MELO3C004814 (gene) Melon (DHL92) v3.5.1
The following sequences are available for this feature:
Legend: CDS Hold the cursor over a type above to highlight its positions in the sequence below.AGGAAAGGAGTGCAGGTGCTGACTCATTATCACTTGTGGCAAGAATAATGAATAGGTCTAAAGCACATATTCAGTCCATGCTTCTGCAAACTAATGTGGCTGTAATTGAAGACTTCTACGTACATCTGGTAATATTTTCATTCTTAGTATGTTGTGGATCGTTATGTTTCATTCATACTGCAGCTTGGGCAGGTTTGAATCAGTTTAACCCCAGCATAAATGTGGTTATAGAGGTTGTTTGATTTGAATTTTTTTTTAAGAAACATGTATATTTATATAACAAAAGAGAACAACCTAAGGGCAAGGGACGAGAGGGCCCTCCCTAAAAGAAACTAGAGAATGATGGTCTTCCAATTGTTGAATATCATAGAAAGGTTGCAATTACAAAAGTGTTTGGTGCAATTCGTACTCCACCAAGAAGTTGTGTGCTGCAACACAGTTCAAAAAGAATCGAAAGAATTATAGCTATCTTAAATGATTTTACTATTCCTTTTTTTCCAAATGCACCACAAAAGGGATTGTGTAGCATATCTTCATAAGATATTTCCTTTTGGGCTATAACCTTTAATGTTGAGCCCTTCAACCAACCAACTATCAACCTTACTAGGAAGACAAAACTCCAAATAAAAAATTCTAAACAAAGTTTTCCAAGCTTTCCTAGTAAAGAGAGTGCAAAAATAAGTGGTTCATGGTCTCCTCTTCTTTGAAACAAAGGCAACACATCGGGGGTTGAGCATAGTCTACTGGAATTTTTTTTGGAGTTTCTCATGAGTGTTAAGACTTTTATAAGCAAGCCACCATAAGAAGAATTTCACATTTTTTCGGTATTTTAGTCTCCCATATGTGACGACTCAAAGGAACAGCAATGGAGGGGGATCTCTTGGTTAAACTGAGAAAAGTATTCTTCATAGTAAAGCTGCCATTAACGTTAGGAGTCCATTTACGACTATCACCACTATCTGAGGGAGCCCAAGAATGAAGGATTTCTAGTATTGAGGCCACATTGTCAAGCTTGTTATCAAGCACATTTCTTCTAAGGCGCAAGTTCCACGAATGAGTAATAATACACCAACAATCAGCCACAAAAGCATCATTGTTTAGTGACAAGGAGAACAAGTTAGGAAAATTTTCTGCAAGTGGCTCCACACCACACCAATTGTCTTTCCAAAATCTGATTTTGGTTCCTTTCCAAACAAAAAAAGCTGAAAGTTTAAAGGTCTCCTTGTGCTTCAAAGTACCGGACCATAATCTATAAGACTTTCCCCTGTTCGGGTCTACATAGACCACCCATTCTCGTCTAAGCCGTAAATGACCACAATTAAGTGCCTCCATAAAGAGGTTTCTTCCTTACTAAACTTCCAAAGCCATTTAGTGAGGAGAGCAATGATTTTTTTTTTTTGCCTAAATGAGCCAATCCCAAGGCCACCATAACAGATTGGGCGACAAGTACAATCCTAATTGAAAAGGTGGGCAACCGAATTAGTAGACCCTCTTGTCCAAACAAAATTCCTAATCATCTTTTTCAATCTATTGATAACACCAACTGGAGCTTGAGCAAGGGAAAATAAATAACAAGGAAGGTTGTTGAGTACTGATTGCACAAGAGTTAACCTACCCCCTTTGGAGAGGGACACATTCCTCCACCTCTCGATTTTATGTTTGAATCGCTCTTCAAGGGCGTTCCACATTTCTTTTCTATTACAACCTTCTCCAATAGAAAGGCCTAAGTAGTTAAAGGGAAGACTATCAACCGAGCACCCCAGAGAGTTAATATAAGGAGCCAAGTCATTACAGTTAAGGTTGATATCGATCAAAGACGTTTTGGATTTGTTAAAGGATAAACCAACTCCTAGAAGAAAGATATTGATCACCTTCCACCATGTCTCCAAATTTTTATCCTTCTAAGAAGAAGAAAGAAGAGTATCATGTACGTACTGAAGGTGGGTTAAATCATCTGACAAGTTCCCAAAATGGAAGCCTTTTAAACTCATTTTCTCATTACAATAGTCTTAGAGCATCTCCCATGATTGTTAAAAGAAAAGGGGCAAGAGGATCACCCTGACGAATGCCCCTTTTAGCAAAAATCTTTCCTCTAGACCTACCATTGACAATGATGGAGAAATTAGTCGTCGACCAATAGCCCCAAATCCATCTCCTCCATCTCTTACCAAAGCCTTTAAGTTTCACTATATCAAGGAAAGACCAGTCCGCCTTGTCATAGGCTCTCTCTAGATCAAGCTTCAAGAGAATGCCTTTTCTGCCTTTTAAAGACCATTCATCAACAACATCAGAAGCAACCAAAATAGCATAAAAAATTTGCCTCCCCTCCATAGAGGCCATTTGAGAATCATTAATTATCGAAGGAAGAACTTTTTTAAGTCTTGTTGTGAGCACCTAGAAATAACTTTATACAAGGAGGTAACTAAACTTATGGGTCTGAAATCACTGACACGGGCCACCTCTTTCTTTTCGGGGATGAGGCAAACAGAAGTCTCGTTACATCTTCTATTAATAATTCCGTTTTTAGAAATAACTTTACACACGGAGGTAACTAAGCTTATGGGTTTGAAATCATTGACACGGGCCACCTTTTTCTTTTTGGGGATGAGGCAAACATAAGTATTGTTACCTCTTCTAATAATAATTCCGTTTTTAAAAAAATCTTGGAACACCCTTACTAGATCGGACTTTAGAATGTTCCAAGATTTTTTATTAAACCCTCCAGTCATGCCATTAGGGCCGGGGGATTTAAGACAACCCATCTCAAAGACAGCTTCTCTAATCTTGTTTTTAGTTAAGGGGGCCTCAAGTAAGCTAGAATCCTATAAACCAAGGGCTTTCCAATTGAGACGGTCACAAATGAACGGCGAAGAGATCCTTTTGTCATATAAGTTAGAAAGGAAACTAAGGATCTCATACACAATCTCCTTCTCTGTGACAAGAGCCTTTCCATTAGTGCTCACCAAAGAAGAAATAAGTCTTCTACTTTTACGAGCTAAAACCCATCTGTGGAAGAAGTTTCAGTTCTCCTCCCCCTCTCTAAGCCATTGAAGCTTTGGTTTCTAAATGCATAATTTATGCTCTTTAACAATCAAATCAAGCAAAGCCACTTTACAAACTTCTCTTTCCACGACACTTTCTTGAAACAGCCTGATTCTTCAAGCGAATCAAGAGAGTTAATCTTATCAAGCAGCATTTGTTTCTGGGAGTAAATATTGTCGAATATCTCCTTATTCCAACCCTTTAAGATGACTTTCAGGCCTTTTAGTTTCTTTGTAAAGGAAAATATAGGCCAGCCATCAACAATCAAATCGCTCCACCAGTTTCTACGTTTTTGAGAAAGAGATGATGATCCAACCAAGCATTTTCAAATCTAAAAGGGGTAAGACTCCAAGACTGCGCCCTCAGTTTCAGAAGAATCGGAAAGTGATCCGAGGTGGTATGTGGAAGTCTTTCCACACTAACTTCTCTAAAGAATCAACCCAAGGCTTGGATAGAAGAAATCTGTTGAGTTTTGATGCAGTTAGCCTAATCCCAGAATGGGACTAAGAGAACAGGCCATTTCGAAAGGGATAATAGAGGATTAGAAGGTGCCCCCCCGGGGATCTTAACGGACCCGCATCATACCCAAAAATCAAACCGCTACACCACAAATTATCACTTGTTTGTTCAAGTAAAAGGGTGGAGATGTATCTGATTCTCTTATTTGGAGTTCAGGTCCATCTGGAAGATTTTTGGTTAAATCCTTATCTAAACACTTGGTGGCTTTTAAAGTAATTCATAAATTTGTTTCTAAGAGCTAGTGGAGAACAAAAAGTCCTAAGAGAGTTAGTATTCTCTCTTGGACTAAGATTTTTGGGACTTTAAAAGGTTCCTCTGTTCTTCTAAAAAAAAAACAAAATGCCCTAAGAGAGTTAGTTTTCTCTTTTGGACTATGATTTGTGGGCCTTTAAACTGTTCCTCTGTTCTTCAAAGAAAACTTCCTGCTCACTGCCTCAGTCCCTCCATGTGTACCTTATGCTTGAATGAATGCAAGGGAAACCAACACTTGGTTTTTGATTGCAGTTATTCATTGGAGTGTTGGAAGAAGCTGTTTTCTGTTTCCCAGCTTCAGTGGGTTTTTCAATGAGACATTTGAAGAAGTTATTCAAGTACTAGTTGGACCATCTGCGCCTTCTGATCCTTAATATTATTTTTTATTTAATAAAGAGTTCAGTTTCCTTTTCCAAAAGTACTAGTTGGACCATCATCGATTCCTCAGTCTCATTGGCTCTCGTTTAATGCTGTCAAAGCACTTCTAACAGAAATTTGGTTTGAGAGAAACCAAAGAGTTTTTCATGATAAACCTCTTCACGATAGTCTTTTCTGTTTTTATGGGTTCAAATTTATAATTTAAATTTTTTTTTTCTTATAGGCTTTGAGTTTTCACTTAATTTATCTGATTTTGATCAGTTGGATGCCGTCCCATACCTCATCGAGCATATTCATAAGAATACTGCAAGGCTGCTTCTTCATGTCAGTGGGTAAGATGTAAATGGACACTGTATACGTTTGTGACAGTTTTAGGTGGTGGTGGTTCTTCTTTCTTCTTTCTTCTTTCTTTTTTCTTCTTTTCATTTTATTTTATTTTCCCATGAGATGACATTTTAAGTGAATAGGCGTTATATAAGTGCCCACAACCGACTTGTGTAATACAAGCTGAGTGAGCTGTGATAACCAGTCTGACAAAGTGTGCTAATCTTCACTTTCCAATACCGAAAATAAATTTGGTACCTTGTTAATGCTGGCCAATAACTGAAAGGAAAAGAATCTAAACTTAAGAAATGAAGAATCTAATTAACAAAAACGTGAATGTAGTAGCACTATTAAAACAACTTAAGAAATCATTGCAAAAAAAAGGTTTTATTCTATAACCACAGCCACAAAAAAATAATATCTTGCTTAGACTGAGACAATGGAAATTTACTTGAGTGAAGTCATTAACGTTCTTATAGAAGCAATTTTGCTTTAACAAGATTTGAACTTTCCATTGATTGATGAAAAGATTAGAAACAAGTTGGGTTACCAACTTGAATAAGGAGTGAAAGAAGAATGAAAACGAAACATTCCATGGGTGGGTTATAAAAGCACCACAGTTAAATGTTCTTATAGAAGTATTAGGAAAAGGCTGGCACGGAAGGGGAAGATGAAGGGAAAAAAAATGGAAAGAAAGAGCCTAGATTTTGATGTCTTTCTATACATAGGCCAGCAGGTGACTTATAGCTAATAACTAAAAAAAGTAGAAAAAACAATGTTGATCAAAGAGTTTAATCTTCTAAAAAAAGTGTTCTGGAGGACATGACATGATGCGACACATGTACTGGAGTGACAATTGTGCAATTTGTCCTTTTCGAAAATGATGATCTAAGAGTAATACTCTAGAATGGCCAAATAAGACTGTTAAAATGCAACATTATAATAGGTTTACATCCAAAGAGAGACAAAAGGAAACTTTTTTTATAATCAATTCAATTGTCTTTTTTTTTTTTTTTCAAAAAAAGAAGGAACAAACTTTTCATTGTTGTAACAAGAAGTGCGAAAGCTCGAACGAATGCAAGAGATTGAACAGAAAATAAATAAACTAGTTTTGAAAGTAAAATAAAGACGTTCCAATTTAATTATAAATCTTAGGTTTAATAATCTACATAAAATTTAGATAGAGACATAAAGAAGTCTTGAGACAGGCCGAATGAAAACATTCTGATTTCTGATCATGCATGAGACTTGTATTGAAATAAGCTTTGATTCCTTTTGAACCGTAACTCAGAGAGAAGATCATTAGTACTTTAACCCATCATAATTGGGCTATCTTTATTGATGCTTAATAGAGTCTTGTTATTTCTTCTTATTTATTTTCTACTTTATTTTTGTCATTGCATTTATTATTTGTTATTAGTACTTTACTCCCTTGTAGAGGTTTTTTTTTTCTTTTCTCTCTCTCTTGAGCACTAGTCTCTTTTCATTTCATTAATGAAGGTTGTCTCTTGTTAAAAACAATCCTGTGTTCGATTAAAGGAGAAATGGTTGGCATCTCCCTTGATAGGGTTGGGAACAGCTTTCAGGCCTTCTGTTAACACTAAAAAAAAAAAAAAAAAAAAAAAATCATTATCATCTTGTTAGGAGCTACTGGTAGACCAAGCAGCACCTGCAAGAGAACATTTGTTTTGAAGGACTTGAAGAATACTTGATAGAGATTGAAAAATGCGAATAATTTGTCCTCAACACTGTCGAGAATAATGACTACCAAAAATGTATGCCTAATGAAATCTACATCAGACTATGAAAGTAGTAGAGAAAACAGGTAGCCGAAGAAATAATATGCTTAGGGATCTTCCACTGGAGCTTTTAACCAATTCGACATAATCCACATAAGAATGGTGTCATTTAGAAAAAAATTGGAATCTTCATTAAGGAGAAAAAAAAAAAAGGAAAGGATACAAGTGCTGACAATAAACTAGGACCACAAAAAGTAGAGCTCCCCTCAAGGAGGACTCCAATTATGTAAAATAGCGCGTAGAGAATAGTTAGAATGTATCTTCAAGATTGAAGAGAAATATGGAAGTGAAATGAGGGACCAGACCTCTCTCTCTCTTTGTTTTATTAAAACGGAAACAACACATCTCATTGATGAAAGGAAAAGAGATTAATATCGAATTACAAAGAAACTAATAAATAACAAGAATTAGGGATCAACGGGAAAATCTAGCCATCTCAACTAGGTTGACATACCTATAGCACTCTCATCACATTGCAAAACAAAAAATGATGTTTATTATTAAACCACCGATTCACCCAAAAGCTTAAGCTAGCAGTTGAAGGCAAATTTAATTATATATCACTAATACTCCCCCTCACTTATGGGTTTGAAATATTTGAAAGGTCCAACCAGTGGAAAACAATTTTACCTCACTTATGGGATTGAAATATTTGAAAGGCCAACAAGTGAAAATTAATTTAGTTGGGGAAGAAGCACCAATGCAAGGGTTTGAACACAGGATCTCTCTAGACCACCTGCTCTGATACCATATTAAACCACCAATTCTCTCAAAAGCTTAAGTTGGTGGATGAAGGAAAATTTAATTATATATCACTAACAATTATAATAGAAGACTAGATGTCATAATGACATTATGACTTACTTTGAATAAAAACATTCCAATTAAGACAAATATCTTGAACTAAATAATCAGAAAAATTCTTGGAAAGGGATCACCAAGAGAGGAAGCATTGACTCGAAGTGACTTGTCTTGAAAAATACACTGATTTCTCTCAAAACATATCTTTGACAAAACAATTTGACCGTATTTATCCTCAACTGATGCGAATTTACTCTTAAAGAAGGGAAAATTATGGTCCGAGCCACATTCTCCTTAAAAACATTGCAAAAAACCCAATGAAGATCGAATGTTGCAAATAACTTCCTCCACATTTTCCAGGAGTATTGGCAATCAGAAAATAAAAGCTGGTTGTCTTCACTCGAGTCTCTTTCCACTCTAAAAGTCTTACTATTACGCTCACCCACAAAATTGGACACCCCTGCAAGCCACAAAAACCTGAACAAACTTCATCATACCAAATGGTTGATATTGTTCCCTTTATTTCTTTCCCAAAAAAATGATTTCATCAGGCTTTTCACAATCTTCCTAATACTAGGAGGCCCGAGAAAAAAAATATATTATAAAAGAATCTTTTATAAAACTAAGTTGCAGACAGTTAGTCACCCACTTCGTGACTAATCAAATCTTCTCCAATGATCAAGTTTCTTTTGTGTTTTTTCTATAACCGGCTCCCAAAAAGTTAAGTCTTTGGATGAGCCCCAAGCGGAAGGCCAAGGTACATGAATGATAAAGATTCCACTTTGTGATACAAATGGGAAGAATGAAAAGCCATGTTACATGTATCTTTAAAGTAGCCTTGTGGCCATCTGTTATAAGGTTTTCTGAAACTAGATTGGAACTGTTTTTGTGTAGCTAGTTAGGTTGCTTTTTTTGTGGCTCTTTTGTTTGGTTGTTCTTTGTTTACCCTTTTATAATCTTTCTAAAGCCATAAATAAATAAAGTAGCCATGTGAAAGGTATCTTTAGCTCCTGGCAAAGCCTAACTTATCAATTTAATGCTCAATCCTTTGTAATTATTTGAATTTCTCTATTCATTAATCCAAGGTGGTTGCCAAACAGAGCATTTCCGTGTCCTACTTTAGGATTATTTGCAACACTTTGCTTATTCTTGGCAAAATAATTCCGTGCGTTTCCTTGTTCAGCCTAGTCTTGCTCCAAGTTCCAACAGTTTCCATAAGAGCTCCTCCATGGCAGCTCGGAATGCGCAACTCTCCATGTATTAGTTAACGTGGGGTTCTATCTCACGATCAATTGGCATGAAAGGAGCTGTCTATCTATCTTGTAAAGAGTGTGATATCTCTTGGTTTTTCGTATGTTGGATCCTCAACATGCTCCCCCAGATGGCACATCTTTGAGTTTTCATTATTCTTGAATCGATTATCAAACTTTTTTCTGGACCAAATACCCGTTTGGGTTTATAATCTTTGATACCATTTAAGTTTGAATGGAATCAAATATTTTGTATTCAACAATTTAAGTGACTCCTTACTTCCTATATAGGAAAGACATTCATAATAAGAATAAAATAAAATCATTAATGATTTTACAACTAATTAACACATAAAAAACTACAACATGCCTGCAGATTACCATTATGTCCGGAGTACTCGAGCATATAAGTTCAATAAGGATCTAAGACAAACTCTTAGGGCATGTTTGAGGATAGGAGTGGAGTGGAGTAGAGTGAGCTTTAATAGTCCATTCCTTGTTTGGGGCAAGGTTTAGTTTTAGTTGAGGATTAGGATTAGGATTAGGATTTAAAATAATCCACTTGTCATTGCTATTTTTCAACCCATTTATTTCAAAAGTTGGGAAGTTCATATTGGTTTCAAGGGTTGGAAGTTCGTCGACCAACTTTCAGACGCCACCTCTGGTGATTTTCGCCAGCCAATCTCCGATCACCATCTTCTGTGACTTCACTAGTGAACTTTCGACAACCGGCGATCGTTGCCACCGATCAATCAAAAATTTTAACAAAAACATTTTTAGGGTTTAGACTAATCCTTGATGATTGTCATAGGCCAATCTTCGACCACCACCTCCGGTGACTATTGACGAACTTTTGAAACCAACTCCAGCAACCGTTGTCAACCATCCTTCTATCGCTACCTATCAAGCTTGAAAATTTTTAATAAAAATATTTTTAGGGTTTAGGCTAATCTTTGGTGATCATTGTTGGCCAATCTCCGACCTCCACCTCCGTGACTCTATAGGCGAACTTCCGACAACCAACTCCAACGATCGTCACCACCGATCAATTTTGAAAAATTTTGATAAGAACATTTTTAAGTATATATAACAAACAAGAGAAACTTGTATGTACAAATACTTGAAAATACAGTTTCAAAACACATTGTGTTTTTTATTTTAAAAAGTTTTTATCAAGTGTTAAATAAAAATGAATTTTTGAAAAACCTTTTTCTATGTCATTCCAAATACACTTTTAGTTTAATTATAATAATATTTTTTAAAATACACTTTCTTATGCTTTTTTTCTTGCAAAATTATTTTATCTTCTTGTTAAACTTGTTAATAGTCGTATCTGAGATTGTACTTAAATTTATTAAATGAAGAATCTAATTAACAAAATTTAATTAACTCACACTAGTAATAAATTAGTTTGTATAAATTAGTGGAAGATACAATTCAAACTATGTTTTCAAGAAATGGTATTTCATGTACTTAATAAATGTATGCCAATAAATTATAGTGAAAAAAATTATCATGATACAGCACAGACTATAATAATTTACACCTCAAACATAGATTATGATAACCCAGATGCACCTCAAACACAAACTATAATAACCCATAAATTATTATAACTCACAGACAATAATAACTATAGATTATAATAACCCACTTTACGTCCCAAACGTCTCCTTATTGATCACCCGTGTCTACTAGGAGGATGACTCCAAACACATAAGCTAACTACTAGGCTGCTGGCAGCTATTACCTATCTTAACAAATTCCTGTCTGATAATGAATCACCCTAGTGAATGGAAAGGTACCTATTTGTCATTTGAAGCAAGCAGACTGCGTCAAAAAGGATAAAGACCGTACTGACAACTAGATTATTTAGCTATGCATCATGTATCATATAACACGAAATAGATAGTAATTTCCTTTCTCATAATTGAAAGGTATGCTCTACTTGGTTATATCTAGAAGTTATATGGTTCAATGCCAATACCAGAGCAAGTTTTGCTTTTCGCAGGCTAAAAAAGTAAATTTATTTTATTGAATTCTGTAACTATGATTTTCGAAGATGGTAATGATTTTTAACAATAAAATTCTCTTTTTACAGTTATGTTGATCGGATAGCCAATGCAAAATGGGAAGTAAAAGAGCTTGGACTAGAGCATAATGGGTTTGTTCTCTTGGGATGCCCACTTTTTTTGACACTAGAGTTCTATGTTAATATTATATATATACACATATACACAGACATGCATTATGACCCAACTATGGTCTGCTACTTTTACGTCTGGTGAAATTACTTTAGATGGATGAATCACTTCATATCCGCATGTTTTAAATTTTTTCATGTTTTAAATTTTTTAATGTGAAAAGGATCACCTGTGGTAAGAATGAAGTTTATTTTTCTGTGATATGAAAAGACTATTTTAGTTCCTCATGTCCAGGGTTTGTTTTTTCTTTTTTTTTTTTTTTTTTTTTTAAATTTAATCCATTTTGTTTTAAAAAAGGTTTCAGTTTAGTTTCTTATTTTTCTAGCACTTCTCTTCTTGGTTACTTGTTGAGNNNNNNNNNNNNNNNNNNNNAAATTAATCCATTTTGTTTAAAAAAGGTTTCAGTTTAGTTTCTTATTTTTCTAGCACTTCTCTTCTTGGTTACTTGTTGAGAAATGTTAAAATTGGTCGATGATATACATATATAAGTTGAATTCGCAGGAATTTAGAGGAGAAAAGAACATCTAAGAGAAAAAGTTCAAAATTTCCATCCATTTCTTAAAAATTTGAGGAAGCAGAAACTTTTCATTTGAGTTGTTTTTCACCTCTAAATTTTTATTCAATTTACCAACTATTATGTCGTTCAAGCTTTTATCACTCAGTTTTAACCTTCACACCACTACAAGCTAAATTAAGAAATAATAGAACGTAAGGAACTAGATTGATAAGTTTTTGACATAAGGACTAATTTTTAAAAAAAACTAAACATAAGGGATAAACACATTTAGAAACACAAAGCATTCTTAGGTTTGAACTGCTTACTTCATTATTCTCTTCCTTTCTTTTCGTTCTGTATGGCATTTGAGCTCCAACTGTACATACTGGTGGAATTTTTCAGTTGCTCACATAATGAACTATTTATGTATTTTGTGTATGTGTGTGTGTGTGTGTAATGAACCAATCTTTTATTGCCTGTGGCTTATCAAATGCACTATCAAACTGTACAGAAATTTTCAGGGATTTTTATTTTTTATTATTTTAGCATATTCAGAAGAGAACGAACCATGAATTCAAGCATGCTTGGATGCTGTAATTTTTTTTATTGTTCTTATTAACTTATGAGGTCATGACTACTATCAGTACATCGTTTAATTAAACTGTATGAATAGGTATGTTGACTTGCTATTGGGAGAATTCAAGCATTATAAAACAAGGCTGGCTCATAGTGGAGTTCGTAAGGAGGTAATCAATCTGGCAGAACTACATTAGTTCCAGTATGTTAAATTCTAAAGTTCTAAATGTAGAACTACAGGAAAAGGTTTTTTCGTTTTTGATATTTTTGTTTGTTTTGTTCTTTTTTTTTTTTCCTTCTTTCTGTTCTTATTTTTTTCTTAACAAATTCTCAGTTGATAGGCTGTTTTTATCGTCATTATAGCTACTGGTTTGCTGCTCCTTGTCTCTGAGGTGTATTTAACTTTCGTTAAGTGTGATATATCATTGACTAGGATGATCAAGGAATATTCTTTACATCCAACTTATGTCAGCCCTTGATTCTAATTCATCCGTTATTATTTGAATTTTGTATATGTTTTTCTCATTTCATTATATCAATGAAAATGTCTTGTTTCCGTTTTAAAAAAACATATCTTCTTTTTAAGTTGCTGAGATTATATATATGTTTACTTATCTTCTTTTTAAGTTGCTGAGATTATATATATGTTTTCTTTAATTTCTTGTGTTACATTTTTCCTCTCAGCTCATGAATTTAAAATATATCTTCTTCATAACTTTCTGACATTTTATGCTTCTATTTAATTGATGATATATTTTGTCCCATTCAGTTCATTGAGGAATAGCCATACCAGACAACTATTCTATTCTTATTTTTCCAAAATAATCTGTCTATTTTACATATTTTTTCTTCTTCTAAATTTGTGATATTACTTGCATATATGTTGACTTATGTTTTTTGGATTGTGCACTTGATAACCTGGACTAATAATATAGAGTATTAAGATATCAAGGTTACTTTTCTGGGCTTGAGAGTAATATTGTTTTTCTTTTTGCAGTTTTGAACACGAGATGTTTATCTTAGAAGGAAAAGCGTTTTTGTTATAACAATTTTGTTTCTCCTCATCATTAATATTAGGTTGATTCAGACGAAAGAAAGGGCAAAACAATTTTGAAAAATAAAAGTAAATAAATAAATAAATAAATAAATAAATAAAAAAGAACAACATAGGCCTAGGCTCAGCTTAGGCTAAGTGAGTAGAATATCCTGCTTAGGTCTCGATCATGTTGGGCTAGGCTCTAAAAGTAAAGTTCATGGTTAGCTTGTAAGTTTGGCTCGATAGATCGAAGTTTGGAGTTGGTTTCACTTTTTAGATCTCTTCCATTGTGTAGTCACTTCTTTATTGAAAATTCGCTTACCAAATAAATTTTTGCACTTGTTAGATTATGTTTTCTATCAGATTTTATATTTTAAGTTTTCCTCCTAAATTTTGTTTCTAATAACTTTAATAAACTTACAAATCACTTTTATTTTTTTAGAATAATGTATAAATATTATAAAATTTGTAATTTTTTTTTTAAATTTATGATTTAGATTTTGGATTCATACTTAGAAGACACACATATATATTTATATAGCATGGATCTTAATGCTATCCAAGACCTTCTGAAATTCCGTATGGTTGACATTTGTAGGTACAAGACCTTCTCTTGGAGTATGGACTGGATATTGTTGCAGAAACTCTTATAGAAGGTATATCACGAATAAAGAGATGTTCAGATGAAGGACGTGCCCTCATGTCATTGGATCTTCAGGTATGATGCCATATTTAATTGCACGAGGTTCTATCTCAAAACCAATTGACAATGAGAGAGGTGTTTCATTGGAGTGTGAACCTCCATTGTAAAACCAATGTGAGATTTTTAACATCTCAACATCTATGAGCCATTTTACAGATTGTGCTTTTTGCTTACTGCATTATTTATGGGTTCATTTCTTTTCATCTCTATTATGCCGTTTAATGATGTACTCGGTTTTGGTTTTCCTTCAGGTGTTAATCAATGGCTTGCAACATTTCGTTTCAGCGAACGTGAAACCTAAGTTGCAAATGGTCGATACCTTCATTAAGGTAAGCCCGATCTTCAAATTATCATGAACCGAAGAGAATAAACTTTTTGTGGCCTGCTTCAAACTTGATTGACTATCATCATTTACTGTTTGAACTGTAAGTAACTTACTAATGATGCATCATCAAACAGGCGTACTACCTCCCAGAAACTGAATATGTACACTGGGCACGATCTCACCCGGTAAGAAACTTACCTTCAACTAAAAAAAGTTGCAAAGTTCATGACTTTGAAAAAGTTTAAGATCTATGTAAAGCTTAATCTTCTCTTAAATTCAACAATTGTAGGGTTAGAATGGAACCATCTACCTTTATAGTAGTAAATGATTATTGGTGTCTTATCCATTGAGCTGAGTTCGAATTGATTGCTGAACTGATATATCACTATTGTGAATCCATCTACTACTTAAGTTATGGAAACTAATTATTTGGATAGTATGAGATGTTACCTTTGGTACGTATTTTCGTCAACATCAAAATTTAAATTATTGAGCATTTGTGTTTATGTCCGGGAGAATTGTCCTGTTTTTGCAGGAATACAGTAAGAGCCAAATTATTGGTTTGGTTAACATGGTTGCATCGATGAAAGGGTGGAAGAGGAAAACTCGGTTGGAAATATTGGAGAAGATCGAGTGAGCCAATCATAATTTTGAATAAGTACGTACAAACAAAGCATTTGAATCACCCCACTTTTTTTGTCTTTCTACCTCCCATTGGTGTTCATTATAGGAAGAAATAATGTATGTTAAAAATATTGTAAACCATCTTAGTTCTTCAGTTTGTATAGTTATTATTAATATCTTATTTGAAGACCATAATTCTACAATCAAAGATTAAAAATGTAAATTCTGCAGACGAGTTGTTTATGGTAGTAAAACGAGCATATAAAGCTAGTTTTATTAAAAATTTCTCATATAATCTTCAAATACTATTTTGGTGAAGTACAATATTTTATTTATCC AGGAAAGGAGTGCAGGTGCTGACTCATTATCACTTGTGGCAAGAATAATGAATAGGTCTAAAGCACATATTCAGTCCATGCTTCTGCAAACTAATGTGGCTGTAATTGAAGACTTCTACGTACATCTGTTGGATGCCGTCCCATACCTCATCGAGCATATTCATAAGAATACTGCAAGGCTGCTTCTTCATGTCAGTGGTTATGTTGATCGGATAGCCAATGCAAAATGGGAAGTAAAAGAGCTTGGACTAGAGCATAATGGGTATGTTGACTTGCTATTGGGAGAATTCAAGCATTATAAAACAAGGCTGGCTCATAGTGGAGTTCGTAAGGAGGTACAAGACCTTCTCTTGGAGTATGGACTGGATATTGTTGCAGAAACTCTTATAGAAGGTATATCACGAATAAAGAGATGTTCAGATGAAGGACGTGCCCTCATGTCATTGGATCTTCAGGTGTTAATCAATGGCTTGCAACATTTCGTTTCAGCGAACGTGAAACCTAAGTTGCAAATGGTCGATACCTTCATTAAGGCGTACTACCTCCCAGAAACTGAATATGTACACTGGGCACGATCTCACCCGGAATACAGTAAGAGCCAAATTATTGGTTTGGTTAACATGGTTGCATCGATGAAAGGGTGGAAGAGGAAAACTCGGTTGGAAATATTGGAGAAGATCGAGTGAGCCAATCATAATTTTGAATAAGTACGTACAAACAAAGCATTTGAATCACCCCACTTTTTTTGTCTTTCTACCTCCCATTGGTGTTCATTATAGGAAGAAATAATGTATGTTAAAAATATTGTAAACCATCTTAGTTCTTCAGTTTGTATAGTTATTATTAATATCTTATTTGAAGACCATAATTCTACAATCAAAGATTAAAAATGTAAATTCTGCAGACGAGTTGTTTATGGTAGTAAAACGAGCATATAAAGCTAGTTTTATTAAAAATTTCTCATATAATCTTCAAATACTATTTTGGTGAAGTACAATATTTTATTTATCC