ClCG11G000220 (gene) Watermelon (Charleston Gray)
The following sequences are available for this feature:
Legend: five_prime_UTRpolypeptideCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.AACTAGAAAGTTTGTTCTAAGATAGCTCAATAGTAAAGGAGGAGAAGCAAGAAATGGAGGGTGAAAAAGAAGTAGGAAATGCAAGATACACAATTATAATAAGTGGAGTGAGCAAAGGGTTGGGAAGAGCTTTAGCATTGGAGTTTGCAAAGCTTGGGCATATCATTGTTGGTTGTTCTCGCAACCAAACCAAATTGGATTCACTGCAGGATGAGCTTTCTATCATTTCTTCACTTAATCATTTGCTCCTCAATCTTGATGTGGTATGTAATTCCTCGTTATTCCCATGTCTCAAATTTAAATCGTTTAGATCTTATTTGGTAACTATTTGGTTTTTATAAGTTTTTAGTTTTTGAAAATTGTATTTGTTTTTCTCATGATTTCTTACTCGTGGTTTTCATAAGGAAATATTTGAATTCTTAGTCAATTTCCAAAGATAAGAAAAAGTTTTTAAAAACTACTTGTTTAAATGACAAAAATACCTTTTTGGTGAACATGTGCATTCTTTGATGTTTCAAATTTGTCATTTTAGTTCTCATGTTGAAAGATCTCAATACTAATGGAACTATTAAATTTAAATAAAAAAAAATCATAGATGTGCTGATACAACAAATTATTTTTTAATCGCTTGTAAAAAAACATTTTGAGTTGAGGGTCTTTTTATGTCCAATTGAATACTAGATAAAGGAGATGGACGAGAGAACAAATGAAAGAAGAGAACGAGAGCACAAAGAGAAGAGAACGAGAGGGAGGAAAGAGAGCATTAGGGAGAACAAGAGATGAGGGAGAAAGAGTTAAAACATAATAAAATAAATATTTTTTAGGGCAATGATTAGGTTAAGCCTTCACTACACCTATCTCTCTACATCCCCTTCATTTATCATATGATAAGAAAATACTAATTTAATTTTTTTAATTTTTAATTGGACAACTAGTAGGTCCGTAGAGTTTTTTTTTTTTTTTTTCTAATATAAATCTAGTAGTTCTTTTAGAAGGAGAGACCTTCCAAACCTATTCTTAAAAACTCAAAGACGATAAAGATATAATTTTTTTCTTTTTTAATCTCAAAATTTGGTTTAGATTTTGAAAACATTCCTAAAATATATGGAAGAAAACATAAAAACAACTAGATGAAAGTAATATTTATAGGCTTTTTAATTATCAAAAACAAAAAACTAAATATCATATTATTACGGGCTTAAATATAGATTTAGATACTACTTTAGCCTTTCTACTTTCAGTTTTGTTTCATTTTGGTCTTTGTATTTTTAAAATGTTTATTATAGTCCCTATACTTTCAACTTTAGTTTCTATACCTTTAAAAAATAATCATTTTAGTTTCTTTTAAAAGAAAATGAAATAAAAATAAAAATAAGAATAAAAATAAAAATAAAAATAAAAATAAAAATAAAAATAAAGGGACCAAGATATCAATATTTAGCCAATAAAATTTTTAATTACCCTTGAATATATTATTATTTTGTAGAGGTCAAATGATAGCGTTAAAGAGATGGCACAAATTGTGTCGCACAAAATGGGCTCTCCTCATATTATTGGTAATTAATGTCTGTTTTGATTTATAATTATCTTGTAATTATATGTTCTTTTTATCCCCTCAATTAATCAAGTAGTGACGTCATTTTATTTTATTTTATTTGGTATAGTTAATAATGCAGCCGTGATTAATGAAAACGTGAAGATGTGGGAGGGTTGTGTCAAGGAGTTTGATAATGTGATTGACACAAATATAAAAGGAACAGCAAATGTGCTACGTCATTTCATCCCTCTCATGATTTCTAACAATAATCAAGGCATTATTGTTAATATGTCTTCCATTTATGGAAGAACTGCAGGTCCTCTGGTATGTAAAACCTTTACTTTCCTCTATATGCATATATAAATTAAGAAGGTTCAAAATCAATTACAACTATGTAGGTTTTCTAATATTTTATTTAATTAAACAGATTGTTTTATGAGTTTTGAGAAATTGGCTTCAGAGTACAATGACAAACGTGTGACTGAAATTAAAAACCGTGTGATTGTAGATTTTCAATATCGGTCACCTTTAATATCAGACAAAACTCAAATATGAGAGTTGGTCATATAATCTTAGTAAGTGATCAAACCAGCAAGCTTAGTCTTCTACCTACTTATAAAAAACCCAAAATGGGTCACAAACAATAGGGTAGCCAGAAGTTGCACATTAGCCATATAAATCACTTTGGGATGACATAATAGAAATTTTAGGATAAAAAATTTCACCTCTAGCAAATAAATGATCCAAATTTGAAAATGAAAGTACATCTCAACCACCTTTTTGTCTGATAGGGAGATTCACCCACGAGGCTCACTAAATTTTGTTTATTGAGTAGATCTCACAATTCAACCATAGCTTCGATACCAATTGATAAGAATATCAAACCATCTACATAACTCTATCATGGTATAATATTGTCTATTTTGAACATATATAGACGCCCTTTATGGCTTTCCTTTTAGAATCATCTAAAAGGTCTCATGCCAAAATGTAGATAATTTACATTACTTCTATACCATGAATTTCTCATTTCCATAGCTAACGTAGAACTTTGTTTGTCCCTAACAATTGAAGACAATATACTAAAGTTCAACAAGTTTTCTATACAAACTACCTAGCCTATTGAAAACATTCGAAATTGTAGATAATGGTCCATAAAACTTTCTATATGAAACTGGGCTAAATTAAGAAAAAAAATACCTCTTTTACCATTATGAATTTGAATCCATCGGGATTTCAGCAACCAATCGTCGTACAATATTGCGGTATGATCAAAGTTTCACTTAGATAAGGAGAAAATCTATGGTATATTCAAAATAGACAATATGATACCATTGTAAAGATATATGTAGAGGGTCATTGTACCTAACATATATATGGCCTCTCACATCTTTAATTCTTAAAACATTTTTTCACAACTCCTTTCTTTCTGCCCCCCCCCCCCCCAAAAAAAAAGCTTAAAATTACCCCACTCAAAGATGCTAAATCCACACGAAACCTATATAACAATAACTCGCACCAAGATTTGGGAGAAAGGGAGAAAAAGAGCGATGGCAGCAGAAACCGCACACAAGTCTTAAGGTGCTCCTACGGCTTGCTCTTTTAGTCTGGTCTTGTCACTAGATCGAATCTACATGGAAGTACTTGCACTAGTGTAGTGTTGAGCCAAACATGATGCTTAAGTTAGTCAAGCAATATTTAGCCCAACTTAGAGAGTTAGAGTTTCTCCTTTAGAGTTACTTACCTTGAGGTTGTCAATATGGATCTACTCATAAGACCCTCCCTCCATCATCTACTTAGGTTACGTGTAAAGCTATTTGTGCCAAAATGGGTACAACTCTTGAGGTTGCAAGATGCCAGCGATAAACTCGGCTCAATTATTTATCTTGTGGTGAAACTTTACAAGCTAGACAGGTTGACGACCCAGATCCTAATGGTTTTACTTTCTCTTTTGGGATCGTGGATTCATAGACTATCCCTTATTTTTCTTTGGACTTGAGCCTACTCATGATCTTTAGACTTTGTCAAGGGCAACCCTTACAAGGAGGAAAGAGTAATAAATTTAAGCAATTCATTGCTTATGAGAAACTACTAATGGAACAAAGGTTTTGAGTAAAATATCTAATTTTGAAGACATCCACCTGAAAAATCTTTTGTGTTATATTGAAATGATTGTATTTTGTAGGTTTCAGCATATAGTACCTCAAAATGGGCTGTTGAAGGATTAAGCAAATCATTAGCAAAAGAGGTACCAAATGGAATAACAGTTGTGGCATTGGACCCTGGCATTATAAATACAGAGATGCTTGCTTGTCATATCGGAGATCATTCAGCTTCTCAATATCAAACTCCTCAAGAATGGTATCATTTATTTCCATACTTTGCATTTAAAGTGAAAATATTGGTGGATAATGAGTTTTTTTTTCCCTCTCTCTCCTCCTTCTTCTTCTTCCTGTTTTTTTTTTTTTTCAAATATAGCAAAATAAACCAAAATATTTACAAATATAGCAAAATTTTACTAAACTGTATATTTTGCTATTAGTTGTAAATATTTTTAACAATTTTATTGTTTAAAATAATTTTCCTAAACTTTCTTGCTTTATCTAGGGGAGGATATTATTTTATCACCCAAGCTTTTGATTTAATGGAAAACTATAGTTTAAAGATTTAAATTCTCTAAAAAATACAGTATTAAGAGAAGAGTTTCTCTAATCTAAAAAATACAGTATTAAGAGAAGAGTTTCTCTAGTAACATGGTAATATATTTTTTGCTTTAAGTTATTTTTTATGGGGAAAAAAAATTTCACTAGCTTTTTTTATTTAGTTTCCATCCCAATCTAGTGTTTTAAAATTTTACACTTAATTTAGTCGTTTAATTTTGATTTTTATTTCAATTTAGTCTAGAGGTTTGAAAATGCTGCAGGAACCAAATTGAAAGAAAAGACAAACATTAAGAGTAAACTTGTAATATTTTGAAATCTAAGAATTAAATCGAAATCAAACTCAAAACTTTAGAACTAGAAGGGTAACATTTTGAAACTTTAGAGATCAAATGGAAACTAGACTCAAAACCTAAGGACCGAAAGATATTTTTTCCTTTACTTTTCTATAACATAATTATTTCTTGTTTTTTTGCTTTGATTCTAGGAATTTCTAGTTTTGTGGTAAACTAAAATTTATTTACCTTTTAAAATGGAGCGGTGAATATTTGTTTTTTCTTTTTTCGACAATATATAGAGTTGGAGGATCGAAAATTTGATCTTGAGATTTATATTACTCGACCTATGCTGGCCGTGAACAGTGATATAGAGATACAATTAAAAAAAAAAAGAAAGTACAATATCACTTTTGAAAACACATGTTTTGAAGAAGTCATTCTTAAGCCGTTTGGACTTGAAATATTTTAGAATAATGGATGGTATTTAAAAAAAAAAAAAAAAAAAAAAAAAAAAAANTAACATAATTATTTCTTGTTTTTTTGCTTTGATTCTAGGAATTTCTAGTTTTGTGGTAAACTAAAATTTATTTACCTTTTAAAATGGAGCGGTGAATATTTGTTTTTTCTTTTTTCGACAATATATAGAGTTGGAGGATCGAAAATTTGATCTTGAGATTTATATTACTCGACCTATGCTGGCCGTGAACAGTGATATAGAGATACAATTAAAAAAAAAAAGAAAGTACAATATCACTTTTGAAAACACATGTTTTGAAGAAGTCATTCTTAAGCCGTTTGGACTTGAAATATTTTAGAATAATGGATGGTATTTAAAAAAAAAAAAAAAAAAAAAAAAAACAAATGGTATATGTTAGGAACTAATAAAGAATATGCTCAAATGACTCTTTCATCATGCTTTAATATATAATAGGAAGTTGTTTTCATGCTTGAAACACATAGCATAACACCATTAATTTTTATAAATTTTGTTAGGGCTACAAAGGCAGCTTCTATGATTCTCAACCTTTCAACTGCTGATAATGGTGCATCTCTCACTGTTGATGATCCTGGTATTCTAATTAGGTGAATTCTTATAATTTTATTAAGAAATCACTCTAAGTACTATTTGATCCTTTCCCATCTTTTTTCCTTGCGTTTGTTATGTGACTTCTATTACTTTTACGTCTATGTTACTATTGCACTATAAGGTGGAAAGTACTATTGATACTACATATTTTTACATTAAAACCGCCTTCCATATCTACCATTCTTTTCTAGCATGTCTCTTAATTAAGGATGAAATTTTTTGTTGATATGTCGATATATCCGTCAATATATTCATGAATCGAAGAGTTCAATATCCATATTAAATATGCATTGATATTTTCGATATCTTTTATAAATGCTCGTAAAACACAAAAAAAAAAAAATGTAATCTATTTAATCCAATATGAAATACTAATCACAATGTTCATAACATAGTTTTGGATTTTTAAACACAACTTAATTATTAAACTATATAAATTTTATAAATTTCTTTAGGAAAATTATTTTAAATGACAAAACTGCTGAAAATATTTACAACTAATAGCAAAATACATTTTCTATCGCGATCTATCGCGATTTATAGTAGATAGACAATGAAATTTTGCTATATTTGTAAATATTTTGGTTCATTTTGATATATTTGAAAAGAGCCCATTTCTTTACTTACAAAATTATCCGTCAATATTGATATTTTATCAATATATCTATTGATATATCCGTAAAATTGAAATCTCAACATCAACATCGACATTGACATTAAGATATTAATCATTGCTCTTAATTAGGGTATCATATTGTATATTTTCTCTTATCCGAATAACACATTATTGCACCTAGCTATTCGAATGGAGTTTTTGTTTCAAGTATATTAGTAGTATATCACATATCAATCAACTTTTAAGTATATCTGATACTTGAAGTGGCATGAGTGTACGTATCACCAATATATCTAATCTCAATTAACATTCCAAATGTATCACCATTATACCTAAGAGCAATCAACATTCAAAATCAATAACTTATTTTTAATTTAAGTATACTTGTTTCATTTTATTAAGCATGACTTTCCAAATGTATGAGCAATATATTAGATATGAGACATGAATGTATCAGACATCAATTAGTAAATACTTGAAGTAATCAATATTCAATCCGTAACTTTAGAATTTAAGCAATCATATATATGGTTCATTTTATAAGCATTCTAAGTGCATTAGCAATATATCATATATAAGATATGAGTGTATCAAAATCAATCAGTAAATACTTTGAAGTCAGATTGACAAACTGCTAATACGATGAGAAAATGGCTTGTGAAAGCAGGTGTAAATTATATAAAAAAAATGTTGTGTACACAAGTAGTCTTAATATAACCTAGTGGTTTAAACTCACACACTTGCTTTGTCCTTAGATTCATGTGTCGTTATCTAAACTCAATTGAACAAATGATGGACTAAATTAAAAATTTATTAAAAGTCGAAGTTAAACATTGAAAAGTTGAAGAACTAAAATGAAAAATAATTTATAGTTTACATAGTTATTATCTCACCCGTTTTTTAAAATTCAAATCTAAATTATTGCTTTTATCTTTCAAATCTTTAATCATCAATTTGTATTTTCTAAAAGGAATAATCAGATTTTTCTTTTTAAACTGTTTGTATTACAAATCTATAAATATTTATCTAATTAGATTTTTTTAGAAAAAGATAACTAGATTTTTCTTTTTGTTTTAATAATTAGATTGATTAGATTCGTTTTAAACAAGAGGGACAAGCTACAGGCGCATGAGCCGATTGTTATAGTCGACGGCTTGGGCTTGTTACTTGGTGCAGTTGATACGTTTATTATTTATTATTATTTATTATTTTATTTTATTGTTAGGTAGTTGATACGTTTATCTCTCAAAATCTATTAACCGATTTGTTAGATTAGAAGTGATTTTTTTTTTTCTTTTCTTTAAAAAGGGAAATTAGACCCACGATTTCAGTCTCCCTCACGCGCCCTCTTAATTTCTCGTTCACGGCTCCCACGCCGATTCGCGCCGCCGGTCACCGCCGACTCGCTCAGCCGCACAACACCATACGGGCCCTCTGCGCCTGACGTTCCTCCACAGTAAGCTCTCTCCTCCATTTTCTCTCTCTAATCCGAGCCCTGCACATCACGAAGCCGCGTTTCCGATCACTGTCTCCGATCACGAACGCCGCCACCTTTGACCGCGACGCACGCCGCTCCTGCCGCCGAAGACTTTCTTCTCCATCGTTGGATTTTTTTATTATTTTATTATTTTATTATTTTTTTTTTTTTTAAATTTTGTGTAATTTTTGGTGTTTTGTGGGGGTTTTTTTAGGCCTAAATATTGTCTTACCCGTGATCTTATGAAGGGAGCTGTTGTCAGAGCAAGCGTTTTGGTGAGTATCGAGACCTTGAAACTCTTTTGGAATTGTTAATAGTTGCTTGAATTGGTGTTTCTTATTTTTATATTGTCGATTTGAGTAAGTGCTTTATTTTCCATAATGCAAGTTTATTCTTTGAAATACAGTGATAAAACAAACAATGTATTTGTAATTCTTTTCTTTTTAGATTTGTTATAATTGTTTTTATAACCTAGTGTTTGTTTATTTTTATTTTTTAAGGGGTGATGTGGAAGAGAGAATACAAAAATATAAAATGTGTTTGTGTGTGCTATATATTAAATTGATTTTTTCTTTCACGTGTTATATTTTAGTTTTAGATTATTTTTGTAAGTTTAGAGGGTATGTGTATATATATACTATCTTATATGATTTAAGATCTTTTTAAAAAGTTTTGAATTGGTTGCTTTAATAAATAATCCGATTTAATTTTAGATAATATTGGTTCCGGCTTGGCTCTTGGTGCGGTTGATAGACAAAATATAAATTCTTCATTCAACAATGGTGAATAGAGTAACGAGGAAGAAGCATTACAGGCCTCCGGTAAGTTAGATTGTATTTTTCTTTTTTTTAGTACAACAATTGCAGAGATGGAGATCGAACCTCCCACCTCTTGGATGGAAGGTCGTGCTAATTACAGTCTAGCCAAACTCGTTTTGGCTAAGTTGAATTGTATTTCATACTGATAATAACTTAAGATTAAGATTGTTGAGCTGTTGTTTTTTCTGTTTGGGTGGATGGGTTTATTAGGGGAAGAAGAAGGAGGGTAATGCAGCAAGATATGTGACAAGGTCACAAGCCCTGAAGCACCTCCAACTTAGTTTGCCACTTTTTAGGTATCTTCCTCATCATTTGTATATCATTGATGCTTGAAACCAAATGCTATTCCTATTTTAGGACGAGTTTTGAACATGATATAAATTTGTGTCTGATGATTTTTGAAATATATATCTTGATTATTGAAAAAGAGCATTGTTGAGAAAATTGTTCAACTTTGATTATTATTCATAGGAAGCTATGCATTTTCAAGGGAATTTTCCCTAGAGAGCCAAAGAAGAAAGTTAAAGGAAATCACCACACTTATTACCATGTGAAAGATGTTGCTTTTCTTCATCATGAACCACTGTTGGAGAAATTTAGAGAGATTAAGGCATATGATAGGAAGATACACAAAGCTGATGCAAAGAAGAATAAGGAGCGTGCAAACTTTCTAAAACATCATAGGCCTACTGATGAATCAGAAAGAATGCGAATATTAAAGGAGAGGTTCGTGTATCTTTTGTTTTGTTTTCTAGTCCTAATGAATTCTTATCAATATTATTGAATGCTATGTTCCCGGCCTTCTAGGTATCCAAAATTCATGGATGCACTAAGAGATTTGGACGATTGCCTCTCAATGGTGCACCTTTTTGCGGCATTACCTGCACAACAGAGGGTAAAGGTTGAGGCAGAGCACATTCATAATTGTCAGAGGTTTGGTCTTTACTTTACTGGCTACAATAAATTTTTATAAACTATAATTCTATGTTGAACAAAATGACAACTTCAATAGCTCATCACATGTATTCTTTTTGTATCTTTTGTTAGGTTGAGTTGTGAATGGCAAGCATTTATTTCTCGAACTCATAAATTACGAAAAGTTTTCATATCCATGAAAGGCATTTATTATCAGGTATATTGTTGATTTATGTGATATCTAGTGTCATGTGAAGCATTTTATGTTCCTACCTTATTTTCTTAATTTTGTTGTTTCTATAGGCTGAGGTAGAAGGCCAAAAGATTACATGGCTTGCTCCTCATTCCTTTCGTCAGGTGATCGATGATGACTTAACCGTTATTCTTAACTTCACGGACTCTTATGAGGTAATATTTTGGGGGTCTATGTCTTCTTTTCAACTATTCTACAGTAAGTTTTTTATTCTTTTCATTGGCTGTCTAATTCATTGCTTAGTTTATGACCACGATCAGTTTTTGTAATAATTTATGTACTCTATTTTCTATATTTAGAAAAGCAAGCTAGCACAGTTCAACATTCACATAAAATCTTCTCTTTCTCTTGGGAACTAAACTTGCATAGAGAGGAACCAAAAAAAAAATAATAATAATAATAATAAAAAAATAAAATAAAAGAAAAAGAAAAAGAAAGAAAGAAAGAAAATAGAAAAAGATGAGCACGATAGTTATCAAAATCAACTATATTGATTAGGTAGGTTTCTAGTGGATGAGTGGTTCGTTTGAAGTGAGGTAAGTTTGTTAGTTGCAAATGTTGAAGTTTTAAAAATAGAAAGGGTTAGGAGACTTTAGGATGTAAATAGAACATCTTGGGAATGGATTTAGGTAGAGAACTAAACACCTTGATGCTTCATACATTTTTCCCCCTCTTCCAAGTGCAAAATACTTTAGTTCTGGTTAGGTTACCATCTAGCAAGGAAATACTCAAGAACAAACAGAAAACTCAAGAACACTCAAATATGGAAATATATGGAAATATGTGATAAGAAAAGTAACAAGATAATGCCTAGCCTTTTGAGAGGGCTAATCTCTACCAAATTTCCCATAGCTCCAACAAACTTACTACCCTATTACTAATACACCCCTTCTAATAAGCATACTAATATTCTACTAAGGATCTTAATGTATCTCTAACTAGAACTCTCACAATTTCTAATAGAGCATGAAAAGGACCTGAGCTAACAAAAAAGTGAGTGTTACAAGTAGTTCCCAAGCATGAATTCTTTAGAAAACTAATATCCTTGAATGCATGGCACTGGAAACAACAGTCAATAGTCCTAACCTTCCTGTTCCACTATAGCCAATGGCCCAATTGTCTACATGATAGATAAAAAAAACTTGTGTTGCAGTTTGTTAATGTATTGGCCCAATCATTATGCTATGGATATAATCAACAACTTGAGTATTATATTTGTTTAGGACTAATTGTTTGATTCTAATATTGTAACTATTATGGGTGCAGAAACTTCTAGGTTCTGTGAACAATCACTTATATAAATCGATTAATTTGAACTATCCACCGATTTTGGACCCTCATTTGGAAGCTTTGGATGCAGGTGATTTTAATATTTTAGATTGCTCTAATTTTAATTAGCTTAGATTTTACTGGCTTCATTGTTTCCTTTTTTTTTTTTCTCTAATTTTTGTGAATCTGCAGATCTTTATGCTTTGTATAGATACTTCGATGCCGATACTAGGTCTTCCCAGTTAGATCTTCAGACTTCTGGTTCTTCTAGATCTAGGCAAATAGATGAGCCAGTTGCATTGATGCATCTTGTTGGAGATACAACTTTTAAGTATGATGACAAGGATGAGGATAACGATACTAGAGAGTGTAAGAAACTTTTTAAGAACATGAAGTTCTTTTTAAGTCGTGAGGTAAGCTTATGTTCCATCTTATAAAATATGGTGGTTATGTTGTGTGCATTGTTACCAAAAATAGAGATGCTATTTTGAGATGGAACCGTTAAAATGAGGAACTCTTGAAAAGAAATCATATATGTGAGAATGTGATTGTTCTCTTCTCGTATTGTGTGTAAACTGTAAGTTTAGGACATCATACCACCAACAATTTTGGGCGAACAATCTTGGAAATTGATTTACATATGTGAGTTGTTCACACATGGTAGAACTTGACATCTTTTGATTAGTTTTTTTATGTCTCTACCACCATGGGCATTGGATATGGGATATTAGTTGTCTTAATTTTCCTCCTTTCTTTCTTTTGAAATCATATTGATCTGTCTTTTTGTGTTGATCTTATAATATTACTTTCTGTCGATGTTCTTCTTTGAACTTCCCTGCTCAGGTTTCTAGAGAATCACTGCTTTTCGTCATTCCTGCTTTTGGTGGCATTGTTTCTTGGGAAGGAGATGAGGCACCATTTAAGGAATCCGATGAAACCATTACTCATCAGGTTTTTCAATGTGACTTATATATGTATGTTATATCATAACACATGGCTTCCTGTAACATCTTTTCATTCTTCCTGACCTTCTCTAAACGCAGATTGTTGATAGGCCAACACTGACTCACAAGTTCCTTTCTAGAGACTATGTTCAGCCACAATGGGTTTTCGATTGTGTGAATACACGAATCATCTTGCCAACTGATGCTTATTTGGTGGGAAGGTACTTCCATGTTTTCAAATTTGGAGTATTCTAGTCTATCCAAATTTTCTTTTGAGGAATGTATTCAATTTTAGATGCCCTTTCAATAATACAAATAGTATATGTCTGGTTTTAACTCTTATTATTTGCTAGGGATCCTCCTCCACACTTGTCACCTTTTGTTGACAACGAGGCAGAAGGATACGCTCCTGATTATGCCGAGACCCTTAACCAGTTGAAGACTGCTGCCAAAATCAAAGTCCTGCCATTGCCAGGAGTAGGGAAAGAAAATCTGGATGATCCTCAGAATTTATTGGTTGAAGGTATAACTGAGGCTACTGTAGCTGCTGAGAAGAAAGAGAAGGTATACTTTTGATGAATAGTAGAGGTTGAAAATGGAGGCAATATCCTAATTTATTGTGGCATTGTATTTTCCTAATATAATGCAGATGATGGCTCTTGAGAAACAGTATCATGATGAGTTAAAATTGGAGCTTCAAGGAGCACAATATCCTTCAGCTATTTCAAAACTTGATAAGCAATCATCGGACGAGGATTCTGACCTCCCTGATTATCAGCAAATTGCTGAAGATAATGCTAACCTGTCAATGGTTTTGATGTCACGAAAGAAGAGAGGCCTTTTTAAAGCTATACAGGTTAATTTACTTGCTTTGTTGTTCTTTTGTGATATTGCTTCAAGTTTTCCATATGGTCTAGGAATAAACATGAACCATAATTAACGAATTCAAGTTTCTATATTTGAACTTCTTTTTCCCTTTATTCTTCTTGGTAAAAGTTCTTTGTTTAACCTTGCAATTAAACAAATGTTTTGACTTAGAAATTTCTGTTATTACCAGATTCATCAAAGAAGGAACAAGGATCGTAATAAACTTTTGGAGGATAGGAAGAGTAAGCTTCAAGAACCTCTCAACTCGTAAGCCAAGAGCAACAACAAATTTTTTCTTTCTTAATTTTTTGCAATATTATTTTTTTGGATATGGCCAATAAAGTTAGTTTGCTCGAAGCATGAGCTTTTCCTTTTGGTTTTTGGTGTTTCAACAAAAACCATTTTATTTGATTATTGTT AACTAGAAAGTTTGTTCTAAGATAGCTCAATAGTAAAGGAGGAGAAGCAAGAAATGGAGGGTGAAAAAGAAGTAGGAAATGCAAGATACACAATTATAATAAGTGGAGTGAGCAAAGGGTTGGGAAGAGCTTTAGCATTGGAGTTTGCAAAGCTTGGGCATATCATTGTTGGTTGTTCTCGCAACCAAACCAAATTGGATTCACTGCAGGATGAGCTTTCTATCATTTCTTCACTTAATCATTTGCTCCTCAATCTTGATGTGAGGTCAAATGATAGCGTTAAAGAGATGGCACAAATTGTGTCGCACAAAATGGGCTCTCCTCATATTATTGTTAATAATGCAGCCGTGATTAATGAAAACGTGAAGATGTGGGAGGGTTGTGTCAAGGAGTTTGATAATGTGATTGACACAAATATAAAAGGAACAGCAAATGTGCTACGTCATTTCATCCCTCTCATGATTTCTAACAATAATCAAGGCATTATTGTTAATATGTCTTCCATTTATGGAAGAACTGCAGGTCCTCTGGTTTCAGCATATAGTACCTCAAAATGGGCTGTTGAAGGATTAAGCAAATCATTAGCAAAAGAGGTACCAAATGGAATAACAGTTGTGGCATTGGACCCTGGCATTATAAATACAGAGATGCTTGCTTGTCATATCGGAGATCATTCAGCTTCTCAATATCAAACTCCTCAAGAATGGGCTACAAAGGCAGCTTCTATGATTCTCAACCTTTCAACTGCTGATAATGGTGCATCTCTCACTGTTGATGATCCTGGGAAATTAGACCCACGATTTCAGTCTCCCTCACGCGCCCTCTTAATTTCTCGTTCACGGCTCCCACGCCGATTCGCGCCGCCGGTCACCGCCGACTCGCTCAGCCGCACAACACCATACGGGCCCTCTGCGCCTGACGTTCCTCCACAGCCTAAATATTGTCTTACCCGTGATCTTATGAAGGGAGCTGTTGTCAGAGCAAGCGTTTTGGGGAAGAAGAAGGAGGGTAATGCAGCAAGATATGTGACAAGGTCACAAGCCCTGAAGCACCTCCAACTTAGTTTGCCACTTTTTAGGAAGCTATGCATTTTCAAGGGAATTTTCCCTAGAGAGCCAAAGAAGAAAGTTAAAGGAAATCACCACACTTATTACCATGTGAAAGATGTTGCTTTTCTTCATCATGAACCACTGTTGGAGAAATTTAGAGAGATTAAGGCATATGATAGGAAGATACACAAAGCTGATGCAAAGAAGAATAAGGAGCGTGCAAACTTTCTAAAACATCATAGGCCTACTGATGAATCAGAAAGAATGCGAATATTAAAGGAGAGGTATCCAAAATTCATGGATGCACTAAGAGATTTGGACGATTGCCTCTCAATGGTGCACCTTTTTGCGGCATTACCTGCACAACAGAGGGTAAAGGTTGAGGCAGAGCACATTCATAATTGTCAGAGGTTGAGTTGTGAATGGCAAGCATTTATTTCTCGAACTCATAAATTACGAAAAGTTTTCATATCCATGAAAGGCATTTATTATCAGGCTGAGGTAGAAGGCCAAAAGATTACATGGCTTGCTCCTCATTCCTTTCGTCAGGTGATCGATGATGACTTAACCGTTATTCTTAACTTCACGGACTCTTATGAGAAACTTCTAGGTTCTGTGAACAATCACTTATATAAATCGATTAATTTGAACTATCCACCGATTTTGGACCCTCATTTGGAAGCTTTGGATGCAGATCTTTATGCTTTGTATAGATACTTCGATGCCGATACTAGGTCTTCCCAGTTAGATCTTCAGACTTCTGGTTCTTCTAGATCTAGGCAAATAGATGAGCCAGTTGCATTGATGCATCTTGTTGGAGATACAACTTTTAAGTATGATGACAAGGATGAGGATAACGATACTAGAGAGTGTAAGAAACTTTTTAAGAACATGAAGTTCTTTTTAAGTCGTGAGGTTTCTAGAGAATCACTGCTTTTCGTCATTCCTGCTTTTGGTGGCATTGTTTCTTGGGAAGGAGATGAGGCACCATTTAAGGAATCCGATGAAACCATTACTCATCAGATTGTTGATAGGCCAACACTGACTCACAAGTTCCTTTCTAGAGACTATGTTCAGCCACAATGGGTTTTCGATTGTGTGAATACACGAATCATCTTGCCAACTGATGCTTATTTGGTGGGAAGGGATCCTCCTCCACACTTGTCACCTTTTGTTGACAACGAGGCAGAAGGATACGCTCCTGATTATGCCGAGACCCTTAACCAGTTGAAGACTGCTGCCAAAATCAAAGTCCTGCCATTGCCAGGAGTAGGGAAAGAAAATCTGGATGATCCTCAGAATTTATTGGTTGAAGGTATAACTGAGGCTACTGTAGCTGCTGAGAAGAAAGAGAAGATGATGGCTCTTGAGAAACAGTATCATGATGAGTTAAAATTGGAGCTTCAAGGAGCACAATATCCTTCAGCTATTTCAAAACTTGATAAGCAATCATCGGACGAGGATTCTGACCTCCCTGATTATCAGCAAATTGCTGAAGATAATGCTAACCTGTCAATGGTTTTGATGTCACGAAAGAAGAGAGGCCTTTTTAAAGCTATACAGATTCATCAAAGAAGGAACAAGGATCGTAATAAACTTTTGGAGGATAGGAAGAGTAAGCTTCAAGAACCTCTCAACTCGTAAGCCAAGAGCAACAACAAATTTTTTCTTTCTTAATTTTTTGCAATATTATTTTTTTGGATATGGCCAATAAAGTTAGTTTGCTCGAAGCATGAGCTTTTCCTTTTGGTTTTTGGTGTTTCAACAAAAACCATTTTATTTGATTATTGTT ATGGAGGGTGAAAAAGAAGTAGGAAATGCAAGATACACAATTATAATAAGTGGAGTGAGCAAAGGGTTGGGAAGAGCTTTAGCATTGGAGTTTGCAAAGCTTGGGCATATCATTGTTGGTTGTTCTCGCAACCAAACCAAATTGGATTCACTGCAGGATGAGCTTTCTATCATTTCTTCACTTAATCATTTGCTCCTCAATCTTGATGTGAGGTCAAATGATAGCGTTAAAGAGATGGCACAAATTGTGTCGCACAAAATGGGCTCTCCTCATATTATTGTTAATAATGCAGCCGTGATTAATGAAAACGTGAAGATGTGGGAGGGTTGTGTCAAGGAGTTTGATAATGTGATTGACACAAATATAAAAGGAACAGCAAATGTGCTACGTCATTTCATCCCTCTCATGATTTCTAACAATAATCAAGGCATTATTGTTAATATGTCTTCCATTTATGGAAGAACTGCAGGTCCTCTGGTTTCAGCATATAGTACCTCAAAATGGGCTGTTGAAGGATTAAGCAAATCATTAGCAAAAGAGGTACCAAATGGAATAACAGTTGTGGCATTGGACCCTGGCATTATAAATACAGAGATGCTTGCTTGTCATATCGGAGATCATTCAGCTTCTCAATATCAAACTCCTCAAGAATGGGCTACAAAGGCAGCTTCTATGATTCTCAACCTTTCAACTGCTGATAATGGTGCATCTCTCACTGTTGATGATCCTGGGAAATTAGACCCACGATTTCAGTCTCCCTCACGCGCCCTCTTAATTTCTCGTTCACGGCTCCCACGCCGATTCGCGCCGCCGGTCACCGCCGACTCGCTCAGCCGCACAACACCATACGGGCCCTCTGCGCCTGACGTTCCTCCACAGCCTAAATATTGTCTTACCCGTGATCTTATGAAGGGAGCTGTTGTCAGAGCAAGCGTTTTGGGGAAGAAGAAGGAGGGTAATGCAGCAAGATATGTGACAAGGTCACAAGCCCTGAAGCACCTCCAACTTAGTTTGCCACTTTTTAGGAAGCTATGCATTTTCAAGGGAATTTTCCCTAGAGAGCCAAAGAAGAAAGTTAAAGGAAATCACCACACTTATTACCATGTGAAAGATGTTGCTTTTCTTCATCATGAACCACTGTTGGAGAAATTTAGAGAGATTAAGGCATATGATAGGAAGATACACAAAGCTGATGCAAAGAAGAATAAGGAGCGTGCAAACTTTCTAAAACATCATAGGCCTACTGATGAATCAGAAAGAATGCGAATATTAAAGGAGAGGTATCCAAAATTCATGGATGCACTAAGAGATTTGGACGATTGCCTCTCAATGGTGCACCTTTTTGCGGCATTACCTGCACAACAGAGGGTAAAGGTTGAGGCAGAGCACATTCATAATTGTCAGAGGTTGAGTTGTGAATGGCAAGCATTTATTTCTCGAACTCATAAATTACGAAAAGTTTTCATATCCATGAAAGGCATTTATTATCAGGCTGAGGTAGAAGGCCAAAAGATTACATGGCTTGCTCCTCATTCCTTTCGTCAGGTGATCGATGATGACTTAACCGTTATTCTTAACTTCACGGACTCTTATGAGAAACTTCTAGGTTCTGTGAACAATCACTTATATAAATCGATTAATTTGAACTATCCACCGATTTTGGACCCTCATTTGGAAGCTTTGGATGCAGATCTTTATGCTTTGTATAGATACTTCGATGCCGATACTAGGTCTTCCCAGTTAGATCTTCAGACTTCTGGTTCTTCTAGATCTAGGCAAATAGATGAGCCAGTTGCATTGATGCATCTTGTTGGAGATACAACTTTTAAGTATGATGACAAGGATGAGGATAACGATACTAGAGAGTGTAAGAAACTTTTTAAGAACATGAAGTTCTTTTTAAGTCGTGAGGTTTCTAGAGAATCACTGCTTTTCGTCATTCCTGCTTTTGGTGGCATTGTTTCTTGGGAAGGAGATGAGGCACCATTTAAGGAATCCGATGAAACCATTACTCATCAGATTGTTGATAGGCCAACACTGACTCACAAGTTCCTTTCTAGAGACTATGTTCAGCCACAATGGGTTTTCGATTGTGTGAATACACGAATCATCTTGCCAACTGATGCTTATTTGGTGGGAAGGGATCCTCCTCCACACTTGTCACCTTTTGTTGACAACGAGGCAGAAGGATACGCTCCTGATTATGCCGAGACCCTTAACCAGTTGAAGACTGCTGCCAAAATCAAAGTCCTGCCATTGCCAGGAGTAGGGAAAGAAAATCTGGATGATCCTCAGAATTTATTGGTTGAAGGTATAACTGAGGCTACTGTAGCTGCTGAGAAGAAAGAGAAGATGATGGCTCTTGAGAAACAGTATCATGATGAGTTAAAATTGGAGCTTCAAGGAGCACAATATCCTTCAGCTATTTCAAAACTTGATAAGCAATCATCGGACGAGGATTCTGACCTCCCTGATTATCAGCAAATTGCTGAAGATAATGCTAACCTGTCAATGGTTTTGATGTCACGAAAGAAGAGAGGCCTTTTTAAAGCTATACAGATTCATCAAAGAAGGAACAAGGATCGTAATAAACTTTTGGAGGATAGGAAGAGTAAGCTTCAAGAACCTCTCAACTCGTAA