Sed0010142 (gene) Chayote v1
Overview
Sequences
The following sequences are available for this feature:
Legend: polypeptideCDSexon Hold the cursor over a type above to highlight its positions in the sequence below.ATGGCTAATGTTGTTGTCACTCGAGATCCTCGTCTTTGTGTCACAATGCTCATTCACAACCTACCCTTCGATAACAAAGCCGACCAACAAATTCAATCCATCTTTGCAGCTTTTGCTGATAAACCCATAAGCTTTATTGTCCTCCCTCAACAGCCCCCTCCCCAACTTCCCAATAAAAAATTCTTGTTGAAACTGCTCGACATCACCGAATCCTAAAAGCCCTCTGTTAGAGAAGCTATCATCACCAAACTCAAACATCCTCTCCTTGGATTTGTAGTAGACTTTTTTTGCACTACTATGATTGATGTGGCCAATCAATTTCCAGTTCCTTGTTATGTATATTACACGTCTAACGCGGGATCTCTTGCTATTTTGCTTTCCCTTCAACAAATTTATGATCGAAGTAACGGTAGTTACGGGGGCTGAAACACCTGCAGAGATCAGATGGGGAGTTGGCTGTGTCGGGCTTTGTTAATCTTTTTCCTTGTAAACTTATCCCTAGCCCTTTTATCAACGACGAGGCCGGCGCTTGGTTTTACAATGATGTTAAAAGAATTAGATCTGAATTCAAAGGTGTTCTTCGTTGAGATTGAACCCCATATCTTAAACTCCATCACAAGTGACTCTGCTTCACTGTAACAACCCGACCCGAAAGAGGTTCTAAAATAGGCCGTTACCTCAATGCATGCATTCAAATCTACAGAAAATTTGCAAAATGGTGTTCGGATTCTAAGTAAAAACTAAAACATAAAACATCCATTTAAAAAGTCAACATAAAATTCCTGAAACCTGTCCCTGTTTCCAAGCACCTGTTCCAAGACAAATACATTTACAAAACTTACTCTGATTAGAGATTTATTTAAAACATACAAGCTTTGCAATAGTTACAACAATGCTAGAATCCGGAAATACATTCAGAAAACACCCTAGGGCTCCGTGCCCAACTACATGCATTCAGAGGACTTTTAAAACATAAACATAAACACAAGACTCAGAGTTGAACAACGGGTTTTCCATGATCATAGCTGTAACGGCCCAGGTTTCTATTCTGGTTCTCGAGGAGCTTCCGGTTCAGATTCAGTGGTTCGGTTGGGCCGTTAGAGCTGTTTTGACCCTTAGGGGTATTTTGGTCTTTTTGCTCCCCGGGCAGGATTTGTGGTTTTTCAGGGCTTCGAGGCAGCTCCTGCCTTTGTTGAGGCTTGTTTGTTGTGGACTGCGAGTCCCGAGATGTTTGGGCTATTCGTTTGGGAGTTCGGTTGTGATTTGGGTTTTGGGCAAAGTTATGGTTGTTTGGGTGTTTGGGTTTTTCCTTTGGGATTCGAGCCCGGGCCTTCAGTGTTGATTTGGGAGGTTGATTTCAGTGAGATTTGTTGTTTGGAAAGGTTGCTTCAGTCGGGTCTCGAAGGAGGAAGCCGGGAAATGGGATTTAAGGATTTTAAGGCTTATTTTAGAAATTGGAAAATTGGATTTATTTTGGATAAGGATAAAAGAGAAAAAGAAAAGAAAAAAAAAATCCCATTTTTCCCCCATTTTTTCCTTTCTCTCTCCTCCAACCCGAGCAGCCCCTCCCAGCCCCCCTTGGTCGCGGCGGCTCTGGTCGCTGACCTTAGCCGCCACCGCTCGCCCACCTGGCCGCCTGGCCCGGCCCCCCCTGGCCGCCCGAGCTCGCCCCTGGTCGCCCAACCCCAGCGCCCAGCTATCCAGGCCGCTCCGAGCCCAGCCCTGCTCGCCCAAGCCCACGTCGCCCCAGATCCTCCTCGCCCAGGCCGTCCCCGAGCCAGCTCGCCCTGGTCCGTGTCGCCCAGCCCCGTGTCGTGCGGTGTGCGCGCCCGGCCAGTGTGTCTGAGCTCGTGTCGCTCGCGCCGAGCGCCAGTAGCTCGTCGCCGCGCGCGCGCCGTGCTTGCCGAGCGCGCGCTGCGCGCCGTTCTCTGTCTTGAGCGCGCGCGCGCGCGGGATGCTCTCTCCCGCGCCCGCGCGCCCTCGCCTCGCCCAAGCCCGCGCCCGCGTGCAGCTCCGCGCCCCAGCGTCGCCCCAGCGCCCAGTGTCTGCGCCCTGCCAGCCCAGCCCCTGCGCCCAGTCTGCTTGTGGTGTGTTGGCTTGGTGCGAGCCTTGTGGCTTCTCGGATGGTATTTCCCGAGTCTTTTCTTCGTTGGGCCCGGATTTGTTGGCTTCTGGTTATTGATTTATTGGGCTGTTTCATTGTGTTTATTTGGGTGCTTTGTTTGATGTTCAGGCTGTTCGGGATCGATTAAAGGCTCGAGGGTCGTTCGTTGATTTATTATTATTATTGTTTTGCAGCTTGTCCCAGGTAAGGATTTCTTACCGTGGTTGTGTGGACCCTGCGATATATCATGATATGCCTTGTATGCTTGTTTGCTGTTATGAACATGATATTGATAGAGCAGTTGATTGATTTCTTGCTAGCATGTTTGCCTGATTTTACATGTTAGTGCCATGCTAGGTTTGTTCTGCCAGCATGCTTATGATTCCTGCTTAAGTTGTAGTATCATGCTAGGTAATGTGATTTATGTCGGTCATTGCTTGCTAGCCAGGAATCATTGATTTTTGCTCTGTACTCTTAGATAGAGTTGTAGGGTTTGTCATCATCCAGAGGCTGAGCGGACATAACGTACTTTGTCCCCACTGATCGGGAGTAAAGTGTGCGCAGCATAACGTATCTTGCTTCCCCCCCGGTCGCTAAGGTGGATTTAGATCAGGTCGGGAGTAAAGTGTGCGCAGCATAACGTATCTTGCTACCCCCCCCCCCAACCCGCCGGTTGTGGACTTAGCTACCCACTTCGGCAATAGCCTAGTTTGTAGCCTGCTAGAGCGGAACCACGCGCAAGCGGTGTAAGCCTACCTTGGCCGGTTCTTAGCTTCAGTCGGTGGATCAGTGCCGCATGATGAGCGCGAGGGCCTCGCGCTCGCGTGATCAGTGACACCGCTTCCGAGTCATAGGCATGTGCACCTGGCCCATGTAGTTTGCCCTTAGGCCCCCGCATTTACGACGGTTGCAGAGAGCATGCGGTGTGCACGCACACGCGTTAGTTGCCGGTTCGGAGAGCTCCGGGCTAATGTCGTGAGTACACCATTCTTTCCGTTAGAGCTCGACTTGGGTACTCTCCCGTAAGTCAGAGTTAGTGCAAGGGCAAGGAGGCCCTTGAGGACATTCTAGGGATCGGTGTATTCCCCCAAGTGACGAGATACCTCGGTGATGTCCCAGGATTGGTCGATGTATCCAATCCCGGTTAAGCGGAAGAAAGAGACTTACGATGGCTCCAGATCTTGTTTTATGAGCTCGTTGAGCTATGATGCGTGTTGATAGTCTGTTTGCTTGCATGTTGAGGTGCTAGATGACTGATGTATCGTATTGTACCCGGTTGGGGATTCTTACTGAGTATCTTTATACTCACCCTTATTTATCTTTCGGGTAGCTTGGGACAACACCGGGATGGCTAGCGGAGGAGCCGATTGATCATGGGGGAGCCGCGGCACTCTGTCATTTATTATTGCATTGTTTATTCAAAGCATGTAGATGGACAGGAGTCCTAGGGGAACATTGTATAAAACGTTGTTTAAATTGTATTGTATATATTTGTAAATCTTTTGGCGAGTTGTTTTACTTCGTTGGATTGTTTAAATGAAAATCGTTGGTTATGTTTTAAGGGTTCCCCCCTTCTCATATGTTTTGAAAGGTTTTTAAATATGAGCACTAAAGCGCTTGTTATCATATTTAACTTGCATCTTTGAGTGAGAACCCGGTTTAGGACCATGTTTTGGGTCGGGTTCGTCACAGTTGGTATCGAGCACGAGTCATAGATTTCGTGAGACTAACTGCTTTGTAGGTTGTTTGCTCCCATGATCATCAAGACTCCACGGCCGCGGGTTTGTCTGAGTTCAATTAAGCTAAGGGGTAAGAATTTACAATACTTTTCATCTAGCTTTTATGCCTTGTGTAGTGTTGTGGAGCGGAGACGAGCAGGTTCTGACTCGTTGTTGGTTTGGGCTTAGAGAGCCATCATGCCAACTTTTCCGTAGTCGAAAGCGATTTGATGAGCAAAGTGAGAGCCCCGGTGTGGGCCAAAGATTTATGCTTTGTGCGATCGATCGCGGTGTGTCGATCGCACCCAGAGGGAGGCAGAGCTTAGACTCTCGTAGGCCATTTGTGGCTCAGTTGTTGCTTTTCCCCTAGTGAGAGGGTGGAGGTGCTTTGTGCAGATCGCCAGTGTGTTGATCGCACTCAGAGGAGCAGGACGCTTGGCATGTCCGACCGAGGATTTGGACCGATTGTATTGATGATGAGGCCGCGTCCAGGGTTGTTAGGCCCGTTGGCCAGAGTTGGCCCTAGCAGTTGAGTTGCCAAGAGGAGGGGGTAGAGGCTAGCACGCCTCAGAGTGAGACTCCTTGAGCAGAGTGTGCTCTAGCCATGAGAGATTTGATGGCAGGTCTTTAGCTATAAGAGAGCGGAGACCCATGCGCAGATTGTAGCGCGTAGTGAGGAGTCCCGGGCACAGATAGCCCAGCTGACAGAGTATTTCATCAGTTTCCCCCCAGTAGCTCTTGTAGCCTCGGAGGTTCCCGGGAGTGCATGATCAGCAGGTTTTTGCCGTCGAGTTTGTTGGCGTTGATGGAGCCGCCCAGTTTGCAAGTGGATACCTGTAGAGCTCGATGTTTTGGAAAGTCCTACTTCTAGTAGTAAAGCAGTTGGCCAGGTTTGAGTTTAGCATCCGTGTGTTGGGATGCCCTGCTGTTTAGAGGCCGAGTTGTGTCGTACCTGTGCTGTTTGGTACAGCAGTTGATGGTCGTAGTCTCTTGAGAGAGGTGGACTAGCAGAGTCTCCACCAGTCGCCCGATTGATTGGCAAGTTGCCGTGTTAGTGGCTTGAGGCAGATGTAGAGACATCTTTGCCCCCTTACAAGCCTGCTGTCGTTGTACAGCCAGTTCTTTTAAGTGCCCTCGTAGCCAGGGTGTAGTGTGGAGTTTGCTTGCCAGGGTTTTATCCATTGTGGATTTCAGCGGGCTAGTAGAGTGGAGCACTCTTTTGTTTGGATGTTCCCAGTGTGGAACTAGTTGTTGCCACCCGAGGTGTTGGTCTGAGCTTTTGTTGAGCATCGAGTGAGATGTAGGAGTTAGCCTGAGCTTTTGTTGAGCATCGAGTGGGATGCAGGAGTAGGTCTTGGCATGTCTGTTGGTCGAGATGCCAGAGATTAGGCTGCTCGAGTGTTTGGACTCTTGTGTTGTGTGCCATTGCCCCGTCACTTGGAGTGTGACCTTCCCTTTCCTCAGAGGGGCATAAAGCTCGTTAAGGCTGTTTTGTGTTGTAAAGGATGTAGTGCCTGTTGGCACCAGGCTTTGAGACGAGGCCTAGATTGAGGCCAGTTGGCCCTGTTGTGCAGGTGGTTCCGTAGCCGCCTAGTTTACAGCATCCCTGCTAGTCTTGTACCCATTTCCTGAGGTTGCACCTGTTTGGTTGCATAAGAGATCTAGCTCGGTGGTAGTCAGAGGACTACAAGTATGAGGTTTTTGAGGGAAAGTAGGAGCTTTCCTTGGTCACCGAGAGTTGGGTGCAAAGGATGTTGTAGGCTGTTAAGAGCTAGCGCGTTCGAGTTCTCGCGCCTGTGTTGTGAGCTTGTGAGCTAGTTTGTTGGTAGCATGATTCGCCTACCCTTTGAGTTACCCTAGTATGGGTAGTGTTGGCATCAAGGATGCGTGGTTGATCCAGTGTTAGAGCCATGAGTTGGATGGCTGATCGGAGCGTTAGTATGCTTGTTTGCTGTTATGAACATGATATTGATAGAGCAGTTGATTGATTTCTTGCTAGCATGTTTGCCTGATTTTACATGTTAGTGCCATGCTAGGTTTGTTCTGCTAGCATGCTTATGATTCCTGCTTAAGTTGTAGTATCATGCTAGGTAATGTGATTTATGTCGGTCATTGCTTGCTAGCCAGGAATCATTGATTTTTGCTCTGTACTCTTAGATAGAGTTGTAGGGTTTGTCATCATCCAGAGGCTGAGCGGACATAACGTACTTTGTCCCCACTGATCGGGAGTAAAGTGTGCGCAACATAACGTATCTTGCTTCCCCCCCCCGGTCGCTAAGGTGGATTTAGCTCAGGTCGGGAGTAAAGTGTGTCGTGAGATAACGTATCTTGCTACCCCCCCCCCGACCCGCCGGTTGTGGACTTAGCTACCCACTTCGGCAATAGCCTAGTTTGTAGCCTGCTAGAGCGGAACCCTGCCAACGGTGTAAGCCTACCTTGGCCGGTTCTTAGCTTCAGGTCGGTGGATCAGCTGCACAGATGAGCGCCGAGGGCCTCGCGCTCATTGTGATCGGTGACACGCTTCCGAGTCATAGGCATGTGCACTGGCCCGTGTAGTTTGCCCCAGGCCTCGCATTACGCGCCGGTTGCGAGAGAGCATGCGGTGTCGCGCACACGCGTTAGTTGCTAGTTTGGAGAGCTCTCCGGGCTAATGTCGTGAGTACACCATTCTTTCCGTTAGAGCCCGACTTGGGTACTCTCCGTAAGTCCAGATTAATGCAAGGGCAAGGAGGCCCTTGAGGACATTCTAGGATCGGTGTATTCCCGAGTGACGAGATACCTCGGTGATGTCCCGAGGATTGGTCGATGTATCCAATCCCGGTTAGGCGGAAGAAAGAGACTTCCGATGGCTCCAGATCTTGTTTTATGAGCTCGTTGAGCTATGATCCGTGTTGATAGTCGTTTGCTTGCATGTTGAGGTGCTAGATGACTGATGTATCGTATTGTACCCGGTTGGGGATTCTTCTTGAGTATCTTTATACTCACCCTTATTTATCTTTCTGTAACTTGGGACAACACTAGGATGGCTAGCGGAGGAGTGATTGATCATGGGGAACCGCCGGCACTCTGTCATTTATTTATGGCATTTTTTATTCAACATGTAGATGGACAGAGTCCTAGGGGAACATTGTTTAAAACGTTGTTTAAATTGTATTGTATATATTTGTAAATACTGGCCAGGTTGTTTTACTTCGTTGGATTGTTTAAATGAAAACTGTTGGTTATGTTTTAAGGGTTCCCCCTTCTCATATGTTTTGAAAGGTTTTTAAATATGAGTACTAAACCGCTTGTTATCATATTTAACTTGCATGCTGAGTGAGAACCCCGGTTTAGGACCATGTTTTGGGTCAGGTTCGTCACAACTGCTCCTCCTCTGGCCATCCTGTCTCGCACCATGGTTACCTGTGGAAAAACCACAAAAATAAGGGTGAGTAACGAATTACTGAGTAAGAATCCCCAACCGGGGTACAATACGATATAATCAGTCATCTAGTACCCAAGCATGCAAGCAAACAGCTACCAACACATATCATAGCTCAACGAGCTTACAAGGCAAGATCTCGAGTCATCGGAAGTCTCCTACTTCCGGCCTAATGATTGGTTATCCTAACCAATCCTGGGACATCACCGAGGTCTCTTTCACTCGGGGGATTGATCAGCTCAAAAACTGATCCCAAGGATGTCCTCAAGGGCCTCTTTGCCCTTGCTAATAATCTGGACTTACGGGAGAGTACCCGAAGTCTAGCTCTAAACTGGAAGGAATGGTGTACTCATGACGTTAACCCGGGGGAGCTCTCCCAACCGGCAACTAACGCGTGTGCGCGCACACCGCATGCTGCTGCAACCGGCGTAAATGTGGGGGCCTAAGGACAAACTATGCTGGCCAGGTATGCATGCCTAAGACTCGGAAGCGGTGTCACTGATCACAGTAGCGCGAGGCCCTCGACGCTCATCTGCGGCTGAACCAACCACCGACCGGCTAAGAACCGGCCAAGGTAGGCTTACACCGTTGGCAGGGTTCCGCTCTAGTAGGCTACAAACTAGGCTTATGCCGATGTGGGTAGCTAAATCCACATCGGCGGTCGGGGGAAAGCAATGTACGTTATGCTATGCGGACTTTACTCCCGACCAGTGGGGACAAAGTACGTTATGTCCGCTCTCAGCCTCTGGATGATGACAAACCCTACAACTCTATCTAAGAGTACAGAGAAAATAAATGATTCCTGGCTAGCAAACAATAATCGACATCAATGACAATTACCTAGCATGATACTACGAACTTAAAGCAGGAATCATAAGCATGCTGGAAGAACAATCCTAGCATGGCACTAACATGTACAATCAGGCAAACATGCTAGCAAGAAATCAATCAAAGCTGCTCTATCACTATCATGCTCATAACAGTCAGCAAACATACAAGGCATATCATGAAAATATCGCAGGGCCCACACAACTCCGGTAAGAAATCCTTACCTGGTCGGAAGGCAACAACACACAATAAAACTAAGCTGCGATTGAACCCGAGCAACCTAAAGCCAACCAAAAAAACACATCAAAAATCATAAACCAAAGGCCTAATTATAATAAAATAACAGGGCTCGGCTCGGGAGCAACTCACGAGGCGCGGCTGACACGTGAACGAGCCGGCTGCATGGGCGAGGCAGCTGCTGGGCGCAGGGCTGGGCGCTGGGCTGCGCGCGGATGAGCTCCAGGGCGACACAGGGGCGCGCGGGCGGGGGCGCGACGCGACGGCTACAGGGACGCTCGCCCGGGGCGACGCGACGCGACGGCTACAGGGCACGCGCGCGGGGACGATGACTTCGGCAAGCTACAGTAGCGGGCGCGCGCTTGTCGTGCGCGGCTCGGCACAAGGCGCACTGGGCGACACGACGACGCGGGACGAGACGGCTCGGGAGAGCTGGCCCAGGTCGACGCGACGACGTGGCGGGCGGGGCTGGGCTCGGCGAGCTGGGGCTCGGGCTGGGCGATGGCGCGGGCTGGCGACCTGGGCTGGGCGAGCTGGGGCTAAGCTCGGGCTGGGGTTGGGCGAGCAGGGGCTGGGCTAGCTCGGGGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAATAAAAGGAAAAATGGGAAAAAAAGGGAATAAATGGGATTTTTATCCATTTTCCATCCTTATCCATTTTAAAATCTTAAAATCCTTAAATTCCCATTTCCCGACTTCCTCCTTCGAGACCCGGCCAAAAAAATCTTTTCCAATAAATAAAACTCGCTTAAATCCAACTCCCAAATCAACACTAAGGGCCCGGGCTCGAATCCCAAAGGAAGCACACAACTAACCATCACTTTGCCAAAACCCAAACCACAACCGAGCTTCCAACCGACTAGCCCAGACATCTCGGGACTCGCAACCAACAACTAACAAGCCTCGACAAAGACAAGAGCTACCTTGAAGCCCTGAAAATCCATAAATCCTGCCCGGGGAGCCAAAAGACCAAAATACCCCCAAGGGCTAAAACAGCTCTAACGACCCAACCAAATAACCGAATCTTGACCCGAAGGCACCTCGAAAACTGGAATAGAAAACTGGGCTGTTACATTCACAATTCCCACCTCTGTTTCCAATTGGACCTGTTTTATGCTTGAAAAATACTGCATTAGAGGGTGTTGATCGTGCTGAGATATTGAAGTGGCTCGACCTTCAGCCTCTATCCTCTGTCATTTTTTTGTGCTTTGGGAGTATGAGGAGCTTTGAAAAGGAACAAGTGCTGGAGATTGCACGTGCATTGGAACATAGTGGGTCTCGATTTGTGTGGTCTCTACGCCAGCCTTCGTCAGAAGGTAAGTTTAATCCAGTGGATTATGTTGACATCGGAGAAGATTTTCCAAATGAGTTTCTCGAACGAACGGCGGGGATGGATAAGGTGTAAGAACCCGACCCGAATAGTGGTCCTAAACCTGGTTCTTACTTAGCATGCTTACAATTTAAAACATTTAAGGTAATATTGAAACTGATTAAATAAGAAACATGATAAAACAACTTGAAAAAAAGCATTCATTCAAAAACTTCCATAAATAGATCCTGGCCAGTATTCAAAAGTTTAAAAACAATTAAAACAACTTCTCAAGTCAAAATAGTTCCCCAACATGCTAACACAGAAAGAAAGACTCAACAATAATAAACGACAGAGTAACACCAACAGCTCCCATGATTAATCAGCTCCGTCCATTAGCCGTCCCGGTGTTGTTCCAAGTTACCAGGTGGAAAACCATAGAAAATAAGGGTAAGTACGAAGGTACTCGTAAGAATCCCCAACCGAGGTACAATACGATACATAAATCATCTAGCATCCTAGTATACATGTAAATAGTTACCAACACAGATCTTTGCTCAACGAGCTACAAGAAAAGTCCAAAATCCTTGGAAGTTTCCTACTTTAGGCCTAATGATCAACTGTAAATATCTTATCTCATACTGAGGGGACAAAGTGCGTTATGTCCAACCTAATGGTACAAATTGTATTATGTTAAAGCAGATGGGACAAAGTGCATTATGTCCAAACTGTGGGACAAAGTACGTTATGTCCATGTTGATCCTATGACGAATAGGAGAGTACCCAAAGTCTGGCTCTAACTGGAACGATATTGGTGTACTCACGAACATTAGCCCGGGGGAGCTCTCCGAACCGGCAACTAACGCATGTGTGCGCACACCGCATGCTACTGTAAACCGCGTAAATGTGGGGCCTAAGGACAAACTACACCGGTCCAGGTACGCATGCCTAAAGACTCGGAAGCGGTGTCACTGATCTACAGTAGTGCGAGGCCTTCGGAACTCATCTATAGCAGCCTGTACCAACCTGAAGCTAAGAACTGTCTCTGGGCAGGCTTGCACCCATGACGGGTTTTGCTCTAGCAGGCTACAAACTAGGCTTATACCGATGCGGGAGCTAATCCGCACCGGCTGCTGGGGTCGGAAGCAAGGTAAGTTATGCTTCTTACTGATCCCGACCTGTGGGGACAAGATACGTTATGTCCGCTCTTAGCTTCTAGATGAAGACAATCTAACTAATCTGTCTAATATCACAAAGTAACGATTCCTAATAGTTCTAACATGCTCATCAAGTATACAAATATCACCTATCATGATACTACAAACTTAAAGCAGAAATCACAGAAGATGCTGGAAGGACAAACCTAGCATGACACTAACATGTAGAAACAAGATAAACATGGTAGCAGAGATAAACAACAAAGCAGTCCTATCGACTAACATGCTCATAACAATTAACACATATACAAAATGAAATCAATACATAACGCAAGGTCCACACAACCTTGGTAAGAGATCCTTACCTGGAATAAGCAGAAAACAATAACAGTAAAGTGCTCCTTGAGCTGCAGTGTCTCACAACCTAATAAAGCATAGCACATAAAATTAAACCTAGCTAGCTAACAACCGAACTATAAACTAGAAGTAAGGGATCCAAGAAGCTACCCCTACTTGCAACCTAGTGCTCTCGGCCAAGCACTAAGGAGAAAGTCTAGGAGCTCTCGGCTTCCTCTTGTAAAGTGGTCTCGGCTAGGGCATCACCACAACAACAACAAGTTAGCTTTCAGTCCAAGGGAACACAACACACACTTAGCTACCAAGTAGCTCTCGGCCAAAGGGAAAGCAACACCAATCTTGCTACTATGTAGCTCTCGGCCAAACCAACACAACAAACAAATCAACACAACAAGCACAACAAGCTCACCTTGATGATTCGGCAAGGGCTCCAAGGATGCAAAGGTATCTCGGCCAAGGAACTCAATGATGGTCTCGGCTAGGGCTAGTTTTGGACAAAGGAGAAGAGTCTTGGTTAGATCTAATCAACCACACAACAAATCAAAGCCAAAACACCAACAAACTCACCTTGAAGCTCTCGACAATGGAGGTTGAAGGAGGAGTGAGATCTCGGATTCCACCAACAAGGAGAAGAACAAGAGATTTTGAATGCAAGCAACAGGAAGAGATCTTTGAACCCAAGTGAAAGGAGCTCTCGGATCCACAAGGAGAAGAGAGGAAAAGTTCCTCTTGGTTAGATCCATGGATTCGGCCAAGACAAGCTAAGAGAGATGGAGAAGAAGAGTTTGGCAAAAAACTAACCTTGGAGCAATCCTCAAAAGCTTGAAGCAAGAAGCAAGGACCTATGGAGCTAAGGAGGTGATCTCGGCCAAGAAGAAGAGAAAAAGGGGAGAAGAGTGGGTCGGCCAAGGGGAAGGGAAGGAGAAAAGACAAAACCCTATTTTGTTTTCTTATTTTAAAATGTTAAAATGCTGCAAAAAATCCCATCTTCAAATCCTAGCTTGAAAACTTTTAAAATCCTTTTTAATTCTCCTTCCTTTAGCTCAAATCCATCCTCCAAACCACCATGGTTCGAATCCTAGCTCCAACACAAATTATTCTTATTTTTCTCTTTTAACCGGAAAGCCTCCAAACTTCTAAAAAATGCATTCCATCTACGGGAGCCTGAAACCGAAGGATAATTGAAGTCATCAAATGCCAGAAATAGCCCTGAAACCCTGGTTAACTGAGAAACCGACCTGGAGGGGAAAATGACCAAAATACCCCTAGAGGCTTAAACAGCCCAACAACTGACTGAAGAATCAATCGAACGTACCTGGAGAACCGAAAGGAAAACCTAGGTTGTTACAGAAGGTCATTGGTTGGGCACTGCAAGTGGAGATATTGGCCCATTCGGCAACGGGTGGATTCTTGTCGCATTGTGGTTGGAACTCGACGCTTGAAAGTGTGTGGCATGGTGTGCTAATGATCACATGGCCGATGTATGCCGAACAACAACCGAATGCATTTGAGATGGTTGCGGAGTTGGGTTTGGCACTGAAGATGGTGTTTGATTATGATTTTACCAAACCAAGATTGGTTAGAGCAGAAGAGATTGAAAGTGGGATTAGAAGAGTAATGGAGGATGAAGGGAAGATAAGGGAGAGAGAAAGCTAAAAGTGAAGAAAGTCGAACAAGTGTAATGGAAGATGGATCTTCCTTCATCTCATTAGGCCGTTTTATAGATGACATTTTTGCTAATACTCAACGAGATGAATGATCTAATTTCATGAGTTTAATACAACGAACAAGCTATTTTATTTTGTTGAGGTAAGAATAATTCTTCTACTTCCGGCGAGTAATAATTTAACTAGTTTAGTCTTATAACAATTTTCATATCTCCATTATTTATAAAAAAAATAGAATTTAGTCTGTTATAATTTAAAAAAATAAGAGACCTCTTTAAAGATATTTATGTTAGTAGAGACAAACATGTTACATACAAAATCATATGTTTGTGAATGAGCTACCAATAAGGTAGTAGTTTTAAGCTCGTTAAAATATTATTTTGGTCTCTAGAATTTGAATTTTATTTATTTTGATTCTTACGTAAGTGTCTAAAGTTTTATTTTATTTTGATTCCTACATAAATGTCTAATTTTGGTCCATATTCTTTAAAAAAAAAACACTACTAGAAGGGGACTTTAAAAAAAATAGTTAAGCTTGAAAATGTATCAAATTAGTCTCAATAATAAATTTAAACTTAATCTTAATCAAAATTGGTTCGATAATGTTAATATTTTTAATACAAAGCAAAAACAAGATGTAAACCTATTTTAAAATTTATAGAGAACGATGATAAATTTGTAAATAAAAATTAACAAAATTTCTTTTTCAATAAGGACTGATTTTGAATTTTCTAATAAAGTACTAAAATTAAATATTTGAAAGTTAAAAAACAATGAAATAAATATGAAAGTTTATGGACCAAAATAAATTTAAATTAAAAATTCAAAGACTAAAATTAGAAATTTGAAGGTCTCCGGACCAAACTGATATAAAATTTAAAGTTAAAGAATGAAAATATAATTTTAATGATTTGAGTACAACCACCGTTAAGAATGGAAAGATTCCTACTCATGGCACTCAACTTTTTGATGTTTGGATGCTGCTCTTTTTTGTAAGAAAATAAAAGGGAAAAATGATTAGTTGTAATGTTCCATTCATTGTAAAAAAAAAAAAAAAAAAAGAAAGAAGAAGAAAAGATTCCATTGTTTGTAGGAATTCTTTTTGAGAAATATTTAATTCAGGTTCATGCGTCACTTAAATATTAATGGTCATTTATATGATCGTTACTCAAAAAAAAAAATATATGATCTAATATGAGTCATATTCTTTTTTTATTTTTATTTTTTAGGTTTAAAACTTAATCTTCCTTAATATAAAGGGAGGAGAACAACAAACTCGGTATAAAAGTCTCAAATAAATAAGAGTCAAATACCGATTTTCGGAATCAAACCTATGACTACAATGTTGAAATGATATACAACTATATAATAAAATCATTGTACTATCGATCCCTTCAATATCTCTTCAATTTTTGTTTGTTGCGTCAAAAGATAGAAATAGGATAGTGCATAGGGAATGCATCTCATCAATTTAGTTTTTATTTATTTATTTAAAATAAAAATCCATGTCAATGACAAAATTAATATATTAGAATTTAATGTTAATCTATTATCATCCTCATCAACATAAAGTTATGACAAGTTACTTTATCTTAAGAATCAAAATGAAGTATTATTTGGTAAAATTGTTTGATTTTGAAAGATAAAAAGGAAAAAAAAGAAAAAAAGAAAAATGAAAACTGCACCACATGTATGGTTAGTAGGTAATATAAATTTCAAAACACTTGGTTCATTCATTTTCCTTCCTTCCTGTCCCTTTCTACCAAATACAAATTTTGTTTTTCTTTCCTTCTCACTATAGCCAAACATGTCCTAAGTAAAGTCAAGTTAACCAAATTGATGTGGTTTTTCTTTTGTTTGTCCATTATGTTGTGGTCTTCATTTATACATTTACATTTCTTCCTATGCACACGCACTCAATGAGCTCACCACTATTCTTCTTCATGGACATAAAAGCCAAACCTAAATCCACCTCACATAATTCACACTTCATTTCATTTCTCCATCTCTTTTTTCTTCTCTTCACAAAACTATGAAGAAATTCGAGCTGGTTTTCATCCCTGGACTAGGGGCGGGTCACCTCCTCCCCAACATCCCAATCAAAATTTCCTCTTGAATCTAATCCACATCACCGAATCCTACAAGTCCTCTGTTAGAGAAGCTATTCTCACCAAACTCAAACATCGTCTCCTTGGATTTGTAGTAGACTTGTTTTGCACTACCGTGATCGATGTGGCTAACCAATTTCGAGTTCCTTGTTATGTATATTACACGTCAAACGCGGGATCTCTTGCTGTTTTGCTTGCTCTTCAACACATTTACGATCGGAGTAACAATATGTACGATGGGCTGAACCAACTTCAAAGCTCGGATGGGGAGTTGGCTGTATTGGGCTTTGTTAATCCCATTCCTTGTAAACTCATCCCTAGCTCTTTTATCAATGACGAAACCGGTGCTTGGTGTTACAATGCTGTTAAAAGAATTAGAACTGAATTCAAAGGTGTTGAGATGGAACCCCATATCTTAAACTCCATCACAAGTGACTCTGCTTCACAATTCCCGCCTCTGTTTCCAATTGGACCTATTTTGCACTTGAAAAATACTGCACTTGAGGGTGTTGATCGTGCTGAGATATTGAAGTGGCTCGACCTTCAGCCTCCATCCTCTGTCATTTTTTTGTGCTTTGGGAGTATGGGGAGCTTTGAAAAGGAACAAGTGCAGGAGATTGCACGTGCATTGGAGCATAGTGGGGCTCCATTTGTGTGGTCCCTGCGCCAGGCTTCGTCAGAAGGTAAGTTTAATCCAGTGGATTATGCCGACATTGGAGAACATTTGCCAAATGGGTTTCTCGAACGGACGGCGGAGATGGGGAAGGTCATTGGTTGGGCGCCACAAGTGGAGATATTAGGCCACTCGGCAACGGGTGGGTTCGTGTCGCATTGTGGTTGGAACTCAACGCTGGAGAGTGTCTGGCATGGTGTGCCAATGATCACGTGGCCGATGTACGCCGAGCAGCAACTAAACGCATTTGAGATGGCTGTGGAATTAGGGTTGGCAGTGAAGATGATGATTGATTATGATTTTACCAAGCCAAGATTGGTTAGAGCAGAAGAGATTGAAAGTGGGATTAGAAGAGTAATGGAGGATGAAGGGAAGATAAGGGAGAGAGTTAAAGCTAAAAGTGAAGAAAGTCGAACAACTGTAATGGAAGATGGATCTTCCTTCATCTCAGTAGGCCGTTTTATCGATCACATTTTTGCTAATACTCAATGA ATGGCTAATGTTGTTGTCACTCGAGATCCTCGTCTTTGTGTCACAATGCTCATTCACAACCTACCCTTCGATAACAAAGCCGACCAACAAATTCAATCCATCTTTGCAGCTTTTGCTGATAAACCCATAAGCTTTATTGTCCTCCCTCAACAGCCCCCTCCCCAACTTCCCAATAAAAAATTCTTAGAAGCTATTCTCACCAAACTCAAACATCGTCTCCTTGGATTTGTAGTAGACTTGTTTTGCACTACCGTGATCGATGTGGCTAACCAATTTCGAGTTCCTTGTTATGTATATTACACGTCAAACGCGGGATCTCTTGCTGTTTTGCTTGCTCTTCAACACATTTACGATCGGAGTAACAATATGTACGATGGGCTGAACCAACTTCAAAGCTCGGATGGGGAGTTGGCTGTATTGGGCTTTGTTAATCCCATTCCTTGTAAACTCATCCCTAGCTCTTTTATCAATGACGAAACCGGTGCTTGGTGTTACAATGCTGTTAAAAGAATTAGAACTGAATTCAAAGGTGTTGAGATGGAACCCCATATCTTAAACTCCATCACAAGTGACTCTGCTTCACAATTCCCGCCTCTGTTTCCAATTGGACCTATTTTGCACTTGAAAAATACTGCACTTGAGGGTGTTGATCGTGCTGAGATATTGAAGTGGCTCGACCTTCAGCCTCCATCCTCTGTCATTTTTTTGTGCTTTGGGAGTATGGGGAGCTTTGAAAAGGAACAAGTGCAGGAGATTGCACGTGCATTGGAGCATAGTGGGGCTCCATTTGTGTGGTCCCTGCGCCAGGCTTCGTCAGAAGGTAAGTTTAATCCAGTGGATTATGCCGACATTGGAGAACATTTGCCAAATGGGTTTCTCGAACGGACGGCGGAGATGGGGAAGGTCATTGGTTGGGCGCCACAAGTGGAGATATTAGGCCACTCGGCAACGGGTGGGTTCGTGTCGCATTGTGGTTGGAACTCAACGCTGGAGAGTGTCTGGCATGGTGTGCCAATGATCACGTGGCCGATGTACGCCGAGCAGCAACTAAACGCATTTGAGATGGCTGTGGAATTAGGGTTGGCAGTGAAGATGATGATTGATTATGATTTTACCAAGCCAAGATTGGTTAGAGCAGAAGAGATTGAAAGTGGGATTAGAAGAGTAATGGAGGATGAAGGGAAGATAAGGGAGAGAGTTAAAGCTAAAAGTGAAGAAAGTCGAACAACTGTAATGGAAGATGGATCTTCCTTCATCTCAGTAGGCCGTTTTATCGATCACATTTTTGCTAATACTCAATGA ATGGCTAATGTTGTTGTCACTCGAGATCCTCGTCTTTGTGTCACAATGCTCATTCACAACCTACCCTTCGATAACAAAGCCGACCAACAAATTCAATCCATCTTTGCAGCTTTTGCTGATAAACCCATAAGCTTTATTGTCCTCCCTCAACAGCCCCCTCCCCAACTTCCCAATAAAAAATTCTTAGAAGCTATTCTCACCAAACTCAAACATCGTCTCCTTGGATTTGTAGTAGACTTGTTTTGCACTACCGTGATCGATGTGGCTAACCAATTTCGAGTTCCTTGTTATGTATATTACACGTCAAACGCGGGATCTCTTGCTGTTTTGCTTGCTCTTCAACACATTTACGATCGGAGTAACAATATGTACGATGGGCTGAACCAACTTCAAAGCTCGGATGGGGAGTTGGCTGTATTGGGCTTTGTTAATCCCATTCCTTGTAAACTCATCCCTAGCTCTTTTATCAATGACGAAACCGGTGCTTGGTGTTACAATGCTGTTAAAAGAATTAGAACTGAATTCAAAGGTGTTGAGATGGAACCCCATATCTTAAACTCCATCACAAGTGACTCTGCTTCACAATTCCCGCCTCTGTTTCCAATTGGACCTATTTTGCACTTGAAAAATACTGCACTTGAGGGTGTTGATCGTGCTGAGATATTGAAGTGGCTCGACCTTCAGCCTCCATCCTCTGTCATTTTTTTGTGCTTTGGGAGTATGGGGAGCTTTGAAAAGGAACAAGTGCAGGAGATTGCACGTGCATTGGAGCATAGTGGGGCTCCATTTGTGTGGTCCCTGCGCCAGGCTTCGTCAGAAGGTAAGTTTAATCCAGTGGATTATGCCGACATTGGAGAACATTTGCCAAATGGGTTTCTCGAACGGACGGCGGAGATGGGGAAGGTCATTGGTTGGGCGCCACAAGTGGAGATATTAGGCCACTCGGCAACGGGTGGGTTCGTGTCGCATTGTGGTTGGAACTCAACGCTGGAGAGTGTCTGGCATGGTGTGCCAATGATCACGTGGCCGATGTACGCCGAGCAGCAACTAAACGCATTTGAGATGGCTGTGGAATTAGGGTTGGCAGTGAAGATGATGATTGATTATGATTTTACCAAGCCAAGATTGGTTAGAGCAGAAGAGATTGAAAGTGGGATTAGAAGAGTAATGGAGGATGAAGGGAAGATAAGGGAGAGAGTTAAAGCTAAAAGTGAAGAAAGTCGAACAACTGTAATGGAAGATGGATCTTCCTTCATCTCAGTAGGCCGTTTTATCGATCACATTTTTGCTAATACTCAATGA MANVVVTRDPRLCVTMLIHNLPFDNKADQQIQSIFAAFADKPISFIVLPQQPPPQLPNKKFLEAILTKLKHRLLGFVVDLFCTTVIDVANQFRVPCYVYYTSNAGSLAVLLALQHIYDRSNNMYDGLNQLQSSDGELAVLGFVNPIPCKLIPSSFINDETGAWCYNAVKRIRTEFKGVEMEPHILNSITSDSASQFPPLFPIGPILHLKNTALEGVDRAEILKWLDLQPPSSVIFLCFGSMGSFEKEQVQEIARALEHSGAPFVWSLRQASSEGKFNPVDYADIGEHLPNGFLERTAEMGKVIGWAPQVEILGHSATGGFVSHCGWNSTLESVWHGVPMITWPMYAEQQLNAFEMAVELGLAVKMMIDYDFTKPRLVRAEEIESGIRRVMEDEGKIRERVKAKSEESRTTVMEDGSSFISVGRFIDHIFANTQ Homology
BLAST of Sed0010142 vs. NCBI nr
Match: XP_022141873.1 (anthocyanidin 3-O-glucosyltransferase 2-like [Momordica charantia]) HSP 1 Score: 497.3 bits (1279), Expect = 1.4e-136 Identity = 257/464 (55.39%), Postives = 329/464 (70.91%), Query Frame = 0
BLAST of Sed0010142 vs. NCBI nr
Match: AEM43004.1 (UDP-glucosyltransferase [Siraitia grosvenorii]) HSP 1 Score: 488.0 bits (1255), Expect = 8.2e-134 Identity = 255/466 (54.72%), Postives = 329/466 (70.60%), Query Frame = 0
BLAST of Sed0010142 vs. NCBI nr
Match: XP_022153677.1 (anthocyanidin 3-O-glucosyltransferase 2-like [Momordica charantia]) HSP 1 Score: 488.0 bits (1255), Expect = 8.2e-134 Identity = 255/460 (55.43%), Postives = 329/460 (71.52%), Query Frame = 0
BLAST of Sed0010142 vs. NCBI nr
Match: KAG7024673.1 (UDP-glucose flavonoid 3-O-glucosyltransferase 6, partial [Cucurbita argyrosperma subsp. argyrosperma]) HSP 1 Score: 485.0 bits (1247), Expect = 7.0e-133 Identity = 245/457 (53.61%), Postives = 321/457 (70.24%), Query Frame = 0
BLAST of Sed0010142 vs. NCBI nr
Match: KAG6591795.1 (Pentatricopeptide repeat-containing protein, chloroplastic, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 475.7 bits (1223), Expect = 4.2e-130 Identity = 243/457 (53.17%), Postives = 316/457 (69.15%), Query Frame = 0
BLAST of Sed0010142 vs. ExPASy Swiss-Prot
Match: D3UAG1 (UDP-glycosyltransferase 71A16 OS=Pyrus communis OX=23211 GN=UGT71A16 PE=1 SV=1) HSP 1 Score: 382.5 bits (981), Expect = 6.4e-105 Identity = 214/461 (46.42%), Postives = 294/461 (63.77%), Query Frame = 0
BLAST of Sed0010142 vs. ExPASy Swiss-Prot
Match: D3THI6 (UDP-glycosyltransferase 71A15 OS=Malus domestica OX=3750 GN=UGT71A15 PE=1 SV=1) HSP 1 Score: 380.6 bits (976), Expect = 2.4e-104 Identity = 211/461 (45.77%), Postives = 296/461 (64.21%), Query Frame = 0
BLAST of Sed0010142 vs. ExPASy Swiss-Prot
Match: Q66PF3 (Putative UDP-glucose flavonoid 3-O-glucosyltransferase 3 OS=Fragaria ananassa OX=3747 GN=GT3 PE=2 SV=1) HSP 1 Score: 379.0 bits (972), Expect = 7.1e-104 Identity = 216/463 (46.65%), Postives = 293/463 (63.28%), Query Frame = 0
