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.TTCCTATGATCAACTCCTCCCCTTCTGATCTTCTCTACTCCTAGATCCACCGTTCACTACAAAGCACAGCTTCATCCTACCGTTCTGAATCTCCATTGACCAACCCTCCCATCCCCCAACTTTCCTTTCTTTCTCTCTCCTAAAACCCTTGTTAAACCTTGAACAACAATCAACCTCTGCAACTTTAAACACCATCTTCCTCCCCCAAAACACAGGAAGTTAAGATCTTTAATCAAATTGAACCTCCATTTTACCCTAAAAATGGCGGATTCTCTTAAAACCAGCTTATCAAACAACCCCAAAGTTTGGATTTTGATCGGAATAGGAGTTGCAGGGATCGCAGTGGTAGTTTCTAGAGAGAGGAGTAGGAGGAGAGAAAAGAAGCTTCTAGAAAGAGAAGATTTTGGCGCCTTTGTTGAACGTTTTGAGCTTCTCCCTTTTCCTCAGCCACCTCCTCCTGCTGCTCCTCTCTCCCTATATGCCCTCTCATTCGCTGTCAAGGACATGTTCGTCATTTCATTTCACCATTTCAGTGATTTCACCATTTTGCAGTTTTCTTTCTTTTTTAATTTATTTTTGACTTTTGAAGATTTTGATTGTGTGTGGGATGATGCAGATTCGAGATAAAGGGGCGAGTAACGGGGTTTGGAAACCCGGATTGGAAGAGGACGCATGGTGAAGGGGAGAAGACAGCGGTTGTGATTGATCACTTGTTGAAGAAGGGAGCTACTTGTGTGGGGTCCACTGTTTTGGATGAACTCTCATTTGGGTAAATTAGCATTTCTGGGAAAATTTTATTGTTCAATTGTTGTACTATGATGTGATCAGGTTGATAGGTTTGTCATTTTTTGGGTTAATTTGCATGCATTGTCTTTAATTAAGGATGGCAATTGAAATCTCGAATGTTACTCATAAGAGCAGTGATCAAAACATGGGGTAATTTTGAGTTATTTTTGAACTATACTTGTTTAGTGACAACTGACAAGTGATTTGGTGCTTTGTTTGCCCCTAAATTATAGGCCACGTTTACTTAGGGATATAAGGGAATTGAGTTGAAATTTAGTATATTAGGACAGTTGTATGTTATTTCTGTATATCCCCAAACACAATGTGGCTGATTATCTCGGGATGGAAGGAGTATATTACTCTTGGGTTTTGGCATTGGAGTGGCTTGGGTTCTATGCTAAGGTGAACCTCCTTGACTGTATTCTTTCCTTTAATGTCTGTGCATTTGATGGGTGAATGAAGTTTTGTTTTAAATTCCGGGTTAGGCTTATGATATGTAAAGAGAATGGTTGGTTGAACACTAGTGTTTACTTGCCTAATGGGCAATGTGCGTATTGTAGTTCTTCGTATGCCATTGTTTCTGTCTTGCTGCTTTTCCCTTACCAGTGGAAAAGTTTATTGAGGTAAAGCAGTGTTGTGTTCCAGGATTACTGGTGAAAATGTGCATTATGGAACTCCTACCAATCCGTCGACACCACACCATATTCCCGGGGGGTCTTCTAGTGGCTCAGCTGTAGCAGTTGCTGCACAGCTTGTTGATTTTGCTCTTGGTATGAGGTCTTTTCTAACCATCTTGTATTTTGTTAAGGTATCTTATATAATTGGAATGATGGCTACACCCTGTGACTGGTGTCTTATAAAGTTATACGCTTTGAGTTTTGACAGTGTACTAGAAAATACTATACAAGCACGAAATTGAAAATTTTCTGGTTTGCATTGCGCCTGCTTGTTGATCCTTTCCAATCTCGTTTTCTGCATTTTAAGCAGGTGGTGTCGCATCCATTTATATAGAGGCATGTTTTGCTATGTGTTGTATCTGAATTTTGTTAGACTCTCAGTAACTTTTGGTGTAGACTGTGGAGTGTCACTGAGTTCTGTGAAGCATGTAATCTGATCATGTAATTAGCTTTTCTATAGAAACATCAAATTGTAGATTACTGTGATCAATCAAGTATCTAGCAGAAAGTGTTTTTCGTAAAATATTAAGGTGTATTTCTTCCGGTTAGTATCTGACGAGTATGACGTTTCAGGTACTGATACAATTGGGTGTATAAGAATTCCAGCATCATTGTGCGGTGTTTTTGGATTTCGCCCGTCTCATGGGGCTATCTCTATAGATGGAGTCCTGCCAAATTCTCAAAGTCTAGACACTATTGGTAATGAACCATTCTGCTTTGAACTGTGCCATTTTCCTATAGATCTTCTTTATTCACTGCTCATCTAAAATTAAGTGAAGTAAGTTTCAAATAGCCAATTATGCTGGTCTATTTGACAGCTTGTGGACAATAAACAGCAGAGACAACAACAAAAAGTCCTAGTATGGCTCTGGTTGGTCGGGTTTGAGAAGGAGGTCCAAATGTCTGAACTTTATCATTAATAAGGGATTTCTCTGAAAGAATAAAGAGGATAAAATATTCCAAAGAAATGGGAGAAGTAGAAAGGAAAACCACTTAGTTAATATTTTTTTTTTAAAATAAATCAAATTTCGTCCCTCTCATTTGTGCTAAAGTTAGAAGAGGGAAGATGTAAGAGGAAGTTGTGACTAATAACAGTGAATATCTGAAAATTCACAACGTACGTGTGTTGCTATCTGATAAGACCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCNNNNNNNNNNNNNNNNNNNNNNAATACTTCTTATATTGTAAATCCTGGCTATTTATTCCAGATTTGCTGATTTTTTAAAATATAATATTATCATTCAGGATGGTTTGCTAGGGATCCCTCTGTTTTACATCGCGTTGGACATGTCTTGCTGCAGTTGAAGGCTGAGCCTAAGAGGCCAAGGCGCTTCGTAGTTGCAGATGATCTATTTGAACTTTCAAAAGCTTTAAAGCCCAAGACATCATATTTTGTGAAAAAGATGACAGAAACGCTATCTGGATGTAAGCCACACAGTGCTCTTTTCTCTAATGTTCGTTAAACTCTCTTACTTCCTGTACTTGGTCTGGTTTGAATGCCAATATATCATGCATAAAAGGATACTTATGTGATGAGTTCATGTATTGGTGGGATTTCTTGGTTGTAATTAGAGTTATATTTCATTTTTCGTGCAGACCAGAGTCCCAAGCATGTAAATATTGGCCAATTTATTGCTTCAAATGTCGCAAGTCTGAAAGCGTTTTGTGAAGAATCTTCAACTGTGCAAAGTGGAGTAGGAGCTCTTAAAGCTCTTTCGTCGGTTATGGTTTTACTTAATAGGTATTGTCTCATAGAGATCTTCTTTATTTTGCTAATTTTGAAGAGTCAGCTTTGGTGCTCCCCTCTATTATGTAAGTAGCAGATGGATGATTTTTATTCTCATGCCCATACCTGGTTGTTCTTAAATATTGCCTCTCTCTCTTCTGCACTTGAGAATTTGAGCTGGTAAATTAGATACATTTAAGTGATTAGTGGTTATGCTTTGTGGTAAAGTTTATCTCTTTAGGAGGGAAAAAAATAGCGTGTCATTATTGAGAATTAGTTATTGAAGCAGGTTGGATAAATATGAATAGAACTGGAGCTGTACTGACGGAATAACTGTAAAGTTGCACCACTTATTTTTTCAATTAATGTATTAAACCTTAAAGATGGCTGGGAGAAAGGGCTGTTGAAAAGCTTGAATTGGAGATTCAATTTTTCTTAAGTTCTGTTGTGGAAAATGGGGATTTGATGGCCCTATATATTCTGTGGACTTGTGGGTGAGTTCAGATAGTCAATGTTTTACGAAACATTTTCTGAGTCTTATGAGGAAGTTAGGTAACTGCTTTTGTCTCTGCAGCCGGTACATTAATAATGTTTTTTTCTTTGTTGCTAATTTACTTAAGGATGATGAAGGTAACTTTTGGTTCTTTCTCTTTGGTATCTTTAGACTTGTTTGGGATCAGAAGTATGGAACCTCTTTTGGCTTTAGATTTTCTTGTATCTTGGAAAGGAAGGGTGTAGAGCATAGATAAAAAATGCGGTATCGGTCACGGTCGCGGGATCGGTCGCGGAGTCTCGGTAACGGAAATGATGCGTTAGTCGTGGACCGCGTCGCGGTTGTCGCGTAGGAATTTAAAATTTGAAAAAGAAGCCCCGTGTCAGCCCCATTCACTACCTACCCTAGTCCCCCTCCCCTAAACCGTACACGTGACATAATTAAAATGAGTTCCTTTGTCTACCTTCTCTGTCATCTCTTGTTTTAGATTTGAAAATGGAGTTCTCTACTCGATTTCAATGGAGTTTCTCCATTTCTTTCCTTTTCCCCTTTCTTTTTTTCGAAAACATGGGGAATTCGGCTGAAAACCGAGTAGATGTGAGGTTTATAACGCTTAATGCGGACAAAATTCGTTCGGATCAGTTGAACCGGCCGAGATCTCGCCGTTTTTAAAAACACCTTTACAACTCAGGATATCTCGTATCGCCAGCCTCCAAAACCTTGTTAACTCGGGCGATACGAGTTAACTCGGGCGAGTTTTTACACCATGGTGTAGAGAGTATGAATTGCTGATACATGGAGCATGGTTCCATTAGCTAGTTGGTGCAGTTGGAAAAAAAGAAACTAGTCGACTTTTGTAGGTTATACTTGAAGTCGGGTGTTAGAGTGTGAGCAGTACTGCGCTTTCTTGGTTTTGAAATGAATTCTCCCTCCGTTCCAAATTTAACTTCCACATTGCTTAGTTTGGGTATTTCAACAAAAATCTCCATACAGTAAAAGTGAATGATTTCAATATTGGTTTCCCTTTTTTGTCTCCCACACATCAGTCACTTTTCTCTTTCTTATTTTACTGTCTGCTTCAAATTATTTCATTTTCATTCAGCAATTATTTCTAATACACGTGCCAAAATGAACCATGAAGTTTGTTTGGGATAAATGGAGTATATGATAGCTTGACTAGTTGAGAGCATGAGAATTTTGGCCTGCCCTTAGCTCCTTTTTTATATGGATGCCACCCTCTCAGTGTCTTTTTGATACGTGTTTATACTAATGAACATAAAAAATATAAAAAATCCATATTCAGTGTTTTTTTCCCCCTCTTATGTGTCAGATGAGTTGGTGTAAACCTAGCATTGTTAAGCGCCAGAGATACCACATGGCCAATACTAACTAATACAAAAGATTGATTTAATTTAGTGTGGTTTAAGGAGATACCAAAAAGATACATAAAGATTTACTGAGACTTGTAATTGGATGGGACAGTGCAAGCTTGTGAGCGCTTATATGATGGTTTCCAGGTTTGATATGTGCAATGCTGTAGCCTTCTTTTCTTCCCAATCTCCCATGAAGTATATGCTATGGCTATTCTATTGGGATGCCATAATTGCTCTTTTTATTTAGATAAGCTTCTGTAAGTTGCTGAATTCAATTCTGGAGACCTTACTTCTTAGCCTAGTGACAAACTATTTATCTTTCTGGGTACCTGTTATACTGGAATACAGATGAAATGCACTTTTAACAAACATGCTATATTTTGCTTCGAGATATTGGACTGCAAAATAAGCTAGTTCTCTTCACCTTTTATGCATGTTTGAAAAATAATGATGACTCTTTTCATTCTTGATTCTTATGGTTTCTGTGGTTCCTTAGTTCTTACGGTTTGTTGGTGATAAATTTATTGGTTGGTTTGATTCTTGTATTTAGTTCTGACTTGCTAAAATCTCTATCAGGTATGAGTTTAAAACAAATCATGGAGAATGGATCACGTCAGTGAAACCGAAGTTTGGGGATAATATATCTGGACGTGTTCGTACAGCAATCAAGTCAGTACCTGAGGATGTAAAAGTTCTGTACAAAGTGAGGACCGAATTGCGTTCTGCATTACAGAACCTTCTAAAGGTATATTTAGCATTTTATTAACTTGTGTTGAACTTGAACCAAATGACCCATTTTCCAGGTCTATACGAGGATGAACAATCCTGTTCCCTTTTTGTTCCGTATAATAGAACTTCCACCATTCCACGGCAGGCGAAATTAGCTGATCAGATGTAACTTTGTGCAGCTTATTTCAAATCTGTGGAGAAACTTTTTTTAGGTTTTCTGTAATGAGATAGCACTATTGCAGCATGCATTACAACCTAAAAGTTAGAGAAGGTGCATGTTTATTAACTCCACGGCACTGTAATATTTTTTACTTATTAGGGGTATTGACTTAGGAAAGTAATAATGCGTGCTTATTAGGGGTATTTTAGAGAATCTAGTAGAGGAAGATTGAGGCTCATGCACTATCTTTACTTTAAACCAAATGTTGGGATTTTCTTGTCCTGTCTGAGGACATATCTTTGTGTGATAAAGAGGACTCAGAAGTATGGCTGCTTGATAGACAGTGTGCTCAACCACCACATTGCCAGTTTCAACTTACAATGAGTATTCATTGTCCCTTTCAGGATTGCCCTCGTACTTGCTCATTGTAATTACAAGATTACTTTCTTCAAGCTTTCATATTGCAGTAATTATGCTGCTTCTTAAACAGGGTACTTCTAATGTGAATTGTTCAAAATAGGGTTGGATACTTGGAAGTATGGAGTGGAAAATTCAAGGCCCAGCCGCTTTTTATGAATGATACGGAGTAATAAGTTTGTGTCCATTTTTAAGGAAGCCAATTTCAGTAAATACTTTTTGTCTGCAGTTTTTGATAAGCTTTGTGCATCTTCTGTTTGTTGGAGTTGTAGGTTTTGAACCATATCTTGGCTGTTGATGATAAATTTTCACGCTGAATATGAGGCTAAATCTTTAGTTTTTATGACCACAGATTACTTGTTTCTTACTTTTGTTTTTAACTTCTTTAGGCTGGCTTTTCTCTACTTTAGGCAGGGTTTGTTACTTGTGTTCTTCAAGTTTTAATTTTTAATTTTTTTTGTTTGGCGTGTGTTTTGAATGTTTTCCTGTTGGGGGACTCTTTAATATTGAGTAAATTCTTAATAATCTGGTTTTTGCAGATTTAGCCAGAGCTCTCTAACTGTGTCATCTGTGTTATATCTTCTATCTATTTGTTTTTCCCAGGAAGATGGAGTTCTTGTTCTTCCAACAATAGTTGATCCTCCAATTAAACGCAACTCAAGAAAATGTCAATCTGCTGAGTTTTATGATCAAGCACTAGTCTTATCCTGCATATCAAGCATGTCTGGTTGCTGCCAGGTATTGAATAATCAAGCTTCCCTTAGGGGGCTTAGGGGGGTTGGGGAGGCTTTGGGTTAATTTTTCAGGTTCATCACCTGCTTATTCTCATAGAAGTTACACGCTGTTCTACTGCCAGGTCACTGTTCCATTGGGAGAGAATGACGATCTTCCAACTTCAATTTCCTTTATTGCATTTCATGGAGCTGACAAATTTCTGCTCGATACTGTGTTGGATTGCTATTCAACACTTAAAGAACAAGTGAGACTTGCATCTGAGTCCATGCCATTGCCAGTTGCTAATGGTGACCTGAATGCGTCTGAACTGCTGAAAGAGAAGGTTGGTTTGCTAAAGATGCCGTTTTTGTATGATTTGTGAAAATTCTGTTTTGTGATTATTTTCTTCTCTCTATGTGACAATTAATTGCATTAATATCAGATCAAAGCAATGATTGACCCCTTTTCTTGCAACACTTGCCATATGCAGTTATGCACCTTATCTCTCTCTATATATACTGTCTTTGGAAGTGTTGGAAACTTGGAATTTCTTGGTATCCGAACAACATAAGTGTACTAAATAGGATTTAGAGGTTGCGCGAGAGGTTTAAAGCAGTACCTTGGATAAAGTAAATGCTACTTCCTAGATTATCCAAAAGGGTTTTGACTTCGTATAGTTGGAGATGTCAGTCGCTCCATCCTGATTAAAAATAATTTTCATTCTTTTCTTTAGAAAGAAACCTGGCGATATTAAAATATTTGTGTGATCACAGTGATCCTTCATGATTCGGGTCCTTTACCAGCTACTGACCTATGTGTAAATGTGAAAAACATCCTTTCACGATGTTTGATTTAGTGATTTATTATTTAACTCTAAGACCGAGTGCATTCTAGTATTGAATAATTCTGGTTCATGCCACCCAATAATATTACCATGTTTCTGTTTACTAAGAAAGCGGTTTGGATTTCTTTGCAAGCCATCTACGCTTGGGCCGTGGCTTGTTGAAGTTGGTATACTGTTGGCAGGTTATGAAATTTATGGAGTATATAAAGTTCAAGTTATTAAATAAACTCCTTTTCTAATTAGTCTTCAGCTGTTAAGTTTCTTGCGTATTTATTGCCTTGTACCAAGTAGAACTTTACTTTTTCGAATTACAGTCATGCATCTTTCTGCAGGGAAATGCTGCATACAAGGGAAAACAATGGAATAAGGCTGTCAACTACTACACTGATGCTATTAAGCTGAATGAGACCAATGGAACTTACTATAGCAATCGAGCAGCTGCACACTTAGAACTTGGAGGGTAATTCATTTTTATTCCTCCCGCTTTTTCTTACAATGTTAATTTCCTTACAGCAACATTAGACGTTGGAGAACAAAAGAATTCGTTATTTCAAATATTGTCTTGTAAAACAATCTCTAGCTTATGGACCGAGTTCCATCTTATGGTCGATTGTTGATAGTCCACTGTCCACATACAAAGATTTACCTCACAGGGAGTCAGTAGGCCATTTTTTCCCCTTTTATGCCCCCTTTGATGTAATTTGTCTCGCACCTTCAAAATTTGAGAATTTTATGCTCCTCGAGAAGAGACAAGACCTATTTTGAAATTTCCATGGGTTCAAAGGAGTGACTTCCTCTTCTTTTCACTCAAATCAAAATTTTGGTATGAGATATTGAGATTGCTCTTCTCTTTGTGTAGCTTCCAGCAAGCTGAGGAGGATTGCACAAAAGCTATATCACTCAGTAAAAAGGTGACGGATTTTTTTTCTTTCTCAACCATGAAAGGCTCTTTGATGTGATCACAAAATATTTCTCCGTATCTGCTTCTGCATTTTTGATTATTTATAATATTGAACTAAATTTAATTGATCATGTATCCAGAGTTATTAGGATATAATGGAGAAACAATGAGTTATTTCCATTTTCAAATTTTGCGGCAGACTTTGTTTCCACCTCTAAATACACTGATTTTGATTGACCAACAAAGGGATAAACAGGATCCTCTCATTTCCCACAATGATGGAGGAACTTTTGTTGCACTGTTTACATTATTGAAAAGTTCCTTTTCTGAAGTTGAACTTATTTACTATCAGTGTGGCCTAATTTTTATTGGGAAAATTGAGAATGGCAAATGTTTATGATTTTAGTTTTGGTGGTAAATTTGACTGGAGTGGTCCCGTATATATTAAGACATGATATATCATCATCATGTCTTTGTGTTGGTACCGTTCTGAAGGTTTTCTTTATCTTCATTTGTTAATTTAAAACGCTTTATCGAAGATTGTTATTGTTTCAGCTTTGTGAATAATCTTTTGAGTTGTAATTTATGTTTGCAGAATGTGAAAGCATACTTACGAAGAGGAGCTGCTAGAGAGGCGCTTCTTCGATATAAGGAAGCTGCTGAAGGTTGTACTTCTTTTCCACTCTTTTCTGTTTTTTTAAATGCTGCAAATCTTAGTGTACTTCCAACTTATTTCTCTTGTTCTCTTAGTGATTTACTCTTTGAGAGTAGTAGACCTGATCAACTATAGCCCTACCCGACCCGAAAAGTGTGCATTTGGGCCTCCCCAAACACACATTTTTAGATCAAAGCCTGATGTGGCCCAAAAAGCCCGTATCATATTTATGGGCTTGGGCATGAGCTTTTGTGTTAAAGCCCATCCCAGCCCGAATTTTGATCACCTCTATTTGAGAATGTAGGGCCACTGGATCTTCCTTTATTGAACTCGTGGGAATCTGGGATACTGCATCATCAAATCATCAATATCATCCTCGTAGTTGTTGCTGTTGTTGTTGTTGATTAACCTGATTGATGTTGTTGTTGATTAACCTGATTGATGCAATCATATGGCCTTAATATTTGCTTATTATTCCCAAATTCTACAATATTTCCATTAGCATGCCTCCTGTATCATCTGAACTCTGAAGTCGGATTTTAGACCAAAGCCCAATGTGGCCCAAAAAGCCCGTATCGAATTTATGGGTTTAGGCATGAGTTTTGTGTCAAAGCCCGACCTGGCCCGGATTTTGATCACCTCTATTTGAAAGTGTAGGGCCATTGGATCTTCCTTTTTGAACCCATGGGTCATGATTATCATCATCATAGTTGCTGTTGTTGTCTATTGTTGATCAACCAGATTGATGCAATCATATGACCTTAACTATTGCTTATTATTCCCAAATTCTACAATCACTCCATTAGCACGCCTCCTGTATCATCTGAACTAGACCTATTCATTGGGCCGGGTTGGGCTGGATTCTGAACTCTGATGTCAGATTTCACAATTCCATTAGCATGCCTCCTGTATCATCTGAACTAGACCTATTCATCGGGCCGGGTTAGGGCCGGGTTGGGCTGGATTCTGAACTCTGATGTTGGATTTTACAGTTAGTATAACCTGTCTGTAATACAAAGTTTATATTCCGATCTTTACAATAATCATTATGTTTGCAGACTACAAATATGCACATGTTCTTGAGCCACACAGTAAGGCTGCTAGTCTTGGAGAAAAGCGGTTGAGGAAGCTCATGAGTTAATAATAATGCAGGATTTCAAAACTCAATCTGAAGGCAAAACAAATACGAAGTACTGTACTTCTTATGAGAAATTAAAACGAGGGGAAGAGCATGGTGTTCATATACTTGATCTAATTTTTTTTTTTCTTTTAATTTGTGTATAGAAATTTTGGCATTGTGGTGAATGATGCAACATTCTTGCACAAATTTTTTGGCGAGTTCCATATGCATTAAAAAAAAATGAAACAAGCTTCATTGTTGAAAAAGAAATATTCTATCAACAATAAACAAGCAGGAAATAGGATTAAGGGCAGATGATAGGATTGTATTCAACTGATCAGGGTAATTAAAAGAATTAATCTGCACCCACATTCGAGAGGTGGATTCGGAATACTTTTCTGTACAAATTTCTCAGTACTTTCTTTCTCCTTGCTGTTGCCTGTTAAATGAAATGAAGTACATCAAGCATTTAAGATTTAGG