Cmc05g0145791 (gene) Melon (Charmono) v1.1
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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.GCAAACACATGGCTGTTGTGTGGAAACCATTTATATATATTGGGAAGTAGTAGATGGAATGGAACACAAACTTATTTTAGAGAGGAAAAAACAGAAAAGTAGACCTCTCATTTAATGTCTTTCCCATTATTCTCTACCACCTCTCTCCTTGACATTTGGGGCCGCCTAATCATGTCTACTTTAATTTTGTTAAGAAGAGCTTGTTGATAACAAAATTTAGATACAAAGACTCCTCTAACTTTCATGTGCCAGCTTTAATGATGGATTTGTATTTAGAGAAGGAAGATGGCCTACAAGCCAAAGAAAACAGGAACATCAGTGTGTGGTGAGTGCTACTAGAACTCCATTGGCTAAATTCGTATATTTAGGGTTTATGATCATATATAACAAGTTTTTAGAAGGAAGGACAACTTACCTTTCATGGTATTATGGTTTCTTGTTTTTTACAGAGGAATGAATCTCGAGCTTTGGAAATAAGACTCGAAGATTTGGAGGGTTTAAGATTGTTGTCCATAGGAAGTGTGCCACCACAAAGGAAACGAAGTAGCACCCTTCGAGGTCAAGGGGGGTATATTGGGCCATTTTGCCCAATCATTTCTCTTTTTCTTGTTCTTTCTTCCTTGGTCTATTACTTACCCTTTTTTAATTCTCACATGATTATTGTATTCCAAGTTATGGGGTTTTACCTCTATTCAGATTGTCACTCTTAATCTAAAATGACCCATAAAATTAAGGGTAATTATAATAGGTAGTAATTTTTAAAATAATTATTATGTAACAATATTTTTAAAAAATTGCAAATATAGCAAAGTCTATCAGTGATAGAGTCTATCGATGCTTTATCAGTGATAGATCTACATTTGTTATATGGTCTATCAGTGATATACTCCTATCATTGATAGATTTTGACAGATTTTGCTATATTTGCAATTTTTTTTTAAAATGTTGCTATATACTTAATTATTTTGAATATAATTGCTACATTTGCAACTACATAAAAACAAAAAGCTTAAGGACATTTTAGAAACGTTTGAAAGTTTAGAGATCAATTATGAAGTTGGTTAATAATTTTGTAACTTTATAGAGAGAAAATGATCAAGGGCTTGTTTGTTGGGCCTTTTGTCTCATTAGTGGGTCTGTTGGGCCTCTTCACCTTCGAGCGGCTATGGAGAACCAACATAGTGGGCTTTCCTTCCGTTTATTGGGATTCGGTTAATGGGCTCAAGTAATGGGCCCGGCTCAAACTTATCTTCTTGTAGTTGTTCGTAAACTTCGGCACAGCCCGCATCCACTGGGCTTGCTTCGAAATGGAACGGAAAGTTTCGATGCCGCGAAACGACCGGGAAATTATGGCGCCTTCATCTCAGATCAAGCGGCGAAAAATCGATCATCATCCGTCGCGCCGGTAATTCTTGCATCTCCTTCATGACCACCGCCGTCGTGTAAATTGACAATTTCTTTTGTTGTCGTCTCAGTTTATTTTTCCTTGCCGTGAGCCATTAACGATGAAGCTCCAAAGATATGAGGGTTTTACTATTTTGAAGGTCAAGATTACGAACGTAGATGTTAGTTATTGCTAATAGTTTTGTAGGCTATCGCAGAGACTGAAATGAACTTTACACTTTTCAATCGTTGAGGTTTCTTAGGTTTGTAGCTGTTAGTTTGAGAAGTAGAGTTGATTTGAAGGATTGAATGAAATTAAATAGTGTGGAATTTTGATATATTCCTTTTGGATGATTATATCAACTTCTGGATTGGATTGCATCTTTGTAAAATTCTGAGTTGAGTTCATTTGTAAAACTTCTCTATCGCAGATCTTTATCTTCAGCTGCTATAGAGAGACATCGAGTTTCAGCATCAACTAAAGGCTCAACTGTGAGATTTTTTATTTCTTTGGTCTTGCCATCACAGTAAATTATCATGATTATTTATCAAGCATTAGCTTATAATTATGACTTGAACTTGCACAGTTTCCTGTTGCCAGTGGGAGTGAATTTCGGATACTACAGGATAAGAGTTCTGCCATAGCAGAGGCCAAACAAGATGGTTGCACTGGTAATTTTAAGGTCCTTGATTCTCCATTTGGAAATTTTCTTTTACCTGTTATTCCTTCTTCCACAGAATTCTTTGAATAGTAGTTTCGAATCTGATACTGATTCCACCAGATTTTTATAGCTGATATGCTTTTGGTATTGAACTTTTTTGAATGATTGAGATACGATTACTGTAGGAAATTTAAGATAATGAACGGGTTATGGATTAAATTTGTTCATAAACTACCAAATGATTGAGAACCCAGTTGTTACAAATTAAAATCCAATGAATAAATCGCCACTTTGCTAAAAGTTGAGAGTTTAAAAAGTGTCTTTCAACCTTTAATTTTTCTATACAGTGGTGCACTGAGAGCTCTTAGGCATAAATATCAAATCATATTATTCTGATCACTATGATTAGGCATATTCGTCCTACCCATTTCTTCTCCATGTGTTGGGTTCTTGTGAGTACCAATCTAGTATTGACAGGAAAAAGTTGGGAGAAAGAATTATTATACTTTTTTGGCATATCAAAACCATTGGAAATGGAAAAGATTGGAGGGTTGGATGCCCCAGGCATAGAAACGTGGCTATGTCTTACTTAACAATCTGTTAGTTGAAAAAGGAAATCACTGTTCTGAGAACGTCTGGAATCAGGAATTTTGGTTTTTATTTGGATCTAGATATTGAGTGACAAGGACCTAACTGAAGGCCTGTGTGCCAAAGTCCCCTATTCCTGGATAGCCCTTCAAGAGTTGGCCTTCTATAATTTAAGGAAACGTTACCTAAATTGTTGTTCGGTACAATGCATGTGAATATCACATCAAGACTGAAACTAGCGTTACCATTGATATTTTGTAATTAGGATAAAGTCTCTTACAATAGAGCATATTGCCTTCTTAGGGATGAAGCACCTAGAACAACCCTTCGTAGATCAATCCAAACATCAACCAAACTTGTAGAAAATATATATAGATTTATTCGGGGTTACTTGAATAATTAGGGCTTTTGTACAAATTTTAAGTTAATATGATTGAAAGCAATCCAATTACATTTTGCAATTGTGACCAATAACGATTGAGTTATCAATAAAATTTTATTATGATTACACCAATTTTCATTACAAATTAGTAAACATGGCCTAAGTGTAGGTCGTAAATTTTTTTGTACTTCAAGCATCCCAACATTCTCAATATAGTTTTCCAATAGTCTTGACCTTGATTGCATATATAATGGCTTAACTTGCTTACAACTTAAGCTATATCTTGATGTGGGGGAACTAATGGCTTAACTTGCTTACAACTTAAGCTATATCTTGATGTGGGGGAACTAAGATCCATTACACCGCTTACTATCATCATAGTTTCGTTAAAATAGAATTATATCTTTTTGCTAGGAACCTCTACAGTTTCAAATATTTATATGAAGTTGCCTTTTCACAACTTCCTATGACGACATGTGGTATGCTTTTCTCACAAGTATGCTATGTCCACTCTTTAAGTATTCCATTAATAATAAGAATGTACTAATTACGTTGATTCATTTTTATGAATGAATCACGCCTTTAACTGTGCATCATTTGTAGAGATTCAAAACGTTAGTGAAACATTAGAATACATAATCATCATGATTATTAGTGATAGATCCAAATTTTTGTTGTTAGATGGTTTTATAATTCTAAAAATAATATGAAAAATGTAAACAAGTGACTTGAACTTGGGTCTACGGGAGCTAGAAGACTAATTTACGAATGATCTCTTTGTTACATTTACAACGAATATGGTGTTGAGAACTTTAACTTAGGTTAGAAACTATAGGGTTGATCTTTAGCTGCCTAATTATTAATATATTAAATATGTCATAATATTTTGCAATCAGAGTCATATTCTTTAGATTTGGATGAAAGTGGACGTAGATATCTCAGTTACACTTTTTTTTCTCTTCTTTTAGGGGAAAAATAAGTTCAACCTTTCTTAGAATCTCTTTATAGATGGAAATACTTTACCTTTCCATAGATATTTATTTTATCATGTTTTTCTTCAAGATATTGCCTAAATTATTGATGTGTTACAATTTTTGCAAGTTGAAATTTAATTATGTGATTTTTTACATAAAACCGACGTATTTATTACTCTCTTTTATCAAGGTTCAAACCTCAGATTGTAGAGACAGTAATTAAATCTGATCTCATAAAAAAATGCTTTTTTTTTAGTTGAAGTTGATAAAATGTCGTGGATATATAAGGTGATATTTGTTGGATTGTAATAAAATAAAATTTAATGTAATTCAAAATCCATATTTAGATGGAGTATTTTCAATCTATCTTTTCTACTGATTTTACATTCTATATTTTCATTTTGTTCGGCTTTCCCTTTTTCACCTATTTCAACACTCCTTTCATTTTCAGTAAGATTGCTTTCAATCTCTCCCAACAACTTGTAATTGTAATACAAAGATTTGCGTGAAGTTTCGGTTAGAAAATTCATGAATAGCTTTTAGCCATAAAATTCAGAGAGAAGCTCAAGTCAAATCAACGGACTCCAATTCTCTTCAAAAAAAAAAAAAAAAAAAACAATCAACGGACTCAATTGTATGGTCAAACGTTTTTTGGGGGAAAAATCCTCATTTTCAAAGTCCAATGAGAAGGAGGGTCGCTTTTTTATGCAACTTATTTGACTTTTACTGTTGCATGATCTTTTTCTCATGACTCAAATCATATCCAATCAAATAATTTCTAAAAAACTACTCATAATTCATAAATCACGGATAATTATCATTATAGTCCATATTTGCAACTCAATGAGTTTTTTCTTCTTCTTCTTCTTTTACCTTTTATAGTTGGAACGAGCATTTTGTTTATTAATTTAAAATTTAAGAAGCAATTTTAAAATGCGAATAAATGGTACTATTAGCTGGTTGGGTCGTTTTCCTTTATTTTCCCCTGATGTTAGAATTAAACCACCAGCTTATTATCAGTACATTTTTCAATACATTTTTAGATAATCAAAAGAATAAGTCATATGAAATTTAATTAACTTGTGTATATATATTGTATTTTTTATTGGTTTGTGGGTATATAATGTGTGAAAATTAGTTAAATGAGTTCCATAAATTTGAATCCACTCCACCCAACATATGCTTGTGTAACGTATGAAATAACAAATAAATAATCTATGATAAATTAAATGTTTAAATCGGATATAAATTTAACCTTTTCGATATTCAGATGATATGAATCCAATTGTGTCTAGAAGCTTTTCTTCCATTTTGTTGCTTTTTATTTATTTTAAATTTTTTGTCTTCTCCGGCGATCATTTTAGAAGCATATGATCCGAGGTAATATTATATAATATCGTCATCATTTTTATTTCCTTTCTTCAAAATAAAAATTTTCCATTCGTATTCTTTGGAGACAATTCTGTAAGTGGAATCCATATTCTTATCTGAAATAAAAGGATAACTATAATATAAGAAAAGTTTGTAGAAAAATAAGATTTTGTAAATTTTATCAAAGTTGAAATCAAACTGAAGGTCCAGGATAAGAGTTTGCATGTCCATAAACAATCTAATTTTTCCCTCGAGAAAAGGTAGAATGATTTTCGATTAATCACTTTTCTGGGTTTCTCTTAGGTGTTGAAATCACCGAGAAAAAAGTCGATTTTACTGGAAACTCGCTCAAATTCTTTGGGTTTCCTTCAAAATCCCTAATTTTACTTCTCCTTTTTTTTTTTTTTCTGTTAATAAATAATACATTTTTCTTCATTTCAACTTATTTTTCAAACTCATAGGCACTGACACGAAGCTTTTTGATGAATCAAGAATTTGCGTGATTGAAAAGAGTTGAAACGACAAAGTGTGCGGCTTTTGCCTCCGCGCCTGACCTTCTCATTGAATTAGAATTTGGGGTGTTTCCGTTCGTTGTCAGATGGGCAAGGTTGCGGTGGGAGCGGCGGTGGTGTGTGCGGCTGCGGTTTGTGCTGCAGCGGCGCTAGTGGTGCGGCACCGAATGAGAAACTCCGGGAAGTGGGCGCGAGCAATGGCCATTTTGAGAGAGTTCGAGGAAAAATGTGGAACCCCAATTGGAAAACTCAGGCAGGTGGCCGACGCCATGACCGTCGAGATGCACGCCGGCCTTGCATCCGAAGGCGGTAGCAAGCTCAAGATGCTGATCAGCTACGTTGATAATCTCCCGACCGGGTACACACCAAATTGTTTTTTATTCTGTTCTTTTTTTTATTTGTCTTCTTAATTTTGTTAGATCTATTTGTTCGAGACGTTTTAATACAATGAAGCCTTTCGTTTGTTTGAACAAGTTCCCATCTTTGTTGAAATGGTTCAATTGTCGATCTTGAACGAAAAAATTATGTTAATGTTTTTATCCTTTCGTTTCGAAGTTACTGTTTCCTAAGCTCATGCAAATGCCTTCAAATGATGACGAAGCATTTGATGTGCATTTTGCGATTTGTAAAGTTCGAAGTTTCTAATTTTTATATGTATTATCTCATGCAATTCTTCCCTAGATCTATCTTGAGGTTTTTATGTAGTATTTATGCTGTCCATTTTAATTATTGGTCTGTTGAGTTTTTTGTTCTTTCATTTTGTTGCTATGACCTGTATGAGTGTTACACTTTGGTTTATTCATTTATTTTCTCTTATCTTCATTTTTGTTTTTGAAGTTGTTTCAAATCTCGATTAATTCTGCCCTCTTTTATTTATTTCAATCGACTCTTTTTATTTAGAAAAGCAATTTTATGGATACACTTCAAATGCAAGATGCACTGTTCACTGGGATACAAAAATTTATTGGGATAGTTGAATCTAATTGTATATGGCATATACCACCTTTGATGATGTATTTTGAAATGACACTTTCCCCATAAATTTAGAGATGAAAAAGGGCTCTTCTATGCATTGGATCTCGGCGGTACAAATTTTCGAGTGTTGCGTGTGCAGTTGGGAGGGAAGGAGAACCGGGTTGTCAAGCAAGAATTTGAGGAGGTTTCAATACCTCCACACTTGATGGTTGGGTCTTCAGAAGTTAGTATTCTCCTCTTGAATTTATACTCTGGATTTCCTTAGGATGGAGCATATGCTGAAGTATCTGGTGCTGGTTCTGTCAGGCTCTATTTGATTTTATAGCTCAAGCACTTGCGAAGTTTGTTGCTGAAGAAGGTGAAGGCTTTCACCCAGCACCGGGTAGGCAAAGGGAATTGGGTTTTACCTTCTCCTTCCCTGTTAGGCAAACATCAATATCATCAGGGACACTTATTAAATGGACGAAAGGCTTCAGCATTGAAGACACGGTTAATCCTAATTCCTTGAGCTTTATTCTTTAATGTTCATAGCTGCCCATTATTAGGACCTTTTAATCTATTTTAATATTGTTGTTTCAACATTGTCCTATAAAGTGGCACCAAAGCCATACTGTCATTATCGGTGGAAAAAAAGTTTGCATTCTGTTATAAGGTAGAATTATACTCTTGTCCCTGTTATGGAATTCTTTCCTACCACTGGGGTGAGGAAAGATGAAGTGGCTTTACTATTGGAGTGCTAGACTTCAGATTTAGCAATGAATCTGTCATGCTTGCAATATAATGTTTCGAATCAGAAGAGGATTTCTAAGTGGAAATTAAGATAATAAATGAGTCCATTACTTTTTTTACTGTTATAAAATGTCCATGCTTGTCCTATGCATTGAAAATGGGCCACAACTTATATAGAAGCGCTAGACTTCATATTTAGTTATAAAGTGTGTCATGCTGGCAATGTAATGCTTCGAATTAGAAGATTTATTTAAGTGAAAATTAAGATAATCAATGAGTTTATTACTTTATTGACTTGTGTAAAATGTCCATGCTTGTTCTATGCATTGAAAATGGGCCACAGCCATGCTATCAATATACATTAGTTACTTTCTTAAGAGATTCGATGGATCACTGATTTAGATTCTGTTTTCCATACAAGTTCACATTTAAACAAATTATATTAGATCTTGGCTGTTCATTGTCTAAAAGATTAAATGAGTAAATGATTGTTATAAATTTGATTTTCAGCAGTTTTCCACGCACCTGAAACTTTGATTTTCAGTACAGTATTAGATCTTTATTGAAAGTTGACATTCTGTTTTCTCTTGGCTGATACTATTTCAGGTTGGGGAAGATGTGGTCGGTGAATTAACCAAAGCCATGGAAAAACTGAAACTCGACATGCGTGTAACAGCGTTGGTAATTCTTTTTTCTGATGCTAATTCTTGATGTTCAATTTTGCATTATCTGATTATCATTGGACTATTTTTCATAGTGAGTTGATGGGTGCAGTGGGCGTGAGTGCATGTATTTTTTGTGCTGACTTTCTCCTTTCTGAGATTTAGGTAAACGACACGATTGGAACATTAGCAGGAGGTAGATACCATGATAACGATGTAATTGCTGCTGTGATATTAGGCACCGGAACAAATGCAGCTTATGTAGAGCGTGCCCATGCAATTCCCAAGTGGCACGGTCTACTTCCTAAATCAGGAGAAATGGTTAGTTAATTTTGAGATTTGTTATTCGTTCTCTGGCAAGTAATAATCCTACAAGCTTCCCCTGCACTCTCTCCTTAATCAGAAGAAATGGATAATGGATTTGAGATTTGCTGTTAGTTCTTTGATAATAATAAATGGTACAATCTGAAGGTTTATGCATGACTTTATCAATATATTGATACTTGGGGGTAAAATATATTAATGCAGGTAATTAACATGGAATGGGGTAACTTCCGGTCCTCTCATCTGTCACTTACAGAATATGATCATGCATTGGATGCTGAGAGTTTAAACCCTGGAGAACAGGTAAAACCATTCTTAATACAAACCTCATCTCAAGCATCACTTAAAGAAATATGGTTTTCCGGAAATGTATTGAATAATTATCTTCATTATATTTGCAGATTTTCGAGAAGTTGATTTCTGGTATGTACTTGGGAGAAATTGTACGTAAAGTATTGGTCAAGATGGCTGAAGAAGCGGCTATCTTTGGCGAAACTGTTCCACCCAAACTGAAAATTCCATTTATATTGAGGTATACATTATACCATCTAGGTGTGTTATTTGTGAAAAGATACAATCCATTTTCCATGATCATATTTCGTTTCCCCATAACCATCCAGATTGATATTGGAGTTTCATGATGTGTGATACTGATAACATTCCAAATGATCGTGGCTAGTTTATATATTAGTTGGCACTGGCTATCCCATAATTGATACTCATCGTCATCCCCTCTGTTTCAAACTGATGTTGGATCTGAAACTAATTTTTCAAACCCGAAACTTAACTTTCTTCGTCATAAACAGTTTAGATTATATTATGGCTTCATGTTTGGCTTATATTATTGTAATTGACTGTTGTAAAAAAGTAAATGTTCATCTTCTCTACCTATTAAGAGTAAACTTCATATTTGAATGGACTGCTTAAAAAAAATCATCCTGTACGCTATTTTCATTTTAGTGTTATCTTTAAATTCTCTTTCAACTTGCAAATGTAACTTTTTGTTGCTCAAAAAAATTTGCAGGACTCCTCACATGTCTGCCATGCATCACGACACGTCGCCCGATCTCAAAGTTGTTGCAAGCAAACTGAAGGATGTCTTGGAGGTTAGACACCCACCCAGAAAATCTATGACTTCAAGAAGTTTTTTCTTTAAAAAAAAATTACTCACCCTATGCCTTTTGCTTTACTTCCAGATATCTAATACCTCCTTGAAAACAAGAAAAATCATAGTGGAGCTCTGTGACGTAGTCGCAACACGAGGCGCCCGTCTCTCTGCTGCTGGTATCTTAGGCATCCTGAAAAAACTGGGAAGAGACACCATCCGGGTTGGGGAGAAGCAGAAGTCTGTTGTAGCACTGGATGGAGGGTTGTATGAGCACTACACAAAATTCAGAACAACCATGGAAAATACACTGAAGGAGCTACTCGGAGATGAGGTTGCTGCAAACGTCTTCGTCGAGCATTCAAATGATGGTTCTGGTATCGGAGCTGCACTACTTGCAGCCTCTCACTCTCAATATCTCGAGATCGATGAGCCCTAAGGAAAAAAAAGGATCAAATTACAGATAGTATATTATGGAGTAGCAGAAGCTTTAGATTTTTTGTTGAATTTTCTGCTCTCCTTTGCATGTTATCACTTTCTGATGCCTTAGACCCTAGCTCAGGAGTTCTCTCCCAATCTTTTTCTTTTTTTAATTTATGGTTATTGAGAGCATAGAAAAAATGGAGTCGAGTTTTCTGGTCGGATGAACCTTAAAAGAGTAGTAGCCAAAAGAGAAAGGGAGGGTAAAAAATTGATGCTCTAAGGATCATTTTTCGTGGTTGCTATGCAAATAAACAAGGCACAAAGCATAAGCAATATGGTCGTTTGTACTGCTATTGAATTTTGGATGTTGTAAACTACACATCCAAGTGCCTTTTCATATTATCTTTCATACAAAGGTTTATCTTTAATTTGAGATACAGGAAATATTTCCATCATCTTCT