Cucsat.G17240.T34 (mRNA) Cucumber (B10) v3
Overview
Sequences
The following sequences are available for this feature:
Legend: exonCDSpolypeptide Hold the cursor over a type above to highlight its positions in the sequence below.AGAAAAAGGTATCGTTGAACAGTACAGCTCTGCTTCCTCCATTTTTATACTGCTTCTTTGAATCAATGCTGTCACTATCCACGTGATCATTGTCCATGATTCTTCTTCTTCATGCATAAGCAATCCAATCCAATCCCCATTTGCCCTGCTCAGCAACGTGTTTGATTCCTTGCCGCATCGAAGCGGTTGTTGTCTTTTTTCGTACTCTTGGAGATTCCTCACTTCTTTTCTTTGACTGCTACAGGTTCTTGTCTTTGCATGCCTTTCAATTTCCACAAATTGGATAGACAGAGATAGTGTGCGAGAGGGTCGGGCGACAATTTGGATTGGAGCTGTACTGTGGGTATGAGTTGCTAACTTTTATTATGGATGTTGATGCCTTCTTTTCTTAGGTTATGTTAAACGCAACGAAATTTCATAGTGGGGGACAGCTAGTGAAAAGGGTGTTCTCTTGTTCTTTCTCTTTGTCTCGAGGTTTTTTGTGGGTTCTCTCTCACTCTCACTATTTACTCTCTCCATTTTTTCTCTATTCTGTCTAGCTTGTAATTGATATCTGTTCGTATGTCTGGTGCCGATTCCTCGTTAGTTTATTTCTTCTGATGTAAGTCAAATCCGTTTGTAATTTCGTTTATTGCCTGAGCTGTTTTTAATTTCAATTTTGTTCATTTATGAGCAAGTTATAGATTGAATTAGTTCTATGGAATTTTTCTGTTTAGTGGACTCGTAAGAATGACTCTTGCCGATTCCTTTTCTATCTTTGTTCCCGGTATATTTGATTAGCTAAGTTATACCAATTTGAATATTCCTTATTTCAGTTCCTGATTAATTTAATGTTTTTCATTTGATCAGCCAGATAGTTGCTTCGATTTTCTGGTCTATTGATTTCCCTGTTTGTAGGAGGTTGATTCTTTCTGTATGAAAAGCCATTTTCTATTGGTATTGGTTGTTTTTGTTTATATTGGAGGCAGGGCCATGTTTCTGTGAGCGTCTAAATTTTCTATAATGGAAGAATTATTACGTAATCTAAATCTTCCTCTACTTCCGATAATTTTCTGCAGAGTTCTATATCCCGTTTCCCCTCAGTAACAAGAAACACGTTTCACTGCTGGGAGTTTACGAAAAATCACAAAAAAACTTGAACTGTAAAGGAGGGGAGACATGGTGTTTTGCTAGATCCATTTCTAATCCCATTCTAAACTCTTTTCTCTGATTTCTTTCATAACATAGTGCCCACAAGATTGACTTAAAACCATCAATCTGTAGCACTTTAGCCCTAATCTTGAAGCTACGACTGTGCACAATTGAAGCCTGAAGGATGGCCATGTATTCTTTCAATGAAAGTTTGGTTCATCATATAAAGAAAATTTTACAATGGAAAAACTCATGTTATTGGTCCTTCTCTGCCTCTCAGACAAAGTGCAGCAACTTGGACTTTAGATCAATGGAGGGGTATCTTTTTTTTTTTTTTGAAATGGCCTTTTTATTAAATGTATTAATAAAAGAGATTAATGGTCAAAAGTACATGAGAATTATACTAAGAGCGAAAAGAGCATTTACAAACAAAAGTACAAACGAATTGAACATCACAAATGAAACCATGAGCAAACAATACAAAACTAAGAACAAAGCAAACTTAAAAATCTTTCAAGAAGAAGCCCAAAAACAGCTGAAGATTGCAGTCTACAAACATCAAAATGTATGGGAGGAAAACACCAAGGGAGAGCAAACAACCATGTTGCTTCAAGTTGAAGATTGTTGAAAAACTATGCCTCTTAAGCAGTCCTTAAATCTTGAGTGAGTGACTAGAACCAGAATATTCCAAAAAAACTTCAGGGGGAGCAAAATAATAGAAGCATCCGTCGAAACTCTCATGATCCACTATTACAGCCTTAAAAAATAATTGGCTGAAAAAACAAGATCAAGTCTAATTTCTGTACTAAAAAAAACAATTCTACATTTCTCAACAATTCCTCTGTCTGAAATAGGGTGTTATCATCAGATTCTAAAGGATTCTTAGTCGACTGGTCATCCTTATTTGCTGGCTTTGGCATGTGTTTGGCTTCCTCGCTGCTCACACTAAAAGGAGAGTCGAAAAACTGCTACACTCTTCTTTTTCGATGAAGAGATTGGACTTTGGGTAGGAGAACCTCTAAAAAGATTTACCTTTTAATTAGGCATAGAGAAAACAGAGTATCTAAAAGGAGGATGAACATAGCTCTCAGGATCTAACCTGTTTGATTAAGGAGGGACTTGCAAAAGGGCACAATTTGCCTCCAAAAAATTAGGGTTCTCTAAAATCAATTTTTCCTTTGTAAGCTTTTTCTTTTCGAGGCCTCCTTTACCCTTTTCCTTCTAACAACATGCTTTGGAAAAGTCTTGAATGGATGTGGGAGAACCCTTAATTTTGGATGTTTTTTAGACTTATCCTTTGACCTAGATTTGGCCGAGGTCGAGAAGGAAGAAGAAGAAAGGGCAGCGGAGGAAGAGTTGGAAGTTGGAACTTTCTGAAGGGGATTTCGGTGGGCACAAAATTGGCAATGGGAATGAAAGCAAAAGACTTCGACAAGGCAGAGGGAAGTGAACTGCTAATCGATATCCACCCACCATAACCCTTCACTACTTTTTTGGACGACCATGTAACTGCTTGTTCCACCTTTCAAATTTTAAATGAAATTGTCGACAAACTTGCTATTTCCCCGGGTATTCAACAAAATCGTACAACTTACCTTGACCCCAAATGGAGTAGGGCACTTTCTACAGACTAAGGATTGATAATGTCAGATTCAAAGTATAATTTTTGTGTGCTAGCTATTTCTGTCCATTCATCAAGCTCAAACAGTTTTGTAACAGTCCATAGATTATTGAAATTGATTTTGCAAACTTCAGGATTTTTGATAATCCAATAACGGCTCATACTCTGTTTTTTGGGTGCTAAAACAGAGGAATGATTGTAACTCATTGGCTTCGCCGTCTCTGCATAACTATCTTTCAACACCTCAAAAGTTTGCTCTTCAATATTCTTTCTGTTGTTTGATGACCTTATTTGGGATGAGTACCAAGTCATGTATTCATGTTGGAATTGAAGCCTCCTAACATTTTGCTGAATGAAACCCAACCCTGCTTATCTTTACTTGAGGGAATATGAATGAAGGATTTACCACCTGTACAGGGCCAAACAACGCATCTCATTTCCCAACTGAACTTAGCTATGAATTTAGAAGCTTCAACAATTCCATTTTCAACTTTTTCACTTTTGAAAAAGAATCTATCTTTTAGTTTTTGCCTCAATTATGAAATGGCTTCATGAAAACATATAAGCTGGGGGATTGATAATCACAGTATTATGTTGGCTTCTACATCTTCTACTTGAAATGATCCATATGTACCAAATGCGGAAAAACGAGTTATCAAAAAATAACTTATCAATTTTACAACTTTCCACTTCCATATCTGATTATGATTGAAGCATTAAAAAAAGGAGTCTGAAAACACACTCGTCAGAGAACCGACAATGATGGTTATCTAGCTGGAAAACTGATAGATGAGTGGTGTCGGAAGTGGGGGAAGGGGGAAGGGGGAAGGGAAGGGGAGAGGGGAGAGGAGAGAGGAGAGAGGAGAGAGAACTTACCTTGTTTTTTTCAAGCAACTATGCAGGGGTATCTTCTTTGAAGCCTACTAGCATTATTCATACCTTCCTGACAAAGAAGCTGTACCAAGGGCTCAACTTCTTGGGACCATTGATCTTCTAGATAAATATCTATGTATTCTAGTCTACGGTTTTGGTGATCTTTGGAATAGAGATTTCACAGCTAATTGGTCAATGGATGCTGGTTGTAAGTTTCATAATTTAAATTAATTGTCATGAAAGAAAATGTACAAATTTTGAAAGTAATAGATTAATAAAATAAGAGTATTAAGTTCTTTGAAAAGGAAACAAAACTTTTCATCGATATAATAAAAAGAGACTAATGCTTAAAATATAATAAGACATAAGACATAAAATCCAAATAAACTAGAAGATGTGGGGATCAACAAGCGTACCTTGATATCTCAACTGGGTTGGTTGACACACTCCTAGCGGCTAGCGCCCTCATCATATCCCAATATTGAAATAATGAAAAGATTAAGAGAGTCGTTGTTCAACATAAGACGATACATAATAAAGATTAATTAAACGAATCAGATAAAGAGGAAAATTGAATCTAATCTAGGAAGATGAAACCTTTACAATTTAAACAGATGTGTTCTTGTTTCTTTAAAGAAAGAAAATTAAACAGAGGTTGACAAGCTTGAAAATTGCTTGGAAAGAGAGCCCGAGGTGGATGTATTAAGTCTTGCAACTTCAAAACGATCCGTCCAAGATAAGAACTGTTCATGGAAAACTCTTTGGTTCTTTTTGAACCAAATTTCAGCAAGCAAGGTCTTTTACCACATTTTCCTAAAGTAAATAAGAATGCTAAGTTACGGGCGTGAAAGAAAATTTTACATTTATCTTGTGCTTGATTATCTCTTTCTCCAAGCGATACGTTGCATTTAGTAAATTATGAAACTGCTATTTAAATTTTTTTAATATCTTTTTTTGTAATTTTTTGATAAGAAACGATGAAAGACTTCATTCCTGAAACAAACAAGGAAACAGCCCAGAGGGCAAAGAAACAAGATGTCTCCTCCCATAACCAAGGATTACAAAAGGGCAGCCCAATCTAGGTTGATAGTGTGAATGGTGTAGTTACAAAAAGTTTGTGAAAGCTACTCCTATTAGAGGCTGTAAACTGTACAAGATGACAAAATAAACAAAAGAATAACACTTATTTGAACAAAATTCTAGCATTTGTTTCCTTCCATAAGAACCACGCAGTAGCCTTTGTCACATTGCTCCAAAGCCACAATGGCTTTTTCTTTCAAACCTCCTTCCCTGAAGGAAACAACCATACATTCCTCAAATAAATGAACAAACTACCAAAGTGCTCCTATACCCTTCGAACTGAAATCACAGTGAGGAAATAAATGATTAAAAGTTTCTTCACTTTTCTTATGCAGCATGCATATGTTTGAAGAAAGGTAGATGCGAGGTGTTCAACAGTAAAAAAGAGAACACTAGGTTTACACGGGAAACCCTAGAAAAGAGAGAAAAAACCACGATAGAGTATCACTTTTATTATTTTCACACACAATGAGAGTTACAAGAGAAGACAACTTAATAGGCCTTAACAAGCCCTAATACAAAAAAGGAAATAAACTTAGGGTAAAATAAAATACTAAAATACCCTCAAAGGTATAAACTATCAACAAAGCCCCTTATTTTCAACATGAGGAATTCTTCTTTGGACTTTATTGCTGCTAATTTGTTATATTGTTGTTTCTCATATTTTATCAAGAACTCTAGGATAATGCGTGTAAATTATGGACCATTTTTTCTGATCCAAGATTTGGCATCAAGATTCAGCTACTACGTCAGGTACTAAGTGTCTTGGAGAACCACACCCCACAAGCCAGTTTTGGGGTGGGAGAACTAAGCTACTTAATTACCACATTGATCATCCCATTCTAACCAATGTGGGACAAAGGCATCCCATACTACATTGGTTTCTAAGATACTCTCTCTCCAAATTGGTGCTGGGCATTAAAAATTATTCTTGGCAAATGGGGAATCTGTATTGGTGGAGTTTAGTGGTCTGAGTTTGAAAGCCAGGTTTAAAACAAATTTTCTCGTCTTGAAATTCAAAAACTTTTTTTGATGTACAAATCATTTTTGGTAAAACAATATATAAAAACAGTCTTTAAGAATAAAACTAGTTGAGTCCCCTTAGGGACATCCAATGAGATTGGAATCATACAGAGAAGATTAGCATGGCCCTGCACAAGGATGACATGCACAAATTGAGAAATGGTAAAAAAAAAAAACTATTTGAAAACATTTGCTAAGAAGCTGTTTGTAGAAACAAATTGTTAAAATTGAGAAAGAAACCGGGAAAATAACAAATTGCTAAAAATGCACCCAATAAACCTTTGAGACAGTGAATGTAACTGTTATCATCTGATTGCTGTATTTTACATTTTTGAGGTCTTTCTTGCCTTCATTTGTCATGATGTTGATTTATTCCAGAGTTGCCCAAGTGGATGATATAATCTCGTACGGGTGATCAACATTGGGGAAACTATTGTTTTTAAGAACCTAGATGGAAGTCATGGATGTCACGGTGAGAATCTGACCTGTCATGGAAGATATCCAAGGGTAATTTCATCTTTAACCTAGTGAAACTTTCTCCTCCTTCTGTACCTTTCAACACTGTCATGCACCTGCACACATGGTTTTTTCAGTCCACATATTTGAAGAGCATTTATTTCTTTCAGGCTTGCTGAGAATGTGCTCTCAAATGGAGATGTATATATTGGCAGTTTCAAAGATAGTTTGCCTCATGGTAAGGGGAAGTACATGTGGTTTGAAGGAACAATTTATGATGGTGATTGGGAAGATGGAAAAATGACAGGTAAGGGAAAGATTACGTGGCCATCGGGAGCAAGATATGAGGGTGATATCTCAGGTGGTTATCTTCATGGTTTTGGCACCTTCTACTATTCTGATGGGTCTATCTATAATGGAGCTTGGAGAATGAATATTCACCATGGGATTGGACGAAAGCTATATGCTAATTTAGACATTTATGATGGTTCTTGGAAAGAAGGGATACCTGAAGGTTGTGGTAGATACTTCTGGAGTTCTGGAAATTCTTATATTGGGAACTGGAAAGGTGGGCAGATGTGTGGTAAAGGGATAATGAAATGGGTAAATGGTGATCATTTCATTGGCTTTTGGTTGAATGGTTTTCGACATGGATCTGGAGTCTATCATTTTGCTGATGGTGCATATTACTTTGGATCATGGAGTAAGGGCCTCAAGGATGGAAAAGGGACATTTTATCCAGCTGGTAGCAAACCACCATCTCTGGAGAAGTGGGATAACTTTATTGGTTATGATCTTGATGGAAAAGGTTTTGTATCTCGTACTCTCTCACTAAATTTAGAGAAAGAAAAGCCTCCAAAGCATGGTCTTAAGCACAGTTTTTCAGAGAAGATTTCTGTCACTGGAATTTCAAGTGCTGGAGGACTATCAAATTGGCCTACATCGATGGAAGTAAATTGGGGCAGTGATCCTGCTCGAGAAGCATCAGCCGTTGGAGATTCTTGTGTGATGTCCCATGCTTCTAAATCTGTTCAAGGTCAAAATAATGTACCATATAATCATAGAATGGTTTATGAAAGGGAGTATATTCAAGGAGTTTTGATACAAGAGAGGCTTAAGGAATATGAAGAACTATTAGATAGGAGTAAGGAACGAAAGAAAACTACTGTGAAAGAAGCAGCGAGGGTGTCATGTGTTAACTTCTTCGAAAGTCATCGGAGCTACTATTTAATGCTTAATTTACAACTTGGTATAAGGTAAATCTGTTAATTTGTTTGGACAATATAGATTAAATTTGTTACATTGTATGTCTCTACTCTGGTCCACAGGCTGCCTTCCATTTGCATCTAATATGAATTTTTTAAGCAGTGGAGGTAGAAATAGTTTAGTTTGAAGGAGACCTTGATAAACTAAATGCCGTTGATATTCTAGTACAAATCTACAGTAGTAGCACAAATAACACTTTGATGTATACTGTCACATACATTCCTTTAAATAGTTATCCGTGTGACTGTAACACAACACTTGTTTTTTCTTTTGTTGATGATGGGCATCTTAATTTGTATTGAAAAGAATGGGAAATCTTGAAATCTAGAAAAGCATGCTTAGTAGGTTGTCCGGAGTTTATTTTTAGGCCTGTTAACAAGATGTCATGAATTAAATAATAATGGTTGATAATTATTCTACTTTAAGTTTTCAGGTATACTGTTGGTAAGATTACGCCAGTTCCTATGCGTGAAGTTCGAGCATCTGATTTTGGAAAACGGGCTAGAATAGTGATGTACTTTCCTAGAAAGGGCTCTCAGTTTACACCTCCACACTATTCTGTCAACTTCCATTGGAAAGACTATTGTCCTATGGTCTTCAGGTAATTTATGATCTACTGCACGTCATTCAATTAACTATTTGTAAAATTGCAATAGAAAGTTATGCATTTAAACCTCTTGTTATAGTCCTGATTACTATACCAATATAACATGACGATGTTATTCTTCCTCCTTTTTCTAACTTCCTAGCGTCCTGGTGTTGGATTTGGATGACATACTATTATTTCAATTTCATTTGACTGCCCACCGAATTTTCTAATGTGAAAGAATGCAAACAGTTCAATGGTGATTTCTATAATTTTTTTTTCTATAAATATCGTATTTGTTCTCCTTTGTTGTAGTTTCTTTTTTAGGTGGTTTTGATCGTCAAAGATTTAGCTTTTTCTTAGAAGGAAACAAGACTTTTCGTTGATGAAATGCAAATAGATTATTGTTCAAAATCAATGAAACCAAGTAAGAAAATAAATAAATAAATAAATAAAAGCCATGACTTGGACTTATCCAAAAAGTAAAGCAAAAGTAATCAAATAGGACCCAGCAGAACAAGATGACTCTTAAATGAAGGCCACTTAGTCAGAGACTATGAGAACAAAGAACCATGAGATGAGGGCAATCACTAGGAGGCAAGTCGTTAGAAAGAGCCAATTCCAAATTCCTCAGTGCCGATAAGAAATCTAACAACCCATGAAAACCATATTTGAAGGCCAACTCGACTAGTCTACTGAAATATAGGAGGTCATAAGACTCATAACTCCCCCTAGGTAGACTTGGTTAACTACTCTTTTGGTCTTTCTTCGCCTCGTTTCAATAGATTGTAAAACCCCTCTCCTTTCCTGAACCCCTTTCGACTATTCCCCTCATCAACTTCAATTTCTTCCTTTATTTTTTTACCTTCCAAAACTTCGTTATCCTTCTAATCACAACCATTTCCTTTGATCCTTCTGATTATATTCTATAATGAAAGTCAAAAGCTGCAATAAAGTCTCCTCTTGGTCCGATAAATACGAGTTTGCACGTTTGAATGCCTCTTCGTGGTGCTCCCAAAGTAAACAATTTAAAGACTTCTCTATGCATGATATCTTGCTAAACTATAGTTTCATTGATTCAATCCATGTCTTGGAAATTCCTCAGTTCAATAAATGGATCTCTTGGGGTAAGTTCTCTCAAACCTTCAGGTAAGTTCTCTCTCCCCTTCTCTCTTCCCTCTCTCCTACTTTCTTTCTCCTTCTCCTTTCTTTATTTCTACTCCTCCTCCTCCTTCCCTTCAACTTTATTGCCGGCCGATTACCCTATCCGGTAGACACTACTAGTCTCATCTTGTTCTTTGACATTACCCTAGCTACCATTCTTACCTTCTCAAAAATGGAAGTAAAAAGCTGCAAAATCGACAACCTATTTTTCTGTATCTGGCATGAAGATAAAACTTTTCACATTGAAGATGTTGAAGCTAATATTTCTATGACTTTATCAATCCTAATCCTTCAACTTAGATGGATTTGAATAAGAAATCTGAAGAAGATTATTTCTATAAGAAATAAAAAGTTGAGTGTGGAAGGGTTGAAGCTTCTAAATTCAGATCCAAAAGTGGGTTGGTTCTGAGATGCACTGCATGACTGCGTACGGAAGGGAGATCATTTATTCATATCCTCATTGGTGAAGATAAACAAGGGTGGAAAAGTTTCGAAAAAATGTTAGGGAGACTTCAAGGACATCCATGACTACAAATTCTGGTTCTTCACCCAATCCATGTTCAACACCTTTATGAAACAACCGAACAGAAGTACGAAAGGAAGCTATGTGGAGATAGCAAAATCAAATCAAATGAGACACCCAAGATCTCTTTCTTCTATACCATAAAACAAAGTACAAGCAAATATTGGGTGATTAAGAATCCGGTAGTCTTCAAAGCAGATTTTGATAATCTTTGGGTTGTTTCAAAACTTTTTGAATTTGATAGTTGGGTAAAAATTAACGAGGCATTAGAACTCTTTTTCGACTCAAAAGTTATCATCAATCCATTATTTGCAGACAATGCTCTGATTGAATTGGATATGATGGAAATGGTAGACATGCGCAGTGGAATAAAGATCGGATTTTACTCTAATTGCAACTAAACAAAATTTAGTGATCAACATGCACAATAACCCTAATATAAACAAAGATAGGGTTAAAAGAAAAAGTCACATTTGATTGTTTTCTATTGTCGTAATCTCGTCACGTTCTCGAAGTTGGGACTACTACTAGCGTTTACTCATTATTCTCTAGACTTAGAACCAAGTTGAGGGACTCAAACGGTGGAGAAAACAGAGAGAGATGGATTTAGGAGGATGAACTTGTGGAGAGAAAAAGAGTTTTGGTTTCAATTTCGCAATTCCAAATCACAAAATAAAAAATTACCAAAAATCCTCTTTTACATTGCAATGCACTCCTTTTATAAGCAAACTACATGCAAAAATTGCCTATAGTGAGCTTCCATTCTCCTCACTTGGCATATCACCAAGTAGATGTCTCACATGCATGACGCCATTTGTTAATTACATGCAATATGCTTCCAAGGGTAATATGGTAATTTGATATTTAAAAAGTTAAAAGTCAACATTTTGACTTTTTTCCACTTTATCCGTTTGGACTACATTCAATCTCTCGAATATGAATCTGCATTCATTTTTCCAAAATTCAAATCATATTTGAATATAATGTCGGTTAAAGTTTCATTTTTCAAAGTAAAAAATCAACATTTTGACTTTTTACAACTTTGATCTTTTCCATCCATTCCGAGTCCTAATATGAATCCATGTTCATATTTTTACTATTTAAATCACATTTAAACATGAAACTCTATCTTAAACTTATAACTGATGACTATATCAAATATATTTGTCGGTTTTTCTCTTTTTACCTAATTCAAACAATTCGAATTATTCCATCAGAATGTTCTAAGTTGATTCCTTGTGAGCTAGTGAGGGAACATAATGGACCTACAGATCATGGACTCCAACGATCTGAGATTAACTGGCTAAACTCTTTAGTCCGAGTTAATCAACTTTCAAGACTTAGATTCAGTCCTTAAGGGAACAACCTATCTACTAACTCTAGAGCGGGTAAGAGTGAATTTCATCTTGAACTCCTATGTCCTTAGCTATCCACCCGATTTACCCCTGAAATGGGAGACTTATTGGGCCGGTGCCATTGAGCTGCCTTCACCTATGCATATCTAAGGATAATTCCGAGTGAACAGAAGTTCATAGTTAGTTCAGGATTAAGATTAAGTTACATTAGATATCTATAAACGAAATAGTCAGTCTTACAAAGTTAACGGTGTTATAACTTAAATGTGACTATTTCATGGTTCCAGTCTTATGTAAACTCTTTACATAGGATGCTGTCTTTACATAAACGATTTAGGATCACATCGTTTGTATTAACTACAAAGCGGGCTGCATCCATAGTGTCCCTTGAATAGGGTGCCCAACCGTATTCGTATACTATAGACTATTTAGGCTATATACTCGAACTTGATCAACATTTATGTCTCTACATAAAGATCAAGTTTACACAATAATGGCCTTGAGACCTTAGTTTATTGGCTTTAAGATTATAGTATCAATAACGACTTTATTGAATAGAATATGATTACAAACCACGAGTTTTAGGACATAATTTCCAATAGGATCGTGGTCCTTTGAAGGAGTTCGTTGAAAATACAGGCAAATGGTAATCTTTTGGTATCTTTCATTTAAAGTTTGAAAAGTGGAACAATCTCATCCATGGAAGACGGTTATATTTGAAAGGCTATGGAGGGTGGATTACAATAAAAAAATCTACCACTAAAAAAATCTACCAATTGATTGTTGGTGTAATAAAACTTTTGAAGTGATTGGAGCTCATTTTGGATGTTTAGAAAATATTGCAGCTGAAACTATCAACTTCATTAATGTCTTAGAAGCCAAGGTTCAAGTGAAGGAGAATCTGTGTGGTTTCATTCCGGCAACCATTTAGATTTCTGATGAAAGAAGAGGAAACATTTTTTTGAATTTTGGGGATATCTCTGTATCCAATCCACCCACCAAAGTACAAGTTGATTTATTTACTCACAATTTCTCTAATCCTTTAGATATTGTCAGATTAAGCCAAGTTATGAAGGATGAAGGCTTTGAGGAAGGTTCATTTAGCTCCAAGTTTGACTATCTCCTTCCTTCGAACACCATCCCAAGTACGCAAAGGAACCCTTATGAGTTGTCTGAAAGCCTGTTCAAACATCTTCATCAGAGGCCAATACCATCTCTTTGGAACTGCAATGCATCGTCGGATTCTGGGAATTCTTCCCTTTAACATCTGGCTAAGTCTGAGAATTGCAAGAGCCGTTCAAAATCAGAACCATCAATCAGGCGAAACTCAGTTTTCCCGTCAAAGGAGACTTCTTTTAATTTGATTCCATTTGAAAAATCACTTGTAGGAGACTAGTAGTAACTTATCTGCAGTAATAAAGATAATAATAATGTTATTTCTATGAATAAGAGTGCCAACAAGACTTTAATCTCCATGAAGGCCAATGATAAAAATAATAAAGTTCAGACCGGAGCTACATTTACTCAGCCAGAAAATGAAAAGTTGTTATTAAAGAAGAAAGAGAATGGTGTAGAAGATAGCTGTGTTATCAATTTAGTGGGTCCTAGGCTCCTTCCAACGTCTTCTAATTTTGAAAATATGGCATGTGAAAAGTCAAAAATGAAGAGCAAAGGTCACCCAACTCTAAAAGTAAAATTAAAAAAGAAAAGTAGCTGTATTTTTCCTATTGATAACAACAACGCCAGCAAGTCAGTCGACAAAGAAGTAAGTTCTTCTCCTCCCTTGTCAGCTCAGTTTAACAAAGCTACAAAGATTTCTTCCCCTCCAAAGTCCTTCTTGAAGCATTTTATAAGGAAAAAGACTTACTTCAACAATGTTTGGACTGCTCTTTTTAATTTCGAGACTTTTGGAGCTTGTTCATTCAAGGCTCAAGAGAAGCATTACCAGGGTCATCATTCTTTCAAGTCTTTATTCACTAAAGAAAATTCGGATCTTTTGGAAGTTTCCAGCTCTTTAGTCCAAGCTACTAGTTGCAATACCAGGCGAGGTACATTTAACTCTCTAGAAAAGTGTGAGCAAAATACAAGTAAGGTGCAATATGGGATTGCTAATCCAGAGGAAGGTGGCAGTCTTGAAAATCAAGACTCAGATGTTGAATCAGTCCCAAGTGTCATAGTGAGGAATTAGATGAGATTAAAGCAGGGGAAGAGATTGAAGATTATGAGATTTTGGAGAACATAATCAGCGATGTCCGCGAATTGTTTGTGGAGGAAGGTGTAGAAGAAGAACAACCTTCTCTCCAGAAATTCAGAGAAGAAATCCTAAATTTAAACTTTATCTTCTTTGAGTTCTTTAAACTTTATCTTTAGCATTGAAAGTAGTCTTGGATTTGATAGTGCTTCGAAATTACTTTTGGAATAAAAGGGAGCTAGGAGTTTCATTAATTAATTCTTTTTTTTTTTTTGAAAAATTGGTAGTTAGGAAGCAAATCAAGCTGACATCCCTGGTTATGGTTTTGCTACAAGTACCAAAAAAGTTCAGTTTTGATTCAGATTCTTCACATCCTTGTAGAGTTCTCTTGTAATTTTGATAATTATGAACCATCTGTATAAAGATTTCTGGATAACTAATGATTATGGTCTGTATTATCATAGAGTGATTGTGTATTTGGCTGGAACTTATTTCTTTAGCAGAGTTTATTTTGGAGACTTGATCTTTTGGAGGTAATTTTGTGTGGCAAGCCGATTTCCCGCAGACGTTATGCCATGTGAAAGAAGAAGTTGATTAGATGTATAGCAGAAAGTAGTCTGCTGGGTTTTTCAGTTTCAAGAAAACTTGAAGGTTGAAGAAGTGAGTGGGCTTCAGATTCTTAAGGGGCTTTAATCACCCTGGAAA ATGGAAGATATCCAAGGGCTTGCTGAGAATGTGCTCTCAAATGGAGATGTATATATTGGCAGTTTCAAAGATAGTTTGCCTCATGGTAAGGGGAAGTACATGTGGTTTGAAGGAACAATTTATGATGGTGATTGGGAAGATGGAAAAATGACAGGTAAGGGAAAGATTACGTGGCCATCGGGAGCAAGATATGAGGGTGATATCTCAGGTGGTTATCTTCATGGTTTTGGCACCTTCTACTATTCTGATGGGTCTATCTATAATGGAGCTTGGAGAATGAATATTCACCATGGGATTGGACGAAAGCTATATGCTAATTTAGACATTTATGATGGTTCTTGGAAAGAAGGGATACCTGAAGGTTGTGGTAGATACTTCTGGAGTTCTGGAAATTCTTATATTGGGAACTGGAAAGGTGGGCAGATGTGTGGTAAAGGGATAATGAAATGGGTAAATGGTGATCATTTCATTGGCTTTTGGTTGAATGGTTTTCGACATGGATCTGGAGTCTATCATTTTGCTGATGGTGCATATTACTTTGGATCATGGAGTAAGGGCCTCAAGGATGGAAAAGGGACATTTTATCCAGCTGGTAGCAAACCACCATCTCTGGAGAAGTGGGATAACTTTATTGGTTATGATCTTGATGGAAAAGGTTTTGTATCTCGTACTCTCTCACTAAATTTAGAGAAAGAAAAGCCTCCAAAGCATGGTCTTAAGCACAGTTTTTCAGAGAAGATTTCTGTCACTGGAATTTCAAGTGCTGGAGGACTATCAAATTGGCCTACATCGATGGAAGTAAATTGGGGCAGTGATCCTGCTCGAGAAGCATCAGCCGTTGGAGATTCTTGTGTGATGTCCCATGCTTCTAAATCTGTTCAAGGTCAAAATAATGTACCATATAATCATAGAATGGTTTATGAAAGGGAGTATATTCAAGGAGTTTTGATACAAGAGAGGCTTAAGGAATATGAAGAACTATTAGATAGGAGTAAGGAACGAAAGAAAACTACTGTGAAAGAAGCAGCGAGGGTGTCATGTGTTAACTTCTTCGAAAGTCATCGGAGCTACTATTTAATGCTTAATTTACAACTTGGTATAAGGTATACTGTTGGTAAGATTACGCCAGTTCCTATGCGTGAAGTTCGAGCATCTGATTTTGGAAAACGGGCTAGAATAGTGATGTACTTTCCTAGAAAGGGCTCTCAGTTTACACCTCCACACTATTCTGTCAACTTCCATTGGAAAGACTATTGTCCTATGGTCTTCAGCAGAGTTTATTTTGGAGACTTGATCTTTTGGAGGTAA MEDIQGLAENVLSNGDVYIGSFKDSLPHGKGKYMWFEGTIYDGDWEDGKMTGKGKITWPSGARYEGDISGGYLHGFGTFYYSDGSIYNGAWRMNIHHGIGRKLYANLDIYDGSWKEGIPEGCGRYFWSSGNSYIGNWKGGQMCGKGIMKWVNGDHFIGFWLNGFRHGSGVYHFADGAYYFGSWSKGLKDGKGTFYPAGSKPPSLEKWDNFIGYDLDGKGFVSRTLSLNLEKEKPPKHGLKHSFSEKISVTGISSAGGLSNWPTSMEVNWGSDPAREASAVGDSCVMSHASKSVQGQNNVPYNHRMVYEREYIQGVLIQERLKEYEELLDRSKERKKTTVKEAARVSCVNFFESHRSYYLMLNLQLGIRYTVGKITPVPMREVRASDFGKRARIVMYFPRKGSQFTPPHYSVNFHWKDYCPMVFSRVYFGDLIFWR Homology
