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Overview
Sequences
The following sequences are available for this feature:
Legend: exonfive_prime_UTRpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below.AAAACATACGAAAAGAGCATTTGTTGTTTGAGAAATGGAGCAACTTTCGGCAACCGCTAGTGGTCACATATTAATGTTCCCGTTGCCAATCCAAGGTGCAGTGAACTCTATGCTTAAACTAGCCGAGCTCATTCTCCTTTCCTCTAATGGTCAAATCAGTATCACCTTCCTCACCTCCGAGCACGTCCACAACCGTCTCCTCCACCACACCAATGTGGCCACCCGCTTTAACACTTACCCTGGATTTACTATCCTGACTTTCCGAGACGGTCTACCGGAAAATCATCCTCGCGGTAGCGATAAGTTTATGGAGATGCTGGAGGCTGTGGAAGCTGAGAGCCGCCCACTTCTCAGGCAAATGCTAGTAAATAATGATAGTACGACAGGAGAAAAACCAATAACATGTATGATACCAGATGGGTCTTACAACTTTGCTTTGGATGTTGGTAAAGACGCTCGAATCCCGGTCATATATTTTGATACAATTGGTCCTTCTTGCCTTTGGGTTTATCTTTGTCTTCCCATCTTGATTCAAGCTGGTGAAATTCCGTTTCAAGGTAACATTTTATTTTATTTTTCTAAAAGTCAATAGACAATATTATTTTCGTATTTTTTTAGAAGTTACTTTTTGATTGACACAAATATTAAGCAATTTGAGTTAATTTTCTTATAATAATGATGTAAGGGGTGGATGTGTTAATTATCGGATTTTTTACCAAACTAGCTACTTCTACCATTTTATTTATCAAAATGACTATTTTTTAATGCTATTTCCCAAACTAGCTACTATTTTTGACTTTGAAGTAAAAATCAATGAACCGGTTTGAGTTTTTTTTAGTGAACCGGTTCGGTTTGAATTAATTTTTAAAATAGTGAACTGATGTGGATTTTTTAGGGGGCCAGATTTTTATATATAAATTTTGGGTTCTTTTTATCTTTTTAATATTTAAGTTGGCATCACTGGAGCCTGGCGTTTTCCAATTTTCCCAACTGACTTATTTTTCATGCATATGTGAGACTCAATTATATTTCATTATATGCAATGTTCTTTAATTTTGGTTTCAATCTAATAAGAAATCGAAACTCAAAGTACTCCGTACAATATAAGGAATTTTTGATTGAATGTATTTTGTTTCAGATGTTATATTCTACTTCAAATGCATGTAAATTTTGTTTCCATATGTTTGTACTATAGTTTTTTTCTAATGTATACTATGGAGTAAGGGGTATAAGTTATTATTTCTTTAAAAATAAAGTACAAAGTAATTGTTCTTTGGTTTGTCATTTATGTTTTGGATTGATTATATTTGAGTATACTTTGCGGCTATTAGCAAAGCAAATGGTTCATTTTTGTTTTTGCTGTTTTGATAAAAAAGGGAATGGTTCATCTAAAAAATAAACTCAAGAAAATACAAATTACTTACATTTTGGTAAATAAAATTATAACAGTAGCCAGTTTGATAAAAGGTCCTTATCTTTTTAAACATTTTTCATCAAAAAATCACTTTGAAATGTTTAAGGTAAATATGTAACCCTTCGAAATGTTAATTTTTCCATAAAAAATTTATAATATACTTTGTATAAAATTTAATCAAAACATGTTAAATTTTTTTATTTTTTAAAAAAAAGTGGCAAAAATTACCAAGAAGCTAGTACAATCCATTTATTGTGCGTGCAAGACCCTTTGTGTTTTGATAGAGGCCGGTTTTATGTGATACATATTTTTGTTGCAGAAAATGAGGACATGGAAGCCGTAGTTAATGTGCCCGGAATGGGAAATATATTAAGACGGCGTGATCTTCCAGATTTTTGTAGAACCAACAATCCAACTAGTGAAGTTATGATCCAGCGTATTTCAGAGCAGGCAAAACAATTCAGCAAGGCGTCGGGCTTCATATTGAACACATTTCAAGATTTAGAACAACCACTGCTTTCCTTCATTTGCTCTCATTTTCCAACCAATAATATTTATGTTGTTGGTCCACTCCATCAACACTTAATGGCAAAATTATCCAAACAAGAAGAAACTATTCGATCTTATAATTGTTCGAATAGTTTTTGGCATGAAGATAGAAGTTGCATTGACTGGCTTAATAATCAACCTTCAAAAAGTGTCATCTTTTGTAGCTTCGGAAGTCAGGTGGTCATTACCAAAGATCAACTCATTGAGTTTTGGCAAGGATTGGTAAATAGCGGGTCTCGGTTTTTATGGATTCAAAGACCACGGTCTGTAATTGGGATGGACGATGATATTGTCCATGAACAACAACAACTCCCTAGTGGCCTATTGAAGGGTGTGAGGGAAAATGGTTTCATCACCAATTGGGGTCCACAAGAAGAGATTTTAAGTCATCCTTCTATTGGAGGATTCTTAACTCATAGTGGATGGAACTCGACAATAGAAAGTATTGTGGCAGGAGTGCCTATGATATGTTGGCCTCATTATGTAGATCAACTCGTGATTAGCAGATATGTAAGCCATGTTTGGAAGTTTGGATTGGACATGAAAGACACATGTGATAGAATTGTGATAGAGAATATGGTAAGGGATCTCATGGGTACAAGGAAAAGTGAGTTTTTACAAAACACAATTGCATTTGCAAATTTGGCTAAACAATCCGTAGAGAAAGATGGATCTTCCTGTTTTTCTTTGGATAGATTAATTAATGACATTATGTCATTTGGATTACCAGTATGATATCTTATAATAAAAATAATTCTGTTGTAACTTGCACACTTCCATATAAGGCGTTTACACCTATGTTAAAGCAACTATTGTATTTTCTGTTTTAAAGCAAATGTGTAGGATTTTACAACTCGATTACATAATGTCATATCGATTCAAAGTAGAATCTCATGTTGTAATTTAAAGATGGAAAAGTGCGCTCAAAACCTTCCTGTCAGGTTTTCCGAAATCGGCAGGTTTCTCAAAATCTGCCTGCCATGTTTTCCAAAACTGGCAGGTTTTGAGCGCAAGTTAGAAAACGGACTTAAAAGGCATTTCTTGAAGTGCACCGATAATCGGCTGGTTTTGGAAAACTGGCAGCTTTTGAGATTAGTTCTTTGTGTTGTCCGGTTTTTGATCAGTTCTTTGTGTTGTCCGGTTTTGAGAAAAAGGCATTCCAGAATGAGTTGTCGATGACTCAGATTCTAACACATATGACGCGTCATTACCAGCGCTGTTGTTTTCCAGCGCTGGTTAGGCTAGCGCTAGAATCTTCTAGCACTGCCTTTGCAGTTTTAGTGAATTTCGATCTCTTCAAAGGTCTATATTTATTCGACCAGTTGCACTATAAATACAAGCCTCTGAATTCCGAAAAATGGACCAAAATAAATATTCAGAGGCTGTTGATCGACTTCAATTAATTTTCTGTTTGTTGTTTGTGTGCTTTTACTTATGAGATTAGTGAGTCCTTGCTGCTTCTCCCAGTTTTGTTAATGGGTGGATAATGTTCTTCGTGTGTTTGTGTATCGTTGAAGGATATATGGAGGGGTTGTGGGATTGGCTTTGTGTAAAATACGTGTCAACCAACCTAGGTTGTGGTCTTGGCCACGTTGCTAACTTTTTAAGGTGGTTTATGAGGTTCTAGGATAAAGTGATTAGATGTGTTCTAATTATGTTCAAAATTTCATTTCTAAAAATTGTTTCCCAAATGGAAACTTTGAAGATTTATAGCATGTTTACTAGTTTGAATGTGCCCGACCCTTATCTAAAGGGAGCGAGTTACCCACCGAGGACCTGATCTAAAGGGTATTGAGCCACCAGTGTGGCTCAGTTTGTTTGTGAGCATTGTGAAGGCAAACACACCTTCTGCGAAAATAATCGAATGACAAAACAAACTTCAAGCAAAAATTATGCAACTAGTTTGTTCAAAGTCACCAACAAAAATGCAATATCAACAATTTCCAGCAATTTCAACACCCCAAAGATACCAACAATCACACAGTAGATAATCAATTGAACAAGTTAATAATAAAGCAAGAACACACAATAATTTAATGTGGAAAACCCTTCGATGTGAAGAGTGAAAACCACGGGACCGATAAAGGAGTTCATCCAAATTGCTCTTATTATGATAAAGGTAGTTTAATGAAGGATAAGCTCTCTTGGAGTAATTAGAGTAATTAAGCTAATTAAGCTCAACCTTAGTCTTTAATTCAATGTGGCTTCTTTTTGTCTTTATCTGCACATGTATAGGTACTAGCCATGAGTTGTCCCAAGGGAGTAAGGTTAGTAGGGTTTGCTCTCTTCTTTTACATTGGTGTGCCGCACTATATAAGTGTGTGCAAGTTGTTTTGTAGGCAAGCAATCCAACATAATATAATTGAGCCTCCATTTCTTCCTCTTCTCTATTTTCTACATTTAAGTTCTGAATTCCATGCACAATGTAACGCCCCGACCTCTAATTCAATAATTAACACATAATTAGCAGCGGAATTAACCTAATTGGTCGGGACATTACCTGCCGTAACTTCCTTTTCGGAAATTACAAGGCAACCATCAATCATAAGCCTTTAAATACTCCAAAATATATATATATATATATATTCCTTTATATTATCAAAATAAAAGTGCATAACTTACTAAAAGTCTTTAATTAAATCTATTAAAACTATTAGAACCGTAAACATAAACTAGGTGGATAATATTAAAGTGAAACTCCTCGCCACTACTTGTGTCCATCATCCCCCCGCAGTACCTAAAACGGAAAACAAAACGGTGAGCCGAAGACTCAGTAACGAACTATCCTAGCAGCGTAAATTCATTTCAATTCATTTTATTTAATAACACACGGAGAGTAGAATGGTTAAAACATTTAACAAAACATCACATTTAATTCATTCATAAACTTTGCAGTTTAACATGCTAGTTGTCGGCAAGTACGAACCGTGAAGGAATTCTCCACTGGGCCTGGGCCCATAAGAGTTTGGGCTCATCGTAACATGGGGCCTGGGCCCTGAGCCTGGGCTCATAAACCATGGGAGCCTGGGCTCGTAATCCATTGGTGGACAGGTGTCCGTGGTGCATGCATGACCGATAGATAGGAAGATGGTAGTTTATATACCGCCAGACAAACCAGTTCTTTCACTTTCATTTATCATGTTGTATGTAATTTTACCAAGCCTTGGCTTGTATTTCAATTCGAAATAACATAACTCATTTTATATCATAAAACATCAATTAGATCCTGGGATCCATAAAACATCATTTCATTCAACGCATCATATAAACATCATTTTATGAGAAAACTCAATCAAATCACATTATAAAGAATAATTCAAACAAATCATAATTCATTCCCACAATCCATAAAACATGTCAAAACATTTAATTCATAAATCCAATCATAACGTCATAATTTCGTAATACATTTATAAAGGGATTGCGGGTACTAGCAATAGCCGTTACCTCACTTCCACGACTTTGCTAAGGATTTTCGTTGGTTCGTTCGTCCTAAGCTCCGAGTCCAATTTCTTTAAAAATATTAAATAATTGAATTAGTACCAAATTGATAAATAATTTAACTTAATAATTTCGAAACTTTATAATTAACCAATTTTCTAATAATAATGTTAAAAATAATATATAATTTCATAGTTTTAATGAAAATATAATTAAATGCCAATTTTAGTGAAGAATATAATTAATTGAAATTTCAATCGAAAAATATATATATATTTTCCTTAATTAACTTACACGAAAATCTTATTTAAATTTTTTCCTTGATAAATCCATTTAGTAACTTATTTTAGTTAAATCGATAATATAATTTAAAATCAATATTTTATAAAATCATAAATTTTATAAGTAATGAATTTTATAAATAACGAGTTTTAATATAAATAACGAACTTTTTTTTTTAATAAAATTATACTTTCGAAATTTAACGAAAATGTTATTATTAATCGAATTTTCAATCGAAATACATATATATATTATAATTGATTTTCAAGTAAATAATATTAAAAATTCCGTTTTTGTTAATTCAGGCTAAGTAATTTATTTTAGTAAAATCGATATTTGATAATTAAACCTGAAAATATAATCAATTTATTAGTAAATAATTATATCATAAAAACTATTAAAACATAAATATTGCTAAATTTAAAATCTGAATTTTCAGATTGGTCTTACCAAAGGCCCAAATGGTTAGTTGGCCCAATTTAATAGGGGTTTGAGGAGAATAAAACAAGGCTAAAGAATCTGATTTTTATTTTGTTTGGTTTTGGTTGAGGCACGAGCAAAGAAAAACAGAGAAGGAAGAGAGGAGAGGAGGAGGGAGGAAGAGAGGAAGAGGGCGTGGAGGCTGGCTGGGCTGGGCTTTGCCGGGGATTTCGACGGCGATGGTGGAGGTGGTTTCGCGACGGCGGAGCAGTTAAGGGGATGGGGGGGTGGTGATTTGCCAAACAGGGGAGGGGAAGGTGCGAGGGAGAGGGGGAGACGCAGGGTGGTTCTGGGCGGTGATTTGGTGGATGAGGTTGTTGATGGTGGTCGGAGGAGTAGAGTGGTGTTGGTGGTGTGGTGGTTGTGGTGGTGGCGTGGGGCGAAAGAGGAGAAAGAAAGAAGGAGGCAGGGGACGCGAGAGGAGGAGAGAGCAGGGGAGGGAGTTGTGGTGGTGGCGTGGTGGTGTTCGGTGGTTCTGGGTGGTCGGGAGGTGCGGGGTGGTGGAGTGGTGGTGAGGATGATGGTGCGCGGTGGCTGCCGGAGGTGGTGGTGGTGGTTGGTCCGAATCAGGGAACAAAAAGAGGAGAAGAATTGAAATTGAATTTGATTTTTGAGATTGAAATTGAAATTGTGTTTTGTTTGTTGTTGAAATTTCTCCTTAATTTCTGAATTTGTAAGTAGGTATACTTGGGGTCCAAGGGTTGAATTTTTGACTGAATTGGGGGAAGGAAGGAAGATTTGTCTTCCTGGTTTGTGCGTGGGGAGCAAGAAAATAAAGCTGACATTTTCATTTTTTTTTTTTTAATAATAAATTCACAATATTTGGCAAAAATTCAGAATTTGTAATAAAATGTTTAATTAAAATAATTCCTTAAAAATAAATAAATTATCGTTAACGAAAATAAATAATTTCAATCTATAAATTTATCGTTTAAAATAATTCGTAAAAACGATTAAAATAACGAAATTCGATTATTCGTAATTTAATTAAAACGAAATTAAGTTAATAAATATTTTCAATTTTAATAATTCGAATTTAAAATTTCGGGGTATTACACACAAGCTATGAGCTTTTTGTTCATCACAATCAGTGATAATCAAATTATCATGGTATCAGAGCCAAGCCTGTGTATATGGAATAGAACGTTGCTTCATTAAAATCCAAAGCTTTGATCTTTGAATCTGAAAAACCTTCTTTCTCATTCTTTTGTTCTTCTCCTTTTCTCTCTTCTTTTGTCTGTCTGAATCCTCTGTGAATCTCTCTTTCTTTCTCCTTCTATCAAAACTTTCTTCTTCCCTAAGAAAGCTTGTATCTTTCTCTCCAAATCAGAATGTCGTCAAAACTGACATTTGCTGACATACAGAACCAATTTGTTACTCCATCCTTCTAATAATACAAGTTCAATAAGCATTGATAAACTGCAAGGAGCTGGTGATTACAGAGCTTGGAGAAGAAGCATGGAAATCAACCTGTCATCTAAAAGAAAGATGGGGTTTGTGACTGGTGCAACAGTGCAAGACACTGAAGATGAGGTAAAATCTGAACTATATATGGGATATATGCAACAATATGGTCATTGCTTGGATACATAATAATGTTTCTTCCTCCATAAAAAAATCTATTCTTTACATTACCTCTGCTAAAGAAATCTAGAGTCAACTTGAAGTTAGGTTTTCTTTGACTCATGGGTCTAGAAAATACGGAATAAACAAAGACCTCTACAATACTAAACAAAATGTTAGTTCAATCAATGATTACTACACTGCTCTGAGTGTCTTGTGGGAAGAACTAGACTCTATGAATATGTTGCCTGCTATCACCAATATAACTGATTATATTAAAAAATTGCTGGAAGTTGTTGACCAATAGAAAGAGGAATCCAGGTTGTTTCAGTTCCTGAATGGTCTGAATGACAAATATGGACCTCAAAGGAGTCAAATCTTGATGATGACTCCCCTTCCCACTGTTGAAAGTGCTTGTGCAGTGTTACAACAGGAAGAATCCCAAAGAGAGGTTTTGAAATTCACTAGACCTGAGACTGAAATGTCTGCTATGTTTACCAAAACCCAGTCAGATAGAGTGGAAACTGTTTGCAAGGCATGTGGTGTGAAGGGTCACTTGACTGAAAAATGTTGGACCATCATTGGATATCCAAAGTGGCATTCTAGGCATGGAAAGGTTGCTGCAAAACCTGGCAATCGAGAAAGTGGGGCATCATCATCCTATTCAAAGTGGAATGTGGGAAAAAACAACTCTACCAGAGTTGCAGCAACTGCTCAGAGTACTGAAACAAAGTCTGAAACAGGTGTGTTGTTCACACCACATCAATTGGATCAACTAGCTAAGTTATTGCCTAACGTGGTGTCCAAATTAACTTCCAGGCACACTGATACTGATGATGAGTTGGATATACATTTCTCTGGTACGATCTCTTGCTATCATGCTGCATAACTGAGTGATGCATGGATAGTTGACTCTGGAGCTTCAGGTCATATGACTCCTCATCTCCATTATCTGACTGAACCAATTGCTGCAAAGAGTGGTCCCAAAATCAATCTACCAACTGGAGAAACTGCCATGATATCCCACATGGGAAAAGCAACTATTGGAACAAACATTGTTCTGAAAAATGCGATGTGTGTGCCAAAATTCCAACATAACTTGCTTTCTGTGCAAAAGCTGATCAAAGAAAGCAACTATGAAGTGTTCTTCTATCCTACACACTGTGTAATAGCTGACAGCAAGACAAAGAAGACTCTAGGTGTAGGAAAGGCAAGAAATGGCCTTTACTACCTGGAGAAAAATGATGTTGAAACTTTGAAACAACGGATTTTTCATGAAATGCCCTTGAGGTTTGCCTTAATGCACCAAATACCCCTAAACTTTCCAGAATGCACCAAATACCCCCGAGGTTTAACATAAATACACAAAATGGCCAAAATAGCTATTTTCCGTTAACTCCGTTAAATTATCTGTTAACTTTAACTTTTAATTTATTTTATTTTTATTTTTTCTTTTTCCCTTTTGATTTTTCATTTTTTTCTCTCTCTCCCCTTCCATGACAGCTACCACCATGTTCCATTGCAACCCTTATCTTCCTCACCACCACCACACTCCGCCCTGCTAACCCCTTCTCTTCCTCACCACCACCCCACACCGCCACCGACACCAGCGCCTTCTCTTCCTCACCACCGACACCAGCCCTTCTCTTCCTCACCACCACCACACACCGCCCCGCTAACCCCTTCTCTTCCTCACCAGCTCCCCACACCGCCACCGACACTAGTGTGCTCGAGCGGACCAAAGGCACGCCCAGATCGTCGCGAGAAACAAAGCGACAGATCTGAGCCTCGATTTGGGTCTTGTTCAATCGATTTGGGTGTGTGAGAGAAGGGAGAAAATGGGGTTTTAAGTGATGGGTTTGAAGAAGGGATTAGAGAGAAAGAAGGTGGTGAAGACAGAGAAAATTGGGGGTAATTGATTCACCACCTTCTTGTTCTATGTTTGGTTTTGTTTCAAAATTGATGTTCAACCTCTCTTCAAAATTGCGGAGGGGAAAAATCAATAAAACTGCTGCTATTGCTAGTATGATGATAATCATGATATTGCACCTATTTTTTACCCAGCTTCCTTAGATTTTAATTTTCCTTGAATGTTAATAATGGTCTAGGTCCCCTCATAATTCCCTTAATAGTTTTATGCTGTTTATCGATGTTTAATGGCAAAATCTGGAGGGCAGTTATGGCGGGGGCTAACATGCGGGATTGCGGTGCTTTACTCAATGGAGAGAAAGAAGGTGGTGAAGACAGAGCAGCAATGGAGAATTAGAGCAGCAATGGAGAATCCAAAAAATTTTGGGTAATTGATTTTTGATTTGTTAAGAGATTAATTAATTTAATTAAGGGTTAATTAATGTAATTAAGGGTTAATGTTAGAATAAGTAGAGAAAACGGTTTATTAAGGGCAAAAAGGTAAACATAAGCTAACGGGGACTTAACGTCCGTTAGCCTTGTGGGCATTTTGTGTATTTATACTAAACCTCAGGGGTATTTGGTGCATTTTGGAAAGTTTAGGGGTATTTGGTGCATTAATGCAAACCTCAGGGGCATTTCATGAAAAATCCGTTGAAACAAACTAAGAACACTTTTTTTGGCTTTGCTGCAAACAAAGCTGCTGAAGAATACACAATGTGGCACAGTAGACTTGGTCATGCCTCTCTCTCAAAACTTGAACACTTGGAGTGTGTGAAGCCTATCTGACAGAAAAGAATGATGCAGTGTGTATCATTTGTCCCATGGCCAAGTTTGCAAAAGTACCTTTCAATCTGAGTTCTTCCCATGCTAATGAGATATTTGAATTGGTGCACATGGACATTTGGGGTCCTTACAGAGTGGAAACAAGGAACAAATTCAAGTATTTCATGACAATTGTTGATGATCATTCAAGAATGACATGGATATACTTGTTGCAATACAAATCTCAGTCCCTGTATACCCTTGTAATGTTTCAGAACTATGCAAAAAATCATTTCAGTAAATCCATCAAACACTTGAGAACTGATAATGCCCTGGAATTTGATGATGGAGAATGTCAGAAGTTTTTCTCTGAAAATGGAATCCTCCATCAAACATCATGTGTGAGAACACCTCAACAGAATGCAAGAGTGGAAAGAAAGCATAGACATGTGCTGGAAATGGGAAGAGCATTGAGATTCCAAGCCTCATTGCCTTTGCTTTTCTGGGGTGATTGTGTGATGACAGCTGGTCATATAATAAACAGACTGCCTGTTAAGATACTTGAAAACAAGACTCCATTTGAAGTTCTTCACAACAAACATCCAGAGTATGAACACTTGAGAGTGAGACCACTACTGATAAGTTCAAGGCAAGGGGAGTGCCTTGTGTCATGTTGGGTTACCCATCATCTCAAAAAGGTTACAGACTGTTGAACCTAGTTACAAGACAAGTTATGGTGACAAGGCATGTGAAATTTAAGGAACATATCTTTCCCTTCCACTTAAATGCTGAAAACTCCTACATGAAACTTCTACCTCAAACCCAGCCAAACACAAACCTTTTTCCATCATCTGATCTGTTTGACATGTTTTACAATGACAGTGATGATGAACCTGTTGGAAACAACAACAACATTCCTGAAACTGATTCACCTACCCAAATCCATGAAGTCACTGAACCTGAATCTGAAGAAGAACATTCAGAAGAACCCAATGTTCCACATGTTGAAGATGTGGCTCCAAGAAGATCATCCAGATTTCACTCAGCTCCAGTGTGGTCAAAAGACTATGTGATGAAGAATAACCCAAATTCTCAACACATAGCTAATTTGGCTGATTGTGAGATTCACAATACATTCTATTGCTTCCTGGTGACTCTGAGCAACATCAGTGACCCAATATCCTTCAGACAAGCTATCACACAATCAAAATGGGTCAATGCCATGAATAGAGAGTTGGATGCATTGAAACTCAATGATACTTGGGATATATGTATCTTGCCTCCAGGAAAGAAGACCATTGGGTGTAAATGGCTGTTCAAAACCAAATTCCACCCTGATGGAAAACTGGACAAGAACAAATCAAGATTGGTTGCTTTGGGGTGCAAACAAAAGTATGGTCAGGATTATGCTGAAACATTTGCACCTGTGGCAAAAATGACAACTGTAAGAACCATCTTTGCAGTAGCAGCAATGCAAGACTTGTATGTATTTCAAATGGATTACCAATGCTTTCCTACATGGAGACTTGTATGAGGATGTGTATATGAAATTGCCTCAAGGTTATAATGGAATTGGGAGTAGAATCAAACTGAATGGTACTGATGAATGTGATGTACCTCAGAAAGTTGTGTGCAAGCTGAAAAAATCTCTGTATGGCCTGAAACAAGCCCCAAGACAATGGTTTGCCAAACTTTCAGAAACACTGCTGAGATTTGGTTATAACCAGTCCAAGTCAGACTACAGCTTGTTCACAAAGTCAAACACCCAAGATATTGAAGGGAATAATGCCCTTGGTCCAAGTATGCATATAATATTAAGTCTAATAAATGCGGTTCAGTATTAATTAACAAGTTAATAATTCAGTGAGATCAAGTGAGCTGAATGCCTAGCTAGAGGTCGCTCCAGTTCAAGTGGAATTAATTATATTAATCCACAACTTACTCTTGACTGAACCCGTAGGGTCACACAAATAGTACGTAAACGGATCAAGTATTTAATGGAATTAAATACTCCATCTATGGATATTCGGAATCGACGGATCTTGGTTTCAGTGGGAGCTGAGATCGTCACAAGCAAGAAATGAATACTCCGGAAACGATGATATTGCCGGAAACGGAAATATGGATCGTATCGGAAATATAAATATTATCCAAGTCGTAGATGTTGCCGGAAACGGAAACATGGTACGTATCGGAAAATATTATCGGAAATGGAAATATTGCCGGAATCGGAAATATTGCCGGAAACGGAAATATTGTCAGAATCGGAAATATTATCGGAATCGGAAAATAATTTCGGAAACGGAAATATTAAATATTTGTTCGAAACGGAAATTAATTCCGGAATCGGAAATATTAAATATTGTTCGTATCGGAAATGAATTCCGGAACCGGGAATTTAATCGGAAGCGCATCGTACGAATTAGCATCGGACGAGGCTTGCTAGACGAAGGCCCAGCACGAAGCCAGGCCCACGCCCAGCAAGCCGAGCGCCCAACACGAAGGCCACAAGCCTCGCCAGGCCCAGCGCAAGGCCAGGCCCAGCAAGGCTGCTGGCGCGCGCGCTGAGCGTGCTCGTGGGCTGTGAGGCAGCGCTCATGCGTGTGGGCCGTAAGGCCTGCGCGGTGCGTGCTTCCCTCGTGGTCGTGCAACGCTCGTGTTCGTAACGAATCCTAATCCTATCGGAATTCGTGCATTGATTAAATCCTAATCCTAAAAGATTAAATTTATTATTTAGAGTTCTAATAGGATTCTAATTAATAAATCCATATCCTAGTAGGATTATAATTCCTTTCCATAAACTCTATAAATAGGTGCCTAGGGTCACATATTTACATTGAGATTTGAAGATTCAAAAGGTAAGATTTTCAAGCAAAAATCAGCCAAACACTTGCAACCCAAATAGCCGAAATTCCTAGTAACCTTAAGAGCGATTCTAGTTGGTCAAGCTTAAGGCGGATCCGGACGTGCTGTGGACTATCTACGGAGGGACGACACTTGGAGTCCTAAAGACTTGTTCTTGTTCGGTTCGGGCGCAGCTAGGGAGGGCACGCTACAAAGTGTATGCATCTGAATTATGCTAAATGATTATGTGTAAATAATATGTTTCTTGGCTTTATGGTTTTTCCGCATGGTTTATGTTTATTCATATGTATCATAACCTAACAGATATTACCTTGATACTGATATATGTTGATGATCTGTTGATATGTGGCACAAACCAGACAGAAATTGCAACTCTCAAAGAAATGTTGTCAAAGTCTTTTCATATGAAAGATCTTGGAGAATTGACCTATTTTTTGGGTCTTGAAGTGTTCAGATCCTCATCTGGTTTCTTTGTGTCTCAAAGAAAATATGCCTTGGATTTTCTTAAAGAACATCACATGGTTGATGTCAAATCTGTTCTACTGCCCATGGAATCAAACCTGAAACTAACCACAGACAATGGAGAGTTGCTTCCTTCCCCTACTCCATATCAGAGGTTGTTGGGTAGGTTGATTTACCTGACCATCACTAGGCCTAACATCTCCTTTACCGTACAACTCTTGAGCCAATTCATGCATCAACCTACTTCAGTTCATATGCAAGTTGCCAAAAGACTTCTAAGATACATTGCTGGCACTTTCAATCAAGGCATACTGCTTGCTTCCACCTCTACATCCACTCTAACAGCTTATTGTGACAATGATTGGGTTAGATGTCCAATATCAAGAAGATCAACCTCAGGCTATTGCATCTTCTTGGGGAAATCACCTGTTTCTTGGAAGGCAAAGAAGCAGTCAGTTGTGGCTAGATCATCAGCAGAAGCTGAATACAGAGCTATGGCCTTAACCTCTTGTGAAGTAACTTGGCTGACACACTTATTGAAGGATCTAGGTCTGACCACTCTACCACCTGCAGTGCTAAAATGTGACAACCAAGCTGCTCTTGCTATAGCTGCTAATCCTGTACTCCATGAGAGAACAAAACATCTGGAAGTTGACTGTCACTTCATTAGAGACAAAGTACAGAATGGCAGCATTGTCACAGAACAAGTCTCATCTAATGAACAGATTGCAGATGTTCTGACTAAGGTTCTCACTGTGAAGCAACATCAGTATCTCTTGGACAAGTTGGGAGTTACCACTCACAACTTGAGGGGGAGTAATGAAGGATAAGCTCTCTTGGAGTAATTAGAGTAATTAAGCTCAGCCTTAGTCTTTAATTCAATGTGGCTTCTTTTTGTCTTTTTCTGCACATGTATGGGTACTAGCCATGAGCTGTACCAAGGGAGTAAGGTTAGTGGGGTTTGCTCTCTTCTTTTACATTGGTGTGCCGCACTATATAAGTGTGTGCAAGTTGTTTTGTAGGCAAGCAATCCAACACAATATAATTGAAAAACATACGAAAAGAGCATTTGTTGTTTGAGAAATGGAGCAACTTTCGGCAACCGCTAGTGGTCACATATTAATGTTCCCGTTGCCAATCCAAGGTGCAGTGAACTCTATGCTTAAACTAGCCGAGCTCATTCTCCTTTCCTCTAATGGTCAAATCAGTATCACCTTCCTCACCTCCGAGCACGTCCACAACCGTCTCCTCCACCACACCAATGTGGCCACCCGCTTTAACACTTACCCTGGATTTACTATCCTGACTTTCCGAGACGGTCTACCGGAAAATCATCCTCGCGGTAGCGATAAGTTTATGGAGATGCTGGAGGCTGTGGAAGCTGAGAGCCGCCCACTTCTCAGGCAAATGCTAGTAAATAATGATAGTACGACAGGAGAAAAACCAATAACATGTATGATACCAGATGGGTCTTACAACTTTGCTTTGGATGTTGGTAAAGACGCTCGAATCCCGGTCATATATTTTGATACAATTGGTCCTTCTTGCCTTTGGGTTTATCTTTGTCTTCCCATCTTGATTCAAGCTGGTGAAATTCCGTTTCAAGAAAATGAGGACATGGAAGCCGTAGTTAATGTGCCCGGAATGGGAAATATATTAAGACGGCGTGATCTTCCAGATTTTTGTAGAACCAACAATCCAACTAGTGAAGTTATGATCCAGCGTATTTCAGAGCAGGCAAAACAATTCAGCAAGGCGTCGGGCTTCATATTGAACACATTTCAAGATTTAGAACAACCACTGCTTTCCTTCATTTGCTCTCATTTTCCAACCAATAATATTTATGTTGTTGGTCCACTCCATCAACACTTAATGGCAAAATTATCCAAACAAGAAGAAACTATTCGATCTTATAATTGTTCGAATAGTTTTTGGCATGAAGATAGAAGTTGCATTGACTGGCTTAATAATCAACCTTCAAAAAGTGTCATCTTTTGTAGCTTCGGAAGTCAGGTGGTCATTACCAAAGATCAACTCATTGAGTTTTGGCAAGGATTGGTAAATAGCGGGTCTCGGTTTTTATGGATTCAAAGACCACGGTCTGTAATTGGGATGGACGATGATATTGTCCATGAACAACAACAACTCCCTAGTGGCCTATTGAAGGGTGTGAGGGAAAATGGTTTCATCACCAATTGGGGTCCACAAGAAGAGATTTTAAGTCATCCTTCTATTGGAGGATTCTTAACTCATAGTGGATGGAACTCGACAATAGAAAGTATTGTGGCAGGAGTGCCTATGATATGTTGGCCTCATTATGTAGATCAACTCGTGATTAGCAGATATGTAAGCCATGTTTGGAAGTTTGGATTGGACATGAAAGACACATGTGATAGAATTGTGATAGAGAATATGGTACTAGCCATGAGTTGTCCCAAGGGAGTAAGTGATGATGAACCTGTTGGAAACAACAACAACATTCCTGAAACTGATTCACCTACCCAAATCCATGAAGCAAGCAATCCAACACAATATAATTGA ATGGAGCAACTTTCGGCAACCGCTAGTGGTCACATATTAATGTTCCCGTTGCCAATCCAAGGTGCAGTGAACTCTATGCTTAAACTAGCCGAGCTCATTCTCCTTTCCTCTAATGGTCAAATCAGTATCACCTTCCTCACCTCCGAGCACGTCCACAACCGTCTCCTCCACCACACCAATGTGGCCACCCGCTTTAACACTTACCCTGGATTTACTATCCTGACTTTCCGAGACGGTCTACCGGAAAATCATCCTCGCGGTAGCGATAAGTTTATGGAGATGCTGGAGGCTGTGGAAGCTGAGAGCCGCCCACTTCTCAGGCAAATGCTAGTAAATAATGATAGTACGACAGGAGAAAAACCAATAACATGTATGATACCAGATGGGTCTTACAACTTTGCTTTGGATGTTGGTAAAGACGCTCGAATCCCGGTCATATATTTTGATACAATTGGTCCTTCTTGCCTTTGGGTTTATCTTTGTCTTCCCATCTTGATTCAAGCTGGTGAAATTCCGTTTCAAGAAAATGAGGACATGGAAGCCGTAGTTAATGTGCCCGGAATGGGAAATATATTAAGACGGCGTGATCTTCCAGATTTTTGTAGAACCAACAATCCAACTAGTGAAGTTATGATCCAGCGTATTTCAGAGCAGGCAAAACAATTCAGCAAGGCGTCGGGCTTCATATTGAACACATTTCAAGATTTAGAACAACCACTGCTTTCCTTCATTTGCTCTCATTTTCCAACCAATAATATTTATGTTGTTGGTCCACTCCATCAACACTTAATGGCAAAATTATCCAAACAAGAAGAAACTATTCGATCTTATAATTGTTCGAATAGTTTTTGGCATGAAGATAGAAGTTGCATTGACTGGCTTAATAATCAACCTTCAAAAAGTGTCATCTTTTGTAGCTTCGGAAGTCAGGTGGTCATTACCAAAGATCAACTCATTGAGTTTTGGCAAGGATTGGTAAATAGCGGGTCTCGGTTTTTATGGATTCAAAGACCACGGTCTGTAATTGGGATGGACGATGATATTGTCCATGAACAACAACAACTCCCTAGTGGCCTATTGAAGGGTGTGAGGGAAAATGGTTTCATCACCAATTGGGGTCCACAAGAAGAGATTTTAAGTCATCCTTCTATTGGAGGATTCTTAACTCATAGTGGATGGAACTCGACAATAGAAAGTATTGTGGCAGGAGTGCCTATGATATGTTGGCCTCATTATGTAGATCAACTCGTGATTAGCAGATATGTAAGCCATGTTTGGAAGTTTGGATTGGACATGAAAGACACATGTGATAGAATTGTGATAGAGAATATGGTACTAGCCATGAGTTGTCCCAAGGGAGTAAGTGATGATGAACCTGTTGGAAACAACAACAACATTCCTGAAACTGATTCACCTACCCAAATCCATGAAGCAAGCAATCCAACACAATATAATTGA MEQLSATASGHILMFPLPIQGAVNSMLKLAELILLSSNGQISITFLTSEHVHNRLLHHTNVATRFNTYPGFTILTFRDGLPENHPRGSDKFMEMLEAVEAESRPLLRQMLVNNDSTTGEKPITCMIPDGSYNFALDVGKDARIPVIYFDTIGPSCLWVYLCLPILIQAGEIPFQENEDMEAVVNVPGMGNILRRRDLPDFCRTNNPTSEVMIQRISEQAKQFSKASGFILNTFQDLEQPLLSFICSHFPTNNIYVVGPLHQHLMAKLSKQEETIRSYNCSNSFWHEDRSCIDWLNNQPSKSVIFCSFGSQVVITKDQLIEFWQGLVNSGSRFLWIQRPRSVIGMDDDIVHEQQQLPSGLLKGVRENGFITNWGPQEEILSHPSIGGFLTHSGWNSTIESIVAGVPMICWPHYVDQLVISRYVSHVWKFGLDMKDTCDRIVIENMVLAMSCPKGVSDDEPVGNNNNIPETDSPTQIHEASNPTQYN Relationships