TTCCTATGATCAACTCCTCCCCTTCTGATCTTCTCTACTCCTAGATCCACCGTTCACTACAAAGCACAGCTTCATCCTACCGTTCTGAATCTCCATTGACCAACCCTCCCATCCCCCAACTTTCCTTTCTTTCTCTCTCCTAAAACCCTTGTTAAACCTTGAACAACAATCAACCTCTGCAACTTTAAACACCATCTTCCTCCCCCAAAACACAGGAAGTTAAGATCTTTAATCAAATTGAACCTCCATTTTACCCTAAAAATGGCGGATTCTCTTAAAACCAGCTTATCAAACAACCCCAAAGTTTGGATTTTGATCGGAATAGGAGTTGCAGGGATCGCAGTGGTAGTTTCTAGAGAGAGGAGTAGGAGGAGAGAAAAGAAGCTTCTAGAAAGAGAAGATTTTGGCGCCTTTGTTGAACGTTTTGAGCTTCTCCCTTTTCCTCAGCCACCTCCTCCTGCTGCTCCTCTCTCCCTATATGCCCTCTCATTCGCTGTCAAGGACATATTCGAGATAAAGGGGCGAGTAACGGGGTTTGGAAACCCGGATTGGAAGAGGACGCATGGTGAAGGGGAGAAGACAGCGGTTGTGATTGATCACTTGTTGAAGAAGGGAGCTACTTGTGTGGGGTCCACTGTTTTGGATGAACTCTCATTTGGGATTACTGGTGAAAATGTGCATTATGGAACTCCTACCAATCCGTCGACACCACACCATATTCCCGGGGGGTCTTCTAGTGGCTCAGCTGTAGCAGTTGCTGCACAGCTTGTTGATTTTGCTCTTGGTACTGATACAATTGGGTGTATAAGAATTCCAGCATCATTGTGCGGTGTTTTTGGATTTCGCCCGTCTCATGGGGCTATCTCTATAGATGGAGTCCTGCCAAATTCTCAAAGTCTAGACACTATTGGATGGTTTGCTAGGGATCCCTCTGTTTTACATCGCGTTGGACATGTCTTGCTGCAGTTGAAGGCTGAGCCTAAGAGGCCAAGGCGCTTCGTAGTTGCAGATGATCTATTTGAACTTTCAAAAGCTTTAAAGCCCAAGACATCATATTTTGTGAAAAAGATGACAGAAACGCTATCTGGATACCAGAGTCCCAAGCATGTAAATATTGGCCAATTTATTGCTTCAAATGTCGCAAGTCTGAAAGCGTTTTGTGAAGAATCTTCAACTGTGCAAAGTGGAGTAGGAGCTCTTAAAGCTCTTTCGTCGGTTATGGTTTTACTTAATAGGTATGAGTTTAAAACAAATCATGGAGAATGGATCACGTCAGTGAAACCGAAGTTTGGGGATAATATATCTGGACGTGTTCGTACAGCAATCAAGTCAGTACCTGAGGATGTAAAAGTTCTGTACAAAGTGAGGACCGAATTGCGTTCTGCATTACAGAACCTTCTAAAGGAAGATGGAGTTCTTGTTCTTCCAACAATAGTTGATCCTCCAATTAAACGCAACTCAAGAAAATGTCAATCTGCTGAGTTTTATGATCAAGCACTAGTCTTATCCTGCATATCAAGCATGTCTGGTTGCTGCCAGGTCACTGTTCCATTGGGAGAGAATGACGATCTTCCAACTTCAATTTCCTTTATTGCATTTCATGGAGCTGACAAATTTCTGCTCGATACTGTGTTGGATTGCTATTCAACACTTAAAGAACAAGTGAGACTTGCATCTGAGTCCATGCCATTGCCAGTTGCTAATGGTGACCTGAATGCGTCTGAACTGCTGAAAGAGAAGGGAAATGCTGCATACAAGGGAAAACAATGGAATAAGGCTGTCAACTACTACACTGATGCTATTAAGCTGAATGAGACCAATGGAACTTACTATAGCAATCGAGCAGCTGCACACTTAGAACTTGGAGGCTTCCAGCAAGCTGAGGAGGATTGCACAAAAGCTATATCACTCAGTAAAAAGAATGTGAAAGCATACTTACGAAGAGGAGCTGCTAGAGAGGCGCTTCTTCGATATAAGGAAGCTGCTGAAGACTACAAATATGCACATGTTCTTGAGCCACACAGTAAGGCTGCTAGTCTTGGAGAAAAGCGGTTGAGGAAGCTCATGAGTTAATAATAATGCAGGATTTCAAAACTCAATCTGAAGGCAAAACAAATACGAAGTACTGTACTTCTTATGAGAAATTAAAACGAGGGGAAGAGCATGGTGTTCATATACTTGATCTAATTTTTTTTTTTCTTTTAATTTGTGTATAGAAATTTTGGCATTGTGGTGAATGATGCAACATTCTTGCACAAATTTTTTGGCGAGTTCCATATGCATTAAAAAAAAATGAAACAAGCTTCATTGTTGAAAAAGAAATATTCTATCAACAATAAACAAGCAGGAAATAGGATTAAGGGCAGATGATAGGATTGTATTCAACTGATCAGGGTAATTAAAAGAATTAATCTGCACCCACATTCGAGAGGTGGATTCGGAATACTTTTCTGTACAAATTTCTCAGTACTTTCTTTCTCCTTGCTGTTGCCTGTTAAATGAAATGAAGTACATCAAGCATTTAAGATTTAGG