Chy7G133510 (gene) Cucumber (hystrix) v1
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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.ATGTCTGGAGCAAGAGAAGATGAAGATGAAGAACAAACTCGTCAGAGGAAGCTTGAAGAAGCCCTCGAAGTCAAATCGCTCCGCCGGATTGTCAGTGCATACCTCAAGTACGTTTTGTTTATCCTTCATCATATACTGCGTTATTGCGATCGACTCTTTTCTCTTTGATTCATATATGTATGCACTCGCGTATTGGTTATTGGTTAAAAGACTAGTTTTTTAATCTGGGTATTGGGGGTCGTTTTGAATTATGTTATTTCAGGAATGTTATTGAAGTCTGTGAATTAAGGTAGTAGTTGAAGCTTTTAAGCCGGATAGAGTCGTTGAGATTGAAGTATTGGCTTGTTTCAACTGGCAGGTGGTTATAGAAACTATCTCCATTCGTTAAAACGCATTGGAATCTTTGTCGTTTAACGACTTAATTGAAAAAGAAGAAGGAAATAATGGATAGCTATAATTTGTATTGATACTGCTTTTATTGAAATCTGTGAATTAAGATAGTAGTAGAAGAATCTTTTAAGCTGGACGGAATAATTGAGATTGAAGTATTGACTTGTTTCAACTGGCAGGTGCTTATAGAAGCTATTTCCAAGAAAAAGTAAATAATGGATAGTCATAATTTGTGTTTATACTGCCGTTTTTTGTTTCTCATCTTCGTCCTCCCCTTTTTCTTGAGTAATCACATTTGTTGGTGGATATTTCAGTATCTTATTTGTCATTCTTGTAGTAGGAATTCTCTTTTTGTGGTATTTTTTTTACGGCGGTGTATTCTTTCATTTTTCTGAATGAAAGTCATTTGTTGCTATTAAAAGAAAGTATCTTATTTTACACTCATATATTGATACAGCTATCCAGAGGCTTCAGAAGAAGACGTGAAAAGATATGAAAGATCGTTCAGTAAGCTTCCTCCTGCTCATAAGGTATCCAGATATTTCTTCTGTAATTGAACTTTTGTTAACCGGCAAAAATCTACTATACCTGACGAACTACTTAGATAATTATTTAATGGATATAAATCAAATTTATTGGTAAAATAAAGTCGCAATTATGTAAGCTTTGTGATGCATGTGACATTATGCTTTTCTGAATGAGAAATGAACTTTTCATTGATTTCATGAAAAGAAACAAGTTTTGGGAGGATACAAACTATTCATTTCATGCTAATAGTTTTAACGTTTTTTTTGTCCATCAAAAAACTTCAATTGCATGATATCATGGGCAGTTTATTACTGGCAGTTAGCTTTTCTTTCTTCTCCTCCCTTTAATATGAAACTTTTAGTTTATGTTAAACAGTTAACGTTTTTTATTCGCTTGTATTTGTATCTAGGTTTTTCATTTTGTATTTTGTCTGTTTTATTTTCTCTCCTGAGAATTTGTAACCCTTAATATTTGTTTCTTTTCACTATAACAGGGAGAAGTTGATTTGTGTTAAAAAAAGAGAAAAAAGGAAAAAAGAAATGAGTTTTTATTAAGTTGAATGAAAGTACATTAGAAGAACCTTCAAAAGTCAGATTGGGAAAAGATCATTTAAGCTCTAATTGTTTGGAATATAAAATAGTGAAAAAGAGCATATAAAATACCCAATGACTCAAGAAAGAAAGACTTAACCCTCCATAGGATTGGGGCTCCATATCCTCGCATCCCTTCTCCCAAGATAAAGGGTGGCCCTTGAGTAAGGAAAGAGGAGCGGTCACCTCTGTTGCTTCCATATTAGAAAGGGAGTGGCAGAACCCAAAAGAAAAGGAACAAGAGCACTCAAACCACACAATAAATTCAACAACAAAATGATTTTTGAGAGAAGATCAATGATAAAGACGTGGAAACAAAGTACAAAAGAGGTCTCTCTCACAATCATTGATTATCCCAAAAGTACGTGTCCCTCCCCTCCCCTGCATACAACAGATCAAAGGAACAAAAGAGGGGAGCTCTTTTGAAATATCTTTCCACAAATTTCGATGACTACCTTTAATTCCCTTTGACAATCACCCTAAAGGATGAGGGCCATGCTTACTATCGATGATCCTTTACTGTAGGGGATTGGGCTCAAAGGAGAAACACCCTAAGCCATTTGGTTAATAAAACCTAGTTACAAAAATTTAAATTCCCAATTTGAAGTCCACCAAACGAAATCGACCTCTTGATAACCTCCCATCTAGGCAAGTGTGACCTCTTTCCTTTTCCTTTCCCTTCCTTCACATCCTTCTTAGAGAAAATTACGTGTTAACCTCTCCAGACAAACACACATCGCATTGCGCTTTGGAAAGAGAAAAATAGTAAATAGAAATGCCACTTGAAAGAAATCTGATCAAGGTAAGTTTTCCAGATTTAGAAAAGAAGCCTTTTTTCCTAGTGGCGAACCTACTTTGCACTTTATCCAGCATTGGGATCACAAAGCCATCGATTTTGTCCAAAGAGGGTCTCCCTTCCTATGACCTCTCATCACTACCACTTTACCCTTAGGACATTCATTAATGAGGGAAGAGAGATGGAGGCGTTGAAGCAACATGCCCTTTACATTTTCTTGTACCTTAAATGCTACATTCTTCATCGCCCCTTGACATTAGTGAGATGAACACAATTTTGTATTAAACAAAGAGAAGATACAAGAAACGTTAGGAAGCTTAAGCGTCATTCAATCCCAAAGTAAATAGGAGTAACAGTCTAAGAAGAAGCTTCTCAATTGATAGGATAGTAAAAGTGGAGTTCTCAACATTCCTATCAAAGGAGCTTGAATTAGGGTCTACCAAGTGGAGCAGCCCATAACATCTCCCCATTTCTAAAGTTTTCTCACAAGATTCTACCATTTGTCCGACCAAAGTTCCAACATGGGTAGTCCTCAGACTCAAACTGCCACCAGCTTCAAGAAACCCTCTATATTTCTCGGCACACACCAAGGTGTCCCAACAGAACTAGGAAACCTTATTTAACACTTTCGAGCAACGGGTGACGGAGAAAACAATGGTCATTTCTCTTTAGCTATAAACTATATTTTCAATTTAACTCTGAGCAATGGGATAATGGGAAATGACCATGACTTATTAATTTCTACAATATTTTCAACTGTGTTTTACATTTATCATTCTCAACACTTACATTCTATCATTCTCAACACTTACATTTGTGTAATAATTTTTACTAGCAATTATCTCTAGTATTCTAACTTGTCTGTTGACAAACTTTTTGATTGCTTGTGCAGGCTCTATTATCACACTTTCCCTTGAAGTTTGAGAGACTAAGAAGGTAGATTTAAAATAGCTAGATTTTTATGGACAGGAATATCAATTGCTTAAATATTTGGCCCTGTTTTTGCAATTGTAAAAAAAACATTTATATTTGGAATGACGTATTAATCAGTGCAGAGGAAATCGAATTTCCTTTATGTTTCTTAATGACGTTCTCTTGGATGATTTTGAATATTGAAAGCCCAATAATTGTTCAAGTTTGGTTATTGGTGATTGGGAGAGAATGTTTTGTGATCATTAGTTATATGGTCTTACGTTTTCTTCCTCCTTTGGTGGTTGCGGAGCTGGCTCCATTTTTCTTATTTGTCTAGTTTCATTATAAAAGAAATTAGTCCTTGTAGAAAACCTGTTACTGATATAAAAAATATTTACAGTTTGTCTTAACTTGTATATTTTACCATTCAATGTATGAAGTGTTGTCATAATAGAAGGCCTCTGGTTTCATTTCTTTCATAGATGCACGAAACATGTTACCAACTATCAAGTATCAAACAACACTCCCGCTTTTGGTTTTAGGATCTCTAGTCTTTGTTTATAGATTTTCTACTCTTTGCATATGTATGATTAGGTCGCAACACTTTCAATGGTCATCTATTAACTTTAGTGAACAGATACTGCATTTAAGGATTTGGTTCACTTTATTAATATCTTGAGTTCTGAAGCAAGATGGTAGAGATAGTTGTGAACTTGATAAATATAGAATGAGTGGATGTAACCATCTTGGGTTGATTTAGTGAAGTAAAAATTTTGAGTTTGATAAAGGACTGAAAGGGGATGAGTTCAATCCATGGTGTTCATCAACCTTAGATTTAATATCCTATGAGTTTCTTTGATTCGCAAATGTTGTGAGGTTGGGCAGTTTACCTGTGTGATTAGTCGAGGTGCGCATAAGTCGACACAAGTTGGCATAGATGCTCACAGATATTTTAAAAAAAAAGAACGGTAGGATGAGGAAATGTTGGTGCAAAATAGTAGGTTGTGTTGTTTAGAAAACAATAGAAGATTAGATTAATTGTTAGATTCTTTATTATTTTATGATACAGGTAAACTACCTACATAAATTAAGTTTTAAAGAGGGAAAAATGGTGTAACTTGTAAGTCATTAGTGAAGTGTTAGAAATTCTCTCTTATCGTAAACCAGAGGGGCTGGATAAGTTCTAGGAGTCTCCCTTATCTTTGATTATTTTGGGGTTGGTTCGGCCATACTGGGCTTTGAAAAGAATCATATATCAATTAATTTCTTAGATTTTGTAAACCTAGAATTTTCAAGTTATTTAATTAATTTCTAATTTCTATTTTTTTTTATAACATGGAACTTAGATAACGTAAGCGGACAAACATATTGCTAATTTGTTTGAATTCTTTTTCATGTATCAGCTACCCCCTAAATCATATGCATGAAAGTGACCATTTTTAATCATCTTTAGATTGTTGAAATTAAACAAAATAAGACTACATGTACATTAGAAGGTCAGAGGTCATGACAAAGTGGTTTCTTCCTTCAAAGGCCTGTTTTAAAGGTACACGTTTTATTCTTTTCTTATCGCCTAATAAAAAGTAGTGAAGAAGTATTGGAACTGTGATGTAGTATGAAAAAGGTGTTCTCGAGGAGGAAAAAAAGAAAGAAAAAAGGAAGGAAGGAAAGAAAGATAGATTTCATATTTTATGGTTTTTTGTTCCTTCTTAACCTTTTAGCAATTATTGCTCTTTTGCAACCGTTGCTCTGCACGGAAATTTCAAGCTTGCCAAAATGAAAACTGTAATTGATTGCGGTACAGATGTTATTGATTCCTAATCACTTAGACGATTTTCATTTCCTGCTCAATTCCATTGCCTCTTTTAACATTTGGAAGCTATCTAAATCTACCTGTGGTTGGTCCTACCCAAGGTTTAAATATTGATGTGGATAGAAGTATTGAGATATAATTTTACGAGAAGACATACTGCCATACAAAAGAACAGTGTTTGGCATATATTTTGTTCCCTTATCTCTCCATTTGCAGACTTTTGGAATTCTCTGTTTTCCTCTCTTTATCAGTTGACCTCAATAAACGGCTATGATATTGATTGTCTTGTCTGGCCTTTATTTCATACTATGCCGATCTTCTCTTATAAGATAGTTTGTAAACAATGTTTCGAGCAGGCTATTGTTAGCTTCATGAGACGTTAGTCATTACAGAGTAAATTCTTGAATATGAAGTCGAGAAGCTGTTGTAATGATTACTTTCAACTCTTTTGAGTATGATATTATGGAAATTTTGCAGACTGTAACCAATTGACAAATTAACTTTGCAGGTGTATTTCCACGAATTCATATTTCATCTTTAACATGCTTCAGGTATGCACTCTTACCCTCTGGCCTCCAGTAATAAAAGTTCATCTGTGTAATCCCTACAGTAGAATTACGTCAAGAGCTCCTATAAAAAGAAAAGGATGATTGAATACTACATACTACTAAATTTCTAGCTTTATCAATGGGAAAGAGATTTTATAGAGCAATGAAATGATAAATGATATTATGTATCTTCATTGCCAACCTAGGAGTAGCTTAACTGGTTGACTAAATTTGAGCCCTCCCTAGGAGCAAGTTTTGACCTCTTTGCCCTATAATATCATCATTGCCAACCTAGGAATAGCTTAACTGGTTACAACATATATTCTTGACTAAAAGGTAAAAAATCTGTATCGCCACACCCTCACTAGTTGTTAAACTTAATCATTTTGAGTCCAGCAAAGGAGAGTTAGGAAAGGGTTCTGTTTTAGATTTGTCTGTTAGTTTTTTGTTCATGAAAGGATGCTGATGTAAAGGTCTTATGTTTTCGACCACTTTTTATTAGCTCTATGTCATTTCATTATCTTTATTTTTGTTTTTGGATATGATGAGGACGCTAAGGGGGTGTCAACTTAGTTGAGATGTCCGGGTGCGTCTACTCATCTTCAGTTCTTTATTTGCTTATTGTATAACCCTCTTGTACCTTGAGCTCTGACTCATTATTTAATATATGAGATTTGTTTCCTTTTAAAAAACACTAGTTGTTAAACTTAAACTATTTTATATCTTCTCTTGATTCACCAGATGTAGCCCACCCATTTTTTATTATAAAAAGAAAAACAAAAAGAAAGAAAAGAAAGAACGAAAAAAAACCTCATTTGCCATGTTCCCTTGGAGAGAATCTTATAAAAAATGTTTGTTAAGTGACAAGTTTAACTTTAGTTCTTGAGCTTTGATGTCTATTGGACCCAATCGAAAGTTTATGATTAAAAGTTCTTTATTTCACCACTATAGCTTTACCACACTCCTTAAAGGTCTTCTGCTCCTTTTTGGGAGTCTCTTTTGCTTCTGCAATTTCATACCAATGAAATCTTTTCTTAAAACAAAAACGGCTAAATAGACAAGCCGCAACGCTCAAGGACTTAACTTTTAATTTTACCTAAAGTAATATTTGTTGAAACATGATCCAACCTAAACAAAAATCAATAAAGATAAAATAAAAAAGGAATTGGAGGGAACGCCTCAACATCATTTATTTTTCCAAATTTTGATGACATTGTTAAATGATGGTTTAGGAACATTTCTTTTCAAGTTCCCAAGTTATCTTTCCCCTCTCCATTGCTTCCTCTTTCTTTTCCACTGCACGTTAAGTTTTTTGGTCTTGTTTTAAGGTAACAACATTCTTGTATGATGGTAAGGGTTGGGTCTTCTGAAGTAGATCTCCATTTGGTTAAAGTAACGCAGACTGTATTCCTTTTCCCCTATGTTGAAATGATGCCAGGCATTTGAACCTCCACTTGATATGAGCCAAGACGCTGATTGTTGTGATGGTTCATATCCTGATCATGCCCATGATGATCAATTTTGTTGTAGAGGAGAAAGAAATGCCAATGGTAATTTATGTTCTCGGGAGAGCAATGTATGTTCTGGTGAGCCAACTTCAACAAGTGGAAGAATGTGTTCTTTAGAATCCAAACAAATCTGCTGTCCTGAAGGTGCAACTGACTCGCCTAAGGCATCAACTATCAACCAGGTTAGGCAACAATGTGAAAAATGGCTCTTTCATCTATCTATATTTGTGAATGCATGCTTTGTCCAAATTAATTGCACGATCACTTTATAGGGCTCTATTTGTGTACATGCATGGTTATGTTCACTTGTGCGGTTTTACCAAATATTTGGGAAGAAGGGAATGGTAGAACCTTTAACGATTTTACGAATTCATCCAAATATGTCCTAGAATCCTCTATTTTCACTAACTAATTTGGTGTAAAGATCTACAACCCCTCAAAGACCACAATTTAATTTTTCTTATTGCTAACTGTAAAATTGTATTCCTTGTGGATTTTTTTTTGTTGGAAAGGAAATAAATATTTTCATTGATTTAATGAAAGGATTCTATTGCTCAAAATACAATGAAATAAAAAGATTAAGACAATGAACTTAATCAATACAACTTTAAGACTTCCCAACACTAGATGAAAGACTTAACAGAGAAAATGATAGAACTCCGGTTCAAACATAGATCTTGAATAGAAAAGTTATTTCACAACTTGGAAAAAGAAAACACCAAGAAAAAATATTGATCCTTGCAACTTCGATCGAGTCACTCAAGGGATTTATCATGGAAGACCCTTTGATTTCTTTCAAGCAAATTTCAGCAAGTAGAGCTTTCACTGCATTTGGGCAAAGACCAAAGTAAGATTCGGGGGCTTCTATGAAGGGCCAACTAAGATTTCCAAAACACTGATCTTGAAAGAATCTCCATAAACCCACTGAAGATGAAAAGTGGAGAGTAATTTCATCGCACCAATGAAAACCTACATTAGAAAAATAAGTGTTGGAGATCTTCACTCGCAGCCATACACAAAGGGAACAAATTGTAGGGAGACAAGTTGTGAATTGGAAGCTTGCTTTGCATAGGGATATTCTTTATCTTTTGGATTATATCGTTTTCAATAAAATTGTTTCTTATAAAAGAAATTGCACGATTAATTTATCTATCATTTTTATCATTTGTTTTGGGTAGAATGCACAAATAGCCATGCAGAAGACTTTGTAAAAATTAATTATTAGTGGTCGTTTAAAATGCATTTCCAACTGTTCAACATTTTTTCATTAGATCAATAAAAATGTTCCCCCCACACACGCACGCGCGCACACACGGGGAGGGAGGAAGATTGCCCTGTCAAATTAAAAGTTGTGCTGGGTTTTTTGTACAGCAGACGCTGAGTACAGGGGATGTTTTTACTCTTCTTTTTTCAGTTGAAAAATGAGGAAAATTGACATCTTTATATGACAGGAAGTCGAAAATGGTGTTAACCATGACCAACATTTGGAAGAGAAGGAAGTCACAGATAAACACAGTGGACACTGTGCTTCTGATTGCAATGGAAATGTAACTTCTTTCATTCTTTGCTTAATTCTACAAGTTCCTCTGATTGTTGGACTTCATTGCAATTTCTATCCTTGACCATGTCATGAAAAATCAGATTAGTATGTTACTGTGATGCTGAAATCCTTCGAACTGTCAGCTCTGTCAGGCTCAACAGCGCATCTTTTGCCCTAATTATATTCTTTTCAGTGGTTCATGTAGATTGGTAGTTTGGATGCATTCTGACACGAAAGGCCATTGTGATGTTTATAACTTATATATTGTTTTGATACATTTGCAGGACTGTTCATCATCTCATGAATGGCTGGACCCATCTCTACAGTTGAATGTTCCATTGGTTGATGTGGATAAGGTTCATTCCTAGAAGCTAGCTCCATGAAGCTTTATTTGTTTGTTAATATTCTGAACTAGAACAGAAGACATGAAATTGAGAACTCTATTCAACCTCCCTAATTGTCTTATTTGAAGCACAAAAGTTAACTGGGTCAAATTTGAAACTGATCAGTTATTTTATTTCTTGGTTAGGTGCGTTGTATTATAAGGAACATAGTCAGGGATTGGGCTGAAGAGGTATGTTTTGATCATCTTTTTGAGACTTCATTGTTTAAAAAAATAATAACCCACTATCTTCTCTAATCTGATGTAGGGTCAAAAAGAGCGTGAGCAGTGCTATAAGCCTATCCTTGAAGAACTACATTCCCTTTTTCCAGATCGCAAAAAAGAGAGGTATGCTGAATGCTCTTTTTTATTAAGTTATGAACAGCAGATTAAATAATCTGAACCTGGGCATTATGTTCATCAGTCCGCCTGCTTGTTTAGTCCCTGGAGCTGGACTTGGACGACTGGCTCTGGAGATTTCATGTTTAGGTATGCATTCTGATTTTTCTAATTAGTATCTGATTATATAGAAAATTAACCACAGTTAATATTTCTCAACTACAAAACAGGTTTTATAAGTCAGGGGAACGAGTTTTCATACTACATGATGATATGCTCAAGTTTTATTCTTAATCAGTAAGAACTTGTGTCAAACATTTTAACTTGGTGCATACACCATGTTATTGCTAAATCAGAGCAATTCACTTCAGATTTATAATGAAATGGCTTTCTTGAATATTAGTACCCAGAAGGTTGGTGAATGGACAATATATCCCTGGATCCACAGCAATAGCAACTCACTTTCAGATAGCGATCAACTTCGTCCTGTTTCAATACCAGATATCCATCCTGCAAGGTATGCACTGTCTTATATTGTTCTCATTTCTGGTCCAATTCCTCAGTACATAACCTATCTTATTGCTGTTATTTTTTAGCATAATGGTTTTCTCCTTTGTAGTGGACAATTAATATTTTAGTTATTAATTTTTATTAAATTGGTGAGGGTCGAAGAATTCTTTGTTATCAACAATTAAATTTGTTTCCGTATAAAAAAGAAAAGAACGTAAGGAATGTACTTACTGTTAAATTTGATAGTATGGGGTTCCATCTCAAAACCAATTGGCAATGAGAGGAGTAACCCATCTATCTTATATGGAGTATGAGTCTCCTTGGTTTTTCCAATGTGGGACTCTCAACTCTCCAATATGCCCCTCAAGATGGTGCCTCTTTGGGTTCATCTATCTTGGACCGAATACCCGTTTAGGTTTACTGGGCTTTGATACCATTTTAAACTTGATAGTATGGGGTTCCATCTCAAAACCAATTGGCTATGAGAGGAGTAACCCATCTATCTTATATGGAGTATGAGTCTCCTTGGTTTTTCCAATGTGGGACTCTCAACTTCTCCAATAAGCTATAGGGTTTTAGTCTCCTTGTATTCTAGCCGTCACATCCCCGTTTGTCTGGCTCCGTTGATTCGTCGACGGAGGCAGAGCCATACCCACCATACCCATCAGTAATCAATACAAATCATTCCTCCAAGTAGTTCGCTCTGCCGCATAGATCAAAATCCTCGTCTCTGATTCTGCCGCTGCCGTCGCCACTACTTTTGCCGCGACTGCCGCTACTACTTTCGCCGCGATTGCCGCCACCACTGCTCCTTCCATCTACACAGTTCGTCGCACTCTCGCGCCCAGATCCGTGTCTCCATTCGTCCTCGCTCATATCTACCAGTTCGCACATTGCAACCACCGATTTGTTGGCGCATCTCCGTTCGTGTCTCCAAATTCCAGACATGTGTCTTATTTCGTCTTCCGCCCAGATCTATCGATCCTGTCCGCCTTCGAACCATACTGTTCCAGATCAGACCGACCCGCTGCCGCCGCCCCTTACCCGTACCAGACGACTCCTTTCAGTTGAAGACTCCCAATCCTGATGAAGAAGGTGAATCTCTATTCAGATCCATGATCCACCGCTCCGCTCCACTCACAGACGAAGACGCACAGGTTCGGCTCCGTCCGCTCTCCGTTCGTGAAGCTCGCCGCCATGAAACCCATCTTCTCTGTTTGCGAAGAACGTCGCAAAATCCTCTATCTGCTCAACCTCTCAGCTCTGTTCAGTCTTAGTTCTGTTCACCCCAGATTTCCCGTTCAGTCTGATTCTGACTTGCTCTAGTTTAGTTCGTTAGGTTTCATTCTGATCCGACGAAAGGCTCCTGCCCAAACCAGACCCCGTTTTCGTCCTGCTTTGATTCTACTTTGCTTCAGTTTTGCTCTTTCGTTTTGCCCTCGTAGTTCTTGTTTCGTCCTTCCTAGGTTCTGTTATAGATCTCTATACGAGGATCTATGTTTCTATCCCAGAAGTTCTTCGTTTTTCTCTTCGTGGGTTTGTTTTAGCCTAGAAGTTCTGTGTGTTTGTTCTTCGGGTTTTTTTATTCTATTTTAGATCTATTGGTTCTTTTCTTAGTTCTTAGCAAACTCAAGTTTGTGATTTCAACCTTGAGTTTGAGGGAGGGTATTAATGTAATTAGATTATTATTAGGTGATATTATTCTGGAGATATTATTTGATATTATTTCCTTAAGTGTATTTCTCTATGGTTATATATAGGCTTGTACCTCTACTAAATGATCAATGAAAGAGAGATTCATTCCATAGAAAACAACACTTACACTATAGAATGACTATGGAAACTTATTTATAATATGGAGTGATTATCATAGGCTTCATTCACGGGTCATCACATTGAAGCATACTAATTCATATTATCTTTTTTTTTTTCATAAGAAAATATGATTTAGAAAACTGTTCATATTGTCTTTCTTCTTTTGTTTATTTATTTGATGTGCAACGGTTTGCATGAACAAATATTTGAAGTCACATCATGCGTTAAGTAATAAAATGGAACATATGAAAGCTGTGAACTACTAAATTAGAACCATGTTCATGGACAGAGTAAGAATAAAAGTTTAATAAATCGACATAATTTCAAACCTAAAAGCAACTTGTAGGATAGATTGACATTTCCGTTTCCCCTTACATCATAATTTTCTAAAGCAGTGCAGGGATTACCGAAGGTTTCTCAATGTGTGGTGGCGATTTTGTTGAAGTATACAGCGATCCAAGTCAAGTAGGTAAGTAAATTGTAAGAATTGACTTCTTACATGGCTAAGAAACCAGTAAAAAATGCACTATGATTTCTAATCTTCACTGTGGCAGTTGTCAAATGGTCGAATCTATAGCTTTAATAATGTTATTGACAAAACTATTTATTATATACTATCATGTGCTTGATAGTTTTGAATATTGGCTGATCTCCGTGAAACTTAGCAATTTTTTTCTTCTCATGTTTGGGATGCATATGCAGGACTATGGGATGCGGTTGTGACTTGTTTTTTCATTGATACTGCTCATAATATTATTGAATATATAGAGGTCATATCCAAAATTTTGAAAGATGGCGGAGTAAGAGCACTCCCTTTTTCTCTTGTCAATGTTTTTAACAACGAAATAGTTCCAAACATATTTTAACAAGTCAAGTGACAGGTGTGGATAAATCTAGGGCCTCTGCTATACCATTTTGCCGATATGTATGGTCAAGAAGATGTACGTTTCTCATCCCTTAATTAAATGCCCCAGAATGCTCTTAGAGTCTGAACAGTTCAATTATTTCCTTTTCAGGAAATGTCCATTGAACCAAGTCTAGAAGATGTGAAGAAAATTATATTGCATTACGGCTTTGTGTTTGAGGTAACTGTAGTCTGTAGGTGTAGACAATAGTCATTTTTCTGCCTCATTCATGTCCGCTAACTTGGATTTCAAAAATGACTTTTTATTTCACAGAAGGAAAGGACAGTTGAGACGACATACACAACAAATCCTAGATCGATGATGCAAGTAAGTTCTTTGACTCTTAATATTAACAGGGCTTCTTGTTTGATTTTTAAGTTTGCTTTGTTCTTAGAGTTCTACTATTTTGCTCGGTCTTTCATTTGTGATGTTTGTGTTGTTCAATTCATATGTACCTTGGTTTGTAATCACTCTTATCGCTCTTTTAGTATAATTCTCTTGCACTTCGAACATTAATCTCTTTTATTAGTACATTAATAAAGAGGAAAAGGCTCGTTTCCGTTTATAGAAAAGGGGATGTTTGGAGATAATCCAAAGTCCATATTTGATTTAGTGTTTTGGTCCAATTTGTAATACCAAACTCATTTTGTTCTCACAATTTTGAAAACAATCCTCTTTTCCACTATTTTCACACTTTACGATCTCATTTCCATTCTGCCCTCAGTTCCTCATTCATTACAACACTCCTTAGATTTCCACAAATTCCTGTTAATTCCAACCTTCGAAACAGCCCCTTAATGCAGTCATACATCTCTGTGCTTGAGGCAATGGTCCAACTAATGAGATTCTAATTGAGGCACGTCTATTATTGGTTGAGAACTATTTGAAACTCATAGTAGTCATATTGTTTTGATTGCTAAATACCCAAATCATGATATTGGATCTTGAAATGCCTAGAAAGATAGTTTAGACTCCATTGTCACCTTATCCTGTTAGAAGGTCACAGTTTTCCTCCATTTGGTTGCATTAAACGTAGAATTTTATGATCTTTGCAGAATCGATATTATGCTGCATTCTGGACTATGAGAAAAAAATCAGCTACAGAGGATATGACACATTAAATGTCTGGAGCAAGAGAAGATGAAGATGAAGAACAAACTCGTCAGAGGAAGCTTGAAGAAGCCCTCGAAGTCAAATCGCTCCGCCGGATTGTCAGTGCATACCTCAACTATCCAGAGGCTTCAGAAGAAGACGTGAAAAGATATGAAAGATCGTTCAGTAAGCTTCCTCCTGCTCATAAGGCTCTATTATCACACTTTCCCTTGAAGTTTGAGAGACTAAGAAGGTGTATTTCCACGAATTCATATTTCATCTTTAACATGCTTCAGGCATTTGAACCTCCACTTGATATGAGCCAAGACGCTGATTGTTGTGATGGTTCATATCCTGATCATGCCCATGATGATCAATTTTGTTGTAGAGGAGAAAGAAATGCCAATGGTAATTTATGTTCTCGGGAGAGCAATGTATGTTCTGGTGAGCCAACTTCAACAAGTGGAAGAATGTGTTCTTTAGAATCCAAACAAATCTGCTGTCCTGAAGGTGCAACTGACTCGCCTAAGGCATCAACTATCAACCAGGAAGTCGAAAATGGTGTTAACCATGACCAACATTTGGAAGAGAAGGAAGTCACAGATAAACACAGTGGACACTGTGCTTCTGATTGCAATGGAAATGACTGTTCATCATCTCATGAATGGCTGGACCCATCTCTACAGTTGAATGTTCCATTGGTTGATGTGGATAAGGTGCGTTGTATTATAAGGAACATAGTCAGGGATTGGGCTGAAGAGGGTCAAAAAGAGCGTGAGCAGTGCTATAAGCCTATCCTTGAAGAACTACATTCCCTTTTTCCAGATCGCAAAAAAGAGAGTCCGCCTGCTTGTTTAGTCCCTGGAGCTGGACTTGGACGACTGGCTCTGGAGATTTCATGTTTAGGTTTTATAAGTCAGGGGAACGAGTTTTCATACTACATGATGATATGCTCAAGTTTTATTCTTAATCATACCCAGAAGGTTGGTGAATGGACAATATATCCCTGGATCCACAGCAATAGCAACTCACTTTCAGATAGCGATCAACTTCGTCCTGTTTCAATACCAGATATCCATCCTGCAAGTGCAGGGATTACCGAAGGTTTCTCAATGTGTGGTGGCGATTTTGTTGAAGTATACAGCGATCCAAGTCAAGTAGGACTATGGGATGCGGTTGTGACTTGTTTTTTCATTGATACTGCTCATAATATTATTGAATATATAGAGGTCATATCCAAAATTTTGAAAGATGGCGGAGTGTGGATAAATCTAGGGCCTCTGCTATACCATTTTGCCGATATGTATGGTCAAGAAGATGAAATGTCCATTGAACCAAGTCTAGAAGATGTGAAGAAAATTATATTGCATTACGGCTTTGTGTTTGAGAAGGAAAGGACAGTTGAGACGACATACACAACAAATCCTAGATCGATGATGCAAAATCGATATTATGCTGCATTCTGGACTATGAGAAAAAAATCAGCTACAGAGGATATGACACATTAA ATGTCTGGAGCAAGAGAAGATGAAGATGAAGAACAAACTCGTCAGAGGAAGCTTGAAGAAGCCCTCGAAGTCAAATCGCTCCGCCGGATTGTCAGTGCATACCTCAACTATCCAGAGGCTTCAGAAGAAGACGTGAAAAGATATGAAAGATCGTTCAGTAAGCTTCCTCCTGCTCATAAGGCTCTATTATCACACTTTCCCTTGAAGTTTGAGAGACTAAGAAGGTGTATTTCCACGAATTCATATTTCATCTTTAACATGCTTCAGGCATTTGAACCTCCACTTGATATGAGCCAAGACGCTGATTGTTGTGATGGTTCATATCCTGATCATGCCCATGATGATCAATTTTGTTGTAGAGGAGAAAGAAATGCCAATGGTAATTTATGTTCTCGGGAGAGCAATGTATGTTCTGGTGAGCCAACTTCAACAAGTGGAAGAATGTGTTCTTTAGAATCCAAACAAATCTGCTGTCCTGAAGGTGCAACTGACTCGCCTAAGGCATCAACTATCAACCAGGAAGTCGAAAATGGTGTTAACCATGACCAACATTTGGAAGAGAAGGAAGTCACAGATAAACACAGTGGACACTGTGCTTCTGATTGCAATGGAAATGACTGTTCATCATCTCATGAATGGCTGGACCCATCTCTACAGTTGAATGTTCCATTGGTTGATGTGGATAAGGTGCGTTGTATTATAAGGAACATAGTCAGGGATTGGGCTGAAGAGGGTCAAAAAGAGCGTGAGCAGTGCTATAAGCCTATCCTTGAAGAACTACATTCCCTTTTTCCAGATCGCAAAAAAGAGAGTCCGCCTGCTTGTTTAGTCCCTGGAGCTGGACTTGGACGACTGGCTCTGGAGATTTCATGTTTAGGTTTTATAAGTCAGGGGAACGAGTTTTCATACTACATGATGATATGCTCAAGTTTTATTCTTAATCATACCCAGAAGGTTGGTGAATGGACAATATATCCCTGGATCCACAGCAATAGCAACTCACTTTCAGATAGCGATCAACTTCGTCCTGTTTCAATACCAGATATCCATCCTGCAAGTGCAGGGATTACCGAAGGTTTCTCAATGTGTGGTGGCGATTTTGTTGAAGTATACAGCGATCCAAGTCAAGTAGGACTATGGGATGCGGTTGTGACTTGTTTTTTCATTGATACTGCTCATAATATTATTGAATATATAGAGGTCATATCCAAAATTTTGAAAGATGGCGGAGTGTGGATAAATCTAGGGCCTCTGCTATACCATTTTGCCGATATGTATGGTCAAGAAGATGAAATGTCCATTGAACCAAGTCTAGAAGATGTGAAGAAAATTATATTGCATTACGGCTTTGTGTTTGAGAAGGAAAGGACAGTTGAGACGACATACACAACAAATCCTAGATCGATGATGCAAAATCGATATTATGCTGCATTCTGGACTATGAGAAAAAAATCAGCTACAGAGGATATGACACATTAA MSGAREDEDEEQTRQRKLEEALEVKSLRRIVSAYLNYPEASEEDVKRYERSFSKLPPAHKALLSHFPLKFERLRRCISTNSYFIFNMLQAFEPPLDMSQDADCCDGSYPDHAHDDQFCCRGERNANGNLCSRESNVCSGEPTSTSGRMCSLESKQICCPEGATDSPKASTINQEVENGVNHDQHLEEKEVTDKHSGHCASDCNGNDCSSSHEWLDPSLQLNVPLVDVDKVRCIIRNIVRDWAEEGQKEREQCYKPILEELHSLFPDRKKESPPACLVPGAGLGRLALEISCLGFISQGNEFSYYMMICSSFILNHTQKVGEWTIYPWIHSNSNSLSDSDQLRPVSIPDIHPASAGITEGFSMCGGDFVEVYSDPSQVGLWDAVVTCFFIDTAHNIIEYIEVISKILKDGGVWINLGPLLYHFADMYGQEDEMSIEPSLEDVKKIILHYGFVFEKERTVETTYTTNPRSMMQNRYYAAFWTMRKKSATEDMTH* Homology