ATGAATAGGTCTAAAGCACATATTCAGTCCATGCTTCTGCAAACTAATGTGGCTGTAATTGAAGACTTCTACGTACATCTGTTGGATGCCGTCCCATACCTCATCGAGCATATTCATAAGAATACTGCAAGGCTGCTTCTTCATGTCAGTGGTTATGTTGATCGGATAGCCAATGCAAAATGGGAAGTAAAAGAGCTTGGACTAGAGCATAATGGGTATGTTGACTTGCTATTGGGAGAATTCAAGCATTATAAAACAAGGCTGGCTCATAGTGGAGTTCGTAAGGAGGTACAAGACCTTCTCTTGGAGTATGGACTGGATATTGTTGCAGAAACTCTTATAGAAGGTATATCACGAATAAAGAGATGTTCAGATGAAGGACGTGCCCTCATGTCATTGGATCTTCAGGTGTTAATCAATGGCTTGCAACATTTCGTTTCAGCGAACGTGAAACCTAAGTTGCAAATGGTCGATACCTTCATTAAGGCGTACTACCTCCCAGAAACTGAATATGTACACTGGGCACGATCTCACCCGGAATACAGTAAGAGCCAAATTATTGGTTTGGTTAACATGGTTGCATCGATGAAAGGGTGGAAGAGGAAAACTCGGTTGGAAATATTGGAGAAGATCGAGTGA MNRSKAHIQSMLLQTNVAVIEDFYVHLLDAVPYLIEHIHKNTARLLLHVSGYVDRIANAKWEVKELGLEHNGYVDLLLGEFKHYKTRLAHSGVRKEVQDLLLEYGLDIVAETLIEGISRIKRCSDEGRALMSLDLQVLINGLQHFVSANVKPKLQMVDTFIKAYYLPETEYVHWARSHPEYSKSQIIGLVNMVASMKGWKRKTRLEILEKIE*
BLAST of MELO3C004814 vs. Swiss-Prot
Match: VPS50_HUMAN (Syndetin OS=Homo sapiens GN=VPS50 PE=1 SV=3) HSP 1 Score: 119.0 bits (297), Expect = 6.3e-26 Identity = 69/210 (32.86%), Postives = 107/210 (50.95%), Query Frame = 1
BLAST of MELO3C004814 vs. Swiss-Prot
Match: VPS50_CHICK (Syndetin OS=Gallus gallus GN=VPS50 PE=2 SV=1) HSP 1 Score: 116.7 bits (291), Expect = 3.1e-25 Identity = 67/210 (31.90%), Postives = 106/210 (50.48%), Query Frame = 1
BLAST of MELO3C004814 vs. Swiss-Prot
Match: VPS50_MOUSE (Syndetin OS=Mus musculus GN=Vps50 PE=1 SV=2) HSP 1 Score: 116.3 bits (290), Expect = 4.1e-25 Identity = 67/210 (31.90%), Postives = 106/210 (50.48%), Query Frame = 1
BLAST of MELO3C004814 vs. Swiss-Prot
Match: VPS50_RAT (Syndetin OS=Rattus norvegicus GN=Vps50 PE=1 SV=1) HSP 1 Score: 114.8 bits (286), Expect = 1.2e-24 Identity = 66/210 (31.43%), Postives = 105/210 (50.00%), Query Frame = 1
BLAST of MELO3C004814 vs. TrEMBL
Match: A0A0B2QMI8_GLYSO (Coiled-coil domain-containing protein 132 OS=Glycine soja GN=glysoja_006572 PE=4 SV=1) HSP 1 Score: 381.3 bits (978), Expect = 7.5e-103 Identity = 177/212 (83.49%), Postives = 203/212 (95.75%), Query Frame = 1
BLAST of MELO3C004814 vs. TrEMBL
Match: I1LRA9_SOYBN (Uncharacterized protein OS=Glycine max GN=GLYMA_12G083200 PE=4 SV=2) HSP 1 Score: 381.3 bits (978), Expect = 7.5e-103 Identity = 177/212 (83.49%), Postives = 203/212 (95.75%), Query Frame = 1
BLAST of MELO3C004814 vs. TrEMBL
Match: V7AFI6_PHAVU (Uncharacterized protein OS=Phaseolus vulgaris GN=PHAVU_011G088000g PE=4 SV=1) HSP 1 Score: 379.8 bits (974), Expect = 2.2e-102 Identity = 176/212 (83.02%), Postives = 202/212 (95.28%), Query Frame = 1
BLAST of MELO3C004814 vs. TrEMBL
Match: I1LKX8_SOYBN (Uncharacterized protein OS=Glycine max GN=GLYMA_11G191100 PE=4 SV=2) HSP 1 Score: 379.4 bits (973), Expect = 2.9e-102 Identity = 175/212 (82.55%), Postives = 202/212 (95.28%), Query Frame = 1