ATGGCGGATTCTCTTAAAACCAGCTTATCAAACAACCCCAAAGTTTGGATTTTGATCGGAATAGGAGTTGCAGGGATCGCAGTGGTAGTTTCTAGAGAGAGGAGTAGGAGGAGAGAAAAGAAGCTTCTAGAAAGAGAAGATTTTGGCGCCTTTGTTGAACGTTTTGAGCTTCTCCCTTTTCCTCAGCCACCTCCTCCTGCTGCTCCTCTCTCCCTATATGCCCTCTCATTCGCTGTCAAGGACATATTCGAGATAAAGGGGCGAGTAACGGGGTTTGGAAACCCGGATTGGAAGAGGACGCATGGTGAAGGGGAGAAGACAGCGGTTGTGATTGATCACTTGTTGAAGAAGGGAGCTACTTGTGTGGGGTCCACTGTTTTGGATGAACTCTCATTTGGGATTACTGGTGAAAATGTGCATTATGGAACTCCTACCAATCCGTCGACACCACACCATATTCCCGGGGGGTCTTCTAGTGGCTCAGCTGTAGCAGTTGCTGCACAGCTTGTTGATTTTGCTCTTGGTACTGATACAATTGGGTGTATAAGAATTCCAGCATCATTGTGCGGTGTTTTTGGATTTCGCCCGTCTCATGGGGCTATCTCTATAGATGGAGTCCTGCCAAATTCTCAAAGTCTAGACACTATTGGATGGTTTGCTAGGGATCCCTCTGTTTTACATCGCGTTGGACATGTCTTGCTGCAGTTGAAGGCTGAGCCTAAGAGGCCAAGGCGCTTCGTAGTTGCAGATGATCTATTTGAACTTTCAAAAGCTTTAAAGCCCAAGACATCATATTTTGTGAAAAAGATGACAGAAACGCTATCTGGATACCAGAGTCCCAAGCATGTAAATATTGGCCAATTTATTGCTTCAAATGTCGCAAGTCTGAAAGCGTTTTGTGAAGAATCTTCAACTGTGCAAAGTGGAGTAGGAGCTCTTAAAGCTCTTTCGTCGGTTATGGTTTTACTTAATAGGTATGAGTTTAAAACAAATCATGGAGAATGGATCACGTCAGTGAAACCGAAGTTTGGGGATAATATATCTGGACGTGTTCGTACAGCAATCAAGTCAGTACCTGAGGATGTAAAAGTTCTGTACAAAGTGAGGACCGAATTGCGTTCTGCATTACAGAACCTTCTAAAGGAAGATGGAGTTCTTGTTCTTCCAACAATAGTTGATCCTCCAATTAAACGCAACTCAAGAAAATGTCAATCTGCTGAGTTTTATGATCAAGCACTAGTCTTATCCTGCATATCAAGCATGTCTGGTTGCTGCCAGGTCACTGTTCCATTGGGAGAGAATGACGATCTTCCAACTTCAATTTCCTTTATTGCATTTCATGGAGCTGACAAATTTCTGCTCGATACTGTGTTGGATTGCTATTCAACACTTAAAGAACAAGTGAGACTTGCATCTGAGTCCATGCCATTGCCAGTTGCTAATGGTGACCTGAATGCGTCTGAACTGCTGAAAGAGAAGGGAAATGCTGCATACAAGGGAAAACAATGGAATAAGGCTGTCAACTACTACACTGATGCTATTAAGCTGAATGAGACCAATGGAACTTACTATAGCAATCGAGCAGCTGCACACTTAGAACTTGGAGGCTTCCAGCAAGCTGAGGAGGATTGCACAAAAGCTATATCACTCAGTAAAAAGAATGTGAAAGCATACTTACGAAGAGGAGCTGCTAGAGAGGCGCTTCTTCGATATAAGGAAGCTGCTGAAGACTACAAATATGCACATGTTCTTGAGCCACACAGTAAGGCTGCTAGTCTTGGAGAAAAGCGGTTGAGGAAGCTCATGAGTTAA MADSLKTSLSNNPKVWILIGIGVAGIAVVVSRERSRRREKKLLEREDFGAFVERFELLPFPQPPPPAAPLSLYALSFAVKDIFEIKGRVTGFGNPDWKRTHGEGEKTAVVIDHLLKKGATCVGSTVLDELSFGITGENVHYGTPTNPSTPHHIPGGSSSGSAVAVAAQLVDFALGTDTIGCIRIPASLCGVFGFRPSHGAISIDGVLPNSQSLDTIGWFARDPSVLHRVGHVLLQLKAEPKRPRRFVVADDLFELSKALKPKTSYFVKKMTETLSGYQSPKHVNIGQFIASNVASLKAFCEESSTVQSGVGALKALSSVMVLLNRYEFKTNHGEWITSVKPKFGDNISGRVRTAIKSVPEDVKVLYKVRTELRSALQNLLKEDGVLVLPTIVDPPIKRNSRKCQSAEFYDQALVLSCISSMSGCCQVTVPLGENDDLPTSISFIAFHGADKFLLDTVLDCYSTLKEQVRLASESMPLPVANGDLNASELLKEKGNAAYKGKQWNKAVNYYTDAIKLNETNGTYYSNRAAAHLELGGFQQAEEDCTKAISLSKKNVKAYLRRGAAREALLRYKEAAEDYKYAHVLEPHSKAASLGEKRLRKLMS Relationships
The following mRNA feature(s) are a part of this gene:
Homology
BLAST of Spo12319.1 vs. NCBI nr
Match: gi|902184059|gb|KNA10236.1| (hypothetical protein SOVF_146330 [Spinacia oleracea]) HSP 1 Score: 1195.3 bits (3091), Expect = 0.000e+0 Identity = 603/603 (100.00%), Postives = 603/603 (100.00%), Query Frame = 1
BLAST of Spo12319.1 vs. NCBI nr
Match: gi|731357998|ref|XP_010690507.1| (PREDICTED: outer envelope protein 64, mitochondrial [Beta vulgaris subsp. vulgaris]) HSP 1 Score: 1005.0 bits (2597), Expect = 5.600e-290 Identity = 504/603 (83.58%), Postives = 550/603 (91.21%), Query Frame = 1
