Clc01G07420 (gene) Watermelon (cordophanus) v2
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Overview
Sequences
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.ATGATGACTTGCAACAGCTTTAGAGTTTGGTTCCCATTTCAGAGCCGCAGTGTAGAAACTCGGTACGGATGCCTAAGAGCAGAGCTTAGGTACATAGAGAAGTTTACATCGTTGTTCTGATCATTCGAATATTTTTCAGATTTATTATGGCATGTATATATCTGTTTTACTGTTGAAGCCGCAGGATGAACGATTTCATAGCATGTGTTTCTTTGAATTTCTCAGGTGGTTGGTTTGGGAGAGAGCTTATTTCGGCACATCAATTGTAGCAGCCATTCATGTTGATGGCTGCCATATCGGCATGTGTTGGGAGTTTCCAGTGTTGTTTGATTCTCACTTGCTTGACTCCAAATATATAAATTGAAGGAATTTTTTTATTAAAATAATGTTATTTTAATAAATAACGACAAAAATAGAGTAGAATAGAGTAGAGGTAAAAGTATTTTAAAAAATAGGTGGGAAAATCGTGGATGGGGTCTATGATTTCACAAAATTAGCCCACATAGACATGCAAATCGTAGACTTGGTCTATGACTTTGCTCACATGTCTTGGTCAACCCTGCCACAATCATCACGCTGTCATGCTCTCTCGCTTTCGCTTGTCTTGCTTCCTTTTCTCACTCACAATCAGTTATCTCTTTCGCTCTCTCTCTCGCTCACTCTTGCTCTTGTCTCGCTTTCTTTCCTCACTCACAATCAGTCTTATCTCTCTTGCTCTCTCTCGCTCTTGCTCTCCACTTGTCTCGCTCGTATCCTTCGTTTCCTCACTCACAATCTCAGTCTTATCTCTCTTGCTCTCTCTCGCTCTCGCTCGTCTCACTTTCTTTCCTCACTCATAATCAATCTTATCTCTCTCGCTCTCTCACTCTTGCTCTCGCTCGTCTCCTTCATTTCCTCATTCACAATTAGTCTTATCTCTCTTGCTCCTCTCTCACTCTCGCTCGTCTTGTTTCCTTTCCTTACGCACAATCAGTCTTATCTCTCTCGCTCACCGGAGTTATGTCGGAGAATAAGAACTAGAGAAGAAGTTGGAGAAGAAGAAGATGTAGGAGAAGAAGAAGAAAAGAAAAAAAAAGAAGAAAGGGACAGAGAGGAAGTCACGAATAAGAGAAAAAAAGAAAAGAAAAAAAAAAAAAAAGAAAACCCTTGACACCTCACAACGTTGATCAGAGATGTCGGCTAATCGTGGACCCGAGTCCACGATTGGCATGCCATGTGGAAATCGACTTTTATCAATATTTTCAACTCAACTTTAATTTTGTTATTACTTATTAAAATAATATTATTTAAAAAAAACGTCCAAATTGAAGTCCCAAATCTCAAGAGATCTGGAAGGAGGAAGCTGCCATTTTGTTGTAGCCTTGCAGAATGAAGCCTAGAAAGGTTAGATACGTGATGTACTGATTCTGTGTGTTAAAAAATGTGCACATGATTTTAAGAAATAAAGCAGTGGAAGGGAAAGAGAAGAGAAAGGGAAGAGAAACATTGTTATTTCTCAAAAACTGTAAACAACAAACGGGAAGGTTCCAACTTGAATAATAATTTTTTTTTTTCAACCTCGACTAATCTCATACGACAATTTGCCTAATTTTACTATATTTGAGTGTTAAAACTCTTGTGAGTCACTTTATTAAAAGAAAATTTGTTTTTTTTTCTCTTATTAATTAAGGGTGTGTTTGGATTGCATTTTTTTTTTAGTATTTTATTTTCAAAAAAAATTCAAAACTATTTTCATAAACCATTGATAACCCTTCAAAATGACTTGTTAAAAAATGAATTTAATAAATAAGTTATGTTGAGGGAAGCATTGAATATAAATTATGGATTCAATATAAATTCTAGGAGAAATGGTTTTAGAGCGTGTAATCGAAAATTTCTTCTAAACTTTCATGATATATGAAAAACGTCAAAATATTCTCACACGGCCTTCTCATCTTCAAAGTTGTTGGTAATTACCGATGGTCATTGTCACATAATCGTTGAAAGTGTTTGTTTTAATGATAAAACAATTTCGAACTGCAAGAGTATTTAGAACAATCCAAAAGTAAAAATAAAAAGTTTCTTAGCTTTAGGATATAATTGAAACAAACCTTAGAATTCATTAATATTTTGAATACTTTAACCTTTGATACATGTCAAATCATTCTAAATTGGACACTTCAAAAGTTCTCTCCCCATACTATTATTGTAAAAGTAAATAAACTTTCCGTTCTTGTATACAATTTGAATTATAAAAAATGTGGCTAAACACGCCACATTAAAAACGGAAAAATATTTGGGTACATTTAAAAAATATATATTTCTTTCTATATTAATAAAAGGGAAAGCATGGATATAACTGTAATTTAAACTACAAGTCAACACTCAAGTATTTCTCAAAAACCAATCATATTAAAAAAGAAAACAATGAAGAAAACCACGGTCTAGGCTGCCCAATCAACAAGAAAATATTAAATCAATATTAGAGTAATACTGGGATGGAACTTAGATTGTACTCATTTTCATGCATTTCCTTCAATTATAAAGGAAAGAAAAAAAAATTCTAGAAAAAGAAAAGATTGTCATATAGTAACTTGTGATTGGACATTTGGGTGAACCGCACATGTGCAACTCGAAATGCATCTAATATATCTCTAAATATTATATGGACACATTTTCAAAAAACCCTATTAGCTTAAAATAACATTATTCTGTTTGCTCTAATAAAGATGACAAACTTTTTTTTTTTTTTTTTTTTGCTAGTGCCCATTTAAGCATAATTAAGTAGATAAACCACTTTGTTATTTTCTTAAATTCAAAGTTATTTTTCCACTTAGGCATTCGTTAAACTAAATGATAAAAGCCTAAATTAGGTATCAACTTTATAATTCTTTTAAAAAAATATCCATATTCATTCAAAAGTTCAATATTACCCTTAACCTTTAATAGGAGTTTCAAAACAATCTTGGGAGTTGAAATTTGTTAAAATGTTGAATAAAAATTGAGATTTGAAATGAATGTGGTGATGATATTTAACGATGCAACAGTTTCTTGATCTTAACTTTCTTTCTAGGTCATGGTCACATCATTGAAGATTTTTAATTTTTGTTCAAATTTTTTAACCCTCTTACTTTAATAGTTCATTTAGATTTCATATATTGTTTCATGTGTATGAATCTTAAATATTTGAAATCTAAATATATAGGATAGTTAGTATCTATATTTGAATCTGTAAGGTAATTAATGTTTGGAAGTTAAATATCAGTGTTTGTTTTCAAAGTTTTATATATAGAAACCAAAATTAAACAATAACTTAATAAATATTAGATAATATGTTGATTAATTAATTATTTAATCACTTAAAATAAAATAAATTAATATTTTTACATAAAACATTAATAAAATTACTAAAAATAATTAAATAAATATAGATTAATTAGGATTTTTTTTTTTGGTTAAGATACAATTTTTAGTCTGTAAGCTTTGAAGTTTGTTCAATTTTAGTCTCTATACTTTCAATTGTCATATTTTAGTTCAGGTACTTTCAATAAATCTTAAATTTAGTCTCTAACTCTAGTTTATTATTTATTATTTTTTTTTTGTTATCTATTAGTATTTTTACTATAAGTTTTGAAAATATATTCACTTATTATATTTATTTGTATGAAAATTAGTTTTATATCAATTTCAATAAAAATTAACTTTGAGGGACTAAAATTATTAGTTATGGATAACAATTGAAACTACGTGGACTAAAATTGAACTAAGGTCACGTTGACTCCTAGTAAACATCAATAGTAATATGGAAAATGAGACCATTTAAATACGTTCCCAAAAAACTAGTTAACAATATTCTGTAAATTATGAATAGTAAATAAAATCTATTACGATTGTAGCAATTTTGATTACAGAGCAGTAAATATGGACTAAGGCCATGTTTAACTGGTTAAATGTAATCAATCAATGGTAATTTGAATAGTAAGTCCCAATTGATTATGTTTGTTGTTATTTATTTGTGATGTTGATTGTAGTTGAAAATTAGTTAGGATCTACTAACTTTATTGTTAATGTTGCAGTATAAAAACTATGAATTGTCATTACATTTACTTTTACCGTTACTGTTCGTTAGGGTCAAACAGTAACGATAACGGTAATAGTAACAATAAAATGCACAATAAAAAATAATATGATTACATTTACAATTAAGACCCAATACAATTAATCTTATTTTTGTGTTTTTTATTTTGATTTTGCTTTGGGAGGAGGTGCGGATATGAGAGTTAGGTCTCGAAACTGCTTGTACTGATTCGGTCATCTCTGAAGCTCAGCTACGGTCTCAGCCTCGGGTAAGCTTTCCCATCCCATTTCCATAGCCGTTGAATAACCTTTCTTCTCAATTTCGAACTCCATCTTCTTCCAATTCACTTCAATCCATGTCTTCTTCTCATCTTCTTCTCTTCCCTATCTCAGGCAATCAGCTTCACACCCAATGGTTTTGTTTCTCCGGTTCATGTTTCTACTTCTTCCACCGATATGACTACGAGACTTCCAGTTCAGCATTACGATCTCAGAACGCCCAATTCCTTCATTGGTAGCGCTCTTCATGATCTCAACACTTCACACGGAAGCCCTTCTGATATTGAAGCCATCAGCGACGTTGACCGCGATGCTGTTACCGATGATCGCTTGGACGATGACCAAGATTCCAGTGCCGTTGTGAGTGTTACTTCTTATTAATTTACATTTTCTTTGATTTTTGTACCAAAATCCATTAGGTCAGATACCCACTCCATGACCAATTTCATTTTTGTAGGACTGTATACATGAATCTTATAGAAGTTCATTACCTATTCACACTGTGGGAGTAGAAGAAGATCGCTCAACTCTTGAAAATAGTGGGTCTTCCAGGTTGTCTTATGACTCTTTAACTGTAGAGGGTAATGTCCACATATCTGAAACTTATCACTTAACTTGAAAAGGAAATAATTTGGAGTTCAATCTCTGCTAAGCCTTCTCGGACTTTTGTTTAGACAAATTATTGATTGATGTAAACTGAGTTTTTGGTTCAGATATTTCACCTATTGAAGCAGCACGAGCAAGATTTCTGCAGATCATTGTGGATCATTTTATTGATGATCATGTACTCGAAGTGACTGAGACTGACAATGAATATATCTCTCAGTCTGGACAGGATAAATTGACAAAGAGGAAGACGAAGGAAGTTCAGTATGAAGGGGACCCAAAATTTGTCTTACCCTTGATGTATGTTGCAAATATGTATGAAACACTTGTTAATGATGCAAACATCAGGCTTGCTTCCTTGAGTGGCATCCGTGATAAAACTATTGGGGTAGCCCTTGAAGCAGCTGGAGGTTTGTACAGAAAGCTGGCTCAGAAATTCCCCAAAAAAGGTACAAAATTTAACTCTTTATCAGTGTTTCCGATGAACAATATAACATTCTTAGCGCCAACGCCCAACAGTTATCATTTTCTTTCTTTCCAATGACTGGTTCCTTGTGAGAGATTCCTGTATGGAAGCTTTTCTGGAAATATATGGTTTGTACGATAACTACTTTCAAAATGACTTTCTATATTTTAGAATAAAAGTTGAATGAAACAGTATTTAGATGACTATCTTTTAAAACCTAGTTTTCTTGAAAAAATGAAGTTGATGTTAATAGTGAACTGTCGTCCATGCCACCTTTTACTGACATCAAAACAAAAAATAAGAAGAAGAAAAATTCGTTTGTAATTATCCCATTGCGTTGATTTACAACAATTGGGCAAATTTTTTGTAACTAGCTCATTGGGAAAGGGATCTCTCTTCCCTGTGCCCCTAAGTCATTGCCCCTTCTTCCATTACATGGTTCATTCCCTTCATTGTGAAGTGTGCAATACCTGGAAAGTGGCTTTATTATCGAGTGGAGCCAGATGAAACTAGGTTTTCTAGATACTTTGAAATTGTTTAGAGACAAACTTTGTCATTTTAATAAAGATATTTCTTCTATCATAATTGACATCATGTTGCCAACAGGCCCTTGCACATATAAGAGAAGAGAACTCGCAACTTCTCTTGAGACAAGGACTAGGTTTCCAGAACTAGTAGTTCAAGAAGAGAAGCGGGTCCGTTTTGTGGTTGTTAATGGTTTAGACATTGTTGAAAAACCCAATGGAATGCCGATTGAAGATGCTGAATGGTAAGTTAAATCATAGAATTTTACATAATTTCCCATTAGTGTCGAAGTTCCCAAATATCATTGATTTCATCTCTATCATTTTGTTTTCCCTGAATTTGTTTTGATGCACAGATCGTGCAAAATCTTTTCTTTTGTTGTACTATACCAGCTCTTTTGCCTGGAAGATATTTATGTCTGGGTTCCAATTACGAGTGAAAAAGAGTTAAGCAAGGGCTTACTTGAGACCATATTCAAAGGAGATCTTGTTATTTATATTCAAATATTGAAACTTAATGCCATTGTGCTGAAAATGTAACTCATCTGTGTATGTAATGATATGAAGAAAAATACTTGCTATCACTACCATATATTTATATATATATATATATTTTAGATTTTTATTGTATTATTATAAGATTGTTTTTTTGTTTTGTTTTGTTTTTTGTTTTTTCTTGAAAAGACACAAACTAAACAAGTTTTGCTATGGACAAACTAAGGAGGTTCAACAATCCATACAATTAATTTGCATGGCATGAAATTCTCAAAATTTTGACCTAAGATGATCGTGGAAAATGACCCGACCATTGTAAGGATGTTGTCGTATCTAAGCATTTAATCATTTTAGGAACCCAGCAAAAGGCAGTGAAGTGATGCTGTACGCAGAGTTCTCTCAATCAATCTGCAAACTTGCTTGCCTTGTTTATTTAGTTTCAAGTTTCAGCATCCTGCAGGACTAGAGAGAATGAACAATCAAATCATTTCTATCATTGGAATGAATGCATCTCAAGATTTTAACTATACCCTTTGTTCATTTATTGCTCGGATGATATTGATGATTGTAAGACAGAGATCTATGACATTGCAGATGTATATATATTTTTTTCATCTGAATCTGGTTTAAAAATCTGCTGAAGTTTCTGATTTCTAATTTCAATTTTGGTCAATAAATTGCCAATTATAATTTGCTCCATTGTGTAGGTTTAGACGATTAACAGGTCGCAATGAGGTAGCTGTATCTGCTCAGGACTACAAGTTCTATTCACCAAGGCATAAATATAGGCGAGTTGCAGCAAATTCTGTGTCCAGCATTTCCAGTTTGAATGTAAGCAGTATAGTAATTTTTCCATTACATGTGATCCATCTTTATAAAGGCATATTTTCCTTAAATACATTTTGCAGGTAATTTTCTATATCATTTCATATATCATGGCTGTAGCTTTGGTATCATCCAAAATGGCGTCAGTCAAGTTATATCGTTTTTCCTACATTTTGTTAAGTGTAGTGTGTACTGTAGAACTGAAGTACAAATGTTAGAGTAGAGTATGCCTTATGGAATTGTTGGTGGAGAAATAATGTCTGATGTATTCTTTTCAGACATTTTCCAGCGGTGACAATTCTTCTACTCTGACTAGTGGTCAAGCATTCCGCTCTCCGGGTGAAGTAAGAATTTCATTCTCTCTCAGTTTTGTGAACGGCACTTCTTCTCTTTGGGGAATAACCTATCTGTTTAATCTTGATCATTATGCCCTCTTACAACATTCATCATTACTTGCTGATAAACAAAAATCTAGAGTTTTTAGCTCCCGTTAGGGGGGGGAGTCTAGAATCAGCCTTTGCTTCAAGAACATTTAGTCTGGGAAATGGTGGGGGATGTCAACAAATCTTCTCGGAAGGAAAGTAATATACATTGTGCAGATTTCTTGTTTTGTCCTAACAACTAAAACACTATCTTTTCTTTCTTGTCTGCGACCTTAAAATCAGCAACAAACACCCTGCAAACATCATATCCAACAACTGCCTCATCAGCCTCAATTTCAGTCTATCCACCAGAATCATCATGAGTCCATGCACCAAAGTCAACATACTCCCCACTTTGCTCACAATCATCAATGTGGTCAACCTTCCCAGTTACAGGATATTTCTCATACTCATCATTCTCCAACAATGTCACAACACATAGCTTGCTTACAACCTCTTTCAGGTGGTCATGTTGGTGGGCGCTTGCATCATGGGCTGGTAATTCCAAGTCCCCCATCTCATCTGTCATGTGATTTATTGATTGATGTTAATATCTGATTGGAGGGAAAGTGGGTTAAGTTTATATCATCCAGTTAATATATTTTCTGATATACTCATACATTTGCAGCCATCCAGTCCTGCCAAGTTCTGTGATGAATGTGGAGCTCCATATTTAAGAGAAACCTCTAAGTTCTGCTCAGAATGCGGTGTCAAGAGGTTGGGAATTTGATTTGTGTTGTATGATGATATCATTATTAGTCTCTCCAAAAACAAACTCAATGTTGTATTTGTATTTAGAACCTGAAGTTAGTGTAGATTGAGTTTTTTTTTGCCATCTTTGTACATATATAGATCTTAAGTATACATGTAGATGTACTTACCCGTTACTTGTCATAGTGCATTGTTATATTCGAGTTGTATTCAAGGGAGTGTTTGGCACGTGGATTTGAACACATTCAGTCTATAAATATTGATATAATTGATTAAAGACTCAAATCTCAAGCTCAAAATGATTTTTGCATCATTTTTTAAAAATCAAGAATTTTGACTTATGCTTACATCATCATGCAACTTTACAAAATTACCTTTAGTTCTTCCTACTTCCTTCTTTCTTGCGATTTCTTTCCCTTTTTTAAATTTTTTTTTTTCCTTCTCTCACTTTCCATCCGGCAAGACCACACGACGAGCTTCGATGAGGCTTTCTCCAACGAGATCAAACTTTTCTTCTTCGACTGACTTCTTATCTCCCTCTTTTCCATTGTGTTGCAAAGTGAGACCCAGCGCGTAGAGCGAGAGAGAGAGAGATTGAGCGTCAACAAGTGAAACTAGAGAGCAAAATCGTGAGAGGAAGGGAGAGAGGAAGCTATCAGTGAGAGGAAAGAGAGCGAGAAAATGAGAGATCCAATCTATGCGTTTGTGAGGATTTCGTTTTGGTAATTTCAACTCAAAAGGTTTAAGAATCTCATTTTAAAAAAGTGGGACAAATTTCATTTTATTTCTCCCAATTTGGATCATATGTACAAAAAAAAAAAAAAAGAAAAAACCCCATAAATAATATTAAGCTTGGACTTTAAGTTGGGAGGTTAGGTAGTCTGAATAGGGTAACTACATATGAACTTTATTTTACTTTTGTTAGCTGGAATATAAAATCAATATATTGGAGCCAATTTACTAATATAGCCTTCATTGAAGAACAAATAATATTTTAAAATAATGATATTAAATAAAGGGAAAAAAAGTCCCTCTCTAGAATCTTGGCCAAAATCTTGTCTCTCCTCTTTCTTGAGAAAAATCTTGTCCCAAAATCTCCAACCAAATGTTCCTGTTTTCTTGGGTAACTATACAAATCGGCTCACATTGTGCACAAATTGTCAAAATGAAAATTCAAATTTGTAGAATTTTATTTTTAATTATTTACAAATTTATCAATCTTATTAAATTTAAATTTTGTTATCTACTCTCTACTAATATTTTCAAAATCCAAGTCAAGTTTTGAAAATTAGAAAAAAAAAAAAGAATTTCAAAAACTTATATTTATTTTTGGAATTTGACTATGAATTCAAGTATTTCTTTAACAAAAACGAGAAAACCATAATTGAAATATTACGAAGAAATAAGAATAAAATTTCTAAAACGAAAAACTAAAAATTAACCCCGTTTCCTAACCATTTCATTTTTAGTTTTAGTTTTTAAAAATTAAGCTAGACATTATTTCTACCTCCAAATTTTTTCTGTTGTATTCTAGTTTTTACAAATGGTTTAAAAAATCAAGCCAAAATTTGAAAACTAAAAAAAATAGCTTTTAAAAATTTGTTTTTGTTTTTGAATTTGTGACTAAAAATCTAACCATTGTATTTAAGAAAAATGCAAATTATTGTAAAAAGTATAGAGAAAATAGACTTAATTTTCAAAAACCAAAAACAAAAAACGAAATGGTTACTAAACGGGGCCTAAATCATTACCCAAACGGGATACAAAATGCTCATTAGTTCCATCTAGTACATGTATACATATTGCTATATTTGAAACAACTTATTTAGGTTTTAGATGAGCATGGCATAGATATTATATAGATATTTCATAATTAGTTCAATGCTATGTGGGTTTAGGGTTTAGTAATTATATATATCTCAAAATCAGTCCAAATAAATTTTACATCTATTCATCGACAAAAATAGTAGTATACTTGAAAAATGTAACAGCCTAAATAATAAAATTGAATTTTTTTGTTTAATAAGTGTAGTTATCAATCATTTGGTTTTGGTTTTGTTTGTTTCTTAAATTTTTAATTTTGTTATAGTAGTCCTGAATTTTATAAAATTTGGAATGGTGGGTCATGCTTAATAACTATTTAGTTTTTGGTTTTTTATTTTTAAAAATTAAGTTTATTTTCTTTCAATTTTTTACCATCGGACAAGAATTGAATTATTTACCAAATTCTAAAATAAATACAATTGGTTAGTAACTTAGTACATCTTGAAAATATTATTATATGCTTCAAATTTTTAACTTTGTTTTTGTTTGTTTGTTTTTTTTTTTTTTTTTTCAAGGTGGAACCCTCAGTAAAGGTTTTAATAGAGGTTTGGGAACACTTTTAGCAAGTGCTTTAGGAGTGGGAGTTAACTATTTGGCCAAACTCTCTGGACACGATGGAGAGCCCTATGTTTTGGGCATCTTAGTTTTTCTTATAGTTAAATATGCCTTCGACCCAGAGGTCAGAAGAAAGTTTGAATTTAAGGAAATTAGGATTAGGATTGTATAGACTTTTGACCAAAAGTTGTTGGTTGTTTTGGGTTTGTAGATGTATTAGCCACATTTTTAAGGTTCTTGCCTGTGATCAAAGCAAGATATGATTATGGATTGTTGATGTTCATAGTGACTTTCACTATAGTTTCGATTTCGGGTTATCGAGTCGATAACTTCTTTACGTTGGCTTATCAGAGACTGTCTTCTGTTCTTGCTGGTGGAGCTATCTGCATTATCATCTGCATGGTTGTTTGCCCTGTTTGGGCTGGTGAAACTCTTCATGATGCTGTTACTTCCAATATAGACAAGTTAGCTAATTACCTTGAAGGTTAGAAAAATCCAAAAAAAAAAAAAAAAAAAGTAATTTATTCCCTTGGGATTCTCTTGCATTTAGTGAACTAATAAAGGTTAAAACTTTGCAGGATTTGGTGAGGAATATTTTCATTGTTCATGAAGATGAAGAAGAAAAGCATGTTACTGATACTAAAAAAGACAAATCATTCCTTCAAGAATACAAAGTTGTCCTTGATTCTAGTACCACAGAAGAATCCTTGGTGGGTTTCCTCTCTAATAAAAACAAGATTTTTAATCTTTCTTTGCCTCTAAATTTCTAAATTTTAAAACCCCTCTTTGGTTTTTTCTTCTCTTGTCTCTAACAGGCAAACTTTGGAAGATGGGAACCAAAACATGGAAAGTTTGGCTTTCATCACCCATGGAAACACTACTTGAAAATTGGATCCCTTGCTCGACAATGTGCCTATGGGATTGAAGCTCTCAATGGCTATCTTTCCCCTGAAAATAATTGTTATTGCAATTTGGAAGAACAACTGAAGTTCTATGCAAGAACTTAAATGATGACTTGCAACAGCTTTAGAGTTTGGTTCCCATTTCAGAGCCGCAGTGTAGAAACTCGGTACGGATGCCTAAGAGCAGAGCTTAGGTGGTTGGTTTGGGAGAGAGCTTATTTCGGCACATCAATTGTAGCAGCCATTCATGTTGATGGCTGCCATATCGGCATGTGTCTCGAAACTGCTTGTACTGATTCGGTCATCTCTGAAGCTCAGCTACGGTCTCAGCCTCGGGCAATCAGCTTCACACCCAATGGTTTTGTTTCTCCGGTTCATGTTTCTACTTCTTCCACCGATATGACTACGAGACTTCCAGTTCAGCATTACGATCTCAGAACGCCCAATTCCTTCATTGGTAGCGCTCTTCATGATCTCAACACTTCACACGGAAGCCCTTCTGATATTGAAGCCATCAGCGACGTTGACCGCGATGCTGTTACCGATGATCGCTTGGACGATGACCAAGATTCCAGTGCCGTTGACTGTATACATGAATCTTATAGAAGTTCATTACCTATTCACACTGTGGGAGTAGAAGAAGATCGCTCAACTCTTGAAAATAGTGGGTCTTCCAGGTTGTCTTATGACTCTTTAACTGTAGAGGATATTTCACCTATTGAAGCAGCACGAGCAAGATTTCTGCAGATCATTGTGGATCATTTTATTGATGATCATGTACTCGAAGTGACTGAGACTGACAATGAATATATCTCTCAGTCTGGACAGGATAAATTGACAAAGAGGAAGACGAAGGAAGTTCAGTATGAAGGGGACCCAAAATTTGTCTTACCCTTGATGTATGTTGCAAATATGTATGAAACACTTGTTAATGATGCAAACATCAGGCTTGCTTCCTTGAGTGGCATCCGTGATAAAACTATTGGGGTAGCCCTTGAAGCAGCTGGAGGTTTGTACAGAAAGCTGGCTCAGAAATTCCCCAAAAAAGGCCCTTGCACATATAAGAGAAGAGAACTCGCAACTTCTCTTGAGACAAGGACTAGGTTTCCAGAACTAGTAGTTCAAGAAGAGAAGCGGGTCCGTTTTGTGGTTGTTAATGGTTTAGACATTGTTGAAAAACCCAATGGAATGCCGATTGAAGATGCTGAATGGTTTAGACGATTAACAGGTCGCAATGAGGTAGCTGTATCTGCTCAGGACTACAAGTTCTATTCACCAAGGCATAAATATAGGCGAGTTGCAGCAAATTCTGTGTCCAGCATTTCCAGTTTGAATACATTTTCCAGCGGTGACAATTCTTCTACTCTGACTAGTGGTCAAGCATTCCGCTCTCCGGGTGAACAACAAACACCCTGCAAACATCATATCCAACAACTGCCTCATCAGCCTCAATTTCAGTCTATCCACCAGAATCATCATGAGTCCATGCACCAAAGTCAACATACTCCCCACTTTGCTCACAATCATCAATGTGGTCAACCTTCCCAGTTACAGGATATTTCTCATACTCATCATTCTCCAACAATGTCACAACACATAGCTTGCTTACAACCTCTTTCAGGTGGTCATGTTGGTGGGCGCTTGCATCATGGGCTGCCATCCAGTCCTGCCAAGTTCTGTGATGAATGTGGAGCTCCATATTTAAGAGAAACCTCTAAGTTCTGCTCAGAATGCGGTGTCAAGAGGTTCTTGCCTGTGATCAAAGCAAGATATGATTATGGATTGTTGATGTTCATAGTGACTTTCACTATAGTTTCGATTTCGGGTTATCGAGTCGATAACTTCTTTACGTTGGCTTATCAGAGACTGTCTTCTGTTCTTGCTGGTGGAGCTATCTGCATTATCATCTGCATGGTTGTTTGCCCTGTTTGGGCTGGTGAAACTCTTCATGATGCTGTTACTTCCAATATAGACAATGAACTAATAAAGGTTAAAACTTTGCAGGATTTGGTGAGGAATATTTTCATTGTTCATGAAGATGAAGAAGAAAAGCATGTTACTGATACTAAAAAAGACAAATCATTCCTTCAAGAATACAAAGTTGTCCTTGATTCTAGTACCACAGAAGAATCCTTGGCAAACTTTGGAAGATGGGAACCAAAACATGGAAAGTTTGGCTTTCATCACCCATGGAAACACTACTTGAAAATTGGATCCCTTGCTCGACAATGTGCCTATGGGATTGAAGCTCTCAATGGCTATCTTTCCCCTGAAAATAATTGTTATTGCAATTTGGAAGAACAACTGAAGTTCTATGCAAGAACTTAA