Cucsat.G2018.T1 (mRNA) Cucumber (B10) v3
Overview
Sequences
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.AAATTTTTGACTTATACTAAAAGAACCCAAAGATTTTAACAACATATTGTAAACTGTTTAAGATCAAGATTGAAGGTTTTGGGTTATGTGAAAGATTGATTTATGTTTTTCCCATGACTGTCAAAAGGAATAGAAAGTACCCCCGAACCACATTTCTTCGTTTACCTGTTTACTCGATTTCTAGCACTGAAAGCTGTAGGGAGAAGCCTTTTCCTGCCGAAGCCAGAGACCGGAGGCCGGAGGCCGGAAGCCGGAAGCCCTAGCTTTCGATTTTAGCGTTTTCGTCTTCCCAGTAGCTTAATTATTGAATACGTACGTTGCTCCCTCCTCTCTTTCTATGTTTCTATCTGACTGTATTTGCCATTTCGTACCTGGGTTTTGAATCTTTTAATGTAAAGATACATATTTAGTTCAAATATCAGATCTTTAGCTATCAATTTGATTTCTAGGGTTTATTTATTTTTTTCGCTGCCCAATCTATGTTTTCTTATTCTGAAATTACAAAGAAAGTGGATTGAGTTGAATATAGTTGTTTTTGGGTTAGTAATTAAAAGCGAGGTAGGAGGTGCGCTGAGTAATGCGTGGAAATTATCATCGAGCTTGCTGGACACAAGGGGGCGTGTTCAGGTTCCTCGAGAGACGTGGACTTTTAGGCTCCTTCCTGCATTTTCGTACTGAAAGAGTTGCTTAGCTACATGTTTCATGAAAAAATGTTGGCTTGAGAAATTCTACTTGCCTTGAGAAGTTGGTAATGTTTGGTTTCTCATTTCGGCCTTCATTTTCTTGCCCAACAGAATGTTGGGTTGCATCAAGGATTTAAGCAACATTTGGTTTTCTAGCTACCCTCACATTTGGCCCATGTCTGCTATAGCATATGGCAGTAGCACGGTATACCCATCCTGGATCGACACACAGGCTTTGGACTTATTCAGCATGAAAGAATCTGCTCTCTTTCTTAGTTTCCTCTGTTCCAAGACTGTCAAATTACATAAATAGCCGAACTTTCTTTGAAACAAGGATAAACCAAAACACAAGGTCATACAAAAGCAAACCCACAAAAATAGAAATTTAGGCAAATTGCAAAATGGTCTCCAATCAAGTATAACATGGGACTAAGTTTTAATTGATCCTCTCATGCCAGACAAAGATACTTAGTTTCAAGGGTGTAAAGTCAACAAAGTCTCTAGAATCACGAAGGAAAATGGAAGCTCTACGGTGATTTTCATTTGCATACTGAAAAGTGGTATTGAGAAGAACACAATCATTCGGGTTTGATTGAAGATCATGGTGGGTGGATCGTCATGAAGATGTTGCCTCTAACCTATTGAGGTTGTAGCCCATTCGAGGCTATCAGTAACACTTTGGTGGTTTTGAGAATATTTCTTCTCGAACTCTCAGTACATTGGATTGCACTAAGGCTCATACACTAACACAAATCAAACAGAATTTGTAGTTCTCTTGCAACCACAAAAATCAATGATAAAAAAAGAGAGAATGCTTCCAAGCTTTGGTGATCCTCCAAATATCATCAACCATGTTATTTTCTATAAAGAAATTTCCATTTTTTTGGATTCTCATTGTTTAAACCAAGTCATGGGGGTCAAAGGAATTTTTAATGTGAATGATGATGCAATCAATCATTTAGCTATATTTATAGCTATAGCCTTATTTTCTCAGTGAAGATATAGGTATAGGTAATACTATGAATCTTGATTTAATTGAAAAAAATTGTTTAGGTCACTTGATCCCCTCTGTTTGACAAGTGGGTAATCTGAGCTTATCTACAAGAGCTCCATCAAAGCCTTCAATTCTCAATCCTTGCAGCCACAAGGATTTCTCTTCAAATGATCTTGTTTTGATTCATGACATCATCCATTCAACAGAAGATCTTACAGCTTCTCTTTCTCCCTCTCAAGTGTGATAACTTTGGTACCGACTTAGCAATGTGGAATCTCTTATGCAGCCCATGAATGATCACTTTGATGATATGGCGATTGAAGTATTCCTTTTTGACACTTTTTTATTTTAGAAGAATGGTAGGGAGATTCTTCCTCCTTCCTGACCAATGCCCGACAAATATGCATCTTTTATTGAAGCTCGTGGTCTTGAGTTAAGCAAAATCCCTCCTTCAATTTCACAAAAATTCGTTTTTCAAGGTTCCAAGGCTCTCATTTGGTCTTTTCATTTTTTTTTTGGAAGTTTGTGGAAATTTGATTGCAACTTATTTTTCCCCTTAATTGTTTTGTTACTTAGTTTGGGGATTATGTTTTCAAAGAATTTTAGGTGCCTTGGTTTCTCTTTTTTGGGCCTTGTGTGGACTTCAAAGGGATGTCTATTTTGGTTCAGCCGCATGTTATTTTTAGATTCTCGTGCTTTTACATTTGTGGAAATTACTTTTTCGAGGTTTTTTGGCCAACTAGTACTAGACTACTAGTATTGGTTCTAGTTGTCGGCTATTGTGGTTGTTTTTCAAGGTTTCTTCTCCATTAAGCTTTGACTTGATGGGATATGTTGGGTACTCCCACTTAGGTTTCTAAGTTTTGTGCGTATTTTTGAGTTGCATGAAAAGCCAAAAAAGTTGAAAAATCGCATAACTCAATTCAAATTGATATTGGTTTGGTTTTGGCTAGATGGGGTGGAATATATCATGAATGCATTGGAAACTTAAATGACAGTCCAAGCCCGCCCACTTTGTTCTTAAAGACCATTATAATCTATATATCTGGCAACCTAAAATCTAAAACAAAATAAATAAGACAACATAAAATGTAAAAGACAAAGTTAAGAAACCGAAGAATCAAATTTTAGAACCATCATGGATTGGCCTAGTTGTAAAAAAGGAGATATAGTCTCAATGCCTAACTAAGAGGTAAGGGATTCAATCCATGGTGGCAGGTACCTAGGAATTGATTTCCTACGAGTTTCCTTAATACCAAAATGTTGTAGGGTCAGACGGGTTGTCCTGTGAGATTAGTTTAGGTGCGCGTAAGCTGGCCTTGACATTTACGAATATATATATACACACGCATAGAAGAATCAAATTTTAGAATATCTTTTTCATCTCTTCAACTTCAAAAGCACACCTCTGTTTTTCTCTCTTTTCTTCTTCTTCTCTTTGTTTTTTCGATTTTCCAACTTTAACTTCCAACTTCATTTCATTTCCATTTCTATACTTCAACCCGCACTGACAATTTGCCACACCAACACCTTGCTTTTGACCATCTATTGCACCTCAGGCTTGCCATTGCTGATGGTTTGCCTTCTCTCTCTTTCTCCTTTGTTACCTCTCCAAATCTTCCAAAAATTTAACTTAGCATTTGGATTACAACAAATTAACTGAGCCATGGGCTGGGCACTAGCATCTTTTTTGTTGAATTAAATCCGTGGATAAATGTAATATGTATTTAGGCAATTTATGTTTTTTAGTGGATTATATTTAGTATCTTGAGGTATCTTGAACATATTCGTGTTTTAATTTTTTAGAAATTGCCGTACTTCCACCAAATCAGAATAAGTTCTACCTGGCTCTGATACCAATTTGTTAAGATACTTTTCAACAAGAACAAAATCTGAATTTATTAAAATGTAACTATAAGAAAATACAAGATAAACTTAAGTATAAGGCTGTAGGAATCCCTCTTGAGTACTGTCACCCAAACCCTAGATCACTCCATCGAATCCCTCCCTCTCACTTACCGATCCCTTCATTTATAACAAGATGTAACCACCCTAGTAACAACACTTACATAATAACTACTAGTAACCACACTTACATAATAGCTAATAGTAACTTCCTAAATATCTAATTATCCTTATACTCCTAACCCTATACTAATCTAGTTATCTAACAATATCCTATCCTATCGTTTATGTATCTCGTATCCGTATCTGTGCCTCATCGCTTGTCGTCTTAGAGTGCACCTTGTTGAAAACACTGGGTGGGTATGAGTTTGAACCTGAATGAGCGTGAGATATTTCTGCTTGTACTCATGGATGGACATGAGAGCTAAGCATGCCCATCACTAGTGTAACCCAAGCCTAACAACCAAGCGCCTAATATTTCATTGGGTTCTAGGCGTAAAAAATGCATGTGGAATTAAATGTGAATGAAAATGACCCGACTAAATTGAGAAAACTATTGGCTAATCAGTTTGGTAGGCTGGCTCGAGTTTCCTATTTTCTTTATATTTCTAGTGGTTCCTTTTGGGTTTGGCTCCCAAACCGAGCCGATATGAATCATTTACACCGCTAGTGTATTTAACAAAATAAGGAAGCCTCACATTGAGTTCTATATGGCATGTTATGAGAATGATTATGAATACAACTAGAAGATAGATGAAGCAATGACTTCCGGTTGAAATTTCAAGAACACCATTTCTATATAGCTAGTTTTGAATTCTGTTTGGTTAGTTTTCTCAAGTGTGTAGTCACTCGATCTTCTTTCTACCGAATGCTGGTTCTTTTGTCCCGTCGATACTACATATAAAAATCTTCTTTTCTCACATAGGTGACCTTTTTTTCCTCAATGTGTACCTTGTAGATGCTTGCAATGATATGGACACCAAGAGGCATGACAAGCACTTGAGATCGGAAACCGTTACTGCCACTGAAAATTCTGAAGTGAATAAATTGTCCTTTGTAGGAGAAACTGAAAATAGTGGCAATATTGAATTTTCCAGTCCGTCAGGTAAGCCATTGGAAAAAAAGGAGGAACAATCACATGGAGAGAGCACAAAATTCGAATCACAGAAGTGCCTGAAGGATAAGGGGACAGAAGATCAAGAACCTACTGTTGGTGATAAGGATGTAGAGGCTTTGAGAAATAAAGATTTTGGTGGCTCAAGTTATAACAAGGTTCCATTGTGCAATAGTGAAGTTATGGTTGCTACAGCTACCAATGGATCAAGTGACACCTTAGAGGATTCTGACATTGGATCAAAAAATCACTCGGCTGGACGGATTATTGGTACCAAGAATCCTGAGAGAGAAAGTGAGCAAATGGGCATGCAACTAGATAATGGAGAAAATCAAATGGCATCAAGGTACTGATGAGGGTGGTTCTAAAACTTCCTTTGTTACTTGTCAAAGTTCCATATTAACATTTCTGATAAAAAGAAAAGGCCACCATACAATCATCTTTTGCAGCTAATGCATAGTGGTTATTTTCTTACCTTGTCAAGTGTCAAGGATAGTTCTTGATTAGCTCTTCCTAACAATTAGAATTTCCAGATCAACTGCTTCAAAAAAGAGGTCAAGAAGTTTGACCCCCGTTGCTGATGTTAATGGTGAAGAAAAACATCCTGCTGCAGCTATCTGTGACTTCTATGCTAAAGGATGGTGCATAAAAGGTAGCTCTTGCAGCTTTTTGCATATAAAAAATAATGCATACGGTAGTGACCAGCATTCTGAGGAACGTGCTGGTGCTGCATGTTTGAAAAAACAAGCTCAGCTCAATGAAGGTGAGATCAAGTAGCTTATGCAGATTCCGATATTCCTTTTCTATCATCAAATTCTAATAGTACTTTCAAATGGCACAGGTTTGCAATACAATGCAGATGTGTTGAAATCACCAGTTATTCGTCATCCACCGAATTCTTCTCTTCTAAAGGACTCTTCACTTTCTTTGAAATTTGGAATTTCTTCAGAAAGAACTTTACCGAGGGACTTCTCCCAAAGCCAAGGATGGGATGGGTTGCATGAGAAAAACAAAATTTTATTGCATCAGAGGGAGGATTCACTTTTGAGTGCACTTCCCGACTGCCAGAAATTGCCTTCTACTAGTTTTGGTGCATCATTTCCCCTTAGTAGAGGGCTTTCTGCATCAAGGCTTGAGTTGCCTCCTGAGTTTGGAGTCTCTTCAGATGGCTTCACCCCATTGGGTGTCATGGAGGAACCCACTAATGTTGCATGCCCACGTTTGCTGAACGATCACCTTTCTCCAGTTCTGAGAACTTCTCTGAATTCAAATCCTACTCTTCCAAGGGATGCTATTTTATCTTCTCGTTTCACTACCTCTAATGCTTCTTTGTTTCCTCTTACGTCTTCCTCAAGTGCAAGCCTCCTCAATGCTCATAAGATGTCCATTATTGACAGAGAACATCATGTTTCTACACCGGCCTCCTCGTTGATGAGAAGTTCCCCCTTTTCTGCTTCTGGATCAGATAATTCATTCACTCACGTGTCAAAGAATCCTTCAGAATACAAAATGAAATGTTCGTCGGACGATTGGGAACCGTCTGTACCTTTTAGACCATCATTTTTCATTCCTTCAATAACTACGGCGAGCCAATACGACCCTTTCTTGGATAGCATGGAGGTACCGAGAATAGTGGGTTGTTCTTATAATGTTACTCTTGATCGTCAAGGACACGAAGAAGCATCACCTCTTAGTACTTTACAGAGGGCATCGGGTAATTTTGTGGTTCCTGGGAGCTCAAAGCCAGAATTTAATGATGATACAAGTTCTTTATCCTCCCACAATAAAGCTGCAGATAAGAATGGAAAGGTTGGCCATCTGCAAGGCAAAGATCCACTTTTGTTAGAACCAGAAATACGTGGATCTTTTGGTCTTGATGGCCGCTTTTCTAGGACTAGAGAGGATGATCACAAGGGTCTCACTTGTGAAAAAGATGTTACCAAAAAGAAGAAAATGGGTATCGGTGGTGAACTAAAGCTTCCAAATATTTCATTACATGAAAAGGACTCTGAAGCAGATAGTGATAGGCAACTTGGTGATATGGATGGTAAGCATCTCATGGAGGGAAATGCTCCCAAAGAATCAAAAGCAACTAGGCACTTCCGTTCTGCTCTCATAGAATTGGTGAAAGAAATATTGAAACCTAAGTGGCGTGAGGGTCATCTCAAAAAGGATGTGCATAACACAGTTGTTAAGAAAACATTTGATAAGGTTCTTGGTGCTCTACAATCTCACCAAGTTCCAACTACTGTGGAATCAGTTAAGCAGTATCTTTCTTCATCTCGTCCAAAGATCGAGAAGCTAGTCGAGGTAGGTATCTTTGTTAGAAAGATGAGTATACTCTGATGATGTTGATCTTGGGATCTTCATAGAATCTTTGTCTTACTGACAATGATCAACATTTATATGCAGGGATATGTTAGTAAATATGGAAAATCTTGAGATGGCAGGATAGCACATTTTTTCTTTGGGTAAGTTTTCTAAGGATTCTACAATTTAGAAGCCTTGAAGAGTTTGTCGAAGGTTGTTTTACAATCTTGATTATTGGAAACAACTTGAAACTAGTTGTGATGGTCGTTATTCAATGCATTGTGATATTTACCTTTCATAAACATCTGTTCTCCCCTCATTTTGTTCTGTTTAATTTTTCTTGCTAGTTCTATCAGAAAAGAACTATTTATCGCCATATAACCTGTATATCTGCTCTTGATTGTAAATAATAAGGCTCATCCTTCATTTATTCATGTGAATGATAGTAATGACATAAACCTAGAAATAAAAAAAATGCTAAATTTATAGTTAAATAACACTTTCAACTTGATTTATTCTTGCTTTCTGTCTCACTGATCATTCTGGTATTATTTTCATGTAGCAGTGGGGAATGGTGTAGTCATAGTTTAGATTTACGCATTTGTGCAATCTGAGCTTAACAACTATAGATCAAATTTGCAGTTTGGGCTTGTACTGGTGTCTTTTATTCTGATTGGTGCAACATTTTGTGAGCTTCTTCTGTTTTGGAAAAGCTAATACCATACATTCCCATGTCTGTATCTGTCTTTGCTGGTTAATGAATTCTCTTGTTTTCGGTTGAAAGATAAAAGACGAGTTTTTGTTATTAGCTGCAGTGCTTCTGAGCCAGTTTTTAGAAGGTAAGCAAAGTTTTCTTATATCATTAGTTGCCGTATCTAATTTCTGATATGTTGTTCTTATTGATGTATGGACTTGTTGAAATTTTGAGATACATTTATTCTAGAGAAATTTGGTAGGAACCAAAACACAATCAACTATATTGGAATGTAAATGACAAAAACTTAAATGCGAGGAACTGGGACCCTCCCCAAGCCCTAAGTCACCAAAAGTATTACCTTGCTTCTCTTTTTTCTCTCTCTTTTTAGGTATAACCAATTATGGTAACGACCTCTCTAACTAGTTACTAATATACTGTTAATATCCTAATATCACCCGAATTCCATTCCTGTGAAAACTAATTGTTGTGTTATTTATTTATTTCGAGTCCCTCAACTGTGCCTATCTTATTGTTAACTTTAATTTTTATAATAGAATCTTGATTTATTGTGAAACATACACACAGGCTTTAGACCTGTATACACATATTTTGAAGAAAAAAGAACGACTTTCATGGAAAGAATGCAGAGTCAGGGGGAGCCGATTCAAAAGGAGCAGGAAAAGAGTCACAAAAAGGGCTTAAGTTCAAACTAATAAAAGAAAAGATAATCACAAGTCCTTAGTCATGGATTACCAAAGGGACACCTTGAACGTGGCTAAAGCCCAAGTCTCCCCAACGACTGTCCTTATTACTAAAGACTCCTATTCTTCTCAAGCTAAAGGTTTCATATAGCTGCAAACAAGCCTGCCTGCCATAAAAATGCCCCTCTATCACTAGGGGGGAGGGGAGATGTAATAACATCTCCATCACCATCATTGCCATGTACAATCTGCTGGGAGCCATCTTAAGAAGACTCCAGGAATTTAATTCCAATATCATGGTTCAGACTTTTCGTAACCTCCAGTATCTGTCAAATTTTAGATAGAAGTGATACGTTCTTGCATTTAAGGTTTTCGATACTGAGACCAACTTTTCCACAAAGAAAGACTAAAATTTCTATTTCATCACATGATGAGGCTTACCAGCCAAACTTGACTCTTCACAGAGGAAGCCCATTACCATCTTCCAAGTTCACCATCCACACCTTCTTTTAAAAGAAAGGCATGGTTCCAGATATCTGGCTTACACTTTGAGGAGGCTTCTGGTCTAAATTTAAATCGTTCCAAATCTTAGATTTTGGGAATTTAACTCTACACTTGAGGGAATTGGACTGGTTGCAAGGTGGGCTACTGGCATGACATATATCTTGGCTTGCCTTGGGCGCGATCGTTATCATGTTGGATTTCTATTGATGACAAAGTTGACAGAAGATTACAGTCTTGGAATCATTCACACATTTCCAAGGGCAGTGGTTTTACCCTTCTACAAGGAACTTTATCAATCCTCCTCCACCTATTACTTATCCCTATATAAGATCCCACTCAAGGTCATTATTCTCATTGGAAAATCTTACAGAAACTTTTTTGTGGAAAGGGGGCACTTCATATTCTGGGATGCATCTTACTAGATGAGACAAAATTGTTAAGCCTCTTTCACATGGAAGCCATAGCATACAAGGCTTGGGTGACAAGAACCACCAGGCTCTCCTTACTAAGTGGATTTAGAGATATTATCAAGAAGAATAGGCATTATGGAGAGAATACAATTGAGAAACAACTTAGACCCTGGGATTCCAATTGGGAGGAAGTAAATCACTTGATACGTACCTAAAACTCTCAACCCCACTCTAATCTTTTCTAGGAATGTTCAGAAGACTGATGACCCGACAAAACCTCAGCCCAACCTAGCCCATTCTCTTCTTTAATGCAATTAATATAAGCTGCGGTTGACATCTATAGCTCAAGTTAGGTAATGGAAAAATGCCATTGGTGAATTCAAAAGCCATTCCTATCAACCACGAAACCTTCGTCAAAATCAGATTGAGAAGCTTGTTTGAGCAGTCAACAAATGCAATTTACCAAAAACCCAAATAAGTGGAAAGGATCACATTGATGAAGGGACGTTGCTTCTAATCCACATTTCTATCTAGAGTGAAAGCTCTTAGACTCCAGAACTGCTTAAGGAAATCCCAACAAAGCCTCTCATTAGATCTAGCTTAGATATCATTCCTTTCTTTTTTCTTGTCTTCCAATCTTGAGGAGCAATAATTTATCTCTGACCATTTAATTGCCAGAATGTATACTTTGGCTTTGACCAACAAAGGCAGCTGAGCAAAGAGATATTGTACCAGGCAAACAAGGCTTCACTCAGCCAGCCTTTACATTAGAAACTTAGCCTCAATCTTCTACCTGCAATTGGTATCCTCTAGTTTTGTTTTTTTGCTAGTGTTACTACTCTAGCAATTGCATATGTTTAGGAGATGAATATGATGGTAGAAAGTTTTTGTTTTTTCTTCAATCTGTGTGGTTTGGAAAGTACTGTGGAAATGGGGCAGTTTTTGCAGAAGTGCTGATCACAGTAAACACTGAAGAGTCTAAAGTTTATTGAAGGAATGTTTACCCAAGTTAGATTGATTGATCGATTGATTTGGTAGATGAATTCTAGTCCCCAACCTAAGTTAGTGAAATAATACACGGTATGAAGGTAGACCGGATTAGTGAAGCTTATCGAGGGATAATATATATCGGTTGTCACTTTACCTATTAGAAGTGGATGTCTTAGAAAATTTTTGTTCTTTTGGGATTTTAAGCTTGTAGTCTTCAAGTATCTTAAACATTATACGTTCCATTAGCTGTTCAACTATCTCCTTGAATTCTCCTATATCCCACTTTTCAGGATTGTTTTTGCATTAGGCTGAGATTTTTGCTATTTTGAATGGTGGTATATAGCGGACCTCAGTTGCTAGACCTTTCTTCCTTTGTTGGTACAATCTTTCCTTACTTGATTGGAGTTTAATTCATCTCTCTCTCTCTCTCTCTCTCTCTCTCTTAAAATTGTAAGGAAATGATGGCTATAAGGTCTTGTGACAATCCCGTCGGTGTCCTATATTTTTGTCTATACCCATGACATCTTTCATGGGAAGGAGAAACGACTGGAAATATTGCAAATTGCAAACCAAAAAAACAAAAAAAGGAACTTGAACGAAGATGCCAACTAGATTTCTTATAACTTCTCCAATTTATGTTATAATCAATGCAAATCATTATGTACCATTATTCACAGTATTGTTGGCCCTCTAGCCCTTCCATCGAAAAAGAATGGTATTAGATTTAGGTGACTGAACTTAAATAATTTAACTATTAGATTAGACATGTCATATATATTAGCTATCAACATTGCTCTTACTGGCAAAAATGCTGTAAGGATAAGGTAAAGAGAGCTTAGAGCATCGAATCAAGGAGTTAACTCATGCCTTTTGGGTTTGACTTTTGTCGCATGTTTCTCTTTTTGTTTGCTTTACGACATACCTCTTTGGCAGGGCACATCACAAAGGATTAGTTTGTTCCCAGTTCACAGTTCTATACACTGTGATTTGGTTTCTGTATAAACTTTATCTCCCAACCTTGTCTGCTTCAAGCTTAACTGATACAAGTGCTTCAAAGAATTCGAGGCAACTGTTTGTCAGTCATTAGTATGTAACTTAGTGTCGGTTCGAAATGAACAAAGTACTTAAAAAGGTCTAATACTCCTTTGTGTTATTTGTTTATTGCTTAGTTGAGATGCGATGGAAAACCTAAATGGTAGATTGATTCCATTATTCACATTTATTAACTACTTTGAAGTCTGATCTGACTACACCAAGTAAAAACTCACTCCCATAAATCATGGCGTGCTTTGTGAGCCTCAGTGTGACATATAATATAACCTAACATTTTTAAAAATATATTTTTTCAAGGCAAGAAGATAAAACCTTTCTATTCCTAACGTGGCATTTGCTTATTGGAGAGTGGATATGGCAATACATCCAGAGTTTTGTAATGGAGAAATAAACATCCATCTCCCTTAATTGGATTAATGGATTTGGATGATGAAATTCATCAACCGCATTATATTTTCCCTAAACCTTGAAAAAAAAAAAAGGAAAAATGATTAAATTAAGATTCCACCAAAGCGAAGTCCAGATTCTTGGAGTGGCATCTTATTCTGAAGATGGGATATTAAATTTCATTTACATCCATTTGACAAGTTGGAAACAAAATCTGAGCCGTTAATAAGTGAAGAACCAAGTGAAGATATCCACGTGTGAGCTCTCAATTTGAGTTGAATCATCTGACCTTTTGCACTCAGAAATGGGACAATATGTGTGTATATATATCTCTCTCTCTATTATTAAAGTAGGAGACAGTAATCCACATGTAAAGCAACCCATAACCTGCTCTGTATCTCTCAACAGATATTTTCCCTTTTGTCACCATGTTTACGTTTACTCACTCTTCATCCTTATCCATTTCATATATATTTTATATTTTCTCTTTTTATATTTCCATCCTATCATTCACCTTTTAATTTTACTGCACCAGTTCCTCATATTTTTTCTGTAACAAATTTCAAATTTTAAATGTTTCAACAGAAACTTTTAAAAGTACATTAACATAATCCATTTTTTGTATGTGTGATGATAGTTTATTTTTCTATTCATACCAATTTCTCCTAAAATTTCTTTTAAAAATATTATAATTAATTAACTCTTCCAAAAGAAATTTGTGAAAAAAATATATGTTATATCACTTTGACTTGAATGTTTATTGTGTGACAAAATAACTTGACTGTTTATTCAAGCATCTCTCTTCCCTTATCTATGATTTAGTCATGCAAGCAAACGATAAGATCAAACACTTTAATATAAGTAACTGATACGATTGACAAAATTTATAAAAAATTTATGGATAATTCTAAAAGTTCAAATATTAAACTTAGAATTTAGATATTTCAAATATTAACTTAAAAAATAAAATAAAATACACTGTAATTAAGTGATTTATTAAACATACTTCGCGTCGAAGTTTGAAAATAAAATAATTAAAGACTGTAGCCCACAATGCCAATATACTATGTGATCATGGCTCGATAGTAATAAGTACATTAAAAAGGAAAAAAAAAAAGAATTAACCAACTCAAGAAGCTAAGTTAACCTTGGTTAATTGACCCCCCCTTTCTTACCTGTTGTTTAGTTAAGAGTGGATTGAAAAAAACATAGGTGCATAAATATTGGTAAAAAAAGATATTGGGGCTAAGGTCTATTTATAAAAGCATACACAAGATCACTACAGAATTGGGGTTCTAAACGAAGGTTGGAACTTGGAAGTGAAAAAGTTGATAAGCAATGGTTCTGCTTGAGACACTTTGGGATGATGTTGCGGCTGGACCTCAGCCTACCCGTGGCCTCGGCAAGCTCAGAAAACTCAGTACTAAGCCTTTGGTCGTTAAGGGTAATTCATTCATAATCTTCTTTTCATTCTGATAGTTAGTTTTGTTGATCATTTTGATACAAATTCCTTGTTGGTTTTAGATTTGGAAGGAGATGGAAGCAAATACCAAAGATCCACGTCTATGCCAGCCAGTCCGGCAACACCCACCACTCCGGTCACACCTGTCACGCCGTTAACAGCGGCGCGTAAGGATAATGTTTGGAGAAGCGTCTTCAACCCTGGTAGAAACTTTGCTACCAAGACTATTGGTGCTCAAGTCTTCGACAAACCTCAACCCAATTCTCCAACTGTTTATGACTGGTACGTACATCAACTTTTCACTGGGGCGACTGTAATCCACGCGCCGCCGAGTGGAATATAATTATGGTGATGGTGAAGTAAAATTAGATTCTGGGGTATCTTGTCCTTAATATTCCCAACAGTTGGTGGATGATAAAAAAAACGATTCGAAGTTCTGATTCCCCCGAGTGAAATCCAAAGCCGTCAGATCTGTTGACTTGGTCATGGTTCTGACATCTGAGGGCTTGGATGAGTCCTCTATTTTTGTCGTATATCAAACTGACATGAAACTCTTTGTTTTGCGGTTTCAGGCTCTACAGCGGTGACACCAAGAGCCAGCACCGTTAAGCGGTGGCTACGACGGCGGTTGAATGTAAATAGTGTCGTGTGTGGTGACGTGAGCCGGTGGGTTCTGGATGTGTATGTGAGATACATCTTCTAACTAGGTTTCTTCGCATCCGAGTTGTCCCAAGCAAGTTTTTATAATTGTAGTGTTAAATTTGTGTGAGTCTATAGTTAAGTAGGGGTTAAGTGTGCTGACACAGCCAATGATGGGACGACTACTTCATATAGTCCGCCGTGCAGGGCGGTGATAAAATTGGCTCATGATTGCCGTTTAAATAAAGATGGTGTTTTTTCTGTCATTGAATAAGTTGATATTTTATGATGCTGATAGCGCATTAAATTGTGATAATATCCAATCTTGATTACATAGATGGCGTGTAATTGTATTGAAATGTTAGTAATGGAATGGACCCACCAAGCTTTAAAAACCTCTACGGTGGGGGCCTACTTATTTCCACCTTGGCCCCACAAATGTATTAAAAGTTTGGGAAAATCCAAAAGGAATAATAACAAACAACAATACAAGCGGTTTATGGATAAGGATAGAGTCGTAATCAATGAGCT ATGGACACCAAGAGGCATGACAAGCACTTGAGATCGGAAACCGTTACTGCCACTGAAAATTCTGAAGTGAATAAATTGTCCTTTGTAGGAGAAACTGAAAATAGTGGCAATATTGAATTTTCCAGTCCGTCAGGTAAGCCATTGGAAAAAAAGGAGGAACAATCACATGGAGAGAGCACAAAATTCGAATCACAGAAGTGCCTGAAGGATAAGGGGACAGAAGATCAAGAACCTACTGTTGGTGATAAGGATGTAGAGGCTTTGAGAAATAAAGATTTTGGTGGCTCAAGTTATAACAAGGTTCCATTGTGCAATAGTGAAGTTATGGTTGCTACAGCTACCAATGGATCAAGTGACACCTTAGAGGATTCTGACATTGGATCAAAAAATCACTCGGCTGGACGGATTATTGGTACCAAGAATCCTGAGAGAGAAAGTGAGCAAATGGGCATGCAACTAGATAATGGAGAAAATCAAATGGCATCAAGATCAACTGCTTCAAAAAAGAGGTCAAGAAGTTTGACCCCCGTTGCTGATGTTAATGGTGAAGAAAAACATCCTGCTGCAGCTATCTGTGACTTCTATGCTAAAGGATGGTGCATAAAAGGTAGCTCTTGCAGCTTTTTGCATATAAAAAATAATGCATACGGTAGTGACCAGCATTCTGAGGAACGTGCTGGTGCTGCATGTTTGAAAAAACAAGCTCAGCTCAATGAAGGTTTGCAATACAATGCAGATGTGTTGAAATCACCAGTTATTCGTCATCCACCGAATTCTTCTCTTCTAAAGGACTCTTCACTTTCTTTGAAATTTGGAATTTCTTCAGAAAGAACTTTACCGAGGGACTTCTCCCAAAGCCAAGGATGGGATGGGTTGCATGAGAAAAACAAAATTTTATTGCATCAGAGGGAGGATTCACTTTTGAGTGCACTTCCCGACTGCCAGAAATTGCCTTCTACTAGTTTTGGTGCATCATTTCCCCTTAGTAGAGGGCTTTCTGCATCAAGGCTTGAGTTGCCTCCTGAGTTTGGAGTCTCTTCAGATGGCTTCACCCCATTGGGTGTCATGGAGGAACCCACTAATGTTGCATGCCCACGTTTGCTGAACGATCACCTTTCTCCAGTTCTGAGAACTTCTCTGAATTCAAATCCTACTCTTCCAAGGGATGCTATTTTATCTTCTCGTTTCACTACCTCTAATGCTTCTTTGTTTCCTCTTACGTCTTCCTCAAGTGCAAGCCTCCTCAATGCTCATAAGATGTCCATTATTGACAGAGAACATCATGTTTCTACACCGGCCTCCTCGTTGATGAGAAGTTCCCCCTTTTCTGCTTCTGGATCAGATAATTCATTCACTCACGTGTCAAAGAATCCTTCAGAATACAAAATGAAATGTTCGTCGGACGATTGGGAACCGTCTGTACCTTTTAGACCATCATTTTTCATTCCTTCAATAACTACGGCGAGCCAATACGACCCTTTCTTGGATAGCATGGAGGTACCGAGAATAGTGGGTTGTTCTTATAATGTTACTCTTGATCGTCAAGGACACGAAGAAGCATCACCTCTTAGTACTTTACAGAGGGCATCGGGTAATTTTGTGGTTCCTGGGAGCTCAAAGCCAGAATTTAATGATGATACAAGTTCTTTATCCTCCCACAATAAAGCTGCAGATAAGAATGGAAAGGTTGGCCATCTGCAAGGCAAAGATCCACTTTTGTTAGAACCAGAAATACGTGGATCTTTTGGTCTTGATGGCCGCTTTTCTAGGACTAGAGAGGATGATCACAAGGGTCTCACTTGTGAAAAAGATGTTACCAAAAAGAAGAAAATGGGTATCGGTGGTGAACTAAAGCTTCCAAATATTTCATTACATGAAAAGGACTCTGAAGCAGATAGTGATAGGCAACTTGGTGATATGGATGGTAAGCATCTCATGGAGGGAAATGCTCCCAAAGAATCAAAAGCAACTAGGCACTTCCGTTCTGCTCTCATAGAATTGGTGAAAGAAATATTGAAACCTAAGTGGCGTGAGGGTCATCTCAAAAAGGATGTGCATAACACAGTTGTTAAGAAAACATTTGATAAGGTTCTTGGTGCTCTACAATCTCACCAAGTTCCAACTACTGTGGAATCAGTTAAGCAGTATCTTTCTTCATCTCGTCCAAAGATCGAGAAGCTAGTCGAGGGATATGTTAGTAAATATGGAAAATCTTGA MDTKRHDKHLRSETVTATENSEVNKLSFVGETENSGNIEFSSPSGKPLEKKEEQSHGESTKFESQKCLKDKGTEDQEPTVGDKDVEALRNKDFGGSSYNKVPLCNSEVMVATATNGSSDTLEDSDIGSKNHSAGRIIGTKNPERESEQMGMQLDNGENQMASRSTASKKRSRSLTPVADVNGEEKHPAAAICDFYAKGWCIKGSSCSFLHIKNNAYGSDQHSEERAGAACLKKQAQLNEGLQYNADVLKSPVIRHPPNSSLLKDSSLSLKFGISSERTLPRDFSQSQGWDGLHEKNKILLHQREDSLLSALPDCQKLPSTSFGASFPLSRGLSASRLELPPEFGVSSDGFTPLGVMEEPTNVACPRLLNDHLSPVLRTSLNSNPTLPRDAILSSRFTTSNASLFPLTSSSSASLLNAHKMSIIDREHHVSTPASSLMRSSPFSASGSDNSFTHVSKNPSEYKMKCSSDDWEPSVPFRPSFFIPSITTASQYDPFLDSMEVPRIVGCSYNVTLDRQGHEEASPLSTLQRASGNFVVPGSSKPEFNDDTSSLSSHNKAADKNGKVGHLQGKDPLLLEPEIRGSFGLDGRFSRTREDDHKGLTCEKDVTKKKKMGIGGELKLPNISLHEKDSEADSDRQLGDMDGKHLMEGNAPKESKATRHFRSALIELVKEILKPKWREGHLKKDVHNTVVKKTFDKVLGALQSHQVPTTVESVKQYLSSSRPKIEKLVEGYVSKYGKS Homology
