAGATTCTTTTTCATTCGGTTTATTTATGTTTCTCAATACATTTTTTTTTAATGAAAAAAAGACTTTCATTGAGAAAGAATGAAAGAACACAAGGCACCAAAAAAGAAAAACCAGCCCACGAAACCACCCCATTAAAAGAAAGGGAAAGCAAAATCTTGCCTATAGAATAGTTACAAAAGTTCTTCAAAACCAAAACCCAAAGAGACACATGATATCTAACTAAAGACTCTCACTATGCCCTCTCTCTCTACCCCTAAACACCCTTTCGCCCCAAATATCCCAAATAACAACGCACACACCAGCATACCAAAAGCCTCCGTTATTACTAAAAGGTGGATGGAGAAGGAACTCCTCGATCGTCGCTCTAACACTCCTCCAGCCGGCATAGCTGACACCAAAATCTTGAAGGAAAGAGCATCAAACAGCTATCGCAATCTGGCAATCCAAAATAGGTGATGAAGATCTTCCTCCGCCGTCTGACACATCAAACAACAAAATGGCTCGACAAGCAAAGTCCTACTCCTGAAAAGCCTATCAACAGTATTAACCTGACCAAGCAAGACTTGCGAGATAAAGATCTTTCTTAGGAATCTTAATCCTCCAAACCACATCGAAGATCGACTCCTTTGGGGGAGCGAGATCCAACAATAGACCAAAAAGAAAATTACTAGAAAATCTCGACTATGATTAGGAATCCAAACACGGGTAGCCCTCCTCTCCTCTCTAACAGTGAAGCCCTCAAGTAAGGAAAGAAGAGAGGCCACATCTATCGTTTTCCTATTGGTCAAGTTACGACGGAACTCAAAAGAGAAAGACACAGAATTCTAAGAACTCACTAGAAAATCCGAGATAGTACAGTTTTTGGACGAGGAAAGATGATACGGATGTGGAAAAGCAGAACAAAGGGAGGCCTCCCCCACCCATCTATCCTCCCAGAAAAAGATGTCCTTACCATCTCCCACAAAACAAGAAACAAACCGAGAAAAAGTAGGGAGCTCGAACGAAAGATCCTTCCAAGGATTTCAAAAAGTGCCTTTAACCCCTCTTGTAATCCACTCAAAAGTATTGGAACCATGCTTCCTCACAATGATCCTGTGCCAAAGAGAATCAGGCTCAAGATGGACGCACCAAAGCCACTTTGCCAATAGAGCTCTGTTACGGGTTCTAAGATTACCAATCATTAATCCCCCCAAGCACAGAGTTCCCCACCGCCTACCAACCAACTAAATGGGAGTCATGACCCTCGTCCACCCCCTCCAACAAAAAGTCTCTCATGTATTTTTCAATCCTCTTACACACCCTGCTAGGGGCCCTAAACAACGGAAGATAATACATTGGGATGCCACTCAAGACCAACTTGATCAGAGTAAGTCTGCCAGCTTTAGAAAAGAACCCTTTCTTTCACGTCGCCAATCTCTTCCGAATTTTCTCACATATTGGATTCCAAAAAGAGACAGCTATAGAATTACCCCCAACGGAAGACCAAGGTAACAAGAAGGGAAAGAGCCAACCTCACAATCAAACGCTTTCGCCCACCTTTACAATTTAACTTGGTTAGAATTAATACCATAGATAGTGCACTTGTTTCTATTGATTTTCAGATCCGACATCTCTTAAAAGAATCCGACCGTAAAATTGAGTGTGGAAAAACACCTCTTTTTCGGAACGAAAGAGCAAAGTATCATCAGCAAATTAAAGGTGCGATAAGGCCACTTCATCTCTACCAATCTTTAAAGGCTCAATAATATTGCCTTCAACACCTTTACTTATCAACCGGCTTTGAACATCCACAACCAATAAGAACAAAAATGGAGACAAAGGATCATCCTGTCTAAGACCCCTAGAAGCTTGAATCGCCGCTTTTGGGGCTCCATTGATGAGAATAAAATACTTAACATTTTTAACCCATCCCCACATCCACATTCTCCATTTGTAACCAAAACCTTTCTTCATCATCACTCTATCCAAAAAGTCCCAGTCCACGTGATCCTACACTTTCTCAAAGTCAAGCTTTAACATAACACCCTCCAGCTTCTTCAATCTATATTCCTCAATAGCTTCATTTGCAATCAAAGCTAGGTCCAATATCTGTCTTCCAGACAAAAAAGCCCCTGAGTTTCAGAAATAGTCGATTAGCAAGAACTTTAGCCAAAATCTTATAAACACCGGTAATGAGACTAATAGACCGAAATTCTTTCACCTTATTTGCATTCCCCTTTTTAGGAATCAAACAAACAAAGGTTTTGACTACCAATCTGTTCAAGATCATCCCTCCTTCAAAAATTCCTTAAAGACTCCCTCAAGTCGCCTTTGATTAGATCCCAATTCTCCTGAAAGAAGGCCATAGAAAACTTGTCAGCTCCAGGAGCTTTGTTTCCATCGCAACTAAAAACAATCTTCTCGATCTCCTCAATCGCAAAAAGGACCACTAACTCCTCGTCCTCCTAGGCGAAATAGTGCTCCAATCAATACCCTCCACAAACAGCTTCTTCGACACCTCAAGGCTATAGAGAGTAGAGAAAAACTTTAAAATTTCCTCCTCAATTTCCTCCCCTATGATTCTTGTTTCTTCTTCTGTTAACCATCCTATGGAAGAAACCTGTATTACAATCCCCTCCCTTGGCCCACTTCATGTTACACTTTTGAAGCCAGCTCACATCAGTCTTTCTAATCACTTCTTCAAGGCTCCTTTTTAAGCTAAACTTCTCCTCAATAAAGCCATTGTCAAGCGGACCATCCAACTTAAAATTGTCAATTTTGTCAATCCTTACGACCCTTTTTATACCTGAATATCCCCAAATACCTCTTTCTCAATGTTTCTCAATACTTAATTCAGAAACTGTAACTTTTTTGCTCATCAGCATTCTTCTCTCTTGTTTTTTTCCCAATTGTATTTAAATACCAGGTTGCTGATTATAATGTGGCAGCTGCACAGCAGGGCATTGTTTACATTGATGAAGTTGATAAAATTACCAAGAAGGTTCTCCTCGGTTCTTTTATTCATCTCTCCCTTCCCCCCTTTGTGGAAGGACTGGTGTGGATTTTCTTTACCTGATAACTTCACTTCATTTTCATGAGCCAGGCAGAGAGCCTTAACATTAGCAGAGATGTGTCAGGAGAGGGCGTGCAGCAGGCATTATTGAAAATGCTAGAAGGAACGGTAAGTTTTGCATTTCATTGTAGGTGAAGTTCTATGATAATGTGCTGCATTCACAATGACTTATGAGATGGTGAGACTGAAAATCAGGAATTCTCAACTTTGATTAGAGATCTTTGTTGTTTGTATTTTTGGTTCTCTAGTTGTTCATGGTGAGCTCATATGTGATACATATATTTTTTTTTTTTCTGAACTAGATTGTCAATGTGCCTGAGAAGGGTGCACGGAAGCATCCCAGGGGTGAAAATATCCAGGTAATGCCGTACCCTTTAAGAAATTTGCTTCCATAGCAAGGAAGAAACAGAACGCTAGGCTTCTAGATGTGTTTCTCTTCCTCAGGAAATAACCATTTCTCTTTAATATAATGATACAGGAAAATAAATGACTTGCATGTTTAGTTACATGATCGCAGTACTTATTTTATGTAGTTCTTGACTAGTAAAATGCCAGAGGTCCTGGTGTCTTACATAATCTTTGTGAAATGGTGCACTGCAGATTGACACTAAAGATATTCTTTTCATTTGCGGGGGTGCCTTCATTGACTTGGAAAAAACAATCTCAGAAAGGTTATCTCCATGTAATAGCTACTACATTTACCCCTTACAGCTCTAGTTATATACACAACTTTTTAACTGGAGAGAAGTCTTTCCTTATTTCAGGCGGCAAGATTCTTCTTTAGGGTTTGGGGCCCCGGTTCGTGCAAACATGAGGGCTGGCGGTGTTACAGACGCCATGGTTACCTCTTCTCTGTTGGAGACCGTAAGTGCATGCCACTTTCAGTTTATAACTTATAAGTAACACTAACAACCCATGTTTGTGGCTTGTTTTTATCATTCTCTACTCTCTTTTTCTTTTTAATCGAGGATTTATATTTTGGCAGGTTGAAAGTAGTGATCTCATTGCATATGGGTTGATACCCGAGTTTGTTGGCCGATTCCCAATCCTTGTCAGTTTGTCAGCCCTAACAGAAAACCAACTTGTTCAGGTATATTTGTATTTTGTTATTCTTGTAACCATTTGTTTTACAAGATGCCCACTCACAATATATTTCCAGTGTCGGGTCATGTGAATTTGTTTTTAAAGAGTAAAATTCAAGATTCACTGATTGCATGACAAAGGCTACCTGCACAAGTTGATTGTAGTTTCAGTTTACATTCTTTTAGCTGCACAAATTTATTGTAGTTTCAATCCACATTCTCTTAATCTTATACTCGCAAGATATGTGGAATTTATAAGATGCGTCTACATTTGGAAAAGATCTGTTCTCTGATATTTGGTTAGTAAAATAATGTTTTTTCATATATAAGTTGATTATCTCTCTATGCTCTCAAGGTTTATTGATGTTAATTACTATGAATTTTATCTGTCCAACTCAACATAACTTCAATACTGGCATTTGCAGGTCTTGACAGAGCCAAAAAATGCATTAGGAAAGCAGTATAGGAAGATGTTCCAAATGAATGATGTAAGTTTTTTCTTTTTATTAAAAAAAAGTTATTTTTATGCTTGATTTCTTCTTGGATTCCAAGGGAAAATTGGAGCTTTTATACCTATAGAATCAATGTGTACCATGCTTCCTCCTGTTTCGTTGGAGGAGTTACCATTTCTGCTCGACTTAAACACTGATATCCCGGGATAACGTGTCACCAGGTCAAGCTTCACTTCACAGAAAATGCCCTGAGATTAATAGCAAGAAAGGCAATGTCAAAGAACACTGGAGCACGGGGTTTGCGATCAATATTGGAGAATCTATTGATGGATTCTATGTATGAGGTATGTCGTTCCTTATTTTTCCATATGAACTTAAAAGAATACAACTGCCGAAGAAAGGATAGCATAATATGAATGATGCCAAAACAAAAATGACAAAATCTTAGAACATTTCCTTTTTGAGGCATTGAACTTGGCAAAGACTAAGCTTTCCCTAAAGCCTCCTAAAATAACATTTAAAATTTTAGGAGGCTTTTGGACCAAAGAGTGACTTATAATAGTCTGGGAATTATAATAGTCTGCATTTGGGGTGCAGACTATTATAGTCGTCTTTAGGGTGCAGATTATTATAGTCTGTTTTATTATAATCTGTGTTTGGGATGAAAACTATTATAATCTGGGTTTTTCACTACTCTGTTTTTGCATACATATATACCGTACATGAAATGCATATTTTTTTTCAATTGATTTCATCAAATGGTTAACCAGTATGTTCATTTAATAAATTTCACTTCAAACTGGGTTTTTCACTATCGTGAGCCGCTAATTGGTGTACAGGGAACTGGACATAGGAAGGGTCAACAAACATAAATGCTAAAAAGAAAATAACTCAAATAACAATATTTTCTTTTGTATGAAAAACAATAATTAATGATAAAAAAAAGATCATTGTTACATAAGTTGAAGGAATTTTATTCATGATATGTCATGAGAGTATTGGGTTAAAGGCAATTTATGGCTTCTTGGTGAGCATGAGATCACCTTGAGCGTAAAGATAAAAAATGAAAATCGGACTAAGAATGTTTAAATGCTATTTTAATTAATTAAATTCAGATTTATTTATACTATTGAGGCTTTCAAAATTTTTGTTTAAACTTTAAACTTTATATATTGTACTTGGCCTATAAGTTTTTGTCATTTAAATTTTAATAATTTTGATTTTAATATGATAGTAATATTATTAACCTTTTTTAAAACTTTGGAAAATTGCTTTTTAAGCTTTTGAATTTGTTCTAGAAAAATATCACTTTAACTTTAAACTCGTTTCAAATTAAAAGATGGAAATTGATTTGGTGGTCAAGGTGGCATTAAATATCCATTGTCATCCATCATCAGGAAACTCTCAGTTACCAACTAACACACCCCAGAAAGATCTTAAAAATGCAATAAATTGAAATTATGTACTGCAGTTTCCTGAATATATGATTGAATTCCTCATGAACATTCTACAAAGTAGAATGCCAATGGACTGGATCATTATTGTTAATTCTCTTGGGAAGGCTAGCTAATAAGGAAAGTTTTACATTCATGGGATTCTAATCTTCCCATACCAAGAATAAAAAAATGTCCAGAAAGGTTTAAAGTCATACAGAATAGAAGGAAAAACCTTGAAGGAAACCCTTTGGAAGAGTCGTTGATGTAGCCTAAGTATTAGTCCTATATTTATAGAAAATTAAATGTAAGATAGGATTCTAAAAGGATAACTAAAAGGGAAGATAGGATGCTAAAAGGATAACTAAAAGGGAACTAAAAACTAATTAGGAATCTAAAATGTAATTAATCAGGCATTACCCAAGATTGACCAAATTATTATTACATCAGTTGTGGTCTATGAATGGATTCCCATAATCCAACGACGACAATGAAACTGGACCAAACAAAGAAAAGAGAACTAAGAAATAAAGAAATTTCATATTTTAAAGAGCAGGAGGAAACGAGGAATCAAATAATATGGGGAACGGGACTATCGCCCAGCCCAACCAATACTTAAGTACTTGAGTCCCAACTGAAGATTTATCAAATATAAAGAAAGGGAAAGAAGATGAGCTTGCTTCTAAGTAAAGGCAGTAATTCCAACGGGAGCCCTTTCCTTTAGGAGGGTTTCCTTTCTTTTTTGTTTGTATGATCTTGTATTATTTCATTCATTCTTGGTGAAAGTTGTTTCGAATTAAAAAAGAAAAAGAAGAAAAAAGTAAAGGTAGCAACGCCTTTTTCCCCCACAAAATTCAAGACCCTCCCAAAAAGGTGAGAACCCTTTTCTCACAAGTCACAATAAGATTTTAGAAAGCAATTCGCCTCCAAATAGAAACGCTGCAACCATTTTGGTAATAAGGCCGATGAGGAAGCCCCAAATTTCCCATGCCTGGCCCACACAATTCCCACCTTGTTATGAGTCACGACTTCTACTAGAAATTTCTCATCTTCTCAAAACCAACTTCTACCCTAGAGAAAAATGCCCCTTTCTAGGAATAAAAGATGTTTTTGGAATTTGGGCCTTTTCCATAGGTCTCCACAAGATTAAAATTAACCCAAAAAAAAGTCCAAGTAGAAAATTACAGGTTTATATACTATTTTAGTCTGTGTACTTTTACTTTAGTTCATTTTGGTTCCTAACTTTTAAAATGTTCATTTTGATCCCAATACTTTCAAAATATTCATTTTGGTCTTTGAACTTTAAAAGTGACCATTTTGATCCATTGAAAATGATTTAAAAAGAAAAGTGAAAGGACTAAAATGAATATTTTAAAAGTATAGGGACTAAAATAAACGTTTTGAAAGTACATGGACCAAAATGAACAAAAAGTAGAAGTACAAGGACCAAAATAGTATTTAAACTAAAATCAAATTAGTAAAGATGAGACAGCTTTGAAAAGATTATGACACGTGCAGAAATGACAGTTGTGCATTCAAGAGGAGTATTGAAACAACAGTTTTCTTTTTCTTACTTTGGAAGCCATTAGACACCCAAAATAAGCTGCATCTACTTTAAATCAACTTGGTTCTGTTTTTCCAGTGCATTAAGTAACTTGACAAGCAGCAGTGTCTGATGCTTTAACCTATCATACCGCTATTGCAGATTCCTGATATTAGAACAGGTAAAGATATAATTGATGCTGTCGTTGTTGACGAAGAATCAGTTGGGTCAGACAGCCCCGGTTTTGGCGCCAAAATTCTTTACGGAAAGGGTGCATTGGATCGCTATCTTTCAGGACAAAAGGTAGAAGATAGAAAGGTTTTAATCCAGCTATAGAATTTTTATCGACCCCATTAAGTTTATATATCCTTCTTCTTAAGATAGTAACAATATGAAATTCACTTTGCAGGCAACAAGTCAGGATTCAGAAAGAGAGCCAGAACCTGAAGGCGAAACAGATCTTCCTTCTGTTGTTGCCAGCGGCATGTAACCAAGAATTTGTGGAAGTTTATGTGTTATACCTGTAATGTTGTACATATTACTAGTCTATATTTATTAATAATTCAAGTGGAAAATTATTGTTATAAAGATTAACTGTTTCTCTTAAAAAAAAAGTGTTCTTTCGTTTTCAAAGTCCTCCAATACATTGAAAGCCCACATCTTTTATTAGGCTTATAGGCAACAATGTATTTTGTTTATGAATTATCT AAAATGACGTCGTTTTCGTTAGAATACTCCAAAGTAGATATTCTTGAAGCCTCTCTCGCTCGCAACTCACAACTTCACCTTGCTCCGTGATTTTCTCTGCGGTTTTGCCGTCTACTACTCTGTTTCTTCTTCAATCCTCCTCCTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCCCCCTTCCATGTCAATCCCAGTTCTTTCTCTTTGATTTCAATTTCATTTCTCCATGACCCAAATCATTTAGCTCTTTCCTCTTCCCTTCCCTTCCATTTCCCCCTTAATCATTTTTCCCCATGGCCGCGGCCGCTGCTCTCAGGTCCAGGTCTTCCAAGGAAGTTGCTACCTTAACCCTTTCTCGTTGTAGACACTGTATTTCCAATTCTATTCACGCTGCTTTCAGTCCCAAAAAATCCAACGACTGCTTTCTCAACTCACCTTACCACTTGGTCTCTTTCAAGCCCGTCTCACTCAGAGGCGACTTCTTTGACAGCGGGACTCAACCTCTCGATCATCGGAGGATTTACCAAAATTCTACTAAGAGCTTGAATCACAGGTTGAGCAAGAAGGGTTGTTTTATGAGTACTTATGGAGACCCGCCGGAGGTGTGGTCTGGTGATGGGATTGTGATTCGTGGGAGTAACTCAAGCTTGAATGGTCGTGGAGGTGACGGTGGTAGTTCCAATCCCGGTTCTGGTGGTGGGTTTGGCTCGAACTCCAATGATGGGTGTTGGGGTGGCTCTAGTCTGGGACCTAATTTCCCTACTCCAAAGGAAATCGCTAAGGGGCTTGATAAGTTTGTGATTGGTCAGGACAGAGCTAAGAAGGTGCTCTCTGTGGGTGTTTACAATCATTACAAGCGCATCTATCATGAATCGCTACAAAGGCCAACAGGAGATGCATTTAATAACAAAGCTGATGCCGCTGATGATGATAAAGTGGAACTTGAGAAAAGTAACATCCTTCTGATGGGGCCAACAGGCTCAGGGAAAACACTACTCGCCAAAACCTTGGCACGGTTTGTTAATGTTCCATTTGTTATTGCGGATGCAACTACCTTAACACAGGCAGGATATGTTGGAGAGGATGTGGAGTCTATATTATACAAACTTCTGATGGTTGCTGATTATAATGTGGCAGCTGCACAGCAGGGCATTGTTTACATTGATGAAGTTGATAAAATTACCAAGAAGGCAGAGAGCCTTAACATTAGCAGAGATGTGTCAGGAGAGGGCGTGCAGCAGGCATTATTGAAAATGCTAGAAGGAACGATTGTCAATGTGCCTGAGAAGGGTGCACGGAAGCATCCCAGGGGTGAAAATATCCAGATTGACACTAAAGATATTCTTTTCATTTGCGGGGGTGCCTTCATTGACTTGGAAAAAACAATCTCAGAAAGGCGGCAAGATTCTTCTTTAGGGTTTGGGGCCCCGGTTCGTGCAAACATGAGGGCTGGCGGTGTTACAGACGCCATGGTTACCTCTTCTCTGTTGGAGACCGTTGAAAGTAGTGATCTCATTGCATATGGGTTGATACCCGAGTTTGTTGGCCGATTCCCAATCCTTGTCAGTTTGTCAGCCCTAACAGAAAACCAACTTGTTCAGGTCTTGACAGAGCCAAAAAATGCATTAGGAAAGCAGTATAGGAAGATGTTCCAAATGAATGATGTCAAGCTTCACTTCACAGAAAATGCCCTGAGATTAATAGCAAGAAAGGCAATGTCAAAGAACACTGGAGCACGGGGTTTGCGATCAATATTGGAGAATCTATTGATGGATTCTATGTATGAGATTCCTGATATTAGAACAGGTAAAGATATAATTGATGCTGTCGTTGTTGACGAAGAATCAGTTGGGTCAGACAGCCCCGGTTTTGGCGCCAAAATTCTTTACGGAAAGGGTGCATTGGATCGCTATCTTTCAGGACAAAAGGCAACAAGTCAGGATTCAGAAAGAGAGCCAGAACCTGAAGGCGAAACAGATCTTCCTTCTGTTGTTGCCAGCGGCATGTAACCAAGAATTTGTGGAAGTTTATGTGTTATACCTGTAATGTTGTACATATTACTAGTCTATATTTATTAATAATTCAAGTGGAAAATTATTGTTATAAAGATTAACTGTTTCTCTTAAAAAAAAAGTGTTCTTTCGTTTTCAAAGTCCTCCAATACATTGAAAGCCCACATCTTTTATTAGGCTTATAGGCAACAATGTATTTTGTTTATGAATTATCT ATGGCCGCGGCCGCTGCTCTCAGGTCCAGGTCTTCCAAGGAAGTTGCTACCTTAACCCTTTCTCGTTGTAGACACTGTATTTCCAATTCTATTCACGCTGCTTTCAGTCCCAAAAAATCCAACGACTGCTTTCTCAACTCACCTTACCACTTGGTCTCTTTCAAGCCCGTCTCACTCAGAGGCGACTTCTTTGACAGCGGGACTCAACCTCTCGATCATCGGAGGATTTACCAAAATTCTACTAAGAGCTTGAATCACAGGTTGAGCAAGAAGGGTTGTTTTATGAGTACTTATGGAGACCCGCCGGAGGTGTGGTCTGGTGATGGGATTGTGATTCGTGGGAGTAACTCAAGCTTGAATGGTCGTGGAGGTGACGGTGGTAGTTCCAATCCCGGTTCTGGTGGTGGGTTTGGCTCGAACTCCAATGATGGGTGTTGGGGTGGCTCTAGTCTGGGACCTAATTTCCCTACTCCAAAGGAAATCGCTAAGGGGCTTGATAAGTTTGTGATTGGTCAGGACAGAGCTAAGAAGGTGCTCTCTGTGGGTGTTTACAATCATTACAAGCGCATCTATCATGAATCGCTACAAAGGCCAACAGGAGATGCATTTAATAACAAAGCTGATGCCGCTGATGATGATAAAGTGGAACTTGAGAAAAGTAACATCCTTCTGATGGGGCCAACAGGCTCAGGGAAAACACTACTCGCCAAAACCTTGGCACGGTTTGTTAATGTTCCATTTGTTATTGCGGATGCAACTACCTTAACACAGGCAGGATATGTTGGAGAGGATGTGGAGTCTATATTATACAAACTTCTGATGGTTGCTGATTATAATGTGGCAGCTGCACAGCAGGGCATTGTTTACATTGATGAAGTTGATAAAATTACCAAGAAGGCAGAGAGCCTTAACATTAGCAGAGATGTGTCAGGAGAGGGCGTGCAGCAGGCATTATTGAAAATGCTAGAAGGAACGATTGTCAATGTGCCTGAGAAGGGTGCACGGAAGCATCCCAGGGGTGAAAATATCCAGATTGACACTAAAGATATTCTTTTCATTTGCGGGGGTGCCTTCATTGACTTGGAAAAAACAATCTCAGAAAGGCGGCAAGATTCTTCTTTAGGGTTTGGGGCCCCGGTTCGTGCAAACATGAGGGCTGGCGGTGTTACAGACGCCATGGTTACCTCTTCTCTGTTGGAGACCGTTGAAAGTAGTGATCTCATTGCATATGGGTTGATACCCGAGTTTGTTGGCCGATTCCCAATCCTTGTCAGTTTGTCAGCCCTAACAGAAAACCAACTTGTTCAGGTCTTGACAGAGCCAAAAAATGCATTAGGAAAGCAGTATAGGAAGATGTTCCAAATGAATGATGTCAAGCTTCACTTCACAGAAAATGCCCTGAGATTAATAGCAAGAAAGGCAATGTCAAAGAACACTGGAGCACGGGGTTTGCGATCAATATTGGAGAATCTATTGATGGATTCTATGTATGAGATTCCTGATATTAGAACAGGTAAAGATATAATTGATGCTGTCGTTGTTGACGAAGAATCAGTTGGGTCAGACAGCCCCGGTTTTGGCGCCAAAATTCTTTACGGAAAGGGTGCATTGGATCGCTATCTTTCAGGACAAAAGGCAACAAGTCAGGATTCAGAAAGAGAGCCAGAACCTGAAGGCGAAACAGATCTTCCTTCTGTTGTTGCCAGCGGCATGTAA MAAAAALRSRSSKEVATLTLSRCRHCISNSIHAAFSPKKSNDCFLNSPYHLVSFKPVSLRGDFFDSGTQPLDHRRIYQNSTKSLNHRLSKKGCFMSTYGDPPEVWSGDGIVIRGSNSSLNGRGGDGGSSNPGSGGGFGSNSNDGCWGGSSLGPNFPTPKEIAKGLDKFVIGQDRAKKVLSVGVYNHYKRIYHESLQRPTGDAFNNKADAADDDKVELEKSNILLMGPTGSGKTLLAKTLARFVNVPFVIADATTLTQAGYVGEDVESILYKLLMVADYNVAAAQQGIVYIDEVDKITKKAESLNISRDVSGEGVQQALLKMLEGTIVNVPEKGARKHPRGENIQIDTKDILFICGGAFIDLEKTISERRQDSSLGFGAPVRANMRAGGVTDAMVTSSLLETVESSDLIAYGLIPEFVGRFPILVSLSALTENQLVQVLTEPKNALGKQYRKMFQMNDVKLHFTENALRLIARKAMSKNTGARGLRSILENLLMDSMYEIPDIRTGKDIIDAVVVDEESVGSDSPGFGAKILYGKGALDRYLSGQKATSQDSEREPEPEGETDLPSVVASGM Homology
BLAST of Cmc06g0160441 vs. NCBI nr
Match: XP_008466827.1 (PREDICTED: CLP protease regulatory subunit CLPX1, mitochondrial isoform X2 [Cucumis melo] >ADN33742.1 ATP-dependent clp protease ATP-binding subunit clpx [Cucumis melo subsp. melo]) HSP 1 Score: 1107.0 bits (2862), Expect = 0.0e+00 Identity = 571/571 (100.00%), Postives = 571/571 (100.00%), Query Frame = 0
BLAST of Cmc06g0160441 vs. NCBI nr
Match: TYK29185.1 (CLP protease regulatory subunit CLPX1 [Cucumis melo var. makuwa]) HSP 1 Score: 1104.7 bits (2856), Expect = 0.0e+00 Identity = 570/571 (99.82%), Postives = 570/571 (99.82%), Query Frame = 0
BLAST of Cmc06g0160441 vs. NCBI nr
Match: KAA0050508.1 (CLP protease regulatory subunit CLPX1 [Cucumis melo var. makuwa]) HSP 1 Score: 1102.4 bits (2850), Expect = 0.0e+00 Identity = 571/572 (99.83%), Postives = 571/572 (99.83%), Query Frame = 0
BLAST of Cmc06g0160441 vs. NCBI nr
Match: XP_008466826.1 (PREDICTED: CLP protease regulatory subunit CLPX1, mitochondrial isoform X1 [Cucumis melo]) HSP 1 Score: 1100.9 bits (2846), Expect = 0.0e+00 Identity = 571/576 (99.13%), Postives = 571/576 (99.13%), Query Frame = 0