ATGATGACTTGCAACAGCTTTAGAGTTTGGTTCCCATTTCAGAGCCGCAGTGTAGAAACTCGGTACGGATGCCTAAGAGCAGAGCTTAGGTGGTTGGTTTGGGAGAGAGCTTATTTCGGCACATCAATTGTAGCAGCCATTCATGTTGATGGCTGCCATATCGGCATGTGTCTCGAAACTGCTTGTACTGATTCGGTCATCTCTGAAGCTCAGCTACGGTCTCAGCCTCGGGCAATCAGCTTCACACCCAATGGTTTTGTTTCTCCGGTTCATGTTTCTACTTCTTCCACCGATATGACTACGAGACTTCCAGTTCAGCATTACGATCTCAGAACGCCCAATTCCTTCATTGGTAGCGCTCTTCATGATCTCAACACTTCACACGGAAGCCCTTCTGATATTGAAGCCATCAGCGACGTTGACCGCGATGCTGTTACCGATGATCGCTTGGACGATGACCAAGATTCCAGTGCCGTTGACTGTATACATGAATCTTATAGAAGTTCATTACCTATTCACACTGTGGGAGTAGAAGAAGATCGCTCAACTCTTGAAAATAGTGGGTCTTCCAGGTTGTCTTATGACTCTTTAACTGTAGAGGATATTTCACCTATTGAAGCAGCACGAGCAAGATTTCTGCAGATCATTGTGGATCATTTTATTGATGATCATGTACTCGAAGTGACTGAGACTGACAATGAATATATCTCTCAGTCTGGACAGGATAAATTGACAAAGAGGAAGACGAAGGAAGTTCAGTATGAAGGGGACCCAAAATTTGTCTTACCCTTGATGTATGTTGCAAATATGTATGAAACACTTGTTAATGATGCAAACATCAGGCTTGCTTCCTTGAGTGGCATCCGTGATAAAACTATTGGGGTAGCCCTTGAAGCAGCTGGAGGTTTGTACAGAAAGCTGGCTCAGAAATTCCCCAAAAAAGGCCCTTGCACATATAAGAGAAGAGAACTCGCAACTTCTCTTGAGACAAGGACTAGGTTTCCAGAACTAGTAGTTCAAGAAGAGAAGCGGGTCCGTTTTGTGGTTGTTAATGGTTTAGACATTGTTGAAAAACCCAATGGAATGCCGATTGAAGATGCTGAATGGTTTAGACGATTAACAGGTCGCAATGAGGTAGCTGTATCTGCTCAGGACTACAAGTTCTATTCACCAAGGCATAAATATAGGCGAGTTGCAGCAAATTCTGTGTCCAGCATTTCCAGTTTGAATACATTTTCCAGCGGTGACAATTCTTCTACTCTGACTAGTGGTCAAGCATTCCGCTCTCCGGGTGAACAACAAACACCCTGCAAACATCATATCCAACAACTGCCTCATCAGCCTCAATTTCAGTCTATCCACCAGAATCATCATGAGTCCATGCACCAAAGTCAACATACTCCCCACTTTGCTCACAATCATCAATGTGGTCAACCTTCCCAGTTACAGGATATTTCTCATACTCATCATTCTCCAACAATGTCACAACACATAGCTTGCTTACAACCTCTTTCAGGTGGTCATGTTGGTGGGCGCTTGCATCATGGGCTGCCATCCAGTCCTGCCAAGTTCTGTGATGAATGTGGAGCTCCATATTTAAGAGAAACCTCTAAGTTCTGCTCAGAATGCGGTGTCAAGAGGTTCTTGCCTGTGATCAAAGCAAGATATGATTATGGATTGTTGATGTTCATAGTGACTTTCACTATAGTTTCGATTTCGGGTTATCGAGTCGATAACTTCTTTACGTTGGCTTATCAGAGACTGTCTTCTGTTCTTGCTGGTGGAGCTATCTGCATTATCATCTGCATGGTTGTTTGCCCTGTTTGGGCTGGTGAAACTCTTCATGATGCTGTTACTTCCAATATAGACAATGAACTAATAAAGGTTAAAACTTTGCAGGATTTGGTGAGGAATATTTTCATTGTTCATGAAGATGAAGAAGAAAAGCATGTTACTGATACTAAAAAAGACAAATCATTCCTTCAAGAATACAAAGTTGTCCTTGATTCTAGTACCACAGAAGAATCCTTGGCAAACTTTGGAAGATGGGAACCAAAACATGGAAAGTTTGGCTTTCATCACCCATGGAAACACTACTTGAAAATTGGATCCCTTGCTCGACAATGTGCCTATGGGATTGAAGCTCTCAATGGCTATCTTTCCCCTGAAAATAATTGTTATTGCAATTTGGAAGAACAACTGAAGTTCTATGCAAGAACTTAA MMTCNSFRVWFPFQSRSVETRYGCLRAELRWLVWERAYFGTSIVAAIHVDGCHIGMCLETACTDSVISEAQLRSQPRAISFTPNGFVSPVHVSTSSTDMTTRLPVQHYDLRTPNSFIGSALHDLNTSHGSPSDIEAISDVDRDAVTDDRLDDDQDSSAVDCIHESYRSSLPIHTVGVEEDRSTLENSGSSRLSYDSLTVEDISPIEAARARFLQIIVDHFIDDHVLEVTETDNEYISQSGQDKLTKRKTKEVQYEGDPKFVLPLMYVANMYETLVNDANIRLASLSGIRDKTIGVALEAAGGLYRKLAQKFPKKGPCTYKRRELATSLETRTRFPELVVQEEKRVRFVVVNGLDIVEKPNGMPIEDAEWFRRLTGRNEVAVSAQDYKFYSPRHKYRRVAANSVSSISSLNTFSSGDNSSTLTSGQAFRSPGEQQTPCKHHIQQLPHQPQFQSIHQNHHESMHQSQHTPHFAHNHQCGQPSQLQDISHTHHSPTMSQHIACLQPLSGGHVGGRLHHGLPSSPAKFCDECGAPYLRETSKFCSECGVKRFLPVIKARYDYGLLMFIVTFTIVSISGYRVDNFFTLAYQRLSSVLAGGAICIIICMVVCPVWAGETLHDAVTSNIDNELIKVKTLQDLVRNIFIVHEDEEEKHVTDTKKDKSFLQEYKVVLDSSTTEESLANFGRWEPKHGKFGFHHPWKHYLKIGSLARQCAYGIEALNGYLSPENNCYCNLEEQLKFYART Homology