MEGEKEVGNARYTIIISGVSKGLGRALALEFAKLGHIIVGCSRNQTKLDSLQDELSIISSLNHLLLNLDVRSNDSVKEMAQIVSHKMGSPHIIVNNAAVINENVKMWEGCVKEFDNVIDTNIKGTANVLRHFIPLMISNNNQGIIVNMSSIYGRTAGPLVSAYSTSKWAVEGLSKSLAKEVPNGITVVALDPGIINTEMLACHIGDHSASQYQTPQEWATKAASMILNLSTADNGASLTVDDPGKLDPRFQSPSRALLISRSRLPRRFAPPVTADSLSRTTPYGPSAPDVPPQPKYCLTRDLMKGAVVRASVLGKKKEGNAARYVTRSQALKHLQLSLPLFRKLCIFKGIFPREPKKKVKGNHHTYYHVKDVAFLHHEPLLEKFREIKAYDRKIHKADAKKNKERANFLKHHRPTDESERMRILKERYPKFMDALRDLDDCLSMVHLFAALPAQQRVKVEAEHIHNCQRLSCEWQAFISRTHKLRKVFISMKGIYYQAEVEGQKITWLAPHSFRQVIDDDLTVILNFTDSYEKLLGSVNNHLYKSINLNYPPILDPHLEALDADLYALYRYFDADTRSSQLDLQTSGSSRSRQIDEPVALMHLVGDTTFKYDDKDEDNDTRECKKLFKNMKFFLSREVSRESLLFVIPAFGGIVSWEGDEAPFKESDETITHQIVDRPTLTHKFLSRDYVQPQWVFDCVNTRIILPTDAYLVGRDPPPHLSPFVDNEAEGYAPDYAETLNQLKTAAKIKVLPLPGVGKENLDDPQNLLVEGITEATVAAEKKEKMMALEKQYHDELKLELQGAQYPSAISKLDKQSSDEDSDLPDYQQIAEDNANLSMVLMSRKKRGLFKAIQIHQRRNKDRNKLLEDRKSKLQEPLNS
BLAST of ClCG11G000220 vs. Swiss-Prot
Match: PESC_MOUSE (Pescadillo homolog OS=Mus musculus GN=Pes1 PE=1 SV=1) HSP 1 Score: 366.3 bits (939), Expect = 9.3e-100 Identity = 231/582 (39.69%), Postives = 332/582 (57.04%), Query Frame = 1
BLAST of ClCG11G000220 vs. Swiss-Prot
Match: PESC_RAT (Pescadillo homolog OS=Rattus norvegicus GN=Pes1 PE=2 SV=1) HSP 1 Score: 364.0 bits (933), Expect = 4.6e-99 Identity = 230/591 (38.92%), Postives = 333/591 (56.35%), Query Frame = 1
BLAST of ClCG11G000220 vs. Swiss-Prot
Match: PESC_SCHPO (Pescadillo homolog OS=Schizosaccharomyces pombe (strain 972 / ATCC 24843) GN=ppp1 PE=3 SV=1) HSP 1 Score: 348.6 bits (893), Expect = 2.0e-94 Identity = 228/621 (36.71%), Postives = 331/621 (53.30%), Query Frame = 1
BLAST of ClCG11G000220 vs. Swiss-Prot
Match: PESC_NEMVE (Pescadillo homolog OS=Nematostella vectensis GN=v1g194255 PE=3 SV=1) HSP 1 Score: 347.8 bits (891), Expect = 3.4e-94 Identity = 208/515 (40.39%), Postives = 294/515 (57.09%), Query Frame = 1
BLAST of ClCG11G000220 vs. Swiss-Prot
Match: PESC_DANRE (Pescadillo OS=Danio rerio GN=pes PE=2 SV=2) HSP 1 Score: 342.0 bits (876), Expect = 1.9e-92 Identity = 219/578 (37.89%), Postives = 320/578 (55.36%), Query Frame = 1
BLAST of ClCG11G000220 vs. TrEMBL
Match: A0A0A0LV49_CUCSA (Pescadillo homolog OS=Cucumis sativus GN=Csa_1G132100 PE=3 SV=1) HSP 1 Score: 835.9 bits (2158), Expect = 4.6e-239 Identity = 424/591 (71.74%), Postives = 484/591 (81.90%), Query Frame = 1
BLAST of ClCG11G000220 vs. TrEMBL
Match: D7TWJ6_VITVI (Pescadillo homolog OS=Vitis vinifera GN=VIT_14s0066g00640 PE=3 SV=1) HSP 1 Score: 746.5 bits (1926), Expect = 3.7e-212 Identity = 378/596 (63.42%), Postives = 459/596 (77.01%), Query Frame = 1
BLAST of ClCG11G000220 vs. TrEMBL
Match: A5AJM2_VITVI (Pescadillo homolog OS=Vitis vinifera GN=VITISV_035385 PE=3 SV=1) HSP 1 Score: 734.9 bits (1896), Expect = 1.1e-208 Identity = 377/610 (61.80%), Postives = 458/610 (75.08%), Query Frame = 1
BLAST of ClCG11G000220 vs. TrEMBL
