Cucsa.018040.1 (mRNA) Cucumber (Gy14) v1
The following sequences are available for this feature:
Legend: five_prime_UTRCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.CATTTTACATTGGAATAGGGAAGCTCAGAGATTTGTCACCGTCCGCCATGGCTGCTCGCAAGAGAGCTTCTGCACCCCAATCAGTCAAAGAACCTTCTCCCAAAGAAATTGACAAAACCCGTCAAAGCAAATACCCAGTAACAGATGATCCGCCCATTGCGCCACCGAAATCAGGTTTTATCTTCAAGCTCATTCTCTTTTTCTCTATCCCATACCTTTACCTCATCTTCTACCACTACAAGATCGACTTAGAGCTTAGAAGGTCAATCATCATCAATGCCGGACTCAGTCTCGTTGGGTTCTTTGTCACTCTGCGGATGATACCTGTTGCCTCTAGATACGTTATTAGGCGTAATCTATTTGGCTATGATATCAACAAACGGGGTACCCCTCAAGGCGCTGTTAAAGTGTATGTGATTTCTATTTTGAAATGATAACTCTTATTAGATTTAGTCATTTTATGAACATGATTTGGTTTTTTTGCTTACGAGAAATTTTGTTTAGTTTGCTTTAACTTTCTAGGTGACTTCTCGTTTTGAATCTTCATCAATTCTGTGAATCCGACGTAAACTTTTAGTTTAAATTAGCTTTGGAATTATTTATGTTGTTTTTGGTCTCACCTTAAATTTTTGGTGGTGCACATTGGATTAGTTAGGTTTTCATTGTCTATATGGTGGATGAACCTTTTTAAGTTATTGAGGAAGATAGGTTATGGCTATACTATTAAAAAAAAAATACCTTGAAGCTTTAACTTTGCCTTTTGCTCCAAAGGTACTCCTATGTTTTACGAAAGTTGCAAATATTACTCTTCACCTTTCATAAATGTTTCATAACTACCTTTGGGGTGGAAATAGCAACATTTAAACATGTCGTTTTTTCATCAAATATTCTAATGGCTTTTCTATTCCAAGAGTAGTTTTGACAGGTCATCGGTAATTTTGTAACTTTTGAAAAAATAGTGAGATTTTTAAAACAAAGGGCAAATTTCAGTTTTTATTTTTTTCTGTTTTAAATTGGCATTTACAAACCCAACAGTGAAATGGTTTGTAAGAACAAAGAACTGTAATACCTTTTTTTTTTTTTATGGGAACAGCTAAATTAAATAGAGGTGAAAATTTTAATTTTTCCGTTGTTACTGAGAACAAGGAGTTTTTATGAGTGAGTGGAGCACTGAGAGAAGTTCTATCATCTTATGACTTGTATGTTCTTTTTTTCTATTTTGTTCGGGCCATCTTATGCACATCTGAGTGATCTCACGGGATAACATGCTTGACCCTAGTTTTGAAACCTCCATGTATGGGGATATGGTGTTTGGCCTCAATGGTTTCACGTTTGGCTTTCTTTTAGGAGTGTTGAGATGTCATCAAGGCGGGATTTTTCAAGGTTCTTGTTGAATCTCACGTGAGGGCCTTAAATTATAGCCATGAATAAAATCTACATTCAGAATAACAAAATGCTGTTAGAGTGAGCTTTTTTATGCCTTTAACTTAATGAAAATTTCATACAAAATCATTGCAAAAGCTAGTTGTTAGAATGTGTGAGGTCAAGGTGTAATCTCAGACCAGGTTTAGGAATCATGGAGGCCTTTGTGGCTGGGAGATAAATTCTTTTGGAGGTTCTTATGACTAACAAAACTATCAAATAGCCACTAGAAGAAATCTCAATAGATGAAATTCTAGATCTACAACTTTTTGGAATTCAAGAAGTATGGTTGATTTATAAGTGAAATCTCAGTATGTATTAGCTTGAAAGCCTACTTGGGTCTATTAGGGATATGATTCTGGATCTACAACTTTTTGGAATTAATCTAGATGTGGAATCATGGCTTGAGAAGAAATCTCAAAATTGACAAAATAGAGGAGTAGATGTCCTTGATTACTAAACTGTACCTTTTTATCTTCATTAGGAAGATAGAGGCAAGAGAGGTTAAAAGCTCAAGATTTCAAAGCTTGAAAGGTTTGTTGTCTTTAAATAAATATAAACCAAGGTCAAAGAATTGAGAGTTTCCAGAAAAGCAAGGGTAGTGGTTAATCATTCTTATTTGATGTTATAATTGGGGAACTTTTTTTTATTAGGGTGATCTCTTTTCCAGTTTGTGGATATTAGGTACAAGAGTTGGATCTTTTGTTTCTTTCTTGATAACCAGTGTATCAAGGGTCACGCGAGTTGGATCATTTGGAGAATGTTTGGCGAGCTTGATTCATATTAGCTAGCTAAAACCTAGATGCAGACTTATGGAAAAATTGAAAAAAGAAAAAAGTTGAAATAATGGAGTAGAAACAAGAAGGAAATTTTATGTCACAATTTTTCTTGTTTGTTGTTGTTAGAAGGATTTGGCTTGAGAGAAATAATATAGTTTTTAAAGGAATGAGCATTTTGTGTAAGATTTGTGGAGAGTCATTGGGTTTAATGCCTTGGTTTGGGTCCTGGTGGTTAACGTATATTGTATTTATCAATTAGGTTTTGTTCTTTTGGATTGAGGCCTTTTCTTGTAGTTTCTTTGAGTTCCATTTGTTGGGTTCTCTTTTTTTTTGTGTGTGTTTGTGTGTGTGTCCTTATATATTCTTTCATATTTCTGAATGAAAGTGTAGTCTCTTAATAAAAAAAAAAGAAAAAAGAAGGAAAGTTTGATATAAGAAAGTTAGATTTTAGAAATTATAATTTCTTGATCTGGTGAAGGAAGGGAGATCTTTACTAGAGTATTATTGAAGCAGAAACCTTAGCATTATGGTGAAGTAACAGAAGAATTACCAGCAAATGAGTGAGTTATCTTGTCTTAAGGGATTTCAATGGAAGGCTTTTTTCCATTAATTGCTTTTTTTTATATCTATGAGTGTTCGAGCCAGCTTATGCGCACTTCGACTAATCTCACGGGACAACCCGCCTGTCCGTACAACATTTGAGTGTCAAGGAAACTCGTAGAAAATTAATTCCTAGATAGGTGGCCACCATGGACTGAACCCATGACCTCTTAGTTAGTTATTGCGACTATGTCTCCTTTCTTAATTATTTAGCATTGAGAAGAAAAAGAAAGGTCTCATTTTAGGATTATTATTGGATGGTGGGGAAAGTAAAGTGAAAGATAAAGAGTTGGAAGCGTGAATAGTTGGCTTCTCTAGGAGGTTGTATTCTAAAGTTGAGGGATAAGTTCAATTCTTGATGGGACAAATTAGCCACCGATTTCTGGAGAGGAGAGATCTTTGCTGGAAACACCAGTCATATAAATATTTGCTCTCGAGTCTATGGTCATTTTCTGTTATTTTAATCTCAATTTCCTGTTTCTTCCCCTCCCTTGGCTCACATTTTCCACCCCAAGTTTTAGAAAGTTAACATCTCTGAGATCTATTTTTTTATTGGTTGGTTGCACTTGAGGAACTAACACCATGAATCATTTTTGGAGGTTTTGGTCTATGGTCTTCGGCATAAATAGTTTATTCTTCATAAATAAGTATCTGGGCTTGGTTATGGATCACTTTCTTAAATGCTATTTTTCCAACAATATTTTAGACAACTTTTGGATATTCTTGCACTTAGCTTGGTTTTGAATAGGTATCGGTGATGGAGGATGCGTTCTTAGGCAGTCTTAAGGGAAGAGAAGTTAGGAGGCTTAGGAGGATTTTAAAGGGATAGGATAAAAGGATGTTTGGGAGCAGGTTTGACGCACTAAAGTATTAGATCACATTCTTTATTTTAAATTCTCGTAGAAATCCTCTGTTTTGGGCTTGCGGGCAATACTTTTGTAATTTTCAAAACTTGTTATTCATTAAAAGAAATATTATGAATGATATTTTATAGACATAATAGCAGTCAGTTATTGAATTCATGTGATCAATAGTACATTATATACTTGATGGTTGAACTGTGGTGTCATATATAAGTGAGGTGGCAAATAAAAAAGCTTTCTTTTCCATAGAGGATTTCTTTTAAACTGATGATATGTGTTTCTAACCTTTGTTATTATATATCTATATATGTTAATTTTAAACCACATATACATTTTGATGCACTTTCTAATGCTTCAATGTGTATTGCAGGCCTGAGTCGCTGGGAATTGTTGTGGGGATTTCCTTCTTGGTCTTGGCAATTGTGTTTCAGTATTTTAACTTCACTTCAGACTCAAATGTGAGCACCAAACTTATTAAAAAAGAAAATCCATTTGGATTTTGATTAGCAGATTAAAAAATGACTATACCATGTCCTTAGTGCTGGGCAGTTCACTTCTTTTGTATACCTAGATGAATTTATTCTTTTCTATTGATTAGATTGCAGTTATTCTTTCTGTATCTTTTCATTGATTTATTTGCTATAATAATTGTTTAGTTGTTTATTTTTTTTGTGGGAGCGGGGGGATGTGAATCACAGCAGCCTAAGTTAATCTCATGCTTAACTTTATCAAGCAACCCTTTGCATAATTTTTGTCAAACTTTATCTGTAACTTTTTCAAAGATTTAATTGGTAAACAATATGCAGTGGCTTGTTGAGTACAATGCGGCCTTGGCATCTATTTGCTTCATGACGTTGCTTGGATTTGTAGATGATGTTCTTGATGTCCCATGGAGAGTGTGAGTATTTTCTACTCAGTTTACTCACTCAATTGTTTGTTCCATTTCTAAGAATGGTCCTCTAGCATGGTGCTTTATTAATGTTAACTTTAGTTTATTCTGACACACAGTCTCTTATTTGTTGTAAAGATCAGGAAACTGCTACTCCCATCGTTTGCTGCTCTTCCTTTGTTGATGGCTTATGCTGGACACACTACTATTATAATCCCGAAGCCTTTGATTCCATACCTTGGAATGGATGTTTTAGATCTTGGTAAGATTTCAAACAACATTTTTATGTTGAAGATGGAATGCATGAGCACATGAGTATGTGCATGTGCCTTGTAGTGATTGTCACATGAAAATTTGTTCAATCTTCAATGTTGATCCAATGTCACAAGCCTTTGGAGTATCCTAAAATTCCGTTATACTGGTTTGATTCTCCTGTGCTCAAGTCCTCTTGAGTTTTGCCCATTTCTCCCACGAGTCAACTATAAGTAGGATATCTCTCATCCCTGAGGGATGAAGCCTTTCAAGATAAAGATGAGGTTTCTAAATGAGATTTGGTCAACCTTGGAGTCTTGGACAAAGAGAGGGCTCTTGATATAATTAAATTTACCTAGCTAATTAGCTTAAGCTTTTGGAGTTGGTGGTTGTTTAACATGCTATAGGAGTAGGAGGTTTGTTCAAACTTTTGTAATATTTTTTCCTTTTAATATTCATTTTCACTTGTTGGAGTTTCTACAAAATTTCAAGACCACAAGTGTGGGGAGTTTTAATTTTACCAAAAAAATAAAGTGTGGGGAGTATCAAAGTTTTGATACAATTAAATTTACTATAATCTATCAGTGTAAGTTCTTGGGTTTAATGATGATTCGACAATTTCTTATGTGATTTGTGGATGGTGGAATTCCTCTAACTTGGTTTCTTAAATCTTCCTTAGTTTCGAACTGTTTTCACCAGGATAAGTCTATCGAAAGTGGTTAATGCTCGAGAATCTTGTTTCCCTTGTTTTAGGTTTGATCTGGCCGTGTGAAGGATGTCTGTCTCAATATAAGAGATTATAATGAGAATAACCCATGAAATAATGTTTGTAGGCCTTTTTGTATAATTTCACCATTCTTTCAATGAAATTTCCTCTTTTTTCCCAATGATGTATTAAGTTTTAAACCTAATGGACCCACTACAGATGTATTCTACTAAGGGAGTCCTTTTTGGTTTGTATGTTTATGTGAATGTTCTAGATACATGCTTCAGGAAGTTTTGTTATTTATTTTAGTTTTACACTATTGGTATAGGGATCTTATGTGTATACCTGAAATATATATGGCTCTAGAAAATGAAATAAAATTGTGCATTTTCTCTCAGTAACCTGCCAGTTTACAAGGATGCGTTTGTTTGAGAACTACTGCTTGTAACTCATTGCCAATGATGAGCCATTTCCTGAAATTATTTGGTTACATTTCTGGAAGCAGTCCTTGAAAATTGTGGTACTGTACATGGTGTCAGGAACTTTATTAAGGATAAAAATCAGTACTTTGAAGTAAGTTGCAAGTTTGGCAACAGCACGTCTCCGCTTCCTAGGCAGTCAGTTAACTCTTTGGTAACTTTAGTTATTACTTCTGTTGGTGTAAAGATGTCAATAGATGTTCTTGGTTTGCATTTTGAATGAGTGATTGTTATAGTCCTATCTTGGATTAGCTCTCCAACAATTTTGTGACGGAGGTACTAATTTCTACTAATATATAATATACAGGATGGATATATAAGCTTTATATGGGACTATTGGCAGTGTTCTGTACAAACTCCATTAACATCCATGCTGGTTTAAACGGTTTAGAAGTTGGGCAAACAGTTGTCATTGCATTTGCGGTGAGTACTGAACCTCCTGTGGTAAAGGGGTCAGTTTTCTTTTCTTGAGCATGACATATCTTAGCAATTTGCAGATCTTGGTCCACAACGTCATGCAAATTGGAGCATCGACGGATCCCGAGTACAAGCAAGCCCATGCATTTTCTATTTATCTTGTTCAACCACTATTAGCCACATCTTTAGGCTTGCTCGCTTACAATTGGTAATTTATCAATTTTTACATTGATTCATGGTTGTACCTGTTTTTTCTTGATGTTTAGATAACTCTTCTCTCCATTTTCCGATGGCTTGCTTGATTTAGGTACCCTTCATCCGTCTTTGTTGGAGATACCTATACATACTTTGCTGGGATGACCATGGCCGTGGTTGGGATTTTAGGTCATTTTAGGTATGTACTTCGTTCTAAGTTACAATATTTTGCATTCCACCTGGCTCAAGTTCACTTTTTATTTTTTTCTCACCTTCTAAAAGTCATTGGAATTTCATTGTCTAGTGGATGGAATACACAATAAACGGCAAGGAGATGAACATCTGCTCTTGAGCACTCAAAATGAACTTTAGATCTCTTAAAAATATCCAAACATAAGTTGATAACACTATAAATAAATAATAATACATGATAACAATATCCAAACATAAGTTGATAACACCGTAAATAAATAATAACAATAATAACAATAAGAATAACAATAACAATAATAACAATAACAATAACAACAAAAATAATAATATTAACAACAATAAGAATAATAGCAGTAACAGTAGTAGTAGTATTACTAAGAGTAGTAGTAGTAATACAAATGGCTTAGTTAATGACCATTATACCCTTATTAACCTAATGATATATATAAATTCTACCCTTAGGGGGTGTTTGGCCCATGAGTTTGGAATTAGGGGGGTTTGACATTTGAAGCCATACCCATACTTGGACACTAGGAATAAACCGTGAGATTAAGGGTTGGGAATATGTTTGTTTTTTTAATTTTTAATTTTATTTTATTGAATGTCATATGCTTTAGAAAAATTTTCACTTCAACATCTTGATCATTAATGATCATTGGCAACAAAGGTTAGCCAACTTCACGATCAACCACGATGATCGATTATCTTAACCGTTGACTCCGGATCATCTTGATCGTCGACTTTCGATCGTCTTGACCGTTGGTTATCAATTGTCTTGATCATCGGTTACCAGTCATCTTGATTGGTGGTGACCTACAACTTTGGACGTTACTGTTGTGGGGTGAACATTTTGATCGATGACAACCGATTGTTATCGTTAATTATTGATGTCATGCCTAATAATAGACTATTGTAGTGATGGTCAAAATGATCAATAGTCATGACCCTTGACAACTGATTGTCATGATGGTCAACAACCAACCAATCGTCTTAAAATTGATGACCATTGATCGTCTTCACCAAGGCTTCCTACAACTATTTCCCATGGGATTGAATAGCAAACACTTTCCAGCCCATGAATTACATTTTTTTTTCTAATTCAATCTAGAAAAGTCATCGACCAACCCTAAACACCACCCCTATTGACCATTGTCGATCGTCCACTAAGTGTCATTTTTGACAACTTTGCCGACGAACTTTCGATGACCACCAACTTCTGCAACTGCTGCAAACCTTGAAAAATTAACAAAAATGAATTTTTGAAAATTTTTTTCGAGTCATTCCAAATACACATTGAATTTAATCACAGTAATATATATATATATATATATATTTTGATAAGAAACATGTGTATTCATATAACAAAAAGAACAACCTAAGTTGCAAGGACAAGAGGGCCATCCCCAGAAGAAACTAAAAAATGATGGCCTTCCAGTTGTTGAATATCATTGTGAAAGGCTATAATGACAAAAGTGTTTGGTGTAATTTGTACTTCACCAAGAAGCTGTGTGTTGCAACACAGTCCAAAAAGAATCAAAATAATTATAGCTATCTTAAAAAGTTATACTATTCCTTTCTTTCCAAATGCACCACAAAAGGGACCGAGTAGCACATCTCCATAAGATGTTTCCTTTCGGGCTATAACTTCTAATGTTGAGCCCTTCAATCATCCATTTATCAATCTTACTAGGAAGACAAAGCTCCAAATCAAAAATTCTAAACAAAGTGTTCCAAGTTTTCTTAGTAAAGAGACAGTGCATAAATAAATGGTCCAAGGTTTCCTCTTATTTGAAGCAAAGGCAACACATCGAGGGGCTAAGCATAGTGTACTTAAATTTTTTTTGTAGCTTCTCATAAGTGTTAAGGCTTCTGTAAGCGAGCAACCATAAGGAACAACAATGGAGGGTGATCTCTTGGTTAAGTTAAGAAAAGTAGACTTTGTAGTAAAGTTGCCATTAACGTTAGGAGTCCATTTAAGACTATCATTCCCATCTGAGGAGGCCCAAGAATGAAGAATTTCTAAAATTGAGGCCACATTGGCAATCTCGTTATTGAGCATATTCTTCTAAGGTCTAAGTTCCACGAACGAGTAACAATACATCAACATTCAGCCACATAAGCATCTTTATTTAATGACAAGGAGAACAAGTTAGGGAATTTTTCTACAAGTGGCTCTACGCCGCACCAGTTGTCCTTCCAAAATCTTATTTTGGTTCCTTTTCCCAGCACAAAAGCTGAAAATTTAAAGGTCTCCTTGTGCTTCAAAATTCCGGCCCATAATCTATAAGATTTTTCCCTGTTCGGATATTTAGTAGACCACCCATTCTCCTCTAAGTCGTAAATGACCACAATTAAACACCTCCATAAGGAGGCTTCTTCCTTGCTAAACCTCCAAAACCATTTAGTGAGAAGAGCAGCGTTCTTTTGCCTAAACAAGCCAATCTTAAGACTACCATAACAGATTCGGGGGGAAGTACAATCCGATTTGACGAGGTGGGCAATTGAATTAGTAGACCTTCCTGTCCAAACAAAATTCCTGATCATCTTTTCCAATCTATTAATAACACTGGCTGGAGCTTGAGCAAGGGAGAATAAATAACAAGGAAGACTATTGAGAACTGATTGCACCAGAGTTAACCTACCCCCTCTAGAAAAGGACACATTCCTCCACCTGTCGATTTTATATCTAAATCGCTCTTCAAGGGTGTTCCACATCTCTTTTTTATTACGACACCCTCCAGTAGAAAAGCCCAAGTAGTTAAAGGGAAGACTTTCAACGGAGCACCCCATATATTTACTATAAGGAGCTAAGTTACCAAACCACAGTAATATTTTTTAAAATAATTTTTTCATTATTCTATTTTCTTTTCTTCTTAAGTTTTTTTAACAACTATTATTATTAAATCATCTTTTTTAATTATCTCTTTTCTCTTCTTTATTTAAAATTAATATTTCCTTCATTCTAGGAGAGTATTTTCTATTTTGTTATATTTTTCCAAGTGGAAATTTATGACCTATCTGTTATGACCTCAAGTATAAATCAAATATTATTATATTGATAACATAGTGGAAATTGTAAATATATATCACATATATACCATGGTTTATTTTTAGTTTAATAACATTTTTCATTTGTTTTGTTAGTCAATATAACTAGAAGACTAGGACTTATTTTGGATTGACATAAGAAAAAAATGTTTTTTTTATAAAAGAAAAACTCATTTTTTACTCTTTTGATAACCGTGATTTAAAATACATTGCATACGCGTCATAGGAAGACAACCATAACTATGGCGTAGTGTACCTCTACTTGACTTTCGCTTTTGTATGACCTTTTTGGTTATGCTTGTTTTGAAGTCTATAATTAGACCCTTTTTAATGTTTGGTTAACTAGAACTCTCGTAAACTTCATTCGATTACATAACTTGTTATATTTTGTAAATAATTTATAATATTTATAATTAGACCATTCATGTTAATACAATTGTAATCAAAATTATTGTTATCGAATATTAAAAATTTTTGTTTTTCATATTTTCATTAAAATAGTCAAGAAATTGAATCAGAGATACAAAATATGAAGAAAAAAAATCAATTAAAAAATTTGATACAAAATAAATTTAGGAAGTACAATTAATAAAAAAAACCAAACAAATTAGCTAAACCCAAGAATTAAAAACTAGTACCTCAAACACAGACATCAGAAATACAGGTTTCCAAATCCTGTATCCCAAACTCAGACATCAGCAATTCCCGGGCATCAGAATCTCATTCAAATAAGCCCACAGACATTTAATTTCCAAGCATTTGACTCCGAACCTGCTCGCCAAACACCCCTTTGAGGAAATCTGAGAAAATTGGAACGATACAAAGAAGTTAAAATACTATTGATTCCTATTTTTTTCAGACTTGCTATATTTTAGTCGTGATAGTTTTATATGTTCAAATTTAGTTACTACATACTATAGTTTCAAGAAATTTCTAATTAGTCCATACCATTAATTTATGACTAACTTTTGCTATGACAAAAATTAGTGTATGCAATTGTGTCATATTTGCAAATAGTTAGTGATAGGTACTAATAGAAGTTAAAACTGTGTCAGATTTGCAAATAGGCTTGGACAATGGCCCCATTTTATATCCTTTCATCTTTCTCAATAAAAACTTGGTTCCTTATCTTAACAATGATAATAATAAAGAAAAAAAGGATTCCAAGGATTTGTCTGTAGGAAGTGGAAGTGAGTAAAGCCTGTTTCTGGAATTATTTTCTTCGAGTATCCAATACATTATCAATTCTCTGATTTCAATGATATTCCCGTGGATTAAAGTCTCAATGGAACCCAAAAATCATACACTCGATGGAACCCAAAAATCGTACACAATCAAATGACATTTTGGTTTAAAGATACTGTTTCAATTTCAAGACATATCAACAATGGAAAGACATCCCGCTAGTTCTTTGTCATGTTATTTGTTATGATTTTTGTTACTTTTTGTTATCCATTTATTTATTGATGAATTTCTTTCTATACTATTTCCTGCTGCAGTGAAACTCTTCTGATCTTCTTTTTCCCTCAAGTTCTGAACTTCCTTCTGTCACTCCCTCAGGTTTGATTCTCTAGTCTTTGTGTGAGTCTTATCTGTATGCATTCATTGTTTAACGTGTATGATGCATTCTTGCAGTTATTTGGATTTATTGCATGTCCACGTCATCGGCTCCCTAGGTATTCATTATCCTGTCCCATTACTCTTCTTTGTTTTGTTGGCAAAATAAAAAGGAAAAAGACATTCTTGCTCTATAGTTAATCTTCTTATATCTCTCCTTGCCCTCAGATTTGATCCTCAGACTGGATTACTGACTGGAACAAACGATGGAACACTTGTGAACTTTTTCTTGCGAATATTCGGTAGAAAAACAGAGAAATCACTTTGCACCTATCTTCTTGTTTTCCAGGTGATTTTCTTGCTTTTCTGTTTTTCTTCTATGCAAGGTCAGAGCGAATAAGAAAGAAGGAAGAATTGCTCCCACTTGGTTCATCTTTATATTAAAAAAACATAAAAGAAGTTTGACTTTTAAATATATAGTACCATTTGGTAACTATTTTGTTTATAGTTTTCTGTTTTTGAAATTTATGCTTCTTCAATCCCAATTTCTTCACTATGGTTTTCATTTTTTTTTGAAGAAACATTTGAATTCATATTTAAAATCTAAAAGCAAAAACCAAAATTGAATACTTCTTAGTTTTAAAATTTTGCTTTGGTTTTTGAAAATATTGATAGAATCTAAAATGCAGACATTATAACATTAAAATTTAGAGGTGAAACTAGTGTTTAGAATCTTAGTTTTCAATAACCAAAATATCAAGTAAGAATAGATCCAAATGGCCTTAATTTTTTAGAATGAGAATAATATAGAGAAAGTTCTAGTTAGAATATAAAACTGTACTATGCACTGCTTTTGCTTGCATTGGTTTTTCTTTATTAAAATCATATAGACCCCTTTTACCTGCTCTAGCAACTTCTGCTTACATAAGGCTATTAGAAGGTTAAATGGCTAGCTAAAAGACTATGATTACTGATCTCTGGGAAGTCATATCCATTTTTATGTTATGTTATATATAATCTTCCAACATTCATCTCCATGAGCAGGGCGTTTTCTGCTGCTTTTGTTTCTTGCTGAGGTATTTGCTTGCTGGATGGTATAAATGATGCAACAACACAATCTTCACTTTGAAGCCTTTCACAATCATGCTGTCATTTTTCACGTTGTAATACTTTATACGACATTCTATCGAAAGCGTATTTGCGATGGAAGAGTTTCGACCATATTTTGAGAATTTTGAAATGTATTCAGGAAAAGCATTAGTGATTGGAATTGTTTTGAGAACCGTTTTCTCCCCTGATAGAAAACAAGAAAACAGATGTTCTAGAATGTTTTCTGTTCTGACTAACATATTGTATTTTGACATGAGAGAGAGAAAAAAATATTGTTTGGTTTTAGCTTAGAAAGTTGCAAAGTTATTTATACTTTATTGTGTTTCACATCAAATATTCGTTCTTTACATTGTTGATATCTCCAACATTATATATATGAAGATTACATATTTCTG CATTTTACATTGGAATAGGGAAGCTCAGAGATTTGTCACCGTCCGCCATGGCTGCTCGCAAGAGAGCTTCTGCACCCCAATCAGTCAAAGAACCTTCTCCCAAAGAAATTGACAAAACCCGTCAAAGCAAATACCCAGTAACAGATGATCCGCCCATTGCGCCACCGAAATCAGGTTTTATCTTCAAGCTCATTCTCTTTTTCTCTATCCCATACCTTTACCTCATCTTCTACCACTACAAGATCGACTTAGAGCTTAGAAGGTCAATCATCATCAATGCCGGACTCAGTCTCGTTGGGTTCTTTGTCACTCTGCGGATGATACCTGTTGCCTCTAGATACGTTATTAGGCGTAATCTATTTGGCTATGATATCAACAAACGGGGTACCCCTCAAGGCGCTGTTAAAGTGCCTGAGTCGCTGGGAATTGTTGTGGGGATTTCCTTCTTGGTCTTGGCAATTGTGTTTCAGTATTTTAACTTCACTTCAGACTCAAATTGGCTTGTTGAGTACAATGCGGCCTTGGCATCTATTTGCTTCATGACGTTGCTTGGATTTGTAGATGATGTTCTTGATGTCCCATGGAGAGTGAAACTGCTACTCCCATCGTTTGCTGCTCTTCCTTTGTTGATGGCTTATGCTGGACACACTACTATTATAATCCCGAAGCCTTTGATTCCATACCTTGGAATGGATGTTTTAGATCTTGGATGGATATATAAGCTTTATATGGGACTATTGGCAGTGTTCTGTACAAACTCCATTAACATCCATGCTGGTTTAAACGGTTTAGAAGTTGGGCAAACAGTTGTCATTGCATTTGCGATCTTGGTCCACAACGTCATGCAAATTGGAGCATCGACGGATCCCGAGTACAAGCAAGCCCATGCATTTTCTATTTATCTTGTTCAACCACTATTAGCCACATCTTTAGGCTTGCTCGCTTACAATTGGTACCCTTCATCCGTCTTTGTTGGAGATACCTATACATACTTTGCTGGGATGACCATGGCCGTGGTTGGGATTTTAGGTCATTTTAGTGAAACTCTTCTGATCTTCTTTTTCCCTCAAGTTCTGAACTTCCTTCTGTCACTCCCTCAGTTATTTGGATTTATTGCATGTCCACGTCATCGGCTCCCTAGATTTGATCCTCAGACTGGATTACTGACTGGAACAAACGATGGAACACTTGTGAACTTTTTCTTGCGAATATTCGGTAGAAAAACAGAGAAATCACTTTGCACCTATCTTCTTGTTTTCCAGGGCGTTTTCTGCTGCTTTTGTTTCTTGCTGAGGTATTTGCTTGCTGGATGGTATAAATGATGCAACAACACAATCTTCACTTTGAAGCCTTTCACAATCATGCTGTCATTTTTCACGTTGTAATACTTTATACGACATTCTATCGAAAGCGTATTTGCGATGGAAGAGTTTCGACCATATTTTGAGAATTTTGAAATGTATTCAGGAAAAGCATTAGTGATTGGAATTGTTTTGAGAACCGTTTTCTCCCCTGATAGAAAACAAGAAAACAGATGTTCTAGAATGTTTTCTGTTCTGACTAACATATTGTATTTTGACATGAGAGAGAGAAAAAAATATTGTTTGGTTTTAGCTTAGAAAGTTGCAAAGTTATTTATACTTTATTGTGTTTCACATCAAATATTCGTTCTTTACATTGTTGATATCTCCAACATTATATATATGAAGATTACATATTTCTG ATGGCTGCTCGCAAGAGAGCTTCTGCACCCCAATCAGTCAAAGAACCTTCTCCCAAAGAAATTGACAAAACCCGTCAAAGCAAATACCCAGTAACAGATGATCCGCCCATTGCGCCACCGAAATCAGGTTTTATCTTCAAGCTCATTCTCTTTTTCTCTATCCCATACCTTTACCTCATCTTCTACCACTACAAGATCGACTTAGAGCTTAGAAGGTCAATCATCATCAATGCCGGACTCAGTCTCGTTGGGTTCTTTGTCACTCTGCGGATGATACCTGTTGCCTCTAGATACGTTATTAGGCGTAATCTATTTGGCTATGATATCAACAAACGGGGTACCCCTCAAGGCGCTGTTAAAGTGCCTGAGTCGCTGGGAATTGTTGTGGGGATTTCCTTCTTGGTCTTGGCAATTGTGTTTCAGTATTTTAACTTCACTTCAGACTCAAATTGGCTTGTTGAGTACAATGCGGCCTTGGCATCTATTTGCTTCATGACGTTGCTTGGATTTGTAGATGATGTTCTTGATGTCCCATGGAGAGTGAAACTGCTACTCCCATCGTTTGCTGCTCTTCCTTTGTTGATGGCTTATGCTGGACACACTACTATTATAATCCCGAAGCCTTTGATTCCATACCTTGGAATGGATGTTTTAGATCTTGGATGGATATATAAGCTTTATATGGGACTATTGGCAGTGTTCTGTACAAACTCCATTAACATCCATGCTGGTTTAAACGGTTTAGAAGTTGGGCAAACAGTTGTCATTGCATTTGCGATCTTGGTCCACAACGTCATGCAAATTGGAGCATCGACGGATCCCGAGTACAAGCAAGCCCATGCATTTTCTATTTATCTTGTTCAACCACTATTAGCCACATCTTTAGGCTTGCTCGCTTACAATTGGTACCCTTCATCCGTCTTTGTTGGAGATACCTATACATACTTTGCTGGGATGACCATGGCCGTGGTTGGGATTTTAGGTCATTTTAGTGAAACTCTTCTGATCTTCTTTTTCCCTCAAGTTCTGAACTTCCTTCTGTCACTCCCTCAGTTATTTGGATTTATTGCATGTCCACGTCATCGGCTCCCTAGATTTGATCCTCAGACTGGATTACTGACTGGAACAAACGATGGAACACTTGTGAACTTTTTCTTGCGAATATTCGGTAGAAAAACAGAGAAATCACTTTGCACCTATCTTCTTGTTTTCCAGGGCGTTTTCTGCTGCTTTTGTTTCTTGCTGAGGTATTTGCTTGCTGGATGGTATAAATGA MAARKRASAPQSVKEPSPKEIDKTRQSKYPVTDDPPIAPPKSGFIFKLILFFSIPYLYLIFYHYKIDLELRRSIIINAGLSLVGFFVTLRMIPVASRYVIRRNLFGYDINKRGTPQGAVKVPESLGIVVGISFLVLAIVFQYFNFTSDSNWLVEYNAALASICFMTLLGFVDDVLDVPWRVKLLLPSFAALPLLMAYAGHTTIIIPKPLIPYLGMDVLDLGWIYKLYMGLLAVFCTNSINIHAGLNGLEVGQTVVIAFAILVHNVMQIGASTDPEYKQAHAFSIYLVQPLLATSLGLLAYNWYPSSVFVGDTYTYFAGMTMAVVGILGHFSETLLIFFFPQVLNFLLSLPQLFGFIACPRHRLPRFDPQTGLLTGTNDGTLVNFFLRIFGRKTEKSLCTYLLVFQGVFCCFCFLLRYLLAGWYK*
BLAST of Cucsa.018040.1 vs. Swiss-Prot
