CsaV3_7G035450.1 (mRNA) 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.TTCAAAAATACTTCTACACCAGAAATCAAAGGAAAGGTTCTTAACTTTAAGCCAACCTCCATAACCTTTCAACACTAGTGGTCTACTATGTTTCAAGCTGCCCTATTTTTCAAATTTAAGGTGGAAATTACCCCATGCCTGCCAATTTACCTTGTGCACCTATGAGGTCACTATGGGAGCCTTGATCAAGACCGATAAGGGCATTGTCATCCTAAAGGGGGTTAATAACAATGCTGGTTCAGAGTTTCGATTCCAAAAATTTGTGAATCGACCTCCAATCATCAAAAGCAAATATTTTCGAAATAATCCAAAGGTTAGCAAAATTAAGCTTAGCCACCTCATGGTTTTTAAGTAACCAATGTTTTTGAATTGAGGTGAATGACGAACTGAGACCTGAGTAGTACATTTAAGGTTGGAGATTTTGAATTTGACCATAGCAACATAACTTTGTTTTTCTTCTGAAGGTTGGAAGAGAGCTTTAGTAGAAATGGCTGAGAACCATCCGGAGTAGTCAACTATATGTACATACTTTTTCAGCATTTTACAGAATGAAGACCAGCCTTGCATATTAACTTCTGAGCAGATTCTAAGGGTAGAGTGACCTTCTGATTAAGGCCAAATGTCACAGCTAAGGATCCAACCTGATTTGGCTTGGAACTTGAAGATCCTTAGTCTCCCTCTGTCAAATTCACCATCTTTCTGGAAGAAGCGGTCTACTAGATTATGGAGGAGATCTGAAATGGTACAAAGTCCATTGGAGTTGAGCTTCAGAGATTGATATGAATTTGTTAGCTTCCACATCTTCAATAAAAAAAGTCTTCGTTCTCTTTCCAAATACAATAATGTGATTGATTAAACTCGCAGCTAACAGTTTCCATGTTGAGGGGCTCATCGAAGAGGCCTGGCTAAACCGGGGAGGATGGTAGAGGAGGAGAGAGGAAATAGGAGATAGGAGATAGGAGAGAGGAGAGAGGAGAGAGGGGAGAGGAGAGAGGGGAGAGGGGAGAGGGGAGAGGAAAGAGGAGAGAGGGGAGAGAACTTACCTTTTTCCTTTTGGTTTGAATGTTTGGATACTGCAGCGAAATGCCGCTGCTCAGTCTCGGTGTACCTTGAACAAGGAGTTTGAGGACTCTTCCATTCAGGATCTTTGCTCGAATTGTTTGGCTTATTTATCCCAAGACGGCTAGAAGAAAAAGAAGATGGCGCTTTCCTCCCTATTGACTTCTTTTAGTATATCTCATCACTGTTAATAAGCTATTATCATTGTTTGTTGGTTTGTACGGTTTCAATTTTGGTTTAGTCCTTTATTTTTATACCTTTGTGAATGTACTATTGTCATTTGTATTCTCGTTTCCAATTTTTGTGGATATGATGAGGGGACTATGGGGTGTCAACGTAGTTGAGATATCCGGATACGCCCATTGATTTTTTGGTCTCTTTATTTGTGCTAATAGTATATCTCTTGTATTTTGAGTTTTCTTCATTGATAATGAGGTCGGTCTTCTTTAAAAAAAATATAAATAAAAGAACAAACTTTTCATGAGCAAAAAATATCCTGTATATATCTTTGATATTGCTCTACTTGTATTGGTAACAAAATACTGTTTTTTTCTCTAGTTATTGATTCATATCGTTAATTTTTCTTTTCCCTTCCGTGACTTTAGGCTTCCTACTGAAATATTGTCACTTTGCCCATGCAATAGATTGCCCTAATATCAGGGAAAATTTATCTGATTTGTGCAGATTACGACCGATGACTTATTGCAAGCTGCTCAAATAGAAGAAAGGGGACTGCTAGATAGGAAGGAAAGAAGCCCAGACACATGGAAGCAAGTGGCCATTAATGAAGCAGCAATGGCTGTTGTGGCCGTGAACTTTCCTGATCTTGAAAATATTGAATTTGTATGGTCTTAATCATCGACTTTTTCATTTTTCTCATGCACTAGAATTATCCACTGCTTTTACTTTTGATATTCCTGAAGTAGATTGAATTGAATAACTAACATTAGGAAGGAACAAAAGCAAGGATTGTCAGTTTAACAGCAGCGAAGTACTTCTATACACGATTCTTGATCAATTTGAAACTTGGTACCAACACTTGAATAATCTGAGTTCTTGTGGGACCTCTCTTATTGTGTAACTCATACTTTTGAGTCGTTTGACTTCTCAAGATGTACAATGACACATCTAATACATAAATAAAGTGAGTGTGTAAAATGATATATTTAATATTCGGACAAAGTTCCTTTTGACTTCTCAGTATGTACAACGTTAGCAAGACTATAATGTTTTGGAAATATAACCATTATGTTAGGAACCGAGGTAGTGTGGGACATGTTCCACAATGTTTAGATGGGATGGAGATTATGGAAAATGTTTGGTAGTAGCTGAACTTCAGTGGAGAGAATCAACCCTCTTGAATTGGTAGTTAATATCAGTAACTTTTTCTAAGGCCCCCAATCGTTCACACCTATAAAAGGAGGGGCAAAAGGGTAAATGGACAAACAGCTAATGATGAGGGAATGATGAAAAGAGATCGTGCAAGGGGGGCCCATGGGCAAGAATGAAGGAATGAGGTATATAAATAGGTCTTTTTGGGTTTGGGTAGGTAGGTTTTATTATCCTTTATGTCAAGTCGGCTGCTGTAGCCTGGGGAGGGTATTCAGCTATCGGAAAGGGAAGCTGAGTATGTTCTTTATTGCTTTTATCTTTGTTATTTTGGATATTGTGACTAGTGTAATCTTTTGGCATATACATAAATAAATTTTAGCAGAGTGTTGTCTCTCTTTTGCTTTTGTGTGTGTGGAAATATTAGTGTTCATTTAGTAGATTTTCTACACTTTTGTCTCTAATTCTCAAATTTCCAGTGTAAAATTGTAAGGGAAACTTTACACGTACCTGTTATTCTGCTTGATACCTGGAATATATTTACAATTTGAACATGACTACATCTGGTGCAGGTCACTATTGCACCTAGATCTGGTAGGGAATTGGGTTATGTTCGGATGAAAATGAATGCCATGAAGTACAATGAAGGAATGCTTACGTATGTTGTACCTCTCTTTATGTTTTAGCCATCCAATTCTTTACATTGTTGAGGGAGAGCTAATGATTTTTTTTTTCATTAATAATAATTATTTATTCACTGCTGTTCTGATCATGTATGAAGTTCTCATGGGGGTGGTGCCATTCTCATGAGTTGTAGTCCACACAATTGTTATTCCTTTTATTGCACTAGTTTTCGGTTCAAATAGTTGTCAAAACTTTTATATATACTTTTTTTTAAAGTTATCGTTTTTATTTTTTTGAAACGAGACAAGCTTCTTTATTAATAATGGAAAATAAGACTAATGCTCAAAGTACAAGAGAATTGAACTAAGAGTAAAATAAGAAAAGACAAAAACATCTAAACAAACTGCCCAACTATGATCTCGGCCAATACAAGTGAAAACGACCAAAACAAACAAACGCAAAGAACAAGCTAAAAAGGCGAAACCCAAGAGAAAAAATGATTCTAAAACAGAACCAAAACGAAGAGATTTGAACACAAGGGAAAACAACCATAGCCTTTTTGAACAAGTGGCCGGCTGTGTTTGAGGTTATCCCATCTTTCAAATTTGAGGTGAAAATTCCCCAAGCCTGCCATTTACCTTCCTCACGAATTAAGTCTAATATTGATCCTTGGTCAATGCTAATGAGGCCATTCTCATCAGAAAGAGGATTTATAACAATTTTCGTTTGGAAAAGAACTTTCAGCCTCTTACGGATCAGTCTCCAGTTGTCAGAGACAAATAATTTTGATATAATCCATAGATTTTCAAAATTAACTGTTAGACCACCATTATTATTTACTTATAATAGAAGAAAGAAGGAGAAGAGATCACGTGAGAATGAAGCACAGAAGATAGGAAGTAGAAATGAGAGAGAGAAGAGTGGGCCCAGCAACAGTTATGTTGACAGGGGAAGTTAAAAGGCAAGTACGAAGAGGAGAAGGGGGCGGTTAGTGAGAAACAAAGTGGGCTTCATTACTCTTTGAGAGAGAAGGGTAGCAGAGGGCCAGGTTCTATTGTTCTTGTTTGTCTGTATTTTCTTTGTTGCGAGTATTCTGGATAGGATCAGAATTGTTTGCAGTTTATTTGTATTTGGTTAGGTGTAGATGTTCTGTCTTTGTTTTTGAATTTCTAGTTTGGTTGTTTTGGTTCTTATCTTGAGAATCAATAGACTTGTTATTATTGTAGATTCTGTTGCAAATTATCTATATAAATAGAAACACGATATCAGTGTTCTATCATTAACCTTCACAACTTCATGGTTCTTAATCAACCACTGCTTCTGTTTTGGAGGGGGAGAATGGTTGGGCACTTGAAGCTTCCTGTTTTGACTAGGAACCTGACCGATTTCCTTGGTTTTGGACCTTGGAGCAGGGGAGTTAGAAAGACTGGATTTTATCATTTCAACGTAACTAATTTTTCCTCTCATAATCAAAGAAGGAATCTTTGAGATATTTTCAGAATACCATCTATTGTAATCCAATTTTTCGACAAATTTTCCCAGCATCATACCGAACAACTTCCAACCTTGCCGATCTTTTCCTAAGCACTCTAATATTGAAAAGACCCCCTGAATATGGTCAGTGATCACAACTTAGAATCCATCCAGACTTAGCTTGAAACTTCAAAATTCTCAATCTTCCTCTGTCAATGTCCCCGAATTTCCTAAAATGGTTGTCCACTGGAATTCTGAGTAATTCAGCTATTACTGAGTTGGCTATCAGAAAGAAAGATGTTTCCACCGGCTTCTACATCTTCGATAAAGCAAACATCTTCCTCTTTCCAAGTGGAATAGTGTGACTCGTTGATTTTGCAACAAACAACCTCCATGTTATGCTTTGAGAATTAAGGGAGAGGTCTGTTGAGAAACCCGGCTGTTGGAGAGGGGAGGAGGAGAGGAGAGAGGTGAGAGGGATCAAACTTTTAAGTTGTTTGGTTGTCTAACTGTTGTTATTGTTATTATTATGATTATTATTATTAATTCAACACATTAGTTTAAATTCAAAATGCATAACAAAACCTTTCTTCATTCGTTTTTGGTATTTCTTACTCGTGCATATGATTTCATGCAGCCGCCAGTCCCTCTTGGATCATATAACTGTTCAACTAGCACCACGTGCTGCAGATGAACTCTGGCATGGGGAAGACCAGGTATGATACTTGTCTAATTCTTATAAGATAGATGCATTGCAAGTAATCTGACATATTTTCCCCGTAACTTACTAACCATTTTCTTCTATACATACTAAATTGGGATATTGATGTGAGCCTGATAGGCCCCAAATCACCAAGGTATACTTGAGGAAGCGTGAGAGAGAGAGAGAGGTGATATTATGTGAGGGAAAATGTTGGTTATGTGTATGGGAATATTGTTAGTTAGGGTGCTGAGGGTTCCCGGCATGAGTTGTATAAAGGAAAATTGCATTAGATGACAAAAAAATTTAGAAAAAACAGTTCATAACACCTCTCTTTTTCATGTTGCAAATTTGGCAAATATGACAGCAATCAACGGTAATCAGACAATAATTTGACGATAATCTGCTTTTAAATTTGCTATTTTTGCAATTTTGAAAATGTAAGTAACATAGGCTCTATTATCATTATTTTTTTTTTTTGCTATTTTTGCAAACTCCCCTTGCATAAATATAGAGGAGAGATAGTTAAGGAAGTTATTGAATACCTTGTTCATTGTAATCGTTCTCTTTTGGAGAATTGGTGAGGTACGGAGCCCTTGAAACTTCCCTTGCTTGTTAATAAAAAAAATTGGAAGGTTGAGACCTATCAAAGATGTCAACTGAAAGCTATAAATAATTGCAAAGTTTGCTCAGAAGTTCCATTTTTCCACATTGTTTTTGTCCTCCTTATTTTTCAGCAGGGATGTTTATGGTTAAAGCATGGTGTATCGATCATTTCAGCATTTTAAAGTTATAATGTATAATATGGTGAACAACCAGTCCTTGCTGAAGTTCCTGTTTGGAAGATCTCTTCTTGATAATTGACCAGTGTAAAAAAAACAAATTGGAAGGTAAGTTCTCTGCTTTCTCTCCTCTCTCCTCCGCGCCCCTCTTCGTTTCTCTCTTTCAGGAAGCTCCACGATGTTTGCATCCCAGACTGCCAACATTAGCCTTTCAGTGATGACTGCTCTCAGACCATTCACCAAAGTTCTCTGGCGAGCGAAAGACAGTTCGTTATTCCAGTGAATTTTCAGCCTACACTTTGTTCAAATTCAAAGATAGAAATGGAAGTCGAAAGTTGCAAAATAGACAACCTGTTCTTCTGCATTTGGTACAAAAAAGGTATTTTCCAGGTGGAAGACGTCAATGTCAAATGCCAACATAATCCTACCAATTTTGAACTCACAACTTATTTGGTTTCTTGAAGCAATTTTGGAACTGAATTGAAAACCGGAGGATTCTTATTTCTACAAAAAAATAAAAAGTGGAAAACAGAAGGGTTGAAGTCTCTAAATTCAGAATTGGAAAAGGTTGGATCTTAAGATGCCTTGGTTGACCTTGTACGGGTGGAAGATCATTCATTCATGACTCCTTAGGTGGAGATAGACAGGGATGGAAATTATTTGGCAAGATGTTGGGGAATTTCAAATTGTCATGAGTATAAAGCTTGGGGAGGAAGGTAGAGAAGCAGTCACATGAGGAGAAGAAGGAAAGCTATGTTGACAACGTGAAAACAAAGAAGACCAGACAACACTATTTTGGCATCCGTGAAACAGAGCACAAGCAATTATTGGGTGATTAAATATCTTGACGTTTTTAAAGTTTATTCCAACAATCTTTGGGTGGTTACAAAGCTCTCTGAGTTTGATAACTGGGTAGAGATAATAAAAAAGGTAAGTTCTCTCCCCTCTCTCCTCCCTGCCCTCTTTCCCGTTACCCATTTTCTTCGGTGAACTTCTAGACGATCTCATCATCAGCAAATGGAAGTGGAAAGCTGCATGATTGCTGAATCTTATTATTGTATTTGGTTTGAAGATGGATGCTTCCAAATTGAAAATGTAGACTTTAAAAAAATTCTTCAAATTATGAAGACTCTAACTGATTTGGTTCATAGAGACCCTCTCTGAACTAGTAATATGGCTTTCGGTGCAAAGTTACTTATTTAGAAACAGTATGGATCAGAGTGGTTCCACGAGGCTGACAAAATTCAAAACTACCTCGAGATGGATTCTAAGATGTGTTAAACGAGATGCTTTGGCAAATTCTCCTTCATCCATGTGTTTTAAAGGGATGAGAAGCAGGGCTGGTCTTCCTTTTTGAAAATGATGAAAAGCTTCCTTATGAAACACAAATATCAGTCTTGGCAATCTGACATACATTAGGCCTCCAGTCCCTCCCATTATCAGAAGAATCGCAGGCCTGGTGATGCAGACAAGGTAAAGTCTTGACTCACAAACCCCTTTGTTTCATTAAATAGAAAACAGAGCACTGGGACACGAAGCTCTGTGGAGCCTGGTCAGGAATTCTACTCTACTTCCCCCCTTGACAAACCAAATGTGCATCAGTACTGGGTAAGAAAAAATGATGACGGCATTGAAGAGAATTTTAATAACATGTGGATCATATCAAGACTTTTTGTCTTTGACTATTGGAAAGAAATCACAATCTCTGTGCAAGTATTATTTCAAGTGAATATAGTTATCAATCCATTTTTTGGACGATAAAGCTACCATAAAAGCATCCCATGGAAAGTTAGATGACTTAATTTTGAATCCTGGCAAATGGTCTAATTATGGTAAATTTCGTCTATTGCTTGAAAAATGGGACATGATCAAACATAGTAGGCTTTCTGTCATTAAAGGCTTCGGTTGTTGGTTATCCATTAAAAATCTTCCTCTTGATCTCTGGAGAAAGGATATCTTTGAAGTGATTGATGCCCATTTCCGTGGATTGGAAGGTGTAGAATTGGACACACTCAATTTGATTAGATGTACTGATGCAAGGATTAAGGTTCGAGAAATCTTTGCAGATTGTCTCACTAGAGTTGAAAAACAGAGTAAGGGGCAGTTTTTTCCTAAACTTTGGTAACTTTGAACCATTAACCGTCCTTAGATCTGTTAAAAATGATTTATTCATTAGATGTCTGGGTGCACCTTTTAATCCCTTCGCTTTATCGCTCTTTAGGCTTCTTTATTACAGCCATTGTATAATTCTCTTGTATTTTGGTTTTTATTATTAATAAAGAAGTTTGTCTCTGTTTTAAAAAAAAGAATTATTCATTGGTGATTTCTCCAACCCAATTGACTTGCACCGGACGAAGAGATGAACTTGAACCCCCCCCCCCCCCCCCCCCCCCCATCGAATTGGGATTTTCTCAAACATCATAAGCCATACATTTGAGTCACTCTGAAATTTTTACCCAGAATTCAGCAAAGATCAGTCGGAAAATTCTAAATCCGCCCGTGACTCTTCGGCTAACCAAACTAATGATAAGGGAGAGAACATTACTAGGGTAACTGCTGCGGCCAATGGGCATGAAGGAGAGCATGAGTCATTACCAGACAAGCCTTTAATGAGAATATCAAAGAGAGAATCTTGGCTCACTTCATTAATTCTTCAGAAAATAAAAGGCTCTACCTATCATCAATGCAACTTCTGACAACTCAATTGAATGCCACCAGGGACAAAGGCCCCACTAAACCCTTTAACTTGAAACCCCTGGGTTATGATATTCAAACGGGGCAGAAGAAGAGTTGGAAGTTACTTCATCCGTCCATAATACTTCCAAAGACAATTCAGACAACATAAAAAAAGTACCCCAACCAACAAGCTACCCTGCCCTCCCATAAAAAGGAATTTCTAGATGTTCAAGAGATATTACAGAAAAGGCTATACGTCCTTTTGCAATGCATGGACAGCCTTGGTGTAATCAAATCTGCAAAGGAGTTTTGTGAGCAACCCCCTCGGACAAGCTACGGATCAAGGCCAATCCTTCCAAGTCTGAAAGTAAATCCAGACCCCTTGGGAATCTGTTGCTCTCGTGCCCAATTACCCGAAGCTACTCAGCCTATTCCTTTGTTCAAGCACTCTCGTGTTACTGCCTAACTCAAAAATCACTTTCTTGAGAGGGTCTCCATGCTCCCAGTTGGCACACCTGTTCTTTTAAAAGAAGGCATTGGAGCTTGATTCCCCCTTTAGTGCAAGCATTGAAGATTCTGAAATTTTGCCAACAGATTGAAAGATTCTGCCACAAGAAGTTATCAACGAAAATGTCCTCCAGGCCTTGTTCACAGCAGAATCTGACACCCTTGGGAATAATCAGGGTGCTCAATGCTTCTCCTCCCATAATATCCTCAGAAATAATCAGGATCACTTGACCTCTATAGTCAAAGACTGCCAAGTACTTGTGGCTTGATCCTGATCACCCAATTCTTGGTGATCCAACAGATTCTTACACTATGAAGTTTGTGTCATGGAATATAAGGGGCCTTAAGGATATTTCCAAACGCCTGACCATTAAAAGGCTCCTCAAGAAGCTTCACTCGGATGTTGTCATGCTACAGCAATCAAAGCTGGAGGAGATCATTAACTATGTGGGATATGAGTAAGATCCGAGTTTTCGAAGCACTCAAAGGTGAATATTCACTGTCCATCAACTGTATCACCTCTTGTAAAAAATCTTGCTGGATTACCAGCGTATATGGTCCAAACAATTATAAAGAAAGAATATTTATATGCCCTGAATTAGTCTGACTATCAGATTACTGCACAGAAGCATGGTGTATTGGAGGCTATTTTAACATCACTAGATGGGCGCACAAACGTTTTCCTCTTGGAAGAAAAATTAGAGGTATGTGACAGTTTGATAACCTCATTGATTCACTCAGTCTTCTAGAAATCCCACTTCAAAATGGCAGATTCACATGGTCTAGAGATGGATCCTCAGCCTCTAGATCTTTACTAGACCGCTTGTTCGTCAATAAGGAGTGGGATGAAATTTTTGAAAATTCTAGAGTTAATAGAAAGGCCTGCACAATACCAGACTACTTCCCTATACTGTTGAAGGCTGGCTCAATTACATGGGGTCCCTCACCTTTCAGATTCTGCAATAGGTGGCTGTTTTTCTCAGAATGCAACAACATCATCAAAGAAGCTTGGAACAATGCAAGCCTTACTGGTTGGGCTGGATTTGTGCTTTTTGGTAAATTGAGAAATGTAAGGCTGCTCTAAAATTATGGAATGGAAATCTCCAGAAAGATCCCAAGAGGAAAGAAGAGGAACTGTTAAAAGATTTTTTTTTGAAAAGGAGATGACCTTTTTATTATTTTTTTCTGAAACGGAGACAAGCCTCTTTATTAATAACAAATGCGATTAATGCTCAAAGTACAAGAGTAATATACTAATAGCAAAATAAGAAAAAGATGGTCATCCAAACAAAGATGAACCTAGACAAAACATATGGGAAAATGACCAACAAACGATCACAAAGTAGAAACAAGGAAAGAACCAAAGCAACAAAGAGTTGAGACACTAGTAAGGATCTTAATACAAACTAAAAATAAACACTTTGATGAAAAGTGCCCACTTCAGACTGAAAATTTGAATACACGTGCTTCAATTTGAGAGGAGAAAGGAGAACCAAGAAGAGGCAATCAGTTGCTTCAAAACTATCCAGCCCAAATAATTTTTTTCAGAGATTTTGCACTCAACTGAAAATCATGATGACGAAGACAACATCCAAAAGCTAAATCTTTTAAGCTAACTGCATCAATTACAGATTTTTTCTCTTTCTTGAATATGAGAGAACTAGTTCTAAATAAGTGTTCAAGAGACTTGAATCCTAACACTTTATCTGCAGCCTTCAAACCTTACAAAGTACCCGATTATTGGACCCAAAGGTGGCTGAAATCAGATCTCGAAAGAAAAATAATTTGCATATTTCTACTATTGAGAAATTATCTTCATTAGACTGGATGAGGAGGAAGGTTATCAAATTTTCATTACACCAAAATGATGCCACAATCATTGACTAAGGGCAGCAGATCCTTGGGCAATTTCGAGGGAACTTTGATGGGAACAACATTGGGTTCATCAAATAGAGAAGAGAGATCAGCCCCTTCAGCTTCTTCATTATTCTTGAAATCAAAACCATTTGGAAACCCAGGGACGACCCTCACTACTGACACTACTGCTCTCATTTGCCAAGGTTTGAGATAGAACCCCATACTATCAAATAAAGTGGCTGAATGAAGTCACTCGATGCTTGATGTTCTCTACCCATGTTTCTAAATTCTATTGGGGACAAGCCATTCTTACTGTTACTTATCTAATCAATTGTATGCCCTCCCGTGTTCTTAGTTACTCCACTCCTCGTCAAGTCTTCCTTCAATCATTTCCTCATCTCCTTGCTCAATCTCCTAATTTGAATCCTAAAGTCTTTGGGTGTAGTGCATTCGTTCACATCCCTTCCCACCATCGCAGTAAATTGGATTGTCAAGTCCATAAATGCATATTCTTGAGATAGTCACCCACTCAACATGGTTACAAATGTTTTTCTCCTTCCACCAATCAAGTTTATGTTACTATGGATGTCATCTTCTTTGAAGATGTTCCATTTTATTCCAAAACTGATTTTCAGGGGGAGAACATGCATGACAATCAATGAAACGTCGTCAGGTTTACTGCTTGGAGGCTACCCAAAAAGCTCCTTATTCTGGCAGCCCATTGTAGATAAAATTCAAGGTGAACCACTTAGCTAAATGGTCTAAAATGATCAAAAGCCAAAGAGATGGGGGCCACGGCCTTAGTGATTTGAGAATAAGAAATATGACTCTTTTATCAAAATGGGGATGGAGATTCATGTCAGAACAGAAGGCCTTGTGGTGCAAAGCAGTTAAAAGTAGTCACAGTACCCACCCCTTCCTTTGGCACACTAGCGAGAAGGAGAATTGAGTTTGAGAAGCCTGTGGATTAGTATTACAAGAGAATGGTGCAAGATTCAGCTCTAGCCACTTTCATAATAGGTAATGGCAGCAAAGTGTTTTTTTGGAATGGTCCATGGCCGGATAATATGTTAGACCACCCATCATACATCAATACAGTAGGAGAAAGAATAGGAAAGAGAAACAGGAGAGGGAGTTAGTTATGTAACCGCAAGTGGGGACCACAAATGAGTGGAACGACGCATGATACAAGGGGGACCACTGTAGGTGGGGATTGAATATAAATAAGGGAGAGAAAGAGAGAACGGGGAGCTTTTCTTTTTTGGCAAAGTATCTTTCTGTTTATTCTTGAAAGAGAGGATAGCAGGAGAGGGAAGGGAGTCCATCGAATCGGCTTAAAACCAATTCGGTGAGGGTGTCCTGTATTACTTTCGGCAATTTTCATCTTAGTAATATCAAGCATCTTTGATTTTCATCTACTGAAAGCGGGAATAGCTGGTATCCCATCATAATATTCCACTAAACAGCAAGTTCCCTAGATTATTTTTATTGCCCTCTTGCCTAAATGGTCAATTTCGAAGCATTGGGTAGCCAAACTAGTTCCTAAGCAGTTTACTTTAGAAGATTAATGAAAGAGGAGTAGGTTGTTGACTTTCAATAGCTGATGATTTCTTTAAATGGGAAAGTGGTAAATTCTAACCCAGACAAGAAAGTTTGGTCCCTAGAACCAAGTGGCTACTTCACAGTTAGATCCTTGGTTACTCATCTATCATTTGGTTCTCCCCTTGATGTTTCTTTAAAAGAGTCGACATCTTCGTGTGGATTATGCTTCCAAGGGAATTTAAATTGTATCTCTTCATTGCAAAAAAAGCTTCCCTCTCATTGCCTATCTCCTATGTGTCATCTATGTTGTATGAATCAAGATCTTCAGCACCTAGTTTTTGAGTATCCTTATACAGTAAATTGTTGGTGTAGGCTGCTGCAAATTTTTAATTTCAGATGGGTTTTTTATGGCAGCTTTAGTGGTAATGTGCTGCAAATTCTATGGTGCAATGTAGTCAATGCTTTATTAGTGAAATATGGTTTGAAAACACATTTTCTGCAATATGGCTTCACCATGATAGGACAAAATACATTGAAATTGATCGACCCTTGATCTAAGAAAAAGTCGTCAATGAAGTGGTTTATCTCAACTATGTGCCCACAAAGCAACAGATAGCAGATATCCTTACCAGGCCTTTACCAAGACCTAACTTTGAAGACTTGAATAGCAAGTTAGGTTTGTATAATATATACAACCCAGCTTTAGGGGGAGTGTTGTAAATTATTAAAGTTAGGGTATCTTTGTAATTGTTTTGTTAGGGTTTTACTGTATTCTTTTATTTTGCAACTATTTAAATATTTGATTCAGGGGAGATAATTTCCTTATTTTTTATTGGGTCTTTCCTTGTACATATACATTGACATTAAGCCATCAAGGTATTATGAATGAAATTATAGAACCTTCAGTGATGTCTATTCATTATGTTAATGAAGTGAATCGTTTCCTTTTAAAAAAAAAAAAGAGGGACTCTTTTGATGAAACTTTTATTAAAGAGTGCTAAGAGGGTGTCAACCTAATTGAGATGTCTGGATGCACTCGTTGTTCCTTTTCCTTCTCTTCAAAAAGAAAAAAAAGAGGATCTTTTCTTGATATCTTTTTCTAAACCTCCACGTCCACTTGCTTGCAGTTTCTTTTCTTGAATTGTTTGGTCTAAGTTGTTGCAATCTTTTTGACATTACAGTTGAGTACAATCTGGGCTGAAACAGCAGACAATGCTAGATCAGCTGCTAGAACCTTTGTTCTTGGAGGCCTCTCCGAGAAACATCATGGAGTATCAAACTTCTGGGTTGCAGATCGAATCAATGTATGCTTGTTTCTTTTACTATAATAAATGTGCCCATAGTTAATGAAAATACAGGACTATGTACTTGAAAAGGAGAAAAAGAAGAGCGTACTTATTGTTTTTGTTTATAAGAAAACAGTTTTTACTGTGTAACTTTGTGTGTGTGTATAATCTTTCACTTCTGAAAATTTTTCAGACGGGTGAGAACTTTAAAGTGCTACCTTTTTAAATTATTTTTAAAATTCTAAAAAGGAGCCATTTACCCCTCTTCTTCTGTCGTTGCTCCGCTCTTATTGAGCTCAACCTTTTTCTTTCTAAATGAGTAAGAATTTTCACCTTGGTACATCTTGTAACCGGAAGTAAATTTAGGTTGGCAAATGCTGGGAATAAATTTCTAATAAGTATATCCTTGACATTGTCTAGCTTGATTTGATGGATATTGAATTGGCAGGATATTGATTTGGAAGCTTTGCGGATTTTGAGCGTTTGTTATGAGCGTGCAAAAGAGGTACCATACTTTTTCAAGAAATGTCGTACAAAAAATTATACAATTCCTTTTTACATGTAATGCTATATTTTAATCTTCTTTTTTTTTTTGTATTAGATTTTGCAACAAAACAGAAAGCTTATGGATGCGGTGGTTGATGGTCTTATTCAAAAGAAAAGTTTATCAAAACAGGAATTCCTCCGTCTTGTCAAGTTGCACGGCTCGATTAAACCTATGTCTCCAAGCATCATTGACCTTCGAATTGCCAAGCGGGCCAAGTTTGATGAAGAGATGAAGAAAAACCAAAAGAAAATACCCGTAGGCAGTAACAGCTCATAAACGTGGATTCCAAAATCTAATGCTATCACTATGCCCTAAAGTTTTGAGATCATGGTTTCACAAATTTCTAGCAGTGACTGTGATAGCAAAAGTCATTGCCCGAGTTGGAGAAGGAACATATATATTCCTACTGGGGACCGGTTCTTCCTGGTCGATCGGTTGGACTGCAGAAAGATGAGTATTTAATAGTTCCATTTCAATTTTATCCCGTCGAAATATGTAGGTTTTGGAGGCAGCAATGTTAACATTTTTTTTACCATTTATGTATCGTTGTAACTATTCCTAAGTTCAGGTATTATTTTTAGATCTTACTCCTACGGTTAATGTTAATTCATAATAAGTTGAGTTTCTCACGTGACATTTTTGGTGGCTAAATTAAAGATCCTGTTTCCATGCCTTTATACATCTGTAGAGGTTGGTTGAAGACACTTGAAAGAAATTTACACCATTAGGCCGGCCGGCTGAACTAAGTTAAGACTGAAAATTAATTTTATATTTGTGTATATGTCCTTTGTTGGCAAATGGTTAAAAATGCCAAACTCTGATTGTTTTTTTTTTTTTTTTTTTTTTTGAAGTTATAGCATTGGCCATTTTCGAACATTTTGGATACCACTTTGGTCTATTACCAAGAGCACCAATTGTGACCTTGACTTGTCTACCTATATCGTAGACCTTGCCAGAGATATGATCTCATGTTTATTAACACACGATTATTCAACTAAAGGGGCAGGACAAAAACAAACAAAAGTAATTGTCGGAACACTAATTTTGGCTAAAATTAAAATAAAAATTGTCAGGTTTTCATAAGTTTTTTTTAAAAAAAAATCAATCGAAATGAGATCACTTACTAGTTAGATGTGGCTTTGAAGGACGTTTTGATATCAGCAAACAATGAGTCATTTTTTGTAGGTTATCTTTCAAACGCTTTTGGGTGTTACCATGGTCCACCACCAAGGATCACCAATAATGACCATTGGCTCTTTTTTATGTGCTATAGACCTTGCTAGAGATATAATCTCACTACTATTGTTAGCTCATGATCATTAAAC ATGGCTGTTGTGGCCGTGAACTTTCCTGATCTTGAAAATATTGAATTTGTCACTATTGCACCTAGATCTGGTAGGGAATTGGGTTATGTTCGGATGAAAATGAATGCCATGAAGTACAATGAAGGAATGCTTACCCGCCAGTCCCTCTTGGATCATATAACTGTTCAACTAGCACCACGTGCTGCAGATGAACTCTGGCATGGGGAAGACCAGTTGAGTACAATCTGGGCTGAAACAGCAGACAATGCTAGATCAGCTGCTAGAACCTTTGTTCTTGGAGGCCTCTCCGAGAAACATCATGGAGTATCAAACTTCTGGGTTGCAGATCGAATCAATGATATTGATTTGGAAGCTTTGCGGATTTTGAGCGTTTGTTATGAGCGTGCAAAAGAGATTTTGCAACAAAACAGAAAGCTTATGGATGCGGTGGTTGATGGTCTTATTCAAAAGAAAAGTTTATCAAAACAGGAATTCCTCCGTCTTGTCAAGTTGCACGGCTCGATTAAACCTATGTCTCCAAGCATCATTGACCTTCGAATTGCCAAGCGGGCCAAGTTTGATGAAGAGATGAAGAAAAACCAAAAGAAAATACCCGTAGGCAGTAACAGCTCATAA ATGGCTGTTGTGGCCGTGAACTTTCCTGATCTTGAAAATATTGAATTTGTCACTATTGCACCTAGATCTGGTAGGGAATTGGGTTATGTTCGGATGAAAATGAATGCCATGAAGTACAATGAAGGAATGCTTACCCGCCAGTCCCTCTTGGATCATATAACTGTTCAACTAGCACCACGTGCTGCAGATGAACTCTGGCATGGGGAAGACCAGTTGAGTACAATCTGGGCTGAAACAGCAGACAATGCTAGATCAGCTGCTAGAACCTTTGTTCTTGGAGGCCTCTCCGAGAAACATCATGGAGTATCAAACTTCTGGGTTGCAGATCGAATCAATGATATTGATTTGGAAGCTTTGCGGATTTTGAGCGTTTGTTATGAGCGTGCAAAAGAGATTTTGCAACAAAACAGAAAGCTTATGGATGCGGTGGTTGATGGTCTTATTCAAAAGAAAAGTTTATCAAAACAGGAATTCCTCCGTCTTGTCAAGTTGCACGGCTCGATTAAACCTATGTCTCCAAGCATCATTGACCTTCGAATTGCCAAGCGGGCCAAGTTTGATGAAGAGATGAAGAAAAACCAAAAGAAAATACCCGTAGGCAGTAACAGCTCATAA MAVVAVNFPDLENIEFVTIAPRSGRELGYVRMKMNAMKYNEGMLTRQSLLDHITVQLAPRAADELWHGEDQLSTIWAETADNARSAARTFVLGGLSEKHHGVSNFWVADRINDIDLEALRILSVCYERAKEILQQNRKLMDAVVDGLIQKKSLSKQEFLRLVKLHGSIKPMSPSIIDLRIAKRAKFDEEMKKNQKKIPVGSNSS
BLAST of CsaV3_7G035450.1 vs. NCBI nr
Match: XP_004141654.1 (PREDICTED: uncharacterized protein LOC101211900 [Cucumis sativus]) HSP 1 Score: 401.4 bits (1030), Expect = 1.9e-108 Identity = 204/204 (100.00%), Postives = 204/204 (100.00%), Query Frame = 0
BLAST of CsaV3_7G035450.1 vs. NCBI nr
Match: XP_016902834.1 (PREDICTED: probable inactive ATP-dependent zinc metalloprotease FTSHI 2, chloroplastic [Cucumis melo]) HSP 1 Score: 366.3 bits (939), Expect = 6.7e-98 Identity = 188/205 (91.71%), Postives = 195/205 (95.12%), Query Frame = 0
BLAST of CsaV3_7G035450.1 vs. NCBI nr
Match: XP_022146651.1 (probable inactive ATP-dependent zinc metalloprotease FTSHI 2, chloroplastic [Momordica charantia]) HSP 1 Score: 354.0 bits (907), Expect = 3.5e-94 Identity = 181/204 (88.73%), Postives = 192/204 (94.12%), Query Frame = 0
BLAST of CsaV3_7G035450.1 vs. NCBI nr
Match: XP_022992096.1 (probable inactive ATP-dependent zinc metalloprotease FTSHI 2, chloroplastic isoform X1 [Cucurbita maxima]) HSP 1 Score: 353.2 bits (905), Expect = 5.9e-94 Identity = 179/206 (86.89%), Postives = 193/206 (93.69%), Query Frame = 0
BLAST of CsaV3_7G035450.1 vs. NCBI nr
Match: XP_022953624.1 (probable inactive ATP-dependent zinc metalloprotease FTSHI 2, chloroplastic isoform X1 [Cucurbita moschata]) HSP 1 Score: 350.9 bits (899), Expect = 2.9e-93 Identity = 178/206 (86.41%), Postives = 192/206 (93.20%), Query Frame = 0
BLAST of CsaV3_7G035450.1 vs. TAIR10
Match: AT3G16290.1 (AAA-type ATPase family protein) HSP 1 Score: 295.8 bits (756), Expect = 2.0e-80 Identity = 144/192 (75.00%), Postives = 174/192 (90.62%), Query Frame = 0
BLAST of CsaV3_7G035450.1 vs. TAIR10
Match: AT5G15250.2 (FTSH protease 6) HSP 1 Score: 45.1 bits (105), Expect = 6.2e-05 Identity = 38/134 (28.36%), Postives = 64/134 (47.76%), Query Frame = 0
BLAST of CsaV3_7G035450.1 vs. TAIR10
Match: AT1G06430.1 (FTSH protease 8) HSP 1 Score: 43.5 bits (101), Expect = 1.8e-04 Identity = 43/186 (23.12%), Postives = 78/186 (41.94%), Query Frame = 0
BLAST of CsaV3_7G035450.1 vs. Swiss-Prot
Match: sp|A8MPR5|FTSI2_ARATH (Probable inactive ATP-dependent zinc metalloprotease FTSHI 2, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=FTSHI2 PE=1 SV=1) HSP 1 Score: 295.8 bits (756), Expect = 3.7e-79 Identity = 144/192 (75.00%), Postives = 174/192 (90.62%), Query Frame = 0
BLAST of CsaV3_7G035450.1 vs. Swiss-Prot
Match: sp|Q10ZF7|FTSH_TRIEI (ATP-dependent zinc metalloprotease FtsH OS=Trichodesmium erythraeum (strain IMS101) OX=203124 GN=ftsH PE=3 SV=1) HSP 1 Score: 75.1 bits (183), Expect = 1.0e-12 Identity = 58/180 (32.22%), Postives = 93/180 (51.67%), Query Frame = 0
BLAST of CsaV3_7G035450.1 vs. Swiss-Prot
