Sed0014482.1 (mRNA) Chayote v1
Overview
Sequences
The following sequences are available for this feature:
Legend: exonCDSpolypeptide Hold the cursor over a type above to highlight its positions in the sequence below.ATGGAAAGAGAAAAGGAAGAAGAAGACATAGTTTGTCTTGATGCATCGTTCTTTATGAATAACGAGTAATTCTCTCTTTATCAATACACCATTTTCCTTTTGCTGAATCTTATGCCATCGCGTATTCGATTTTGCAGCTATCAGCTCACTACCTTTACATTCGGCTCCCATGTGATTCAACTCCTCTGTCTTCACTCTGCTTCCAGTGAGTTTCAATTTAAAACTTCAATTGAAGGAAACTTATTAAGTAATTGTTGCCGACATGATGCCAATCCTAATCATAAATTGCTTAACCTGTTACGATAATCAACGTTATTATGTCGTTTTTTTTTGAGGTGTTAGGGTTCCAACTTATTCAAAAGATAAATTGATATATACATATAGATAGATTCTAATACAATTTCATAACTGTGAAAATTAATATTAGATATTAGAATAATCTGGCATAGTTTCTTTTTGGTACTTGGCATTGCCTTGCTTAGGGTTTCTGTAACCACACCCTCTGTTGTTAATGCTAAGCATTAGTTGTTAGAAAGTAGATGATGCAGGCATGTATACATGCTATATTAAATGAAAATATTTCTTCCCCCGAACACAAGTTACAGGGCTTCCTGGAAATGTTGCTGAACTAACAATTCTTGAAACAGCTGATTTTGATTTAACGGGGCAATTAGTGTGGCCTGGTGCCTTGCTGATGAACAATTATCTTTCTGAACATGCTCACGTGCTTCGAGGATGTTCTATCATCGAATTGGGATCTGGGGTTGGTATGTACTCTGACTGAATTTGATGTCTGTGACTTGTATAGCAAATATAGTTTGCGTATTCTTCTCGTGTTGTAAGGTTATATTTATTGGATACCATAATTATAGAATGGAAGCAGAGAGAGAATAGAAATGAAAGAACTTGCTTTTGGCAGCGTGTAGTTATTTGAAGGTGTATACATAAACAATCTATGTTTAGACGAACATTCTGGTGGTACAAAAGGGAAACGAGTCTCACAAAAGGTGGCGGTGGTTGAAAGCTTGAGCTTTGAAGGTGTGCTCCCGTCAGGTTTGAGACTCACCTGTGGCATTAATTTGTAGACACCTCCCATGTTTCCATTCCTTTGAAGTCGTCCGGTGCGTGGCCTAGGGATATGTGTGGTTACCCCAGGTATAGTAGACGAAACTTCGATTTCTCAGTTTCAAAAAAACAACAAAGCTGATAAAGAACTTCCTAAAACCCAGGGCTCTTACTGAAGTCTAAGATATGCTACAGAAATTAGTCCACGATGTTTCAAAACCAGAGCACAGGAAGAAAGTAGCTTGAATTTGTTTTAGAACATAGACTATTCATGCTACCCGATGAAGATGAAAAAAATAATTATTTTTGCATTACCTCGCTATTTTTCATAGAATGTTAAATGATGAAAGTCTGCTATAACATGGGCAATCGTCTTCAATATAGGTATTACTGGAGTACTTTGCAGCAAATTTTGCCACAAAGTGGTGTTGACAGACCATAATGATGAAGTTATAAAGGCGAGGTCATTAGACTAATCAGAATAAATTAAAAATATATATTATAACAAGAGGCTGCTCTCTCTTCGTCGTTTGATGACCTTGTATATATTATGTCACAGATCCTGGAGAAAAATATACAGCTACATGCAACTTCTGAATCCCTGGAAAATTCTGCTGGTGAGAGAAACAAGGTGAAAACTGAAAATAAATTATATGTTTGGATGTACTGGCTACTGATACTTCCAATTCCATGCAGAACTAGTAGCTGAGAAGCTTGAATGGGGAAATTCTGATCAGATAACCCAAATTATAGACAAGAATTCTGGCGGTTTTGATCTAATTCTTGGTGCTGATATCTATATCCTGATTATTTCTTCCTCATTTTGCTCAAGAAATTCTAAAATAATAAAAATGACTTTGGTGCTTCTCGATTTTGGGATAAAAATAGGTTCTATTGTATTGAATCGACAATTTCAATAGTTACGATTCTTCTTCTTAAATAGGTTAAATACTATTCTTTAAAGAAGGCAAATAAACTATGCAAGGAAATTACAACAAAGGAAAAATTACACATGGAATGAATATACAAGGAAAAATAAAAGCAAATCAATCAACAGTACTGAAGCAGCAGAGACATAGAATGAGCTTTAGGTCCTAAAACTTGCCAAAACTCCCTTCCTTTGATAATTGATAAAATGTAAAATGTAAAATGTGAGGGCATAATCCTTTTCATGTCATAACATCCTAGGGGGTAGAAATACTGATGGGGTATGGTGATTGATTCATCTCTATCCTTTTTTTTCCTTCTTTTTTTCTTCTTTTAAATGATTATTGGGAATGTATGTTACGTGCCTTGTATAGAATGTTTCTATCACGTAACCTGACTTCTTATGTAAGTCAAGAGTTATGGAATATATCCACTCGATTGGTATTTTTGTTTTTTTTTTGAAACAAGGGTAACTATGTCCGTCCCAGGCCAGGCACCAGGAGACATCGAAGAAATGGAATCCACTCTATTGATAGTTGATACATCACATTTTAAATCCATGTATGGAAGTTAAGAGCTGCACATTGGCAGGAAGAGATACATATTTGAAAATGATAACAGAGCGGTCGAACACTTCCGTGTTACAGAAGTAGAGAATGATATTAGTTTTTCATTGATGATCTACAGAAAGCTCACCCTCTCAATCAAAAATTCTTTTACCAGATTAGATTCAGGGGAACAGTCCACTGGGTGGAAAAACTTTCTAACAGAAAAGGATATTTCATAGAGCTTGTGCAGATTGGACAAAATGGTGGTACTAAGAAACTTGTCATCCCCGTCGGCCAGCAAGGGAGAGGTTGGATGGATTTCCACAAAGGTGTCATTAATTTTTCGGAGAGGAATCAGACAAATATAGCCATTAATGCTTTTGAAGTACAAAACAGAGATGATAGTTATTTCTCTTATTTTCCTCCAGGTTTGAAGCCAGCCACCAAGGAACCCAAGGCTAATGAATTTTCAGATAAGTAGAATGTTTCCAATGGGGGAAAGGTTTACTTAAAAAATGAAGCTTTTAATCACTCTCATTCCAATACGACATCTTTATCGGCAACTATATTGATTTACAAAGAGCATTTGCAGGGTTGATGGGTTCTCATTGAATCGATCCTAAAGAAGGAATATGCGACTAATGTATCCATACAACCCCTGTTGCCTGACAGAGCTTTGTTGAGATGTGAAGATAGTTTAATCTCTGACGCAATAAAGAGTAACAAGGGATGGGTTAACTCGAAAACACAAAGCCCTGTTCTGCTGCCTACACTGATGAAAACATTTTGGCAAATCCTAAAATAGCGTGTTATGGGGGTTGGATCTGTGTTAAAGGCCTTCCATTAACGAGATGGAATGAAGATACCTTCAAGTATATTGGAGGAATTTGTAGTGGTCTCATGGAAATTGCACACGGTACGATGGAGAAGATAGATCTTAGGGTGCCAATTCTAAATGTGGCAGAGAATTTGAATGGCTTCTTGCCGGCATCTATTTCTCTACCATCTTCCTCATCATCCCCGTTGTTGATTAGAATTGAACCATTGACAGCGGCCGATTTATCTTTTATTAGTACAACGGTAGAATTTTCCGGCTACAGAACTAAAACAGAGGTTGAAAGAAAAAACAAGAATGTGCATAACAAAGCAAGCTCACGCACCACCAGAAGAGTGTGGGTTGAGGTTTGCAGGAATAAGGGAAAAGCTTCTGACACTGCGCCTAAAAGGACTTCTGATTCTGACCAATCTGAATTGATGGAGTTGACCTCTGCTTTTGAACCTTCCAATCTTCTCTTAACCAGACCCATTGGAAACCAACTTGAACAAACCAAATGTCAGAACTCCTTTGGGCCTTTGGCCATTTTAGACCAACCATTTGAAAAAGAGATAGGCCCACCATTGAATGAAAATTCTTTTTCAGCTGTCCTGACGGTACAACAGCCCATGGAAGAAATCCTAACCAAACCCATTTTGAACCATTCTTATCCTCTAAACCCATGTTCCCCTGGAAAATCAATTATCATTAACAACAAACGTACTCTTTTTATTACTAGGACTATGCATTCGACCGAAAAATCTCACCCATTTTCTGAGTCAGAAAGGGGCTGCTCTTCACCCAGACCTTCGCCGGTTAGTGAGTCTTCCTTGCCTTACAAATGCACCGATATTATTCCTGCTATTTTTTAGGAATAGGAGACAACCATATAACCAATGTTTGATGATCAACCAGCTCCATTGAGGATTGAGCAAGATGATGTATCAAATTTTTTTCATTATAATAATGAGTTGATCAACGAAGTCTATAAGGAATGGAGAGGCACCATGGGTACTGACATCCCTGAATAAGCCGGATCATTGATGCAATTCTTTTTCCCTTGGTTGGCTAAAAATAGACTTTATATAGCTCCCATGCCGACCACAAAGCTATCTGCAACGACTACAAAAAAATAGAGGAACTGGAAAAGAGAAAAAAACAATCTTTCATTCTCTATTAGATATGATAAATCCTCTGTTGAAGAACAGAGTAAGGGGAATAACGGTCATAGATGATTGTGATATCATGGAATGTTAAGGGACTAAATTCGTGGAGGAAACGGACAGTAATCAAAGATTTTATTAAGATACACAATCCATCAATTGTTATTCTTCAAGAGACCAAAAGGACATTGGTGGATAACACCTTTGTTAAATCTGTATGGAGCTCGAGAAACATTGCTTGGGTCACTCTAGATGCAAAAGAAGATCTGGTGGTATTGCTATTCTATGGAACGAGTCTCTCTTCACATTCAACAATGTTTTGAAAGGTACCTATTCACTCTCTCTTAATCTCTCTTTGGCAGATGGTTATAGCTTTTGGATCACAGGAATTTATGGACCGAACAAAAGCAAAGAAAGAGATCTCATGTGGAAAGAACTTACTGATCTGAAGCAAAATATTGGCCACAATTGGGTGTTGGGAGGTGATTTCAACATTATCAGATGGAGCTCTGAAAAATCCAACAACAACTCGATTACCAGAGGAATGAAAAAGTTTAATAGGTTCATCTCAGAAGCAGAATTAACTGAGATTTCATTGACTAATGGAACATACACATGGTCTAATATGAGAGATAACCTTGTGATGACTCTAATTGACCGCTTCCTTGTCACTATTGGATTGATTATTAAATTTGTTCATTCAAAAGCTAGAAGACTTGAGAGAGTAACATCAGATCACTTCCCTATTAGTCTATCTCTTGGCAAAGAAAGATGGGGCCCGACTCCATTCTGTTTCTCAAATCAATGGTTGGAGCATCACACTTTTATACCTATGTTAGACAATTGGTGGTCTGATAATGGAATTGTCAATTGGTCTAGCCATGGATTTATACAGAAACTAGAAACTTAAAGCTCTTAAGATTCATATCAAGGAATGGAACCATTCTACGTTCGGACACAACATTGCTATGAATCTTAAATACAAAAACGAGCTGGAGGCATTGGACAAAAAAAAAAGAACAGACGACTTTGTCCCCTTCTGAAGCTAATAGAAGAATTGAAATTTGTAAATGCTAAAGTTGAGAGAATCAATGTGTGTCATTCTATTCATTAGAGGAGTCTTTATATACAAATATACAAGGTTTCCCTAGCCGTGTACATGTGAAAAGACGATAAAGGACACTATAATTAAACATCAATAAAACTGTCTAATATTAAACTCTAACACTCTCCCTCAAGTTGGAGCAAATATGTTAATCATGCCCAACTTGTTTGAGAGATAATCTATTCGTGCTCGATTCAGTGCTTTTGTGAAGATATCGGCTAATTGTTCTCCAGTCTTCACGTTTCCAATTGAAACCACGCCTTGCTGTATCTTTTCTCGTATAAAATGACAATCTATCTCAATGTGTTTAGTCCTCTCATGGAAAATTGGATTAGATGTGATATGAATGGCCGCTCGGTTATCACACCATAACTTTGTCGGTGTCGCGACATCAAATCCTAACTCAACTAATAGTTGGCATAACCAAATTAATTCACACACAGACTGTGCCATTGCTCTGTATTATGATTCAGTGCTCGAACGTGACACTACGTTTTGTTTCTTACTCTTCCATGAAACTAAATTGCCACCTACAAACACACAATACCCTAAGGTTGATCTTCGATCATCTTTATAACCTGCCCAGTAAGCATCTGAGAAACCTTCAATATTAGTATGACCATTATCTTTATACAGTAAACCACGACCAGGAGAAGCCTTCAAATAACCCAAAATCTGTTCTAATGCAGCCCAATGGTCAACCGTAGGGCACAACATATACTGGCTTCAAATAACCCAAAATCTGTTCTAATGCAGCCCAATGGTCAACCGTAGGGCACAACATATACTGGCTCACAACACTCACTGAATACGCTATATCTAGTCTAGTCACAGTAAGGTAATTCAATTTACCTACTAATCTTCTGTATCTTTCTGGATCTTCCAACAATTCTCCTTCTTTCGTGAGCCGTGAATTGGGCATCATCGGGGTACTACATGGCTTAACTCCTAACTTCCTTGTTTCAGTCAACAGATCAAGTACATATTTTCTTTGTGATAACAGAATTCCCTTCTTGCTTCTTATAACCTCAATCCCTAGAAAATATTTCAGCATACCTAAGTCTTTTGTATGAAATTGATTGTGAAGAAAGGTCTTGAGTGATTGAATACCCACTACATCATCACCTGTAATCACAATGTCATCAACATACACAATCAACAAATGACACCATTCTAAGACCGTTTAAAGAAGATAGAGTGATTTTATTTGCTTTTCTTCATCCCGAACTCTTCAATCACCTCACTGAATTTGCCAAACCAAGCTCGTGGGCTCTGTTTTAATCCATACAAGGACTTTCGGAGGCGACATACCTCTTCTTGCAGATCACCATGAAGAAAGGCATTTTTGATATCAAGTTGATGTAAGGGCCAATGTTAAATAGATGCTAACGAGATAAATAGCATTATTGATGCCATCTTCGCTACAGGAGAGAATGTATCCTCATAATCAACTACATACGTCTGTGCATATCCCTTGGCAACAAGGCGGGCTTTCAATCGAAACTATAGACCCATCAGGATTCACTTTAATCGTAAACACCCATTTACAACCAACAAACTTCTTTCCTGCAGGAAGAGAAACTAAATTCCAAGTACCATTGTCATTTAATGCAATCATCTCCTCTACCATTGCTGCACACCAACCAGGGTGAGACAAGGCTTCACGAACAGTTTTAGGGAGAGATACTGACTCTAGAGAAGCAATGAAGGAACACGTCGACGATGACAAATGATTATATGAAACAAAAGATGAGATAGGGTAAGCACACTAACTTTTACCTTTACGAAAAGCAATAGGAAAATCATCGCTCGTTCCTGGATCCGCTGTCGAAGAGACCTCTGGTAGTGGACATGGATCTGGAATGGATGGGACTGTAGTGTGTTGCCTTCGAGTACAAACATGAGTTATAGGTGGGTGAATAGAGGTAGGAACGAATAAATTAGGATTAGTAGGGAGCTCACTAGAGGTCAACTGTATAGATAAGAAAATTGTCATCATTCTCTTGACACTCCCCCTGACTCGTACTCGGTTGAGAAGAAAAGAACGACAAATGTTCAAAGAAGGTGACATCGGTAAGACATAATATTTATCAAGACTTGGACAATAACACTGATACCCTTTCTAGACTCGAGAATACCCAAGGAAAACACATTTAAGAGATTTTGGATCAAGTTTACTTAGGTTGGGAGGACGAACATCCCGAACATAGCATGTGCACCCAAATATTTTCGGTGTAATAGGGAACAAACGTTGTTGGGGACGCAAAACACTAAACAATATCTTACCTTTAAGAACAAAAGATGGCATACAATTGATGAGAAAATATGGTAGAACCCAAAGAAAGTAAAAACAAACAAAAGACAAAGAAATATCCTCCTCCTTTTATTGATATCCCATCAATATACACAAAAATATTCATGACCAATACAGAACATAAGGGCCCTGTAGGGTTTATAAAAAATATTCATTAACAATTGGTTGTCTATCAAAACATGCGGTCGAAATAGCATCAGAAAGGCCCTAGCTGTTTCAAGAAGATGACGATTCTTACGCTTTGCTACTTCATTTTGGGATAGAGTATCAACACACGAAGACTGATGAAGAATACCATGTGCATCAAGGTAAGGTCCGAGAGCACGTGAAAAATATTCTTTAGCATGATCACTGTATAAAATTTTAAGGCAACCACCAAATTGTGTTTGAATCTCAGCATGAAAATTACAAAAATGAGAAAGTAGTTCAGAACAATTTCTCATTAAATATAACCACGTTACACGAGAATAGTCATCAACAAAGGTGACAAAATACCGAAAACCTATCTTGGACTCTATAGGACAAGGATCCCAAACATCGGAATGCACTAATTCAAACGAAGCATTAGCTCGCTTATTGACCCGAGGATACAAACTTAAACGATAAAACTTAGCAAACTGACACAACTCACAAACTAAAGAAGATAAATGTTGAAACTGAGGATGCAGACTCTTTAATGCAGAGATAGATGGATGACCCAGACGACAATGTTCTTCAAAGGGAGAAGGCACACTAGAGCAGGTGATGGCGGTCGATACAGGTGGCTCAAAAATGTAAAGACCTCCAGATTCACGCCCTTTACCAATAGTCCTCTTCGTCGTAAGATCCTGAAACAAACAATAGCTAGGAAAGGACACAAAACAGTGAAGATCACGAGTGAGTTTGCTAATAGAAATCAAATTAAAAGAGAATTGTGGCAAACTTAAAACAGATGACAGTGAGATTGAGTCAGTAAGATTAACGGTGTCTGAACCTAAAACTTGATTAGCGGTTCCATTAGCTATAGTAACCGGAGGTGAAGATGTGGATGAGAAAAATTTAAAGAATAGACTGGGATTACCTGTCATGTGGTCTGTAGCGCCAGAGTCAATGACCCATTCTGTGGACGAGGAAAGAAGACATTTAGATGTGTTACTTGTCTCAGCGATGACGGTAATAGGGGTAGATGTGGACCAATGACTCGTGATACTGCTGAAATTTAGCAAATTGTTCTGCAGAAACAGTAATAGACTGTCCCGAATCTCCAGTAGTAGAGAACATTTGCAACTGGAGCTCTTTGACCCCTATTCAACTTCCTACACTCTAGTCTTGTATGACCAGGCTTGTGACAGTAATAACAAACCACATTCGAATTTGACCGCTGAGTATTAGAATATCCATAAGAGTTGTAGTTGTTTATTCCAGCCTTGTTGGCCCCAGTGTTGGATCCAACTCCCTTGTTGCTCTTATGATCACTAGTGTGTCCAACTAAGGCACTGTTAGAGTCAGATGACAAAACGACTCGTGGCTTCTCTATTCGAAGGATTTGAGTATAAGCTCCCTTCAATGATGAAATATCAGAACTTGGGAGAACTTGATCTTTGGCCATGTCATAATTTGAGGAAAGATAAACTAAGAAACTCATCATAAACATATGTTCTCGTTGAGCCAACTGCACTTTAGGATCAGTAAGGGCATCAAAGTATTAAATTCCGCACATGTTTTCTTCACTTCCATGAAGTAAGTAGTAAGCGATTTTTCACCTTGAATAGGTTGGAACAAGGTCTTGCATACGTCAAACACTCTATTAACATTCCCTTTACCTGAATACAGAAACTTCAGATACTCGAGGATCTCTTAATGATTAACCAACTCAACAATGTCGATTTCAATCGAGTTCTTGATTTGAAGGAACATTCTTGAGTCGTCTCGTAACCAAGATTTCTTATTATCACCTGTTGGTGGCGACTCTATCATGTGATCGTCCATCTCTATACTCCGAATATAGTGACCAATATTTGATCGCCGTGCATAATAATTGGACCCATTCAACTTGTGTTCGGTAATTTTCGACACCATCGGAACCATCTCTGTCACAATTGTTGATATCACCCATAATCTTCATAAACACAAAAAAAAGCAGCTAAACAACTAAAATCAGATCTGTAATACTCAACAAAACTTCGAAGAAAAGACGCCAAAGTCACCCGAAAGTCACCAAAATACCCTGACGTCAATAACTGCTCTTAAAACTCTCAATTGAGTGAAAAAACTACTAAATAATAAGAGAGCAGATCTGAAAAGAAACTGCCAGAAAAACCTATTAGACAATACTCACTCACAAGCCCACACGCCCTCGCAAGATTCGGGTGTCAAAAACTTGTTTGGGAGAGTGAAGCTCACTCGTATCTCCGTTCGCGATGAAAACTTACAAACTTGTAGATCGGCTAATGGGCTTTCTAATTGTGTAGGAGGTGAGAAAAAACGATGAAAAAATTCTTGAAAAATAGCCTCTGTCAGATTCTGACGCAAACGGACAAATTCTGACAACGTCTCGGGTACCCTTGATAGCGGCGGCTGTATGTCTTGCCTCCAAACTTGAGACTCTCTCAACCCTAATGCAACAAAAAACCCTAAGGCTCTGATACCATATAAATGCTAAAGTTGAGAGAATCAATATGTGTCATTCCATTCATTAGAGGAGTCTTTATATACAAATATACAACGTTGCCCTAGCTGTGTACATGTGAAAAGACGATAAAGGGCACTATAATTAAACATTAATAAAACTGTCTAATATTAAACTCTAGCTCTTAAGATTCATATCAAGGAATGGAACCATTTTACGTTCGGACACAACATTGCTATGAATCTTAAATATAGAAACGAGTTGGATGCATTGGACAAAAAAGAAGAACAGACTACTTTGTCCCCTTCTGAAGCTAATAGAAGATTGAAATTAAAGCTGGAATTCATGAGTTGATCATTAGGGATGAAATATCTTGGCGCCAAAGATGCAAAGCTAACTGTGATAAGAACCAAATATATATTATAATATAAAGATACTAATTAACCCAAGTGTTAAAGGTACTTGGACACTCCCAATCTTGAGACCATTCTCAAACCCTAAATACTCACTATCTCAATACTTCTCTGTCTTTTACTTTCCTATCCTCTCTATTTATAGTCTAATATGTTTATCTTACTTCTAATAGGATTGATCATTCCTTATCCTACTCCTAAACGGGTCTTATCAAACTGGTTAACGTTGGGTGATGAAAGTACAAACTTTTTTCATAGATATGTATCGACTAATAGAAGAAGAAATACTATTGTTGAGATCTTGGCTCAAGATGGTCGTAGTTTAGTCACTGATACTGACATTGAAACAAAATTTATAGACTTCTTCAGGAATCTTTTTACAAAAATAAACGATAGAGACCCACTGCCAAAGATCCCTGATTGGAGTCCATTGACCATAATACAAAAGAAAAGTCTTGAGATGCCATTTAATGAAGAGGAGATTAGGCGGGCGGTTTTTGACTTAGGAAGTAACAAGACTCCGAGGCAAATGGTTTTACTGCGGAATTTTTAAAAAAATCATGGAACATTGTTATCAAGACTGTGTTCAATGATTTTTTTCAAAATGGGATTATCAATGCTAGTTTAAACGAGATATACATTTGTCTTATTCCCAAAAAGTCTCTGGCTAGAATTGTTACTGATTCTCGTCCGATTAGTCTCACCACATGCTTGTACAAAGTCATTGCCCTTGTCCTATCAGAAAGATTGAAAGTTGTCCTTCCATATACCATTACAAAGTATCAATCAGCTTTTGTTGCAAAGAGAGATAGATTCTAGATGCTATTTTTACAACAAATGTTCTCATTGACGAATGCAAGAGGAAACAGGAAAAGGGGATAATCATTAAACTTGACATTGAGAAAGCTTTTGACATGGTGGATTGAGACTTTCTTGATTCCATTCTCCATATGAAAGGGCTTGGATTGACTTGGCGAAAGTGGATTAGAGGTTGTCTCTCTTCAGCCATATATTATCATTAATAGTAAGCCAAGAGGTAAAATTCATGCTACGAGAGGGTTACGACAAAGTGATCCGTTATCTCCCTTTTTGTTCACATTAGTGATGGATTGTCGTAGTAGATAGCTTATTGTGGTTGAAAAGGATGGGCTCATCGAGGGTTTCTCCATAACACACAAGAATAGGAAGGTAACTTGCTCTTTGCTGATGATACTATTCTTTTTTCTGCTCACAGGAAGGACTCCCTTGATAATTTGATTCAAACTGTTAGAAGGTTTGAGAAGGCGTCGAGTCCGAATGTTAATTGTAACAAAATGAGTTTCCTCACTCTAAATATTGATATTGATGAAGCTAAAAAGCTGGCTGCTCCGTATGGTTTCAAAATAGAGAATTGGCCCACAAATTATCTTGGTCTTCCATTAAATGGGAACCCATCATCAACTAGTTTTTGGAACCCTCTTAATGAAAAGATTGAGAATCGCCTTCAAAATTGGGGGGCATCCCATGTATCAAAGGGTGGTAGATTGACTCTTATTCAATCCACATTAGCCAATATTCCCATATATTATTTATCCCTCTTCCTTGCACCAATGAAAGTGACGAAAATGATTGAAAATTATGTAGAAATTATCTTTGGCGCGGTAAAGATGGAGGCAAGGCTAGCCATCTCATAAAGTGGGAGAGAGTCGAAGTTCCATTGGATGAAGGTGGGCTTGGCATTATTGACATTCACAAGAAGAACATTTCTCTCCTTGCTATAAATGGCACTGGAGATTTTACGAGGAAACTGAGGCTCTATGGAGGACTTGTATTGATATCAAGTATGACTCATCTCCACATGCATTCAAGGTTGGTTGCAAGAACATTAAAAAAACTAGAGGTCCATGGAGGAGCATTGACAGATGGAAACACCTTATATACTCTCATTGTATACACAAGGTGGGTATGGGTATAAACACACTTTTTTGGTCGGATATTTGGAATGAAAATGAAGTTCTTATATTGGCATTTCCTCTTATCTATGATCTATCTATGAATAAGAATGCTCGAATTGTTGATTGTTGGGATCCCACTAACTCATGGTGGAACTAGCTTAGAAGGAAGCTCAAAGAAGATGAAATTAGGGAATGGACCAACTTATCTTTTATATTAGATAATCTTTCCATTAATGAGAGACCGGACTCATGGCAGTGGACATTAGATAAAGATGGGGTCTTTACAACAAAATCTCTACTTCACTCATTATCATCATCTCCATTGGTTGTCAAGAGCGATCTATACCTTGATTTATGGACTAGTCAATTGCCAAAGAAAGTAAAGTTTTTTGTTTGGGAATTAAGCCATGGGACTATTAACACGGATGATCATCTCCAAGCAAAGTGGCCTTCAATGGCCTTATTGCCGAGTATGTGCTCCATGTGCCATAAAGAATCTGAAACTCAGATTCATCTCTTTAGTAATTGCAGTGTTGCTAGCAGAATTTGGGCTTTTTTGCAAGACGCTTTTTGCTGGCAGACGGTGAGACTAGGCACAACAAAGGATTGGGTTAAATACATGTATCAAGGTCACCCTTTCAAAGGTGAAAAGAAAATTTTATGGCATATGTTTATATCAGCATTATGGTGGAGATTATGGAATACGAGGAATGGTATCATCTTCGCAACCAACATGGCCCGTGACGGAGTATTATTGACTCTATTACTTTTCTTGCCATAACATGGTTCCATAAAATATTACCTTTCAAAGATTATAGTCTCACAACTCTTTTATCTCATTGGTAAGACTTTTTGTAATCTATATATGATTTTTTGTAATTTCGTTTCCTAAAAAAAAAAAAAACATTAGTAGGTTGCTAATTGGGTTGGCAAATAAGAGAGGGAAAGTGCTTTGAAAGGCAGGATTTGGTGTTTTCTTCTTCTTTTATCTTTTATTTTTTTATTTTTGTATGGATAAAGATTTTAGCAGGATAAAGGAAAGTAAAACTTTACCTGCTTTTAAAAATGGTGCAGCTTCGGTTTTAGCCTTACATTATTTTAGCTTTACAAAATTTTAACCGAGAACCGAAGAAGAGATTAACACTTCCTCACACGGTTTTAGGCAAGAATGAAGCTATGGGCATGCAAATATGGTCTTGTTTGTACAGGAACTGTTGGATTTTGATCTCTAGTGAACCTTGACAGTTATTAAGCTTTCAACAATCAAGTGTACCCTTGCTTTTCAAAACAGCTGAACGGCTCCTCCAAGTAAGAGGAAGAGGAAAATGCAAATTCATTCTTGCTTACGTATCCCGAGCTAAGAGGTGAGTAGCTCTTTGGCTCTGTACTTTTTTATGCTTCATTTAGACATTTTCCCTTCATTCTGAAGCATGAAACATTGCAAGGTTCCAAAAGTATTTATGTGACTTAAATTTTTTTTTATTAAATTCAACGATGATGATAGAAGTTGAATATCATTTGTATATCTAGTATCTACACATCATGATAGTTACAGGAATTTAGCCAGCAAAGTCTATATTAAGATATGGCTAGTGGCTAAATATTAATAACAGTAAATTAAATGTCTTGTGCGATTAAAGAAACTGGCAGAATGAGTTTAAATCTCGTTGAGTTAAAATAAAATCAGTAAATTATTTTATTAATTCGGATGATTTCCATTATGGGATTAAGAGCTAAGAAGTACGGACACGGATGCGTCGAGGATACGTTATTTATTATTATTTTTTATGATATACTATTAAAAGATCAAATTCAAAATATTTTAGTTTTTTTTTACTAACTATAAAAAATAGTTCAAACAAGGATGAACATGAAGATTGAATTAGCAATTGAATTTATGAATTAGCAATTGAATTTAACCTATGTAGTTAGTTATATGAGTCCATTTAAATCCAATAAAAAACAAAATCTCACCGTTCTTTCAATGCCCATCCTTGACAATCTCAAAATATTCTAGTTTTTACCTTTTTTTTCATTCTATTTTCTCTTTTTCTTTCATTTTTCCATTTTAGTCCATCTATCTTCGATAGACGTCATTATCGATCGCCTCCACCAACACTACCTGTTGTTGTGTCATCGACAATTTGAAATAGATAAATCTTAAATGGAGTGTCCATGAAATATCCATGGTGTATCCGTGAAGTGTCCAAAATTAAAAATAATAATAATAAAGGAGGACGCGAAATTTTGAGTGTCGGATATATCAGTGTCAGATATGAGTACGACACGGATATGTTGTCAAAATAGAAGTGTCCATGGTGCAATTATTCCACATTGATAAGGTGAGGAGTCTTCAACACATTTATAAGAGACATGAGTTACTCCCCTCATTGCCAATTAGTTTTGAGGTGGTACATCATATTCTCTAATATGGTATCAGAGCTCCATGTGGGTTATTGGTCCCCCAAATTCTGATTCAACCCAAAATGCTTTGAATTCTAAAGCGGGTGTGGACCCCACCCAAGCAGGCATAAACTTAAGCGGGTATATGATCCCAAAGTTCTGATCCAACCATAGCAAAAAGTAAGCCAAAATGAGTATTTCGGTCCACAAATTAGGATCCAATTCAAGATGACATTTTCTGATATGACCCCCATCTTGATTAGGCATGTTGGAGATACTCACCTTGTGGCCCAATTATCCCACTGAAATGAGGAGTATTTATAAGAGTAATGGGTTACTTCCCTCATTGCCAATTGGTTTTGAGGTGGAACTCTATATTTTTTGGCATCCGTGCTTCCTAGATTAAGAGTCACCACAACATAGATTGAATATAGAATCTTCATACTAAAAGGAAAAAAAGGCTAAACTTTAATTTTGAATATGAGCACATGTTATATGTGTGCTAGGATTGCCACCTCTAGCAATGCTTCCTTATTGACATAGTCGATAAGTGGAGACTGCTACAACACAAATGCATGTCTGTTTTACTAATGGTTGCTTTATTCATCATCTCCTTTGTAGCATGGATGAACTGATTCTCGATGAAGCTTCTCGGCACGGGATGCAAATGAGTGAAGTAGCTGGAACTCGAGCTGTGGTTGGGAATCTTCAAGGAGTTATCTACGAGATCACGCTTAATTAG ATGGAAAGAGAAAAGGAAGAAGAAGACATAGTTTGTCTTGATGCATCGTTCTTTATGAATAACGACTATCAGCTCACTACCTTTACATTCGGCTCCCATGTGATTCAACTCCTCTGTCTTCACTCTGCTTCCACTGATTTTGATTTAACGGGGCAATTAGTGTGGCCTGGTGCCTTGCTGATGAACAATTATCTTTCTGAACATGCTCACGTGCTTCGAGGATGTTCTATCATCGAATTGGGATCTGGGGTTGGTATTACTGGAGTACTTTGCAGCAAATTTTGCCACAAAGTGGTGTTGACAGACCATAATGATGAAGTTATAAAGATCCTGGAGAAAAATATACAGCTACATGCAACTTCTGAATCCCTGGAAAATTCTGCTGAACTAGTAGCTGAGAAGCTTGAATGGGGAAATTCTGATCAGATAACCCAAATTATAGACAAGAATTCTGGCGGTTTTGATCTAATTCTTGGTGCTGATATCTATATCCTGATTATTTCTTCCTCATTTTGCTCAAGAAATTCTAAAATAATAAAAATGACTTTGTTATTAAGCTTTCAACAATCAAGTGTACCCTTGCTTTTCAAAACAGCTGAACGGCTCCTCCAAGTAAGAGGAAGAGGAAAATGCAAATTCATTCTTGCTTACGTATCCCGAGCTAAGAGCATGGATGAACTGATTCTCGATGAAGCTTCTCGGCACGGGATGCAAATGAGTGAAGTAGCTGGAACTCGAGCTGTGGTTGGGAATCTTCAAGGAGTTATCTACGAGATCACGCTTAATTAG ATGGAAAGAGAAAAGGAAGAAGAAGACATAGTTTGTCTTGATGCATCGTTCTTTATGAATAACGACTATCAGCTCACTACCTTTACATTCGGCTCCCATGTGATTCAACTCCTCTGTCTTCACTCTGCTTCCACTGATTTTGATTTAACGGGGCAATTAGTGTGGCCTGGTGCCTTGCTGATGAACAATTATCTTTCTGAACATGCTCACGTGCTTCGAGGATGTTCTATCATCGAATTGGGATCTGGGGTTGGTATTACTGGAGTACTTTGCAGCAAATTTTGCCACAAAGTGGTGTTGACAGACCATAATGATGAAGTTATAAAGATCCTGGAGAAAAATATACAGCTACATGCAACTTCTGAATCCCTGGAAAATTCTGCTGAACTAGTAGCTGAGAAGCTTGAATGGGGAAATTCTGATCAGATAACCCAAATTATAGACAAGAATTCTGGCGGTTTTGATCTAATTCTTGGTGCTGATATCTATATCCTGATTATTTCTTCCTCATTTTGCTCAAGAAATTCTAAAATAATAAAAATGACTTTGTTATTAAGCTTTCAACAATCAAGTGTACCCTTGCTTTTCAAAACAGCTGAACGGCTCCTCCAAGTAAGAGGAAGAGGAAAATGCAAATTCATTCTTGCTTACGTATCCCGAGCTAAGAGCATGGATGAACTGATTCTCGATGAAGCTTCTCGGCACGGGATGCAAATGAGTGAAGTAGCTGGAACTCGAGCTGTGGTTGGGAATCTTCAAGGAGTTATCTACGAGATCACGCTTAATTAG MEREKEEEDIVCLDASFFMNNDYQLTTFTFGSHVIQLLCLHSASTDFDLTGQLVWPGALLMNNYLSEHAHVLRGCSIIELGSGVGITGVLCSKFCHKVVLTDHNDEVIKILEKNIQLHATSESLENSAELVAEKLEWGNSDQITQIIDKNSGGFDLILGADIYILIISSSFCSRNSKIIKMTLLLSFQQSSVPLLFKTAERLLQVRGRGKCKFILAYVSRAKSMDELILDEASRHGMQMSEVAGTRAVVGNLQGVIYEITLN Homology
