Cla97C11G215970 (gene) Watermelon (97103) v2.5
Overview
Sequences
The following sequences are available for this feature:
Legend: exonCDSpolypeptide Hold the cursor over a type above to highlight its positions in the sequence below.ATGGAGCCTTGCGTTCCAGAGTTAGAACGCCGCGTCCAGAAAGCTTGGGAAGAAGAAATAGAGGAAAGGAAAAAGAAGTATTCTGTGGCAAGTACAGGTGAGTAACACCTGCGTTTTACAAAAATATAAATGAGTTCTTCATGAATATGATTATATGGTTTCAAATGAAATAAAACATGCGTTTTTATATATATAAAAAGCATATGAATATGTTGTTTATAGAAGATAAGTGCATGCATTTATACATACATAAAAGAACGTGAGCCAGCTGAGAGTATGCGTTTTACTTGAATACTTTGAGAATGCTGGGTATTCGCTATGAGATATAAAACGCATGGTGATTGGTTGATACATGTTTTCATGAAATTCCTGAAGAGCATGGTGTTATATGTTTTCATGGAAAATTTGGAAATACACTTGTTTGACAAGCATGCTGTTTGATAATTAAAGTTTTGAATTGAGTATTAGAAATGGTTACTCATAGCATGGTATAGCTATTGAACATTTGTGTTGTGTTGATGAGTTTAAAGATTATGATATGTATTAATTTAAGGTAACCCATGGCTGAGGGACCCCGTGTGAAGGCCTATGGGAGGCATGGTATATGATACTCAATGCTGAGGGACCACGAAAGAAGGCACTTGAGTAGTTGAATGAGACGGATTCCAATGCTGAGGGACCTAGTGTGAAGGCATATGGAAATCCAAAACATGATAGCCAAGTGCTGAGGGACCACGAGTGAAGGCACTTGAGCAGTGGTTGACAATAAAACTCAGTGTTGAGGGACGATATGTGAAGGCATTTGAGTAAGTGATTAAGGAAATTTGACGTTGAGAAGTGTAAAGCACTGCTCCGCCTCAACTAGGGAAAATGATTATGGAATGAGTGAAGTTTTGAGTATTTACTCTAAAACAGATAGACATATTTTATGATGAAGTTTGAACATTAACTAATATGATCTGAAGCGTTATATTTTATGCGAGATTTACCAGTTTTACAGTTTGAATATATTGTTTTCTAATAACTGTTACTCACTGAGCCGTTAGCTCATTCTTTTAAATGTTTTCCATTTTCAGGTAGCATCGTTGCCGATCGAAGTCGAGGTTTGTCAAGAGCAGGTGGATGGTGAGGTTGACAGTGAGTTACGTGACAGGGTAGTTTGTAACTGCTGTCTTCACATCCCTTCACGGGTTATGGAGGATAATCCGGGAGGGGGTGTGACACTTAAAGTATGAGCTTAGTATCACGTGTCAAAAAAACACCCCTTCAAATTGCGCCACTGATGCCCTTGACTCGCATAGCATCACCAAGGAAGGGTCAAGGAAGAGGGGCAATGTCATCGCTAAAGCCAGGCCAACCCAAGCACCATGGCATCAGACAAGGCTGCCGGAAACCATCGGGCCACACCCCAACCTTAGATGTGCGCCCTTGTCGCAGCTCGACACCCCATCGAGAGCCTTGACCCATAATCATATGCGTCAACGCATGATAGTGTGGCTGCGCAACCAGCCACAAATGTGCAGCCCATGCGCGCATCTGCCAAGAGAGGCAACACTGCGTGCCAGCCTGCACAAGGTTGCCAGGCGTGCATGTCTAACGCATGCCCAAGATGCGTTCATGATGGAAGTCCTGCAAACGCGTCCCGAGAGTGCCGACAGTGTGCATCCATTGTCGCCTCATCAGGAGCACACAACAATGTCCCTAGATGCATGGAAGGTCCCAAACGCATCGGCAAAGTCCCGGAAGATTCTAGACGCATCGGAACAAGGCCAGAGGCCACAGCACGCCTCTAGGCATGTCTGGAAGGAAAGGCAGGCCACTGGGCAGTGCCAGTGACCATGCCTTAGTGCCTGACGCATTCGGAAACATCTGGAAGACACGAGAGGGAGCTCGACTACTCGCCCATGGCCCCGATGGCACGGGAAGACTTCAGAAGAACCTCGAAGGTGCTGGACTATGCGAGAAGGCACGTGACAGTGCTGGAAGACCCGAGAGGCATCCAGACAAGTCTAGAAGTCTTGCGATGGTGCTGGAGTATCCGAAAAGTGTCTAGACGGTTCTAGAACTTTCCATGACAGTTGATCACCCATGTAAATATGCTAGAAGGCCCTCAATAGGTCTAGATTGTTCTAGCATAGGCCTTAGTCGGTTAGCTCTAGACTTGTCATAGGATTGCCGCCTAATGTACATATGGAAGAGTCTAAAAGTCTCATGACCGACATTGTAAGTCGGTCATGCTAGGGGAAGTCAGCTAGCTCCTCTATAAATAGGAGGAGGGGCCTCATTTGTAATCAAGTCTGGGAAGTCTTGTAACAATCGAGAACTAGCGCAATACAAGCGATTTTCCTTAAGCTTGTGTGTTCTCTCTTGGTTGACGAAGCCCTCTAAGCTCTCATTCACTCAAACTCTCTCAAGTCCTCCTTGCTAAACACTTCCTTTGCCAATCTCACCCGATTGAGCCTAGGGAGGAAACGATCCTTATAACTTCAAAAGCTTACTTGCGTGTCTTTGACAACAAGTGCACCCAAGTGCCGCGCGGTTGGTTAGTTCGAAACACTGACCACGTGACATTAGGCTATTTATAGGCGTCAAATGGAAAGTCTTCAGCTTCTTTCCAATGATTATATGACACACTTGCATTAAATTCCATGCCCCTGCTGCACTAATTTCTTCAGGTCACAAATTCATTGGTTTTGTGGCATCTGGTTCAAATCAATCTTCAATTTGCACTTTGATTAGACAAGCCACTGCCCATGCGTTTGTTGTTTACTTCATGCTTTTATTCACGACATGATTCTTCTTTCCGTGCAAAGTTGAGTTGGTCTGATTCTTCTTATGCGCCCAATGCTTGCAACATTAGCTCATTTTTCCAATTTCTGCTTTGTTTGTGTTCAAGTCTTGCGTTGAGAGATGTTAAACTTATAATATTTCGAGAAAATAAGTTTTGCCAATGTTGAACACAAATGTATTCTTTTTGCATGATTTCTTTCTCAAGTTAACAGATTTTCCATTGCATTTTCTTAATTATTCTACTAAAAAGGCCACAATAACTTGTATTTCTACAAGTTATCAACAATTGATCCATCACCTATGATTAAGGGAGGTGGTGGAAGATAGGGAGGAAGTTATAAGTTTCAACGTTTATGGAAAAAAGGTTTCGTTTATGCAATAAGACTTCAATATTACTATCAGTCTGTGGTCCTCTTGAAGGACTGACTAAGTGAGGAAGTAGTGAAACACTGACGTGACTCTTCTTTCCATCAAAGACAATGAAGGTAAGTGTCAAAGATTTTAAAGCAAAGTATGTAAAATACTAGTTTGAAAACAATGAATATGTAGTGAAGATGTCGCTTGTTGTGCTTATTGAACAATGATGGTCAAAGATTAAAAAAAAAAAGTACTAATTGATCATTCTATATTTGGCATTGTGGGTGACTGAGAGGTATACACGCACTATGAATGGTCATCCATTATATTTAACCAAACCTTCAACAACTTGAAAATTTTCTTGCCTAAGTTGAATAGGCAATCATCTAGCAAACAAAATTTTACTATCAAAGGTTTTAGACAGGCCTTTCAGGTATAGATTTGATGTTATTGCCCTTTATTTTCATATTTAATTTAAATAACAATATGCATTTATACATTTGCTATGGTAGGTATGACCTTGTGAGATCCTATCTACTTGTAGGCATGTTGTTACGAGAAGATCAAATTGAACATATAGTGAGTGGTTGTGTGGTAATTTAACAATATAAGAGTATTTAAGCTACACAATATTGTAGACATCGTATAATTGTGTATCATGATGTTGTCATATAACACAAGAACCATATCACATAGCTAATCTACACGATATTTTAAACACTTGTATGTACCCAAGTGATTGGTCTTACGCCAATTTAACAACATTCGAGAACTTAAGTTTCACGATATTGTAGACATCTCATAACTATTTAACAATGTTATCATATAACACATAAACCATATCACATAACTAACCTGCACGATATTGTAAACATTGCATATTGTGCAACAGGATGTCATCATAAAGTGCATGAATCATACTGCATAACTAAACTACACAATATTGTACATACTTATATATACATGTAAGTGTAACAATTTAACAACATTGCATATTTAAGCTATACAATGTGGTCTTCTAACCCTAATCATTTTATAGGAGGAGCAAGGAATGTTATCTATAATGGAGCACAAATTTTGAACAATGACTCAAACTTTGAATTGTTTTTGGCAAATTAGAAGCAAAGCGAAGTGGAGAAACCGATTGATAATGCAATTGAGAGGTAAGGAAATAGCAACTAAAAGGTTAGTGGGGAAAAAGGGAGGGGAATTATCGAGTATAACATCTTCATGGTTGAGATGGAAAATATATCATTTAAGGTTCCAAAAAGCTTTTTTTTTTTTTTTTTTTTTTTTTTTAAAGAAACATTGATTTATACCCCTAGATTTTGAAAGCCGTATCAATTAAGATCATAAAACTCATAATTATATCAATTTAAGACCTATTGTAAGTATATCAATCTACACCTTTATCCAAATTTTGTTCAACATATTTTGTGTGAAACTTATTATAATTTGTATTAAATTCCTAAATTTTTGCAAGCAAATCAATTTAGACACTTCTTTACAATTACATTTGAAAATTATCAATGCATTAATTGTCACACGTGTGTAAACTTATTCAAATGTCAATTTTATAAAGTGGACGAGTATAGTTGATTCATGAACAATTCTTAAAGGACATTCCGACGTATATATTAGTTAACTTGGGAAAGTTTAAGAGTTTAATTAATATAATTATAAGTCTGTTTTCCAAACAAAATGTAATGAGAGTGTAAATTGATACACTTATAGTACATGGTTTAAATCGAAATAATTGTTAATTAAAATTTTAATTAATATAACCTAAAATTTTAAAGATATAAATCGATAATTTTAGGAAAAAAAAACTTTCAAAAAACAGGTAACTATTTTAAGACAATTTAAACAATTTTCTAAAATTGTAATCTATCAAAAAAAGAAAAAAGAAAAAAAATAATAAAAAATTTAAAAGCTATTTGGCGTAGGAGGGTCAAGTATCTCTGATTCGTCGGAGTATGTCCTCTCCGCCGAAAAATGGCAACGTCGAAGCTCTGTACTCACCTTCGGCGTCTTCGTCCATCTCGTTTTTACTCCAGCGCTTCCCTTTCATATCACATGGCCTTTCGACTTCACGAAGCCCACACTCTCCCAAGCTCTCATCATCAATCATTCAGCAGCCCAACCCATCGCTTTGATCCTCATATAAGCTCCATCGCTGCTCTCACCGCTTTCTCCTCTCGGTCCTTGTGGACACGTTCCGACGATGAATCAGAGTTCGACCGGATTGCCCCTTCCGGCGTTGAATCAAGCCGCCTCTCTAACGACGAAACGGGAATCCAGTCGGGGATTCAAGACTTGGAACTTGGAGGAGTTGTTGAAGAAGTCATCGGTGTGACTGCCGTGGAGGAGTCGATTTTACCCATTCAGCAACTGACTTCGATGCTGGAAGGGTTCCATCAGTATACCGGTATGCCCTGGTGAGCATTTCACTGCTTCTCATATGATTCTGGAGGAAAATTGAGAATAGTGTTCGGGGCGTAGGATTTTGATCTTTTCTATTTCGAATTTGAACATTTTGAATCGTGTTGTGTCCATAGTATCTTTCTTTTATTTGATATTGGTATGTTGTGGCCAAATTAACGAACTCTATCTTTGATGTGGGGAAAGTTTCAGTATAATGTTAAAATTTCTTAATGCCAGTTGAGCTGCTGTGCTCACTTTGGCATTTCCAACTCCACGTTATGTGTACTTAATTGTTGTTAGCTTTGTTATAATTTAGTTAGCTCGGTTAATCTTTTGGCAATCAATTATTTTTATGGAAAGGATAAAGGAAATGAAAAGAGGCTAATGTTGTAAAGTAAAAATTAAAAAAACACCATTAAGGAAAAACTGCAAACTGAAAAAGTAGAAGAAACAAAAGTAAAAAAAGAAAAAAACAAGATAATAATCGTAAGGGAACAACGAAACTGTCCCAATTTCTATTCAATTCTTGAATAGAGAGACCCTTGAAATCTTTGGATAATGAGCACCAGGATGAAGCCTTTAAATGGGCTGAATCGAAGCATTCAACATGTGAATGAGAGGAACCTCGAAAAATGCCCTGAATCAGTTGCTGTAGACCTTTTTTTGTTATGTAAATTGGCCAAGTAGTAGTATTAGTTTTCTGTTACTTTCTCAAGCTCAACTATATAAGCGAGCATCTATAGCCTTGTATTGTCATCAAGAATAACGATAAAATACACTTCCCATTACATTGTTATACTCCACATGTGTACTTGAGTTAGATGCACAAAATTCTAATGTTCTCGTAGTCTAACAGTTTGATCTTTTAGGGGTGAGGAAAGATTGTGGACGGTGGTTTGTAGTAAGATTCAAGCTTCAATTTTGATTTCGTTGGAAATAATAAGTTTTTAATTTACTTCCCCTGATCCTTTTAATTTCAGGTGGGCAGTTATTGCTTCATCAACTTTAGCTCTCAGATTTACGTTGCTGCCCTTACTCATTGTTCAACTCAACAAGTTGAAAAGGATTGGAGAATTGTTTCCAAAGTGTAAGTTTCCGAAGTAACAAAGGGATATGTTTCTCTTTACTGCCTGACTCATTAAAGCTTTTGACTTTGGTTGTTGAACTCCTGAATGAATAAAGGAATAATATAATTGTATGTTATTTATGCTGGAACTCTAGCAGCCGTAATTGGGCACATCTTTTGCTAATAGGCAATTTATGTAAAAAAATTCGAAGAATCACACAACTCTTTAATGAAACCATATCTTTATCCTCTCTGGATAACAAATGAGGATTGCTTTCCAACAAAAGACACAACCAACTAAAGGCTAGGGTGAAGGAAACATATCTGACTAAAGGAAACACTTGCATACTATAAACAGAAGACCCATCCAGTCAAGGTTTACTGAAAAACTACTATGATTGGCATTACAAAAGGATTCTAGAGAGTACACTTCTCCAATTAGAGTCTGTGACCCTCTACAAAAGAAATCGAAAGATTTTTATCATTAAAAGGCCTTTGTAATCTTTCTAACCAATGAAAACCTTTCCCTTCCTCATCCCCATCGAGATGACGTCCCTCATCACTTCAATGGAGAAAAACTTGATTTAGCTTAGGATTATGCTCTAGAGGAAAACCTAAATACGAAGAAGGAAAGGCCCCACATCACACCCACCTTAAGCTGCAAGCCTGTCCAATTTGCAAGTATCACATTTGGGACCTAAGATATGACCTAGAAGCACAAATCCTTCTCCTAGGCTTACCATTGACGAGGATAGAATACTAAACCACCAAATTTAAGATCTCCTAGGCTTACCATTCCCGAGATTAGTCTAGGTGTGCCTACGCTGACTTGAACACTCACGGATAGAAAAAGAAAAAAAAGAACTAAACTGACTTATGAAAGTTCAAGTTTTAAATTGGTACAATTATTAGTTTGGGTTTTAATTTATACATCCCCTGAAGTGTAGGAGTCTAAGTTGATATTTTCCCTTAAAATTTTTTATGATTAGTAAGATTGATTTAAAGGTATATATATATTACAATAAAAATACAATTTAATTGTTTACAATCAAATTGTTAATATATTAAAATAATCACAATAATATATTATTACCTTATTTATGCGTCAATGAAATTCACTTGTTTTCTAAATTACTTTAATTTGACTTTTATTTGCATTTCTCAAAGTGCCACCTCCATTGCCACCACCTCTATCGGGACGGAGTTACATCGACCAAATTTCTCTTTTTCGAAAGGAAAGAAAGGCAATTGGATGCCCCTCATTTCTATGGTTCGTTGCATACTTTTCCATGCAGGTGATTCCAATCTAATTGGAAACTATATTATTTTTGGAAAAATGTTCTATTTTCTCATGTATGAGTTTCATCAAAGTTCTATTTTAAACTATTTTTCTTTTGTCTTTGTAAATGATAATCATCTGGTGTCTATTTTGTCTAGAAGTTCCAACAGTGTTTAGAAACTTCATGACCTTTATTGATGAGCATGAGAGAGGGTTAGTCAGGGGTAGTCCTGCTTCAATTGAAATACTCAAGAAAGTATCCAAGAATGTTTGTTTTTTAGACGAAGATTATGGACTTGTAAAATTTGCTTAAAATAAAAATGTCAAGGAAAAAATGGACAATTATAAAATTATAGGCTTCTTCCATTGTTCTTCTGTAAGTTGCAGTAATGATTATAGGTGTACTTATTTTGCATGGCCTTGCCCCTTGCTTTCTTTTTATTTTCCTTGATTGGGAAGCTACAAATTCCTAAGAAGGTCAGTTTTTGCCTAGAAGGTCTTCCATGGGAGGATTAACCCTATTGACCATCTCCAGAAATTATCTGTTAGGTATCCACACTTGCAAACAAGAACTATACCCAATAGGATAGCAGAAAACAAGGTAATATGATGTCCCTGTGTTATATATTCACAATAAGGAAGAGAATTCCAGAGTCTCAACAAGATAACTGTTAGATACCTCCTTCCCTGCACTCAAGATTATCTAACAAAATATACACCAAACAAATATCCAGCCGATTGTCTAACAAAACACATCAAGGAAATATCCAGCCACGAGCTACTGATTTATTTATCCACAATATAGTTCATCACAAGAAGTTCCAGCAGCAACAAAATAGTAAAACGATAGTGAAATAAGATAGATGATAAGAGAGAAGAAATTGAGCAATTTCGACAGTGCCTCCCTCTCCAAGCTTCATTCAGCCTTTCCATGGCTCTCGCAAACCCCTTCAGTCTTTGTCCCTTGTGGTCCCCTCCTTTCCAACCGAATTGGCAGCCACGTCCTCCCCATGTTTGTCCCCCATGATCTCACGGTTAATTCCCTTTTTACCCCTCCTATAATAGGTGTGAACAATCGGAGGTCTAACAATAACACTCAACCAAAGGAAAATAACAAACAAGATAACTCCCAGCAAATTACAGAGTGCTGGTACTCTCCCTCCTTTAGGCTGAACCCCAAATATTCCATACCACCAGCCAAACACCCAAAACCCTACTTAACCCCTCATCCTTTGTATGAATGGTCCCCACATATCCCCAAATAACTAACATCACGCTCCACCCTCCTCCTGACCCTGTAAATTCCCTTTCTTGCCCCTCCTTTGATACGTATGGTGAATTGGGGGCCTTACAATATCTTTTGTTTTTCTAGGGCTGTGTTGATCCAACCTATATAAGGTCTCAAAAAAGTTGGAGTATGTTTGGTGGGGGTGTTAGCTTGGTTAGATGATTTGGGATAGCTCTTTGGAAACTTTTGGTGTCCGGATCATATCAGATTGTGGTGGGATATGAATTGATGGATGAGGTCTTATTCCATCTTCCTTTTGAGATAGGGGGCAACTCTGGCATGCTGCTCTCTCTACTCTTCTTTCGAATATTTGGCTGGAGAAAATAGAAGGGTCTTGAGGTGCTAAATGAGGGGAAAGGATGTCTTGGTAGGAGATTTGGGCTTGGCTAGGCTTAATCTACAATTTGGCCTTGGTTTTTCTCACCAAGGTTTCTAGTGATTATCCTTTATTTCCATTTTTTTTTGTTTTTTTCTAAATTGGAGGTCTTGTTTCCTGTAATTGTGTAGTTTGATTGTTTTTGTTCTTTGTTTACTTGGATCCTTTTGTTCCGGTCTTTTCTTTTTCATATTACCTTGCATGTTCTATTTTCGCCAATGAAAGCTAGCTTTGTAGAAGGGGGAAAAAGAGCTCTCTCAAGATTGATTTTGGTTTGCCATATAAACCCATCAGGAGCACGGCCTGTTCTTTAATTAAATGACAATATTCTAAACCATAAATTGTGCAATTAATCAGAGTTTCTAAGTTTCAGATTATCTTCTGTTATTTTTATTTAAGTTTACTCAACCATTCCATGCAAGCACATATATTATGAAGAGTGAAGACTATTTTCATGTTGTTCCTGTTTAGCTCTTCTGATGAAAGTCTGCCTTTTTCTTCTTTCTTTTCGAATGTACATGCAGGTCCCTTGCTTTCTATTGTGGATGCTTACTATCCGCAAAATGTCACTTGATCACCATCCTGGATTTGACTGTGTAAGGCTGGTTTATTAAATATGGGGAAAAAATCAATATAATTCTTACACAATACACCTAGGAGACTGAAAAAGTTCTCTCTCATTTTACCATTACCACTTGAAAGTGCAATCAAAGGCATGGATGGGTTGGGCTTTGTAGTTTGATTTATTTAGCTGGTCATCCTATCGTACAAGATGTCTCCTAGAATTCCTTTCATTTCTGAGCTTTGATATGATCAACAAGCTGCCTTACTTGCATTATTTTCATTTTTTTATTTCTAGATCTAAGGTTGGAATTAGTCAAGGGTTAAGTTTGTGGTGTATTTATTGCAGGGTGGAGCTTTATGGTTCCAAAATCTGACCGAGTATCCACATGGAGTTTTCAGCCCCATATTTCCATTTCTAATTGCCAGCTTGCATTTCATTAATGTTCAGGTATTCCAACATTTTCTTGTTTCCAAGTACAAACACATTTCTTTGAGTAGGGTGGTATGTCAGGTGCTTCTGATCTAGCTTGAGTGTTTATGAGGCATGTGAAGATTGCCCGGTGCCATTGGTAAGGGTTCAAGAGGCAATGCAACCTAAGAGTTTTAGAATGGTTGCTGTGCTGGGTATGCAAATGTTTGAAAAGGAAAAATTGGAAGGGCATTTGAAGGGAAGATAGCGGAAACTTACAATAAAGTTGTGGCATTATATGGTCTTCAATTACAAACATGCATGAACTTTCATCAAACATCAGCAGAATGCCAAAAGAAAATTCTTGTTTTTCTTCATTCTTCACTTGCCTACACATTGTTGATTGTCATGAAAGTAGCTATGTATGTTGTTTTGACTTATTGTTGCCAATATTGTTCATTTTTTTGGGCCAGTATAAATTTTCTGGGTTTTCAAATCTCGCCAACACATTTTCAATTTTAATTGTTAACAGGTATGTGCTCATTGCTTAGTTCTTTTGCCCAGGTGTCTTTCAGAAAATCATCATTGGAAAAAGCAACTGGCATATTTGGCATTTTAGCAAAAGTAAGTGTTTAAGATGTTCTTAATGTTGACAGAAATGTACTCAATAACACATGCTTATATTTCTGTCCCATTGCTTTATATATATTTCAGACTGATAAATATATTTTCTGTCTCTGGCAGTACTACAAGCTCTATTTGAATCTACTGACTGTACCACTGTTTTTTATTGGTTACTGTATTCCTCAGGTAATTCTCTTCATGATTTTTTTTGAAGTGGCATTTTAAAATTTTGTATAAGATTTCACCATTCTTGTCGAATTGAATGGGAGGATTTTGACTTTATTATTATTATTATGATAAGGTTCCAACCATTTATTAAGTTCACCAAAATACAGCCCTAAGACTAGAACACAAGGAAACTTCCCTCAGTTTCCTTCCATCTAATTGCTGTGAATTTCAACACAAAATAACTAACTCCCCTTCTCTCACCTATCCCTCTCTTATACTACTCTCCCCAACAATAAACAAAATACATAAATAAAACACTAACTACATTTGGCTAGTAGAAGCCACACTTCCACGCACAATGCCCTTCTCCTTATTCCCTTTTTTGCGGTAGGTTAATATTATAGATGGTCTAACACTACTCTCCCCTTCAAGAGCCACCTTGTCCTCAAGGTGAAAATCTGGAAATTGCTGTTTGAAGTCGTCAAAAAGTTATGATAAACAAAATATATACTTGATTCTCGAAGTGAACACCCACGAAGGTTCGAGTGGGGCCAAGGGAGCCACCAGGGGTAGGCTGACAATAGATTGCGGGAGAGGCTTGAGGACCTAGTCATCAGTGGACATGTGCGATAGCAAGGCTTGACAACGACTCACTTGGATTGGCAGCAGGTAGGGAGTTGGGCGCGCCAACACCTTGGCCAAAGGGTTTAGCCCAACAGGAGGAGGCGCGCCCCAAAGACGCTGACGGGGCATGCAGGCACGCTAGTGACATGACAAGCTAG ATGGAGCCTTGCGTTCCAGAGTTAGAACGCCGCGTCCAGAAAGCTTGGGAAGAAGAAATAGAGGAAAGGAAAAAGAAGTATTCTGTGGCAAGTACAGCATCGTTGCCGATCGAAGTCGAGGTTTGTCAAGAGCAGGTGGATGGTGAGGTTGACAGTGAGTTACGTGACAGGGTAGTTTGTAACTGCTGTCTTCACATCCCTTCACGGGTTATGGAGGATAATCCGGGAGGGGGTGTGACACTTAAAGAAGGGTCAAGGAAGAGGGGCAATGTCATCGCTAAAGCCAGGCCAACCCAAGCACCATGGCATCAGACAAGGCTGCCGGAAACCATCGGGCCACACCCCAACCTTAGATGTGCGCCCTTGTCGCAGCTCGACACCCCATCGAGAGCCTTGACCCATAATCATATGCGTCAACGCATGATAGTGTGGCTGCGCAACCAGCCACAAATGTGCAGCCCATGCGCGCATCTGCCAAGAGAGGCAACACTGCGTGCCAGCCTGCACAAGGTTGCCAGGCGTGCATGTCTAACGCATGCCCAAGATGCGTTCATGATGGAAGTCCTGCAAACGCGTCCCGAGAGTGCCGACAGTGTGCATCCATTGTCGCCTCATCAGGAGCACACAACAATGTCCCTAGATGCATGGAAGGTCCCAAACGCATCGGCAAAGTCCCGGAAGATTCTAGACGCATCGGAACAAGGCCAGAGGCCACAGCACGCCTCTAGGCATACACGAGAGGGAGCTCGACTACTCGCCCATGGCCCCGATGGCACGGGAAGACTTCAGAAGAACCTCGAAGGTGCTGGACTATGCGAGAAGGCACGTGACAGTGCTGGAAGACCCGAGAGGCATCCAGACAAGTCTAGAAGTCTTGCGATGGTGCTGGAACTTGTCATAGGATTGCCGCCTAATGTACATATGGAAGAGTCTAAAAGTCTCATGACCGACATTAAGCAAAGCGAAGTGGAGAAACCGATTGATAATGCAATTGAGAGCGCTTCCCTTTCATATCACATGGCCTTTCGACTTCACGAAGCCCACACTCTCCCAAGCTCTCATCATCAATCATTCAGCAGCCCAACCCATCGCTTTGATCCTCATATAAGCTCCATCGCTGCTCTCACCGCTTTCTCCTCTCGGTCCTTGTGGACACGTTCCGACGATGAATCAGAGTTCGACCGGATTGCCCCTTCCGGCGTTGAATCAAGCCGCCTCTCTAACGACGAAACGGGAATCCAGTCGGGGATTCAAGACTTGGAACTTGGAGGAGTTGTTGAAGAAGTCATCGGTGTGACTGCCGTGGAGGAGTCGATTTTACCCATTCAGCAACTGACTTCGATGCTGGAAGGGTTCCATCAGTATACCGGTATGCCCTGGTGGGCAGTTATTGCTTCATCAACTTTAGCTCTCAGATTTACGTTGCTGCCCTTACTCATTGTTCAACTCAACAAGTTGAAAAGGATTGGAGAATTGTTTCCAAAGTTGCCACCTCCATTGCCACCACCTCTATCGGGACGGAGTTACATCGACCAAATTTCTCTTTTTCGAAAGGAAAGAAAGGCAATTGGATGCCCCTCATTTCTATGGTTCGTTGCATACTTTTCCATGCAGGTCCCTTGCTTTCTATTGTGGATGCTTACTATCCGCAAAATGTCACTTGATCACCATCCTGGATTTGACTGTGGTGGAGCTTTATGGTTCCAAAATCTGACCGAGTATCCACATGGAGTTTTCAGCCCCATATTTCCATTTCTAATTGCCAGCTTGCATTTCATTAATGTTCAGGTGTCTTTCAGAAAATCATCATTGGAAAAAGCAACTGGCATATTTGGCATTTTAGCAAAATACTACAAGCTCTATTTGAATCTACTGACTGTACCACTGTTTTTTATTGGTTACTGTATTCCTCAGGTTAATATTATAGATGGTCTAACACTACTCTCCCCTTCAAGAGCCACCTTGTCCTCAAGGCTTGACAACGACTCACTTGGATTGGCAGCAGGTAGGGAGTTGGGCGCGCCAACACCTTGGCCAAAGGGTTTAGCCCAACAGGAGGAGGCGCGCCCCAAAGACGCTGACGGGGCATGCAGGCACGCTAGTGACATGACAAGCTAG ATGGAGCCTTGCGTTCCAGAGTTAGAACGCCGCGTCCAGAAAGCTTGGGAAGAAGAAATAGAGGAAAGGAAAAAGAAGTATTCTGTGGCAAGTACAGCATCGTTGCCGATCGAAGTCGAGGTTTGTCAAGAGCAGGTGGATGGTGAGGTTGACAGTGAGTTACGTGACAGGGTAGTTTGTAACTGCTGTCTTCACATCCCTTCACGGGTTATGGAGGATAATCCGGGAGGGGGTGTGACACTTAAAGAAGGGTCAAGGAAGAGGGGCAATGTCATCGCTAAAGCCAGGCCAACCCAAGCACCATGGCATCAGACAAGGCTGCCGGAAACCATCGGGCCACACCCCAACCTTAGATGTGCGCCCTTGTCGCAGCTCGACACCCCATCGAGAGCCTTGACCCATAATCATATGCGTCAACGCATGATAGTGTGGCTGCGCAACCAGCCACAAATGTGCAGCCCATGCGCGCATCTGCCAAGAGAGGCAACACTGCGTGCCAGCCTGCACAAGGTTGCCAGGCGTGCATGTCTAACGCATGCCCAAGATGCGTTCATGATGGAAGTCCTGCAAACGCGTCCCGAGAGTGCCGACAGTGTGCATCCATTGTCGCCTCATCAGGAGCACACAACAATGTCCCTAGATGCATGGAAGGTCCCAAACGCATCGGCAAAGTCCCGGAAGATTCTAGACGCATCGGAACAAGGCCAGAGGCCACAGCACGCCTCTAGGCATACACGAGAGGGAGCTCGACTACTCGCCCATGGCCCCGATGGCACGGGAAGACTTCAGAAGAACCTCGAAGGTGCTGGACTATGCGAGAAGGCACGTGACAGTGCTGGAAGACCCGAGAGGCATCCAGACAAGTCTAGAAGTCTTGCGATGGTGCTGGAACTTGTCATAGGATTGCCGCCTAATGTACATATGGAAGAGTCTAAAAGTCTCATGACCGACATTAAGCAAAGCGAAGTGGAGAAACCGATTGATAATGCAATTGAGAGCGCTTCCCTTTCATATCACATGGCCTTTCGACTTCACGAAGCCCACACTCTCCCAAGCTCTCATCATCAATCATTCAGCAGCCCAACCCATCGCTTTGATCCTCATATAAGCTCCATCGCTGCTCTCACCGCTTTCTCCTCTCGGTCCTTGTGGACACGTTCCGACGATGAATCAGAGTTCGACCGGATTGCCCCTTCCGGCGTTGAATCAAGCCGCCTCTCTAACGACGAAACGGGAATCCAGTCGGGGATTCAAGACTTGGAACTTGGAGGAGTTGTTGAAGAAGTCATCGGTGTGACTGCCGTGGAGGAGTCGATTTTACCCATTCAGCAACTGACTTCGATGCTGGAAGGGTTCCATCAGTATACCGGTATGCCCTGGTGGGCAGTTATTGCTTCATCAACTTTAGCTCTCAGATTTACGTTGCTGCCCTTACTCATTGTTCAACTCAACAAGTTGAAAAGGATTGGAGAATTGTTTCCAAAGTTGCCACCTCCATTGCCACCACCTCTATCGGGACGGAGTTACATCGACCAAATTTCTCTTTTTCGAAAGGAAAGAAAGGCAATTGGATGCCCCTCATTTCTATGGTTCGTTGCATACTTTTCCATGCAGGTCCCTTGCTTTCTATTGTGGATGCTTACTATCCGCAAAATGTCACTTGATCACCATCCTGGATTTGACTGTGGTGGAGCTTTATGGTTCCAAAATCTGACCGAGTATCCACATGGAGTTTTCAGCCCCATATTTCCATTTCTAATTGCCAGCTTGCATTTCATTAATGTTCAGGTGTCTTTCAGAAAATCATCATTGGAAAAAGCAACTGGCATATTTGGCATTTTAGCAAAATACTACAAGCTCTATTTGAATCTACTGACTGTACCACTGTTTTTTATTGGTTACTGTATTCCTCAGGTTAATATTATAGATGGTCTAACACTACTCTCCCCTTCAAGAGCCACCTTGTCCTCAAGGCTTGACAACGACTCACTTGGATTGGCAGCAGGTAGGGAGTTGGGCGCGCCAACACCTTGGCCAAAGGGTTTAGCCCAACAGGAGGAGGCGCGCCCCAAAGACGCTGACGGGGCATGCAGGCACGCTAGTGACATGACAAGCTAG