CsGy2G007730.2 (mRNA) Cucumber (Gy14) v2.1
Overview
Sequences
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.AAAACACTGCCTACGCTTCTGTAGGTTCCTTCTCTTCTTGCATGCCCTCTTTCACTCTCTGTTTTTTTCCCTTTTCTTTTTGCTCCGTTTTTTCATTTTTGTGCCTTTCCCCCTTGTTTGGATGCTGAGGATAATGTTTCAAGTCTTGGCAAGAGCCTACAGAGTGTGCATTGTTCTTCTGTCTTTTTCTTTCTCATTTTCCTTCAATGACTAATCGTCTTTCTCTCTTTGGATTCTTCTTTTTCGTTTCATCAGCCGTTTTGAGTCAATCTTGGTGGAATCTAGGGTCAAGATTTATAAAGTCACTGAAGTTTTTTTCTTTTCTGATTCTATGTATTTCGATTGTCTTTTAGTTGAGATGATGATGATGAATCAGAAGTAAATGTGAAGAAATTATGATCTTGATTCAGTTGTTTGTTTTGAGTTATGCACTTATCATTCTACCTCTTTTTAGTTCTGTTTACGTTTACTAAATGTACGGATCATTTCTTCTTTTGCTTGCGTTACCATTTCTACTAAAGTTATTTTATTGAGGCTTCTTGACTGGCTATATTGGTCTTGGTTCATGAGTTATTTTCTGTTAAATCCACATATAGCTGAATGTGCCTCGTTCCTCTGACTTCATATATGAAATTGGTATAATGTAGTTTTCGAGCTTAGTGTTTATGTTGTTTTTGCACATGCATTGCACTTCTATGTTATAAATTAGTCTCTTTTTCATCTATTCAATGAAAAAATTTGTTTCCTTTTCAAAAATTGTTATAATGTAGCGCAACCTTGTCATTTTTGGATAAAATTTATGAACAGGGAAAGGGAAAGACCTTTGGCAATGTCTTCAAAAAAGAAAATTTCCATGGCTTTTAGTGCAACGAGATCCTTAGGAATCCCTGATGACCAAATTAAACCAATCTTGAGGGATCTTCTAAAGATGTATGATGGGAATTGGAAACTCATTGAAGAAGACAATTATCGCACTCTTCTAGATGCTTATTTTGAGCACAAGGAAAACGAGGTACCTATTTCGTGCTTTTTCTTTGTTGTAAAAATGTATACTTAGTAATTCTTTTTACTTAGTTAACTTGTATGTTAGTTATCATTTACTTTTCTTCATTCGGCTTTTTTTTTGTTGGGCTGTATTTCTCACAGACTAATTTCGAGGGGCTATTGAAATGTTGCAGTTACTTTCATTTGATACAGACATACAGTGATAAAATCTAACCGTTACTTCATTTTCTTTGTTTTTTGTTTCTAGAGAAACAGAACTTTCGTTATCTAGTACAAATACAATGACCATACAAAAAATGGGACCAGCGATCCATACAAAACCCATGACAGTTCTATATTTTTTCTTTTTCTTTTTCGGCAGGAAACAAATTTTTCATTGAATTTTTTATTAATTCATTAGCACTTTCATTGCTGCATCCTGTTGATTGATGTCACAAAAGGTCTCATTTTATGCATATAGACATGATCTTTTCTCTATATCCGTTTACCAATCAACAGAATTAAGCCTCTTCTCACCAAATTATGCCCCTCATCATATCCTTAAACTAGTGCCGATACCGCCAAATCACCAAATCTAAGCATAGAGTTCAATTTTGACTAGTATAGTATACTTGGTTCATTAGTTTTACTAGCTCCCCTTACTTGAGAGCATTATGGATAGCAGCCAGGGAAAGAAATAGGCGGATGGAAGTTAATTTGGCAACTGGAAAAAATGTATTGAATACTTAGTTCCATAGATTTGAGCATAACCTTTGGCAACAAGGCGAGCTTTCAATTTAGCCACTCTTCCATCAGGATTCACTGTGACAGCAAACACCCATTTACAACCAATGACCTTTTTGCAGGAGGAGATACCAAATCGCAAGTATCATTATCATCTAAAGCAGTCATCTCTTTAATCATGCATTTCACCAGCCAGGATGAGATAAAGCTTCATGAACAATGTTAGGAATAGATGTGGATTCAAGAGACATAATAAAAGTATATGTGGGGGGAGACAATTGGTGATAGGAAACAAAGGAAGAAACAGGGTAAGTATACTTGCGTTTACCTTCGTGAAGAGCAATGGGAAGATTATCACTTGGCCCCTGATCGCATGATGAAGGAGGCATTGATGGAGGACATGAGTCTAAAGGTTGTGGTGGAGGTCTTTGGAAGTAGACTCGAGAAATCAACGGACGGGAAGAAGGCTCATCAGTGGAAGAGGATGTTGTGGGAGAGGTAACCATATATAAAAAGATTGTCATCCTCCCCTTTTAAACATGCGAATAACCAAAGAAGATACACTTCAAGGATTTGGAATCTAACTTAGTATGATGAGGAAGGACGTCAAAAACAAAACATACACAACCAAATATCTTAGGAGCAATATGAAACAAAGACTTGGTAGAAAAAAGAACACGATAAAGAATCTCACCATTAAGAATGGAGGAAGGCATTCTATTAATCAAAAAACATGTTGTGGAATAAGCATCCACCCAAAAAGTTTTCTGAACATGCATTTGAAACGATAAAGCACGGACATTTTCAAGTAAATGCCTATTTTTCCGTTATGCAACACCATTTTGAGATGGAGTGTCAGCACATGAAGACTGATTAATAATGTCATGTTCGCACAAGTAATAGCTATGAGTATGAGAAAAATATTCACTCACATTATCAGTGCGTAAAGTTTTGAGAGAGACATTAAACTGATTTTTTATTTCAGTATGAAAGGCACAAAAGTGAGATAATAACTCATAACTATTTTGCAAGTTAGACGAGAATGATCGTCAACAAAAGTTACAAAATAACAAAAGTCTGTTTGAGATACAACACAGACCAGAGACCCCAAAGGCACTTGTTCATTGATTGATTCGAGGATCAAACTTAGACTGAAATTGGTTCTACTTTCAGTGCCTCCATAATACTAATATGCTCCTACAATTCTTCATCAACTGTAGTTTTAATCACAGAAGTGGTCTTGCCTGCCTTGATATTCCATTTCTTCAAATTAGCAACATTCTTAGGTGCATTATTCAATGCCTCTCACAACATCTCACAAGTCTTGGCCTTGGAGATACAACTTCATCCACGTGGACCATGTTTTGTAGTTCTAAATGTTGAGCTTCTAGATTCCTCCAACAACTTGAAGATTGTATAGTGATGAATGCACTCCATGAGTAGTTGTGTCTCATACAACAGCTTCACTGTCCCAAACTGTATTCAATCTTCAAAAGCTCCATCATTAGAAGCTAAGCTAGCTTGGCTTTGATATCACTTGTCGAAGAAATTGGCACAAATGGAGAAGGGAGACAATTAGTTAGAAGAAAGAAACTTCAATTATGAATGTAAAAATGGATCCTTTTGAGATAATACTTTTTCACACTCTCGAAACTCACCCACTCACTTTTTACTCTAACTTTGTCTAACGCTCTTTCTTTTCTTCTTCCTTCATTTCTTTGCTTGGCTTACAAATGGGGATACAACTCCAACTTATAGTTGTGAGGTCTTTGAGCTTAAGCTAGAGGATTTTCTTGACTTTCCTTTGAATCAGATATTTCTACACATAATCCCTATCTAAAGGAGAATTCCTTAGAGCCTAAAGGAAACTATTTTCTTTGAGATATTTATTTACATTCTTTTGGATAAATCTGGAGGTATCTTATATCTATACTTAAGTTATTACTGTTGCTTCTCACCCTTAGTAAACAGTTAATATAAAGGTTCAAGATCTTTTAGATACTAGTAAATTTGGAACTTAGTGGACAGCTTAAAGTTTCACACCAATTTACAGAAACTTGAAATTTCAATAACGAAACTTGTACATTGAACTATATTATGTCATTGTCAATGGGTGCATGGCTTCCAATTTGTTGGCCAGCAATAATGCATATTAGATTTCATTAAAAACTTGTTAACATCAATATCAGTTCTTATTCTCCTCTTTCTTGTCGCTGTTATCCCTTTAATAATGTAAGAAAATAATTTGTATTAACCTGATGTAAATAGGGACTAGAGGGAAACAGAAGCTGTCCTGTGGAAGACAAGGAGTCTCTGATACCACTGAAGAGACCACGCGATGGAGAACAACAGAATCGAGCTTCGTTTATCATTGGTAGCTCAGGCCATAAATTAGTTGCTAGAAAGGATAAAATTTCTGAAGTACATGCTGGGCATAAAACTACAATCTCATCTAATGACTCTGAACAAGGATTAGTCATTAGGTCCAGCGAAAGGATGCCATCAGTGAAACCCGTTTCGGTATTTTATCCAGGTAAATTTGCTTAAGGAGATTTGACTATTGAAAATGTCAATATATTTGTTTAAAGAACGCCATGTACATAGTAGGTATATTCGTATTGGTGATCTATTTTTTATTTGAACAAGAAGTTAAACCTTTTCATTGAATAAATGAATAGAGCCTATTGCTGAAAATATTAGCTATGCACTTTATCACATAAATGGTAAACCAATGATATACTTTATATTAGATATATCATTGATACAAAAATGGTATGGCAATATACCAGGGGAAGTTTTCATATTTGCAAATTAACTTTTTCATGTGACATTTACAAATGTTGCCTTGGAAGAAGATATTGAGTCAAAAGCTGATGTATACGAAACGTATTGCCCATAATATTAGATATATCACATAAATGCTTGTACATGTAATTTTACCTTAAACCTGTGGTGATTAAACGCTCTTTTTCCGGTAATGCCAATTGCATAGCTTTTTGACAATCTCAATTTATGTTCATTTCTTTTGTTAAGAATATATTTTGTTTTAAAACAATGTTTCATAAGGAGCTTAATCCATCTGTTTGTTAGATAGGAACTTGAACCCAGTTATGCTATCGGATACTTCTTCGCATTCAGAGAAGGAAAACTTGCTAAACTCGTTATTCTTAATTGCTTGTTACTTGTAACCAATTATTATAAAAGTTGAAATTTCTTTTATAGCTTTTGTTAATTTATGTGGCAACCTTCATTTTTGCTGAATCAGATAAGATTGCATTAACAAATGCTAACACTGTAAGCAATTCATATCAGAAAGGCTCAAGTTCTTCTCAGTGTGTGAGGCCATCGAGTACTGCACTTTTTCAAGATCAAAGTACTGGTTATAGTAGAAAGCGTAAAATTTCCTCTGAGCATGTGAGGTTAATTGCTTGTGATCAGCATAACAGACAAAATACAAATAATTCTTTGCATCACATGCATGACTTGACAAAGGGTGCAGAGAAAGTCAAAATATCTTGGGTTAATGAATTAGGAAATGACTCTATCCCTAAGTTCAATTATATACCAAACAATATAATTTTTCAAAATGCCAGTGTCAACGTTTCACTGGCTCGGATTTCAGAGGATGATTGCTGTTCAAGTTGCTCAGGCAATTGCCTTTTATCATCTTATCCATGTGCTTGTGCTCGTGAAACTGGTGGGGAATTTGCTTATACACGAGAAGGCCTGCTGAAAGAAGAATTTCTAAATCACTGTATGTCTATGGGATGCGAACCTAAGAAGGAGCATCTCTTCTTTTGTGAAGACTGCCCAATTGAAAGGTTAAAGAATGACTACAAGCCTGATCGATGCAAGGGTCATTTACTTAGGAAGTTTATCAAAGAATGCTGGAGAAAATGTGGATGTGATATGCAGTGTGGTAATCGAGTTGTACAAAGAGGTATTTCTTGCAAACTGCAGGTTAGATTTTTTTTATATCTTCGTAAAATGTTGCTGTTTCTGAAATTTGCCTGTCTCCATCTTGTACAAGTTACTGAGTCATTGGATATTATTTAACCTGCCAATAATCAATCGCATTTAATTAAATGCATCCATAGAAAATCCAAAAGAATATCTGTACCGGAAATCAAGTCTTAATTTTGTAAGAATAGTAGCATTCTGTCTTATTCAAGTATGAGCAACATAGGCCTTTTTATATAGTGAAAATGAGTGCGGTTAAGTCCGTTGATTGACCGACTGCAAGTGTAGTCAATAAGTTGATTCTATCAAACCTTTCAAAATCTAGTGAGCACAACACATACAATACAACACAAACACGAAGTCACATCAATTTCCAATAGAATACGTTAGTTATGTGTGTGTATTAGTGTATATGTTTGCGCGTGCCTGTGCTTGCAATTATTTTGACATAATGTGAATTTTTTATACTCTTATTGTAATTCTTCTACCTTTAAAATACTAAAAGAACTTCCTTATAATTCATTAAAAAGATAAGAGAAGAGATGAGAATTTGAGAAAAAAAATGAGCCTAAAAATTGAAAGGTTGAAAAACAATTGAAAACGACTATCAGAATCACTGGTTGATATACCTCATGGAGCTGAGCAATTGTGATGCTAAAGCTGGATGGATTTTCTGAAAAATCCTAATGTTTGAAGAGGCCAGATTGGGTGTTAGGCTTGGAGCATAGGGCTCTCACTTACACTATTAAAAGTAGTCTTTTTTTCCTTTCTCATGTGCCCCTGTATGCAATAAGCTTATATATTTATATTGAAAGCAATAAACACGAAAACAAGGCTTACGTGGAAACCACGATATTGTTGTTATTTTTATTTTCTAATGATTTACAAAAGGTACAATAAAGGAGAATAAATAGAAACCCACTGAGGTAAGAAAGGAAAAGATTTAGGGATTAGGGTAAATCTTTCCTTAGCACTCTATGGGCCAAGCCCACTAACTCTAACACCCCTATCCAGTCTTTCTTTCGATGAAAACCTCAACAGTTTAGTTTTATCATGTCGAACTAGGTTGTTAACAATGTTAATAGCAGCTTTGTTATCACAAAAAAGCTTCATTAGTTTAGGGTTTAGATGTCTTTTTAGATCTGGTCACCTCCACTCCAAGGAAATATTTCAGATTTTCTAAATCTTTGATTTCAAATTCATCACCCATTCTCTGCTTTAGTTAAAGAATTTCTGATTGATCATCTCTAAACAAAACAATATCATTTTGAAACCTTATATTATCAGAACTGCAATATTTTCAGATTGTAAATATAGTATGATAAGAGTGCCCATGACCGTACTCCTAAGACTTGCCCATGACTGTACTCCTAAGACTTGACAAAGGTTGTGAACTTGTCAAACCACACACTAGGTGATTATTTCGGATAGTATAAGGATTTCTGGAGTTTACAAATCTGATGACCAAATTGGGCTTCAAATCCAGGCGGGGGCTTATTTAGACTTTCTTCACTAGGTCTCCATTCAGAAAGACATTTTTAACATCTACGTGGTATAGAGACCAATCTTTGTTTACAACAATAGATAGTAGGACTCTAACTATTCCATAATGGAAAATTTTTCTAAATAATCAACACCATAGGTCTGAGTAAGACCCTTTACTCAACACCTTGCCTTGTGCCCATCAAGTGTTTCATCTGCTTTGTATCTGAGAATAAACATTCATTTACATCTCTTAGTTTTGTATCTCTTGGGTAGAGTACAAATTTCCCACGTTTTATTCTTTTCCAGAGCCTTCATCTCTTCCATGACAACATTCTTCCATTTAGAACACTCAAAAGCAACATAGATATTTTTCGGTATTATGGTAGAATCAAGACTAGCTATAAAAGCTTCGAATTGTGGAGAGAGATAATCATTGGAAACATAGCTATAAAAGCTTTGACTTGGTACCTTTTCTCAATGCAATAGGAAAGTCATGTCCAGGGTACTCTGTTTGCAATCATTGACTTGTTTTCTTAGTGTATACAGTTGAAATGCATTCTGACGCTTCGAGTACAAGGTCTGAGTTGTATTCCATAATGGGTGCATACAGTAGAGGCTTGTCGATCTGTGGTTACATACTATTAATTAACATGGACCGAATGAGTGAATCCTCCCCTTTCCAGAGTCATTCCAAGGCGTCGCTCGATGGAGGACAAACAATTTCTCTTGTAAAAAACCTGAACTGGTGGCAACCATTGAGCAACATGTTTATTGATTGGGACCACGAAAAGTAATTTTGCCCATTTAATTCAAAGGCAAATTAAGGAACGAAGTTACCGGGTTCTTGAAATACATCGACAACTTGGTTGGTTTGGGATACATCGAACACTTGCCTGCTTCAACCCTCGACTTGTTATGGATACCATCAGTCCCTTTACCATAGAGAAAGGGTTCTTGTAAAGGGTTGACATATGTCACAATCGTAGTCTTTCAAACTCGAGACAGACGATTGTGGGGCACTTGTTCAAACTCGATGACCAAGTTAGCCGATCAAAATCCAAAAGTCTCGAACAAACTCGACGTATGATTTAACCTTCCTTCGCGTCCTTGAGAAAATTGTTTATACAATGCGAGAAAGAAAGAAATACATTGAAATCGACGTTACAATATGCAATGAAGATTGTCAGTTGTAAGGGAAAAAGTTTGCTTGCAAAGAGTGCAACAATGCTTGGGCGGAGATTCAACTACTATGTCTCCCTTATAGTACATTTTGAACATTTTCAGCTTTAGTAGACTTGCATATAAAAATGTCGAAATGACACAACCAAACTTTATGACTTAAAAAGGAAAGCAACTAGCTAATCTAAATACAAGACATAAAGATAAGATAATTCGGCCATAGGCAAACAACGCCCTGGACAAGTATGACCGTGACAACAGATAGTTGTGTGTGAAAAGACAAATCTGAGAGATTTTGTGGTGGCTGTCCATAACCGGAGGGCATGGGAGGTGCGTGGGGTTGCGGCTGATTGGAAGGTATGACCGTTGGACAGCAGACAGCGCTTAAAAGAGATTGGGTTGGGTGGTGAGATGAATGGACGGCACCACGTGGGGCCATGAGCGAGAGTGGTCCCAGTGTGACCGCCAGCGGCTTCTGAAGTTGCTGAAGCAATTTTTCCATGGCGCGATGTCCACGACGGCAGCCGTGGCTTCTAGTTTGGTTTGGGTTTCTGCTAAACTGTTTTCTAAGGTTTTGTTATTGCTTGTCTCTGGTACCATTTTAAAAGCAATAAACATAAAAACAAGGCTTACATGGAAACTTGAGTACTGTAAGGAAAACCACGATATTGTTGTTCTTATTATTTTCCGATGATTTACAATAGGTACAATAAAAAAGAATAAATAGAAAATATAATGAGGTAAAAAAGGAAAAGATTTAGGGATTAGGGTTAATCTTTCCTTAAACACTCTATGGGCCAAAGTCACTAATTCTAACCATTTATATGCACGCAAAATAGTGCATCAGACAAGTATTTGGACCATGTTACAAATGTCTTTACTTTATAGTCCAAGATCAATGTTCTTCGATCACCCAAAATTGAATGCTTTGGCTTTTAGAGTTGGTTTGGTCCAAAACCGAAAATGATTGACCAACACACAAGCCTAATGATGACTTATATTGATGACTATTATTTATTAATAAATATATACAAATATTAGGCAAACCATTGCTCCTCCTCAGTTGGTTTAAATATCTTCTTTAGGCATGTTGCCAATTAATTGGTCAAATTGTTTACTGGGTGATCTCTTTGTACATCAAACTTTTTTTGTTGTGGTAAGCTATGGGAATACATATTACATCGCATCAAGGTTTTCACTAAAATGCTTGTCAACCAAAATATGTTTTGTTCTATTATGTAGAACTAGATTATGAGCAATAGAGGTGGTGTTATTGTCACAATAAGTTCAAGTAGGAGTTGTTTGAGAAAACCACAATTCATCTATTATCCTTTTGATCTATATACCCTACAAAATTCTATAGGCTACACTAAATATTATGCTTCATCACTGCTCAGGGTGACTATAATTCGATGACAAGTTTTTCACCCTCAACTTATGCAGCTTACGGATGGTCACCTTAGTGAAAAAATGATAACTCATGCAAGGGCATTTGACAGTTGACCTCACACATGAGTATAAGTAAGATAAGAAGAAGAGAACACAACTCTTGGTGGCAGTATCGTCTAAGTTACCTATATCGATAATGTAACACACCAAACTCAGCTTGTAATGCTTACACGAGGGAAATACAAAGTGTCTTACAAGGATTTTCCACCACAAAGATTTTGCTTTGGACAACCCCATAGGTCCTCCTTTTATAGGCATGGATGAGGTTTGTTAGGACACAATTGTGGGGCCAGTGGGCTAGTGGCGATGGCTAACCACACCCACTTCCATTCCATCCAGAAGCCCATTCTCCATGATTGAGTAACTACCCTAATATTAGGCACTATCCGACGACCATGTGGCCCAGTCACGAGTAACTACCCACATTTCAGGCATTACTCCACTCTCTCACTATTTTCCGGCAACCGCCCATGATACTAACGACCCATTTTTAAGATAACTTCCTACGATCTTTGAGAAATTGCCCATGATCATGAATAACCAACCACTTCACATCAATTTCACTAGCCACATACCAATTTAGTTGCACGCCTTTAGAACATTCGCTCAAGTGTCCTAGCCAACATTTGTTTAACAAGCACACTTGATGATAATCTTCTACCTCCTAGTGTCCAATTTCACTTGCCATGTGGCATGCTCTCGAGTAACGCAGTTCCCGAATTTATTGAGTAACACTTTCACTCACCTTGGACCAAATATTACACTCTTTCCCGAGTGGCTTGCTTGATCACTTGTGCCCGATCCACAAGGTTGCAGCTATCGCGCACATGTGCATGCTGCCTGGTGTGTGCCTATAATGCTTATGTGTCTATTCGACATTGAGTGCACCCAATGTCTTGGCCATGCTTGTCCGAGGTGTGTGTGCCTATGGCTGCTTGTCCAAACCATCCACAACCACCTTATATTTGGGTATTGTAAATAGCTGAGCAAGTTGTTTTTGTTCTTATGCTGTTTTTCCTTTAAGTGGCATTTCACCACTTTTGACTATTTGATATGCAAGATTGCCATAGTAGAAAATGTTCAATGGGGGAACCCAGTAGTCAAGCCCGAGACTAAATATTGTTGTACTAGCTTTTCTTCTACAATTGTGTTTTTTCAATGCTTTCTTTAATGAGTTTTCAATGTTTTCTTTTTTTGAAAATGAGACAAGCTTCTTTATTATTAATAAACTCAAAGTACAAGAGAGCTATACAATGAGAATAGTAGGGAAGCCAAGAACTGGGGGAGAGAGAGAGGATCAGAAGGTGCACCCAGACAACTCAACTAGGTTGACACCCCCATATCACCCACATCATATCCAAAATACAAAGAACAAGAACAATACTAAGGTCATGAAAAGACCAAAGTAACAACCTAAATAACAATAGAAGCTACCTACGGTAGACAAAATCAAGGCTGAAAAGTAAAAACATACCTACAGAAATACATATTAAAATAATGGAGGTTTTAATATTGAAGCACTAATTCTGAACGGGAAATCGGGGAAAACTATATTGAAACTCATTAGATGAAGGCGGTCCAGTGGAGGCAGATGTCCTGTATAGATAAATCTTTGAATTCTGCATTTGAAGAAAACCAAACCACTGCGTTTCTTTTAGAAATCTCTACGATGTCAATCCAATCCCTTTTTTTATCATGGAAGATGCGTTGCGTTAGTTATGTTCAAACCAAATCTCAGCTAGAAGCGCTTTTATCAAATTAACCCAAATTAGAAAATGATAAATAAGGCCCCCTCAATAATTGGAGCACATTGGCGTTAAATGAACCATCAAAGACCCAAACTGATTTGAGCATAGAAAATATGCTAAACCAACAATTAGGTGAGAAGGGACAGAAAATGAAGAAATGTATTAAGAGATCACTGTTTTCCAAGCAAAGGGGGCACAATGAAGGCAGTAAACAGGTATTGGGAAGCTTCCTTTGTATAGTTTTGGAACAGTTTAGAGAACCCACTGCCATAATCCAAACCAAGATATTTATTCTCCTTGGACTGTTGGTTTTCCTAAGTGCTTTAAAGTAATCTTTTTCCAAAGGTGAAGAGGGAGAAAGGTGCTTTGAAAGGGACTTAACTGAAAAATGGCCATCACTTATGTAGAAAGATGATTCTAATGACCAAACTCTTCTAGCATTCAGACCAACACTTTCCGCAAGCCCATCACTCTCTTTCTGCTTTACATCAATCAAGAGTAGCATGCCAATTTTTTACAGCAAGTTTCACTTTACGAAGCTGCTCATGAAGGATGAAACCAGCCCACCCGCTGCGTGGGGGGCGCTTTTCAAGACTTCCACAATGTCCTTGTTGCACTCTTTTATCAACAACCAACTGTTGCAAAATCTGAATGGGGATGACCCATAATATTGCACCTGCCTCTAATAATAAAGGAAAGTGATCGGAGAAGATTTTTGCTATACAGGTCACTCTTGAGTTTTCCAAATTCATCATCCCATATACTGTTAATAAAAAATCTGTCCAACAAAGATCTTGCAGCAGTGCCACCCTCTCTTGACCAAGTAAATTTGCTATTTTGAAGGGGAATTTCCATTAGATTGGCAGAATCTATAAAGATATTAAACTGTCTCAACCCTCTTGTGCTTCTGCCATCTGGGAACCTCACAAACCCATCTAGTGATGTTAAAATCTCCTCCCAAACACCAAGCCTCTTCTCCGCATTCTGTAATAGTTAATATTTCTGGCGAAACAAGTTTCCTCTCTCTATAACCACACGAACCATAAACATTGGTAACCCAACAACACTTCTTGCACAACGATACTTTTATTGAGAGGCAATAACGTCCTCTTATGGTTTCCACCACTGTGATTTTACTTTTATCCCATAAAGTAAGAATGCCTCCGGTTGCGCCATAAGATTCCACTGATTCCCATCCTGTATCTATAGAACTCCAAATTGTTTTAATGTAAGTTACTTCCAGAATTTCCATTTTTGATTCTTTGATTAGTACAACGTCCGGGTGATGAATTTTTAAACTTCTTAAGAGCAGAACGTTTATTTGGATTTTGTAGGTCTCTTGGGTTCCAAGAGATGATCTTCATGGGTAAAAATTTTATGCATATGAATTACAGACTTACTCAAACCAACATCACTTCACAGTCTTTAATAATTGGTAACAATTCCTTTGGAATTTATGCTGATTTGATTGGGGAGGAGCAAGGGAAATTACTATAAATATCACCTTCCACTTCGAAAAGGGAAATTAGATCCACTGCTTCAATTTCAACATTTGCATTATCATCTTGAATGTGAGTTTTCAATGTTTTCTCTTTCTCACTTTTAGGAAATGGTAGCTGTTTAACTCGTTCATCTTTCACGAATTGCTTAATTTCTTTATTCAAATTCTGGTTCTTACATTTTTGTTGATAATTTCCTTGTTGACTTTTAAACTGGCTTGTGAACTTTCATAATAACACATGACAATATAAAGGAAATTGAAACTTGTTTGACTCGGTAACTTTAATGTAGATTTCTTGTTATGACTATATTTTGTTAATATACGTACTTGACCTTCATGTTTCAGGTTTATTTTACTTGTGAAGGAAAAGGATGGGGTCTCAGAACACTAAAAGACTTGCCAAAAGGTTCTTTTGTTTGTGAATACGTTGGTGAGATATTGACAAATACGGAGTTGTATGAACGAAATCTGCAAAGCTCTGGTAATGAGAGGCATACGTATCCCGTAACTCTTGATGCAGACTGGGGCTCAGAGGAACTTTTAGAGGATGATGAGTTACTTTGTTTGGATGCAACGTATCATGGAAATGTTGCGAGATTTATCAACCACAGGTATGTAAGTATTGCTTACACATTTTAATTTCCTTGACTGATAATAGAAGTTTATTGTATGAATTTAACAAATGCTCTCAGTCCTTCACTGCAGTAGACCGAAATTGGGCTAGAGTTGAGCACTTACATTCATTTTTATTTTATGTATTCTACAAATATTACTTTCCCTAGACGTCATCTGTTTAATCCGAATGATCATTATTGAACTCCATAGATGGAAGAATCTTGGTGTATTATTTACACAATCCATCCATATGTTGGGTTTTGGTAAAATATTAATAGAGCCTTTGTCCCGAAGGTTCAAACGAGCGATGGACTCCAAGCATTACGAAGGAGCCTTTGGTTTCTAATCATCTCAATTTGAAACACAAACTTGGTACATTATGTGATTGAAATAGTGACTTTGAGATAATGCTCTTGTAACTGGGATGGGAAAGAGAGTGATTTTGTGTGATTGTAAGAATTTTACTTTTTTTTTTTTCCTTTTACAATAGTTGTGGGACGTTTTCCCCAACAATATCAATAATATTAGTACTTAATGATCTCCCTAACGTCTATGCATTTTGTTTTTTATCTTCAGATGTTCTGATGCAAATTTGATCGACATTCCTGTTGAAGTCGAAACTCCTGATCGCCACTACTATCATGTATGATTCTTGAAAACTTAAAAACGTTCTCAACTCACTTGATACACTGTCTTTGGAAAAAAGAAGAATATATTTCTGCTACCTTTACTGGAAAGCAGAAGCATTTTATAATTGATTTAAAGAAGTTCGTCTAATTTCATCATTTCGTGCCCTGTACATGCAGCTTGCTTTCTTCACTAGCAGGGAAGTGAAAGCCCTGGAAGAGCTTACATGGGTAGGTATCTTTATATATTTGACAAACAAACAAAATTCTATTAGAATAATTATCTCTATTTGAAGTCGTACGTTTAATTATGTGAGAATTTACAGGACTATGCAATCGACTTCGATGATGAAGATCATCCTGTGAAGGCATTTAAATGCTGTTGTGGAAGTCCATTTTGTCGAGACGCGAAGAAGAAACGCAAAGCAACACTTGTATAGGTAATGTTGGATTCTCTTCATCAAATATTCTAAAAATTTGAGGACAATAGTGGAATAAATAAGTAGCCAGATTTGGAGATATTTTGTAGTTAAAGCTGACTTTTATGTCAAAAGGTGGTATGTGCTATAATATCATGACCTGACTATTTTGTGATGTGCTTGCTCTTTTGTCTGCTTGGGTTGAGAATAGGTTGCACGTTGACGAATAAACGAGATCACTCCTTCAGCTTGGGTTATTTATCTGATTCCTCAGAATTTGTCCTTCGAGGTGAGTCTTCGATCCCACTTCTTTACAACCTTTTTTGGACGTTGAGTTTGGATTTTTTTTCTTAAACTATCATCAGTACAAAAAAACATCCCCTAGTTTTGTTTCTATTTCTATTAAGCTCATGATAATGATACATTAGTTCTTTTCCACTCACAAATTTGATTTCTATGGTGGTAGATTGAAGAAATATGTAGAAAATATGTGAACGTTTTTGTAACCATTAGATCAAGAATGGTCATAGATATTGTATATGTTAAGAGTTATTAGACATAACTTTGTATATTATGGTCCTAAGGCTATTTTGGTGGTTTTGTTTACTCAATTTAGGTGATGGACCAATTACTGCAAGAATGAGAAAGTACCGTAGGATTGTTACGTGCATCAGTACGTATGTCCATATTTTCTCAATTTTAGAACTTGTTCATATACTTTTCTTTATTTTTCTTTAC