CsaV3_3G017790 (gene) Cucumber (Chinese Long) v3
The following sequences are available for this feature:
Legend: exonpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below.GGAGAAATCAATTTCATGTTTTGTTTTTGTTTATATAAAAACAACCTCGATGTTGCATTATATTTGCAGAAAAAGCCCAAATTTGACGGCTTAATCACAAGATCGATCCCACCCTCCGCTGTGATCGGCTCCGTGTCGTACCAACCAAGGTTCTTCAGATTCAACTCCACTGCTCAGATTCAACTCCACTACTCAGATTCCTTCTAGGGTTTTTTTTTTTTTTTTCTTTTTTTCCATTTCTTCCGATAATGGCTGCGGTTCGTTTGACGCCAGAAGATGCCGAGTTGTTGCAGCAGGCTCGTGCTGCTCCGTCCGCCGTTGATCTAGTCTCTGACGATGATCGCTCAGTGGCTGCTGACTCATGGTCCATCAAGAGCGAGTATGGTAGCACCCTCGACGATGACCAACGTAATGCTGATGCTGCTGAGGCTCTATCTGCTGGGAATTTGCGTCCCGCTTCTGATTACAGGTCTAGTTTATTTCTTCTTTTGAGTTGTTTGAATCTAGTTGGAAATAGTTGAAACCGATTTTTTTTGACGCTCTGCTTATATTTGGCAGTTGGGAACTTGGCGTCTTTTTCTTCTTCTTCTTTTAGTTTTGATTGATTCCTAGAGCATTCAATGATCATGTTATTCCCATTCATTTCTGGAATTAATGAATATGGTTCTGCGGCGTAGTTCATGTAGTTTACAATTCTCTTACTCTTGTATTGAATTCTTGAATGTGTGAGTAGAATCTCATTATCTCTTGCTATTTTTTCCCCTTAGTCCCATGGACTTTGTATGGATTTCCTAATACTATTTTCCCTTTTGCTCTTCATTCTGGAGGGATGGAAGAACTGTGTTGTGTCCTTGTTTACTTTGCTTAGAGATTCGATGTATGTTTCACTTTCTTTTAGCTTTAACTAGTGTCACAATAATAATTGATTGGAAACCATCCTGAATTGCCCCAGGCAATGAAAAAGCAGATTTATAGGTAGTGGGTTCAAAGTATGATAACCACTTGCGTAGGATCTAATATCCTACGAGTGTCTTTAGAGTTTGATGGTTGTCCACCAAATTAGTCGAAGATACACATAGATCGATCAATACACTCAGTTATTGAAGAAAATTTTTCTTAGGATCTCGGTAAAGCACAAGCAAGTTGAATGCTCCATTTTTATCCACATGATCAGATTAGAATATAATAATACTATCAATTTGGTATAATGGTATTTTTTTAATGGGCATATTTTCATTCAAATAAGACTTGTTACATATTCAGTTCTGACAAGGATGAAATGGAGCCAGATGCTGAAGCTGTGACATCAATGCTAGGTCTCCAAAGTTATTGGGATTCTCAATATGCTGATGAATTGACAAATTTTCGTGAACATGGTCATGTTGGTGAAGTCTGGTACGTAAGAATTTCTAAGGTATCTTGTAATATCATTATGATGTTGCCATTCTGGCTAAATATGTAGCTAGTAGTTAGCTACACTTGAATTTTGCTACATTTTTTTTGCCTTCTATTTTATTCTGCGAGATCATGTACTGTATGTTGGTTTGGTACTCACTGTGCCTAAGTTTAGTTGAGAAATTGAAGAACTATTCATCAACTCTTTAGTGATTAAAACATAAAGCAGATTTTTTAGATTGATCAAGTAGAATCAAAGAGATTTGATTTATATTTGTTTATCTAGCGTTCTATTTTTGTACTTTCTTCATTCTTCAGGTTCGGATCTGAAGTTATGGAAACTGTTGCTTCTTGGACAAAGAGCCTGTGTTATGATGTTTCTCAAGGTCGGTTTCTGAATCAAGCTGGCAATGTTAAGACACTGAATGTTGATCAGGGATCCAAATTCTTGTCTAGTTGGAGTGTACTTGATATTGGGACGGGAAATGGTTTGCTACTTCAAGAACTTGCTAAGGAGGGGTATGTTTTGAAATTTTGCCTTTTGACTCTTGCTAACATTTGAGAAGGGTTTTCTTTTGACTTACATCTTATTTCAAGTGGATAAACTTTGTCATAATAGATGCACCAATTAAAGGCATACACTTTGCAAAATAAATTGAGTAGGGGAAAGGATATTGTGGACTGGGGATGTTTTATAATTAATTTTTAAATATAAAATATATTTTTGATGCTAGATCCTTTTCTCTCTTATTAACTTTTTGTTGAAGGAAACAAGTTAGAGGCAAAAATTTGAAGTGAAGCGAGGAAAAGAAAAGGGCACTTCTTTTTTTTTTTTACCCCTCTTTTTTCTCTATTGGTTGGATGATGATGACTCAAAGAGATGCAAACATTGATTGGTACACTAGTCTATAATGATGGGGAGATTATCTTAGGTTGTAGAGATCTAAACAGTGGTGCTTTTCCTTTTTTCTTCCCTCTCCTTTATTTATGTTTCATCAAAACTCTAATCCCTTTATTATTAGTGTATCCTGCCCGGTCTTCAATTGAAGGTAAAGAGGACACGATCATTTGCAATCTTCTTTTTCTAATGAAAGAGGAAAGTGGTCTAATATTACTCTCTCCCCTCCATTCATCATATGAATTAGGGAACACAACCGATGGACAATAAGGGAAGAAACTGACCCTTTTTTCACGGTCAAAGTGCCCTTTAGGAATATCCACTAGGCTAAGGTTGTCAGAAGCATTTCTTTTTGTTGATAAGAAATTGAGCTTTTATCAAGAAATATTAAAGAATATGCTGCAGGATCATTAAAAGAATAACCTCTACTAATGGCAAATGCCCAAAAGGGAGGTGTTAAACCAAATCTTTTTCTAAAGAACATCCAACTAATACTCAAGCCCTTTGAGAATCCTGTTTTTTCTTAGAAGCCAAATACACAATCTCACCAAAAAAGGAGAAAAAAAGGGAACACAGGCTTTTGGGAAAGGAGATGGAAGACACAGCGACAGAAAATAAGAGCTAGAAGAACAGCCCCTCAACAGGCCAAAAGCAAGATTTGTTTTTTAAATTTATTGTTATTATTATTATTATTTTGGATAAGAAACAGGTCTTTGAAAAAGCAAAAAAGAGTCTAAGCAAGAATCCCTTCTCCCTTGGTTGATCTGAGCATCCCAATCAACCCAAGTAGGGTTATATCTCAGATGCTCTTTTTATATGTTACAGGACGGGTGAAAGGTAAGTAAATGGAGAACGAATTAGCAACATAGACAAATAAGATAGAGGTTTAAACAACCCTCTCTAAAGTAGATAGCATAATCTTCACCTCTACTTGAGCAATACAAGGGCTTCTAGCAGAACCCTTAATCCCATGAGCTGAGCCCAATCAAGGGGGTGTTTAAACTGTATTTATGACTATGATTTTGTTTCCACAGAGTGTTAGATTTCTGAAAAAAGCACCTGGCCACATCTCAGCGTATTGATGCTCAACTCCTTCTTCCCACCTAGCATCTAACCAAAGGTCCAAAACAGAAACCCCCTTCTTCCTCCCTCCCACAAGAAATCCCTCAAAAGAAAATTTCTAAAGAAAGGTAGAAGGAGCCTTCAACTACATCATCCACAATGAAATTAGAAATTCCTCAAAATAAATTTCTAAAGAAAAGGTAAAAGCACCACCACTAGTTGTTTCTTAAATGTCAAAATTTTCATCGCCTTCTTCATTGGATTCTTTTTACAATACTTCAATAGTAGTTGGCATTTGTTGCAGGGTTTGCCCTCTGTCTCCGAAGAAAAGATTTGTAACATCATTGCCACTGGATTACTATAATTCACTTCTTGGCCCTAGGAAGCTTCATATATTTAAATATATATTATATGATCAGTTTTTTAGGATACTCATTACAAGAAAAAGTGTTGGGATACTTGCTAACAAGAATCAATATATCTCATATATTGAGAATTAACTAAGAACTACAATATGATCCAAGTTTATGGTACTTGGGACCCCCTCTCTTGAGAATACTACTCAAGATCTGTCTACCCAACAACTCTCCCTTCTTCACTTACCAACATTTTATTTATAACCACAACTGCTAGTAATCGCCTAAATATCTAATTACCCTTATACCCCTAACCTTTTACTAATCTAGTATCTAACATTACCTTGCCCATCAAAACACCTTGCCCTCAAGGTGTGCTTACAAACATGATCACAAAATTGGGCCTTTTTATTTTCATTTTTTTATTTACCAACAACCCCAGCAGTATGATCTTCAATGTTGAAAAAGAAATTCTCCCCTCTAGCTTTGAAAAACTCTTGGCTCCAATAAGGTCCATTGACTTCAGCACATAGCGCAGAATCATTTCCTTTAGCCCGCAAAGCAGCCCAATGTTCTTGAATTTTCTTTTTCCCGAACACGTTGTCATAGTTAACCCTTTGCATATCACTAATAGTTAGTGTTTAATTTTCAACCTCTTCTTCTCTAGTGGGCTAGGCCCATAAGCAAATTGTTGTGCCAAACGCCGGTTATCTTGGGCCAGCATACCTTTACCCTCCTTAAAAACAGTCATGAGTTTCCAACGGTTCAAACCTATAACAAAGCCATCCCAACCATTGAACTCGTGCCTTCTTTCTCCATCACAACCAGGCATTTTCTGCTTTTTTGAGCAACATCTTTTTCTTCACTCGAGTCTTCATTTCAGGCCTCACAAGCATTGCCGCCGACCTTCCCCTATAGTTTCTTCTTGGTCACTCTTCACCAACCTCTTCACCTTCTCTGTACAACCTTTGCAACCACGTTTTCCACGAGATTTATCTTCAACCATGCTAGTTTTTGCTTCCTCTTGTTTGCATATCTCCACTAGTATTAGATATTTCTTTATAACTTTCTTCCTCCACCTGTGCGTGGTTTTCTTTTTCATCATGTGGACAAGCTCATCTCTTCATCCCTTCGACTTCAATAAGATTTTGATCTCTCTTCGACTACCTCTGCTCTTCCTTGTTGATATTTTTCTTTCCTCGATTCTTCTCCTGCTTCTCCTTGCTTTCCTTTATTTTGTTCTAATCCGTCTCTGTTTTCCACACTTCTTTGACCAATATTGAAGTTTCTCCCGATTCTTCGTCATCCTTCTTTCCTTCACTTGACTCGTCCCCTAATGATGATCCAAAGGTGTGATGATCGATCAGTACCTTCCTAATTTTATTTTGTTGTGAAGTGTTGTTCCTCCATTTGAATGCTCAACCGCTCAACACTCCTAGCCAAGGATCTCAATTTCTCCTCAATCGCTAGCAATTTTAGCACATTCGTACGAATTCCAGCAAGTTCTTTATCAATCACATTTTTTTCGTTCTTCTATCCCTTTTTGCACCATTTTTTTATTCTCTCTCAGGTTGTTGCTCTGATACCAATTTGTTAGGATACTTCCTACAAGAATCAATATTTTCATATATTGAAAATTAACTAAGAACTACAATATGATCCAAGTTTATGGTACTTGAGACCCCCCTCTCTCAACAACTCTCCTTTCTTCACTCACCAACTTCTTATTTATAACCACTACTATTAGTAACCGCCTAAATATCTAATTACCCTTATACCCCTAACTCTATACTAATATAGGTATCTAACAAAAACCTTGCCTTGGAAAAGCCTTCTCCGGCGCGTGCCTAGGTGCACCTATGCTCATGGGGTAGGTTTGGCACCTTGCCTTGGAAAGGTGAGACTCACAAAATAAGATGCATCTTAGGTGCATGCCTTTTGGGAAGTCCTAGGGCTCAACTATTCTCTTTTTAATGTAATATTTTCATATGTAGCGCGCCTCACAAATAGAAGTCCATGTCTTTTTGTACGACTTGTGCCTAGGCTTCTGAGGGCCATTGCTTCTTAGTGCGCCTTGGGCATTTAAAAATGTTATAAATAGTGGGCTTAGGTCATGTTGAAAACCCAAGGGTAGTTGAGATTTACTTTGCCCTTATTTTTTATTATTTTAATTGGGCTTGTGTTGCCTAGAAGTATTTACCACTTTGTACCTTTATTGTCATAAGAAAATAATAAAAAATATCAGCATCGTGGTTTTTCTTCATGAATGGGATTCTACGTAAATTTGTGTTTGTTCTACATCTCTACTTTCAATAAAAAAAAATTGGAAAAAACCAAGTTACCTTGACTAGACCTCATTGTTAGAATTAGTGGGCTTGACCCTTAGAGTATTTTTGGAAAGAATATGGAAGATTTTTCCTATTTCCTAATTTTTTTTCTTTGTTTACTCCTTATTGTATTCTATTTATTCTCCCTCTTTGTACATACTGTATTTATTTATCAGAAAAATAATAAAACTAAAAACATCATGATTTTCCTTCCGGTTCACGGGTTTCCACATAAGCCTTAGTTTCATGTTTATTGCTTTCAATATGGTATCAGAGGAAAGCAATAACGAAACCCTAGAAACCAATCCCAAAGAAACCCGGACTAAAACTGAAGCTATCGTCGTCGCCATTGCGTTCGCTTGAATCGCTATCGTCGTGGAAAAACTACTCCAAAGGATTTAGATGCCACCTATCTATCCAATGGGCAAACCCTCGCCGCTGTTCGCGCAACTGTCCAACCAGAAACCACCTCACGCGCCGCCTTTGTCAGGTGCATGGGACCACATGCCTCGCCCTTTCGTCTCATCGCCCAACCCAGCCTCCTCTACGCGTCGTCGTCTATCCAACCAGCCTACCCTTCCAATCATCCGTCGTTGCACGCACCGCCCATCGCCGTCGGACAGCAACATGCAAAACTATCAAATCTATACAACAATGCAAATTTGTCCATCGACCCTTTACAATAACCTTTCTTCTATGGAAACGAAGCTGACCAACACCATAACAGATCGGAGATTGAAGTAGGCGAGTCATCGACACCTTCCGGTTATGGACAGCCATATGTCTGTGGTCTCAGGATTAACCAAACCTACAACAGAGTTATTTTTGAAGTTGGTGCATTCTCAACATAGTCTAAATTGACTGATCTACCGTTGTATTTCGAAGAACTCAGTTACTTCGCTCGCTAATGTACCTTCGATTTATATAGCTAACTTTGCTGCCTTTAATGCACGATTCTCGACCCACGATAATGAGAAGAATGATGGGAAACCAATTCTCATATGTGAGCACTGGAAGAAACAATGGCACACCAAGGATTAGTGTTGGAAACTCCATGGTCGGTCCCCAAGAAGTAACAAACGTTCTTCTAACGAGCAACATAACTCAGAGCGTACCAATTTTAGGGAGACTGCCAACACCTCTAAGTCAATTGGCCCTATTGCTAGCCAGACCAACCCTTCTACTCTAGGCGCCATTGTAGTCAGGTATGGCTTAGTCCCTTGGCCTTATTAGTGTTGATGGGAAGAATTCCTAGATTTTGGATTCGAGGGCCACAGATCACTTGATAGGCTTTTCAGAGCACTGTCTCTTATACCTTCTGTGCCGGTCATGAGAAAATTTGGATAGCCGATGGCTCTTTAGTCCCGATTGCTGTCAAAGGACAAATAGTTTTTTTTTTGGTTTCTCTTCAAAATGTTTTGCATATGCCTAAACTTTCTTTCAATTTGCTATCTATCAGTAAGATCACCCGTGAGCTACACTGTAAAACTACTTTCTTACCTGAATTTGTTTGTTTTCAGAACTTGAGTTCGAGGAGGACGATTGGCACTGCCCCACATAGCAGGGGACTTTACATCCTTGATGATGATATCTTCGGTAGTAGTATTTTTAGGACTAGTTTACTGTCTTCCTATTTTAGCACTTTTGAACATGACTTTTATGTTTTGACATTTTCTGTTGGGTCACCCGAACTTTACTTATACGAAATATTTGTTTTTCCATCTTTTTCCTAAAATCGATGTCTCTTTGTTATCTTGTGATGTGTGCATTCGGACAAAACAACATCGGTTTTCTTTTCCCTTAACCATATAAACCCACACAACCATTTACCCTTATCTATAGTGATGTTTGGGGTCCCTCCAAGGTCACCACCTCATCTGGAAAAAGGGTGGTTTGTAACTTTCATTGATGATCATACCCGTCTTAGCTGGGCCTACCTTATCATTGATAAATCTAAGGTTTCCTCTATTTTTCAAAACTTCTACCACACCATTGAAATGCAATTCCACCAATAAATTGCTATTCTTTGGAGTGATCATGGTCGGGAATTCCAAAATCATAACCTTAGTGAATTTCTAGCCTCCAAGGTCACCAAAACTCGTGCACCTACACTCAACAAAATGGAGTGGTCGAGTGAAAAAAGCGTCACCTTTTGGAAGTAGCCCGTTCACTTATGTTATCTACTTCCCTTACTTCATACCTGTGAGGAGATGCTATTCTTAAAGCAACTCATTTAATTAGTATAATGCCTTCTCGTTTCCCCCACCTTCAGACTCCCTTAGATTGTCTTAAGGAGTCCTACCCCTCTACTCGTCTTGTTTTTTAGGTTCCTCTTTGTGTGTTTGGGTGTATCACTTATGTCCAAATTTTGGTCCTCATCGGACCAAATTTACCTCTTGGGCTCAGACATGTGTGTTTGTTGGGTATCCTCTTCACCAGCGCGGTTATGAATATTTTCACCTATAGTCTAGGAAATACTTTGTCACTATGGATGTTACTTTCTGTGAGGATCGATCCTACTTTACCATTAGCCATCTTCTGGGGGAGAGTGTGACTGAAGAGTCTAACAACACCTTCGAATTTATTGAACCTACTCCTAGTATTGTGTCTGACGTGGATTCTCATCTTATAGTCCTACCAACAAACCAAGTTCCATGGAAAACGTATTAGAGGAGGAATCTCAGAAAGGAAGTCGCGTCCTCTACTAGTCCGTCGCTATTTCTAGTCCAATACTTCGAACCTCCTCGAGATCAAGATATGAAAAACCCTACTGAACCTTGTACTAATAATACGATGAGTGAGAATAACGGGTCTGATGTTCCTGAAAATGTGGAAGAAAAGAACAATGGTGATGAGACTGAGGTCAGAACAGAAACCAGTAATAATGAAGCTGAACAGGGTCATACAGGGAAACTTGATGAGTATGATCTCTCTCTTGACATTCCCATTACTCTGTGAGAAAAGGTACTAGGTCCTGTACTAAACATTCCATTTGTAACTAGGTTTCCTATGATAATCTCTATCCACAGTTCAAAGCTTTTACAGCAAGCCATGACCCTACCATAATACTGAAAAATATTTATGCTGCTTTAGAGTGTCCTGAATGGAAGAATGCTGTCGTGGAAGAGATAAAGGCTCTTGAAAAGAATAGAACTTGGGAGATTTGTACTCTACCTAAGCGACACAAACTTGTGGGATGCAAATGGGTGTTCTTTCTCGAATACAAAGCAGATGGTACTTTTGACAGACACAAGGCAAGGTTAGTTGCAAAGGGATTTACTCAAACCTATGGTATTGAATATTCAGAAACTTTTTCTCTAGTTGCTAAGTTGAATACTGTTAGAGTCCTATCTGTTGCCATGAACAAAGATTGACCCCTATACTAGCTGGATGTTAAGAATGCTTATGAAAGGAGACCTTGTGGAGGAAGTTTACATGAGCCTCTCGTCTAGATTTGAAGCCCGGTTTGGTTAGTAGGTGTGTAAACTCCAGAAATCTCTTTATGGTCTGAAACAGTCTCCTAGAGCATAGTTTGACAGATTCACTACCTTTGTCAAGTACCAAGGGTACAGTCAGGGACACTGTGATCATACTTTATTGACAAAGGTTTCCAAGACAAGGAAGATTGTTGTTCTAATAGTTTATGTGGATAGCATTGTTTTGACAGGAGATGATCAAACATAAATCAGTCGACTAAAGCAAAGAATGGGTGATGAATTTGAAATCAAGGATTTGGGCAATCTGAAATATTTCCTTAAGCAAAAAATGGGTGATGAATTTGAAATCAAGGATTTGAGAAATCTTAAATATTTTCTTGGAGTGGAGGTGACCAGATCTAAAGAAGGTATGTTTGTGTCTCAAATAAAATACACACTTGACTTGCTAATCGAGACAGGTATGTTGGGATGTCGTTCTGCTAACACTCTTATTGAATTCAACTGTAAACTAGGAAACTCTAATGATCAAGTTCCAGTTGATAAAGAACAATATCAGCGCCTCGTGGGTAAATTGATTTACTTGTCCCATACTCGTTCTGATATTTCCTTTGCTACGAATGTTGTGAGCTAGTTTATGCAAGCTCCTTATGAGAAACACATAGAAGCTGTCAACAGAATTCTGAGATACTTGAAAACAACATCTGGTAAAGGGTTGATGTTTAAAAAACAGACAGAAAGACCATTGAGGCATATACTGGCTCGGATTGGGTGGGATCTATTGTTGATAGAAAACTACCTTCGGTTACTGTACCTTTGTTTGGGGTAATCTTGTAACTTGGAGGAGTAAGAAGCAAAGTGTTGTGGCCAGGAGTAGCACTGAGACCGATTACAAAGCTATGAGTTTGGGAATTTGTGAGAAAATTTGACTCTAGAAAGTCCTGTCAGATCTTCATCAAGACACTATTGAAGCTTTTTTGTGATAATAAAGCTGCTATTAGTATTTTTAACACCCAGTACAACATGATAAAATTAAACATGTTGAGATTGATTGACATTTCATTAGAGAAAGACTTGACAGTGGTAGCATATGCATTTCGTACATTCCTTCGAGCCAACAGGTTGCTGATGTTCTCACCAAGGGACTTCTCAGACCAAGTTTCGACTTTTGTATTAGCAAGTTGGGCTTCATTGATATTTACGTCCCAACTTGAGGGAGAGTGTTAGAATTAGTGGGCTTGGCCCTTAGAGTATTTTTAGAAAGAATACCGAAGGTTTTCCCTCTTTTATATTTTTTTTTCTTTTTTACACCTTATTGGATTCTATTTATTCTCCCTCCTTGTGCCTATTATATTCATTCATCAGAAAAATAATGAAATTAAAAACATCATGGTTTTTCTCTCGGTTTTCGGGTTTTCATGTAAATTTTGGTTTCGTGTTTATTGCTTTTAATACTCATATTCTTTATGGCTCTCTTTGTATAACTCTTTCGTACTTTGAGTTCTTATTAATAAAGAAGTTCTCGTCTCCGTTTAAAAAAAAAAAAAAAACTCATATTTGGATCTTTTGAAATGAAGAAATAGGAAAAGAGGACTTTAGGATGAGGAGAAAGAAACCCCTTCCCCTTACCTACATCTTAGCTTCTCTGTCCCCCTCAATAAGGATGGAGAAGTCAAGCATGCCTTCATTTTTTCAATGGAAATAACAAATGAGACCTTCATTAATATAATGAAAGGAGTCTAATGCTCAGAATCTGAAAATAAAAGTTCAAATAAAAGATACAAACTAAATTAAACAGAGCAAATGAAAACATTCCAATTCAGGCAAACGTTTTGAATTGAATAATTAGAGAAAGCCTTGTAGCTAGAACACCACGAGGAGGCAAGAAGATGAGGATATCCAAAATGAAACGACCAAGAAAGGGTTTTATCTTGAAAAACCCACTAATTTATTTCAAACCATACTTCAGACTGTTGAGCATTCACTGAATTGGATTGGATCTTAAATTTTATGGGCCAAAAGAGGGCCCACCAAAATCTGAACTATCCTGAAACGGCATGACAAAGTTTTAAGAGAAAATTATCTTCCTTCATTGTAGTTGAGTTTTTTCTTCTAGAAAACAGGTTATGGTTTAGGCTCTTCTTTTCTACCATTTGGTATGTTTTTCTTTCAATGATGTAGATTCTTACTGAGTGTGTGCAGCATTTGCAGGAAGTAATGTGGCAGTTAATCTAGGGGATTAAGACTTTTGTACTCCACTAGAAGTTGCTGGGCCTTAATCGTTCAGTATTGTTAAGTGATAGGCTCTAGTTTTTAATCCCATTATCATAGAGCTTGAAACCATCATGGGTTGGCCTAATGGTAAAAAGGGAGACATAGTCTCAATATCTAACTAAAAGGTCTTAGGTTCAATCCATGGTGGCCACGTATCTAGAAATTAATTTCCTACAAGTTTCCTTGACACCCAGATGTTGTAGGGTCAGGTAGGTTGTTCTGTGAGATTAGTCGAGGTGCGCGTAAACTGACTCGGACATTTACGGATATAAAAAAAATTATCACAAAGGCTGAAAATTTTTAGTTACTAAATGCAAGCTTGCAATTAGCATAGATAGTTACTGATTGTCATCTTGCACTTGCTTGCAGATTCTCTAATTTGACAGGAACTGATTACAGTGAAGGGGCAATAGATCTTGCTAGAAGCCTTGCAGAGCGAGATGGTTTTTCCAATATTAACTTTTTGGTATGACTTGGCTTGAGGGTGTTTTGATTACCGTACTTATTCTCTTTAAAAATCTTTGCAAATCTATCTCTCTATCTCTGTTTCTTTTTTTTTTTCCATAACAAGAAACAAAACTTTCTACTGCTGAAATGAAAAACATTCTGTCTCTCTATTGGATATGGTATGGAACATAGTTACTTTCTACAAAATTGATAGAGGTTTATTTTTGGCTTTGTAAGAACATATATATAGTTTTTGGCATATATGTTCCTATTTTTTGTGTTAAAAAAGAATTAAAATGTTTTCTAAACTACATTGTCACATTTCTAATGGGCTATAATATGACTTATCGCTGGTAAATGTCATTGGTTCAAGTTAGATTGAGAACTATTTTAAGAGTAAATTAGATTTTTTTACCATAAATCTTTGTTTACAGAATTAGATCTAAATAGACTAGATTCGCTGTTAGTTTTTCTTTTTTTTGTTCGAGCAAAGGACAGTAATTGACAAATTAGATTCAGGAGACAGATTGGGAATGAAATTGAGGTGGGGGATTACCTGTTTAGTCAATCTCATAAATCCAGCCAATTGTTTGTCAGATTATGTTGCATTGGAGTTTCGAGAAATAATTGTCACATCTTTATATTGTCTATCATTGATACCAAGCATGATTTGAAGTATAGAGATGATTTGTAAAACTTTTAAAAGTTGAGTAAATAAATTAACAAAATACTTATTAAACAAATGGGGATAGTTGTTAAATGGCTGTTAGACCACCAATAATCCACACTTATGTTAGGAGAGGCAGCTCGGGTAATTCACCTAACCAGGGTTAAGTAGTGGTTGGGTGACCTGGGTAATATAAATACTTTTGTAATGTTTTGGGACGACTTATGTTTTTGGATGTGAATTGTGCTGTTTGTAGAGGTTGACCGTAATTTGTTTCTTATTAAGTAAAGATCCCAACTCTCTGTAGCTGTAGAGAGCTTTTACAATGCCCTTGGGTTCATACTAGCTGATTCGATGCCTTTTGACGGTCAAGCACTGTATGGTGCAGTTTTAGCATCGTAAACCCAAATGTAAAATCATCTGTAGATCCAGAAAGAAAGTGGAATTAGAGAGTTTTACGAGCATGAAATTCACGAACTCATTTTCTATTAACCGTCTTAGAGTTATTCAACTCAACGCTTGTGCTACCCCTATAAATGGAAAGTGTCTTGTTGCAAATGTATTGGTATGGTCATGTCTGGTAATTTCTTTTCTTTTACGATTTTGGTAGTTTGTGTATTTTGTTTGGTTTCCTTGCACTTTGAGCGTTAAGTATCTTTTCGTGTATCAATGAAGAACTTTTTTTTCTAAAAAAAGAAGAAATACGATGGACGTGTCTTGGAAATTTTAAAGCTCAACACTTGAGTGATTCATGAATCTTATTGATGGTTTTTCAAAAGCTTCTTTCCTCGAGTTTGGGGTTTGTGCATAGTTTGCTCTTTGTTGGTTTATGGTTGGATTATGGGTTTCTTTGGTAGTGTTTATTAGTAGCCTTTGTTTTACCGTATTTGAAGTAGCCAGGGGGCATGTCGGTTGTAGCCATTTGTTATTCGTAACTTTTCTTTTTCTCTTCATTTTGGAGTTTTATCTTTTGATTTTTATTCCTTTTCTTGTTTCAAAAGAGAGATAGTCAGGAAATAGTAGGCCATTTATTAGATATTTAGAAACGTTTCCTTACTTAGTTTCTGCATGATATTGTTGGATCATCATAATTGTATTGTTTTACTTTTACATGACTTAGGTTGATGATGTTCTTGAGACAAAGTTGGAAGGCCAATTTCAGCTCGTTGTGGATAAAGGGACTTTAGATGCAATAGGATTGCATCCAGATGGTCCTATTAAAAGGTAACAATAAGCAAATACATGCATTCTATAATATAGTTGTATGTGGACTGTTTCACATTGGACAGGTGCTTACTCGTGCTCCCACTGAACATGGGCGGCATGGTAAATTGATAATTGCAGACTTGCAAGTTTCACTCCGATAGATATTACTGGATAGAAAATCGAAGTAATTGGTGTTTCTTTATTTCTTTTTATTATTTCCAGGATCATGTATTGGGAGTCTGTATCGAAACTGGTGGCTCCAGGTGGGGTTTTGGTAAGGCCTTTTTTTATCCCCTCTCACCTATCTGGTAGGAAATAATAATAGTAATAGTAACAATAAGAAGGAATATTTTTAAATATAGCAAAGTGAACTAAAATATTTACAAAATATAGCAAAATTTCACGACTCTATCACTGATACTGCTAGACACTTTATTAGACAAAGCACTGATAGATACTGATTGGAGTCTTGAAATTTTTGCTAATTTACTGTTTACAATAATTACCCTAATAATAATGATGTGATGATGATCTACTTCATGCTAAACATGCCCATCTGAAATTTTAAATTCTAGAGTTTTCCAACATCCAGATATTGTAGCATCTCGCAAATAGTTTAATGAGATGGCCTGAACTTTGCACTTTGTTTAAAACATACATTTATTCTTTTAAAAGGCAATATTACTCTTGATCTTCTAAAAATATTTCAAGACTACCCTTAGAATAGAAGTCCGTTAAAACGTTTGGATGAAATTTGGGACATGGAACAGTCTAGATGTGATTTGAAACGAAAATTGAGACCAACACTGTCACGCTATTCTAGGTTACCATGATAACCCATTCCAGTCCCAATTTCCATCCAAACTTCCAATGGATTTCTTCTCAAAGGTAATTTTGAAGCATTTATAATAAGGTCGTGTAATATTGCAATACCTTTTGAATTGGATCTCTTCTTCCCCCACCCTCCTCCCGTTGTAAATGTAATACATCCATTTCATTGATTTCATATATCAGATGAATTGAAACAAAGGACGAAGTTCAAGAATATTTCTTGCAATTTAGGCATTTGATTGATATCATTATGAGAAATATAAAGTAATATGAACTATTTTTCGTAAATCAACAGAGTGTTGTTTACGATTACAACTCAGTTGAAGTCAAAACTCAGAACAAATCAAATGAAGAACAAACGAGTAAAAGGAAAATCAAGAACAATTAAAAGGAACCTTACACCTCTGCCCTTCCTATGTTTCAAGGAATGTTGCAGACCCTTCACTCAACCCCACAAAATGAACTCTCCTTCCCTCTTTTCCATTTGCCCTCTTATACAACATATTTCTAACTAACTCTGGCTCCGTTATGGTCCCTTTCTCACTGCCTAAGTTTTTCTTCACACGTGTGCTTCCCCTTTCTTACCCTTTCTACTATATTGTAGAATAACAGGGGCTACCAGCATTCTTATGAGATTCTTGAAATGCTTGTGAGCTCCGCCTTCTTTTTCCCATTTACATTTTATGTTCTTTGGCAAATTCGAGATGTTTTATTCTCTTGGAGCTCTAGTGCATAGACATAGCATCCTTCGTTCAGTGAAACTGCGATGCAATTGGGACTGACCCTTTTTTATTACATCTAATGCTCATATTAAATGAGACGTAGAAAAATATGAAACAAGAGATAAGCAACTGGAACTGACTTGTCACTGGTAATTCCTGTGTAGGTGATCACTTCTTGTAACAGCACAAAAGATGAACTTGTGCAAGAAGTTGAAAACTTCAACCAAAGAAGGGTTAATACCTTTGCGGAACCAGAGTCATCTGATGAAACACAACCAGAAGAATTGTTGCCTACATTTCAGTACCTAAGCCATGTTCGTACGTACCCGACATTCACCTTTGGAGGATCTGTTGGATCCCGTGTTGCCACAGTGGCATTTCTTAGAAACTAATTGTGTTAGTGTTAGCTTTGTTACCTTGAAGTCGGTCATTTCTGTATGTTATACACATTTATGGATTTAAGTGTTGCCTACCACTGTTTGCCCCCAAAGAGTCAATGTTGTAATGTTTTTACCTTCCCTTTCTTTTTTTTCTTACTTTTTGTTTTTCTTTTGTTTTTTGTTTTTTGTTTTTTTTTTCTGTTGAGAACCTCAATGACTTAGCATTTGTGTAAAACTTTCAACCATTTTCCAGGTTTTTTAGCTTGTGCTTAGGGAACTGATGTAATTACGGTGGGGAGTAAAGTGGGAAATTACTAAATTGGCTGCTTCGATCTCAATGCCTTTCTCAGGATTTCAATAGACATCTAATAAACCATGTTCAACACTATATGAATCACTCAACCCTTTGTAACTTGGCATTGAGTATTAATATCACCCCTTTTATATATACTAGTGCTTTTATCACGTGCATGTGTGTGT ATGGAGCCAGATGCTGAAGCTGTGACATCAATGCTAGGTCTCCAAAGTTATTGGGATTCTCAATATGCTGATGAATTGACAAATTTTCGTGAACATGGTCATGTTGGTGAAGTCTGGTTCGGATCTGAAGTTATGGAAACTGTTGCTTCTTGGACAAAGAGCCTGTGTTATGATGTTTCTCAAGGTCGGTTTCTGAATCAAGCTGGCAATGTTAAGACACTGAATGTTGATCAGGGATCCAAATTCTTGTCTAGTTGGAGTGTACTTGATATTGGGACGGGAAATGGTTTGCTACTTCAAGAACTTGCTAAGGAGGGATTCTCTAATTTGACAGGAACTGATTACAGTGAAGGGGCAATAGATCTTGCTAGAAGCCTTGCAGAGCGAGATGGTTTTTCCAATATTAACTTTTTGGTTGATGATGTTCTTGAGACAAAGTTGGAAGGCCAATTTCAGCTCGTTGTGGATAAAGGGACTTTAGATGCAATAGGATTGCATCCAGATGGTCCTATTAAAAGGATCATGTATTGGGAGTCTGTATCGAAACTGGTGGCTCCAGGTGGGGTTTTGGTGATCACTTCTTGTAACAGCACAAAAGATGAACTTGTGCAAGAAGTTGAAAACTTCAACCAAAGAAGGGTTAATACCTTTGCGGAACCAGAGTCATCTGATGAAACACAACCAGAAGAATTGTTGCCTACATTTCAGTACCTAAGCCATGTTCGTACGTACCCGACATTCACCTTTGGAGGATCTGTTGGATCCCGTGTTGCCACAGTGGCATTTCTTAGAAACTAA ATGGAGCCAGATGCTGAAGCTGTGACATCAATGCTAGGTCTCCAAAGTTATTGGGATTCTCAATATGCTGATGAATTGACAAATTTTCGTGAACATGGTCATGTTGGTGAAGTCTGGTTCGGATCTGAAGTTATGGAAACTGTTGCTTCTTGGACAAAGAGCCTGTGTTATGATGTTTCTCAAGGTCGGTTTCTGAATCAAGCTGGCAATGTTAAGACACTGAATGTTGATCAGGGATCCAAATTCTTGTCTAGTTGGAGTGTACTTGATATTGGGACGGGAAATGGTTTGCTACTTCAAGAACTTGCTAAGGAGGGATTCTCTAATTTGACAGGAACTGATTACAGTGAAGGGGCAATAGATCTTGCTAGAAGCCTTGCAGAGCGAGATGGTTTTTCCAATATTAACTTTTTGGTTGATGATGTTCTTGAGACAAAGTTGGAAGGCCAATTTCAGCTCGTTGTGGATAAAGGGACTTTAGATGCAATAGGATTGCATCCAGATGGTCCTATTAAAAGGATCATGTATTGGGAGTCTGTATCGAAACTGGTGGCTCCAGGTGGGGTTTTGGTGATCACTTCTTGTAACAGCACAAAAGATGAACTTGTGCAAGAAGTTGAAAACTTCAACCAAAGAAGGGTTAATACCTTTGCGGAACCAGAGTCATCTGATGAAACACAACCAGAAGAATTGTTGCCTACATTTCAGTACCTAAGCCATGTTCGTACGTACCCGACATTCACCTTTGGAGGATCTGTTGGATCCCGTGTTGCCACAGTGGCATTTCTTAGAAACTAA