BLAST of Sed0014482.1 vs. NCBI nr
Match: KAG6570431.1 (Protein N-lysine methyltransferase METTL21A, partial [Cucurbita argyrosperma subsp. sororia] >KAG7010305.1 Protein N-lysine methyltransferase METTL21A [Cucurbita argyrosperma subsp. argyrosperma]) HSP 1 Score: 451.8 bits (1161), Expect = 4.0e-123 Identity = 227/261 (86.97%), Postives = 245/261 (93.87%), Query Frame = 0
BLAST of Sed0014482.1 vs. NCBI nr
Match: XP_008449636.1 (PREDICTED: protein N-lysine methyltransferase METTL21A isoform X1 [Cucumis melo]) HSP 1 Score: 419.1 bits (1076), Expect = 2.8e-113 Identity = 213/262 (81.30%), Postives = 229/262 (87.40%), Query Frame = 0
BLAST of Sed0014482.1 vs. NCBI nr
Match: XP_004140186.1 (protein N-lysine methyltransferase METTL21A isoform X1 [Cucumis sativus]) HSP 1 Score: 415.2 bits (1066), Expect = 4.1e-112 Identity = 211/262 (80.53%), Postives = 228/262 (87.02%), Query Frame = 0
BLAST of Sed0014482.1 vs. NCBI nr
Match: XP_038901029.1 (protein N-lysine methyltransferase METTL21A [Benincasa hispida]) HSP 1 Score: 413.3 bits (1061), Expect = 1.6e-111 Identity = 212/261 (81.23%), Postives = 227/261 (86.97%), Query Frame = 0
BLAST of Sed0014482.1 vs. NCBI nr
Match: XP_022943521.1 (protein N-lysine methyltransferase METTL21A [Cucurbita moschata]) HSP 1 Score: 411.4 bits (1056), Expect = 5.9e-111 Identity = 211/261 (80.84%), Postives = 226/261 (86.59%), Query Frame = 0
BLAST of Sed0014482.1 vs. ExPASy Swiss-Prot
Match: Q9CQL0 (Protein N-lysine methyltransferase METTL21A OS=Mus musculus OX=10090 GN=Mettl21A PE=2 SV=1) HSP 1 Score: 68.9 bits (167), Expect = 9.5e-11 Identity = 50/165 (30.30%), Postives = 82/165 (49.70%), Query Frame = 0
BLAST of Sed0014482.1 vs. ExPASy Swiss-Prot
Match: A4FV42 (Protein N-lysine methyltransferase METTL21A OS=Bos taurus OX=9913 GN=METTL21A PE=2 SV=1) HSP 1 Score: 66.6 bits (161), Expect = 4.7e-10 Identity = 46/143 (32.17%), Postives = 72/143 (50.35%), Query Frame = 0
BLAST of Sed0014482.1 vs. ExPASy Swiss-Prot
Match: Q8WXB1 (Protein N-lysine methyltransferase METTL21A OS=Homo sapiens OX=9606 GN=METTL21A PE=1 SV=2) HSP 1 Score: 65.5 bits (158), Expect = 1.0e-09 Identity = 46/143 (32.17%), Postives = 73/143 (51.05%), Query Frame = 0
BLAST of Sed0014482.1 vs. ExPASy Swiss-Prot
Match: Q8R1C6 (Methyltransferase-like protein 22 OS=Mus musculus OX=10090 GN=Mettl22 PE=2 SV=1) HSP 1 Score: 61.2 bits (147), Expect = 2.0e-08 Identity = 27/97 (27.84%), Postives = 55/97 (56.70%), Query Frame = 0
BLAST of Sed0014482.1 vs. ExPASy Swiss-Prot
Match: Q9BUU2 (Methyltransferase-like protein 22 OS=Homo sapiens OX=9606 GN=METTL22 PE=1 SV=2) HSP 1 Score: 60.1 bits (144), Expect = 4.4e-08 Identity = 30/104 (28.85%), Postives = 55/104 (52.88%), Query Frame = 0