AAAACACTGCCTACGCTTCTGGAAAGGGAAAGACCTTTGGCAATGTCTTCAAAAAAGAAAATTTCCATGGCTTTTAGTGCAACGAGATCCTTAGGAATCCCTGATGACCAAATTAAACCAATCTTGAGGGATCTTCTAAAGATGTATGATGGGAATTGGAAACTCATTGAAGAAGACAATTATCGCACTCTTCTAGATGCTTATTTTGAGCACAAGGAAAACGAGGGACTAGAGGGAAACAGAAGCTGTCCTGTGGAAGACAAGGAGTCTCTGATACCACTGAAGAGACCACGCGATGGAGAACAACAGAATCGAGCTTCGTTTATCATTGGTAGCTCAGGCCATAAATTAGTTGCTAGAAAGGATAAAATTTCTGAAGTACATGCTGGGCATAAAACTACAATCTCATCTAATGACTCTGAACAAGGATTAGTCATTAGGTCCAGCGAAAGGATGCCATCAGTGAAACCCGTTTCGGTATTTTATCCAGATAAGATTGCATTAACAAATGCTAACACTGTAAGCAATTCATATCAGAAAGGCTCAAGTTCTTCTCAGTGTGTGAGGCCATCGAGTACTGCACTTTTTCAAGATCAAAGTACTGGTTATAGTAGAAAGCGTAAAATTTCCTCTGAGCATGTGAGGTTAATTGCTTGTGATCAGCATAACAGACAAAATACAAATAATTCTTTGCATCACATGCATGACTTGACAAAGGGTGCAGAGAAAGTCAAAATATCTTGGGTTAATGAATTAGGAAATGACTCTATCCCTAAGTTCAATTATATACCAAACAATATAATTTTTCAAAATGCCAGTGTCAACGTTTCACTGGCTCGGATTTCAGAGGATGATTGCTGTTCAAGTTGCTCAGGCAATTGCCTTTTATCATCTTATCCATGTGCTTGTGCTCGTGAAACTGGTGGGGAATTTGCTTATACACGAGAAGGCCTGCTGAAAGAAGAATTTCTAAATCACTGTATGTCTATGGGATGCGAACCTAAGAAGGAGCATCTCTTCTTTTGTGAAGACTGCCCAATTGAAAGGTTAAAGAATGACTACAAGCCTGATCGATGCAAGGGTCATTTACTTAGGAAGTTTATCAAAGAATGCTGGAGAAAATGTGGATGTGATATGCAGTGTGGTAATCGAGTTGTACAAAGAGGTATTTCTTGCAAACTGCAGGTTTATTTTACTTGTGAAGGAAAAGGATGGGGTCTCAGAACACTAAAAGACTTGCCAAAAGGTTCTTTTGTTTGTGAATACGTTGGTGAGATATTGACAAATACGGAGTTGTATGAACGAAATCTGCAAAGCTCTGGTAATGAGAGGCATACGTATCCCGTAACTCTTGATGCAGACTGGGGCTCAGAGGAACTTTTAGAGGATGATGAGTTACTTTGTTTGGATGCAACGTATCATGGAAATGTTGCGAGATTTATCAACCACAGATGTTCTGATGCAAATTTGATCGACATTCCTGTTGAAGTCGAAACTCCTGATCGCCACTACTATCATCTTGCTTTCTTCACTAGCAGGGAAGTGAAAGCCCTGGAAGAGCTTACATGGGACTATGCAATCGACTTCGATGATGAAGATCATCCTGTGAAGGCATTTAAATGCTGTTGTGGAAGTCCATTTTGTCGAGACGCGAAGAAGAAACGCAAAGCAACACTTGTATAGGTTGCACGTTGACGAATAAACGAGATCACTCCTTCAGCTTGGGTTATTTATCTGATTCCTCAGAATTTGTCCTTCGAGGTGATGGACCAATTACTGCAAGAATGAGAAAGTACCGTAGGATTGTTACGTGCATCAGTACGTATGTCCATATTTTCTCAATTTTAGAACTTGTTCATATACTTTTCTTTATTTTTCTTTAC ATGTCTTCAAAAAAGAAAATTTCCATGGCTTTTAGTGCAACGAGATCCTTAGGAATCCCTGATGACCAAATTAAACCAATCTTGAGGGATCTTCTAAAGATGTATGATGGGAATTGGAAACTCATTGAAGAAGACAATTATCGCACTCTTCTAGATGCTTATTTTGAGCACAAGGAAAACGAGGGACTAGAGGGAAACAGAAGCTGTCCTGTGGAAGACAAGGAGTCTCTGATACCACTGAAGAGACCACGCGATGGAGAACAACAGAATCGAGCTTCGTTTATCATTGGTAGCTCAGGCCATAAATTAGTTGCTAGAAAGGATAAAATTTCTGAAGTACATGCTGGGCATAAAACTACAATCTCATCTAATGACTCTGAACAAGGATTAGTCATTAGGTCCAGCGAAAGGATGCCATCAGTGAAACCCGTTTCGGTATTTTATCCAGATAAGATTGCATTAACAAATGCTAACACTGTAAGCAATTCATATCAGAAAGGCTCAAGTTCTTCTCAGTGTGTGAGGCCATCGAGTACTGCACTTTTTCAAGATCAAAGTACTGGTTATAGTAGAAAGCGTAAAATTTCCTCTGAGCATGTGAGGTTAATTGCTTGTGATCAGCATAACAGACAAAATACAAATAATTCTTTGCATCACATGCATGACTTGACAAAGGGTGCAGAGAAAGTCAAAATATCTTGGGTTAATGAATTAGGAAATGACTCTATCCCTAAGTTCAATTATATACCAAACAATATAATTTTTCAAAATGCCAGTGTCAACGTTTCACTGGCTCGGATTTCAGAGGATGATTGCTGTTCAAGTTGCTCAGGCAATTGCCTTTTATCATCTTATCCATGTGCTTGTGCTCGTGAAACTGGTGGGGAATTTGCTTATACACGAGAAGGCCTGCTGAAAGAAGAATTTCTAAATCACTGTATGTCTATGGGATGCGAACCTAAGAAGGAGCATCTCTTCTTTTGTGAAGACTGCCCAATTGAAAGGTTAAAGAATGACTACAAGCCTGATCGATGCAAGGGTCATTTACTTAGGAAGTTTATCAAAGAATGCTGGAGAAAATGTGGATGTGATATGCAGTGTGGTAATCGAGTTGTACAAAGAGGTATTTCTTGCAAACTGCAGGTTTATTTTACTTGTGAAGGAAAAGGATGGGGTCTCAGAACACTAAAAGACTTGCCAAAAGGTTCTTTTGTTTGTGAATACGTTGGTGAGATATTGACAAATACGGAGTTGTATGAACGAAATCTGCAAAGCTCTGGTAATGAGAGGCATACGTATCCCGTAACTCTTGATGCAGACTGGGGCTCAGAGGAACTTTTAGAGGATGATGAGTTACTTTGTTTGGATGCAACGTATCATGGAAATGTTGCGAGATTTATCAACCACAGATGTTCTGATGCAAATTTGATCGACATTCCTGTTGAAGTCGAAACTCCTGATCGCCACTACTATCATCTTGCTTTCTTCACTAGCAGGGAAGTGAAAGCCCTGGAAGAGCTTACATGGGACTATGCAATCGACTTCGATGATGAAGATCATCCTGTGAAGGCATTTAAATGCTGTTGTGGAAGTCCATTTTGTCGAGACGCGAAGAAGAAACGCAAAGCAACACTTGTATAG