MEPDAEAVTSMLGLQSYWDSQYADELTNFREHGHVGEVWFGSEVMETVASWTKSLCYDVSQGRFLNQAGNVKTLNVDQGSKFLSSWSVLDIGTGNGLLLQELAKEGFSNLTGTDYSEGAIDLARSLAERDGFSNINFLVDDVLETKLEGQFQLVVDKGTLDAIGLHPDGPIKRIMYWESVSKLVAPGGVLVITSCNSTKDELVQEVENFNQRRVNTFAEPESSDETQPEELLPTFQYLSHVRTYPTFTFGGSVGSRVATVAFLRN
BLAST of CsaV3_3G017790 vs. NCBI nr
Match: XP_004140734.1 (PREDICTED: methyltransferase-like protein 10 isoform X2 [Cucumis sativus]) HSP 1 Score: 536.6 bits (1381), Expect = 4.9e-149 Identity = 265/265 (100.00%), Postives = 265/265 (100.00%), Query Frame = 0
BLAST of CsaV3_3G017790 vs. NCBI nr
Match: XP_011651204.1 (PREDICTED: methyltransferase-like protein 10 isoform X1 [Cucumis sativus]) HSP 1 Score: 531.9 bits (1369), Expect = 1.2e-147 Identity = 265/266 (99.62%), Postives = 265/266 (99.62%), Query Frame = 0
BLAST of CsaV3_3G017790 vs. NCBI nr
Match: XP_008457104.1 (PREDICTED: protein-lysine N-methyltransferase Mettl10 [Cucumis melo]) HSP 1 Score: 511.1 bits (1315), Expect = 2.2e-141 Identity = 256/268 (95.52%), Postives = 258/268 (96.27%), Query Frame = 0
BLAST of CsaV3_3G017790 vs. NCBI nr
Match: XP_022984107.1 (EEF1A lysine methyltransferase 2-like [Cucurbita maxima]) HSP 1 Score: 484.2 bits (1245), Expect = 2.9e-133 Identity = 242/265 (91.32%), Postives = 250/265 (94.34%), Query Frame = 0
BLAST of CsaV3_3G017790 vs. NCBI nr
Match: XP_023528807.1 (EEF1A lysine methyltransferase 2-like [Cucurbita pepo subsp. pepo]) HSP 1 Score: 483.4 bits (1243), Expect = 4.9e-133 Identity = 242/264 (91.67%), Postives = 249/264 (94.32%), Query Frame = 0
BLAST of CsaV3_3G017790 vs. TAIR10
Match: AT1G66680.1 (S-adenosyl-L-methionine-dependent methyltransferases superfamily protein) HSP 1 Score: 371.3 bits (952), Expect = 4.9e-103 Identity = 183/272 (67.28%), Postives = 213/272 (78.31%), Query Frame = 0
BLAST of CsaV3_3G017790 vs. TAIR10
Match: AT4G34360.1 (S-adenosyl-L-methionine-dependent methyltransferases superfamily protein) HSP 1 Score: 56.2 bits (134), Expect = 3.5e-08 Identity = 33/121 (27.27%), Postives = 62/121 (51.24%), Query Frame = 0
BLAST of CsaV3_3G017790 vs. TAIR10
Match: AT3G60910.1 (S-adenosyl-L-methionine-dependent methyltransferases superfamily protein) HSP 1 Score: 54.7 bits (130), Expect = 1.0e-07 Identity = 30/118 (25.42%), Postives = 59/118 (50.00%), Query Frame = 0
BLAST of CsaV3_3G017790 vs. TAIR10
Match: AT2G30920.1 (coenzyme Q 3) HSP 1 Score: 42.0 bits (97), Expect = 6.8e-04 Identity = 34/112 (30.36%), Postives = 56/112 (50.00%), Query Frame = 0
BLAST of CsaV3_3G017790 vs. Swiss-Prot
Match: sp|Q9D853|EFMT2_MOUSE (EEF1A lysine methyltransferase 2 OS=Mus musculus OX=10090 GN=Eef1akmt2 PE=1 SV=1) HSP 1 Score: 158.3 bits (399), Expect = 1.2e-37 Identity = 104/258 (40.31%), Postives = 131/258 (50.78%), Query Frame = 0
BLAST of CsaV3_3G017790 vs. Swiss-Prot
Match: sp|Q5JPI9|EFMT2_HUMAN (EEF1A lysine methyltransferase 2 OS=Homo sapiens OX=9606 GN=EEF1AKMT2 PE=1 SV=2) HSP 1 Score: 156.0 bits (393), Expect = 5.9e-37 Identity = 90/201 (44.78%), Postives = 115/201 (57.21%), Query Frame = 0
BLAST of CsaV3_3G017790 vs. Swiss-Prot
Match: sp|Q5D013|EFMT2_DANRE (EEF1A lysine methyltransferase 2 OS=Danio rerio OX=7955 GN=eef1akmt2 PE=2 SV=1) HSP 1 Score: 147.9 bits (372), Expect = 1.6e-34 Identity = 90/256 (35.16%), Postives = 129/256 (50.39%), Query Frame = 0
BLAST of CsaV3_3G017790 vs. Swiss-Prot
Match: sp|P40516|EFM4_YEAST (Protein-lysine N-methyltransferase EFM4 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) OX=559292 GN=EFM4 PE=1 SV=1) HSP 1 Score: 119.8 bits (299), Expect = 4.7e-26 Identity = 87/272 (31.99%), Postives = 130/272 (47.79%), Query Frame = 0
BLAST of CsaV3_3G017790 vs. Swiss-Prot
Match: sp|Q9P7Z3|EFM4_SCHPO (Protein-lysine N-methyltransferase efm4 OS=Schizosaccharomyces pombe (strain 972 / ATCC 24843) OX=284812 GN=see1 PE=2 SV=1) HSP 1 Score: 112.8 bits (281), Expect = 5.7e-24 Identity = 85/266 (31.95%), Postives = 118/266 (44.36%), Query Frame = 0
BLAST of CsaV3_3G017790 vs. TrEMBL
Match: tr|A0A1S3C4B8|A0A1S3C4B8_CUCME (Protein-lysine N-methyltransferase LOC103496859 OS=Cucumis melo OX=3656 GN=LOC103496859 PE=3 SV=1) HSP 1 Score: 511.1 bits (1315), Expect = 1.5e-141 Identity = 256/268 (95.52%), Postives = 258/268 (96.27%), Query Frame = 0
BLAST of CsaV3_3G017790 vs. TrEMBL
Match: tr|A0A1R3HT65|A0A1R3HT65_9ROSI (Protein-lysine N-methyltransferase COLO4_27143 OS=Corchorus olitorius OX=93759 GN=COLO4_27143 PE=3 SV=1) HSP 1 Score: 422.9 bits (1086), Expect = 5.2e-115 Identity = 201/264 (76.14%), Postives = 229/264 (86.74%), Query Frame = 0
BLAST of CsaV3_3G017790 vs. TrEMBL
Match: tr|A0A1R3GBX6|A0A1R3GBX6_COCAP (Protein-lysine N-methyltransferase CCACVL1_27163 OS=Corchorus capsularis OX=210143 GN=CCACVL1_27163 PE=3 SV=1) HSP 1 Score: 416.0 bits (1068), Expect = 6.4e-113 Identity = 200/264 (75.76%), Postives = 228/264 (86.36%), Query Frame = 0
BLAST of CsaV3_3G017790 vs. TrEMBL
Match: tr|A0A0B0NHF0|A0A0B0NHF0_GOSAR (Protein-lysine N-methyltransferase F383_05250 OS=Gossypium arboreum OX=29729 GN=F383_05250 PE=3 SV=1) HSP 1 Score: 416.0 bits (1068), Expect = 6.4e-113 Identity = 201/264 (76.14%), Postives = 227/264 (85.98%), Query Frame = 0
BLAST of CsaV3_3G017790 vs. TrEMBL
Match: tr|A0A1U8K2J7|A0A1U8K2J7_GOSHI (Protein-lysine N-methyltransferase LOC107912906 OS=Gossypium hirsutum OX=3635 GN=LOC107912906 PE=3 SV=1) HSP 1 Score: 414.5 bits (1064), Expect = 1.9e-112 Identity = 200/264 (75.76%), Postives = 226/264 (85.61%), 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 cucumber chineselong genome (v3)
Date Performed: 2019-03-04
The following gene(s) are orthologous to this gene: The following gene(s) are paralogous to this gene: None The following block(s) are covering this gene:
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