BLAST of Cucsat.G17240.T34 vs. ExPASy Swiss-Prot
Match: Q8RY89 (Phosphatidylinositol 4-phosphate 5-kinase 8 OS=Arabidopsis thaliana OX=3702 GN=PIP5K8 PE=1 SV=1) HSP 1 Score: 479.2 bits (1232), Expect = 5.0e-134 Identity = 233/418 (55.74%), Postives = 297/418 (71.05%), Query Frame = 0
BLAST of Cucsat.G17240.T34 vs. ExPASy Swiss-Prot
Match: Q9SUI2 (Phosphatidylinositol 4-phosphate 5-kinase 7 OS=Arabidopsis thaliana OX=3702 GN=PIP5K7 PE=1 SV=1) HSP 1 Score: 460.3 bits (1183), Expect = 2.4e-128 Identity = 229/411 (55.72%), Postives = 287/411 (69.83%), Query Frame = 0
BLAST of Cucsat.G17240.T34 vs. ExPASy Swiss-Prot
Match: Q6EX42 (Phosphatidylinositol 4-phosphate 5-kinase 1 OS=Oryza sativa subsp. japonica OX=39947 GN=PIPK1 PE=2 SV=2) HSP 1 Score: 394.0 bits (1011), Expect = 2.1e-108 Identity = 205/424 (48.35%), Postives = 263/424 (62.03%), Query Frame = 0
BLAST of Cucsat.G17240.T34 vs. ExPASy Swiss-Prot
Match: Q8L850 (Phosphatidylinositol 4-phosphate 5-kinase 9 OS=Arabidopsis thaliana OX=3702 GN=PIP5K9 PE=1 SV=2) HSP 1 Score: 344.4 bits (882), Expect = 1.9e-93 Identity = 183/423 (43.26%), Postives = 256/423 (60.52%), Query Frame = 0
BLAST of Cucsat.G17240.T34 vs. ExPASy Swiss-Prot
Match: Q9SLG9 (Phosphatidylinositol 4-phosphate 5-kinase 5 OS=Arabidopsis thaliana OX=3702 GN=PIP5K5 PE=2 SV=1) HSP 1 Score: 284.6 bits (727), Expect = 1.8e-75 Identity = 164/429 (38.23%), Postives = 226/429 (52.68%), Query Frame = 0
BLAST of Cucsat.G17240.T34 vs. NCBI nr
Match: XP_031743773.1 (phosphatidylinositol 4-phosphate 5-kinase 8 isoform X5 [Cucumis sativus]) HSP 1 Score: 900 bits (2325), Expect = 0.0 Identity = 423/426 (99.30%), Postives = 424/426 (99.53%), Query Frame = 0
BLAST of Cucsat.G17240.T34 vs. NCBI nr
Match: XP_031743774.1 (phosphatidylinositol 4-phosphate 5-kinase 8 isoform X6 [Cucumis sativus]) HSP 1 Score: 900 bits (2325), Expect = 0.0 Identity = 423/426 (99.30%), Postives = 424/426 (99.53%), Query Frame = 0
BLAST of Cucsat.G17240.T34 vs. NCBI nr
Match: XP_031743772.1 (phosphatidylinositol 4-phosphate 5-kinase 8 isoform X4 [Cucumis sativus]) HSP 1 Score: 900 bits (2325), Expect = 0.0 Identity = 423/426 (99.30%), Postives = 424/426 (99.53%), Query Frame = 0
BLAST of Cucsat.G17240.T34 vs. NCBI nr
