Cla97C05G079910 (gene) Watermelon (97103) v2
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.ATGGGTAATTGTTTTTCGAACGACGTCGTTGGCCGGTCTGCCATTGGTGGTACTGCCTTCTCCCAAAGTACTACTTCCAACGTTGCCATAGATTGTTTCTTGTTGTCTCGGGGCTATCGGGGCCTCTATTCCCAGATCGAGGTTCTCTTCCCTTTTCTGTTTACACCTGCTTCATTCAATTATTTGGCTGTACCATTTCTGTTCCTTCATTTTTTTGGTGCCTCTAACCTTTCTACTTTGTTGTTGTTCCCGATCGGGTTCTATTCTCTTATGGGGTATACATTTTAGATTTGCTGGACATGTAGTCATGGCTTTTTCCTCTGTTGTTGCTTATTCTTAACTTCATAAAATTTATGGCCATCTAACTCGTTTCATCCTCCTATTTCTTCTCCTCTTCTAATCACAGCTTTCATTCTCTGCATCTAACTTGCGTGACGGTGATATGTTCTCCAAGGTCGGTATCTCTTTGATGGACGTTGAAAGACTGTACATCTTGATAATGATTTTCATGCAAGATATAGGCTTTTATTTCCTTTGAAATAATAACATTCATATATTAGGCATCCTTATACCGGAGTTTACAAGGTTGTACTTAGATGTTTCATTGCTAGACTGAGTGAAAAGATAGAATCAAGTCGCTGAGTTACTTCCATTTTTGGAGCTCTTAGTGATTGAGGATAATTAATATATATTTACTTGTTGGGAAGTCACATTTTTTGCAAGTTTGGTTTACTTTGGATTAATTAATGGTAGTGTCAATACCCGATACCATTCTTTCCTCAAAGAACTCATTGTAAGTTTTATTTTCCTCAGAGTGATCCAATGGTGGTTATCTACACAAAAGGAAGGGACGGAACACTAGAAGAGCTTCACCGTACAGAAGTAGTTCAAAATTCCTTAAATCCAAAATGGATCCATAAGCTTAACATTACCTATCAATTTGAGGTTGTGCAAACTTTGGTGTAAGTTTAAATGGTCATTTTGCCATCTCTAGTTCATCAGATGTACATCTTACTGGTGCTGTGATAATCAAACCATTAATATGTTATGGCAGGTTTTTTGTATATGACGTGGATACTCAATATCAAAACCTAGGAGTAAAGGTAGGCATCCATGAGAATTTGCATGGTTGCATATCCTTGCCGAATAAAGTTAAATTTTGCCTGCAGATCTGTTATTAACCACATACATAGTAGATCCAGTATTACCAATACCCTCAAGAGTGAAGACTGATATGTAATATTTGGTTCAGTTTTTTTCCCCCCTCATCTTCTTTTCCCTACTGGATAATGGACATCAATCCTTAACTATGTTGACTTGTTGTTGGTTTCAATTCAAACAGTTATTATAAAAGTGTTATACTCGCTACATCGTAATTATATACCACAAAATTTTGCTAACAATGGATATTCTAAATCATGCAGATGCTGAAGCTAGATGAGCAGCAATATCTCGGTGAGGCAACTTGTGTACTATCTGAGGTATTGCATGTAGTTTAAAATGCATATTCTATCATGCTGAGTATTCACTTGCATATGATTTGAATGCTATATGCTGAATGTGGCTATTGTATATTTAGTATGCTTTCCATTGCAATACAGATGGATAAAATTTGCAATCCAAGGTGAATTTTGTAGTTTATGTATTCAGATTTATTTTCATCACTAGCCTTTTCTATCTTGCAGATAGTTACCCAATCAGACAGGTCACTTACATTGGATCTTGTATATAGAGAAGAGTCAACCAGCTCTACTCTGCCACACCACTGTGGAAAACTTACTGTTCATGCTGAGGAGTGTGTTAGCTCAAAGACCACAACAGAGATGATATTAAGGTGTTCAGACTTGGAACACAAGGATCTCTTCTCAAGAATTGTATGCAGTGCCGAGATGTTAATTCATTTTCTTTTGGTATCTGTAAAAGGAATGTGATTTATGTTTGTTGCATTTCTGATTCTTGGTATAGGACCCTTTTCTGGTTATTTCAAAAATTGTGGAGAGTAAGAGCTCAATTCCAGTTTGCAAAACAGAAGTCATAAAGAATGATTTGAATCCCACATGGAAGCCTGTATTCTTGAATATGCAACAAGTTGGAAGCAAGGTACAAACCCCCCCCCCCCCCCTCCCACCCCACCACACACACCAAAGTAAGCACGGGCCATCATGCTAATCATTGTCATGAATTTAGTTTTCATGGACCGTTATAAATCACATTATATGTTTTTGTGCTTTTGTATTTCATCTTTCCTTGCAATTCATTTTTTTGTAAGTTGTTGTCTATAGTGTTTTGAAAGGCCCAAATAGATGGCACCTCGCCTCAAAGAAGTGAGGCATGAGGAAGAAACTGCGCGCCTTGTAGCACCTTCCAAGAAGTGCAGAGGCGTTCTTAAGCACCCCTATAAGGGCTTGATTAGAAAAAAGGAAATCTTAAAATGTAGAGTTGCTTGTAATTTAGGGTTATTAAATATATATATATAATTGGTTAAACCTAATTCCAACTTTTGCATCATTATACGTTTGGCACTACATTACACCACATTTATAAGTTTTAGGTCGATTCTTCTTCAAAAAATAGAGGAATATGAAACAATATTCTCGATTCTTCTTCTTCTTCACCTCTGCACTACACACCCCTCTTCGATTATTCTTCAAAAAACAGAGGAATGGCAAATGACATTCTTCTTCACCTCTCATCATCAATTCTTGTTGAAAAAAACAGAGGAATATCAAAATTATTATTCCCCAATCCTGGCCTATTCTTCTTCTTCTTCACCTCAATGCCTCCAACACCACTAGCATTTCATCAAATTTTATTTTTTTTATTTTTTTTTAAAAAAAAGTAATGTAGTGCACGTATGACTTGTCCAGCTTTGATTTTTCTTCAGAAAAACAGAGATGAAGACTCCAAAACAGCAACCTCCATCTCTTCTTTGTTGCCAGCCACCATTATTTTGCTGCCACATTGGAGTCTCTATTCTGTCTTAAAAAAACAAAGGTCTACAAAACAAAGAAGACTCTCCAAAACAGCAGCCTTCATCTCTTCTTCTTTACTGCCAGCCAACATTATTTTGCTACCACATCGGGATCTCTGTTTTGTCTTATAAAAACAGAGACCTTCAAAACAACCAAATATTTTTATTTGGAATTCAGAAGTCTGGTATGTCCCAACCCACTCTGGAAATAGTCGATCTTTCCCTCTATGTTATGCCTTCTCTTTAGTCAATTCTCTATGCCAAATATATTTATTTGATCCTTATTCATCATTTTGTTGATCACTTTCTTAAGTTAGTTACTAACTAGTCCAAGTTTCTAACAATTGTTACTTGCAATTTGTGTTACATATATGGTTGAGGACAGTTTATGAAAAGATCAGGGTTAAAGGGGGTTAAAGGATCTCATCAAAGTTTTTCAGGAGTTTCTCGAAAGGGGCATCTTAAACAATTCCATTTCTGAGACGTTTGTCTACTTGATTCTAAAGGAGAATGTGACTAGGGTTAATGATCTTAAATTGATTAGTCTTGATTACGAGTGTATAAAATCCTGACGAAAGTTTTGGCTAATCAGCTTAAGAGGGTGCTCCCAACAACTATTTCGATTCTCAAGGGGCATTTGTGGTTGGCAAACAAATCCTTGATCAAGCGCTCATCGCTAATGAGGCGGTTGAGGATTACAAATCTAGGAAGAAGGAAGGAGTTCTTCGATTTGCTAATGATACTTTATTCTTTTGCTCTAGGAAGGATAGCTTATTCTTGTTACCAAATCATGTTGCTTTCTTTGAAGAGATGTCGGGGTTGAAGATTAATAAAGGGAAGTGTTGTATTATGGGAATTAATTGTGAGGAGGATAAGCTTAAAAGATGGGTCGATCTAGTTGGGTGTGTGGTTGGTAGTCTTCCCTCATCTTACCTTGGTCTCCCTCCTGGAAGTTATCCTAAGTCTACTGCCCTTTAGGACCCTATGGTTGTAAAAGTTCGAAATAGGCTAGCTTCATGGAAGAAAGGTGATGTATACTCCAAGAATTCAAAGAGAGATCTTTTTTATTAATGAATAGAAACGAAAGCATGAATGCCTATTTATACAAGGTAGCTGGACACCTAGGTAACCGGTCATCTAAATGAAGTATAACCAGTTAAATGAAGATAATTGTCTCTTCTTTACAGCCATCTAATAAAGGAATAAAAACTACACTAATTTACCAACAAACAATAGAAGTATTCAATAAAGGAAGATTGTTACAACTTCTACATCAACTCTATCCACCCCAGAAAATCAAACTCGTCTTTGAGTTTGGTTCAGTGAGCTCAAATTGATCTAGAGAATGGTAATGATAGATATTTGAAACATTGAAATGTTGAGCTAATCTTCATTGTTGGTGGTAGATCAATGCGGTAGGCATTTGGACCCAATTTCTCTAGGATAGGAAAAGGTCCTATCTTTTTGTTAGTGAGCTTAGACTGATGATCGGTTGGTAATCTACTTTTCTTCAAATGTAGCATAACTAGGTCTCCTATTTTGAAGTTAGCAGGTCTTCTGTGTTCATATGCTTTAGATTTGTAAGAGGCAGTGGAATTCTCTAAGTGTTGGTGAACTTCATGTATTTTCTTCACTCTATTAGCCATTATACTTGCTTCAACACTTAGATCAACAGAAATATGTAAGTTGGCAAGATCTAATGTTAGTATCGGGACTTGTGTATAGACAATTTCAAAGGGGCATTTCCCAGTGGAACGGTAGATAATGTTATAGAAGGCAAATTCTGCTTGAGCAAGTGTTATATCCCATTGACGGGGTTTGTCTCCATTTAGGCAACATAGGAGATTTCCAAGTGTGCGTTCGGTAACCTTTGTTTGTCCATCCATTTGTGGATGACTTGTTGAGTTGAATAGGAAACTGGTGTTGAATTTTTTCCATAAGGATCACCAAAAATAACTCCTGAACTTGACATCATGATCAGAAACTATGCTTTTAGAAATGTGCCATTTTGCCAAATCTATCCATAACTACTAAGACGTCATATCCTTGTTGAGTTCTCGGTAAACCAAGGACAAAATCCATTGAAAGGTCTTCCCAAATGTTGTTAGGTATGGGTAGGGGAGAGTAAAGCCCTTGATTTGAGCTAGAGCCGTTAGAAGTTTGACATATAAAGCATCTTTAACAAAATTAGCAACATCGTTTTTCAATTGAGGCCAATAGAATTTAGAAGAAAGTAATGCTAAGGTCTTATCTCTACCAAAGTGTCATGCTAGTCCACTTGAATGGCCTCTTTTAAAAGTGATTCTCTAAGTGAAGTGTGTGGAATGCATAGTGTCATTTATAAAAAGAAAGTCGTAAAAAATCTAAAAATCTTTAGCTGGAAGATAGTGTGTACAGTTGTACCAAATATCTTTAAAATCGGGGTCACTAGGGTATAATTCTTTTAAGTGATTAAAAGCTGTAATTTCACCTTTGAGTAAAGTTAAAAGTGTACCTTTGCGACTTAGGGCATCTACAACTTTATTGACATTACTTGGCGTATGTTTGATTACAGTCACCATCGAGCATGCATGCGGCTAATAGATTTTTGAGATTGCAGAAATTGTAAGGAAAAATGATCAGTTAATAATATGAATTATTTGCCAAGAAGACAATGTTCCCATTGCTTTAAGGCTTGAACTAAGGAGTAAAGTTCTTGCTCATAAGTGGACTATTTTTGTCTAGGGATGCTTAGTTTTTCACTAAAAAAAACTCAGTAGGATGTTTAGTTTGACCAAGGACAACTCCTATTCCTACACCAGAAGCATCTATAGACACTTCAAAAGGTTGTTGGAAGTTAGGAAAACCTAGGACTAGGGTTGTGCTTAGAGCTTTTTTGAGTTCTGCAAAACTTGTAGTTTGTTCTTCATCCCAAGACAAAGGTGTGTTATTTTGTAAGCAAGAAGGTAAGGGGCCGGCAATGGTACTAAAATTTCTTATGAATTTTCTGTAAAATGAAGCTAAGCCAAGGAAGCTTTGAATTTCTTTAATTGATTTAGGTTGGGGCCAATCTAGAATGACTTATCTTTTCTTAGGGTCTACACTAACTCCTTTAGAACGGATGAGAAATCCTAAAAATACAATTGAATTTGAAGAAAAGAACATTTCTTCAGATTTATGTACAAAGCATTTTCTTTTAGAATAGTAAAAATAGTGTGCAAATGCTCAAGGTGTGCTCCATAAGTAGAATTGTAAATCTAAATGAGAATATCATCGAAGTAGACTACAACAAGTTTATTTAAATAAGGTAATAAAATTTGGTTCATTAAGCACATAAAGGTGCTTGGAGCATTTAAAAGGTGGGGCATAACCAACCATTCAAAAAGGCTTTCATTTGTTTTAAAATCTGTTTTCCAATCATCTCCAGGCCAGATTCTAATTTGGTGGTATCCACTTCTTAGATCTATCTTAGAAAAAATTGAAGCTCCCCCTAATTGGTCTAGCAAATATGATAAGCGCGGGATAGGGAACCTCTATTTAATAGCAATTTTGTTAATTGCCCCACTATCAACACACAATTGCCATGAGCCATCCTTTTGAGGTGCAAGTAAAGCAGGCACGATGCATGAATTAAGGCTAGGTTGGATGTGGCCTTTATCTAGACTATGTATTTGCGTGTGCAAAGCTTCATATTCTTTTGGACTCATCCTAAAATGGGGCAAATTAGGTAAGGTACTATCGGGCATCAAGTCTGTGGTGTTGGATATTTCTTAGGAGAGGTAAAATGTTTGGTTCTTCTAAGAGGGAGGGGAATTCCTTAAGTAGATTAGAAATATGTCGATCTAACATTTCCTTATTAGGTGATTCAATGGGATCTTGTTTAACTACAAAAGCTAGAAGAGGTTGTTCCTTTGAATAAAAAAGATCTTTACCCTGAGATAATAGGAAAAGTTGTTTTTTAGAAGAAGGTACCTTACTTAAAGTAGTTTGCTTATCGAGGGGAAGGAGGATGACTTTCTTACCCAAAATTTGTATGTATTGTCCCGACCATTGTGAATGGCTTTGTTGTCATGGTTGTCCCAAAAGAACGTGGCACACATCCATCTCGAGGACATCACATACAATTTGATCGTGGTATAAGTTGCCTATTGATAAAGGCATTGTGCAAATTTCCTTGACAGTCGTAGCTCCTTTTTTTTGTAATCCAATTTACCTTGTATGGATTTGGATGTGGTTCAGCTGTTAAATTTATGGCAGAAACAAACTTCTTGGAGACTATATTTTCTGTGTTCCCACTATCGATGATCACTAGACATACTCTCCCATTGATTGTGCATCGAGTATGGAAGAGGGCATGTTGTTGGGGATGACTTGCAGACTTAGGAGTTAGTAATACTTGCTAGAGCACGCATGAGAGTTGGTCACCATTATCTGGCTGAATATAAGCAAGGTCATCAATGTTATCTTCATCAAAGGTCTCTTTTTCATGGATTGCCGGAGTTCTTTGTTGGGGGCACTCATGGGAGAGGTGTCCCTGTTGCCCACATCGAAAACACTTACCCAAGGTTGCTCGTTGATAAGGATTTGGGTTTCTTCTAGGAGTGTTGTTTTCAGCTCCTTTGTTGTTCGGTGGTTTTGGGGGGACTTCTTCTTTCTTGCTTTGTTGGTTTGCCCCTATTTGATTCATGGATATTCTTCTATATGGTTGTTGCTGACGCTTCCCCAGTTGCCTTCTTTGAAAAGTCTTTAAAGGTTTGGGATCGGTGTTCTCTTCAATTGTAGTAATTAAGGCAATTGCATCTGCCAAATATGCTACTGGATGTAATATGACAACTTCTTTGATCTCTTCTCGAAGGCCAAGAACAAATCTTGAAACCAACTGTTGCTCTATTTTTGGTAGGTATTTTCGAGCACCTAGGCGATGAAATTCTTCTACATATTCAAAGATAGTTCGGTCCCCTTGCTTGCAAAGTTGGTACTAGTTGTATAGTCTTTGCTGGTAGTTTAATAGAAGGAACCTTTTCTTTATCATCTTCAAAAGTTTCAGATAAGATTTTATTGGAGGTTTCCCATAGTATCTTCTATTAGTTTCTAGTTGCTCCCACCAAGCCATTGCTCCTCTCTGAAACTTGAAAGCCACTAATTTGACTTCTTTTTCATGAGTAAAGTTGGCATATTCAAAGAAGTTTTGAGCTTTCAAAGCCCAATCCAAAAATTCTTCAACGTCCAAATGGCCATCAAAACTAGGAAGATCGATCTTCATCTTGTATTCGGTATTGTCTTGATGAAATTGGTGTCTTCCTCAATGCATACCCAATCTTTCTTGGACTCCACAGTAATATTCTTCTCCTTCACTTGAGGAATCAGAGTCTTGCATCATATAGTCTCCTCCATGGATTTCTTGAGGTCGAAATCTTGCTTGATATAGGTTTCTTGTAGCTGAATTCTTGCTGGTTTTTGTTTTGTTCACGCCCAGATCTTCAGGTTCTTAAATTCGGATTCCACCCTTGTTCTGTAGGTCAGTATGCTCTTGATATCCTTCACCGTATCGAATGTTCATATGGCGTAGACTTGGGCTAGCATGGAACGAATTTCTCCAATTTCCCCATTCATCTAGACAACAAACTTCTCCATTGATGTCAAATGGGTTTCCACGGTCTTGCTTGATGAGGATGCTTCCGCGTCCATGATGTTTGAGATCCAAAAGGAATGCACGTTGGATCGATGCTTTGATACCGCTTGATGTATGCTCCAAGAATTCAAAGAGAGATCTTTTATTAATGAATAGAAATGAAGGCATGAAGGCCTATTTATACAAGTAAGGTGACTGGACACCTAAGTAACCAGTCATCTAAATGAAGTAACCGGTTAAATGAAGGTAATTGTGTCTTCTTTATAGTCGGCTAATAAAGGAATAAAGACTACTAATTTAACCACTAATAATGAAAGTATTCAATAAAGGAAGATTGTTACAACTGCTACATCAAAATGTTCCTTTTTTCTAAAGTTGGTAGACTTACTCTGATCAATTCTATCTTAAATGGTATTCCTATGTATTTATTTTCCCTCTTTAGGGCTCCTTGTGGGTGTGGAAGAGTTTGGAGAAGCTGATGCTCGACTTCCTCCGGTAAGGGTTGGAAGAAGGAAAAAGGAAAAGGTTACCATTTGGTTAGGTGGGAGATCATTGAGAGTCTGCGATCCTTGGGGTGTCTTGGGATTGGGAATCTTTGGATGCGTAATAAAACTTTGCTAGCCAAATGGCTCTGGCACTTTTTCTCTGTGCCTAATACTATGTGGCATAAGATCATTGTTAGCAAACATGGCCTTAGGGGGTTAAGGGTACTTATTGTAATTTATGGAAAAACATTTTGAAAGAGCTCCCTTCTTTTGTTCATCTGGTCTGTTGTGTCGTTGGGGAGAGGAAAAATACGTATTTCTGGAAGAGAGACCCTTTTGTGGTTTGTTTCCTCACTTGTATTACTTGTCGTCTCTTAAAAACCATTTTGTTACCAATTTCTTGTGTGGTTTGGGAGCTCTTGTTCTTTTCCCTTTCAGTTTCATTGCACTCTTTTCGATAGGGAAGTGAAGGACATGACTGGAACAACGTCTTGTTGGTGGTTATAGAACTACCACTACCGGTAGAAAATGTTTGAATCGTGTGAAGGAAGAAATTAAAGTCGGTATGTCCTAGAAAAAGGAGATTAAAGAACAAAGAAATTTGATTGTGGACATTGATGTGGAAGATTATAGTACAAAGGTCAAGGATAGGGATGAAGTGTGTGTAAGCAATTTGAATAAAAGAGCAACACCTAGTTCAAAGAAGCCAAGTCAAAAGGGTTCAATGGATGCATATTTTACACCTAACTCGGAAATTGGAGTTCAAAATCGAAAGAATGGAAAAGGAAAGAGAAAAAAAACAATGATGAATGAAGCATTCAAAAAGAAGATGAGGGAACACACCATCCAAAGAATTGTTCAATGGTTTTATGATACTGGATTGCTTCTAAATACTTGCACTTATGAAAGTTTTGCCCTTATGGTTGAGGCAATAAAGCAATTCGGTCTTGATTGAAAACACCATCGTATCATGAATTGAGAGTGTTGTATTTGAAAAAGGAATTAGAAGCCACACATGAGTTGATGAATTGAGAGTGTTGTGTTTGAAAAAGGAATTAGAAGCCACACATGAGTTGATGAAGAGTCATAAGACGGAGTGGACCAAGGTTGGATGAACTATTATGGTTGATGGATGGATAGAGGGAAGAAATAGGACATTAATTAACTCCTTAGTTAATAATCCAAAAATCACAATGTTTATTGATTCTATTAATGCCTCATCTTATGTGAAGGATGGAAAGAAAATGTTTGAGTTACTTGATAATTTTGTAGATCGCATTGGAGAAGCCAATGTTGTACAAGTTGTTACTGATAGTACCTCGATAAATGTTATGGCCTAATAATGCAAAGTGCTTAGTTTTTTTTAAATTTCCTAGTCTCACACTCATTCTTACTGTCTTACACATTTAAGAGGTGTACATACGTTCTTACTTTACTTTGTTAATAGGGAGATTATTAGAAGCAAAACAACTCCAATTAATTTGGTCACCATGTGACACATTGCTTAGACTTGATGTTGGAGGATATATACGAGATCCCACATTTTGCAAAACATTGAAAAGAGGCATGAAGATTGGTAATTTCACTTATGTTCGTCCTAGATTGTTAAACATGATGAGATGATTTACTAATCAAAAGGAGTTGGTAGACCAGCTAAGACTCGCTTTGCTACATCTTGGATAACGTTATCAAGTATACATCGTCAGAAGAACAACTTGAGAAAGATGTATACTTCATATGAATGGAAGAACAACAAATGGAGCAAGGAGCAACAAGGAAAATGAGTTCAAACTATTTTGTTGACATCTTTTTAGAATACAATTGTGTTTTCTTCTAAAGTATTACGCCTTCTAGTGCGAGTACTTAGTTGGTGGACAACGAGAAGAAGCCTTCTATAGGGTATATTTATGACGCCATGGATAAAGCTAAGGCGACCATTGCCAAATCCTTTAATTTTAAGGAAGAGAAGTAAGGATATTTTTACAATCATTAATCGAAGATGGAAGCTTTAGCCTTGCATGCACGGGATATTATTTAAATTGAGGATTATATTATTCAAATCCTAGCACTCAAGTTGATAATGAATTTGCTAATGGGTTGTACACATGTATAATAAAAATACTTTGGACATTCAAGATAAGATACTTGGAGCGCTAACCAAATACAAGAAACCAAAGGACTATTTGGATAGTCTCTAGCAATTAGACAGAGAGACAAAATATCTCCAAGGATATGATGAGGTTGCTTACGTCATTGGAGTGTTTTGAACAAGTTAGCTATCTTCTCCTCAAGTATCTTGAGAATTGAGTTTCATAGTTTGACTTTGAATGACAATGAAACTTCTGTTATTTATACTTGCAAGAAACGAAATAAACTTGCTCAAAGTCGTCTGAATGATTTAGTATTCATAAAATATAATAGACACTGGTTGTCTAGAAGTTCGAGAATTGGTGTGTCATGTGCTTTACAACCCAAGAGTCATATTGGTAGATGTAGATCGAATTTTCTCATTGTGAGTGCAGATCATCCTTTTTTCTAGGAATCTAAGGTTTGAACAATAGAGAGCGTCTGATTTTCTGCTTTCTTGTTTATTTGTGTATTTAATTGCAGGACAGCCCTTTAATAATAGAATGTTTTAACTTCAACAGCAATGGGAAGCACGAATTGATTGGGTAAGTGAGAGATTACGTTTCTTGTGCATTTTTTTCCCTCAATTTTCCATTAGTTTGAGTACATGTATTTCATTGTGACTTTTTCTGTTTATTTGATGATCAGAAAAGTTCAAAAAACACTTGTGGAGTTGGAGAAGCTTTCTTTTAGTGGGGAGGGAGATAATCTGTTCTTACATCCTTCTGCTGGACATGATTACCATAACAAAGTCTAAAATAGAACTCCTAATGATCTCCTCCTTTTTTTTTATTTATTTATTTTTTTTAATTCATGGTTTTTACTGTCGATTTTATTTATGAGTTTTGATCCCACTGCAGGTACTTAAGAGCCAGCTATTTGTGGACAAATTCTCTGAGAGCATCCAACAAACATTCCTTGATTACTTGGCTGGTGGCTATGAAATGAACTTCATGGTGGCTGTTGATTTCACAGGTTATTATTTATTAGTATTCTTTTACAATAAAATCATAATTCTAGACTACTACAAATTTTTATTTCCAAATTTTTAGTTACCGAGTTTGTCAGATGGCTCACTGCTCACTGACAGTAGTGTTTTTCTAAAGCATACTTTTTCAACATGTATATCAAGTAGTCATCTTGGTTTTTAGCTGTTTGTTTGCGTTAGAATTTAACTCACCACTTCCCCCCTCTGCTGGCTGAACTGAACTAGCTGTTGCATGTAGCTTAGTGCTACATTCTCACCATCTAGTTTCCATGGTTGTCTTTCAGCTTCAAATGGAAACCCTCGCCTTCGTGATTCCTTGCATTTCATTGATCCTTCAGGACGGCCAAATTCGTACCAGCGAGTGAGAAATGGACCCCTGATATGAAGCTCACAAATTTTTAGTTTCCTATTTGATTGGGAATCTACTCTATTGACTATTTCAGGCAATCATAGAAGTTGGGGAGGTGTTGCAGTTCTATGACTCAGATAAACGCTTTCCTGCTTGGGGATTTGGAGCACGACCGATTGATGGTCCAGTCTCTCATTGTTTCAACCTGAATGGAAGTAGTCACTACTGCGAGGTGGAACGGTTGCATAATACAAATTCACTTTCTGTTCCCCTGGATATTAATTTTGCCAAATTCAACGTGCTTCTGTGTTAAACAATTGTAAGTTATCTTTTAGGTTGAAGGAACTCAAGGAATTTTGATGGCATATACAAGTGCGCTCCATAATGTGTCTCTTGCAGGACCAACTCTTTTTGGGCCTGTGATTAACAATGCTGCATTAATTGCCAGTCAGTCTCTTGCAAATGGTGGGCGGAAGTACTTTGTTTTGCTAATAATCACTGTAAGAGCAAACAACCACCTACCAGTTATTTTGGACGATAAATTTGTAGCAATTGCAATTTGCCCTTTTTTGTGCATGCTTGGTGCATTATGAATAACATCTTGTCCTAGTTTGCCCATTATTACTTGTCATGATGCCATGTTACGTATATTTATTTTTCCGGAAATATTGAAAAATCCCACTGTATAAGCATCAAGGTTTTGTGATTTTGTTTCTGATGATGCTCATTATCTGTAGGATGGAGTGGTAACAGATCTACAAGAAACTAAAGATGCTCTTGTGAAGGCATCTGATCTGCCATTGTCCATTCTCATTGTTGGAGTGGGTGGAGCCGACTTTAAAGAAATGGAGGTATCTAATTTACTTATTATGCCCCTTGTCAAATGATATATGTACAACATTCAACACCATTGGTTGCTAACAGCTTCATGGTGTGAAGAAGCCTTACTAGCTCGGAGTTCACTTGTTTCTATTAATTTTGGTTGTTTTTGGAGATCACAGTTGTTTTGTTCATCTTACCTGCTTTTATTTCTCAACTAAGAAAATGTTCAGGCTTAGTGTAAGTTAGATCAGTTTTGTTTTGTTATATGTTTAAATGTATTTTTGAATACCCAAAGACCTTAAATCAGAGTTCCAACTTTCCTGATAATTATGATGGATTGTTAGATCTCTTTTTGAATTCCCCATTATATTTCTCAACTAAGAAAATGTTCAGGCTTAGCGTAAGTTAGAATCGGTTTTGTTTTGTTATACATTTAAATGTATTTTTGTATACCCAAAGACCTTAAATCAGAGTTACAATCTTCCTGATAATTATAATGGATTGTTAGGTCTCTTTTGGAATTCCCCATAATACTTCTCAACTAAGAAAATGTTCCGGCTTAGCATAAGTTAGATTGGTTTTGTTTTGCTATACGTTTAAATGTATTTTTGAATACCCAAAGACCTTAAATCAGAGTTACAATCTCCCTGATAATTATAATGGATTGTTAGGTCTCTTTTCGAATTCCCATTATATCAGAGATAATTCTATTATAACTCTGCAGGTTTTAGATGCAGACAAGGGAGAGAGACTTGAAAGTACAACTGGACGTGTTGCTTCACGAGATATAGTCCAGTTTGTTGCATTTCGAGATGTACAGGGTGAGTGATTCTCTGATGAAATTTGGATCCAACTATGATATGAAATATGGTGAACTCCCGTCATGCTTGTATCTAACACATTACTTATAGATGGAGGGATTTCTATGGTTCAAGCATTGCTAGCAGAAATACCTCATCAATTTCTGACCTATGTTCGAAGCAGAGATGTTCAACCACATTCATGA ATGGGTAATTGTTTTTCGAACGACGTCGTTGGCCGGTCTGCCATTGGTGGTACTGCCTTCTCCCAAAGTACTACTTCCAACGTTGCCATAGATTGTTTCTTGTTGTCTCGGGGCTATCGGGGCCTCTATTCCCAGATCGAGCTTTCATTCTCTGCATCTAACTTGCGTGACGGTGATATGTTCTCCAAGAGTGATCCAATGGTGGTTATCTACACAAAAGGAAGGGACGGAACACTAGAAGAGCTTCACCGTACAGAAGTAGTTCAAAATTCCTTAAATCCAAAATGGATCCATAAGCTTAACATTACCTATCAATTTGAGGTTGTGCAAACTTTGGTGTTTTTTGTATATGACGTGGATACTCAATATCAAAACCTAGGAGTAAAGATGCTGAAGCTAGATGAGCAGCAATATCTCGGTGAGGCAACTTGTGTACTATCTGAGATAGTTACCCAATCAGACAGGTCACTTACATTGGATCTTGTATATAGAGAAGAGTCAACCAGCTCTACTCTGCCACACCACTGTGGAAAACTTACTGTTCATGCTGAGGAGTGTGTTAGCTCAAAGACCACAACAGAGATGATATTAAGGTGTTCAGACTTGGAACACAAGGATCTCTTCTCAAGAATTGACCCTTTTCTGGTTATTTCAAAAATTGTGGAGAGTAAGAGCTCAATTCCAGTTTGCAAAACAGAAGTCATAAAGAATGATTTGAATCCCACATGGAAGCCTGTATTCTTGAATATGCAACAAGTTGGAAGCAAGGACAGCCCTTTAATAATAGAATGTTTTAACTTCAACAGCAATGGGAAGCACGAATTGATTGGAAAAGTTCAAAAAACACTTGTGGAGTTGGAGAAGCTTTCTTTTAGTGGGGAGGGAGATAATCTGTTCTTACATCCTTCTGCTGGACATGATTACCATAACAAAGTACTTAAGAGCCAGCTATTTGTGGACAAATTCTCTGAGAGCATCCAACAAACATTCCTTGATTACTTGGCTGGTGGCTATGAAATGAACTTCATGGTGGCTGTTGATTTCACAGCTTCAAATGGAAACCCTCGCCTTCGTGATTCCTTGCATTTCATTGATCCTTCAGGACGGCCAAATTCGTACCAGCGAGCAATCATAGAAGTTGGGGAGGTGTTGCAGTTCTATGACTCAGATAAACGCTTTCCTGCTTGGGGATTTGGAGCACGACCGATTGATGGTCCAGTCTCTCATTGTTTCAACCTGAATGGAAGTAGTCACTACTGCGAGGTTGAAGGAACTCAAGGAATTTTGATGGCATATACAAGTGCGCTCCATAATGTGTCTCTTGCAGGACCAACTCTTTTTGGGCCTGTGATTAACAATGCTGCATTAATTGCCAGTCAGTCTCTTGCAAATGGTGGGCGGAAGTACTTTGTTTTGCTAATAATCACTGATGGAGTGGTAACAGATCTACAAGAAACTAAAGATGCTCTTGTGAAGGCATCTGATCTGCCATTGTCCATTCTCATTGTTGGAGTGGGTGGAGCCGACTTTAAAGAAATGGAGGTTTTAGATGCAGACAAGGGAGAGAGACTTGAAAGTACAACTGGACGTGTTGCTTCACGAGATATAGTCCAGTTTGTTGCATTTCGAGATGTACAGGATGGAGGGATTTCTATGGTTCAAGCATTGCTAGCAGAAATACCTCATCAATTTCTGACCTATGTTCGAAGCAGAGATGTTCAACCACATTCATGA ATGGGTAATTGTTTTTCGAACGACGTCGTTGGCCGGTCTGCCATTGGTGGTACTGCCTTCTCCCAAAGTACTACTTCCAACGTTGCCATAGATTGTTTCTTGTTGTCTCGGGGCTATCGGGGCCTCTATTCCCAGATCGAGCTTTCATTCTCTGCATCTAACTTGCGTGACGGTGATATGTTCTCCAAGAGTGATCCAATGGTGGTTATCTACACAAAAGGAAGGGACGGAACACTAGAAGAGCTTCACCGTACAGAAGTAGTTCAAAATTCCTTAAATCCAAAATGGATCCATAAGCTTAACATTACCTATCAATTTGAGGTTGTGCAAACTTTGGTGTTTTTTGTATATGACGTGGATACTCAATATCAAAACCTAGGAGTAAAGATGCTGAAGCTAGATGAGCAGCAATATCTCGGTGAGGCAACTTGTGTACTATCTGAGATAGTTACCCAATCAGACAGGTCACTTACATTGGATCTTGTATATAGAGAAGAGTCAACCAGCTCTACTCTGCCACACCACTGTGGAAAACTTACTGTTCATGCTGAGGAGTGTGTTAGCTCAAAGACCACAACAGAGATGATATTAAGGTGTTCAGACTTGGAACACAAGGATCTCTTCTCAAGAATTGACCCTTTTCTGGTTATTTCAAAAATTGTGGAGAGTAAGAGCTCAATTCCAGTTTGCAAAACAGAAGTCATAAAGAATGATTTGAATCCCACATGGAAGCCTGTATTCTTGAATATGCAACAAGTTGGAAGCAAGGACAGCCCTTTAATAATAGAATGTTTTAACTTCAACAGCAATGGGAAGCACGAATTGATTGGAAAAGTTCAAAAAACACTTGTGGAGTTGGAGAAGCTTTCTTTTAGTGGGGAGGGAGATAATCTGTTCTTACATCCTTCTGCTGGACATGATTACCATAACAAAGTACTTAAGAGCCAGCTATTTGTGGACAAATTCTCTGAGAGCATCCAACAAACATTCCTTGATTACTTGGCTGGTGGCTATGAAATGAACTTCATGGTGGCTGTTGATTTCACAGCTTCAAATGGAAACCCTCGCCTTCGTGATTCCTTGCATTTCATTGATCCTTCAGGACGGCCAAATTCGTACCAGCGAGCAATCATAGAAGTTGGGGAGGTGTTGCAGTTCTATGACTCAGATAAACGCTTTCCTGCTTGGGGATTTGGAGCACGACCGATTGATGGTCCAGTCTCTCATTGTTTCAACCTGAATGGAAGTAGTCACTACTGCGAGGTTGAAGGAACTCAAGGAATTTTGATGGCATATACAAGTGCGCTCCATAATGTGTCTCTTGCAGGACCAACTCTTTTTGGGCCTGTGATTAACAATGCTGCATTAATTGCCAGTCAGTCTCTTGCAAATGGTGGGCGGAAGTACTTTGTTTTGCTAATAATCACTGATGGAGTGGTAACAGATCTACAAGAAACTAAAGATGCTCTTGTGAAGGCATCTGATCTGCCATTGTCCATTCTCATTGTTGGAGTGGGTGGAGCCGACTTTAAAGAAATGGAGGTTTTAGATGCAGACAAGGGAGAGAGACTTGAAAGTACAACTGGACGTGTTGCTTCACGAGATATAGTCCAGTTTGTTGCATTTCGAGATGTACAGGATGGAGGGATTTCTATGGTTCAAGCATTGCTAGCAGAAATACCTCATCAATTTCTGACCTATGTTCGAAGCAGAGATGTTCAACCACATTCATGA MGNCFSNDVVGRSAIGGTAFSQSTTSNVAIDCFLLSRGYRGLYSQIELSFSASNLRDGDMFSKSDPMVVIYTKGRDGTLEELHRTEVVQNSLNPKWIHKLNITYQFEVVQTLVFFVYDVDTQYQNLGVKMLKLDEQQYLGEATCVLSEIVTQSDRSLTLDLVYREESTSSTLPHHCGKLTVHAEECVSSKTTTEMILRCSDLEHKDLFSRIDPFLVISKIVESKSSIPVCKTEVIKNDLNPTWKPVFLNMQQVGSKDSPLIIECFNFNSNGKHELIGKVQKTLVELEKLSFSGEGDNLFLHPSAGHDYHNKVLKSQLFVDKFSESIQQTFLDYLAGGYEMNFMVAVDFTASNGNPRLRDSLHFIDPSGRPNSYQRAIIEVGEVLQFYDSDKRFPAWGFGARPIDGPVSHCFNLNGSSHYCEVEGTQGILMAYTSALHNVSLAGPTLFGPVINNAALIASQSLANGGRKYFVLLIITDGVVTDLQETKDALVKASDLPLSILIVGVGGADFKEMEVLDADKGERLESTTGRVASRDIVQFVAFRDVQDGGISMVQALLAEIPHQFLTYVRSRDVQPHS
BLAST of Cla97C05G079910 vs. NCBI nr
Match: XP_022134974.1 (protein BONZAI 1-like [Momordica charantia]) HSP 1 Score: 1087.0 bits (2810), Expect = 0.0e+00 Identity = 542/577 (93.93%), Postives = 559/577 (96.88%), Query Frame = 0
BLAST of Cla97C05G079910 vs. NCBI nr
Match: XP_008437742.1 (PREDICTED: protein BONZAI 1-like isoform X1 [Cucumis melo] >XP_016899031.1 PREDICTED: protein BONZAI 1-like isoform X1 [Cucumis melo] >XP_016899032.1 PREDICTED: protein BONZAI 1-like isoform X1 [Cucumis melo] >XP_016899033.1 PREDICTED: protein BONZAI 1-like isoform X1 [Cucumis melo] >XP_016899034.1 PREDICTED: protein BONZAI 1-like isoform X1 [Cucumis melo]) HSP 1 Score: 1085.5 bits (2806), Expect = 0.0e+00 Identity = 543/577 (94.11%), Postives = 561/577 (97.23%), Query Frame = 0
BLAST of Cla97C05G079910 vs. NCBI nr
Match: XP_011650609.1 (PREDICTED: protein BONZAI 1-like [Cucumis sativus] >XP_011650610.1 PREDICTED: protein BONZAI 1-like [Cucumis sativus] >XP_011650611.1 PREDICTED: protein BONZAI 1-like [Cucumis sativus] >KGN56325.1 hypothetical protein Csa_3G116620 [Cucumis sativus]) HSP 1 Score: 1077.8 bits (2786), Expect = 0.0e+00 Identity = 542/577 (93.93%), Postives = 556/577 (96.36%), Query Frame = 0
BLAST of Cla97C05G079910 vs. NCBI nr
Match: XP_022987255.1 (protein BONZAI 1-like isoform X1 [Cucurbita maxima]) HSP 1 Score: 1075.5 bits (2780), Expect = 0.0e+00 Identity = 537/577 (93.07%), Postives = 554/577 (96.01%), Query Frame = 0
BLAST of Cla97C05G079910 vs. NCBI nr
Match: XP_023516224.1 (protein BONZAI 1-like isoform X1 [Cucurbita pepo subsp. pepo]) HSP 1 Score: 1074.7 bits (2778), Expect = 1.7e-310 Identity = 536/577 (92.89%), Postives = 555/577 (96.19%), Query Frame = 0
BLAST of Cla97C05G079910 vs. TrEMBL
Match: tr|A0A1S3AUD9|A0A1S3AUD9_CUCME (protein BONZAI 1-like isoform X1 OS=Cucumis melo OX=3656 GN=LOC103483089 PE=4 SV=1) HSP 1 Score: 1085.5 bits (2806), Expect = 0.0e+00 Identity = 543/577 (94.11%), Postives = 561/577 (97.23%), Query Frame = 0
BLAST of Cla97C05G079910 vs. TrEMBL
Match: tr|A0A0A0L2U9|A0A0A0L2U9_CUCSA (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_3G116620 PE=4 SV=1) HSP 1 Score: 1077.8 bits (2786), Expect = 0.0e+00 Identity = 542/577 (93.93%), Postives = 556/577 (96.36%), Query Frame = 0
BLAST of Cla97C05G079910 vs. TrEMBL
Match: tr|A0A1S3AUV3|A0A1S3AUV3_CUCME (protein BONZAI 2-like isoform X2 OS=Cucumis melo OX=3656 GN=LOC103483089 PE=4 SV=1) HSP 1 Score: 969.1 bits (2504), Expect = 4.2e-279 Identity = 485/511 (94.91%), Postives = 498/511 (97.46%), Query Frame = 0
BLAST of Cla97C05G079910 vs. TrEMBL