MSSKKKISMAFSATRSLGIPDDQIKPILRDLLKMYDGNWKLIEEDNYRTLLDAYFEHKENEGLEGNRSCPVEDKESLIPLKRPRDGEQQNRASFIIGSSGHKLVARKDKISEVHAGHKTTISSNDSEQGLVIRSSERMPSVKPVSVFYPDKIALTNANTVSNSYQKGSSSSQCVRPSSTALFQDQSTGYSRKRKISSEHVRLIACDQHNRQNTNNSLHHMHDLTKGAEKVKISWVNELGNDSIPKFNYIPNNIIFQNASVNVSLARISEDDCCSSCSGNCLLSSYPCACARETGGEFAYTREGLLKEEFLNHCMSMGCEPKKEHLFFCEDCPIERLKNDYKPDRCKGHLLRKFIKECWRKCGCDMQCGNRVVQRGISCKLQVYFTCEGKGWGLRTLKDLPKGSFVCEYVGEILTNTELYERNLQSSGNERHTYPVTLDADWGSEELLEDDELLCLDATYHGNVARFINHRCSDANLIDIPVEVETPDRHYYHLAFFTSREVKALEELTWDYAIDFDDEDHPVKAFKCCCGSPFCRDAKKKRKATLV* Homology
BLAST of CsGy2G007730.2 vs. ExPASy Swiss-Prot
Match: Q8W595 (Histone-lysine N-methyltransferase SUVR4 OS=Arabidopsis thaliana OX=3702 GN=SUVR4 PE=1 SV=2) HSP 1 Score: 506.9 bits (1304), Expect = 2.8e-142 Identity = 222/319 (69.59%), Postives = 276/319 (86.52%), Query Frame = 0
BLAST of CsGy2G007730.2 vs. ExPASy Swiss-Prot
Match: Q946J2 (Probable inactive histone-lysine N-methyltransferase SUVR1 OS=Arabidopsis thaliana OX=3702 GN=SUVR1 PE=1 SV=2) HSP 1 Score: 390.6 bits (1002), Expect = 3.0e-107 Identity = 184/329 (55.93%), Postives = 240/329 (72.95%), Query Frame = 0
HSP 2 Score: 56.2 bits (134), Expect = 1.3e-06 Identity = 27/67 (40.30%), Postives = 39/67 (58.21%), Query Frame = 0
BLAST of CsGy2G007730.2 vs. ExPASy Swiss-Prot
Match: Q9FNC7 (Probable inactive histone-lysine N-methyltransferase SUVR2 OS=Arabidopsis thaliana OX=3702 GN=SUVR2 PE=1 SV=2) HSP 1 Score: 378.6 bits (971), Expect = 1.2e-103 Identity = 246/715 (34.41%), Postives = 355/715 (49.65%), Query Frame = 0
BLAST of CsGy2G007730.2 vs. ExPASy Swiss-Prot
Match: Q9H9B1 (Histone-lysine N-methyltransferase EHMT1 OS=Homo sapiens OX=9606 GN=EHMT1 PE=1 SV=4) HSP 1 Score: 149.1 bits (375), Expect = 1.5e-34 Identity = 98/316 (31.01%), Postives = 150/316 (47.47%), Query Frame = 0
BLAST of CsGy2G007730.2 vs. ExPASy Swiss-Prot
Match: Q96KQ7 (Histone-lysine N-methyltransferase EHMT2 OS=Homo sapiens OX=9606 GN=EHMT2 PE=1 SV=3) HSP 1 Score: 147.9 bits (372), Expect = 3.3e-34 Identity = 100/316 (31.65%), Postives = 148/316 (46.84%), Query Frame = 0
BLAST of CsGy2G007730.2 vs. NCBI nr
Match: XP_031736404.1 (histone-lysine N-methyltransferase SUVR4 [Cucumis sativus]) HSP 1 Score: 1135 bits (2937), Expect = 0.0 Identity = 546/546 (100.00%), Postives = 546/546 (100.00%), Query Frame = 0
BLAST of CsGy2G007730.2 vs. NCBI nr
Match: KGN61310.2 (hypothetical protein Csa_006501 [Cucumis sativus]) HSP 1 Score: 1122 bits (2903), Expect = 0.0 Identity = 538/538 (100.00%), Postives = 538/538 (100.00%), Query Frame = 0
BLAST of CsGy2G007730.2 vs. NCBI nr
Match: XP_016899481.1 (PREDICTED: histone-lysine N-methyltransferase SUVR4 [Cucumis melo]) HSP 1 Score: 1079 bits (2791), Expect = 0.0 Identity = 518/546 (94.87%), Postives = 528/546 (96.70%), Query Frame = 0
BLAST of CsGy2G007730.2 vs. NCBI nr
Match: XP_038891081.1 (histone-lysine N-methyltransferase SUVR4 [Benincasa hispida]) HSP 1 Score: 978 bits (2527), Expect = 0.0 Identity = 473/546 (86.63%), Postives = 495/546 (90.66%), Query Frame = 0
BLAST of CsGy2G007730.2 vs. NCBI nr
Match: XP_022997373.1 (histone-lysine N-methyltransferase SUVR4-like [Cucurbita maxima]) HSP 1 Score: 973 bits (2516), Expect = 0.0 Identity = 467/545 (85.69%), Postives = 497/545 (91.19%), Query Frame = 0