Match: GPT_DICDI (UDP-N-acetylglucosamine--dolichyl-phosphate N-acetylglucosaminephosphotransferase OS=Dictyostelium discoideum GN=alg7 PE=3 SV=1) HSP 1 Score: 356.3 bits (913), Expect = 4.7e-97 Identity = 194/385 (50.39%), Postives = 262/385 (68.05%), Query Frame = 1
BLAST of Cucsa.018040.1 vs. Swiss-Prot
Match: GPT_BOVIN (UDP-N-acetylglucosamine--dolichyl-phosphate N-acetylglucosaminephosphotransferase OS=Bos taurus GN=DPAGT1 PE=2 SV=1) HSP 1 Score: 300.8 bits (769), Expect = 2.3e-80 Identity = 162/318 (50.94%), Postives = 212/318 (66.67%), Query Frame = 1
HSP 2 Score: 38.5 bits (88), Expect = 2.1e-01 Identity = 24/75 (32.00%), Postives = 38/75 (50.67%), Query Frame = 1
BLAST of Cucsa.018040.1 vs. Swiss-Prot
Match: GPT_CRILO (UDP-N-acetylglucosamine--dolichyl-phosphate N-acetylglucosaminephosphotransferase OS=Cricetulus longicaudatus GN=DPAGT1 PE=2 SV=1) HSP 1 Score: 300.4 bits (768), Expect = 3.0e-80 Identity = 161/318 (50.63%), Postives = 212/318 (66.67%), Query Frame = 1
HSP 2 Score: 36.6 bits (83), Expect = 8.2e-01 Identity = 20/55 (36.36%), Postives = 30/55 (54.55%), Query Frame = 1
BLAST of Cucsa.018040.1 vs. Swiss-Prot
Match: GPT_CRIGR (UDP-N-acetylglucosamine--dolichyl-phosphate N-acetylglucosaminephosphotransferase OS=Cricetulus griseus GN=DPAGT1 PE=2 SV=1) HSP 1 Score: 297.0 bits (759), Expect = 3.3e-79 Identity = 160/318 (50.31%), Postives = 211/318 (66.35%), Query Frame = 1
HSP 2 Score: 36.6 bits (83), Expect = 8.2e-01 Identity = 20/55 (36.36%), Postives = 30/55 (54.55%), Query Frame = 1
BLAST of Cucsa.018040.1 vs. Swiss-Prot
Match: GPT_HUMAN (UDP-N-acetylglucosamine--dolichyl-phosphate N-acetylglucosaminephosphotransferase OS=Homo sapiens GN=DPAGT1 PE=1 SV=2) HSP 1 Score: 296.2 bits (757), Expect = 5.7e-79 Identity = 160/318 (50.31%), Postives = 211/318 (66.35%), Query Frame = 1
HSP 2 Score: 32.3 bits (72), Expect = 1.5e+01 Identity = 17/53 (32.08%), Postives = 28/53 (52.83%), Query Frame = 1
BLAST of Cucsa.018040.1 vs. TrEMBL
Match: W9RIT7_9ROSA (UDP-N-acetylglucosamine--dolichyl-phosphate N-acetylglucosaminephosphotransferase OS=Morus notabilis GN=L484_015500 PE=4 SV=1) HSP 1 Score: 726.5 bits (1874), Expect = 1.9e-206 Identity = 355/424 (83.73%), Postives = 384/424 (90.57%), Query Frame = 1
BLAST of Cucsa.018040.1 vs. TrEMBL
Match: V4RJZ0_9ROSI (Uncharacterized protein OS=Citrus clementina GN=CICLE_v10005020mg PE=4 SV=1) HSP 1 Score: 713.4 bits (1840), Expect = 1.7e-202 Identity = 347/427 (81.26%), Postives = 381/427 (89.23%), Query Frame = 1
BLAST of Cucsa.018040.1 vs. TrEMBL
Match: M5XC16_PRUPE (Uncharacterized protein OS=Prunus persica GN=PRUPE_ppa006193mg PE=4 SV=1) HSP 1 Score: 711.4 bits (1835), Expect = 6.3e-202 Identity = 346/424 (81.60%), Postives = 375/424 (88.44%), Query Frame = 1
BLAST of Cucsa.018040.1 vs. TrEMBL