BLAST of Cmc06g0160441 vs. NCBI nr
Match: XP_004146223.1 (CLP protease regulatory subunit CLPX1, mitochondrial [Cucumis sativus] >KGN57670.1 hypothetical protein Csa_010939 [Cucumis sativus]) HSP 1 Score: 1087.8 bits (2812), Expect = 0.0e+00 Identity = 558/571 (97.72%), Postives = 567/571 (99.30%), Query Frame = 0
BLAST of Cmc06g0160441 vs. ExPASy Swiss-Prot
Match: Q9FK07 (CLP protease regulatory subunit CLPX1, mitochondrial OS=Arabidopsis thaliana OX=3702 GN=CLPX1 PE=2 SV=1) HSP 1 Score: 731.9 bits (1888), Expect = 5.7e-210 Identity = 419/591 (70.90%), Postives = 472/591 (79.86%), Query Frame = 0
BLAST of Cmc06g0160441 vs. ExPASy Swiss-Prot
Match: Q66GN9 (CLP protease regulatory subunit CLPX3, mitochondrial OS=Arabidopsis thaliana OX=3702 GN=CLPX3 PE=2 SV=1) HSP 1 Score: 580.5 bits (1495), Expect = 2.1e-164 Identity = 321/474 (67.72%), Postives = 377/474 (79.54%), Query Frame = 0
BLAST of Cmc06g0160441 vs. ExPASy Swiss-Prot
Match: F4K7F6 (CLP protease regulatory subunit CLPX2, mitochondrial OS=Arabidopsis thaliana OX=3702 GN=CLPX2 PE=3 SV=1) HSP 1 Score: 525.8 bits (1353), Expect = 6.2e-148 Identity = 277/406 (68.23%), Postives = 337/406 (83.00%), Query Frame = 0
BLAST of Cmc06g0160441 vs. ExPASy Swiss-Prot
Match: A1U1Q2 (ATP-dependent Clp protease ATP-binding subunit ClpX OS=Marinobacter hydrocarbonoclasticus (strain ATCC 700491 / DSM 11845 / VT8) OX=351348 GN=clpX PE=3 SV=1) HSP 1 Score: 403.7 bits (1036), Expect = 3.5e-111 Identity = 212/371 (57.14%), Postives = 274/371 (73.85%), Query Frame = 0
BLAST of Cmc06g0160441 vs. ExPASy Swiss-Prot
Match: B8GNT9 (ATP-dependent Clp protease ATP-binding subunit ClpX OS=Thioalkalivibrio sulfidiphilus (strain HL-EbGR7) OX=396588 GN=clpX PE=3 SV=1) HSP 1 Score: 401.4 bits (1030), Expect = 1.8e-110 Identity = 212/372 (56.99%), Postives = 272/372 (73.12%), Query Frame = 0
BLAST of Cmc06g0160441 vs. ExPASy TrEMBL
Match: E5GBA0 (ATP-dependent clp protease ATP-binding subunit clpx OS=Cucumis melo subsp. melo OX=412675 PE=4 SV=1) HSP 1 Score: 1107.0 bits (2862), Expect = 0.0e+00 Identity = 571/571 (100.00%), Postives = 571/571 (100.00%), Query Frame = 0
BLAST of Cmc06g0160441 vs. ExPASy TrEMBL