BLAST of Clc01G07420 vs. NCBI nr
Match: XP_038906985.1 (uncharacterized protein At2g02148 isoform X1 [Benincasa hispida]) HSP 1 Score: 871.3 bits (2250), Expect = 5.9e-249 Identity = 439/449 (97.77%), Postives = 444/449 (98.89%), Query Frame = 0
BLAST of Clc01G07420 vs. NCBI nr
Match: KGN50970.2 (hypothetical protein Csa_017795 [Cucumis sativus]) HSP 1 Score: 856.3 bits (2211), Expect = 2.0e-244 Identity = 430/458 (93.89%), Postives = 444/458 (96.94%), Query Frame = 0
BLAST of Clc01G07420 vs. NCBI nr
Match: XP_008466689.1 (PREDICTED: uncharacterized protein At2g02148 isoform X1 [Cucumis melo]) HSP 1 Score: 850.9 bits (2197), Expect = 8.3e-243 Identity = 429/449 (95.55%), Postives = 439/449 (97.77%), Query Frame = 0
BLAST of Clc01G07420 vs. NCBI nr
Match: XP_031742091.1 (uncharacterized protein At2g02148 isoform X1 [Cucumis sativus]) HSP 1 Score: 847.0 bits (2187), Expect = 1.2e-241 Identity = 425/449 (94.65%), Postives = 437/449 (97.33%), Query Frame = 0
BLAST of Clc01G07420 vs. NCBI nr
Match: XP_008466691.1 (PREDICTED: uncharacterized protein At2g02148 isoform X2 [Cucumis melo]) HSP 1 Score: 842.8 bits (2176), Expect = 2.2e-240 Identity = 427/449 (95.10%), Postives = 437/449 (97.33%), Query Frame = 0
BLAST of Clc01G07420 vs. ExPASy Swiss-Prot
Match: Q56XX3 (Uncharacterized protein At2g02148 OS=Arabidopsis thaliana OX=3702 GN=At2g02148 PE=2 SV=1) HSP 1 Score: 484.6 bits (1246), Expect = 2.0e-135 Identity = 277/461 (60.09%), Postives = 340/461 (73.75%), Query Frame = 0
BLAST of Clc01G07420 vs. ExPASy Swiss-Prot
Match: Q9SRM9 (Aluminum-activated malate transporter 8 OS=Arabidopsis thaliana OX=3702 GN=ALMT8 PE=3 SV=1) HSP 1 Score: 174.1 bits (440), Expect = 5.9e-42 Identity = 91/189 (48.15%), Postives = 121/189 (64.02%), Query Frame = 0
BLAST of Clc01G07420 vs. ExPASy Swiss-Prot
Match: Q9SJE8 (Aluminum-activated malate transporter 2 OS=Arabidopsis thaliana OX=3702 GN=ALMT2 PE=2 SV=2) HSP 1 Score: 172.2 bits (435), Expect = 2.2e-41 Identity = 84/189 (44.44%), Postives = 126/189 (66.67%), Query Frame = 0
BLAST of Clc01G07420 vs. ExPASy Swiss-Prot
Match: Q9SJE9 (Aluminum-activated malate transporter 1 OS=Arabidopsis thaliana OX=3702 GN=ALMT1 PE=1 SV=1) HSP 1 Score: 171.4 bits (433), Expect = 3.8e-41 Identity = 85/189 (44.97%), Postives = 122/189 (64.55%), Query Frame = 0
BLAST of Clc01G07420 vs. ExPASy Swiss-Prot