The following mRNA feature(s) are a part of this gene:
Homology
BLAST of Spo02782.1 vs. NCBI nr
Match: gi|731371484|ref|XP_010666054.1| (PREDICTED: 7-deoxyloganetic acid glucosyltransferase-like [Beta vulgaris subsp. vulgaris]) HSP 1 Score: 675.6 bits (1742), Expect = 6.300e-191 Identity = 319/440 (72.50%), Postives = 379/440 (86.14%), Query Frame = 1
BLAST of Spo02782.1 vs. NCBI nr
Match: gi|902201050|gb|KNA13884.1| (hypothetical protein SOVF_112160, partial [Spinacia oleracea]) HSP 1 Score: 570.9 bits (1470), Expect = 2.200e-159 Identity = 269/269 (100.00%), Postives = 269/269 (100.00%), Query Frame = 1
BLAST of Spo02782.1 vs. NCBI nr
Match: gi|731371457|ref|XP_010666049.1| (PREDICTED: 7-deoxyloganetic acid glucosyltransferase-like [Beta vulgaris subsp. vulgaris]) HSP 1 Score: 509.2 bits (1310), Expect = 7.800e-141 Identity = 247/467 (52.89%), Postives = 335/467 (71.73%), Query Frame = 1
BLAST of Spo02782.1 vs. NCBI nr
Match: gi|550826699|gb|AGX93068.1| (7-deoxyloganetic acid UDP-glucosyltransferase-like protein [Amsonia hubrichtii]) HSP 1 Score: 474.2 bits (1219), Expect = 2.800e-130 Identity = 225/437 (51.49%), Postives = 308/437 (70.48%), Query Frame = 1
BLAST of Spo02782.1 vs. NCBI nr
Match: gi|565403542|ref|XP_006367216.1| (PREDICTED: 7-deoxyloganetic acid glucosyltransferase-like [Solanum tuberosum]) HSP 1 Score: 473.0 bits (1216), Expect = 6.200e-130 Identity = 233/438 (53.20%), Postives = 310/438 (70.78%), Query Frame = 1
BLAST of Spo02782.1 vs. UniProtKB/TrEMBL
Match: A0A0K9R4L2_SPIOL (Uncharacterized protein (Fragment) OS=Spinacia oleracea GN=SOVF_112160 PE=3 SV=1) HSP 1 Score: 570.9 bits (1470), Expect = 1.500e-159 Identity = 269/269 (100.00%), Postives = 269/269 (100.00%), Query Frame = 1
BLAST of Spo02782.1 vs. UniProtKB/TrEMBL
Match: A0A0J8DZU5_BETVU (Glycosyltransferase OS=Beta vulgaris subsp. vulgaris GN=BVRB_9g225610 PE=3 SV=1) HSP 1 Score: 509.2 bits (1310), Expect = 5.500e-141 Identity = 247/467 (52.89%), Postives = 335/467 (71.73%), Query Frame = 1
BLAST of Spo02782.1 vs. UniProtKB/TrEMBL
Match: U5NDF3_9GENT (Glycosyltransferase OS=Amsonia hubrichtii PE=2 SV=1) HSP 1 Score: 474.2 bits (1219), Expect = 1.900e-130 Identity = 225/437 (51.49%), Postives = 308/437 (70.48%), Query Frame = 1
BLAST of Spo02782.1 vs. UniProtKB/TrEMBL
Match: M1C4J4_SOLTU (Glycosyltransferase OS=Solanum tuberosum GN=PGSC0003DMG402023186 PE=3 SV=1) HSP 1 Score: 473.0 bits (1216), Expect = 4.300e-130 Identity = 233/438 (53.20%), Postives = 310/438 (70.78%), Query Frame = 1
BLAST of Spo02782.1 vs. UniProtKB/TrEMBL
Match: U5NH37_CATRO (Glycosyltransferase OS=Catharanthus roseus GN=UGT709C2 PE=2 SV=1) HSP 1 Score: 471.1 bits (1211), Expect = 1.600e-129 Identity = 224/437 (51.26%), Postives = 306/437 (70.02%), Query Frame = 1
BLAST of Spo02782.1 vs. ExPASy Swiss-Prot
Match: UGT8_CATRO (7-deoxyloganetic acid glucosyltransferase OS=Catharanthus roseus GN=UGT709C2 PE=1 SV=1) HSP 1 Score: 471.1 bits (1211), Expect = 1.500e-131 Identity = 224/437 (51.26%), Postives = 306/437 (70.02%), Query Frame = 1