Match: A0A072UV74_MEDTR (UDP-glcnac-adolichol phosphate glcnac-1-P-transferase OS=Medicago truncatula GN=MTR_3g045150 PE=4 SV=1) HSP 1 Score: 711.1 bits (1834), Expect = 8.3e-202 Identity = 349/424 (82.31%), Postives = 380/424 (89.62%), Query Frame = 1
BLAST of Cucsa.018040.1 vs. TrEMBL
Match: I3SXH9_MEDTR (Uncharacterized protein OS=Medicago truncatula PE=2 SV=1) HSP 1 Score: 709.5 bits (1830), Expect = 2.4e-201 Identity = 349/424 (82.31%), Postives = 380/424 (89.62%), Query Frame = 1
BLAST of Cucsa.018040.1 vs. TAIR10
Match: AT2G41490.1 (AT2G41490.1 UDP-glcnac-adolichol phosphate glcnac-1-p-transferase) HSP 1 Score: 663.3 bits (1710), Expect = 1.0e-190 Identity = 325/431 (75.41%), Postives = 369/431 (85.61%), Query Frame = 1
BLAST of Cucsa.018040.1 vs. TAIR10
Match: AT3G57220.1 (AT3G57220.1 Glycosyl transferase family 4 protein) HSP 1 Score: 649.0 bits (1673), Expect = 2.0e-186 Identity = 322/426 (75.59%), Postives = 360/426 (84.51%), Query Frame = 1
BLAST of Cucsa.018040.1 vs. NCBI nr
Match: gi|778694168|ref|XP_011653758.1| (PREDICTED: UDP-N-acetylglucosamine--dolichyl-phosphate N-acetylglucosaminephosphotransferase [Cucumis sativus]) HSP 1 Score: 855.9 bits (2210), Expect = 3.0e-245 Identity = 424/424 (100.00%), Postives = 424/424 (100.00%), Query Frame = 1
BLAST of Cucsa.018040.1 vs. NCBI nr
Match: gi|659096636|ref|XP_008449205.1| (PREDICTED: UDP-N-acetylglucosamine--dolichyl-phosphate N-acetylglucosaminephosphotransferase-like [Cucumis melo]) HSP 1 Score: 848.2 bits (2190), Expect = 6.2e-243 Identity = 421/424 (99.29%), Postives = 421/424 (99.29%), Query Frame = 1
BLAST of Cucsa.018040.1 vs. NCBI nr
Match: gi|703122998|ref|XP_010102703.1| (UDP-N-acetylglucosamine--dolichyl-phosphate N-acetylglucosaminephosphotransferase [Morus notabilis]) HSP 1 Score: 726.5 bits (1874), Expect = 2.7e-206 Identity = 355/424 (83.73%), Postives = 384/424 (90.57%), Query Frame = 1
BLAST of Cucsa.018040.1 vs. NCBI nr
Match: gi|657999820|ref|XP_008392344.1| (PREDICTED: UDP-N-acetylglucosamine--dolichyl-phosphate N-acetylglucosaminephosphotransferase-like [Malus domestica]) HSP 1 Score: 716.1 bits (1847), Expect = 3.7e-203 Identity = 346/424 (81.60%), Postives = 376/424 (88.68%), Query Frame = 1
BLAST of Cucsa.018040.1 vs. NCBI nr
Match: gi|645271102|ref|XP_008240755.1| (PREDICTED: UDP-N-acetylglucosamine--dolichyl-phosphate N-acetylglucosaminephosphotransferase [Prunus mume]) HSP 1 Score: 715.3 bits (1845), Expect = 6.3e-203 Identity = 347/424 (81.84%), Postives = 376/424 (88.68%), Query Frame = 1
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 CDS feature(s) are a part of this mRNA:
The following three_prime_UTR feature(s) are a part of this mRNA:
The following five_prime_UTR feature(s) are a part of this mRNA:
Analysis Name: InterPro Annotations of cucumber (Gy14)
Date Performed: 2017-01-17
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