CsGy5G011700.1 (mRNA) Cucumber (Gy14) v2
The following sequences are available for this feature:
Legend: five_prime_UTRexonCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.TGAAACTATGGGTCGAACACGTTTTGAGTATTTTAGGGCTAAAACACAAAACACCACGGCAGATTGCGGTTTCAAGACGAGGTCTCTAAAAGACTAAAACAACGGCCGTTTCAGATAGCGGTCTCATTACTTCAACTTCTTTGAACCCGCTAGTTTCACAGTTGATATTCACTAATTCCTTCCGGATTTCAAAGCCACCATCACGCTTCACCTATTTTCCTTGTACTGTTTAACGGATACTCGTTGTCGGATTCAACGGTTTCTCTTTTGTCCTCATTTTCTGGCGAAACCCATATGAAAGAAAGGTGAAAAACCATATCCAAAACTACCCATCTTTCCAAGACCATTTTAAATCCACAGGTTTTTTCTTCTATTTTTCAACTTGTTGTTTGCTGTGTTTGTGTAATGTAGTTCTCATGTGCTTGTTTTCATTTCATGAAATCAAGTGCTGAAGTTCTTTTGGTTTGTGTTCTGTGTTTTGTTGAGACATTGATTTAGTTACTCATTGAGTGTAAGTATCATTTAGAACTAATGATATCGATATCAAATATGTAATGGTTTAATCCATTTCAACTAAAATTACTTTGTTCCCAAGCAATTGGTGGATCTTCCCAAGCTTAGTTTATTTTGAAATAAAACTTTGTCAATGAATGTTTTTGACCATGTGGGAAATGAGAAGACAACGATCGGTCTGTTGACAACCTTGTGAGATATATATCCAGAAGCTTTATATGAACAAGTTATACCTTTTTATTAAACTCATGGATTTGAAAATGGCTGAAGGTGTGCCTTTTGTGGAACATTTGAATGAATTCAATAGGATCATTGAAAAGTTTAGCTTGGTGAAGGTTGAGTTCAACGAAGAAGCGACTTCTATCCTTTTTCTTTCTCCTTTACCTGATAGTTGGGAATCTATGAAAGTAGCGTTAACTTTCTCTTTAGGTACAACAAAATTGAAAATTGAAGATATTATATATAGATGCAACTTTTACAGAAGAGATTTATAGAAGGCACTTTGGTGTGACTTCTACTTCAAATTCAAGCTTCAAGGATAGATGAAAGGAGAAGCAGACAATTGAGTGCTACTACAGCCACAAGCAGGGTCACATAAAAGCATATTGTAGAAAGTCGAAGAAAGAGCAAAAAGATAACTCCTAAGTTGAATATTGGTTTAGATTATTTGGAGACACTCTTCTTGTTTCTCCGCAAGTTCTGTTGATCGAAAGCACATAATTTGGGTTGATGCATATTTGGAGGAAGTAGAGAGCATTTAATTTTGTGAGCTGGTTTCTGAAGGCAGGACAATTTGAGAGTTGTGTGGTTGAGTTTTCTCTTGTTTGTCTTTTATGATTTTTATTCTCAACTCATAGTAAACATATAGGGCTTTCGAAAGATCAGACATATAATTATGCAATTATTTCTTTTCACTTTTACTTTCTTTGTTATATATCTTTTTATTCTTTTAAATTCTTTTATTAGTCTCTGAATCTGTCATCCTTTTGGAATTGTGGATGCCTGTACATGTGTACATTAATTGGTCCCATTCCAAGTGGGAGTTCAATTGTATGATCATGGAATTGGATTGGATTTAGACCTCCGCGAGGCTCAAGCATGCCTGCCAAACTCTATGATATTAGCATAATTTCTTTACAAAAAGGCCCAATTCCCTTAGTAATGTGTGTGAGTATTAGTTGTATAGTTTTTAAATTCAAATAAGATTAAATTTATTGAAAGCAATAAACACAAAAACGAGACTTTCGTGGAAACCCGAGTACGGGTTGAAAAACCATGGTATTGTTAGTTTTATTATTTTATGATGAATAATACAACAGGTACGAAGAGGGAGAATAAATAGAATACACAAAGAAATAAGAAAGGAAAAGATTTTGGAATTAGGGTAAATCTTTTCATAAATACCGTAAGGGCCAAGCCCACTAATTCTAACAAAATTTACAGTCACCGCATTCTTAGCCTTTTTTATACATTGTAGAAATGTCGTAAGCTTCCTTTGCTCCATTGGCAGCAGGCACTCACTAGCATCTCTCTTCCTACAGCACTCATGAATTCGATTCTCATATGTAACACCTTATGTATTGTAGAAAATGTCTGCCTACAGTTATTTACTTTTAATGTTATGTAATCCCGTTTCTGTGGCCCCATGCTTGTAATTTACTTAGCTTTGCCGTTGGGTTGATAATATTTTGCTATTCTATATTCCACGTGTCCATGAAACCCATGCTCATTTGAGACTTGGGCAGTAAACAAAGTGAATGCAGTTTGTAGTTATGCCTGGGGACTCTCTAATGTTGCATGAATGTTTGATCCTGCATTGTTTGGAAATGTCCATATTTTATTAGGGGATTTGCTTGGATTATATTTTCTTAAAATAGTGAATGAGAGAAGATGAGTAGGCAAGGTGTTACACTCATGTGTTACTGGAATGGGACAACAATGAGTGGACCACATGGCATTTCCTACGAAGGTGCTGCACCAAAACCCATCCGAGTTGGCTATGGGATTACACATAATGAGTTGATTGATAGGATATATGGAGTTACTGGATTTGACAAGCAATCCTTTAAACTGAAGATCATATGTAGGTATCCGGCATGTAGAGAATACATACCGGTGCCAATCGATGATGATGAGTCTATAGATATCATGTTTGACGTGGCACGACAACCGGGAACTAACTGTCTAGAACTATATGTTGAAAAAGAGCCCCTCTGCAACCATAACCCAATAAATGTTCCAGAACCAACCATTGTTGATAACCAGGTATGTTCCAAATTGTGTGTTCTATAAAATTGTTTCTAATTCTTGTTAACATGATGGCTGACTGGACTTCCATATTTTATCTAGTTATGTTTTGTTCATTGAACTTTGCACAATATTTTTTACAGACGACAGATGAGATGGCCACAGATGATGCGCAAGTCGATAGCTTTTTAGATCCAGGTCCAGTTGACAATTCGATTCTTGTTCTACAAAATCAGCATAGATCTGAAGCCATATGGATGGGGGAGGTTTGATCTACTTCCGTAGTTTGTTGTAGGTTCCATTAGTCAAATATAAATTTTTCATATTTCTATATAGGGAAATTGACAATCTTCCTAACTTGTAGGATCCTAGTGTGTTAACTTGTAGACAACGGCTGGCAGCAATGATGAAAGATTGGCAATTAGATCCTCGTGTCCGTCAACTTATCATCAAGGCTGGATTTTATGGGGTATATAGGGTTGGAATCTTACAAATTGATTGGCCCTTGATTACAGCATTGGTTGAGAGATGGCGGCAAGAAACCCACACTTTTCATTTTACAGTTGGTGAGAGTACTGTCACGTTACAAGATGTAGCATTGTTGTTAGGCCTACCAGTAAACGGATTGGTAGTGACTGGAAATACTGATCTCCAATGGGAAGATTTATGTGAGGAGCTATTAGGGCTCAGGCCGGACTCGAGTGTGCTCCATGGTTCAGCCCTTAAGGTTAGTTGGTTGCGAACTCATTTTCAAGAACCTACATCTGATGCAGATGATGTTACATTACAACGCTATGCCAGAGCGTATATTTTAAGTTTGATGGGTAGTGTTCTATTCGCGGATAAGTCTGGAGCTGATGTCCAGTTGATGTTCTTACCTTTTTTAAGAGATTTGGAATGTGTCGAGCAATTTAGTTGGGGAAGTGCAGTGCTTGCACATTTATATAGAGAGCTTTGCCGAGCCAGCAAGAAAGGAGCCAATGAGATTTCTGGCCCTCTTGTTCTGTTGCAGGTGTGAGTATGCAATGCATATTCAGTTTTTTCTTGAATCAAAACCACATGTATTATCTTAAGTATTTTTCTTAATCAAATATGAGCAATGGAAGAAACTGTCCCTCCGTCCATGCTTTATGCTTTAACCTCATAGCTTTTTTTCTTTTCTTTTCTCTTTTTAAATTTCTACAGATATGGGCATGGGAACGCCTAGATATTAGCCGGCCAGAGAGGTTGGTTTATAAAGGTCGAAAATCAATTATATCAGATACAAAGGCTGAGAAGGAGAGAAGTTCAATTGCAGGGGATGCTATTGTAGACAACGAGCAATTACCAGCTGATCCATTAGGATGCAGGTATGTGATAGGGTCCCTGTTACCATAACAGTAAAAGTTGAAACTATACTGCTTGCATTGCTACCTTTTAAAAAAGGTCACAAAAATTAATCTTCAAATTTTTTTTACCCAAACCCTCCAATATCCATAACTTCCCACCCTAAAAACTTCTCAAGTAATTAAAAATATACCACTGTTAATACCCCTAATAGTATTTCCACTGTTATTGTACTAATACTCTTATGATATGTCTTTCTATTAATTCTTATGAAATTTATTTCCTGTTAAATTAGATGGAAGGCAGCTGTGATTCGTAGAGATAATCCTCACAGAGCATTAATATTTTACAGGGACCTGCTTGATCAGCAAACAGAGAGCCAGGTTCCTACCAGTCTCATGTTCTTTGTAGATTTGTGCCAAATGTATTTTTGCATGTTTTTATTGTGGGTGGGCGGTGTCCTGAACCAAAGGAGTTACAAAACAGGTGGTCCGAAAGTAAAAGATTTAAAATGAGGTCACAATTTACACCAAGATATAGTTAAGTTAATGATACTATACTATCCGTAAGGTGTTCAAAAGGCCTCTCCTTGCTTCGAAAGGTTCTCTTGTTCTGTCAAACAAACCCAAAAGAAGACTTTGATGATGTTGACCCAAGTTTCTTCTTCTTGTTTTTAAAAGGATGCCCCGTAAAGTTTAAGGGGGGAGAAGCTGATCATGGTAGGGTAGGGAAGTCAACCATATGAAGTTGTTCACAAGGATTGTCCAAAACGAGGATACAGAAGGGCAAAGAGAGGAAAAGTTGGTCTTGTGACAATGCTGCATTATACACAATGTGATGAACTAGTCATGTAGGGCATGTGACGTTGAAGGTTCTCTTGATTATCAAAAGCATGCTGAGCAATTTTCAAAAAGGAAGAATTTGAATTTTTTTTTAATTTTTTGAGACGGGACCAAGATAAAATTTGACATCTGGAGGATGGCCATTGGCTTTTGGGGGCCCCAGTGATGCCATGATGAGGAGACTCAAATTTTGCTTCAATCAACCTTTCTCCAAAGGTCTGTTTGCACAAGTCGGAACCTCCAAACTCATTTAGCAAGGAGAGCACGATTCTTTTCATGAATATTTTTATGGAAAGACCAACTAAAGTCACGGGGGAAGAATAACTCTTCACAAATAATGAGGTTTATTCCTTTCTTTTTCGATACTGCCTTTCCACAAGTTTTTTTCTATTGAACCTTTCTACAGAGGCTGCAACCCTCATAAATATTTGGAACAATGTTAAGTAGTAGGTGGGGAGGTTTGTTAGGATACTTTGGATGAGAATAAGGTAAGATTGCAGTTTCCTCACAGAAATTTTCTAATGATCCTTCCTATTGCCTTAGGCTTTTCTTGTTTTCCCAGTTCGTTTTGTCTTCCCTGCGTCGTCTTGAGAACTTTTTGTGGTCCTTAGCTGTACTCTCACTGATTACGTCTTCGGAGGTGGTAGACCTTTTTTCTTCTAACAAGTGCTTGTTTTCTTATTTATTGTAGGTATTCTCGAGGAATTCATATATTTTTGTTCTCATTGTTTGATTTCTAGATAGCAAAATAGTTAAAGTGGAATAACATAAGAACTAGTCCATAAAAGATATATTTTTCATAATAAGTTGCATAATTATTCATTTATCTCGGTTTTTACTCTGGAGTTTCTACCAAGTGCAGATGGTCTGGCAACCTTACATTTCTGAGCGTCTTGCATCACTACCAGATTCTTTGCTCAGAGACCAACATGTGTGGCGGACGGTTGCTCCACTCATTTGTTTTGATATTGTTGAATGGCATCATCCAGAACGAGTTCTTCGTCAGTTTGGTCTTCACCAAGAAATCCCACAGCCTTGTGATACAGAAACAAAGCTGCATACCATTGACAGGCGGGGAAAACATCATTATGATTGGAAAGCCTATCACGGACAGTATATTAAACTATGGGAGGGCCGAGAGAAGAGCATTGCAACGGGCAAGCTAGAAGAACTGCCAATGCAATACCATGATCCTTACATGGTTTGGTATAGAAATGTTACTCGGCGTTTGATCACCCCTCTCACCCAAAGGTCACATATGCGGTTTCAGCCGTCGAGTGGAACCTCACATTTACTTGTATGAATAATTTAAAATATATTGATATCATAAATTGCAAAATCTTTTGATTTTAAATCCAACATCATTAGAAATCTGTACATTTCTTTGCAGGTACAAAGTTTGACAACTATTCATAACCAGTGTGCATGTGCACTTGAATCTTTTACGAGTGATGGTGCTATGAAATCATTGGAGTGCATTCAAACAACCTGCATTCGAGTTTTGCAGATGATTGGAGAAACTCGTCATCTCAAAGGAAAACAATCAGTTATTTCAACCAAACCAATCACAACCATTCCAAGTTCTACTAATGATGCTAACAATACAGAAAATCACCAACACGGCGAGTGTGCTTCTCCATCTGTACATACAGTGAGAGTTCTAACTAAAGCTTCATTGGTCAGGGGACAAGGAAGAAGTAGAGGTAGAGGTCGTCCCAGAGGCAGCATCAAGAGTAAAGGTGGAGGTTATTGCAAGGCTCAAAGTGTTGTGGTTGAGACCTCTTCACCATCATTTCTATCATTACATTCAACTTCAGAATCCTTGCAATCCAATAACGGTTGGGATAGACAATTGCATATTGAAGACACGGAGGTTGGTACAATGATCGAACCAGTGGACTCGGTTTCTGCTGAAAGTTCACCAGAGAGTGAGAAAACATGTGTGAGAGAAAAATCACCAGAACAATCGTGCCTGATGTACAAGGAAAGTAAAAGAGACGTCGTTGTGTCGCCGTCAATTAGACCGATGCATCAAATGAAGGGGGATAAAATGGAACAGTCGGTACCTCTACTAGAACAGGAAGAGAAGTCCATCAACCTTTTGGGTAAGGAAGATATTGGGAGAACAGTTGCTTTACCAAACGTTGGATCGATATCTGGCTTGTGTGATCTTAGTCCTGCTCAGCAGTCTGGGCATCCTACTTTTCCTAAGAAACGAAAACACATTTAACAAAAATGATTTGTATATTATTATATATTGAGAGTTTGTTGTTTCTAACCCTTCATGCTGATTGATAGTGGACTTGAAGCACTTTCAGGGACGCAAGTCATCAATCATGTGTAAATACACTTTATCTAGTTAGGATTATTGTCTAAATTGTGTTAAGCTATGATTTCTTAATGTGTATACTCGAATGAGTTACTCTTGCTCACTGGTAAACCAATTAATCTCTTGCATCACTTTCCACACTACGCATTCATTTTTGGGGGAATTTGGTTCATCCCTACCACAATGTAAGAATGACATACAAAAATGGGAACCTTGTAAAATTATTTATTTGCAGGTAAAGAAGGATGGCCATTAGTTT