Match: W9SBC6_9ROSA (Pescadillo homolog OS=Morus notabilis GN=L484_020558 PE=3 SV=1) HSP 1 Score: 733.4 bits (1892), Expect = 3.2e-208 Identity = 373/585 (63.76%), Postives = 456/585 (77.95%), Query Frame = 1
BLAST of ClCG11G000220 vs. TrEMBL
Match: M5XAS1_PRUPE (Pescadillo homolog OS=Prunus persica GN=PRUPE_ppa003129mg PE=3 SV=1) HSP 1 Score: 728.0 bits (1878), Expect = 1.4e-206 Identity = 367/596 (61.58%), Postives = 460/596 (77.18%), Query Frame = 1
BLAST of ClCG11G000220 vs. TAIR10
Match: AT5G14520.1 (AT5G14520.1 pescadillo-related) HSP 1 Score: 686.8 bits (1771), Expect = 1.8e-197 Identity = 347/585 (59.32%), Postives = 434/585 (74.19%), Query Frame = 1
BLAST of ClCG11G000220 vs. TAIR10
Match: AT1G10310.1 (AT1G10310.1 NAD(P)-binding Rossmann-fold superfamily protein) HSP 1 Score: 276.6 bits (706), Expect = 5.5e-74 Identity = 144/231 (62.34%), Postives = 174/231 (75.32%), Query Frame = 1
BLAST of ClCG11G000220 vs. TAIR10
Match: AT5G10050.1 (AT5G10050.1 NAD(P)-binding Rossmann-fold superfamily protein) HSP 1 Score: 85.1 bits (209), Expect = 2.3e-16 Identity = 60/196 (30.61%), Postives = 102/196 (52.04%), Query Frame = 1
BLAST of ClCG11G000220 vs. TAIR10
Match: AT3G55310.1 (AT3G55310.1 NAD(P)-binding Rossmann-fold superfamily protein) HSP 1 Score: 83.2 bits (204), Expect = 8.9e-16 Identity = 61/192 (31.77%), Postives = 105/192 (54.69%), Query Frame = 1
BLAST of ClCG11G000220 vs. TAIR10
Match: AT3G55290.1 (AT3G55290.1 NAD(P)-binding Rossmann-fold superfamily protein) HSP 1 Score: 82.0 bits (201), Expect = 2.0e-15 Identity = 58/191 (30.37%), Postives = 99/191 (51.83%), Query Frame = 1
BLAST of ClCG11G000220 vs. NCBI nr
Match: gi|449443367|ref|XP_004139449.1| (PREDICTED: pescadillo homolog [Cucumis sativus]) HSP 1 Score: 835.9 bits (2158), Expect = 6.6e-239 Identity = 424/591 (71.74%), Postives = 484/591 (81.90%), Query Frame = 1
BLAST of ClCG11G000220 vs. NCBI nr
Match: gi|659071907|ref|XP_008462522.1| (PREDICTED: pescadillo homolog [Cucumis melo]) HSP 1 Score: 829.3 bits (2141), Expect = 6.2e-237 Identity = 419/587 (71.38%), Postives = 481/587 (81.94%), Query Frame = 1
BLAST of ClCG11G000220 vs. NCBI nr
Match: gi|225452352|ref|XP_002274778.1| (PREDICTED: pescadillo homolog isoform X1 [Vitis vinifera]) HSP 1 Score: 746.5 bits (1926), Expect = 5.3e-212 Identity = 378/596 (63.42%), Postives = 459/596 (77.01%), Query Frame = 1
BLAST of ClCG11G000220 vs. NCBI nr
Match: gi|1009124903|ref|XP_015879321.1| (PREDICTED: pescadillo homolog [Ziziphus jujuba]) HSP 1 Score: 746.1 bits (1925), Expect = 6.9e-212 Identity = 374/600 (62.33%), Postives = 459/600 (76.50%), Query Frame = 1
BLAST of ClCG11G000220 vs. NCBI nr
Match: gi|147852204|emb|CAN80148.1| (hypothetical protein VITISV_035385 [Vitis vinifera]) HSP 1 Score: 734.9 bits (1896), Expect = 1.6e-208 Identity = 377/610 (61.80%), Postives = 458/610 (75.08%), 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.
The following mRNA feature(s) are a part of this gene:
Analysis Name: InterPro Annotations of watermelon (Charleston Gray)
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:
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