CsGy7G000140.1 (mRNA) Cucumber (Gy14) v2
The following sequences are available for this feature:
Legend: five_prime_UTRexonpolypeptideCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.ATTTTCCTTTGGCGCTACTCTCTTTCCCCCTTCTCTTCAACTTTTTCCCCCGAAAATCTCGACTCGGCTCTGCCCATCGTTTTTCCGATCGATTCCTCGCCGAGAATCTTCTTCCAATGGCCGCCAAAAGCAGAGTCCTAGTCGTCGGAAGCACTGGCTACATCGGTAAATTCATCGTCGAGGCCAGCGCCAAGGCCGGTCATCAGACCTTCGCTCTCGTCCGAGATTCTTCTCTCTCCCATCCAGCCAAATCACAGATTATCCAGAGCTTCAAGAGCATCGGAGTCACTATCCTCACTGTAATTTCTCAATCCTTTTCATCAATTTCCCTCTCCCTCAACTCTAACTGTTGTTCTGTTAGACTATTATTTCTCTTTTCCAGTTTTTCCTGTAAATTTCATCAAACTAGTTTCGCTATTTGAGGTTTTTTTTCGTTTCGATTTCGTGTTTTATTTTGATAATCTGTGTTGCAAGAAGTGCTGTGCTGAAAGAAATTGAAGAATATTATTGGGATTGGATTGGGTGCAGGGGGATCTGTTTGAGCATGAGAGTTTGGTGAAAGCTATGAAGGAAGTAGATGTGGTGATCTCAGCCGTCGGTCTTTATCAGTTAAGCGATCAAGATAAGCTTATTTCCGCCATTAAAGAAGCTGGCAATATCAAGGTATTGTTAACATTTACTAGCAAACAAAATGTTCTTAATGCAAATTAAATGAAAATAATGTTTTGAAAAAATAAAACATATTTTTCTTTGATCAATCTCAATAGACGAAAATTTTTTTGAAGGTAGATTAAAAATCATTGTCATTGATTGTCAAATGGTTCGTTTTCTTTTAAATTACTTGATCCTATAACTTAAGTCTCGAATTGTTAGGATTAAATTTCACATTAAAGTTAAAGGAAGAAAAAAAACTTTTGGTCATGTCACAAACTATTTGTATTGCGTTTTTTCAAAGTGAGGAGGAGAGCAAAAGAATAGTCTATTGGTTTGGTTTAATTGTGAAAGGACGTAAGCAAAAGTAGGCTTAAAGGTTGTCATATTTGTTTACAAAAATGTGGGTCAAATGAATTGTGAATTTTGGATCATCTCTATATCTTGGTGAAAATGAAAAAATATTAAAGATTTTTAATTTAACGCAAATTAAGTAAATATGAAAAATGAGATTTGGGTAAATAAATCAATGTGACATTTTAGTAAATAAGTTGATCTTCATCAACTTTCGGACTAAAAAAGTGAAACACTTTTTAAGAGGCATTTGGGATAATATAATAATTTATATTTGAAGTGTAAATTATTTTAGTTTATGTTATAGTAGTATATATGTTTGTGTTTTATATTTTTATACTAAATATATATTTTTCTGTTTTCAATCTTTTGACAAAAATTTAAAATTTAAAAATATTTTATTATAAATCTTTAATATGATAAGTTATATAAGGTATATTATACCAAGTGTGTATCAAGTGTATACCAAATGGATGAAGTGCTTATTTAGAAGGGTATAAGTATATCAAGTGTATATTAGTAGTGTATTAAATAGATATGAATGGTGTATCAAGTCTGTCAAGTAAATCAACTATATTGAAGTAAATAAGTTGGGCTATGGGTATAATTTCTTAAACTTATTTTTCCAAACATGCAAAAAAAAAAAAAAAAACACCCGGTGTTTTTCTATTCTTATACTAAAATAGCGTTTTCCCTCTTTTCACTCAAAAATATATATATATATATATATATATATATATATATATATATATATATATATATATATATTTATTGAACTTTACTTATATATTCAAATTTTATTGTCTATCAACGATAAGAATTGTTATATTTAATGTTTTCAATAGGTCTCTAAACTTTCAAGTTTTTTCTAGAAGTGGTAGGTTTAAATTTCCCGACCCTAATTGTTGTAAAAAACTAACAATTACTTGTCTATAGTAGGTCAATCGATTCTAAAAAATGAGGAGATAAAAAATCTATATGACATAAACACTACAAGAAATAGTATATTTCTTGACGCACAAACATGTCAGAATATGCTTCCAAGAACGTCAAGAATATGTCTCCCAACACAGGACAACACGTCGGGAACCATGTCGAGAGACGTATTCTCAATGCTAAAGTGTATCGACGTTGGGAAAGGGCTATTCCCGACGCTAGTATGGACAACGTCAGAATAGGGTCATTCCTGACGTCCTCGTTCAATGTTGGAAGTGCCACTTTCCGACGCGGCGTCGGGAAAGTTTCCCTAACGATTTTCTTTAGGCGTCGGGGAATGGTCCAAAAGTCTGACACCGTATTGCGTCGATAGATCTAATTTTCTCTCTTTTTTCTGAATTAATATGCCCAATTTTTATATCCTATGGTACATTTTTAGTTCTAATTTGATTTTGAACTTTTAAAACAGAACAAAGAGAACAAACAAAAACGAAATCTTCATTGATATTATTTTTTTTAACAAATAGAAAAACGTTAAAACAAAATTCAATTTTGAAGTCTTTCTATTCTAACAATTATATATTGTTTGTTTGAAACAACTACATAAAACAGAAAAAAAAAAAAAAAGCATCATATGTCATCGGCAGATGTCATCGTACTATAGGTTCGGAGTCCTCTATTTGCTCGAGTTGTTTTCTCAATCATCTTCTTCATTTCTTCCATTTGTCAACCATGTGTCTCTGACATTATTCTTTGTTCTTCAAGCATAAGTTGTTGTCTTTCTTCAAGTTCTCTAATCCGAGTTGCATCATCTTCCACTCGTGCATTTCTTGAGTCATGAACTGCTACCACCCTTCCACGACTTAGACTTGGGATCCCAACCAAGACCTTTGGAGTAGCCCAGTTGTTCCCGGTAGATATGCTCAAACACCAATCGGGAGAAGTTGATGTAACAAACGTGGCAGTTGTCGTGTGTTTTAAGACCTAATATTTTTCTGTCACTGTCATTCACATATGGACACCTTGCTCATCTGTAATCATCGACGATCGAAACTTGGCAACCTCTAAAAAATGGGACACTTCCTCTATATACTCAACCAAGAATTTATTCCTAAGTTTCATCCAACCTTTTTCCATCGCTAAAGATCTAAAACATAAATAAGTTTGATTAGTCTTATATTCCTCCTCTCAATTGCTTGAACTTACTCCATGAATAAGCTACACCTCATAAGTACCCAATCTCCCAACTTTTACTAAGCTAAGTTTAAACTAAAGAGGCTACCATTATTGAATGATAGCCAGAACAAATCTCAACCACAAATTACAGCCCCTTCCCCCTATTTTAAAATCAAATTCAATATAAACCCTCCTCAAAATTCAATATAAACCCCCTCAAAACTATTAACAAATTTAAAACTAAAGGCTAAATTCAATAACTGCATGATGGCCAAATTCATTTTCAAACTCACAATAAGTTTAACATACTATTCAAACTCACAATAAGTTTAACATACTACACAACTTCAACAATTTCATAAATTCATTAAAAAGTTCATCAAACAAATTCAACTCATCAAATAATTCATTTCCAAATTCACTACGTTTAACAATGCATCATCGGAAAAAAAACATAAAGAATAATAACAATCAAATCGACAACAATAAAATTCAACAACAATAAAAATAAAACAACAACAATAACTATAAAATCAACAACAATAACAAAGACTAACACACATATTTAATATTTTTTCTCAACCTCAAACCAAAAATAAATAAAAACAGAAACTTACAGGCGAGGGACGAACGTCGGCGACGAAAAAAGGGCAGCGGCGGACGATGACGGCGAGGAGAAAAACACACAAGAGAAGGCCTTGACAATCCAAAAGCATACCTATTTAGTTTTTTTTTCTTTTCTCAAACTCAAATTAAAATAAAGAAAAAATAAAACAAATACTCACTGGCGAACGACGACTCACAAGCGTCAATGGTTGATGAGTAGTGGTGGACGATAATTTCGAGCAACAGACGATGGATGACGAGCGACAGTGGATCTTCTTTTGTCTCTTTCGGCCTTCAAAGCCTTCGTCTCCCATTCTCACTCTCTTTTTCCCTCCTTTTTGGCTAACTCAGATCTATTTTACAAATCTGAAAAATGACATTTTGAAGGGGAACTCTTGATGCACCACGACATGCATCGAGCGTTCCTCCCAACTTCCGACCTTTTACCAGAAAAGTCGAGAGAACTGGCACTTCTCCTGACATTTTACAAGCAGATGTCGAGTTAAGTATAAATAGTTCTTTATTCTTTTCAATTATGTCAACATCATGTTGAGAATGTGACGGGCATTCCTGACATCTAACTAATGGCGTCGGGAATGCCAAGAAATACTTTTATTATTTCCATTGATGTTGACGGGACGTCGAGAATGGTTCAAGCATTTTTAACATGTGACTAATGGCGTTAGAAATGTTTGATCCTTTTCCGACGTTTAACACTCGGTGTTAGGGGATGGAGGTATTTTCAACGTGAGTGGGGTAGCGTCAGCATAAGCTATGTCTCCCGACGTCTTCTATCATGACGCTTAGAAGACGCATCGAGAAAGACCTATTTTCTTGTAGTGAAAATTGAAACATGACATATCCAGGGTTGCATTCTTTGAAATTAGTGAAGAATGCAAAATTACTAATCATATGTCTGGAACAACTCTTCACGTATGAATCGAGGTAAAATCAATATAACACTTAGTACACTCTCTTTTACTCTTCACTAATCTCCATTCAGCCTTAAGATTAGAATTTGAGACATTCTTCCTGAAGAATATTTTATTTGAATAGAACTCAGGTAAACAATACCAATACGGCTGTATGTGTTTAGGACAAAAATAGCATATTCATCTTTTATATGCTCTATGTATCTTGGTTTTAACAGCAGTTCCCTCTTCTTTAAGAATAAGTTCTTCTATAACGTCGTCAACACTACTAGAGGCACGTATAAACACAGTGGAGGTTTTTCTAGAAAAACTTTTTCCAGAAAAACTCAATCCCTTTTTGTCACATCTGGATTTCCCATCATTTAAAATATTGTCTAGACTTTGTGTTTCGGAAGTGATAATTTTGACTGATTTAGAAAGAGAATCAAACTCACAACGAACGTCTTTCAGCTCAGTTTTAAGACAATGATAATCTTCCATTAAGGATTGTATCATTTACTTTTGTTGCTTCATAACCACTTGATCTTTCTCTCATTTTAAGAAGAAATTATCACCGTCTGAAATAGCAAGAGGTGATGATTTTTCATTATCAGCACATTTAACAAAATTCTTCTACCAAATGGAACAATCATCTCAAGTAGATTCATCTGCAGCGACAATACTGATAAGGGCTCTTCCAAATTCCCCAAAGTCGCTCTCAGAGGATACTGTAAGACCCCCAATTATCCATACTTATAGGAGGAAAGGTAGAAAAGTAATTGCACAGGAAAATATTATGGAGGATTGATTGGCCATACTTATAGGAGGAAGGGTAGAAAAGTAATTGCATAGGAAAATATTATGGAGGATTGATTGGAAGGAAGATCGTGAGTGGTAGGGCCCACTGGGCTGAGAAATAGGTGAGTCTATAAATAGGATTATTAGGTATGGAGTAGCTAGGGTATATTTTATCTTTTAGAAGGTAGGGCTGCAGCAGCCACAAGGGTCTCTTAAGTCAAGGAGGCCGGTATATTCTTTCCTTGATTTTCCTTGTTGTTTCTTTTCATCTTGTGACTCTGTAATCATTTGGCTATATATAAATAAAGTAAACCAGGGTACCACCTCTGTTTAAGCCATTTTTTCATCATCAGAAAAAGTGACAGTTGCTAGACTTTTCTTCTTACGTTTAAGAAAAGTAGCACACTCAATTTGATAGTGCCCAAAATCTTCATATTCATGACACCTCACGTTTCTATCACTTTTAGAAAATCATGATGCTCGGTCTCCTCTCTCATTCTCCCTTCTCTTGTTAAAACCAGAGTTATTATTTGAACTAGAAGAACTATTAAAATATGAAGAGGATGTATTAAAATTTCAATTATTTTGATTCCTATAGTTTCCAATATGCTTGTGAAACTGACTTCAAAGCTTGGACACTTGCTTAGTCAGAAGCGCACTAGACTTGACTATGCTTTCTTCACTAGCATGTTCTTTTTGTGGTTGGGACACATCCTCACTTACAGACTAAAAATAAACTCTAGATTTTCATTTAGAATCACCCTCTCCCAAGTTAAATTCAAATGTTCTCAACAATGACCCAAATAGTTGATCGAGTTTCATTATTGTAACATCGCTTGCTTCTTCTATAGCAGTGAATTTCATGCTAAAGCGTTGAGGAAGCGATAGCAAAACTTTTGTACAAGTTTCGTATCCGAAATCTTCTCTCCAAGAGCAAATAACTCATTTTCTATATCCAGAACACGAATATTGAAATTGAAAATTAACTCATCATCAAACATTTTTAGGGTTGAATTTTGGTGTCAATTAACTCATTATCAAACATTTTTAGGGTTGAATTTTGGTGTCAAGATCTGCAATCGTGACATCTTCACCTTAGAAGTTCCTTCGTAGGCCACCTCTAACATAATCAATATCTACTTGCAATAATATAATCAAGCATATCTGATACTTTACAACCTCCTAACTTCAAAGAACCATAATAGTCTTGAACTTACAATCATTAGATATATCACTCACCACAATTTTGTAATATATCTTTTACGTCACCTGTAGCATCACCTTTCTTTTTCCCAAAGATTTTGAAAAACCCACAACCAATAAGACGATCACACCAAAGGAATTAGGAGTGCAATATCCAACCTAGACGAGAATAAAGAAACAACCACAACAAACTAGCCCAAATTCCAACAACCAAATGTGAACCAAAAAATAATAAATAAAACAAATAAAGGAAGTGAGACCACATATCCATATTGCACATTTACAAATATATCCATAGAATATCCATAGCAATCAATAATTCTGAGAATAAATAAAACTTACACAGATTATATATGGATTAAGAATCTAACCCAATGGAGAAAAGGTACATAGCTAAGTTAACCCCAACAATACACTACTTTTTTTCCTTAAATTAATTTTATTAAATATTTTTAATTATAATATTCATTTTTCTTAAATTGATTTTATTAAATCTTCTTAATTGTGATATTCATTACACCCAAAACCACGAGTTAGAAGGACTAGGAGAGGGAGTTGGGGAAATACGTAGGTTATGGAAACCCTAGTACTAGGATTTCTCATCATTCGAGTGCCAAACAAGGAGTCGGCTATTTTAGCCAACTCAACTCGTTAAAAATTGGGGTCCAAGTAATTTTCTCATATATTAGATTATTGTGTTTGAAATTAGTTTAAGCATACATCGTTACAATTTGGCTATGTAGTTATTAAGAAAGCAAGAAAAAAAAACTATATATAAATAAATATTCACTACTTTTCTTTTCACCATATATCTAGCTACATCTATATCTATATATATATGTACATATATATATACTTTCTTTTGACACTTAATTTCAATACTTAATCTCAATTTAAAGTTAAGTGTATCCAAACTTTCGTAAATTTAACAATTTTGTCTGTCAACTCAAAAAATTGTTTTAAATATTTATCTTGGTGATGACTAGTCTAGATCAAGGGCAAGAAAGCTTAAGAAGATGGATCTCAGGGCATATCTTAATAGCTTACTCGGTCAAGTTTGAAGGACAGAGTGGTTTTTCATATGGAACTTGAGCCAACTCGTGGAAGTTCTGGACTAGGAACAAGGAATGATATTTAAGGATTCTATGTAATCCTGAGACTTAGTCCGACCAAGATTGGAAGAAAAAAAAGAAAGTATTGAGAGATCTCGAACAATCTCGAGATTAAGTTCAACCGAGATGTAAGGCAGAGATAGAGAGATTTAAACAATATACGAGAGGGAGTTGGATAGAAGAGGGGAGTTAGATATCCTAAATACGGGGATTATCAAACGAGGAGTGGGTTACACCTCACTCTACTACTCACTCCAAACATCCACTATATTTGTGGCAAAATTTAGATTAGCTTATGACCCATAGATTATGACATTGATAAATCTTGCTATACAGTTAATTTATTACTCCTAGAATTGCTGCTTTCTATTTCCTTTCAAACTCAGTTACATCATCTAATTATTGGTATTAAAATTCGTATCAGTGGATAGGTAGTTGTTATATTTTATGAGTATTTATAAATTAGATTCAAGGGGGCATACCGACGTCAATTCTAAGTCTTCAATTATTTCAATCATTTAATGACAGCTACACGTTTTTCTGTGGTTGGTGCAGAGATTTTTTCCGTCGGAGTTCGGGTATGATGTAGAGAATGTACATGGAATTGGAGTGGTTAAATCGATTTTCGAGGCAAAGGTTAAGATTCGTCGAGCTGTGGAGGCTGAAGGGATCCCGTACACTTATGTATTGTCTTACTACTTCAATGCTTTTTGTCTTCCTAGATTGGCTCAACATGGGGCCACTGCTCCACCTAGAGACAAGGTTGTCATTCAAGGGGATGGAAATCCCAAGGGTAACTATACTTCTCTTCTCCTACTCTTTTCTCTATTTTTGTTTATATTTGTTGCCTCTCATTTCCTAATGTTTCGTATTAACAACACCTTCTTTGCTCCACTATACCATTTAATATGTAGGTTAATAATTGATAGGCCTGATTTCCTAGTTGGGGCAAAAAAAAAAAAAAGTTCACATAACTTTAATTTTATAACAAATACATGAATATAAACTTACTTCTAACGAGAACAAACTTCTACCTAATTTATATCTCTACAATTGTATGACATTGTTCACTTTGAACATATAAAATTTTCGTTTTAGTCTTGGAACCACCTAAAAGGCCTTGCATACCATGAAACACTTCTTTCCTTCACTTTGGTTTCAATTCTACTAATTCTTCTCTCGAACAATGAACCATCCTTGGAGTTTCCGAACGCTTGATGAAAGTTGTTTGCTCTAATCAAAGCCGTATAGAGCGAGCACAACCATTACCAGCACAATTTGGAGCCGAATATGGTTGTTTGAAAGGACGAAATTCAACTCACTCAGACTCCTAATAGCATGTCTTCATTTTTAAGAGTGGAGAGTTCAACTCCCTATCACTATTGAACTGATTAAAAGAAACTCTAAAAAATATTAATATCCATTTTGATGAGGAAGTTGAGTCCTATTCGGCAAAGCTAGTTGACTTATTGGCATATAATATATAGTTGATTATTTCTCAATAAAATTGCTTTGTGTTTTGTCTATTAGTACAATAATACTGTCCACAAATGTGGGTTTTCTGGTAAATGTCTACATCCTAGTTAAGATAAGATAATGAGTTTATTGTTTGGTTTCAATTTGTCAATTTTTCAGTAATTTTCAACAAAGAAGAAGACATTGCTTCCTACACCATTAAAGCAGTGGATGATCCAACAACTTTGAATAAAATTCTTTACATTAAGCCTCCTCCAAATGTCCTCTCAATCAATGAACTTGTGGCCCTCTGGGAAAGCAAAATTGGCAAAACTCTTGACAAAACCTACATTTCAGAGGACCAATTATTAAACAATATTCAAGGTTAGTCTTCAATTTATGAAAATTAATAGGCATAGTTTTGTTTTAATATAATCTCATTTTATTTTGTTTGATCTTTTAAAGTTTTCTTTTTCTTTTTGCTATTGATTAGTGGCCTAGTGGGTGGGGTCCTTGTTATTCTCGTTCTACAAAAAAAAAATAGTTAGATCAAAATTAAAAAAATAAAAATTAGTGATTTGGTCATTGGTTAAAAAAATCATACTGTTAATTGTAACAAATTTATTTTCCTGATATATAAAGTTCTGTGTTGAGTGTTCAAAAGAATAGACTACACAAAAAAAGGACAGTTGTACTCATCTTAGCTTTTCTTCAAGAATCAAAGTCCTTCTCTGTGGATGTAGGCTCTTCTTTGCCCAACCACGTTAAATTGGTGTGCATTTTCTTTTACTACTTCTTCTCCTCCATTCTCTGCACAATAAAAATCTCCATTGTTGTTGATACTTTAAATTTACGGAAACAAAGAAAGTTGAGAGATTTGGTGAGTAGAGAAAATTACCAAATTCTTTGTTTTCGTTTAGAAAAGAATTGGGGGTGATTATTTCTTGCAAAATGTTGACTCCAACAAGTGTAATACAGAAGGTTGACATAACCTCTTCTCCATATTTCATTCTACCTAACTCAAGAAGATATTTTATTTTGTTCGTGGGTTCCTCTTCCTCCACATATTTTGTCTTTCATCTTTGGGCTTAATACAAATAACGCAAAAAATACCCCAACAAAGTGGTAATATCATAGCAATCTTGATTATCAAGAAGACAAATCTTGGAGGTTCAAGAATCAGTTTCAAACCTGCGGATGACAATAGCAAGAGTTGAAATTCAAAGTTTGATGGAAATGGTGATTTTTCCTGTTGGAGTGCAAAAATTAAATTCTTCCTTGGTCACCAAAAGGCTCAAAGTTAAATGTGACAATGGAGTTAAATACACACCACAACAGACTTTCAGAAACTTCCAGAATAACCATCACTGCAAAGAAAGAGAAGAAATGGAGTTAAATGCCTATGGAGTAAGTTAAATGTGACAAAGTTAAATGGATAAAGTTAAATGTGACAATGGAGTTAAATGTCCTAAGGCAAATAATTGAAGAAGATACAGCATACAAGATATGGACAAAGTTAGAAAGCTTATTTACTACCAAAGATCTTCCTACAAACCAGGTGATGAAAATGAAGCCTATGTGCTTCTAAACTCCTTGCCTGAATCCTATAAAGAAGTGAAGAATGGTCTTAAGTATGGCAGAGATTCAGTTAAAATCGATACAATAATTTTAAGTTCTTAAAACAAAAGAAATAGAGCTTTAGTCATCTAAAAAGATCAACACAATGGAGATGGATTATTTGTCAAATGAAAGTCTTAAACAAATCAGTGGAAGAACAGAAAAAGTGAGTTAAATGAAGAAAAGAAGGCAAAACAGAAGTGTAAATACTCCAAGAAGAAATGACTGTTTCTTTCTCAAGAAAAAGAATTAAGAGAAAGAAAAAGATTCTAAATGAAAGCAACATGAAGCATCCGTGGTAGAAAGTTCTTTTATCTATTCAAATGCTTTGGCATCAATCCAAGACCAAACAAATCATATGCTACCCCCTCTAGTAAATATGATTGGGTTCTTAACTCTGACTGCACCTACCATAACACCTTTTAAAACCTAGTTCAACACTTACAAGGAAATCAATGAAGAGTCAATTTTCATGGAAAATAATGAGGCTTGTCACATTGTTGGTATTGGATTAGTCATTATGAAATTGAACGATGGAACTCTGAAATTTCTTAGAGATGTTAGACTTGTTCCTCACCTCAAAAGAAATAATTACCTTAGGAATGTTAGACTCTTTGGGGTGTGAATACAAAAGGAGAAGGTGAAGTTTTTAAGGTCCTAAAAGATTCTAGGGTTGTTTTGGTTGGAGAAAAGATAAATTAACCTTTCCATAATCAAAGGAGTTGAAATGCTAAATGAAGTTAATGTAGTATCTACATTAAATCTGACCGAGGCTGACTTTTGGCAGAAAAGACAGACTCATATTAGCCAAAAGAGACTTATCAAAATGAGGCATCCTACCTAAATAAATTAGCAAGAAGTTGTCCTTTTGTGAACATTGTGTGTTAGGAAAAGCAAGAAGACAAAGCTTCTTCAAAGCACAACACACTGCTAAAGGAATCCTTGACTACAACCATTTGAAACTATGAGAACCAACCTCGACCCCGAGCCTAAGTGGCTCAAGGTACAATTTATCCTTTACTGATGATTTTTCTTAGAAATACTAGGATTTATTTTCTAAAAACTAAAGACCAAGTCTTTAGAAAATTTAAAGAATGGAAATTGATGATAGAAAAAAATAGAAAAAATATAAAATATCTTAGAATTGATAGTGGTTTGGAGTTTTGTGAAGAGGATTTTAGGAAAAAAATGGAATTACAAGCATAAGAGAGTCACTCTCTAGTCAGTGGATATAAGCAATGCTAAATAACCCACTAAATGGTTCTATACTAGATAGTTAGATAAGCAATATTGAATTAAGAAATGAACCCACTAAGTGTGAATGACCCTTGGACCCTAGTTTCTCTATCAAATGGATGCAAACCAATAGTATCAAAGTGGATCTATAAGTTAAATGAGGGATTACAAAAAAATTCAAAGACTAGATACAATAAGGTTGGTACAGTTAAGGGTTTCACTCAAACACAAGGGTATAGACTATTCTAAAATTCTCACTTTGGTTGTTAAACAAACTTCTATTAGACTCCTTTTATCACTAGTAGCTCAAAACAACTTGGAGTTAAACCAACTTGACGTAAAGAAAGCTTTTTTTTCGTAGTTATCTAGATGAAACCATTTACATGGAACAACCTAAAGGGTTTGAGGTTAAAGGAAAGAATGGTCTATACTGTTTGCTCAAAAAGTCAATCTATGGGTTGAAACAATCTCCTAGATCCTGGTATAGAAGGTTCAATGACTATATAGCTAGTTTGAGTTTTCAAATAAGCTCATATGATATGTGTGCTTACATAAACTCAACAACCTACAAGGACAAGGACCTATATTATTACTCTATTTTGATAACTCATGTAAAAGGTCTTTTAGGTAAAGATTTCGACATGAAAGACGTGGAAGAATCAAGGAAGATTCTGAATTGACATCGCTAGAGATAAAGACCAATATATCCTAAGCGTAAGCTAATTAACCTACTGGTGAGAAGTTAATTAGAAGATTTAATTAACCATAACAAATGTTAGACATGTGACCAATCCTATTGCACAACACTTCAAACTTTTAGCAGCAAATTCTCGTAATGATACCGATATAGAACAAAAATAAACAAATGAAGAATGTTCTTTATAGTCAAACAGTGGGAAATCTCATGTACTTAATAATCTCTACTAGACCTCACTTAACCTATTTGGCAAGTTTAGTCAGTAGATATATGGAAAGTCCCGGTAAGAGACACGAGAAAGCAACAAAATTGATTCTTAGATATCTAATCTGGCCTAAGTATGCTAAACTAATTTACCAGAAGACATTTAGAATCAGATTTAGAACTAATTGACTATGTGGATTCAGACTATTTGCTGGTGATATTGATAAAAGAAGAAGCCTAACAAGGTATGTTTCTCTCTACCACCCTAATCCAATCAATTCGAAAGGAACCCTACAATCTATCGTTGCTCTCTCAACTAAATAACCAAAAATACTTAGCTCTTACAGAGGCAGTAAAAAAAGGATTGTGGCTCAAACAATTGATGAAGGACCTTGGTATTAACCAATCAATAGTTAAGATCTACTATGATAACAAAAGTACCATACATCTATCCAAGAACACACAATTCCACAGTAGAACAAAACACATAGATATAAAATTTCATTTTGTTCGTGAAAGAATAGAAACGAGGGAAATCAAAGTTTTGAAGGTCCATACCTTGGACAACATAGCAGATATGCTAACCAAACATATTCTAAAGCTAAAGCTCCAAAAATGTTTTGAGTTGTGGTAGGCTTTGATTTACGTGAAAAACGGATAAACAAAGACAGAAATCGAAAATTTACTTGAAGGTTGAAGAATTACGTTGGATTCAAGGTGGAGATTTTTAATAAATTTTTGAATTCCAACATTTAGTTTTATTTTCATGTTACATCCTCTTGTAAACACCTAATATATAAAGGTGTGTTGAGTGTTCAAAAGATAGACTACAAAAGAAAAAAAGAAAGATGAACTCATCTTAGATTTCTTCCGTCCTTCTACGTGGATGTAGGCTCTTCTTTGCTTAACCACGTTAAATCGATATGCATTTTCTTTTACTACAATTTCACCTCCATTCTCTGCATAATAGAAATCTCCATTGTTGCCAACCTAAATTTAGACCAAGAAAGTTGTACATTACAAGAAAAAAAAAAGTATATAATGACCACCAAAATGATAATCTATTTGAACTATTATATTTAAAAATAAAAAGCAACTAAAAATCCCTAATTTAGTTCAGCTTATGAGGCTTAAATCTTTTGTAAAAAAGATAAAATTAGAGCTTACTCATAAGATAACAAGTGTCTTGGTCATAACTGCTTAGAGGTCTCAAGTTTGAAGTTTCCAATATGTGCTTAATAATAAAATCCCTTGTCGTAGGTGTGGATGCATGCCTTCGAAATATATATAGGGAGTAAGCAGGTTGGACTGAATTTGTTGGTTGTTGTTTTGTTAATATCTGTGCAGAGGCAGCATATCCACTGAATTTGATGCTATCCTTTGATTACTCAATATTTGTGAAGGGAGATCATAAAGCCAACCTTGAAATTGAACCATCCATTGGATTGGAAGCTACAAAGTTGTATCCAGATGTCAAATACACTCCTGTCGATGAATATCTCAATCAATTTGTTTAACTACTTTTCCCTTCCTTTTTTTCTCTGATATATTGTCTGTACTAAGACTACCATAAGTCACTTTATTTTCATAAGAAAAGAAAGAAAGTAATTTGGACCATTACATCCTTTTATATTTCATATTTATATATGTACAAATAATAATTGTTGAGTTATCCCACTCTTACGACTTACCATTTTTTCCAATGC ATTTTCCTTTGGCGCTACTCTCTTTCCCCCTTCTCTTCAACTTTTTCCCCCGAAAATCTCGACTCGGCTCTGCCCATCGTTTTTCCGATCGATTCCTCGCCGAGAATCTTCTTCCAATGGCCGCCAAAAGCAGAGTCCTAGTCGTCGGAAGCACTGGCTACATCGGTAAATTCATCGTCGAGGCCAGCGCCAAGGCCGGTCATCAGACCTTCGCTCTCGTCCGAGATTCTTCTCTCTCCCATCCAGCCAAATCACAGATTATCCAGAGCTTCAAGAGCATCGGAGTCACTATCCTCACTGGGGATCTGTTTGAGCATGAGAGTTTGGTGAAAGCTATGAAGGAAGTAGATGTGGTGATCTCAGCCGTCGGTCTTTATCAGTTAAGCGATCAAGATAAGCTTATTTCCGCCATTAAAGAAGCTGGCAATATCAAGAGATTTTTTCCGTCGGAGTTCGGGTATGATGTAGAGAATGTACATGGAATTGGAGTGGTTAAATCGATTTTCGAGGCAAAGGTTAAGATTCGTCGAGCTGTGGAGGCTGAAGGGATCCCGTACACTTATGTATTGTCTTACTACTTCAATGCTTTTTGTCTTCCTAGATTGGCTCAACATGGGGCCACTGCTCCACCTAGAGACAAGGTTGTCATTCAAGGGGATGGAAATCCCAAGGTAATTTTCAACAAAGAAGAAGACATTGCTTCCTACACCATTAAAGCAGTGGATGATCCAACAACTTTGAATAAAATTCTTTACATTAAGCCTCCTCCAAATGTCCTCTCAATCAATGAACTTGTGGCCCTCTGGGAAAGCAAAATTGGCAAAACTCTTGACAAAACCTACATTTCAGAGGACCAATTATTAAACAATATTCAAGAGGCAGCATATCCACTGAATTTGATGCTATCCTTTGATTACTCAATATTTGTGAAGGGAGATCATAAAGCCAACCTTGAAATTGAACCATCCATTGGATTGGAAGCTACAAAGTTGTATCCAGATGTCAAATACACTCCTGTCGATGAATATCTCAATCAATTTGTTTAACTACTTTTCCCTTCCTTTTTTTCTCTGATATATTGTCTGTACTAAGACTACCATAAGTCACTTTATTTTCATAAGAAAAGAAAGAAAGTAATTTGGACCATTACATCCTTTTATATTTCATATTTATATATGTACAAATAATAATTGTTGAGTTATCCCACTCTTACGACTTACCATTTTTTCCAATGC ATGGCCGCCAAAAGCAGAGTCCTAGTCGTCGGAAGCACTGGCTACATCGGTAAATTCATCGTCGAGGCCAGCGCCAAGGCCGGTCATCAGACCTTCGCTCTCGTCCGAGATTCTTCTCTCTCCCATCCAGCCAAATCACAGATTATCCAGAGCTTCAAGAGCATCGGAGTCACTATCCTCACTGGGGATCTGTTTGAGCATGAGAGTTTGGTGAAAGCTATGAAGGAAGTAGATGTGGTGATCTCAGCCGTCGGTCTTTATCAGTTAAGCGATCAAGATAAGCTTATTTCCGCCATTAAAGAAGCTGGCAATATCAAGAGATTTTTTCCGTCGGAGTTCGGGTATGATGTAGAGAATGTACATGGAATTGGAGTGGTTAAATCGATTTTCGAGGCAAAGGTTAAGATTCGTCGAGCTGTGGAGGCTGAAGGGATCCCGTACACTTATGTATTGTCTTACTACTTCAATGCTTTTTGTCTTCCTAGATTGGCTCAACATGGGGCCACTGCTCCACCTAGAGACAAGGTTGTCATTCAAGGGGATGGAAATCCCAAGGTAATTTTCAACAAAGAAGAAGACATTGCTTCCTACACCATTAAAGCAGTGGATGATCCAACAACTTTGAATAAAATTCTTTACATTAAGCCTCCTCCAAATGTCCTCTCAATCAATGAACTTGTGGCCCTCTGGGAAAGCAAAATTGGCAAAACTCTTGACAAAACCTACATTTCAGAGGACCAATTATTAAACAATATTCAAGAGGCAGCATATCCACTGAATTTGATGCTATCCTTTGATTACTCAATATTTGTGAAGGGAGATCATAAAGCCAACCTTGAAATTGAACCATCCATTGGATTGGAAGCTACAAAGTTGTATCCAGATGTCAAATACACTCCTGTCGATGAATATCTCAATCAATTTGTTTAA MAAKSRVLVVGSTGYIGKFIVEASAKAGHQTFALVRDSSLSHPAKSQIIQSFKSIGVTILTGDLFEHESLVKAMKEVDVVISAVGLYQLSDQDKLISAIKEAGNIKRFFPSEFGYDVENVHGIGVVKSIFEAKVKIRRAVEAEGIPYTYVLSYYFNAFCLPRLAQHGATAPPRDKVVIQGDGNPKVIFNKEEDIASYTIKAVDDPTTLNKILYIKPPPNVLSINELVALWESKIGKTLDKTYISEDQLLNNIQEAAYPLNLMLSFDYSIFVKGDHKANLEIEPSIGLEATKLYPDVKYTPVDEYLNQFV