MEPCVPELERRVQKAWEEEIEERKKKYSVASTASLPIEVEVCQEQVDGEVDSELRDRVVCNCCLHIPSRVMEDNPGGGVTLKEGSRKRGNVIAKARPTQAPWHQTRLPETIGPHPNLRCAPLSQLDTPSRALTHNHMRQRMIVWLRNQPQMCSPCAHLPREATLRASLHKVARRACLTHAQDAFMMEVLQTRPESADSVHPLSPHQEHTTMSLDAWKVPNASAKSRKILDASEQGQRPQHASRHTREGARLLAHGPDGTGRLQKNLEGAGLCEKARDSAGRPERHPDKSRSLAMVLELVIGLPPNVHMEESKSLMTDIKQSEVEKPIDNAIESASLSYHMAFRLHEAHTLPSSHHQSFSSPTHRFDPHISSIAALTAFSSRSLWTRSDDESEFDRIAPSGVESSRLSNDETGIQSGIQDLELGGVVEEVIGVTAVEESILPIQQLTSMLEGFHQYTGMPWWAVIASSTLALRFTLLPLLIVQLNKLKRIGELFPKLPPPLPPPLSGRSYIDQISLFRKERKAIGCPSFLWFVAYFSMQVPCFLLWMLTIRKMSLDHHPGFDCGGALWFQNLTEYPHGVFSPIFPFLIASLHFINVQVSFRKSSLEKATGIFGILAKYYKLYLNLLTVPLFFIGYCIPQVNIIDGLTLLSPSRATLSSRLDNDSLGLAAGRELGAPTPWPKGLAQQEEARPKDADGACRHASDMTS Homology
BLAST of Cla97C11G215970 vs. NCBI nr
Match: XP_038890165.1 (ALBINO3-like protein 2, chloroplastic [Benincasa hispida]) HSP 1 Score: 567.0 bits (1460), Expect = 2.3e-157 Identity = 281/314 (89.49%), Postives = 296/314 (94.27%), Query Frame = 0
BLAST of Cla97C11G215970 vs. NCBI nr
Match: XP_022933145.1 (ALBINO3-like protein 2, chloroplastic isoform X2 [Cucurbita moschata]) HSP 1 Score: 545.4 bits (1404), Expect = 7.1e-151 Identity = 288/379 (75.99%), Postives = 314/379 (82.85%), Query Frame = 0
BLAST of Cla97C11G215970 vs. NCBI nr
Match: XP_022933144.1 (ALBINO3-like protein 2, chloroplastic isoform X1 [Cucurbita moschata]) HSP 1 Score: 545.4 bits (1404), Expect = 7.1e-151 Identity = 288/379 (75.99%), Postives = 314/379 (82.85%), Query Frame = 0
BLAST of Cla97C11G215970 vs. NCBI nr
Match: XP_022973910.1 (ALBINO3-like protein 2, chloroplastic isoform X1 [Cucurbita maxima]) HSP 1 Score: 544.3 bits (1401), Expect = 1.6e-150 Identity = 288/379 (75.99%), Postives = 313/379 (82.59%), Query Frame = 0
BLAST of Cla97C11G215970 vs. NCBI nr
Match: XP_022973911.1 (ALBINO3-like protein 2, chloroplastic isoform X2 [Cucurbita maxima]) HSP 1 Score: 544.3 bits (1401), Expect = 1.6e-150 Identity = 288/379 (75.99%), Postives = 313/379 (82.59%), Query Frame = 0
BLAST of Cla97C11G215970 vs. ExPASy Swiss-Prot
Match: Q8L718 (ALBINO3-like protein 2, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=ALB3L2 PE=2 SV=2) HSP 1 Score: 269.6 bits (688), Expect = 9.8e-71 Identity = 133/249 (53.41%), Postives = 172/249 (69.08%), Query Frame = 0
BLAST of Cla97C11G215970 vs. ExPASy Swiss-Prot
Match: Q0WUC5 (ALBINO3-like protein 3, mitochondrial OS=Arabidopsis thaliana OX=3702 GN=ALB3L3 PE=1 SV=1) HSP 1 Score: 255.8 bits (652), Expect = 1.5e-66 Identity = 159/360 (44.17%), Postives = 208/360 (57.78%), Query Frame = 0
BLAST of Cla97C11G215970 vs. ExPASy Swiss-Prot
Match: Q42191 (Mitochondrial inner membrane protein OXA1 OS=Arabidopsis thaliana OX=3702 GN=OXA1 PE=2 SV=2) HSP 1 Score: 66.2 bits (160), Expect = 1.6e-09 Identity = 60/223 (26.91%), Postives = 106/223 (47.53%), Query Frame = 0
BLAST of Cla97C11G215970 vs. ExPASy Swiss-Prot
Match: Q9SKD3 (Mitochondrial inner membrane protein OXA1-like OS=Arabidopsis thaliana OX=3702 GN=OXA1L PE=2 SV=1) HSP 1 Score: 62.0 bits (149), Expect = 3.1e-08 Identity = 70/285 (24.56%), Postives = 122/285 (42.81%), Query Frame = 0