TGAAACTATGGGTCGAACACGTTTTGAGTATTTTAGGGCTAAAACACAAAACACCACGGCAGATTGCGGTTTCAAGACGAGGTCTCTAAAAGACTAAAACAACGGCCGTTTCAGATAGCGGTCTCATTACTTCAACTTCTTTGAACCCGCTAGTTTCACAGTTGATATTCACTAATTCCTTCCGGATTTCAAAGCCACCATCACGCTTCACCTATTTTCCTTGTACTGTTTAACGGATACTCGTTGTCGGATTCAACGGTTTCTCTTTTGTCCTCATTTTCTGGCGAAACCCATATGAAAGAAAGGTGAAAAACCATATCCAAAACTACCCATCTTTCCAAGACCATTTTAAATCCACAGGTTTTTTCTTCTATTTTTCAACTTGTTGTTTGCTGTGTTTGTGTAATGTAGTTCTCATGTGCTTGTTTTCATTTCATGAAATCAAGTGCTGAAGTTCTTTTGGTTTGTGTTCTGTGTTTTGTTGAGACATTGATTTAGTTACTCATTGAGTGTAAGTATCATTTAGAACTAATGATATCGATATCAAATATGTAATGGTTTAATCCATTTCAACTAAAATTACTTTGTTCCCAAGCAATTGGTGGATCTTCCCAAGCTTAGTTTATTTTGAAATAAAACTTTGTCAATGAATGTTTTTGACCATGTGGGAAATGAGAAGACAACGATCGGTCTGTTGACAACCTTGTGAGATATATATCCAGAAGCTTTATATGAACAAGTTATACCTTTTTATTAAACTCATGGATTTGAAAATGGCTGAAGGTGTGCCTTTTGTGGAACATTTGAATGAATTCAATAGGATCATTGAAAAGTTTAGCTTGGTGAAGGTTGAGTTCAACGAAGAAGCGACTTCTATCCTTTTTCTTTCTCCTTTACCTGATAGTTGGGAATCTATGAAAGTAGCGTTAACTTTCTCTTTAGGTACAACAAAATTGAAAATTGAAGATATTATATATAGATGCAACTTTTACAGAAGAGATTTATAGAAGGCACTTTGGTGTGACTTCTACTTCAAATTCAAGCTTCAAGGATAGATGAAAGGAGAAGCAGACAATTGAGTGCTACTACAGCCACAAGCAGGGTCACATAAAAGCATATTGTAGAAAGTCGAAGAAAGAGCAAAAAGATAACTCCTAAGTTGAATATTGGTTTAGATTATTTGGAGACACTCTTCTTGTTTCTCCGCAAGTTCTGTTGATCGAAAGCACATAATTTGGGTTGATGCATATTTGGAGGAAGTAGAGAGCATTTAATTTTGTGAGCTGGTTTCTGAAGGCAGGACAATTTGAGAGTTGTGTGGTTGAGTTTTCTCTTGTTTGTCTTTTATGATTTTTATTCTCAACTCATAGTAAACATATAGGGCTTTCGAAAGATCAGACATATAATTATGCAATTATTTCTTTTCACTTTTACTTTCTTTGTTATATATCTTTTTATTCTTTTAAATTCTTTTATTAGTCTCTGAATCTGTCATCCTTTTGGAATTGTGGATGCCTGTACATGTGTACATTAATTGGTCCCATTCCAAGTGGGAGTTCAATTGTATGATCATGGAATTGGATTGGATTTAGACCTCCGCGAGGCTCAAGCATGCCTGCCAAACTCTATGATATTAGCATAATTTCTTTACAAAAAGGCCCAATTCCCTTAGTAATGTGTGTGAGTATTAGTTGTATAGTTTTTAAATTCAAATAAGATTAAATTTATTGAAAGCAATAAACACAAAAACGAGACTTTCGTGGAAACCCGAGTACGGGTTGAAAAACCATGGTATTGTTAGTTTTATTATTTTATGATGAATAATACAACAGGTACGAAGAGGGAGAATAAATAGAATACACAAAGAAATAAGAAAGGAAAAGATTTTGGAATTAGGGTAAATCTTTTCATAAATACCGTAAGGGCCAAGCCCACTAATTCTAACAAAATTTACAGTCACCGCATTCTTAGCCTTTTTTATACATTGTAGAAATGTCGTAAGCTTCCTTTGCTCCATTGGCAGCAGGCACTCACTAGCATCTCTCTTCCTACAGCACTCATGAATTCGATTCTCATATGTAACACCTTATGTATTGTAGAAAATGTCTGCCTACAGTTATTTACTTTTAATGTTATGTAATCCCGTTTCTGTGGCCCCATGCTTGTAATTTACTTAGCTTTGCCGTTGGGTTGATAATATTTTGCTATTCTATATTCCACGTGTCCATGAAACCCATGCTCATTTGAGACTTGGGCAGTAAACAAAGTGAATGCAGTTTGTAGTTATGCCTGGGGACTCTCTAATGTTGCATGAATGTTTGATCCTGCATTGTTTGGAAATGTCCATATTTTATTAGGGGATTTGCTTGGATTATATTTTCTTAAAATAGTGAATGAGAGAAGATGAGTAGGCAAGGTGTTACACTCATGTGTTACTGGAATGGGACAACAATGAGTGGACCACATGGCATTTCCTACGAAGGTGCTGCACCAAAACCCATCCGAGTTGGCTATGGGATTACACATAATGAGTTGATTGATAGGATATATGGAGTTACTGGATTTGACAAGCAATCCTTTAAACTGAAGATCATATGTAGGTATCCGGCATGTAGAGAATACATACCGGTGCCAATCGATGATGATGAGTCTATAGATATCATGTTTGACGTGGCACGACAACCGGGAACTAACTGTCTAGAACTATATGTTGAAAAAGAGCCCCTCTGCAACCATAACCCAATAAATGTTCCAGAACCAACCATTGTTGATAACCAGACGACAGATGAGATGGCCACAGATGATGCGCAAGTCGATAGCTTTTTAGATCCAGGTCCAGTTGACAATTCGATTCTTGTTCTACAAAATCAGCATAGATCTGAAGCCATATGGATGGGGGAGATATGGGCATGGGAACGCCTAGATATTAGCCGGCCAGAGAGGTTGGTTTATAAAGGTCGAAAATCAATTATATCAGATACAAAGGCTGAGAAGGAGAGAAGTTCAATTGCAGGGGATGCTATTGTAGACAACGAGCAATTACCAGCTGATCCATTAGGATGCAGATGGAAGGCAGCTGTGATTCGTAGAGATAATCCTCACAGAGCATTAATATTTTACAGGGACCTGCTTGATCAGCAAACAGAGAGCCAGTTCGTTTTGTCTTCCCTGCGTCGTCTTGAGAACTTTTTGTGGTCCTTAGCTGTACTCTCACTGATTACGTCTTCGGAGATGGTCTGGCAACCTTACATTTCTGAGCGTCTTGCATCACTACCAGATTCTTTGCTCAGAGACCAACATGTGTGGCGGACGGTTGCTCCACTCATTTGTTTTGATATTGTTGAATGGCATCATCCAGAACGAGTTCTTCGTCAGTTTGGTCTTCACCAAGAAATCCCACAGCCTTGTGATACAGAAACAAAGCTGCATACCATTGACAGGCGGGGAAAACATCATTATGATTGGAAAGCCTATCACGGACAGTATATTAAACTATGGGAGGGCCGAGAGAAGAGCATTGCAACGGGCAAGCTAGAAGAACTGCCAATGCAATACCATGATCCTTACATGGTTTGGTATAGAAATGTTACTCGGCGTTTGATCACCCCTCTCACCCAAAGGTCACATATGCGGTTTCAGCCGTCGAGTGGAACCTCACATTTACTTGTACAAAGTTTGACAACTATTCATAACCAGTGTGCATGTGCACTTGAATCTTTTACGAGTGATGGTGCTATGAAATCATTGGAGTGCATTCAAACAACCTGCATTCGAGTTTTGCAGATGATTGGAGAAACTCGTCATCTCAAAGGAAAACAATCAGTTATTTCAACCAAACCAATCACAACCATTCCAAGTTCTACTAATGATGCTAACAATACAGAAAATCACCAACACGGCGAGTGTGCTTCTCCATCTGTACATACAGTGAGAGTTCTAACTAAAGCTTCATTGGTCAGGGGACAAGGAAGAAGTAGAGGTAGAGGTCGTCCCAGAGGCAGCATCAAGAGTAAAGGTGGAGGTTATTGCAAGGCTCAAAGTGTTGTGGTTGAGACCTCTTCACCATCATTTCTATCATTACATTCAACTTCAGAATCCTTGCAATCCAATAACGGTTGGGATAGACAATTGCATATTGAAGACACGGAGGTTGGTACAATGATCGAACCAGTGGACTCGGTTTCTGCTGAAAGTTCACCAGAGAGTGAGAAAACATGTGTGAGAGAAAAATCACCAGAACAATCGTGCCTGATGTACAAGGAAAGTAAAAGAGACGTCGTTGTGTCGCCGTCAATTAGACCGATGCATCAAATGAAGGGGGATAAAATGGAACAGTCGGTACCTCTACTAGAACAGGAAGAGAAGTCCATCAACCTTTTGGGTAAGGAAGATATTGGGAGAACAGTTGCTTTACCAAACGTTGGATCGATATCTGGCTTGTGTGATCTTAGTCCTGCTCAGCAGTCTGGGCATCCTACTTTTCCTAAGAAACGAAAACACATTTAACAAAAATGATTTGTATATTATTATATATTGAGAGTTTGTTGTTTCTAACCCTTCATGCTGATTGATAGTGGACTTGAAGCACTTTCAGGGACGCAAGTCATCAATCATGTGTAAATACACTTTATCTAGTTAGGATTATTGTCTAAATTGTGTTAAGCTATGATTTCTTAATGTGTATACTCGAATGAGTTACTCTTGCTCACTGGTAAACCAATTAATCTCTTGCATCACTTTCCACACTACGCATTCATTTTTGGGGGAATTTGGTTCATCCCTACCACAATGTAAGAATGACATACAAAAATGGGAACCTTGTAAAATTATTTATTTGCAGGTAAAGAAGGATGGCCATTAGTTT ATGAGTAGGCAAGGTGTTACACTCATGTGTTACTGGAATGGGACAACAATGAGTGGACCACATGGCATTTCCTACGAAGGTGCTGCACCAAAACCCATCCGAGTTGGCTATGGGATTACACATAATGAGTTGATTGATAGGATATATGGAGTTACTGGATTTGACAAGCAATCCTTTAAACTGAAGATCATATGTAGGTATCCGGCATGTAGAGAATACATACCGGTGCCAATCGATGATGATGAGTCTATAGATATCATGTTTGACGTGGCACGACAACCGGGAACTAACTGTCTAGAACTATATGTTGAAAAAGAGCCCCTCTGCAACCATAACCCAATAAATGTTCCAGAACCAACCATTGTTGATAACCAGACGACAGATGAGATGGCCACAGATGATGCGCAAGTCGATAGCTTTTTAGATCCAGGTCCAGTTGACAATTCGATTCTTGTTCTACAAAATCAGCATAGATCTGAAGCCATATGGATGGGGGAGATATGGGCATGGGAACGCCTAGATATTAGCCGGCCAGAGAGGTTGGTTTATAAAGGTCGAAAATCAATTATATCAGATACAAAGGCTGAGAAGGAGAGAAGTTCAATTGCAGGGGATGCTATTGTAGACAACGAGCAATTACCAGCTGATCCATTAGGATGCAGATGGAAGGCAGCTGTGATTCGTAGAGATAATCCTCACAGAGCATTAATATTTTACAGGGACCTGCTTGATCAGCAAACAGAGAGCCAGTTCGTTTTGTCTTCCCTGCGTCGTCTTGAGAACTTTTTGTGGTCCTTAGCTGTACTCTCACTGATTACGTCTTCGGAGATGGTCTGGCAACCTTACATTTCTGAGCGTCTTGCATCACTACCAGATTCTTTGCTCAGAGACCAACATGTGTGGCGGACGGTTGCTCCACTCATTTGTTTTGATATTGTTGAATGGCATCATCCAGAACGAGTTCTTCGTCAGTTTGGTCTTCACCAAGAAATCCCACAGCCTTGTGATACAGAAACAAAGCTGCATACCATTGACAGGCGGGGAAAACATCATTATGATTGGAAAGCCTATCACGGACAGTATATTAAACTATGGGAGGGCCGAGAGAAGAGCATTGCAACGGGCAAGCTAGAAGAACTGCCAATGCAATACCATGATCCTTACATGGTTTGGTATAGAAATGTTACTCGGCGTTTGATCACCCCTCTCACCCAAAGGTCACATATGCGGTTTCAGCCGTCGAGTGGAACCTCACATTTACTTGTACAAAGTTTGACAACTATTCATAACCAGTGTGCATGTGCACTTGAATCTTTTACGAGTGATGGTGCTATGAAATCATTGGAGTGCATTCAAACAACCTGCATTCGAGTTTTGCAGATGATTGGAGAAACTCGTCATCTCAAAGGAAAACAATCAGTTATTTCAACCAAACCAATCACAACCATTCCAAGTTCTACTAATGATGCTAACAATACAGAAAATCACCAACACGGCGAGTGTGCTTCTCCATCTGTACATACAGTGAGAGTTCTAACTAAAGCTTCATTGGTCAGGGGACAAGGAAGAAGTAGAGGTAGAGGTCGTCCCAGAGGCAGCATCAAGAGTAAAGGTGGAGGTTATTGCAAGGCTCAAAGTGTTGTGGTTGAGACCTCTTCACCATCATTTCTATCATTACATTCAACTTCAGAATCCTTGCAATCCAATAACGGTTGGGATAGACAATTGCATATTGAAGACACGGAGGTTGGTACAATGATCGAACCAGTGGACTCGGTTTCTGCTGAAAGTTCACCAGAGAGTGAGAAAACATGTGTGAGAGAAAAATCACCAGAACAATCGTGCCTGATGTACAAGGAAAGTAAAAGAGACGTCGTTGTGTCGCCGTCAATTAGACCGATGCATCAAATGAAGGGGGATAAAATGGAACAGTCGGTACCTCTACTAGAACAGGAAGAGAAGTCCATCAACCTTTTGGGTAAGGAAGATATTGGGAGAACAGTTGCTTTACCAAACGTTGGATCGATATCTGGCTTGTGTGATCTTAGTCCTGCTCAGCAGTCTGGGCATCCTACTTTTCCTAAGAAACGAAAACACATTTAA MSRQGVTLMCYWNGTTMSGPHGISYEGAAPKPIRVGYGITHNELIDRIYGVTGFDKQSFKLKIICRYPACREYIPVPIDDDESIDIMFDVARQPGTNCLELYVEKEPLCNHNPINVPEPTIVDNQTTDEMATDDAQVDSFLDPGPVDNSILVLQNQHRSEAIWMGEIWAWERLDISRPERLVYKGRKSIISDTKAEKERSSIAGDAIVDNEQLPADPLGCRWKAAVIRRDNPHRALIFYRDLLDQQTESQFVLSSLRRLENFLWSLAVLSLITSSEMVWQPYISERLASLPDSLLRDQHVWRTVAPLICFDIVEWHHPERVLRQFGLHQEIPQPCDTETKLHTIDRRGKHHYDWKAYHGQYIKLWEGREKSIATGKLEELPMQYHDPYMVWYRNVTRRLITPLTQRSHMRFQPSSGTSHLLVQSLTTIHNQCACALESFTSDGAMKSLECIQTTCIRVLQMIGETRHLKGKQSVISTKPITTIPSSTNDANNTENHQHGECASPSVHTVRVLTKASLVRGQGRSRGRGRPRGSIKSKGGGYCKAQSVVVETSSPSFLSLHSTSESLQSNNGWDRQLHIEDTEVGTMIEPVDSVSAESSPESEKTCVREKSPEQSCLMYKESKRDVVVSPSIRPMHQMKGDKMEQSVPLLEQEEKSINLLGKEDIGRTVALPNVGSISGLCDLSPAQQSGHPTFPKKRKHI
BLAST of CsGy5G011700.1 vs. NCBI nr
Match: KGN49696.1 (hypothetical protein Csa_5G074680 [Cucumis sativus]) HSP 1 Score: 1326.6 bits (3432), Expect = 0.0e+00 Identity = 673/704 (95.60%), Postives = 674/704 (95.74%), Query Frame = 0