BLAST of CsGy7G000140.1 vs. NCBI nr
Match: XP_004148526.1 (PREDICTED: isoflavone reductase homolog [Cucumis sativus]) HSP 1 Score: 610.5 bits (1573), Expect = 3.1e-171 Identity = 309/309 (100.00%), Postives = 309/309 (100.00%), Query Frame = 0
BLAST of CsGy7G000140.1 vs. NCBI nr
Match: XP_008448081.1 (PREDICTED: isoflavone reductase-like protein [Cucumis melo]) HSP 1 Score: 565.8 bits (1457), Expect = 8.7e-158 Identity = 289/309 (93.53%), Postives = 293/309 (94.82%), Query Frame = 0
BLAST of CsGy7G000140.1 vs. NCBI nr
Match: XP_022975198.1 (isoflavone reductase-like protein [Cucurbita maxima]) HSP 1 Score: 503.4 bits (1295), Expect = 5.3e-139 Identity = 254/309 (82.20%), Postives = 275/309 (89.00%), Query Frame = 0
BLAST of CsGy7G000140.1 vs. NCBI nr
Match: XP_023511709.1 (isoflavone reductase homolog PCBER-like [Cucurbita pepo subsp. pepo]) HSP 1 Score: 502.7 bits (1293), Expect = 9.1e-139 Identity = 254/309 (82.20%), Postives = 275/309 (89.00%), Query Frame = 0
BLAST of CsGy7G000140.1 vs. NCBI nr
Match: XP_022135641.1 (isoflavone reductase-like protein [Momordica charantia]) HSP 1 Score: 497.3 bits (1279), Expect = 3.8e-137 Identity = 252/310 (81.29%), Postives = 278/310 (89.68%), Query Frame = 0
BLAST of CsGy7G000140.1 vs. TAIR10
Match: AT1G75280.1 (NmrA-like negative transcriptional regulator family protein) HSP 1 Score: 400.2 bits (1027), Expect = 1.2e-111 Identity = 196/307 (63.84%), Postives = 244/307 (79.48%), Query Frame = 0
BLAST of CsGy7G000140.1 vs. TAIR10
Match: AT4G39230.1 (NmrA-like negative transcriptional regulator family protein) HSP 1 Score: 387.1 bits (993), Expect = 1.0e-107 Identity = 189/309 (61.17%), Postives = 240/309 (77.67%), Query Frame = 0
BLAST of CsGy7G000140.1 vs. TAIR10
Match: AT1G75290.1 (NAD(P)-binding Rossmann-fold superfamily protein) HSP 1 Score: 382.1 bits (980), Expect = 3.2e-106 Identity = 186/307 (60.59%), Postives = 237/307 (77.20%), Query Frame = 0
BLAST of CsGy7G000140.1 vs. TAIR10
Match: AT1G75300.1 (NmrA-like negative transcriptional regulator family protein) HSP 1 Score: 366.3 bits (939), Expect = 1.8e-101 Identity = 190/321 (59.19%), Postives = 238/321 (74.14%), Query Frame = 0
BLAST of CsGy7G000140.1 vs. TAIR10
Match: AT1G19540.1 (NmrA-like negative transcriptional regulator family protein) HSP 1 Score: 335.1 bits (858), Expect = 4.5e-92 Identity = 173/309 (55.99%), Postives = 227/309 (73.46%), Query Frame = 0
BLAST of CsGy7G000140.1 vs. Swiss-Prot
Match: sp|B9HRL7|PCBER_POPTR (Isoflavone reductase homolog PCBER OS=Populus trichocarpa OX=3694 GN=PCBER PE=1 SV=1) HSP 1 Score: 429.1 bits (1102), Expect = 4.2e-119 Identity = 208/305 (68.20%), Postives = 253/305 (82.95%), Query Frame = 0
BLAST of CsGy7G000140.1 vs. Swiss-Prot