BLAST of Chy7G133510 vs. ExPASy Swiss-Prot
Match: Q80UY1 (Carnosine N-methyltransferase OS=Mus musculus OX=10090 GN=Carnmt1 PE=1 SV=1) HSP 1 Score: 263.8 bits (673), Expect = 3.8e-69 Identity = 126/260 (48.46%), Postives = 178/260 (68.46%), Query Frame = 0
HSP 2 Score: 47.8 bits (112), Expect = 4.2e-04 Identity = 23/70 (32.86%), Postives = 38/70 (54.29%), Query Frame = 0
BLAST of Chy7G133510 vs. ExPASy Swiss-Prot
Match: Q8N4J0 (Carnosine N-methyltransferase OS=Homo sapiens OX=9606 GN=CARNMT1 PE=1 SV=1) HSP 1 Score: 263.5 bits (672), Expect = 4.9e-69 Identity = 127/260 (48.85%), Postives = 178/260 (68.46%), Query Frame = 0
BLAST of Chy7G133510 vs. ExPASy Swiss-Prot
Match: F1N9S8 (Carnosine N-methyltransferase OS=Gallus gallus OX=9031 GN=CARNMT1 PE=1 SV=2) HSP 1 Score: 261.5 bits (667), Expect = 1.9e-68 Identity = 129/260 (49.62%), Postives = 175/260 (67.31%), Query Frame = 0
BLAST of Chy7G133510 vs. ExPASy Swiss-Prot
Match: Q5BJZ6 (Carnosine N-methyltransferase OS=Rattus norvegicus OX=10116 GN=Carnmt1 PE=1 SV=1) HSP 1 Score: 261.5 bits (667), Expect = 1.9e-68 Identity = 127/260 (48.85%), Postives = 177/260 (68.08%), Query Frame = 0
HSP 2 Score: 47.4 bits (111), Expect = 5.5e-04 Identity = 22/70 (31.43%), Postives = 38/70 (54.29%), Query Frame = 0
BLAST of Chy7G133510 vs. ExPASy Swiss-Prot
Match: Q9I7X6 (Carnosine N-methyltransferase OS=Drosophila melanogaster OX=7227 GN=CG11596 PE=1 SV=1) HSP 1 Score: 246.1 bits (627), Expect = 8.1e-64 Identity = 124/271 (45.76%), Postives = 169/271 (62.36%), Query Frame = 0
BLAST of Chy7G133510 vs. ExPASy TrEMBL
Match: A0A0A0KZT2 (N2227 domain-containing protein OS=Cucumis sativus OX=3659 GN=Csa_4G617350 PE=4 SV=1) HSP 1 Score: 1011.9 bits (2615), Expect = 9.0e-292 Identity = 490/492 (99.59%), Postives = 491/492 (99.80%), Query Frame = 0
BLAST of Chy7G133510 vs. ExPASy TrEMBL
Match: A0A1S3CM48 (carnosine N-methyltransferase-like isoform X2 OS=Cucumis melo OX=3656 GN=LOC103502495 PE=4 SV=1) HSP 1 Score: 987.3 bits (2551), Expect = 2.4e-284 Identity = 478/492 (97.15%), Postives = 484/492 (98.37%), Query Frame = 0
BLAST of Chy7G133510 vs. ExPASy TrEMBL
Match: A0A1S4E5H9 (carnosine N-methyltransferase-like isoform X1 OS=Cucumis melo OX=3656 GN=LOC103502495 PE=4 SV=1) HSP 1 Score: 981.1 bits (2535), Expect = 1.7e-282 Identity = 478/497 (96.18%), Postives = 484/497 (97.38%), Query Frame = 0
BLAST of Chy7G133510 vs. ExPASy TrEMBL
Match: A0A6J1FC70 (carnosine N-methyltransferase-like isoform X2 OS=Cucurbita moschata OX=3662 GN=LOC111442769 PE=4 SV=1) HSP 1 Score: 944.9 bits (2441), Expect = 1.4e-271 Identity = 458/498 (91.97%), Postives = 474/498 (95.18%), Query Frame = 0
BLAST of Chy7G133510 vs. ExPASy TrEMBL