Match: Q9XIN1 (Aluminum-activated malate transporter 7 OS=Arabidopsis thaliana OX=3702 GN=ALMT7 PE=3 SV=1) HSP 1 Score: 171.0 bits (432), Expect = 5.0e-41 Identity = 90/211 (42.65%), Postives = 122/211 (57.82%), Query Frame = 0
BLAST of Clc01G07420 vs. ExPASy TrEMBL
Match: A0A1S3CRT6 (uncharacterized protein At2g02148 isoform X1 OS=Cucumis melo OX=3656 GN=LOC103504040 PE=4 SV=1) HSP 1 Score: 850.9 bits (2197), Expect = 4.0e-243 Identity = 429/449 (95.55%), Postives = 439/449 (97.77%), Query Frame = 0
BLAST of Clc01G07420 vs. ExPASy TrEMBL
Match: A0A0A0KJ56 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_5G114620 PE=4 SV=1) HSP 1 Score: 847.0 bits (2187), Expect = 5.8e-242 Identity = 425/449 (94.65%), Postives = 437/449 (97.33%), Query Frame = 0
BLAST of Clc01G07420 vs. ExPASy TrEMBL
Match: A0A1S3CS09 (uncharacterized protein At2g02148 isoform X2 OS=Cucumis melo OX=3656 GN=LOC103504040 PE=4 SV=1) HSP 1 Score: 842.8 bits (2176), Expect = 1.1e-240 Identity = 427/449 (95.10%), Postives = 437/449 (97.33%), Query Frame = 0
BLAST of Clc01G07420 vs. ExPASy TrEMBL
Match: A0A6J1JUM3 (putative pentatricopeptide repeat-containing protein At2g02150 isoform X3 OS=Cucurbita maxima OX=3661 GN=LOC111487648 PE=4 SV=1) HSP 1 Score: 830.5 bits (2144), Expect = 5.6e-237 Identity = 420/452 (92.92%), Postives = 437/452 (96.68%), Query Frame = 0
BLAST of Clc01G07420 vs. ExPASy TrEMBL
Match: A0A6J1JTA2 (uncharacterized protein At2g02148-like isoform X1 OS=Cucurbita maxima OX=3661 GN=LOC111487648 PE=4 SV=1) HSP 1 Score: 827.8 bits (2137), Expect = 3.6e-236 Identity = 418/449 (93.10%), Postives = 435/449 (96.88%), Query Frame = 0
BLAST of Clc01G07420 vs. TAIR 10
Match: AT2G02148.1 (unknown protein. ) HSP 1 Score: 484.6 bits (1246), Expect = 1.4e-136 Identity = 277/461 (60.09%), Postives = 340/461 (73.75%), Query Frame = 0
BLAST of Clc01G07420 vs. TAIR 10
Match: AT3G11680.1 (Aluminium activated malate transporter family protein ) HSP 1 Score: 174.1 bits (440), Expect = 4.2e-43 Identity = 91/189 (48.15%), Postives = 121/189 (64.02%), Query Frame = 0
BLAST of Clc01G07420 vs. TAIR 10
Match: AT1G08440.1 (Aluminium activated malate transporter family protein ) HSP 1 Score: 172.2 bits (435), Expect = 1.6e-42 Identity = 84/189 (44.44%), Postives = 126/189 (66.67%), Query Frame = 0
BLAST of Clc01G07420 vs. TAIR 10
Match: AT1G08430.1 (aluminum-activated malate transporter 1 ) HSP 1 Score: 171.4 bits (433), Expect = 2.7e-42 Identity = 85/189 (44.97%), Postives = 122/189 (64.55%), Query Frame = 0
BLAST of Clc01G07420 vs. TAIR 10
Match: AT2G27240.1 (Aluminium activated malate transporter family protein ) HSP 1 Score: 171.0 bits (432), Expect = 3.5e-42 Identity = 90/211 (42.65%), Postives = 122/211 (57.82%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Watermelon (cordophanus) v2
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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