BLAST of Spo12319.1 vs. NCBI nr
Match: gi|870849247|gb|KMT01510.1| (hypothetical protein BVRB_9g215140 isoform B [Beta vulgaris subsp. vulgaris]) HSP 1 Score: 995.3 bits (2572), Expect = 4.500e-287 Identity = 504/617 (81.69%), Postives = 550/617 (89.14%), Query Frame = 1
BLAST of Spo12319.1 vs. NCBI nr
Match: gi|802577701|ref|XP_012069135.1| (PREDICTED: outer envelope protein 64, mitochondrial [Jatropha curcas]) HSP 1 Score: 845.1 bits (2182), Expect = 7.500e-242 Identity = 414/594 (69.70%), Postives = 493/594 (83.00%), Query Frame = 1
BLAST of Spo12319.1 vs. NCBI nr
Match: gi|823160317|ref|XP_012479999.1| (PREDICTED: outer envelope protein 64, mitochondrial-like [Gossypium raimondii]) HSP 1 Score: 828.2 bits (2138), Expect = 9.500e-237 Identity = 412/600 (68.67%), Postives = 494/600 (82.33%), Query Frame = 1
BLAST of Spo12319.1 vs. UniProtKB/TrEMBL
Match: A0A0K9QUS1_SPIOL (Uncharacterized protein OS=Spinacia oleracea GN=SOVF_146330 PE=4 SV=1) HSP 1 Score: 1195.3 bits (3091), Expect = 0.000e+0 Identity = 603/603 (100.00%), Postives = 603/603 (100.00%), Query Frame = 1
BLAST of Spo12319.1 vs. UniProtKB/TrEMBL
Match: A0A0J8BNJ9_BETVU (Uncharacterized protein OS=Beta vulgaris subsp. vulgaris GN=BVRB_9g215140 PE=4 SV=1) HSP 1 Score: 1005.0 bits (2597), Expect = 3.900e-290 Identity = 504/603 (83.58%), Postives = 550/603 (91.21%), Query Frame = 1
BLAST of Spo12319.1 vs. UniProtKB/TrEMBL
Match: A0A0J8BJC8_BETVU (Uncharacterized protein OS=Beta vulgaris subsp. vulgaris GN=BVRB_9g215140 PE=4 SV=1) HSP 1 Score: 995.3 bits (2572), Expect = 3.100e-287 Identity = 504/617 (81.69%), Postives = 550/617 (89.14%), Query Frame = 1
BLAST of Spo12319.1 vs. UniProtKB/TrEMBL
Match: A0A067KXG8_JATCU (Uncharacterized protein OS=Jatropha curcas GN=JCGZ_24900 PE=4 SV=1) HSP 1 Score: 845.1 bits (2182), Expect = 5.200e-242 Identity = 414/594 (69.70%), Postives = 493/594 (83.00%), Query Frame = 1
BLAST of Spo12319.1 vs. UniProtKB/TrEMBL
Match: A0A0D2NGY2_GOSRA (Uncharacterized protein OS=Gossypium raimondii GN=B456_005G221100 PE=4 SV=1) HSP 1 Score: 828.2 bits (2138), Expect = 6.600e-237 Identity = 412/600 (68.67%), Postives = 494/600 (82.33%), Query Frame = 1
BLAST of Spo12319.1 vs. ExPASy Swiss-Prot
Match: OE64M_ARATH (Outer envelope protein 64, mitochondrial OS=Arabidopsis thaliana GN=OM64 PE=1 SV=1) HSP 1 Score: 725.7 bits (1872), Expect = 4.100e-208 Identity = 356/599 (59.43%), Postives = 453/599 (75.63%), Query Frame = 1
BLAST of Spo12319.1 vs. ExPASy Swiss-Prot
Match: TOC64_PEA (Translocon at the outer membrane of chloroplasts 64 OS=Pisum sativum GN=TOC64 PE=1 SV=1) HSP 1 Score: 585.1 bits (1507), Expect = 8.700e-166 Identity = 300/598 (50.17%), Postives = 407/598 (68.06%), Query Frame = 1