BLAST of Cucsat.G2018.T1 vs. ExPASy Swiss-Prot
Match: Q84VG7 (Protein FRIGIDA-ESSENTIAL 1 OS=Arabidopsis thaliana OX=3702 GN=FES1 PE=1 SV=2) HSP 1 Score: 144.4 bits (363), Expect = 5.0e-33 Identity = 162/567 (28.57%), Postives = 242/567 (42.68%), Query Frame = 0
BLAST of Cucsat.G2018.T1 vs. ExPASy Swiss-Prot
Match: Q9LIH5 (Zinc finger CCCH domain-containing protein 38 OS=Arabidopsis thaliana OX=3702 GN=At3g18640 PE=2 SV=1) HSP 1 Score: 94.4 bits (233), Expect = 5.9e-18 Identity = 51/114 (44.74%), Postives = 71/114 (62.28%), Query Frame = 0
BLAST of Cucsat.G2018.T1 vs. ExPASy Swiss-Prot
Match: Q75K81 (Zinc finger CCCH domain-containing protein 36 OS=Oryza sativa subsp. japonica OX=39947 GN=Os05g0497500 PE=4 SV=1) HSP 1 Score: 94.0 bits (232), Expect = 7.7e-18 Identity = 159/654 (24.31%), Postives = 258/654 (39.45%), Query Frame = 0
BLAST of Cucsat.G2018.T1 vs. ExPASy Swiss-Prot
Match: Q6YYC0 (Zinc finger CCCH domain-containing protein 55 OS=Oryza sativa subsp. japonica OX=39947 GN=Os08g0135800 PE=2 SV=1) HSP 1 Score: 84.0 bits (206), Expect = 8.0e-15 Identity = 46/113 (40.71%), Postives = 69/113 (61.06%), Query Frame = 0
BLAST of Cucsat.G2018.T1 vs. ExPASy Swiss-Prot
Match: Q17RH7 (Putative protein TPRXL OS=Homo sapiens OX=9606 GN=TPRXL PE=5 SV=2) HSP 1 Score: 47.8 bits (112), Expect = 6.4e-04 Identity = 50/176 (28.41%), Postives = 77/176 (43.75%), Query Frame = 0
BLAST of Cucsat.G2018.T1 vs. NCBI nr
Match: XP_031742828.1 (protein FRIGIDA-ESSENTIAL 1 [Cucumis sativus]) HSP 1 Score: 1447 bits (3746), Expect = 0.0 Identity = 738/738 (100.00%), Postives = 738/738 (100.00%), Query Frame = 0
BLAST of Cucsat.G2018.T1 vs. NCBI nr
Match: KAE8647694.1 (hypothetical protein Csa_003675 [Cucumis sativus]) HSP 1 Score: 1320 bits (3417), Expect = 0.0 Identity = 687/738 (93.09%), Postives = 687/738 (93.09%), Query Frame = 0
BLAST of Cucsat.G2018.T1 vs. NCBI nr
Match: XP_008439823.1 (PREDICTED: protein FRIGIDA-ESSENTIAL 1 isoform X2 [Cucumis melo] >XP_008439825.1 PREDICTED: protein FRIGIDA-ESSENTIAL 1 isoform X2 [Cucumis melo] >XP_016899235.1 PREDICTED: protein FRIGIDA-ESSENTIAL 1 isoform X2 [Cucumis melo]) HSP 1 Score: 1316 bits (3407), Expect = 0.0 Identity = 680/739 (92.02%), Postives = 699/739 (94.59%), Query Frame = 0
BLAST of Cucsat.G2018.T1 vs. NCBI nr
Match: KAA0052672.1 (protein FRIGIDA-ESSENTIAL 1 isoform X2 [Cucumis melo var. makuwa] >TYK13152.1 protein FRIGIDA-ESSENTIAL 1 isoform X2 [Cucumis melo var. makuwa]) HSP 1 Score: 1315 bits (3402), Expect = 0.0 Identity = 679/739 (91.88%), Postives = 698/739 (94.45%), Query Frame = 0
BLAST of Cucsat.G2018.T1 vs. NCBI nr