Match: A0A6J1IKC7 (carnosine N-methyltransferase-like isoform X2 OS=Cucurbita maxima OX=3661 GN=LOC111477044 PE=4 SV=1) HSP 1 Score: 941.0 bits (2431), Expect = 2.0e-270 Identity = 457/498 (91.77%), Postives = 476/498 (95.58%), Query Frame = 0
BLAST of Chy7G133510 vs. NCBI nr
Match: KGN55459.2 (hypothetical protein Csa_012853 [Cucumis sativus]) HSP 1 Score: 1008 bits (2606), Expect = 0.0 Identity = 490/492 (99.59%), Postives = 491/492 (99.80%), Query Frame = 0
BLAST of Chy7G133510 vs. NCBI nr
Match: XP_004149525.1 (carnosine N-methyltransferase isoform X1 [Cucumis sativus]) HSP 1 Score: 1008 bits (2606), Expect = 0.0 Identity = 490/492 (99.59%), Postives = 491/492 (99.80%), Query Frame = 0
BLAST of Chy7G133510 vs. NCBI nr
Match: XP_008464661.1 (PREDICTED: carnosine N-methyltransferase-like isoform X2 [Cucumis melo]) HSP 1 Score: 983 bits (2542), Expect = 0.0 Identity = 478/492 (97.15%), Postives = 484/492 (98.37%), Query Frame = 0
BLAST of Chy7G133510 vs. NCBI nr
Match: XP_016903230.1 (PREDICTED: carnosine N-methyltransferase-like isoform X1 [Cucumis melo]) HSP 1 Score: 977 bits (2526), Expect = 0.0 Identity = 478/497 (96.18%), Postives = 484/497 (97.38%), Query Frame = 0
BLAST of Chy7G133510 vs. NCBI nr
Match: XP_038898171.1 (carnosine N-methyltransferase-like isoform X1 [Benincasa hispida]) HSP 1 Score: 960 bits (2481), Expect = 0.0 Identity = 470/499 (94.19%), Postives = 479/499 (95.99%), Query Frame = 0
BLAST of Chy7G133510 vs. TAIR 10
Match: AT2G32170.1 (S-adenosyl-L-methionine-dependent methyltransferases superfamily protein ) HSP 1 Score: 652.1 bits (1681), Expect = 3.5e-187 Identity = 334/489 (68.30%), Postives = 382/489 (78.12%), Query Frame = 0
BLAST of Chy7G133510 vs. TAIR 10
Match: AT2G32170.2 (S-adenosyl-L-methionine-dependent methyltransferases superfamily protein ) HSP 1 Score: 622.1 bits (1603), Expect = 3.9e-178 Identity = 334/556 (60.07%), Postives = 382/556 (68.71%), Query Frame = 0
BLAST of Chy7G133510 vs. TAIR 10
Match: AT2G32160.3 (S-adenosyl-L-methionine-dependent methyltransferases superfamily protein ) HSP 1 Score: 557.8 bits (1436), Expect = 9.0e-159 Identity = 295/494 (59.72%), Postives = 353/494 (71.46%), Query Frame = 0
BLAST of Chy7G133510 vs. TAIR 10
Match: AT2G32160.2 (S-adenosyl-L-methionine-dependent methyltransferases superfamily protein ) HSP 1 Score: 534.6 bits (1376), Expect = 8.1e-152 Identity = 284/488 (58.20%), Postives = 342/488 (70.08%), Query Frame = 0
BLAST of Chy7G133510 vs. TAIR 10
Match: AT2G32160.1 (S-adenosyl-L-methionine-dependent methyltransferases superfamily protein ) HSP 1 Score: 480.7 bits (1236), Expect = 1.4e-135 Identity = 259/458 (56.55%), Postives = 315/458 (68.78%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Cucumber (hystrix) v1
Date Performed: 2021-10-25 Position : 0 Zoom : x 1
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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