BLAST of CsGy5G011700.1 vs. NCBI nr
Match: XP_011654504.1 (PREDICTED: serine/threonine-protein phosphatase 7 long form homolog [Cucumis sativus] >XP_011654505.1 PREDICTED: serine/threonine-protein phosphatase 7 long form homolog [Cucumis sativus] >XP_011654506.1 PREDICTED: serine/threonine-protein phosphatase 7 long form homolog [Cucumis sativus]) HSP 1 Score: 1245.0 bits (3220), Expect = 0.0e+00 Identity = 673/916 (73.47%), Postives = 674/916 (73.58%), Query Frame = 0
BLAST of CsGy5G011700.1 vs. NCBI nr
Match: XP_008460604.1 (PREDICTED: serine/threonine-protein phosphatase 7 long form homolog [Cucumis melo] >XP_008460605.1 PREDICTED: serine/threonine-protein phosphatase 7 long form homolog [Cucumis melo] >XP_008460606.1 PREDICTED: serine/threonine-protein phosphatase 7 long form homolog [Cucumis melo] >XP_008460608.1 PREDICTED: serine/threonine-protein phosphatase 7 long form homolog [Cucumis melo] >XP_016902570.1 PREDICTED: serine/threonine-protein phosphatase 7 long form homolog [Cucumis melo]) HSP 1 Score: 1061.2 bits (2743), Expect = 1.5e-306 Identity = 587/893 (65.73%), Postives = 601/893 (67.30%), Query Frame = 0
BLAST of CsGy5G011700.1 vs. NCBI nr
Match: POF27679.1 (serine/threonine-protein phosphatase 7 long form like [Quercus suber]) HSP 1 Score: 663.3 bits (1710), Expect = 9.1e-187 Identity = 322/527 (61.10%), Postives = 376/527 (71.35%), Query Frame = 0
BLAST of CsGy5G011700.1 vs. NCBI nr
Match: XP_023912566.1 (serine/threonine-protein phosphatase 7 long form homolog [Quercus suber] >XP_023913174.1 serine/threonine-protein phosphatase 7 long form homolog [Quercus suber] >XP_023913804.1 serine/threonine-protein phosphatase 7 long form homolog [Quercus suber]) HSP 1 Score: 595.1 bits (1533), Expect = 3.0e-166 Identity = 322/704 (45.74%), Postives = 376/704 (53.41%), Query Frame = 0
BLAST of CsGy5G011700.1 vs. TAIR10
Match: AT1G48120.1 (hydrolases;protein serine/threonine phosphatases) HSP 1 Score: 243.4 bits (620), Expect = 4.1e-64 Identity = 125/297 (42.09%), Postives = 169/297 (56.90%), Query Frame = 0
HSP 2 Score: 44.7 bits (104), Expect = 2.8e-04 Identity = 19/27 (70.37%), Postives = 22/27 (81.48%), Query Frame = 0
BLAST of CsGy5G011700.1 vs. TAIR10
Match: AT1G49920.1 (MuDR family transposase) HSP 1 Score: 87.4 bits (215), Expect = 3.7e-17 Identity = 42/119 (35.29%), Postives = 66/119 (55.46%), Query Frame = 0
BLAST of CsGy5G011700.1 vs. TAIR10
Match: AT1G64255.1 (MuDR family transposase) HSP 1 Score: 78.6 bits (192), Expect = 1.7e-14 Identity = 43/112 (38.39%), Postives = 62/112 (55.36%), Query Frame = 0