BLAST of CsGy2G007730.2 vs. ExPASy TrEMBL
Match: A0A1S4DU17 (histone-lysine N-methyltransferase SUVR4 OS=Cucumis melo OX=3656 GN=LOC103485845 PE=4 SV=1) HSP 1 Score: 1079 bits (2791), Expect = 0.0 Identity = 518/546 (94.87%), Postives = 528/546 (96.70%), Query Frame = 0
BLAST of CsGy2G007730.2 vs. ExPASy TrEMBL
Match: A0A6J1KDN8 (histone-lysine N-methyltransferase SUVR4-like OS=Cucurbita maxima OX=3661 GN=LOC111492309 PE=4 SV=1) HSP 1 Score: 973 bits (2516), Expect = 0.0 Identity = 467/545 (85.69%), Postives = 497/545 (91.19%), Query Frame = 0
BLAST of CsGy2G007730.2 vs. ExPASy TrEMBL
Match: A0A6J1EN65 (histone-lysine N-methyltransferase SUVR4-like OS=Cucurbita moschata OX=3662 GN=LOC111436130 PE=4 SV=1) HSP 1 Score: 973 bits (2515), Expect = 0.0 Identity = 467/545 (85.69%), Postives = 497/545 (91.19%), Query Frame = 0
BLAST of CsGy2G007730.2 vs. ExPASy TrEMBL
Match: A0A5D3DYB5 (Histone-lysine N-methyltransferase SUVR4 OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold2406G00030 PE=4 SV=1) HSP 1 Score: 960 bits (2482), Expect = 0.0 Identity = 458/485 (94.43%), Postives = 468/485 (96.49%), Query Frame = 0
BLAST of CsGy2G007730.2 vs. ExPASy TrEMBL
Match: A0A6J1HR27 (histone-lysine N-methyltransferase SUVR4-like isoform X1 OS=Cucurbita maxima OX=3661 GN=LOC111465365 PE=4 SV=1) HSP 1 Score: 909 bits (2350), Expect = 0.0 Identity = 434/546 (79.49%), Postives = 484/546 (88.64%), Query Frame = 0
BLAST of CsGy2G007730.2 vs. TAIR 10
Match: AT3G04380.1 (SET-domain containing protein lysine methyltransferase family protein ) HSP 1 Score: 506.9 bits (1304), Expect = 2.0e-143 Identity = 222/319 (69.59%), Postives = 276/319 (86.52%), Query Frame = 0
BLAST of CsGy2G007730.2 vs. TAIR 10
Match: AT3G04380.2 (SET-domain containing protein lysine methyltransferase family protein ) HSP 1 Score: 506.9 bits (1304), Expect = 2.0e-143 Identity = 222/319 (69.59%), Postives = 276/319 (86.52%), Query Frame = 0
BLAST of CsGy2G007730.2 vs. TAIR 10
Match: AT1G04050.1 (homolog of SU(var)3-9 1 ) HSP 1 Score: 390.6 bits (1002), Expect = 2.1e-108 Identity = 184/329 (55.93%), Postives = 240/329 (72.95%), Query Frame = 0
HSP 2 Score: 56.2 bits (134), Expect = 9.4e-08 Identity = 27/67 (40.30%), Postives = 39/67 (58.21%), Query Frame = 0
BLAST of CsGy2G007730.2 vs. TAIR 10
Match: AT5G43990.5 (SET-domain containing protein lysine methyltransferase family protein ) HSP 1 Score: 383.6 bits (984), Expect = 2.6e-106 Identity = 242/695 (34.82%), Postives = 349/695 (50.22%), Query Frame = 0
BLAST of CsGy2G007730.2 vs. TAIR 10
Match: AT5G43990.2 (SET-domain containing protein lysine methyltransferase family protein ) HSP 1 Score: 378.6 bits (971), Expect = 8.3e-105 Identity = 246/715 (34.41%), Postives = 355/715 (49.65%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Cucumber (Gy14) v2.1
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 three_prime_UTR feature(s) are a part of this mRNA:
The following CDS feature(s) are a part of this mRNA:
The following five_prime_UTR 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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