BLAST of Sed0010142 vs. ExPASy Swiss-Prot
Match: Q2V6K0 (UDP-glucose flavonoid 3-O-glucosyltransferase 6 OS=Fragaria ananassa OX=3747 GN=GT6 PE=1 SV=1) HSP 1 Score: 375.9 bits (964), Expect = 6.0e-103 Identity = 206/459 (44.88%), Postives = 289/459 (62.96%), Query Frame = 0
BLAST of Sed0010142 vs. ExPASy Swiss-Prot
Match: Q6VAB2 (UDP-glycosyltransferase 71E1 OS=Stevia rebaudiana OX=55670 GN=UGT71E1 PE=2 SV=1) HSP 1 Score: 352.4 bits (903), Expect = 7.1e-96 Identity = 198/456 (43.42%), Postives = 291/456 (63.82%), Query Frame = 0
BLAST of Sed0010142 vs. ExPASy TrEMBL
Match: A0A6J1CLT2 (Glycosyltransferase OS=Momordica charantia OX=3673 GN=LOC111012128 PE=3 SV=1) HSP 1 Score: 497.3 bits (1279), Expect = 6.6e-137 Identity = 257/464 (55.39%), Postives = 329/464 (70.91%), Query Frame = 0
BLAST of Sed0010142 vs. ExPASy TrEMBL
Match: A0A6J1DJL2 (Glycosyltransferase OS=Momordica charantia OX=3673 GN=LOC111021099 PE=3 SV=1) HSP 1 Score: 488.0 bits (1255), Expect = 4.0e-134 Identity = 255/460 (55.43%), Postives = 329/460 (71.52%), Query Frame = 0
BLAST of Sed0010142 vs. ExPASy TrEMBL
Match: K7NBW4 (Glycosyltransferase OS=Siraitia grosvenorii OX=190515 GN=UDPG7 PE=2 SV=1) HSP 1 Score: 488.0 bits (1255), Expect = 4.0e-134 Identity = 255/466 (54.72%), Postives = 329/466 (70.60%), Query Frame = 0
BLAST of Sed0010142 vs. ExPASy TrEMBL
Match: A0A6J1CLU5 (Glycosyltransferase OS=Momordica charantia OX=3673 GN=LOC111012136 PE=3 SV=1) HSP 1 Score: 474.2 bits (1219), Expect = 6.0e-130 Identity = 247/463 (53.35%), Postives = 324/463 (69.98%), Query Frame = 0
BLAST of Sed0010142 vs. ExPASy TrEMBL
Match: A0A6J1FDX8 (Glycosyltransferase OS=Cucurbita moschata OX=3662 GN=LOC111443204 PE=3 SV=1) HSP 1 Score: 470.3 bits (1209), Expect = 8.6e-129 Identity = 239/453 (52.76%), Postives = 315/453 (69.54%), Query Frame = 0
BLAST of Sed0010142 vs. TAIR 10
Match: AT4G15280.1 (UDP-glucosyl transferase 71B5 ) HSP 1 Score: 334.0 bits (855), Expect = 1.9e-91 Identity = 191/460 (41.52%), Postives = 273/460 (59.35%), Query Frame = 0
BLAST of Sed0010142 vs. TAIR 10
Match: AT3G21780.1 (UDP-glucosyl transferase 71B6 ) HSP 1 Score: 332.8 bits (852), Expect = 4.1e-91 Identity = 181/373 (48.53%), Postives = 243/373 (65.15%), Query Frame = 0
BLAST of Sed0010142 vs. TAIR 10
Match: AT3G21760.1 (UDP-Glycosyltransferase superfamily protein ) HSP 1 Score: 332.4 bits (851), Expect = 5.4e-91 Identity = 178/373 (47.72%), Postives = 237/373 (63.54%), Query Frame = 0
BLAST of Sed0010142 vs. TAIR 10
Match: AT3G21790.1 (UDP-Glycosyltransferase superfamily protein ) HSP 1 Score: 321.6 bits (823), Expect = 9.5e-88 Identity = 194/470 (41.28%), Postives = 281/470 (59.79%), Query Frame = 0
BLAST of Sed0010142 vs. TAIR 10
Match: AT3G21750.1 (UDP-glucosyl transferase 71B1 ) HSP 1 Score: 312.0 bits (798), Expect = 7.5e-85 Identity = 176/459 (38.34%), Postives = 268/459 (58.39%), 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
The following mRNA feature(s) are a part of this gene:
GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
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