Match: A0A1S3CTF1 (CLP protease regulatory subunit CLPX1, mitochondrial isoform X2 OS=Cucumis melo OX=3656 GN=LOC103504138 PE=4 SV=1) HSP 1 Score: 1107.0 bits (2862), Expect = 0.0e+00 Identity = 571/571 (100.00%), Postives = 571/571 (100.00%), Query Frame = 0
BLAST of Cmc06g0160441 vs. ExPASy TrEMBL
Match: A0A5D3E154 (CLP protease regulatory subunit CLPX1 OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold120G003750 PE=4 SV=1) HSP 1 Score: 1104.7 bits (2856), Expect = 0.0e+00 Identity = 570/571 (99.82%), Postives = 570/571 (99.82%), Query Frame = 0
BLAST of Cmc06g0160441 vs. ExPASy TrEMBL
Match: A0A5A7U5F8 (CLP protease regulatory subunit CLPX1 OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold175G001500 PE=4 SV=1) HSP 1 Score: 1102.4 bits (2850), Expect = 0.0e+00 Identity = 571/572 (99.83%), Postives = 571/572 (99.83%), Query Frame = 0
BLAST of Cmc06g0160441 vs. ExPASy TrEMBL
Match: A0A1S3CSB2 (CLP protease regulatory subunit CLPX1, mitochondrial isoform X1 OS=Cucumis melo OX=3656 GN=LOC103504138 PE=4 SV=1) HSP 1 Score: 1100.9 bits (2846), Expect = 0.0e+00 Identity = 571/576 (99.13%), Postives = 571/576 (99.13%), Query Frame = 0
BLAST of Cmc06g0160441 vs. TAIR 10
Match: AT5G53350.1 (CLP protease regulatory subunit X ) HSP 1 Score: 731.9 bits (1888), Expect = 4.0e-211 Identity = 419/591 (70.90%), Postives = 472/591 (79.86%), Query Frame = 0
BLAST of Cmc06g0160441 vs. TAIR 10
Match: AT1G33360.1 (ATP-dependent Clp protease ) HSP 1 Score: 580.5 bits (1495), Expect = 1.5e-165 Identity = 321/474 (67.72%), Postives = 377/474 (79.54%), Query Frame = 0
BLAST of Cmc06g0160441 vs. TAIR 10
Match: AT5G49840.1 (ATP-dependent Clp protease ) HSP 1 Score: 525.8 bits (1353), Expect = 4.4e-149 Identity = 277/406 (68.23%), Postives = 337/406 (83.00%), Query Frame = 0
BLAST of Cmc06g0160441 vs. TAIR 10
Match: AT5G19990.1 (regulatory particle triple-A ATPase 6A ) HSP 1 Score: 46.2 bits (108), Expect = 1.0e-04 Identity = 31/108 (28.70%), Postives = 54/108 (50.00%), Query Frame = 0
BLAST of Cmc06g0160441 vs. TAIR 10
Match: AT5G20000.1 (AAA-type ATPase family protein ) HSP 1 Score: 46.2 bits (108), Expect = 1.0e-04 Identity = 31/108 (28.70%), Postives = 54/108 (50.00%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Melon (Charmono) v1.1
Date Performed: 2022-10-13
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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