BLAST of CsGy5G011700.1 vs. TAIR10
Match: AT1G64260.1 (MuDR family transposase) HSP 1 Score: 72.4 bits (176), Expect = 1.2e-12 Identity = 42/146 (28.77%), Postives = 71/146 (48.63%), Query Frame = 0
BLAST of CsGy5G011700.1 vs. TAIR10
Match: AT2G25010.1 (Aminotransferase-like, plant mobile domain family protein) HSP 1 Score: 47.4 bits (111), Expect = 4.3e-05 Identity = 40/143 (27.97%), Postives = 61/143 (42.66%), Query Frame = 0
BLAST of CsGy5G011700.1 vs. Swiss-Prot
Match: sp|Q9LNG5|PPP7L_ARATH (Serine/threonine-protein phosphatase 7 long form homolog OS=Arabidopsis thaliana OX=3702 GN=MAIL3 PE=2 SV=1) HSP 1 Score: 243.4 bits (620), Expect = 7.4e-63 Identity = 125/297 (42.09%), Postives = 169/297 (56.90%), Query Frame = 0
BLAST of CsGy5G011700.1 vs. TrEMBL
Match: tr|A0A0A0KPN9|A0A0A0KPN9_CUCSA (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_5G074680 PE=4 SV=1) HSP 1 Score: 1326.6 bits (3432), Expect = 0.0e+00 Identity = 673/704 (95.60%), Postives = 674/704 (95.74%), Query Frame = 0
BLAST of CsGy5G011700.1 vs. TrEMBL
Match: tr|A0A1S3CE15|A0A1S3CE15_CUCME (serine/threonine-protein phosphatase 7 long form homolog OS=Cucumis melo OX=3656 GN=LOC103499383 PE=4 SV=1) HSP 1 Score: 1061.2 bits (2743), Expect = 9.9e-307 Identity = 587/893 (65.73%), Postives = 601/893 (67.30%), Query Frame = 0
BLAST of CsGy5G011700.1 vs. TrEMBL
Match: tr|A0A2P4ND28|A0A2P4ND28_QUESU (Serine/threonine-protein phosphatase 7 long form like OS=Quercus suber OX=58331 GN=CFP56_73049 PE=4 SV=1) HSP 1 Score: 663.3 bits (1710), Expect = 6.0e-187 Identity = 322/527 (61.10%), Postives = 376/527 (71.35%), Query Frame = 0
BLAST of CsGy5G011700.1 vs. TrEMBL
Match: tr|A0A2N9HQF2|A0A2N9HQF2_FAGSY (Uncharacterized protein OS=Fagus sylvatica OX=28930 GN=FSB_LOCUS42110 PE=4 SV=1) HSP 1 Score: 572.0 bits (1473), Expect = 1.8e-159 Identity = 333/755 (44.11%), Postives = 383/755 (50.73%), Query Frame = 0
BLAST of CsGy5G011700.1 vs. TrEMBL
Match: tr|A5AWR0|A5AWR0_VITVI (Uncharacterized protein OS=Vitis vinifera OX=29760 GN=VITISV_044150 PE=4 SV=1) HSP 1 Score: 402.1 bits (1032), Expect = 2.5e-108 Identity = 235/689 (34.11%), Postives = 311/689 (45.14%), Query Frame = 0
The following BLAST results are available for this feature:
The following terms have been associated with this mRNA:
GO Assignments
This mRNA is annotated with the following GO terms.
This mRNA is a part of the following gene feature(s):
The following polypeptide feature(s) derives from this mRNA:
The following 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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