BLAST of MELO3C004814 vs. TrEMBL
Match: A0A0B2RWB6_GLYSO (Coiled-coil domain-containing protein 132 OS=Glycine soja GN=glysoja_008240 PE=4 SV=1) HSP 1 Score: 378.3 bits (970), Expect = 6.4e-102 Identity = 174/212 (82.08%), Postives = 202/212 (95.28%), Query Frame = 1
BLAST of MELO3C004814 vs. TAIR10
Match: AT2G27900.1 (AT2G27900.1 Protein of unknown function DUF2451, C-terminal (InterPro:IPR019514), Vacuolar protein sorting-associated protein 54 (InterPro:IPR019515)) HSP 1 Score: 345.5 bits (885), Expect = 2.3e-95 Identity = 157/212 (74.06%), Postives = 193/212 (91.04%), Query Frame = 1
BLAST of MELO3C004814 vs. NCBI nr
Match: gi|659071825|ref|XP_008462106.1| (PREDICTED: coiled-coil domain-containing protein 132 isoform X1 [Cucumis melo]) HSP 1 Score: 423.7 bits (1088), Expect = 1.9e-115 Identity = 212/212 (100.00%), Postives = 212/212 (100.00%), Query Frame = 1
BLAST of MELO3C004814 vs. NCBI nr
Match: gi|659071827|ref|XP_008462112.1| (PREDICTED: coiled-coil domain-containing protein 132 isoform X2 [Cucumis melo]) HSP 1 Score: 423.7 bits (1088), Expect = 1.9e-115 Identity = 212/212 (100.00%), Postives = 212/212 (100.00%), Query Frame = 1
BLAST of MELO3C004814 vs. NCBI nr
Match: gi|778659342|ref|XP_011654226.1| (PREDICTED: coiled-coil domain-containing protein 132 isoform X1 [Cucumis sativus]) HSP 1 Score: 414.1 bits (1063), Expect = 1.5e-112 Identity = 206/212 (97.17%), Postives = 210/212 (99.06%), Query Frame = 1
BLAST of MELO3C004814 vs. NCBI nr
Match: gi|778659345|ref|XP_011654229.1| (PREDICTED: coiled-coil domain-containing protein 132 isoform X2 [Cucumis sativus]) HSP 1 Score: 414.1 bits (1063), Expect = 1.5e-112 Identity = 206/212 (97.17%), Postives = 210/212 (99.06%), Query Frame = 1
BLAST of MELO3C004814 vs. NCBI nr
Match: gi|1009114053|ref|XP_015873476.1| (PREDICTED: syndetin-like [Ziziphus jujuba]) HSP 1 Score: 382.5 bits (981), Expect = 4.9e-103 Identity = 179/212 (84.43%), Postives = 204/212 (96.23%), Query Frame = 1
The following BLAST results are available for this feature:
The following terms have been associated with this gene:
GO Assignments
This gene is annotated with the following GO terms.
This gene is associated with the following unigenes:
The following mRNA feature(s) are a part of this gene:
The following transcribed_cluster feature(s) are associated with this gene:
Analysis Name: InterPro Annotations of melon
Date Performed: 2016-09-28
The following gene(s) are orthologous to this gene:
The following gene(s) are paralogous to this gene: None The following block(s) are covering this gene: None |