Match: sp|P52578|IFRH_SOLTU (Isoflavone reductase homolog OS=Solanum tuberosum OX=4113 PE=2 SV=1) HSP 1 Score: 417.5 bits (1072), Expect = 1.3e-115 Identity = 200/309 (64.72%), Postives = 250/309 (80.91%), Query Frame = 0
BLAST of CsGy7G000140.1 vs. Swiss-Prot
Match: sp|E1U332|ALL12_OLEEU (Isoflavone reductase-like protein OS=Olea europaea OX=4146 PE=1 SV=1) HSP 1 Score: 414.1 bits (1063), Expect = 1.4e-114 Identity = 200/309 (64.72%), Postives = 251/309 (81.23%), Query Frame = 0
BLAST of CsGy7G000140.1 vs. Swiss-Prot
Match: sp|B6VRE8|TP7_TOBAC (Isoflavone reductase homolog TP7 OS=Nicotiana tabacum OX=4097 GN=TP7 PE=1 SV=1) HSP 1 Score: 410.2 bits (1053), Expect = 2.0e-113 Identity = 199/309 (64.40%), Postives = 250/309 (80.91%), Query Frame = 0
BLAST of CsGy7G000140.1 vs. Swiss-Prot
Match: sp|P52577|IFRH_ARATH (Isoflavone reductase homolog P3 OS=Arabidopsis thaliana OX=3702 GN=At1g75280 PE=2 SV=1) HSP 1 Score: 400.2 bits (1027), Expect = 2.1e-110 Identity = 196/307 (63.84%), Postives = 244/307 (79.48%), Query Frame = 0
BLAST of CsGy7G000140.1 vs. TrEMBL
Match: tr|A0A1S3BJT1|A0A1S3BJT1_CUCME (isoflavone reductase-like protein OS=Cucumis melo OX=3656 GN=LOC103490365 PE=4 SV=1) HSP 1 Score: 565.8 bits (1457), Expect = 5.8e-158 Identity = 289/309 (93.53%), Postives = 293/309 (94.82%), Query Frame = 0
BLAST of CsGy7G000140.1 vs. TrEMBL
Match: tr|A0A1W5S651|A0A1W5S651_MALDO (Phenylpropene reductase 1 OS=Malus domestica OX=3750 GN=PhR1 PE=2 SV=1) HSP 1 Score: 440.3 bits (1131), Expect = 3.7e-120 Identity = 212/309 (68.61%), Postives = 259/309 (83.82%), Query Frame = 0
BLAST of CsGy7G000140.1 vs. TrEMBL
Match: tr|A0A2P5EKH4|A0A2P5EKH4_9ROSA (Hopanoid-associated sugar epimerase OS=Trema orientalis OX=63057 GN=TorRG33x02_182070 PE=4 SV=1) HSP 1 Score: 439.5 bits (1129), Expect = 6.2e-120 Identity = 216/308 (70.13%), Postives = 257/308 (83.44%), Query Frame = 0
BLAST of CsGy7G000140.1 vs. TrEMBL
Match: tr|Q3KN67|Q3KN67_VITVI (Isoflavone reductase-like protein 6 OS=Vitis vinifera OX=29760 GN=ifrl6 PE=2 SV=1) HSP 1 Score: 438.0 bits (1125), Expect = 1.8e-119 Identity = 208/309 (67.31%), Postives = 260/309 (84.14%), Query Frame = 0
BLAST of CsGy7G000140.1 vs. TrEMBL
Match: tr|A0A1W5S9D0|A0A1W5S9D0_MALDO (Phenylpropene reductase 2 OS=Malus domestica OX=3750 GN=PhR2 PE=2 SV=1) HSP 1 Score: 437.6 bits (1124), Expect = 2.4e-119 Identity = 211/309 (68.28%), Postives = 260/309 (84.14%), Query Frame = 0
The following BLAST results are available for this feature:
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 five_prime_UTR feature(s) are a part of this mRNA:
The following exon feature(s) are a part of this mRNA:
The following CDS feature(s) are a part of this mRNA:
The following three_prime_UTR feature(s) are a part of this mRNA:
Analysis Name: InterPro Annotations of cucumber Gy14 genome (v2)
Date Performed: 2018-09-25
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