GCAAACACATGGCTGTTGTGTGGAAACCATTTATATATATTGGGAAGTAGTAGATGGAATGGAACACAAACTTATTTTAGAGAGGAAAAAACAGAAAAGTAGACCTCTCATTTAATGTCTTTCCCATTATTCTCTACCACCTCTCTCCTTGACATTTGGGGCCGCCTAATCATGTCTACTTTAATTTTGTTAAGAAGAGCTTGTTGATAACAAAATTTAGATACAAAGACTCCTCTAACTTTCATGTGCCAGCTTTAATGATGGATTTGTATTTAGAGAAGGAAGATGGCCTACAAGCCAAAGAAAACAGGAACATCAGTGTGTGAGGAATGAATCTCGAGCTTTGGAAATAAGACTCGAAGATTTGGAGGGTTTAAGATTGTTGTCCATAGGAAGTGTGCCACCACAAAGGAAACGAAGTAGCACCCTTCGAGGTCAAGGGGGGTATATTGGGCCATTTTGCCCAATCATTTCTCTTTTTCTTGTTCTTTCTTCCTTGGTCTATTACTTACCCTTTTTTAATTCTCACATGATTATTGTATTCCAAGTTATGGGGTTTTACCTCTATTCAGATTGTCACTCTTAATCTAAAATGACCCATAAAATTAAGGGTAATTATAATAGGTAGTAATTTTTAAAATAATTATTATGTAACAATATTTTTAAAAAATTGCAAATATAGCAAAGTCTATCAGTGATAGAGTCTATCGATGCTTTATCAGTGATAGATCTACATTTGTTATATGGTCTATCAGTGATATACTCCTATCATTGATAGATTTTGACAGATTTTGCTATATTTGCAATTTTTTTTTAAAATGTTGCTATATACTTAATTATTTTGAATATAATTGCTACATTTGCAACTACATAAAAACAAAAAGCTTAAGGACATTTTAGAAACGTTTGAAAGTTTAGAGATCAATTATGAAGTTGGTTAATAATTTTGTAACTTTATAGAGAGAAAATGATCAAGGGCTTGTTTGTTGGGCCTTTTGTCTCATTAGTGGGTCTGTTGGGCCTCTTCACCTTCGAGCGGCTATGGAGAACCAACATAGTGGGCTTTCCTTCCGTTTATTGGGATTCGGTTAATGGGCTCAAGTAATGGGCCCGGCTCAAACTTATCTTCTTGTAGTTGTTCGTAAACTTCGGCACAGCCCGCATCCACTGGGCTTGCTTCGAAATGGAACGGAAAGTTTCGATGCCGCGAAACGACCGGGAAATTATGGCGCCTTCATCTCAGATCAAGCGGCGAAAAATCGATCATCATCCGTCGCGCCGATCTTTATCTTCAGCTGCTATAGAGAGACATCGAGTTTCAGCATCAACTAAAGGCTCAACTTTTCCTGTTGCCAGTGGGAGTGAATTTCGGATACTACAGGATAAGAGTTCTGCCATAGCAGAGGCCAAACAAGATGGTTGCACTGGCACTGACACGAAGCTTTTTGATGAATCAAGAATTTGCGTGATTGAAAAGAGTTGAAACGACAAAGTGTGCGGCTTTTGCCTCCGCGCCTGACCTTCTCATTGAATTAGAATTTGGGGTGTTTCCGTTCGTTGTCAGATGGGCAAGGTTGCGGTGGGAGCGGCGGTGGTGTGTGCGGCTGCGGTTTGTGCTGCAGCGGCGCTAGTGGTGCGGCACCGAATGAGAAACTCCGGGAAGTGGGCGCGAGCAATGGCCATTTTGAGAGAGTTCGAGGAAAAATGTGGAACCCCAATTGGAAAACTCAGGCAGGTGGCCGACGCCATGACCGTCGAGATGCACGCCGGCCTTGCATCCGAAGGCGGTAGCAAGCTCAAGATGCTGATCAGCTACGTTGATAATCTCCCGACCGGAGATGAAAAAGGGCTCTTCTATGCATTGGATCTCGGCGGTACAAATTTTCGAGTGTTGCGTGTGCAGTTGGGAGGGAAGGAGAACCGGGTTGTCAAGCAAGAATTTGAGGAGGTTTCAATACCTCCACACTTGATGGTTGGGTCTTCAGAAGCTCTATTTGATTTTATAGCTCAAGCACTTGCGAAGTTTGTTGCTGAAGAAGGTGAAGGCTTTCACCCAGCACCGGGTAGGCAAAGGGAATTGGGTTTTACCTTCTCCTTCCCTGTTAGGCAAACATCAATATCATCAGGGACACTTATTAAATGGACGAAAGGCTTCAGCATTGAAGACACGGTTGGGGAAGATGTGGTCGGTGAATTAACCAAAGCCATGGAAAAACTGAAACTCGACATGCGTGTAACAGCGTTGGTAAACGACACGATTGGAACATTAGCAGGAGGTAGATACCATGATAACGATGTAATTGCTGCTGTGATATTAGGCACCGGAACAAATGCAGCTTATGTAGAGCGTGCCCATGCAATTCCCAAGTGGCACGGTCTACTTCCTAAATCAGGAGAAATGGTAATTAACATGGAATGGGGTAACTTCCGGTCCTCTCATCTGTCACTTACAGAATATGATCATGCATTGGATGCTGAGAGTTTAAACCCTGGAGAACAGATTTTCGAGAAGTTGATTTCTGGTATGTACTTGGGAGAAATTGTACGTAAAGTATTGGTCAAGATGGCTGAAGAAGCGGCTATCTTTGGCGAAACTGTTCCACCCAAACTGAAAATTCCATTTATATTGAGGACTCCTCACATGTCTGCCATGCATCACGACACGTCGCCCGATCTCAAAGTTGTTGCAAGCAAACTGAAGGATGTCTTGGAGATATCTAATACCTCCTTGAAAACAAGAAAAATCATAGTGGAGCTCTGTGACGTAGTCGCAACACGAGGCGCCCGTCTCTCTGCTGCTGGTATCTTAGGCATCCTGAAAAAACTGGGAAGAGACACCATCCGGGTTGGGGAGAAGCAGAAGTCTGTTGTAGCACTGGATGGAGGGTTGTATGAGCACTACACAAAATTCAGAACAACCATGGAAAATACACTGAAGGAGCTACTCGGAGATGAGGTTGCTGCAAACGTCTTCGTCGAGCATTCAAATGATGGTTCTGGTATCGGAGCTGCACTACTTGCAGCCTCTCACTCTCAATATCTCGAGATCGATGAGCCCTAAGGAAAAAAAAGGATCAAATTACAGATAGTATATTATGGAGTAGCAGAAGCTTTAGATTTTTTGTTGAATTTTCTGCTCTCCTTTGCATGTTATCACTTTCTGATGCCTTAGACCCTAGCTCAGGAGTTCTCTCCCAATCTTTTTCTTTTTTTAATTTATGGTTATTGAGAGCATAGAAAAAATGGAGTCGAGTTTTCTGGTCGGATGAACCTTAAAAGAGTAGTAGCCAAAAGAGAAAGGGAGGGTAAAAAATTGATGCTCTAAGGATCATTTTTCGTGGTTGCTATGCAAATAAACAAGGCACAAAGCATAAGCAATATGGTCGTTTGTACTGCTATTGAATTTTGGATGTTGTAAACTACACATCCAAGTGCCTTTTCATATTATCTTTCATACAAAGGTTTATCTTTAATTTGAGATACAGGAAATATTTCCATCATCTTCT ATGGGCAAGGTTGCGGTGGGAGCGGCGGTGGTGTGTGCGGCTGCGGTTTGTGCTGCAGCGGCGCTAGTGGTGCGGCACCGAATGAGAAACTCCGGGAAGTGGGCGCGAGCAATGGCCATTTTGAGAGAGTTCGAGGAAAAATGTGGAACCCCAATTGGAAAACTCAGGCAGGTGGCCGACGCCATGACCGTCGAGATGCACGCCGGCCTTGCATCCGAAGGCGGTAGCAAGCTCAAGATGCTGATCAGCTACGTTGATAATCTCCCGACCGGAGATGAAAAAGGGCTCTTCTATGCATTGGATCTCGGCGGTACAAATTTTCGAGTGTTGCGTGTGCAGTTGGGAGGGAAGGAGAACCGGGTTGTCAAGCAAGAATTTGAGGAGGTTTCAATACCTCCACACTTGATGGTTGGGTCTTCAGAAGCTCTATTTGATTTTATAGCTCAAGCACTTGCGAAGTTTGTTGCTGAAGAAGGTGAAGGCTTTCACCCAGCACCGGGTAGGCAAAGGGAATTGGGTTTTACCTTCTCCTTCCCTGTTAGGCAAACATCAATATCATCAGGGACACTTATTAAATGGACGAAAGGCTTCAGCATTGAAGACACGGTTGGGGAAGATGTGGTCGGTGAATTAACCAAAGCCATGGAAAAACTGAAACTCGACATGCGTGTAACAGCGTTGGTAAACGACACGATTGGAACATTAGCAGGAGGTAGATACCATGATAACGATGTAATTGCTGCTGTGATATTAGGCACCGGAACAAATGCAGCTTATGTAGAGCGTGCCCATGCAATTCCCAAGTGGCACGGTCTACTTCCTAAATCAGGAGAAATGGTAATTAACATGGAATGGGGTAACTTCCGGTCCTCTCATCTGTCACTTACAGAATATGATCATGCATTGGATGCTGAGAGTTTAAACCCTGGAGAACAGATTTTCGAGAAGTTGATTTCTGGTATGTACTTGGGAGAAATTGTACGTAAAGTATTGGTCAAGATGGCTGAAGAAGCGGCTATCTTTGGCGAAACTGTTCCACCCAAACTGAAAATTCCATTTATATTGAGGACTCCTCACATGTCTGCCATGCATCACGACACGTCGCCCGATCTCAAAGTTGTTGCAAGCAAACTGAAGGATGTCTTGGAGATATCTAATACCTCCTTGAAAACAAGAAAAATCATAGTGGAGCTCTGTGACGTAGTCGCAACACGAGGCGCCCGTCTCTCTGCTGCTGGTATCTTAGGCATCCTGAAAAAACTGGGAAGAGACACCATCCGGGTTGGGGAGAAGCAGAAGTCTGTTGTAGCACTGGATGGAGGGTTGTATGAGCACTACACAAAATTCAGAACAACCATGGAAAATACACTGAAGGAGCTACTCGGAGATGAGGTTGCTGCAAACGTCTTCGTCGAGCATTCAAATGATGGTTCTGGTATCGGAGCTGCACTACTTGCAGCCTCTCACTCTCAATATCTCGAGATCGATGAGCCCTAA MGKVAVGAAVVCAAAVCAAAALVVRHRMRNSGKWARAMAILREFEEKCGTPIGKLRQVADAMTVEMHAGLASEGGSKLKMLISYVDNLPTGDEKGLFYALDLGGTNFRVLRVQLGGKENRVVKQEFEEVSIPPHLMVGSSEALFDFIAQALAKFVAEEGEGFHPAPGRQRELGFTFSFPVRQTSISSGTLIKWTKGFSIEDTVGEDVVGELTKAMEKLKLDMRVTALVNDTIGTLAGGRYHDNDVIAAVILGTGTNAAYVERAHAIPKWHGLLPKSGEMVINMEWGNFRSSHLSLTEYDHALDAESLNPGEQIFEKLISGMYLGEIVRKVLVKMAEEAAIFGETVPPKLKIPFILRTPHMSAMHHDTSPDLKVVASKLKDVLEISNTSLKTRKIIVELCDVVATRGARLSAAGILGILKKLGRDTIRVGEKQKSVVALDGGLYEHYTKFRTTMENTLKELLGDEVAANVFVEHSNDGSGIGAALLAASHSQYLEIDEP Homology