BLAST of Cla97C11G215970 vs. ExPASy Swiss-Prot
Match: O13375 (Mitochondrial inner membrane protein OXA1 OS=Kazachstania servazzii OX=27293 GN=OXA1 PE=3 SV=1) HSP 1 Score: 50.8 bits (120), Expect = 7.2e-05 Identity = 46/192 (23.96%), Postives = 79/192 (41.15%), Query Frame = 0
BLAST of Cla97C11G215970 vs. ExPASy TrEMBL
Match: A0A6J1F440 (ALBINO3-like protein 2, chloroplastic isoform X2 OS=Cucurbita moschata OX=3662 GN=LOC111439944 PE=3 SV=1) HSP 1 Score: 545.4 bits (1404), Expect = 3.4e-151 Identity = 288/379 (75.99%), Postives = 314/379 (82.85%), Query Frame = 0
BLAST of Cla97C11G215970 vs. ExPASy TrEMBL
Match: A0A6J1EYX9 (ALBINO3-like protein 2, chloroplastic isoform X1 OS=Cucurbita moschata OX=3662 GN=LOC111439944 PE=3 SV=1) HSP 1 Score: 545.4 bits (1404), Expect = 3.4e-151 Identity = 288/379 (75.99%), Postives = 314/379 (82.85%), Query Frame = 0
BLAST of Cla97C11G215970 vs. ExPASy TrEMBL
Match: A0A6J1I9X8 (ALBINO3-like protein 2, chloroplastic isoform X2 OS=Cucurbita maxima OX=3661 GN=LOC111472541 PE=3 SV=1) HSP 1 Score: 544.3 bits (1401), Expect = 7.6e-151 Identity = 288/379 (75.99%), Postives = 313/379 (82.59%), Query Frame = 0
BLAST of Cla97C11G215970 vs. ExPASy TrEMBL
Match: A0A6J1ICK0 (ALBINO3-like protein 2, chloroplastic isoform X1 OS=Cucurbita maxima OX=3661 GN=LOC111472541 PE=3 SV=1) HSP 1 Score: 544.3 bits (1401), Expect = 7.6e-151 Identity = 288/379 (75.99%), Postives = 313/379 (82.59%), Query Frame = 0
BLAST of Cla97C11G215970 vs. ExPASy TrEMBL
Match: A0A0A0LJT6 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_2G094350 PE=3 SV=1) HSP 1 Score: 535.4 bits (1378), Expect = 3.5e-148 Identity = 267/313 (85.30%), Postives = 288/313 (92.01%), Query Frame = 0
BLAST of Cla97C11G215970 vs. TAIR 10
Match: AT1G65080.1 (Membrane insertion protein, OxaA/YidC with tetratricopeptide repeat domain ) HSP 1 Score: 269.6 bits (688), Expect = 7.0e-72 Identity = 133/249 (53.41%), Postives = 172/249 (69.08%), Query Frame = 0
BLAST of Cla97C11G215970 vs. TAIR 10
Match: AT3G44370.1 (Membrane insertion protein, OxaA/YidC with tetratricopeptide repeat domain ) HSP 1 Score: 255.8 bits (652), Expect = 1.0e-67 Identity = 159/360 (44.17%), Postives = 208/360 (57.78%), Query Frame = 0
BLAST of Cla97C11G215970 vs. TAIR 10
Match: AT5G62050.1 (homolog of yeast oxidase assembly 1 (OXA1) ) HSP 1 Score: 66.2 bits (160), Expect = 1.2e-10 Identity = 60/223 (26.91%), Postives = 106/223 (47.53%), Query Frame = 0
BLAST of Cla97C11G215970 vs. TAIR 10
Match: AT2G46470.1 (inner membrane protein OXA1-like ) HSP 1 Score: 62.0 bits (149), Expect = 2.2e-09 Identity = 70/285 (24.56%), Postives = 122/285 (42.81%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Watermelon (97103) v2.5
Date Performed: 2022-01-31
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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