BLAST of Sed0014482.1 vs. ExPASy TrEMBL
Match: A0A1S3BNE5 (protein N-lysine methyltransferase METTL21A isoform X1 OS=Cucumis melo OX=3656 GN=LOC103491460 PE=4 SV=1) HSP 1 Score: 419.1 bits (1076), Expect = 1.4e-113 Identity = 213/262 (81.30%), Postives = 229/262 (87.40%), Query Frame = 0
BLAST of Sed0014482.1 vs. ExPASy TrEMBL
Match: A0A6J1FRY5 (protein N-lysine methyltransferase METTL21A OS=Cucurbita moschata OX=3662 GN=LOC111448270 PE=4 SV=1) HSP 1 Score: 411.4 bits (1056), Expect = 2.9e-111 Identity = 211/261 (80.84%), Postives = 226/261 (86.59%), Query Frame = 0
BLAST of Sed0014482.1 vs. ExPASy TrEMBL
Match: A0A6J1DFS1 (protein N-lysine methyltransferase METTL21A OS=Momordica charantia OX=3673 GN=LOC111020665 PE=4 SV=1) HSP 1 Score: 411.0 bits (1055), Expect = 3.7e-111 Identity = 211/261 (80.84%), Postives = 227/261 (86.97%), Query Frame = 0
BLAST of Sed0014482.1 vs. ExPASy TrEMBL
Match: A0A6J1J8W1 (protein N-lysine methyltransferase METTL21A OS=Cucurbita maxima OX=3661 GN=LOC111483655 PE=4 SV=1) HSP 1 Score: 406.0 bits (1042), Expect = 1.2e-109 Identity = 208/261 (79.69%), Postives = 225/261 (86.21%), Query Frame = 0
BLAST of Sed0014482.1 vs. ExPASy TrEMBL
Match: A0A565BJ35 (Uncharacterized protein OS=Arabis nemorensis OX=586526 GN=ANE_LOCUS12104 PE=4 SV=1) HSP 1 Score: 349.0 bits (894), Expect = 1.7e-92 Identity = 174/257 (67.70%), Postives = 207/257 (80.54%), Query Frame = 0
BLAST of Sed0014482.1 vs. TAIR 10
Match: AT2G26810.1 (Putative methyltransferase family protein ) HSP 1 Score: 337.0 bits (863), Expect = 1.3e-92 Identity = 171/258 (66.28%), Postives = 203/258 (78.68%), Query Frame = 0
BLAST of Sed0014482.1 vs. TAIR 10
Match: AT2G26810.2 (Putative methyltransferase family protein ) HSP 1 Score: 337.0 bits (863), Expect = 1.3e-92 Identity = 171/258 (66.28%), Postives = 203/258 (78.68%), Query Frame = 0
BLAST of Sed0014482.1 vs. TAIR 10
Match: AT2G26810.3 (Putative methyltransferase family protein ) HSP 1 Score: 251.5 bits (641), Expect = 7.3e-67 Identity = 122/168 (72.62%), Postives = 145/168 (86.31%), Query Frame = 0
BLAST of Sed0014482.1 vs. TAIR 10
Match: AT1G73320.1 (S-adenosyl-L-methionine-dependent methyltransferases superfamily protein ) HSP 1 Score: 52.0 bits (123), Expect = 8.5e-07 Identity = 37/119 (31.09%), Postives = 64/119 (53.78%), Query Frame = 0
BLAST of Sed0014482.1 vs. TAIR 10
Match: AT1G79915.1 (Putative methyltransferase family protein ) HSP 1 Score: 50.1 bits (118), Expect = 3.2e-06 Identity = 23/83 (27.71%), Postives = 46/83 (55.42%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Chayote (edule) v1
Date Performed: 2021-10-25
Relationships
This mRNA is a part of the following gene feature(s):
The following exon feature(s) are a part of this mRNA:
The following CDS feature(s) are a part of this mRNA:
The following polypeptide feature(s) derives from this mRNA:
GO Annotation
GO Assignments
This mRNA is annotated with the following GO terms.
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