BLAST of Spo12319.1 vs. ExPASy Swiss-Prot
Match: OE64C_ARATH (Outer envelope protein 64, chloroplastic OS=Arabidopsis thaliana GN=OEP64 PE=1 SV=1) HSP 1 Score: 574.3 bits (1479), Expect = 1.500e-162 Identity = 298/592 (50.34%), Postives = 397/592 (67.06%), Query Frame = 1
BLAST of Spo12319.1 vs. ExPASy Swiss-Prot
Match: AMI1_ARATH (Amidase 1 OS=Arabidopsis thaliana GN=AMI1 PE=1 SV=1) HSP 1 Score: 384.4 bits (986), Expect = 2.300e-105 Identity = 204/416 (49.04%), Postives = 274/416 (65.87%), Query Frame = 1
BLAST of Spo12319.1 vs. ExPASy Swiss-Prot
Match: GATA_METST (Glutamyl-tRNA(Gln) amidotransferase subunit A OS=Methanosphaera stadtmanae (strain ATCC 43021 / DSM 3091 / JCM 11832 / MCB-3) GN=gatA PE=3 SV=1) HSP 1 Score: 120.9 bits (302), Expect = 4.700e-26 Identity = 106/401 (26.43%), Postives = 183/401 (45.64%), Query Frame = 1
BLAST of Spo12319.1 vs. TAIR (Arabidopsis)
Match: AT5G09420.1 (translocon at the outer membrane of chloroplasts 64-V) HSP 1 Score: 725.7 bits (1872), Expect = 2.300e-209 Identity = 356/599 (59.43%), Postives = 453/599 (75.63%), Query Frame = 1
BLAST of Spo12319.1 vs. TAIR (Arabidopsis)
Match: AT3G17970.1 (translocon at the outer membrane of chloroplasts 64-III) HSP 1 Score: 574.3 bits (1479), Expect = 8.700e-164 Identity = 298/592 (50.34%), Postives = 397/592 (67.06%), Query Frame = 1
BLAST of Spo12319.1 vs. TAIR (Arabidopsis)
Match: AT1G08980.1 (amidase 1) HSP 1 Score: 384.4 bits (986), Expect = 1.300e-106 Identity = 204/416 (49.04%), Postives = 274/416 (65.87%), Query Frame = 1
BLAST of Spo12319.1 vs. TAIR (Arabidopsis)
Match: AT5G64440.1 (fatty acid amide hydrolase) HSP 1 Score: 95.5 bits (236), Expect = 1.200e-19 Identity = 51/125 (40.80%), Postives = 67/125 (53.60%), Query Frame = 1
BLAST of Spo12319.1 vs. TAIR (Arabidopsis)
Match: AT3G25660.1 (Amidase family protein) HSP 1 Score: 88.2 bits (217), Expect = 1.900e-17 Identity = 47/112 (41.96%), Postives = 64/112 (57.14%), Query Frame = 1
The following BLAST results are available for this feature:
BLAST of Spo12319.1 vs. NCBI nr
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. NCBI nr) Total hits: 5
BLAST of Spo12319.1 vs. UniProtKB/TrEMBL
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. UniprotKB/TrEMBL) Total hits: 5
BLAST of Spo12319.1 vs. ExPASy Swiss-Prot
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. ExPASy SwissProt) Total hits: 5
BLAST of Spo12319.1 vs. TAIR (Arabidopsis)
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. TAIR) Total hits: 5
InterPro
Analysis Name: InterPro Annotations of S. oleracea
Date Performed: 2018-06-29
GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
RNA-Seq Expression
Co-expression
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