Match: sp|Q9WZ49|FTSH_THEMA (ATP-dependent zinc metalloprotease FtsH OS=Thermotoga maritima (strain ATCC 43589 / MSB8 / DSM 3109 / JCM 10099) OX=243274 GN=ftsH PE=1 SV=1) HSP 1 Score: 67.0 bits (162), Expect = 2.8e-10 Identity = 52/179 (29.05%), Postives = 92/179 (51.40%), Query Frame = 0
BLAST of CsaV3_7G035450.1 vs. Swiss-Prot
Match: sp|A8F7F7|FTSH_PSELT (ATP-dependent zinc metalloprotease FtsH OS=Pseudothermotoga lettingae (strain ATCC BAA-301 / DSM 14385 / NBRC 107922 / TMO) OX=416591 GN=ftsH PE=3 SV=1) HSP 1 Score: 64.7 bits (156), Expect = 1.4e-09 Identity = 53/180 (29.44%), Postives = 91/180 (50.56%), Query Frame = 0
BLAST of CsaV3_7G035450.1 vs. Swiss-Prot
Match: sp|C5J6A7|FTSH_MYCCR (ATP-dependent zinc metalloprotease FtsH OS=Mycoplasma conjunctivae (strain ATCC 25834 / HRC/581 / NCTC 10147) OX=572263 GN=ftsH PE=3 SV=1) HSP 1 Score: 64.3 bits (155), Expect = 1.8e-09 Identity = 58/213 (27.23%), Postives = 99/213 (46.48%), Query Frame = 0
BLAST of CsaV3_7G035450.1 vs. TrEMBL
Match: tr|A0A1S4E3N1|A0A1S4E3N1_CUCME (probable inactive ATP-dependent zinc metalloprotease FTSHI 2, chloroplastic OS=Cucumis melo OX=3656 GN=LOC107991901 PE=4 SV=1) HSP 1 Score: 366.3 bits (939), Expect = 4.5e-98 Identity = 188/205 (91.71%), Postives = 195/205 (95.12%), Query Frame = 0
BLAST of CsaV3_7G035450.1 vs. TrEMBL
Match: tr|A0A061GII6|A0A061GII6_THECC (Cell division protein ftsH, putative isoform 1 OS=Theobroma cacao OX=3641 GN=TCM_028857 PE=4 SV=1) HSP 1 Score: 331.6 bits (849), Expect = 1.2e-87 Identity = 166/203 (81.77%), Postives = 188/203 (92.61%), Query Frame = 0
BLAST of CsaV3_7G035450.1 vs. TrEMBL
Match: tr|A0A2N9EIW7|A0A2N9EIW7_FAGSY (Uncharacterized protein OS=Fagus sylvatica OX=28930 GN=FSB_LOCUS2584 PE=4 SV=1) HSP 1 Score: 327.8 bits (839), Expect = 1.8e-86 Identity = 161/201 (80.10%), Postives = 188/201 (93.53%), Query Frame = 0
BLAST of CsaV3_7G035450.1 vs. TrEMBL
Match: tr|F6HYC2|F6HYC2_VITVI (Uncharacterized protein OS=Vitis vinifera OX=29760 GN=VIT_09s0002g03880 PE=4 SV=1) HSP 1 Score: 327.4 bits (838), Expect = 2.3e-86 Identity = 162/202 (80.20%), Postives = 186/202 (92.08%), Query Frame = 0
BLAST of CsaV3_7G035450.1 vs. TrEMBL
Match: tr|M5X034|M5X034_PRUPE (Uncharacterized protein OS=Prunus persica OX=3760 GN=PRUPE_3G061400 PE=4 SV=1) HSP 1 Score: 326.2 bits (835), Expect = 5.1e-86 Identity = 161/202 (79.70%), Postives = 187/202 (92.57%), Query Frame = 0
The following BLAST results are available for this feature:
The following terms have been associated with this mRNA:
GO Assignments
This mRNA is annotated with the following GO terms.
This mRNA is a part of the following gene feature(s):
The following polypeptide feature(s) derives from this mRNA:
The following CDS feature(s) are a part of this mRNA:
The following exon feature(s) are a part of this mRNA:
Analysis Name: InterPro Annotations of cucumber chineselong genome (v3)
Date Performed: 2019-03-04
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