BLAST of Spo02782.1 vs. ExPASy Swiss-Prot
Match: U85A3_ARATH (UDP-glycosyltransferase 85A3 OS=Arabidopsis thaliana GN=UGT85A3 PE=2 SV=2) HSP 1 Score: 268.9 bits (686), Expect = 1.100e-70 Identity = 143/441 (32.43%), Postives = 238/441 (53.97%), Query Frame = 1
BLAST of Spo02782.1 vs. ExPASy Swiss-Prot
Match: UGT2_GARJA (7-deoxyloganetin glucosyltransferase OS=Gardenia jasminoides GN=UGT85A24 PE=1 SV=1) HSP 1 Score: 267.7 bits (683), Expect = 2.500e-70 Identity = 157/453 (34.66%), Postives = 241/453 (53.20%), Query Frame = 1
BLAST of Spo02782.1 vs. ExPASy Swiss-Prot
Match: U85A1_ARATH (UDP-glycosyltransferase 85A1 OS=Arabidopsis thaliana GN=UGT85A1 PE=2 SV=1) HSP 1 Score: 260.4 bits (664), Expect = 4.000e-68 Identity = 146/442 (33.03%), Postives = 233/442 (52.71%), Query Frame = 1
BLAST of Spo02782.1 vs. ExPASy Swiss-Prot
Match: UGT6_CATRO (7-deoxyloganetin glucosyltransferase OS=Catharanthus roseus GN=UGT85A23 PE=1 SV=1) HSP 1 Score: 257.3 bits (656), Expect = 3.400e-67 Identity = 153/443 (34.54%), Postives = 235/443 (53.05%), Query Frame = 1
BLAST of Spo02782.1 vs. TAIR (Arabidopsis)
Match: AT1G22380.1 (UDP-glucosyl transferase 85A3) HSP 1 Score: 268.9 bits (686), Expect = 6.300e-72 Identity = 143/441 (32.43%), Postives = 238/441 (53.97%), Query Frame = 1
BLAST of Spo02782.1 vs. TAIR (Arabidopsis)
Match: AT1G22400.1 (UDP-Glycosyltransferase superfamily protein) HSP 1 Score: 260.4 bits (664), Expect = 2.200e-69 Identity = 146/442 (33.03%), Postives = 233/442 (52.71%), Query Frame = 1
BLAST of Spo02782.1 vs. TAIR (Arabidopsis)
Match: AT1G22360.1 (UDP-glucosyl transferase 85A2) HSP 1 Score: 256.9 bits (655), Expect = 2.500e-68 Identity = 144/443 (32.51%), Postives = 229/443 (51.69%), Query Frame = 1
BLAST of Spo02782.1 vs. TAIR (Arabidopsis)
Match: AT1G78270.1 (UDP-glucosyl transferase 85A4) HSP 1 Score: 256.5 bits (654), Expect = 3.200e-68 Identity = 152/447 (34.00%), Postives = 236/447 (52.80%), Query Frame = 1
BLAST of Spo02782.1 vs. TAIR (Arabidopsis)
Match: AT1G22370.2 (UDP-glucosyl transferase 85A5) HSP 1 Score: 253.1 bits (645), Expect = 3.600e-67 Identity = 136/436 (31.19%), Postives = 223/436 (51.15%), Query Frame = 1
The following BLAST results are available for this feature:
BLAST of Spo02782.1 vs. NCBI nr
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. NCBI nr) Total hits: 5 Position : 0 Zoom : x 1
BLAST of Spo02782.1 vs. UniProtKB/TrEMBL
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. UniprotKB/TrEMBL) Total hits: 5 Position : 0 Zoom : x 1
BLAST of Spo02782.1 vs. ExPASy Swiss-Prot
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. ExPASy SwissProt) Total hits: 5 Position : 0 Zoom : x 1
BLAST of Spo02782.1 vs. TAIR (Arabidopsis)
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. TAIR) Total hits: 5 Position : 0 Zoom : x 1
InterPro
Analysis Name: InterPro Annotations of S. oleracea
Date Performed: 2018-06-29 Position : 0 Zoom : x 1
GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
RNA-Seq Expression
Co-expression
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