Match: tr|A0A2P4MSB9|A0A2P4MSB9_QUESU (Protein bonzai 1 OS=Quercus suber OX=58331 GN=CFP56_46861 PE=4 SV=1) HSP 1 Score: 937.6 bits (2422), Expect = 1.4e-269 Identity = 465/577 (80.59%), Postives = 519/577 (89.95%), Query Frame = 0
BLAST of Cla97C05G079910 vs. TrEMBL
Match: tr|A0A2I4FMG3|A0A2I4FMG3_9ROSI (protein BONZAI 1-like OS=Juglans regia OX=51240 GN=LOC109000419 PE=4 SV=1) HSP 1 Score: 919.8 bits (2376), Expect = 2.9e-264 Identity = 465/580 (80.17%), Postives = 517/580 (89.14%), Query Frame = 0
BLAST of Cla97C05G079910 vs. Swiss-Prot
Match: sp|Q5S1W2|BON2_ARATH (Protein BONZAI 2 OS=Arabidopsis thaliana OX=3702 GN=BON2 PE=1 SV=2) HSP 1 Score: 806.6 bits (2082), Expect = 1.8e-232 Identity = 400/578 (69.20%), Postives = 480/578 (83.04%), Query Frame = 0
BLAST of Cla97C05G079910 vs. Swiss-Prot
Match: sp|Q941L3|BON1_ARATH (Protein BONZAI 1 OS=Arabidopsis thaliana OX=3702 GN=BON1 PE=1 SV=2) HSP 1 Score: 801.2 bits (2068), Expect = 7.5e-231 Identity = 409/579 (70.64%), Postives = 478/579 (82.56%), Query Frame = 0
BLAST of Cla97C05G079910 vs. Swiss-Prot
Match: sp|Q5XQC7|BON3_ARATH (Protein BONZAI 3 OS=Arabidopsis thaliana OX=3702 GN=BON3 PE=1 SV=1) HSP 1 Score: 694.1 bits (1790), Expect = 1.3e-198 Identity = 350/583 (60.03%), Postives = 446/583 (76.50%), Query Frame = 0
BLAST of Cla97C05G079910 vs. Swiss-Prot
Match: sp|O75131|CPNE3_HUMAN (Copine-3 OS=Homo sapiens OX=9606 GN=CPNE3 PE=1 SV=1) HSP 1 Score: 364.8 bits (935), Expect = 1.8e-99 Identity = 222/539 (41.19%), Postives = 311/539 (57.70%), Query Frame = 0
BLAST of Cla97C05G079910 vs. Swiss-Prot
Match: sp|Q8BT60|CPNE3_MOUSE (Copine-3 OS=Mus musculus OX=10090 GN=Cpne3 PE=1 SV=2) HSP 1 Score: 361.3 bits (926), Expect = 2.0e-98 Identity = 221/539 (41.00%), Postives = 308/539 (57.14%), Query Frame = 0
BLAST of Cla97C05G079910 vs. TAIR10
Match: AT5G07300.1 (Calcium-dependent phospholipid-binding Copine family protein) HSP 1 Score: 806.6 bits (2082), Expect = 1.0e-233 Identity = 400/578 (69.20%), Postives = 480/578 (83.04%), Query Frame = 0
BLAST of Cla97C05G079910 vs. TAIR10
Match: AT5G61900.1 (Calcium-dependent phospholipid-binding Copine family protein) HSP 1 Score: 801.2 bits (2068), Expect = 4.2e-232 Identity = 409/579 (70.64%), Postives = 478/579 (82.56%), Query Frame = 0
BLAST of Cla97C05G079910 vs. TAIR10
Match: AT1G08860.1 (Calcium-dependent phospholipid-binding Copine family protein) HSP 1 Score: 694.1 bits (1790), Expect = 7.2e-200 Identity = 350/583 (60.03%), Postives = 446/583 (76.50%), Query Frame = 0
BLAST of Cla97C05G079910 vs. TAIR10
Match: AT1G67800.2 (Copine (Calcium-dependent phospholipid-binding protein) family) HSP 1 Score: 117.1 bits (292), Expect = 3.6e-26 Identity = 90/254 (35.43%), Postives = 121/254 (47.64%), Query Frame = 0
BLAST of Cla97C05G079910 vs. TAIR10
Match: AT5G14420.1 (RING domain ligase2) HSP 1 Score: 114.4 bits (285), Expect = 2.4e-25 Identity = 93/269 (34.57%), Postives = 123/269 (45.72%), Query Frame = 0
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 97103 v2
Date Performed: 2019-05-12
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 |