Match: XP_008439820.1 (PREDICTED: protein FRIGIDA-ESSENTIAL 1 isoform X1 [Cucumis melo] >XP_008439821.1 PREDICTED: protein FRIGIDA-ESSENTIAL 1 isoform X1 [Cucumis melo] >XP_008439822.1 PREDICTED: protein FRIGIDA-ESSENTIAL 1 isoform X1 [Cucumis melo]) HSP 1 Score: 1299 bits (3361), Expect = 0.0 Identity = 671/730 (91.92%), Postives = 690/730 (94.52%), Query Frame = 0
BLAST of Cucsat.G2018.T1 vs. ExPASy TrEMBL
Match: A0A1S3AZM8 (protein FRIGIDA-ESSENTIAL 1 isoform X2 OS=Cucumis melo OX=3656 GN=LOC103484505 PE=4 SV=1) HSP 1 Score: 1316 bits (3407), Expect = 0.0 Identity = 680/739 (92.02%), Postives = 699/739 (94.59%), Query Frame = 0
BLAST of Cucsat.G2018.T1 vs. ExPASy TrEMBL
Match: A0A5D3CP70 (Protein FRIGIDA-ESSENTIAL 1 isoform X2 OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold255G007630 PE=4 SV=1) HSP 1 Score: 1315 bits (3402), Expect = 0.0 Identity = 679/739 (91.88%), Postives = 698/739 (94.45%), Query Frame = 0
BLAST of Cucsat.G2018.T1 vs. ExPASy TrEMBL
Match: A0A0A0KHP2 (C3H1-type domain-containing protein OS=Cucumis sativus OX=3659 GN=Csa_6G518020 PE=4 SV=1) HSP 1 Score: 1314 bits (3400), Expect = 0.0 Identity = 687/744 (92.34%), Postives = 687/744 (92.34%), Query Frame = 0
BLAST of Cucsat.G2018.T1 vs. ExPASy TrEMBL
Match: A0A1S3AZ88 (protein FRIGIDA-ESSENTIAL 1 isoform X1 OS=Cucumis melo OX=3656 GN=LOC103484505 PE=4 SV=1) HSP 1 Score: 1299 bits (3361), Expect = 0.0 Identity = 671/730 (91.92%), Postives = 690/730 (94.52%), Query Frame = 0
BLAST of Cucsat.G2018.T1 vs. ExPASy TrEMBL
Match: A0A6J1KPA5 (protein FRIGIDA-ESSENTIAL 1 isoform X2 OS=Cucurbita maxima OX=3661 GN=LOC111497467 PE=4 SV=1) HSP 1 Score: 1033 bits (2670), Expect = 0.0 Identity = 552/743 (74.29%), Postives = 605/743 (81.43%), Query Frame = 0
BLAST of Cucsat.G2018.T1 vs. TAIR 10
Match: AT2G33835.1 (Zinc finger C-x8-C-x5-C-x3-H type family protein ) HSP 1 Score: 144.4 bits (363), Expect = 3.5e-34 Identity = 162/567 (28.57%), Postives = 242/567 (42.68%), Query Frame = 0
BLAST of Cucsat.G2018.T1 vs. TAIR 10
Match: AT3G18640.1 (Zinc finger C-x8-C-x5-C-x3-H type family protein ) HSP 1 Score: 94.4 bits (233), Expect = 4.2e-19 Identity = 51/114 (44.74%), Postives = 71/114 (62.28%), Query Frame = 0
BLAST of Cucsat.G2018.T1 vs. TAIR 10
Match: AT3G26850.1 (histone-lysine N-methyltransferases ) HSP 1 Score: 80.5 bits (197), Expect = 6.3e-15 Identity = 71/258 (27.52%), Postives = 123/258 (47.67%), Query Frame = 0
BLAST of Cucsat.G2018.T1 vs. TAIR 10
Match: AT3G26850.2 (histone-lysine N-methyltransferases ) HSP 1 Score: 80.5 bits (197), Expect = 6.3e-15 Identity = 71/258 (27.52%), Postives = 123/258 (47.67%), Query Frame = 0
BLAST of Cucsat.G2018.T1 vs. TAIR 10
Match: AT2G02160.1 (CCCH-type zinc finger family protein ) HSP 1 Score: 48.5 bits (114), Expect = 2.6e-05 Identity = 37/112 (33.04%), Postives = 52/112 (46.43%), 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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