BLAST of Cmc05g0145791 vs. NCBI nr
Match: TYK10747.1 (hexokinase-1 isoform X1 [Cucumis melo var. makuwa]) HSP 1 Score: 972.2 bits (2512), Expect = 1.7e-279 Identity = 498/498 (100.00%), Postives = 498/498 (100.00%), Query Frame = 0
BLAST of Cmc05g0145791 vs. NCBI nr
Match: XP_008458864.1 (PREDICTED: hexokinase-1 isoform X2 [Cucumis melo]) HSP 1 Score: 969.1 bits (2504), Expect = 1.4e-278 Identity = 495/498 (99.40%), Postives = 497/498 (99.80%), Query Frame = 0
BLAST of Cmc05g0145791 vs. NCBI nr
Match: XP_008458849.1 (PREDICTED: hexokinase-1 isoform X1 [Cucumis melo] >KAA0061524.1 hexokinase-1 isoform X1 [Cucumis melo var. makuwa]) HSP 1 Score: 969.1 bits (2504), Expect = 1.4e-278 Identity = 495/498 (99.40%), Postives = 497/498 (99.80%), Query Frame = 0
BLAST of Cmc05g0145791 vs. NCBI nr
Match: XP_008458873.1 (PREDICTED: hexokinase-1 isoform X3 [Cucumis melo] >XP_008458879.1 PREDICTED: hexokinase-1 isoform X3 [Cucumis melo] >XP_008458886.1 PREDICTED: hexokinase-1 isoform X3 [Cucumis melo] >XP_008458893.1 PREDICTED: hexokinase-1 isoform X3 [Cucumis melo] >XP_008458902.1 PREDICTED: hexokinase-1 isoform X3 [Cucumis melo] >XP_008458909.1 PREDICTED: hexokinase-1 isoform X3 [Cucumis melo] >XP_008458916.1 PREDICTED: hexokinase-1 isoform X3 [Cucumis melo] >XP_008458936.1 PREDICTED: hexokinase-1 isoform X3 [Cucumis melo]) HSP 1 Score: 969.1 bits (2504), Expect = 1.4e-278 Identity = 495/498 (99.40%), Postives = 497/498 (99.80%), Query Frame = 0
BLAST of Cmc05g0145791 vs. NCBI nr
Match: ACJ04704.1 (hexokinase 1 [Cucumis melo]) HSP 1 Score: 966.1 bits (2496), Expect = 1.2e-277 Identity = 493/498 (99.00%), Postives = 496/498 (99.60%), Query Frame = 0
BLAST of Cmc05g0145791 vs. ExPASy Swiss-Prot
Match: Q9SEK3 (Hexokinase-1 OS=Spinacia oleracea OX=3562 GN=HXK1 PE=2 SV=1) HSP 1 Score: 800.8 bits (2067), Expect = 8.6e-231 Identity = 403/497 (81.09%), Postives = 449/497 (90.34%), Query Frame = 0
BLAST of Cmc05g0145791 vs. ExPASy Swiss-Prot
Match: Q42525 (Hexokinase-1 OS=Arabidopsis thaliana OX=3702 GN=HXK1 PE=1 SV=2) HSP 1 Score: 783.5 bits (2022), Expect = 1.4e-225 Identity = 388/494 (78.54%), Postives = 441/494 (89.27%), Query Frame = 0
BLAST of Cmc05g0145791 vs. ExPASy Swiss-Prot
Match: P93834 (Hexokinase-2 OS=Arabidopsis thaliana OX=3702 GN=HXK2 PE=1 SV=1) HSP 1 Score: 774.2 bits (1998), Expect = 8.7e-223 Identity = 383/497 (77.06%), Postives = 438/497 (88.13%), Query Frame = 0
BLAST of Cmc05g0145791 vs. ExPASy Swiss-Prot
Match: Q9SEK2 (Hexokinase-1 OS=Nicotiana tabacum OX=4097 GN=HXK1 PE=2 SV=1) HSP 1 Score: 771.2 bits (1990), Expect = 7.3e-222 Identity = 381/494 (77.13%), Postives = 436/494 (88.26%), Query Frame = 0
BLAST of Cmc05g0145791 vs. ExPASy Swiss-Prot
Match: Q9SQ76 (Hexokinase-2 OS=Solanum tuberosum OX=4113 GN=HXK2 PE=2 SV=1) HSP 1 Score: 760.4 bits (1962), Expect = 1.3e-218 Identity = 380/494 (76.92%), Postives = 433/494 (87.65%), Query Frame = 0
BLAST of Cmc05g0145791 vs. ExPASy TrEMBL
Match: A0A5D3CFI1 (Phosphotransferase OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold332G00600 PE=3 SV=1) HSP 1 Score: 972.2 bits (2512), Expect = 8.0e-280 Identity = 498/498 (100.00%), Postives = 498/498 (100.00%), Query Frame = 0
BLAST of Cmc05g0145791 vs. ExPASy TrEMBL
Match: A0A1S3C8Z7 (Phosphotransferase OS=Cucumis melo OX=3656 GN=LOC103498127 PE=3 SV=1) HSP 1 Score: 969.1 bits (2504), Expect = 6.8e-279 Identity = 495/498 (99.40%), Postives = 497/498 (99.80%), Query Frame = 0
BLAST of Cmc05g0145791 vs. ExPASy TrEMBL
Match: A0A5A7V2P5 (Phosphotransferase OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold41G00850 PE=3 SV=1) HSP 1 Score: 969.1 bits (2504), Expect = 6.8e-279 Identity = 495/498 (99.40%), Postives = 497/498 (99.80%), Query Frame = 0
BLAST of Cmc05g0145791 vs. ExPASy TrEMBL
Match: A0A1S3C8E1 (Phosphotransferase OS=Cucumis melo OX=3656 GN=LOC103498127 PE=3 SV=1) HSP 1 Score: 969.1 bits (2504), Expect = 6.8e-279 Identity = 495/498 (99.40%), Postives = 497/498 (99.80%), Query Frame = 0
BLAST of Cmc05g0145791 vs. ExPASy TrEMBL
Match: A0A1S3C8X8 (Phosphotransferase OS=Cucumis melo OX=3656 GN=LOC103498127 PE=3 SV=1) HSP 1 Score: 969.1 bits (2504), Expect = 6.8e-279 Identity = 495/498 (99.40%), Postives = 497/498 (99.80%), Query Frame = 0
BLAST of Cmc05g0145791 vs. TAIR 10
Match: AT4G29130.1 (hexokinase 1 ) HSP 1 Score: 783.5 bits (2022), Expect = 1.0e-226 Identity = 388/494 (78.54%), Postives = 441/494 (89.27%), Query Frame = 0
BLAST of Cmc05g0145791 vs. TAIR 10
Match: AT2G19860.1 (hexokinase 2 ) HSP 1 Score: 774.2 bits (1998), Expect = 6.2e-224 Identity = 383/497 (77.06%), Postives = 438/497 (88.13%), Query Frame = 0
BLAST of Cmc05g0145791 vs. TAIR 10
Match: AT2G19860.2 (hexokinase 2 ) HSP 1 Score: 604.0 bits (1556), Expect = 1.1e-172 Identity = 295/388 (76.03%), Postives = 342/388 (88.14%), Query Frame = 0
BLAST of Cmc05g0145791 vs. TAIR 10
Match: AT1G50460.1 (hexokinase-like 1 ) HSP 1 Score: 507.3 bits (1305), Expect = 1.4e-143 Identity = 270/498 (54.22%), Postives = 352/498 (70.68%), Query Frame = 0
BLAST of Cmc05g0145791 vs. TAIR 10
Match: AT3G20040.1 (Hexokinase ) HSP 1 Score: 490.7 bits (1262), Expect = 1.4e-138 Identity = 257/494 (52.02%), Postives = 344/494 (69.64%), 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 Position : 0 Zoom : x 1
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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