Match: XP_011657538.1 (phosphatidylinositol 4-phosphate 5-kinase 7 isoform X2 [Cucumis sativus]) HSP 1 Score: 900 bits (2325), Expect = 0.0 Identity = 423/426 (99.30%), Postives = 424/426 (99.53%), Query Frame = 0
BLAST of Cucsat.G17240.T34 vs. NCBI nr
Match: XP_011657536.1 (phosphatidylinositol 4-phosphate 5-kinase 7 isoform X1 [Cucumis sativus] >XP_011657537.1 phosphatidylinositol 4-phosphate 5-kinase 7 isoform X1 [Cucumis sativus] >XP_031743769.1 phosphatidylinositol 4-phosphate 5-kinase 7 isoform X1 [Cucumis sativus] >XP_031743770.1 phosphatidylinositol 4-phosphate 5-kinase 7 isoform X1 [Cucumis sativus] >KAE8647330.1 hypothetical protein Csa_003907 [Cucumis sativus]) HSP 1 Score: 900 bits (2325), Expect = 0.0 Identity = 423/426 (99.30%), Postives = 424/426 (99.53%), Query Frame = 0
BLAST of Cucsat.G17240.T34 vs. ExPASy TrEMBL
Match: A0A0A0KJI4 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_6G416840 PE=4 SV=1) HSP 1 Score: 899 bits (2323), Expect = 0.0 Identity = 423/423 (100.00%), Postives = 423/423 (100.00%), Query Frame = 0
BLAST of Cucsat.G17240.T34 vs. ExPASy TrEMBL
Match: A0A1S3BLC6 (Phosphatidylinositol 4-phosphate 5-kinase OS=Cucumis melo OX=3656 GN=LOC103491305 PE=4 SV=1) HSP 1 Score: 877 bits (2265), Expect = 4.77e-316 Identity = 411/426 (96.48%), Postives = 418/426 (98.12%), Query Frame = 0
BLAST of Cucsat.G17240.T34 vs. ExPASy TrEMBL
Match: A0A1S3BLZ6 (Phosphatidylinositol 4-phosphate 5-kinase OS=Cucumis melo OX=3656 GN=LOC103491305 PE=4 SV=1) HSP 1 Score: 877 bits (2265), Expect = 4.77e-316 Identity = 411/426 (96.48%), Postives = 418/426 (98.12%), Query Frame = 0
BLAST of Cucsat.G17240.T34 vs. ExPASy TrEMBL
Match: A0A5A7URR8 (Phosphatidylinositol 4-phosphate 5-kinase OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold280G001910 PE=4 SV=1) HSP 1 Score: 836 bits (2159), Expect = 1.78e-300 Identity = 390/405 (96.30%), Postives = 397/405 (98.02%), Query Frame = 0
BLAST of Cucsat.G17240.T34 vs. ExPASy TrEMBL
Match: A0A6J1HVG1 (Phosphatidylinositol 4-phosphate 5-kinase OS=Cucurbita maxima OX=3661 GN=LOC111467034 PE=4 SV=1) HSP 1 Score: 776 bits (2005), Expect = 1.47e-276 Identity = 364/427 (85.25%), Postives = 390/427 (91.33%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Cucumber (B10) v3
Date Performed: 2021-10-25
Relationships
This mRNA is a part of the following gene feature(s):
The following exon feature(s) are a part of this mRNA:
The following CDS feature(s) are a part of this mRNA:
The following polypeptide feature(s) derives from this mRNA:
GO Annotation
GO Assignments
This mRNA is annotated with the following GO terms.
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