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Overview
Sequences
The following sequences are available for this feature:
Legend: exonfive_prime_UTRpolypeptideCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.ACTCTCAAGTCTCAACGCAACAAAATGAAACACTCATCTTCTTCCTTTACAAGATTCGCTATACGAAGGAGAGACAGCGTGTGTGTCAGGTGAATTCAAACAAAGTATCCCGCTCACAAATTCAAAATTTGAATTTTGAATTTTACGGACCGTTGCGGCCCTTTCAAAAACCCCCGGTTTCACTTGCCTCTTTCCATTTCAATCTCATTCCATTCCAGACACCATCTCTGTGTCTTTCTCTCTCTTCCAAGTTCCAACGTCTTCTCTCCTCACTTCAACCATGCCTCCCAAAAAACAACCCCTACAGACCAGCACCACCGTCAACATCCAACCCTTACCTTCCGACAACCCACACAAAATGCCTCCTGCCTCCGGAAAAACCATTGAAGAAATGTACCAGAAAAAAACTCAGCTAGAACACGTCCTCCTCCGACCCGATACATACATCGGATCCATCGAAAAACACGAACAATCCCTCTGGGTTTACGACACTTCCGGCGAAATGGTTTACAGAACTGTGAGCTATGTTCCTGGCCTGTACAAAATATTCGACGAAATCCTCGTAAATGCTGCCGATAACAAGCAGAGAGATCCGAAGATGGATCGGCTTGAAGTGGTGATTGATCAAGAAGAAAATCTAATCAGCGTTTACAACACTGGAGATGGAATTCCGGTGGAAATGCATAAAGAAGAAGGAGTTTTCGTGCCGGAGTTGATTTTCGGGCATTTGTTGACGAGTAGCAACTACGATGATAATGAGAAGAAGACCACTGGTGGTAGGAATGGTTATGGTGCTAAGCTTACTAATATTTTCTCCACTGAGTTTATTATTGAGACTGCAGATGGAAAGCGTCAATTGAAGTATAAACAGGTAAAATTTCTGTCGCTTTAATCATTTCAGTATTTGTTAGGGTTTTGTAAATTATTTGTTAAATTTTGGTATTTTTAGCTGAATTTAATCTGTGCAGTTTTTGGATGATCGTTGTTGATTATAGTCTCGGATTTTTTTATAAATTGTTTCCTGCAATGTCGATTTCAGCTCATTGTGTGTTCAGCTCATTGTGTGTTCTTAATTAGGTCATTTGTTGTTCTAGAACTGAAATTAATTAGGCAATTAGGTTACTTATTGTTCATTTGTTAGGGTTTTGTAAATTATTTGTTAGATTTAGGTACTTTTAGCTGAATTTTAATCTGTGCAATTTTTGGATGATTGTTGTTGAAAATAGTCTCGGATTTTTTATAAAGTGTTTCCTGCAATGTCGATCTTAGGATTTCTGGTTGATAAATTGCTTCCTTTGACTTGTATAATGTTTGTAGAGTAGTGATATGCCGATGCCCATGGCTCTGGTAATTTGTCATTTTGTCTAGTTTTTATGAATACAGTGATTGATTTTCTGTGGCTATAAAATTTTGGTGCAATATGCTGCTTATTTAAACTGGACCTGTGGGGTTGATGTGAAGGTGTTTGGCAACAACATGTCTCAAAAGGGAGTTCCTGTGACTCAAAAGTGCAAGACTACTGAGAATTGGACCAAAGTAACGTTTAGGCCTGACTTGAGCAAGTTTCAGATGACCCATCTAGAAGATGATGTGGTCGCCTTGATGAAGAAAAGAGTTGTGGACTTGGCGGGATGCCTGGCTGCGTGTCCTGGTAAAAAAGTAAAAGTGACTTTAAACGGAGAAGAGATTCAGGTGAAGTCGTTTCATGACTATGCTCAGCTGTATCTGAATTCTGTTGACCAGAAAGGAGACGAATTACTACCCAGGTGCATAAAACATGCTATTTGTTATTACTTTGTTCTAATTGTTAAAGATAGTAGTTCTCTTCTTGGAAACTGACATGTTTTAGTAAACAGGATTGACAATAGCAGCAAAGAGGATGTGAATCCAAGGTGGCAGTTATCTATCAGTCGCAGTGATGGACAGTTTCAACAGGTACTATACAGCTTCTATGGGAATGGGAGAAACTATTTCTCTTATTTTAAGCACGTAATTGACAAACCTATGCATTTTGTCAACCAGGTCAGCTTTGTGAACAACATAAACACGATCAAAGGTGGAACTCATGTTGATTACATAACCGCCCAGATAACCAAGTATGTGGTTGATGCTGTTAAGAAGAAGAAGAAAACTGCAAACATCAAGCCACATGTTGCGAAGAACCATTTGTGGGTGTTTGTCAATGCTCTTATTGACAATCCTGCGTTTGATTCTCAGACAAAGGAAACCTTAACAACTCGCTCAAACAGTTTTGGGACTACTTGTCAACTTTCGGACAAGTTCCTGAAGAATGGTTGATATCCTTGTGTAAACTGAGTACTAAGTTTCTTTTCTGATCAAGGCTTTATTTCTGATGTTAGTACTTTCTTCCATAACTTGATTTCAGTGGTGGATAAATCTGGTGTGGTGGAAAGCCTCATTACATGGGATGAATTCAAGACGAACAAAGAGCTCAAGAAAACTGATGGATCCAAGACTAGAAGGATACTTGATGTCCCAAAGCTAGAGGATGCCAATCAGGCTGGAGGTAGCAAATCTCATGAATGCACTTTGATTCTTACAGAAGGAGACTCAGCAAAAGCACTTGCTGTAAGTTATCTAGCTTGATTTAGGTTTTCAATTGCACACAAGTGCCTGTGAGTTGAGACAATCTTCTAATTGTTTTTTGCACGAAACAACTTCTTGTAGCTGGCTGGGATCTCTGTTGTTGGCCGAGACTATTATGGTGTATTTCCTCTGCGAGGCAAACTGCTTAATGTAAGGGAAGCAAGTGCTAAGCAGATCACAGATAATGCAGAGATTAATAATATCAAAAAGATTCTCGGGCTCAAGCAGGGAGAAAAGTATGACAAAGATGACAGTATCAAGTTATTGCGATATGGTCATCTAATGATTATGGCAGATCAGGTTGAAAACCTCTTAGATTCTCCTTTCCAGTATTATAGTTTTTATTTATTCTGCTTAGTTCAGAATATATTTTCTCCTCCCCAATCAGTACATCAGGTTTAATCTGTTTTATGGCACAGGATCATGATGGTTCCCACATTAAGGGGCTTATTATTAACTTCATTCACACATTCTGGCCTTCATTGCTGAGGAACCCCTCCTTCATGCTCGAGTTTATAACGCCTATAGTGAAGGTCTGCAGCACTAATACATATACTCCTTGCTTTATCCTATGCTCTATGCAGTTTATTGAAACAATATGATACTCAAATAACCTTACCTCCTGCCAGGCAACTCGTGGAAAGGCGAAGGATAAACAGGTGATATCTTTCTATACCATGCCTGAGTATGAAGAATGGATCAGAAGCATGGGAAATAATCTGAAAAGTTGGACCGTCAAGTACTATAAGGTTTGCTAGTACATACCTCCCCAGTGGGTATAATAATTTATATTTGGTGTAGGGAGCTGTGATTTGCTTAATTTAAGAGTTGATGAAACAGGGGTTGGGAACTAGTGACGCAAATGAGGGAAAGGAATACTTTGCAAATCTCAAGAGGCACAGGAAGATTTTCAGCTGGGAGGATGACAATGATGGCAGTGCTATTGAGCTGGCCTTTAGTAAGAAGAAGATCGAAGCTAGGAAGGATTGGCTTCGTGAAGATGAGGTATGAGCTTATTCAAAATTTGCCGAGTAACTTTTAGGGTCTGGCTGCAGTTTCTGATATCTTTTGTTTTGAATGCAGACTGGAAATTTCCTTGATCATACAAAAGAAATAATTAAGTACCGAGATTTCGTCCACAAGGAGCTTAAACTGTTCTCCAGAGCCGACCTTCAAAGGTCAATACCATGCATGGTTGATGGACTGAAGCCAACACAAAGAAAAGTTCTTTTTGCTGCATTCAAGAAGAACTTAGTGAATGAGATAAAAGTTTCTCAATTCAGTGGTTACGTATCTGAGAAAACATCTTATCATCACGGTGAAACAAGCATACAGAGCACAACTGTTGGCATGGCACAGAATTACGTTGGGGCCAATAACATTAATCTTCTCACGCCCAGTGGACAGTTTGGAACGCGTAACTTGGTATGTTTGGCTAAGTAGAAAATTGTGCACCATTGACTTCTTCAAAGTTCAAACTGATCATAGTATTGTATGAATTCTGTCATCTTTCTGATTCCTTTAATTTAATATTATTCTACAGGGTGGAAAGGATGCTGCCAGTGCCAGATACATTTTCACACGGCTTACCGAAATCACCAGATTCCTGTTTCCAAAGGAAGACGATATCCTGCTCAACTACTTGAAAGAAGATGGCTTGACCATTGAACCTGTTTGGTGAGTTATCTCATTGTGTAGAGGTGACAGCTCTTGAGTTGACAAGGTTCAAAAGAAGCTAATTTTACCTTGTATTTCAGGTACATGCCTGTTATACCAACAGTTCTTGTCAATGGATCTGAAGGTATTGGAACGGGCTGGAGTACATTTATTCCTAATTATAATCCCAGAGACATCATAGCAAATTTCAGGCGTTTGATGAATGACGAGCCTTTAGTTGTCATGGATCCTTGGTACAATAATTTCAAAGGAACTATCCAAAGAACTGCAATGAAAGAGACTGGAATCACTTACACTGTTACTGGAATTATTGAGGTAGTCGATGAAAGCAGTACAGAAGATAACAATGAAGACGTAACTCTTAGAATCACTGAACTGCCAATTCGGAAGTGGACCCAAGATTACAAGGAGTTTTTGACTTCGCTTGCCAAGGAGGCGGATAGGACAAAGGAACCATTCATCAAGGTGATCTACGTTTATTTTGCGTACATGATGTGGTTCACAAAAAAGTTTTGGAGTAATTTTGTTTCATTTATGCCTGCAGGACTTTTTGGATTACAGTACTAATGACACAGTACATTTTGAGATAGTGTTAACAAAGAAGAACTATAATCTTGCCAAGCAGGAGGGCTTGTTAAAGAAGTTCAAGCTCACAACTACCCTCAGCACTAGTAACATGCACCTCTTCGACGCAGATAATAAGATTGTTAGATACGAATCCCCTGAAAAAAGTATGTCTTTATACTATTAGTGAGGGTGCATTTTGTGTTGAATGGCTATTAATTTTTTAATGACATCTTTTGCAGTTCTTGAGAAGTTCTATGGTATGAGGCTTGTATACTATACGAAAAGAAGGGTAAGTCATAAAGCATGAAATGAGTTAAGCAAATGCATTGTTCTTATGTACACTACTGAGTACTGATTTCTGGTTCAATAAAACATTGCAGGAAGTATACTTGGAGATATATAAAGCTGAGTTGGTAAAGTTGGATAATCAGGTCAGGTTTATCCTTGGAGTAGTTGAAGGAGAAATTGTGGTGTGCAAAAGAAAGAAGGCTGAATTGGTCAATGAGTTGCGAGAGAGAGGATTTATTCCTATCCACAAGAAAAAACCTGTTGAGTCACCTGAAGATAGTGAAGAGACAGAGAACACGGAGGATCACGCTGAGAATCTAGCATCTACTGAAACACATTTGAGTGACTTTGATTATCTGTTGTCCATGACAATTGGAAACTTGACACATGAGAAAGTGAAGGACCTTTGCGCCAACAAGGATAGAGTCATCAAACAAATTGAGCAGTTAACAAATGAAACTGAGAGGTCTTTGTGGTTGAAGGATCTTGATGCTCTTGAAAAGGCTCTTGATGTAAGTGTTAAACGACTAAAGTTGGTTGTATTCTTCGCATTACTGTTATTCAGTCTACAGTTGTAATAATTTATTCTTATATGTGCAGGAGAAGGATAAAAGAGAAGCGGAGGAGGCCAAAGAGTGCATGAAAAGGGTTACTGCTTCTGGCAAAAAAGCTAAAAAGCCGCCCAAGAATAACAGGAATGTGAGCAAAGCAAAACCTAAACCTGTCAGTGGATCATCTGCTGCTGCAATGGATACAGGTTGCACCATCTATCATATATAAATGGTTTGCATTAAAAATCTTGACATACTACTTTTTTCAAATTTTGACCATCTTTCTTGTTAAATTATTAATTAGAATATCAGCCAGAGGAAGTAAAGGGAAAAGGCAAGGCAGGTCCAGGGAAGGCTCTGGCTAAGAAGGTGAGTGTATCTCTAATTAGTTTGTACTCAATTACAACTGAGGTGGGGAGATGCTAACTTATCAGAACTGAATTTTTCAGCAAGCAAAACCTCCTGTAGTCGAAATTGAGGAAGAAGAGGATGACATTCCTCGTCCAAGGAAGGCTCCGGCTAAGAAGGTGAGTGTATCTCTAATTAGTTTGTACTCAATTACAACTGAGGTGGGAAGATGCTAACTATCAGAACTGAATTTTTCAGCAAGCAAAACCTCCTGTGGTGGAAATTGAGGAAGAAGGGGATGACATTCCTGATCTAAGACAACGGCTTGAAGCCTATCGTTTGGGGGATTCCTCTCCTGACAAATCTGCTGGTGAATTCTCATTTACACTTGCTAGTAGATATAACAAAATGCATTCCATTTGCTAGTAGTAGTAAGTAGTAATTGGGTTTCGTTGTTTGAACAGAAATGGAAAGTGATGCACCAAATAAGGCAGACAGCGATGTTGAGGCTGAAATAGCAAAGAAAGGAAGGGGTAGAGCTGCTGTAACAAAGAAGAGAGGAGCAGCGAATAAGAAATCTGAGGCAGGGCAAAAGTTGATAACTGAAACATCACCAGAACAGAAAGTGAGGAGGATGAGGCCTTCCCCATTCAACAAGAAAAGTGGGTCTGTTTTGAACAAAGGAGAGTCGTCAGACAACAGTATAGAGAATGCTGATGTATCCGCATTTTCTTTGGATAGCATCAATGAAGCCTTGCCGTCAAGGCCTAGACCTCAGCGCGCAAACAAGAAGCAGATAACTTATGTTCTGAGCGACTCTGAAAGCGACCAACCATCATCTGACAGTTTTTCTGATGCAGCCGATGATATTTCTGATGATGATGATTCTGATGCTGAATAGGCAGCAGGCAATGCATCTTTAGGAAATTCATAAGTTTGTCCATTCAACTTTATTCTTATGTTGTTACTTTGGAAAATATGATAGTTTTCCAACTGTATGCCAATTCAACTTTAGTCTTGTGTTGTTACTTAATTGTCAAACAATTGTTGTTATACAAACCAAACCCTTGGAAGATATTTTTATACAAACCAACTTTAGTCTTGATGGGACCAAACTTATGCTTCCTTATCCACTTTTTATGTGGTTATTTGCTGGCTTTTCATCTAAGATATTTGTGACTCTCAAGTCTCAACGCAACAAAATGAAACACTCATCTTCTTCCTTTACAAGATTCGCTATACGAAGGAGAGACAGCGTGTGTGTCAGGTGAATTCAAACAAAGTATCCCGCTCACAAATTCAAAATTTGAATTTTGAATTTTACGGACCGTTGCGGCCCTTTCAAAAACCCCCGGTTTCACTTGCCTCTTTCCATTTCAATCTCATTCCATTCCAGACACCATCTCTGTGTCTTTCTCTCTCTTCCAAGTTCCAACGTCTTCTCTCCTCACTTCAACCATGCCTCCCAAAAAACAACCCCTACAGACCAGCACCACCGTCAACATCCAACCCTTACCTTCCGACAACCCACACAAAATGCCTCCTGCCTCCGGAAAAACCATTGAAGAAATGTACCAGAAAAAAACTCAGCTAGAACACGTCCTCCTCCGACCCGATACATACATCGGATCCATCGAAAAACACGAACAATCCCTCTGGGTTTACGACACTTCCGGCGAAATGGTTTACAGAACTGTGAGCTATGTTCCTGGCCTGTACAAAATATTCGACGAAATCCTCGTAAATGCTGCCGATAACAAGCAGAGAGATCCGAAGATGGATCGGCTTGAAGTGGTGATTGATCAAGAAGAAAATCTAATCAGCGTTTACAACACTGGAGATGGAATTCCGGTGGAAATGCATAAAGAAGAAGGAGTTTTCGTGCCGGAGTTGATTTTCGGGCATTTGTTGACGAGTAGCAACTACGATGATAATGAGAAGAAGACCACTGGTGGTAGGAATGGTTATGGTGCTAAGCTTACTAATATTTTCTCCACTGAGTTTATTATTGAGACTGCAGATGGAAAGCGTCAATTGAAGTATAAACAGGTGTTTGGCAACAACATGTCTCAAAAGGGAGTTCCTGTGACTCAAAAGTGCAAGACTACTGAGAATTGGACCAAAGTAACGTTTAGGCCTGACTTGAGCAAGTTTCAGATGACCCATCTAGAAGATGATGTGGTCGCCTTGATGAAGAAAAGAGTTGTGGACTTGGCGGGATGCCTGGCTGCGTGTCCTGGTAAAAAAGTAAAAGTGACTTTAAACGGAGAAGAGATTCAGGTGAAGTCGTTTCATGACTATGCTCAGCTGTATCTGAATTCTGTTGACCAGAAAGGAGACGAATTACTACCCAGGATTGACAATAGCAGCAAAGAGGATGTGAATCCAAGGTGGCAGTTATCTATCAGTCGCAGTGATGGACAGTTTCAACAGGTCAGCTTTGTGAACAACATAAACACGATCAAAGGTGGAACTCATGTTGATTACATAACCGCCCAGATAACCAAGTATGTGGTTGATGCTGTTAAGAAGAAGAAGAAAACTGCAAACATCAAGCCACATGTTGCGAAGAACCATTTGTGGGTGTTTGTCAATGCTCTTATTGACAATCCTGCGTTTGATTCTCAGACAAAGGAAACCTTAACAACTCGCTCAAACAGTTTTGGGACTACTTGTCAACTTTCGGACAAGTTCCTGAAGAATGTGGTGGATAAATCTGGTGTGGTGGAAAGCCTCATTACATGGGATGAATTCAAGACGAACAAAGAGCTCAAGAAAACTGATGGATCCAAGACTAGAAGGATACTTGATGTCCCAAAGCTAGAGGATGCCAATCAGGCTGGAGGTAGCAAATCTCATGAATGCACTTTGATTCTTACAGAAGGAGACTCAGCAAAAGCACTTGCTCTGGCTGGGATCTCTGTTGTTGGCCGAGACTATTATGGTGTATTTCCTCTGCGAGGCAAACTGCTTAATGTAAGGGAAGCAAGTGCTAAGCAGATCACAGATAATGCAGAGATTAATAATATCAAAAAGATTCTCGGGCTCAAGCAGGGAGAAAAGTATGACAAAGATGACAGTATCAAGTTATTGCGATATGGTCATCTAATGATTATGGCAGATCAGGATCATGATGGTTCCCACATTAAGGGGCTTATTATTAACTTCATTCACACATTCTGGCCTTCATTGCTGAGGAACCCCTCCTTCATGCTCGAGTTTATAACGCCTATAGTGAAGGCAACTCGTGGAAAGGCGAAGGATAAACAGGTGATATCTTTCTATACCATGCCTGAGTATGAAGAATGGATCAGAAGCATGGGAAATAATCTGAAAAGTTGGACCGTCAAGTACTATAAGGGGTTGGGAACTAGTGACGCAAATGAGGGAAAGGAATACTTTGCAAATCTCAAGAGGCACAGGAAGATTTTCAGCTGGGAGGATGACAATGATGGCAGTGCTATTGAGCTGGCCTTTAGTAAGAAGAAGATCGAAGCTAGGAAGGATTGGCTTCGTGAAGATGAGACTGGAAATTTCCTTGATCATACAAAAGAAATAATTAAGTACCGAGATTTCGTCCACAAGGAGCTTAAACTGTTCTCCAGAGCCGACCTTCAAAGGTCAATACCATGCATGGTTGATGGACTGAAGCCAACACAAAGAAAAGTTCTTTTTGCTGCATTCAAGAAGAACTTAGTGAATGAGATAAAAGTTTCTCAATTCAGTGGTTACGTATCTGAGAAAACATCTTATCATCACGGTGAAACAAGCATACAGAGCACAACTGTTGGCATGGCACAGAATTACGTTGGGGCCAATAACATTAATCTTCTCACGCCCAGTGGACAGTTTGGAACGCGTAACTTGGGTGGAAAGGATGCTGCCAGTGCCAGATACATTTTCACACGGCTTACCGAAATCACCAGATTCCTGTTTCCAAAGGAAGACGATATCCTGCTCAACTACTTGAAAGAAGATGGCTTGACCATTGAACCTGTTTGGTACATGCCTGTTATACCAACAGTTCTTGTCAATGGATCTGAAGGTATTGGAACGGGCTGGAGTACATTTATTCCTAATTATAATCCCAGAGACATCATAGCAAATTTCAGGCGTTTGATGAATGACGAGCCTTTAGTTGTCATGGATCCTTGGTACAATAATTTCAAAGGAACTATCCAAAGAACTGCAATGAAAGAGACTGGAATCACTTACACTGTTACTGGAATTATTGAGGTAGTCGATGAAAGCAGTACAGAAGATAACAATGAAGACGTAACTCTTAGAATCACTGAACTGCCAATTCGGAAGTGGACCCAAGATTACAAGGAGTTTTTGACTTCGCTTGCCAAGGAGGCGGATAGGACAAAGGAACCATTCATCAAGGACTTTTTGGATTACAGTACTAATGACACAGTACATTTTGAGATAGTGTTAACAAAGAAGAACTATAATCTTGCCAAGCAGGAGGGCTTGTTAAAGAAGTTCAAGCTCACAACTACCCTCAGCACTAGTAACATGCACCTCTTCGACGCAGATAATAAGATTGTTAGATACGAATCCCCTGAAAAAATTCTTGAGAAGTTCTATGGTATGAGGCTTGTATACTATACGAAAAGAAGGGAAGTATACTTGGAGATATATAAAGCTGAGTTGGTAAAGTTGGATAATCAGGTCAGGTTTATCCTTGGAGTAGTTGAAGGAGAAATTGTGGTGTGCAAAAGAAAGAAGGCTGAATTGGTCAATGAGTTGCGAGAGAGAGGATTTATTCCTATCCACAAGAAAAAACCTGTTGAGTCACCTGAAGATAGTGAAGAGACAGAGAACACGGAGGATCACGCTGAGAATCTAGCATCTACTGAAACACATTTGAGTGACTTTGATTATCTGTTGTCCATGACAATTGGAAACTTGACACATGAGAAAGTGAAGGACCTTTGCGCCAACAAGGATAGAGTCATCAAACAAATTGAGCAGTTAACAAATGAAACTGAGAGGTCTTTGTGGTTGAAGGATCTTGATGCTCTTGAAAAGGCTCTTGATGAGAAGGATAAAAGAGAAGCGGAGGAGGCCAAAGAGTGCATGAAAAGGGTTACTGCTTCTGGCAAAAAAGCTAAAAAGCCGCCCAAGAATAACAGGAATGTGAGCAAAGCAAAACCTAAACCTGTCAGTGGATCATCTGCTGCTGCAATGGATACAGAATATCAGCCAGAGGAAGTAAAGGGAAAAGGCAAGGCAGGTCCAGGGAAGGCTCTGGCTAAGAAGCAAGCAAAACCTCCTGTAGTCGAAATTGAGGAAGAAGAGGATGACATTCCTCGTCCAAGGAAGGCTCCGGCTAAGAAGCAAGCAAAACCTCCTGTGGTGGAAATTGAGGAAGAAGGGGATGACATTCCTGATCTAAGACAACGGCTTGAAGCCTATCGTTTGGGGGATTCCTCTCCTGACAAATCTGCTGAAATGGAAAGTGATGCACCAAATAAGGCAGACAGCGATGTTGAGGCTGAAATAGCAAAGAAAGGAAGGGGTAGAGCTGCTGTAACAAAGAAGAGAGGAGCAGCGAATAAGAAATCTGAGGCAGGGCAAAAGTTGATAACTGAAACATCACCAGAACAGAAAGTGAGGAGGATGAGGCCTTCCCCATTCAACAAGAAAAGTGGGTCTGTTTTGAACAAAGGAGAGTCGTCAGACAACAGTATAGAGAATGCTGATGTATCCGCATTTTCTTTGGATAGCATCAATGAAGCCTTGCCGTCAAGGCCTAGACCTCAGCGCGCAAACAAGAAGCAGATAACTTATGTTCTGAGCGACTCTGAAAGCGACCAACCATCATCTGACAGTTTTTCTGATGCAGCCGATGATATTTCTGATGATGATGATTCTGATGCTGAATAGGCAGCAGGCAATGCATCTTTAGGAAATTCATAAGTTTGTCCATTCAACTTTATTCTTATGTTGTTACTTTGGAAAATATGATAGTTTTCCAACTGTATGCCAATTCAACTTTAGTCTTGTGTTGTTACTTAATTGTCAAACAATTGTTGTTATACAAACCAAACCCTTGGAAGATATTTTTATACAAACCAACTTTAGTCTTGATGGGACCAAACTTATGCTTCCTTATCCACTTTTTATGTGGTTATTTGCTGGCTTTTCATCTAAGATATTTGTG ATGCCTCCCAAAAAACAACCCCTACAGACCAGCACCACCGTCAACATCCAACCCTTACCTTCCGACAACCCACACAAAATGCCTCCTGCCTCCGGAAAAACCATTGAAGAAATGTACCAGAAAAAAACTCAGCTAGAACACGTCCTCCTCCGACCCGATACATACATCGGATCCATCGAAAAACACGAACAATCCCTCTGGGTTTACGACACTTCCGGCGAAATGGTTTACAGAACTGTGAGCTATGTTCCTGGCCTGTACAAAATATTCGACGAAATCCTCGTAAATGCTGCCGATAACAAGCAGAGAGATCCGAAGATGGATCGGCTTGAAGTGGTGATTGATCAAGAAGAAAATCTAATCAGCGTTTACAACACTGGAGATGGAATTCCGGTGGAAATGCATAAAGAAGAAGGAGTTTTCGTGCCGGAGTTGATTTTCGGGCATTTGTTGACGAGTAGCAACTACGATGATAATGAGAAGAAGACCACTGGTGGTAGGAATGGTTATGGTGCTAAGCTTACTAATATTTTCTCCACTGAGTTTATTATTGAGACTGCAGATGGAAAGCGTCAATTGAAGTATAAACAGGTGTTTGGCAACAACATGTCTCAAAAGGGAGTTCCTGTGACTCAAAAGTGCAAGACTACTGAGAATTGGACCAAAGTAACGTTTAGGCCTGACTTGAGCAAGTTTCAGATGACCCATCTAGAAGATGATGTGGTCGCCTTGATGAAGAAAAGAGTTGTGGACTTGGCGGGATGCCTGGCTGCGTGTCCTGGTAAAAAAGTAAAAGTGACTTTAAACGGAGAAGAGATTCAGGTGAAGTCGTTTCATGACTATGCTCAGCTGTATCTGAATTCTGTTGACCAGAAAGGAGACGAATTACTACCCAGGATTGACAATAGCAGCAAAGAGGATGTGAATCCAAGGTGGCAGTTATCTATCAGTCGCAGTGATGGACAGTTTCAACAGGTCAGCTTTGTGAACAACATAAACACGATCAAAGGTGGAACTCATGTTGATTACATAACCGCCCAGATAACCAAGTATGTGGTTGATGCTGTTAAGAAGAAGAAGAAAACTGCAAACATCAAGCCACATGTTGCGAAGAACCATTTGTGGGTGTTTGTCAATGCTCTTATTGACAATCCTGCGTTTGATTCTCAGACAAAGGAAACCTTAACAACTCGCTCAAACAGTTTTGGGACTACTTGTCAACTTTCGGACAAGTTCCTGAAGAATGTGGTGGATAAATCTGGTGTGGTGGAAAGCCTCATTACATGGGATGAATTCAAGACGAACAAAGAGCTCAAGAAAACTGATGGATCCAAGACTAGAAGGATACTTGATGTCCCAAAGCTAGAGGATGCCAATCAGGCTGGAGGTAGCAAATCTCATGAATGCACTTTGATTCTTACAGAAGGAGACTCAGCAAAAGCACTTGCTCTGGCTGGGATCTCTGTTGTTGGCCGAGACTATTATGGTGTATTTCCTCTGCGAGGCAAACTGCTTAATGTAAGGGAAGCAAGTGCTAAGCAGATCACAGATAATGCAGAGATTAATAATATCAAAAAGATTCTCGGGCTCAAGCAGGGAGAAAAGTATGACAAAGATGACAGTATCAAGTTATTGCGATATGGTCATCTAATGATTATGGCAGATCAGGATCATGATGGTTCCCACATTAAGGGGCTTATTATTAACTTCATTCACACATTCTGGCCTTCATTGCTGAGGAACCCCTCCTTCATGCTCGAGTTTATAACGCCTATAGTGAAGGCAACTCGTGGAAAGGCGAAGGATAAACAGGTGATATCTTTCTATACCATGCCTGAGTATGAAGAATGGATCAGAAGCATGGGAAATAATCTGAAAAGTTGGACCGTCAAGTACTATAAGGGGTTGGGAACTAGTGACGCAAATGAGGGAAAGGAATACTTTGCAAATCTCAAGAGGCACAGGAAGATTTTCAGCTGGGAGGATGACAATGATGGCAGTGCTATTGAGCTGGCCTTTAGTAAGAAGAAGATCGAAGCTAGGAAGGATTGGCTTCGTGAAGATGAGACTGGAAATTTCCTTGATCATACAAAAGAAATAATTAAGTACCGAGATTTCGTCCACAAGGAGCTTAAACTGTTCTCCAGAGCCGACCTTCAAAGGTCAATACCATGCATGGTTGATGGACTGAAGCCAACACAAAGAAAAGTTCTTTTTGCTGCATTCAAGAAGAACTTAGTGAATGAGATAAAAGTTTCTCAATTCAGTGGTTACGTATCTGAGAAAACATCTTATCATCACGGTGAAACAAGCATACAGAGCACAACTGTTGGCATGGCACAGAATTACGTTGGGGCCAATAACATTAATCTTCTCACGCCCAGTGGACAGTTTGGAACGCGTAACTTGGGTGGAAAGGATGCTGCCAGTGCCAGATACATTTTCACACGGCTTACCGAAATCACCAGATTCCTGTTTCCAAAGGAAGACGATATCCTGCTCAACTACTTGAAAGAAGATGGCTTGACCATTGAACCTGTTTGGTACATGCCTGTTATACCAACAGTTCTTGTCAATGGATCTGAAGGTATTGGAACGGGCTGGAGTACATTTATTCCTAATTATAATCCCAGAGACATCATAGCAAATTTCAGGCGTTTGATGAATGACGAGCCTTTAGTTGTCATGGATCCTTGGTACAATAATTTCAAAGGAACTATCCAAAGAACTGCAATGAAAGAGACTGGAATCACTTACACTGTTACTGGAATTATTGAGGTAGTCGATGAAAGCAGTACAGAAGATAACAATGAAGACGTAACTCTTAGAATCACTGAACTGCCAATTCGGAAGTGGACCCAAGATTACAAGGAGTTTTTGACTTCGCTTGCCAAGGAGGCGGATAGGACAAAGGAACCATTCATCAAGGACTTTTTGGATTACAGTACTAATGACACAGTACATTTTGAGATAGTGTTAACAAAGAAGAACTATAATCTTGCCAAGCAGGAGGGCTTGTTAAAGAAGTTCAAGCTCACAACTACCCTCAGCACTAGTAACATGCACCTCTTCGACGCAGATAATAAGATTGTTAGATACGAATCCCCTGAAAAAATTCTTGAGAAGTTCTATGGTATGAGGCTTGTATACTATACGAAAAGAAGGGAAGTATACTTGGAGATATATAAAGCTGAGTTGGTAAAGTTGGATAATCAGGTCAGGTTTATCCTTGGAGTAGTTGAAGGAGAAATTGTGGTGTGCAAAAGAAAGAAGGCTGAATTGGTCAATGAGTTGCGAGAGAGAGGATTTATTCCTATCCACAAGAAAAAACCTGTTGAGTCACCTGAAGATAGTGAAGAGACAGAGAACACGGAGGATCACGCTGAGAATCTAGCATCTACTGAAACACATTTGAGTGACTTTGATTATCTGTTGTCCATGACAATTGGAAACTTGACACATGAGAAAGTGAAGGACCTTTGCGCCAACAAGGATAGAGTCATCAAACAAATTGAGCAGTTAACAAATGAAACTGAGAGGTCTTTGTGGTTGAAGGATCTTGATGCTCTTGAAAAGGCTCTTGATGAGAAGGATAAAAGAGAAGCGGAGGAGGCCAAAGAGTGCATGAAAAGGGTTACTGCTTCTGGCAAAAAAGCTAAAAAGCCGCCCAAGAATAACAGGAATGTGAGCAAAGCAAAACCTAAACCTGTCAGTGGATCATCTGCTGCTGCAATGGATACAGAATATCAGCCAGAGGAAGTAAAGGGAAAAGGCAAGGCAGGTCCAGGGAAGGCTCTGGCTAAGAAGCAAGCAAAACCTCCTGTAGTCGAAATTGAGGAAGAAGAGGATGACATTCCTCGTCCAAGGAAGGCTCCGGCTAAGAAGCAAGCAAAACCTCCTGTGGTGGAAATTGAGGAAGAAGGGGATGACATTCCTGATCTAAGACAACGGCTTGAAGCCTATCGTTTGGGGGATTCCTCTCCTGACAAATCTGCTGAAATGGAAAGTGATGCACCAAATAAGGCAGACAGCGATGTTGAGGCTGAAATAGCAAAGAAAGGAAGGGGTAGAGCTGCTGTAACAAAGAAGAGAGGAGCAGCGAATAAGAAATCTGAGGCAGGGCAAAAGTTGATAACTGAAACATCACCAGAACAGAAAGTGAGGAGGATGAGGCCTTCCCCATTCAACAAGAAAAGTGGGTCTGTTTTGAACAAAGGAGAGTCGTCAGACAACAGTATAGAGAATGCTGATGTATCCGCATTTTCTTTGGATAGCATCAATGAAGCCTTGCCGTCAAGGCCTAGACCTCAGCGCGCAAACAAGAAGCAGATAACTTATGTTCTGAGCGACTCTGAAAGCGACCAACCATCATCTGACAGTTTTTCTGATGCAGCCGATGATATTTCTGATGATGATGATTCTGATGCTGAATAG MPPKKQPLQTSTTVNIQPLPSDNPHKMPPASGKTIEEMYQKKTQLEHVLLRPDTYIGSIEKHEQSLWVYDTSGEMVYRTVSYVPGLYKIFDEILVNAADNKQRDPKMDRLEVVIDQEENLISVYNTGDGIPVEMHKEEGVFVPELIFGHLLTSSNYDDNEKKTTGGRNGYGAKLTNIFSTEFIIETADGKRQLKYKQVFGNNMSQKGVPVTQKCKTTENWTKVTFRPDLSKFQMTHLEDDVVALMKKRVVDLAGCLAACPGKKVKVTLNGEEIQVKSFHDYAQLYLNSVDQKGDELLPRIDNSSKEDVNPRWQLSISRSDGQFQQVSFVNNINTIKGGTHVDYITAQITKYVVDAVKKKKKTANIKPHVAKNHLWVFVNALIDNPAFDSQTKETLTTRSNSFGTTCQLSDKFLKNVVDKSGVVESLITWDEFKTNKELKKTDGSKTRRILDVPKLEDANQAGGSKSHECTLILTEGDSAKALALAGISVVGRDYYGVFPLRGKLLNVREASAKQITDNAEINNIKKILGLKQGEKYDKDDSIKLLRYGHLMIMADQDHDGSHIKGLIINFIHTFWPSLLRNPSFMLEFITPIVKATRGKAKDKQVISFYTMPEYEEWIRSMGNNLKSWTVKYYKGLGTSDANEGKEYFANLKRHRKIFSWEDDNDGSAIELAFSKKKIEARKDWLREDETGNFLDHTKEIIKYRDFVHKELKLFSRADLQRSIPCMVDGLKPTQRKVLFAAFKKNLVNEIKVSQFSGYVSEKTSYHHGETSIQSTTVGMAQNYVGANNINLLTPSGQFGTRNLGGKDAASARYIFTRLTEITRFLFPKEDDILLNYLKEDGLTIEPVWYMPVIPTVLVNGSEGIGTGWSTFIPNYNPRDIIANFRRLMNDEPLVVMDPWYNNFKGTIQRTAMKETGITYTVTGIIEVVDESSTEDNNEDVTLRITELPIRKWTQDYKEFLTSLAKEADRTKEPFIKDFLDYSTNDTVHFEIVLTKKNYNLAKQEGLLKKFKLTTTLSTSNMHLFDADNKIVRYESPEKILEKFYGMRLVYYTKRREVYLEIYKAELVKLDNQVRFILGVVEGEIVVCKRKKAELVNELRERGFIPIHKKKPVESPEDSEETENTEDHAENLASTETHLSDFDYLLSMTIGNLTHEKVKDLCANKDRVIKQIEQLTNETERSLWLKDLDALEKALDEKDKREAEEAKECMKRVTASGKKAKKPPKNNRNVSKAKPKPVSGSSAAAMDTEYQPEEVKGKGKAGPGKALAKKQAKPPVVEIEEEEDDIPRPRKAPAKKQAKPPVVEIEEEGDDIPDLRQRLEAYRLGDSSPDKSAEMESDAPNKADSDVEAEIAKKGRGRAAVTKKRGAANKKSEAGQKLITETSPEQKVRRMRPSPFNKKSGSVLNKGESSDNSIENADVSAFSLDSINEALPSRPRPQRANKKQITYVLSDSESDQPSSDSFSDAADDISDDDDSDAE Relationships
The following mRNA feature(s) are a part of this gene:
Homology
BLAST of Spo21288.1 vs. NCBI nr
Match: gi|902209393|gb|KNA16194.1| (hypothetical protein SOVF_091250 [Spinacia oleracea]) HSP 1 Score: 2884.0 bits (7475), Expect = 0.000e+0 Identity = 1477/1477 (100.00%), Postives = 1477/1477 (100.00%), Query Frame = 1
BLAST of Spo21288.1 vs. NCBI nr
Match: gi|731316337|ref|XP_010695093.1| (PREDICTED: DNA topoisomerase 2 isoform X1 [Beta vulgaris subsp. vulgaris]) HSP 1 Score: 2232.6 bits (5784), Expect = 0.000e+0 Identity = 1165/1513 (77.00%), Postives = 1294/1513 (85.53%), Query Frame = 1
BLAST of Spo21288.1 vs. NCBI nr
Match: gi|731316339|ref|XP_010695102.1| (PREDICTED: DNA topoisomerase 2 isoform X2 [Beta vulgaris subsp. vulgaris]) HSP 1 Score: 2226.1 bits (5767), Expect = 0.000e+0 Identity = 1165/1513 (77.00%), Postives = 1292/1513 (85.39%), Query Frame = 1
BLAST of Spo21288.1 vs. NCBI nr
Match: gi|590563287|ref|XP_007009327.1| (DNA topoisomerase 2 isoform 1 [Theobroma cacao]) HSP 1 Score: 1639.8 bits (4245), Expect = 0.000e+0 Identity = 904/1529 (59.12%), Postives = 1122/1529 (73.38%), Query Frame = 1
BLAST of Spo21288.1 vs. NCBI nr
Match: gi|694327886|ref|XP_009354783.1| (PREDICTED: DNA topoisomerase 2-like [Pyrus x bretschneideri]) HSP 1 Score: 1628.6 bits (4216), Expect = 0.000e+0 Identity = 901/1526 (59.04%), Postives = 1112/1526 (72.87%), Query Frame = 1
BLAST of Spo21288.1 vs. UniProtKB/TrEMBL
Match: A0A0K9RB12_SPIOL (DNA topoisomerase 2 OS=Spinacia oleracea GN=SOVF_091250 PE=3 SV=1) HSP 1 Score: 2884.0 bits (7475), Expect = 0.000e+0 Identity = 1477/1477 (100.00%), Postives = 1477/1477 (100.00%), Query Frame = 1
BLAST of Spo21288.1 vs. UniProtKB/TrEMBL
Match: A0A0J8CYX0_BETVU (DNA topoisomerase 2 OS=Beta vulgaris subsp. vulgaris GN=BVRB_2g029200 PE=3 SV=1) HSP 1 Score: 2232.6 bits (5784), Expect = 0.000e+0 Identity = 1165/1513 (77.00%), Postives = 1294/1513 (85.53%), Query Frame = 1
BLAST of Spo21288.1 vs. UniProtKB/TrEMBL
Match: A0A0J8FSX3_BETVU (DNA topoisomerase 2 OS=Beta vulgaris subsp. vulgaris GN=BVRB_2g029200 PE=3 SV=1) HSP 1 Score: 2226.1 bits (5767), Expect = 0.000e+0 Identity = 1165/1513 (77.00%), Postives = 1292/1513 (85.39%), Query Frame = 1
BLAST of Spo21288.1 vs. UniProtKB/TrEMBL
Match: A0A061FNA1_THECC (DNA topoisomerase 2 OS=Theobroma cacao GN=TCM_042757 PE=3 SV=1) HSP 1 Score: 1639.8 bits (4245), Expect = 0.000e+0 Identity = 904/1529 (59.12%), Postives = 1122/1529 (73.38%), Query Frame = 1
BLAST of Spo21288.1 vs. UniProtKB/TrEMBL
Match: A0A068UHP8_COFCA (DNA topoisomerase 2 OS=Coffea canephora GN=GSCOC_T00025184001 PE=3 SV=1) HSP 1 Score: 1620.9 bits (4196), Expect = 0.000e+0 Identity = 883/1512 (58.40%), Postives = 1102/1512 (72.88%), Query Frame = 1
BLAST of Spo21288.1 vs. ExPASy Swiss-Prot
Match: TOP2_ARATH (DNA topoisomerase 2 OS=Arabidopsis thaliana GN=TOP2 PE=2 SV=2) HSP 1 Score: 1547.3 bits (4005), Expect = 0.000e+0 Identity = 858/1519 (56.48%), Postives = 1083/1519 (71.30%), Query Frame = 1
BLAST of Spo21288.1 vs. ExPASy Swiss-Prot
Match: TOP2_PEA (DNA topoisomerase 2 OS=Pisum sativum GN=TOP2 PE=2 SV=1) HSP 1 Score: 1420.2 bits (3675), Expect = 0.000e+0 Identity = 795/1403 (56.66%), Postives = 976/1403 (69.57%), Query Frame = 1
BLAST of Spo21288.1 vs. ExPASy Swiss-Prot
Match: TOP2_SCHPO (DNA topoisomerase 2 OS=Schizosaccharomyces pombe (strain 972 / ATCC 24843) GN=top2 PE=1 SV=2) HSP 1 Score: 1136.3 bits (2938), Expect = 0.000e+0 Identity = 674/1505 (44.78%), Postives = 927/1505 (61.59%), Query Frame = 1
BLAST of Spo21288.1 vs. ExPASy Swiss-Prot
Match: TOP2A_RAT (DNA topoisomerase 2-alpha OS=Rattus norvegicus GN=Top2a PE=1 SV=1) HSP 1 Score: 1086.2 bits (2808), Expect = 0.000e+0 Identity = 652/1449 (45.00%), Postives = 892/1449 (61.56%), Query Frame = 1
BLAST of Spo21288.1 vs. ExPASy Swiss-Prot
Match: TOP2_CAEEL (Probable DNA topoisomerase 2 OS=Caenorhabditis elegans GN=K12D12.1 PE=3 SV=2) HSP 1 Score: 1085.9 bits (2807), Expect = 0.000e+0 Identity = 652/1451 (44.93%), Postives = 904/1451 (62.30%), Query Frame = 1
BLAST of Spo21288.1 vs. TAIR (Arabidopsis)
Match: AT3G23890.1 (topoisomerase II) HSP 1 Score: 1547.3 bits (4005), Expect = 0.000e+0 Identity = 858/1519 (56.48%), Postives = 1083/1519 (71.30%), Query Frame = 1
BLAST of Spo21288.1 vs. TAIR (Arabidopsis)
Match: AT5G04130.1 (DNA GYRASE B2) HSP 1 Score: 111.7 bits (278), Expect = 3.900e-24 Identity = 152/601 (25.29%), Postives = 255/601 (42.43%), Query Frame = 1
BLAST of Spo21288.1 vs. TAIR (Arabidopsis)
Match: AT3G10270.1 (DNA GYRASE B1) HSP 1 Score: 109.4 bits (272), Expect = 1.900e-23 Identity = 159/677 (23.49%), Postives = 283/677 (41.80%), Query Frame = 1
BLAST of Spo21288.1 vs. TAIR (Arabidopsis)
Match: AT3G10690.1 (DNA GYRASE A) HSP 1 Score: 52.8 bits (125), Expect = 2.200e-6 Identity = 100/463 (21.60%), Postives = 187/463 (40.39%), Query Frame = 1
The following BLAST results are available for this feature:
BLAST of Spo21288.1 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 Spo21288.1 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 Spo21288.1 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 Spo21288.1 vs. TAIR (Arabidopsis)
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. TAIR) Total hits: 4 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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