Sed0016461 (gene) Chayote v1
|
Overview
Sequences
The following sequences are available for this feature:
Legend: exonfive_prime_UTRpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below.ACAAAATATGAACCAATCGTTATTGAGTCGATTGCAGCTGAAGATCTGATCGTAGAATCCTCTGCTCAAAGATTACGAAGGTTTGGAAACTATCGCGTTCTTATTTCTTCCTTCGATTGCTCGATTTCTCTGAAATTTGTGTTTCTCTACTACGATTTCGATTTTGCTATAAATTTCATCCGTATTGATCGAATTGTTGGAATCTGATTCAATATATATGGAGTAGGTTTATTTTTCATCCTATAATTGCAAGTTTCTGCAGTTTTTGAGGTTGTGAGTATGAAAATTTTTGTTTGATCTTACTTAGACTGCGTGGATAACAGGAGCTATGGATCGGATTAGACCGGTACATACTCGACATAAAAGTAACTCGAGCACTCCATTGGGTCCGGGATCGCCATTGGTGTCACCGTTTCCCAGCCATGGGCGATCAGGCTCAACTGGCGTCGCGAATTCGAAGAGAGGGCAGAACAATGCAACGAAAGCTGCAGCGCAAAGGCTTGCAAGAGTGATGGCAAGTTCAGCTGATGATGAGGATGAAGATGATGATCTTTCTTTTGATTTGAGTTTGGCGAGTGGTACAGGGAGCATTGGACTGGCAAGTGGAAGACCAGCCAGATCCCGCTCTCCCATGGTAACTGGCGTGTTTTAGTTATCTTATATTAGTTGGGGCTTGCATGACATTCTGTTTGTTATTATGTTTGTGTGTGTGACAGTTCAGGCATGATTTATTATGAAGGCTAGTGGTCGTTAAGTTTCGGGTAGAGCTTGTCGCTTAGATACATTTTCCTTTTTAGCTTCGACTTTCGCCTTGGTTTTTTAAATAAAAACTATTTTAGATTGGAGAATTTGAACTCATAACCTCTTGATTATCAGATTATACATCATGTAAGTAGCTCTTTGTGCCTTCAACTTTCTCCTTGTAAAGCTCTAATTGAAGTAAACAATTGATAAAACGCCATAAAACGGGACCCATGAGTTGAACTTGATTATAAAATTCATTATTATCTTTTAAGGTCGGTCCAGGTCTTTGAACGGGCGCGGCGCCCTCAGTTATAGGGGTGTGAAAGTTTCAATTCCTGTCATAAAAAAAAAAAACGCCATAAGATGGGACAAGTCCCATATTATTCTCTTTATGTCAATCGATAAAGATGGATTGTGTCTCATCTTAAAATAATCTCTCTTTTTTTATTGAGTAATCTTTTTTACAATATGCGGGATGGAGAATTGAACATCTAATCTTGAGGTTGTTAGTATAAGATGTCGGTTGAGCTATGCTCATTTTTGCCAATCTTAATAGGATCTAATTCGTTATTTTGTAGTATTTTGATTAGTCATAAATTTCAATACTGGATTAATATTTTAGTTCTTAAAATTAACGGTACATAATCTGAAGATATTTTGAGCATTTAGATTGGGCAATTTCCCTGTCACTTTCTTTCACTTCAATTGCTCATTTGCATTATTTTATATAATCATTTTAGCCATCTGTGTTAGACTATTAATAAAAGTGATTTTCATTGTATACTTGCATATCTAATACACGCTTAAAATTTATATACAGCCATCTGCTCGAACTACTCATGAACCTACTTCTGGACATGCGGTTTCTGCCGGTCGAGCATCTCCAACTGTAAACCATACCGAGCAACCAATGTCGGGTCGTACAACACTAGGATACCGATCATCTCATTCTGATACTAATGTCGAACAACCTCCTCGCTCTTCAACGCCTAGTCGATCATCCCAGCTTGCCAACTCAACAGAGCAACCTCCATCTAGTCGTAGTCGTCCAAATTTAGGAGCCAAGTCAGTTCCAATTGTACCTTCTTCTGTATCTATATCACTTAAACCAGCATTGTCAATAACTCCCAAAGAGAGTCAATCTGATTCCAGAACATCACTTAGATCAACCTTGCCTGTCACTCCAAAAGAAGGTCAATTTGATATCAAAACGTCACTTAGACCAACCTTGCCCGTAACTCCGAAAGACGGCCAGTTTGATTCTAAAATATCTCTTAGACCAACCTTGCCCGTAACTCCGAAAGATAATCAGTTTGATTCTAAAATATCCCTTAGACCAAGCTTTCCAGCAACTCCAACCGAGAGTCAGTTTGACAGCAAAAGAGATAAGAGGTATTAGACAACATATTCTATATATACTTATCATAAACATGTCATTTTTTTTTTGTTAATATGCTAAATTTTCAAGCAGAGAAGCACCATTCTTATGGATAGCTATCCACCTACAACTTAATGTTTGATAATCAACTAAAACATGTGATCATCTCGGGGACTTGATAGTGCGTACATTTTATGTTGATAGCATTTGTATTTGAAAGTCACATGGTGATTGTTTAGTCCAGCACTGTGGTTTTGGGTACTATAAAATGCCTGTTAGGAGTGTGGAATTTTATTGGTTTGTAAATGTGTTTGTTTTGTAAGTTGAGAGTAAGAACCTCTTGGTATTATCAATGAACTTTGATTCAACTAGCTTCTCGTATCTAGCTAAATTTTCATTTAAAGATTTAATTCTGGTGTCTGCACATAGTGTGAAGTCAAAGTATATCATGTCGCTAATATTTCCTGCTCAAACGTCTATTCCATGATCGTGCTGGTCCTTGAACAGGTTGTCTTTGGATATGGGAAGCGTGAACTTCAGAGAAACTAGCAACAACCAGCCATCTAGTTCTGCTTTACAAGATGAGGTATAACCTTTACGGCCTATTAGAATCAAAGTTGAGCTCCTTAAATCCATACAAGATTAACACATCAATTTACTATCATTCACATTAATGTCTTTACCTGACCACAGTCATATGTTCCCTCTGCTGACTCAGCTAGTGTAGAAACAAAGTAGTCCCACATTAGCTAAATACGGAAAGATCATGGGTGTATGAGTAACGACAACCATTTCCATTAATATAAAGTCTTTTGGGTGAAACCAAAAGCAAAGTCACGAGGGCGTATGTCCAAAGTGGATAATATCATACTAATGTGAATATTTGACAAGTACCGAACAAAGAAATTAGGAGCCCTGGTGACATAATCATAGTGGAGATCTATGGTTGAGCTTGGATTGGCGATGTGCTTCTATAAAGGAGTTGGCCAAAGGTAAGAGCTTGATATATAGATGTCTATTTGAAGGGGAGGCTCGGTGGTACTTTAATTGAAGTGAGGAAGGTTTGGAATACAAACAAGCTTGATGTATTCATGACTATTTGAAGGGGAGGCTTGGTGGTACCTTATTTGAGGTGAGGATGGTTTGGAATTCAAAAAAAGTAGTCTCATGTTGGCTAAATAAGAAGAAAATTATGGGTATATGAGTGAGGACTACCATCTCAAGTGATATGAGATCTTTTGGATTAAACTTAAAGCAAAACTATGAGAACGCATGCTCAAAGTGGACAATGTCATCCCAATGTGGAGATTGGTCGAGAGTCATTGTCCCTAACAGCTAGCTGGCTGGAATAATCCAAATAAATGAACTTTTTTTTTCACGTGAAATGTATCTGCTATTTTAGTGGTCTACTGGTGTAGACTTTTTCAGAGAGGAATTAAAATTTTATGTGCTTCTTGTGCTGAGTTTTCTCTTTTGTTAATAATTTAAAATCACGTTGTCGTGCTTAGTTTCAATTCCTTGTCCAAACTTAGATATTTAGAAAATTGTATAAAGAATTGGTTCTTCAAGATTTTGCTAATGATGGTTATGATGTTGGTGCAGCTTGATATGGTACAGGAGGAAAATGAAACTTTACTTGAAAAGGTGATGCCAACAACTTTTCTGGTTCTTCTTATGCGACCGTATTGGCTGTTTCTTGTAGAATTAGTGTCCTCAGTTCAACAAGAACACTTTATACCTGTTACGGAACAATTCTGTTTTCAAAACCACTGTTTTGCTCATTTGTTTTTGTTAAGAAAGCATGTTCAGTGCCTAGACGCTTTCGAAATTACTTAGCTCATAGTCTTTCTAACCTAATGCATGCACAACACATAACCCCAGTTATGACATAGCATTGATGTGAAAGTGCTTTTTATTTAGTTAATTTGGCATATATCTAATATGTGCCTCCCCAGCTTCGACTTGCAGAAGAAAGATGTGAGGAAGCAGATGCTAATGCCCGACAGCTTGAGAATCAGGTAAAAAGAATTAGCTGGATTTTATCTTCCAGTATTTGTAATAGTTATTCTTACTTAAAATACTCTGCTCATGTTATGGGAAAATACTAATTTAATATCTACAAAAACACTTTAAAGTATCGTCCATTTACTTCCATCTAGTTCTCTGAATTATCTGAGTTGCCATTGGATAGTCTATAGATTAATCGTTAGGAAACCGACAACAACAATAAAAAATAAAATTGTAAGAGAACCTGAGAGAAGAACACACAAACTACGGGCAGATGAGAGAATGTTTTTATTAAAAAGACTGCAAATACAGAATGTTAATCCTAGAGGACTAAGGTTTTAAGAGAGTTTATACAGTACACTCTCATAAAATCCTATTACATAATAGGCCAAATTACATAAAAGTCCAAGTACGAAAACAAAAACCTATTTAGAAAAGAGGCGACTGGGCAGCGAGACCCCGACTAAGGAAACTTGGGACATCAAATAGTTCAAGGCATATCTAACATTAATTCATGCCACCCCGTGTTAATAGTTCCCTTTTTCCTTTATCGTCCATTAACTCCCATCTAGTATGGTGGTTAGTATTTATGGTGTTTGTAGACATTGGAATTACTTGCGTTTCATCTGATGATTGTTTCCCAATATTAGATGACAATTTTTCTTTTATTATTTATACTACAAGAAATTTATCTATTAAAATGATTTTAGCGAATTTCTTTAAGCCAAGACCCAGAAAGTAAATTCTTTTGGTAGGGTATCTTTCTGACGAAGCTAACCAGATTGACTCTTTCCTAATAACTCTGTTGCTTAAGTGTGATATAGTCGATGACTCATTGTAGCATTACACTTCATAGTTTCAGCACACCTTTCTTTTATTGGTACATGAAATTTAATCTGTAGGTTATAGTGGTCGGAACATCCAAACATTGTCAAATAAATATTAATTTCTTCCAATGTACAGAGGTTTAAGTATATAAATGTGATTTTTAGGTTGCTATGTTTGGAGAAGGAGTGTCACTGGAAGCCCGTCTTTTGAGCAGGCTAGCTCCTGTCCTTTCTTTCCACTTGAAACTTGCAAGCCATTTCAGTTTTCACATGATCTAATAATTCATCATTGTTTTGCTTCCAGGAAGGAGGCAGCTTTGCAGCAGAGAGAGGTTAGTTTTACTACAACTGGCAATATTATCTATTTCTTTTTTCCTGCACAATTGCACTATGTGGGTTAATATTCAGCTGCTTCCATGGAAAGGACCATTAGTTTGAACTTTCCCGTTAACCTTTAAGTTGGTAGAGTGGCCGGGAGATCTCACTGCTGAAGTGTCCCAAGTCCCATTCATTAGTCTATGTGTTCATTTATTATGCTAGTGTGATTCCAAAGCTCCATGCCACACTTAAACTAGGATGTACCTTTTGAGTTTTGACACCAGGGAACCATGATAGAGATCAATGATCAATGACAATTGACAGTGTGGATGCTTGTTTGTTGCCAAAGCTGCATATTCTTAAGACTGTTCGATAACTTCATTTTTTTTTTCTTTTGAAAAATGGAAAATCGGAGCTTAGGTCCACTATACCTGGGGTAATCACGCCCTTCTCTAGTCCAAGCACCGAAAAAAATTTGAAGGAATGAAGACACATGAAATGTCTACAAATTAATATCACATGTGAATCTCGAACCTAGAACCTTGAGGAGAGCACACCTCTAAAGTCCAAGTACTTGATGTTATTAATTTCAGCAATTGAAAAATGTAAAAGAAAAATAAGTAGTTGAAGTAAATAATAATAGCAATAACTTGAAAAATAGTGCATGTATTTAGTGTTCTTACTTGTGCGGATGAATGAACCTTATTGGTTTTCTTTCTTAAAATGAGGACAAACGTTATAAAGTTGCAGTAACTGTCTTGTAAGACGATGACAGAGTTTTGAAGGTTAATCTTGATTTGCTCTGCAGAAAATAAGAAACTTGTAGTGGTGTATAACATGTGCTTGAATTCAGTTTCCGTATTTTATTTTTATAATTCAGATGTAAATAACTTGTTAGGTTAAATTATAAGTTTGGTTGGTGGGTCTATTTAATTCTAGTTCTTCAAAAGTTATTTGAAATATGACTTATACTTTCAAGGCTCTCTTTGGTCTCCTCACGCCCTTCAAATTTCTATGATGAGTTTAACAAGTCCATACGTTTTACTTCATTAGTGTAACGATTATTTCACTAAATTCCTAAACTTATTTGAAATTGATTAATCGTGTAATCCTTAAATAATGAATTGGTATACCATATAAATGTGGGGTTAATTACATTAATTTATTAGACTCGATATTGAAGTTTCGAGATGAATTCGAAACCTTAAGTAGCACTGGGACCAAATAAACACGACCTTGAAAGTTTTTTAAAGTACAGGGGCTATGACACAACTTAAAAAGTTCTGTGACCAAACTTGTTACTTACTTTCTGAGTCTGGCACTAGAAATAATCTTTTCATCTCTTTTTGTGGTGGTCTATTTATATTTAACCAAGGATTATGTCCTATATACGAGTGTTGCAGGCTGCTTTCAAGGTTGCATCACAAACTCATGGAAGCAAAGGTACTAATCATATTGCTGCACTTCAAACGGAAGTAGAGGTATGCAGAAGTTAAAACCAGTACAAAAGAAGTTATGTCCCACTAATATTGATATTGTTTGATGTGCTTAAAATATGAATGATCTATTGAATTTGACTCATGGGTACTTTGGCTCAGACTGCAAGGGATGAGGCAGCATCTGCTTTGGAGCAGTTGCACGAAGCTGAGGCTGAGTTGCAGTCGCTTAAGATTATGACTCATAGAATGATACTGGCTAAAGAAGAAATGGTCTGCAGTTCAAGTTTCAGAGTACTTACTTCCTTTCTGGTCTTATCTTAGGCATACTTGTCTGACATGCTTCTTTCATGCTAGGAAGAGATTCTTTTGAAGAGGTGTTGGCTTGCTCGATACTGGAACTTATGCGTTCATTACGGTGATTTTCTTTCTTTGGAACTTGTAGGGTGAAAATCTTGTGTTGTTTTGTTTTGAAGTTCCCAAACTTATGATATCTATATATAGATACCGTTGAATTATGTTAAATTACCAATCAACCCAAAAGCTTATGTCGATGGGTAGGGATAAATTTAATTATATCAACCAACGTTCTCCTTCGCTGGTGGGCTTGGAAATTTGAGAAATGCCCTGCAAGTGGAATTCAATTTTTATTTTGGGAGGAAATGACTTGGCATGGGCTCGAGCACACGACTTCTTGCTCTGATACCATGTTGAATTATGTAAAATCATCAATCAACCCAAAAGTTTAAATTGATAGATACGGGTAAATTTAATTATATCAACCAACAGATACCCTATTCCCTGCTGCAATGAATAGTCTCATCCCAAGAGTGAGATCTGCACCATAGAATCCTTTATCCACTTTGCTTTGAAATTAATCTGCAAGCTGAAAAGATAGATGTTGGGAAATTTCCTTATCTTGGTGGGACTCATTTCATGGACCATATAAACACTATTTTTTAATATTCATCATTCTTAATTAGAATAATAATGAACTAATTTTAGTGAGTTGTAAAGTAAATTCATCTTGCAAATGGTGGGAGATATCTAATATTTTGACGTTAACATCAGGCAATTAATGAAGTTTAGAAGCCTTTACCTATCTTGTCTGAAATATTCCATAAATAAATGTATTGGTTAAAACCTGTTATGATCTTGATTTCCAAGGTGATATATTAATAAAAATTCACACATTAAGGGGCATTATGGGATGGCTATTTATAGGAACCGAACAACGTAGATCATAATTGGAATAAGCAGCTTGTTCAATGGGCCTTCCCAGCATGTTGAAGTTTTGGGTGTGTAGTCAATGCCCTTGTATGTAAAAAATGCTTGTTCATTTTCAAACACAACTAGAACTATTAGCTTCGTAACTTTTCTTTTTGCCTCGTGCAATCTTTGCTCAAGTCATGGAGACAATTAATATCTTCAAAGTTCTTTTTTCAAATAAAAAACTTGGCAGGTATTCATGCTGAAATCGCTGGTGCAAGATCTGAATACTGGTCATCTTTTACTTCGTCTCCTGTTGAAGTTGTATTGGAAGCTGGAAAGAAAGCTAAAGAGGGGACAGGTAAAAGTAAAATTCTTGTAAGGGAAAAAAAATGTTTAACATCTCTCTCTCATTTTTTCTATGTTCTTTACACCTATATGTGGATCAAGTTCATTGATGTTGTTACATTTTCATATTATTATCAGCAATCGATGATTTGGTGGACAGAGAAAATGAACTTTCAAGAGAGGCAAATGTCGAGAGCATGCTTTTAGTGGAGAGAGGTTTACGGGAGCTTGCTACATTGAAGGTTCCAGCTTTACTTATACACTTGCAAGTCTTGCCAATTCATTGTTTTATTTTTATTTTATTCTTCTAGATTTGCATAACAAAACAAAAATTTCCAGGATAGATAGTGTTATCTATTCAATGGATCCCAGAAACCCATCCTTTTAAATAAAGAAATAAAAACGAGATATTTATGCTAACGTATTAAAATAAATAAAAAGCAGGAGAATTGTACTCAGAAGCTAAAAAAAAGAGACAAAGGAGACTAAAAAGGAACATAAAGAAGAAGAAAACCACACACTAAGAACCTGGCCAAAGAACAACCCATGTAAATGTTGAAGCTCTAATACTACTTGAAGAAATTGGCACAAAAGTAGAAAGACAAACAATTGAAAAGAAAAATACTTCTATTAAGAAATTACAAAAATGGACTCTTTTGAGAGATTATTCTCTCACTCACTTCTTACTTTCAACTTTCACTCACCTTCCTCTAGCTTACTCTAGTTTTCTCTGGCTTTTTTCTTGCTCACCTTGGCTTATGAACACACTTCTATTTATAAGTATGAGATTCTTGGCTTGGAGCTCAGGCAAAATGATTCATTTAGGCTCTTCTTGGATCTTAAAATAACCCAGATATTTCTGTAAAGTTTATTCTTATCTAAAGAAACTCTCTAGAACTAATTGGCATGGGGAAAGCCAAGTCTTTAGGTCCTTTATTTTGTGACATCTATTTACAAAGTTCAACCTAATTGAAAAGGAGAGAGGAAAGGAATAGGAGACTCGAGGCAGCAACAGATAGGTTCTGTTTTGAGTTCCAGCAGCATCTAATTTGCAAGGGATACGAAATATAATATGTTTTTTCTCTAATGTTTGAATTTCATTAGATTGAACGTTGCATGAATTTCATGTGTATCTAATCTTAACACAAGAAAATAATGAAACATATTAAATTATACAAACATATTTTCTGAAAATGTATTAACAGCACGGCTCTGTGATTTGTATTCCGCTTTTGAAAAATGATTTATTAATTTGCTTATATCATGTCTGTAATTCTGTGTATGAAAGGAAGAAATATAATACACTTTTCAAATGTCTTAGTATGCATTAAATTGAATACTGCAGGAAAATCCATGTTTGTCTAAAACTTGCCAACAAGAGCAGTTGTTTAGTGGCATTAGTATACACTCGATGACCAAGAGGTCATAGGTTCAAATCCTCCTTCCCCATATTTTGTAATCTCAAAAAAAAATCTTCACACACGAAAGCAATGGAACATATTAAAAGATGCTAGTTCTTTTTTTTTTTTTTTTTTTGAAATCCAAAAGATACTAGTAAATTTCTCAAAATGTATTAACAAGTGCATCTCTGTCACTTGTATTTTGGTTTATAGAAAATAGTGCCAATTTTCTATATCATGCCTATAATTGTGTGCTTCTTCATTTATTGTAGCAAAAATTGTCTTGGGGAAAGCATAACGAGAGAGAGATGCAACTCTCTGGGTTAGTTTTAGTATATTCATATCATGGTCCATGAAAGGTTACCGTATAATTCAAGAAATATTTGTACAATGAAACAGAGTTTCATATTTTCTATATATACTATCAAGGCTGTTTTATTACCAATCCATATCTGTAAAATGATTATTCATACATAGCATTATATCATATCTGGTCTTAAATCTATCTTTAAGTATTCATATCAGCACTATATCTTTTAACTGCAAGTATTTTAATGTTCCATTTCAATTTAATATGAACTATGAGTGGGAAAGATGTTATTATGATAAGTTGGAGTGTTCGAAATTCTAATCATGAATGTAGTTATTTTTTAATGTTCAATTTATAGTTATAGTTGATAATGAGAATTCTGACACTTCAACTTGTGGTAGCTTAGTAATTAGTATTTATTCTTATTCATGTGACTACAAGTTTCTAATGAAATTATTTTGAAGGTAGAGGACGCAGTGGCTTTTGCAATGGCTCGTGATCGACGCACAAATTTTCTAAAACCAGGTGGGCAATATATAATGAAGCTCTATTGAATGTACTGACCGTGTCGAATTTAGAAGACAAAAAAATTACCCACTCTAATGGACTTTGAACTGAATTTTTGTTTACATGACGCTTGATATTGAACTTCCAGTCCCTTTTAGTTCTAAAATATATATTCTCCAAAGTTCTAAATACTGAAGAACATATTTTAACCACGCTTGAACTTTATTGATATTGATATACTAGTTAGAAGAATCTGAGTCTTCACTGATGCTGTTAGTTCCATATGTAAACGAGGCGACCAGTTGTCTGATTTCCATTAATTTTATCTGTCATAGACACGTGGTAAGGGATGTGAGAGTTAAAATGTGCAACCTAACAGTGTTTTCCCTTTCTTGTTATTGCGTAGATGAAGTGAAGCTGCCAATAGAAGGACAATTTGAAGCATTTGGTACGTTAACTGAAAACACTTCGCCCTTTTATTTTCTAAGGTTTTCTTGTCTAAATTTTGTTTTTATGTAAGAAATGAGAGAGACTTGTAGCTTACTTGAGGTAAAACACATTTACTTTTGAGGAATTATGGTGTATTGTTGAAATAAAAAGCAACACTAACTATAACTAGAAGCTTCTTTGAGTCTCTACAAGCATTATAATTCTCTAGTTTAATATTTAAGATTGTAAATAAGTATCTCAAAAGAAAAGATCTAGAAATAGTGTAATGAAAACGGCAATCAACAATCGATGAACGAAGATGAAAACAGATAACGGTAAACGTGAAAGACGAAGAAGAAAACAACACATAGAATTTACGTGGTTCACCAACGTTGTGTTGGCTAGTCCACGAGCAGAGAAGGGGCGGAGTTTTATTAAGGAGAACGAAATTACAGAGTTTACAGAATGAGTGTCATAATACGGCTAGGGTTTAGTTCGAGTTTATATAGGCACTCTAATTAAACCCTATTACACAATGCGTAAGCATTAAACGGAATTCGAATGCGTGGATGTACGCTGCAGAAACAGAATGTTAATGTGGAGTGCAGTTAGCGGGTGCGGAATGTGGAATGCGCTTGGCACATAGATGCGTTCACGCAACAGAATACTAAATGCGCAAATGCGTTTTCGCAACGGGGGCGTTGCCCCCGCACTTCCACTCGCTGACCGAGCAGCAAGACTCCCGACTGCTAATCGCAGGGTATTGATGCGTTCAAGACATAACACAACAAATAGTTATAGAGTTCCTTTAGTTAAAGAAACACTTCAGGGAAATAACTAGACCATATTAAGATCTAAGAAAAGCTTACAAAACCTTTTGCTTAGACTTCAAAGATCTCGTGTCTATGCATAGTAAGCGTATCCCCAAGCTAGAGAAAGATAGAAAAAGTGAGCGAGAGTTTTCATTGAAAAAGTGTCCATTTTTGTACTTTCTTAATAAATGTTTCTTTTGAGTATGTATATCTTCCTTTTTGTGGCAATTTCTTCAACAAGTGGCTAAGAGCTTGACATATACAATGAGGTTCAAAAAATGAAAATTAACATATCAAGAGACGTGCAAATAAGTCTTACTTATTTCTTCTACATGCTACCACTAGTTTTCAGACTGATATAACTAAAAATTAACTTTCCGTTGGTACCAAATTGAAGTCTATCCCTGGCACAACGACATATCTCTTTTGCGCGCAAGTTAGTCAGGACAGTCACGAATATAAAAAAAAAATTAAAAAAAAAATAAAGTCGGCTTATTTTATGGGAAGTGTACATCAATTGTCAACTATAGAATCTTTCAACCCGTAACATGATTGATGATCCAAATTAAACGGGCCCTACAGTTTTTGTGAACCATTACAAATTGCTTTAAATGCACTTGCAGAGTTAAGCCATGAGGAGGCAGAGGATGTTTCTTTTAAGCAGGTATATTTTACTTATTCTATTTACTCAACTCGGTTCCTAATGTGTGTGTACTTACGATTTTTTGTAAAAAAATGAAAATTGAATGAGTTATGGAACCATTCTATTTTTAGAAAAGGGGCGTTTGGAGCAAGGGAAATAGAATGATCATGTGAGAATATAGTGAATGATTAACTATGAGAATGATCATCTATACTTGTAGTGAAGAGAATGGTTATGCAGGAAACCATTACCTGTGTTTGAGCTCCAGTAGCATTTTGTATGACCGAGTAACCATGAGGTTACAGGTTTGAATCACCCCACTCCCAGTTGTTGTTAAATTTTAAAAAGAAATGAAAAGTGGTCAAGGGAGGAATGAGAATATGGAGGCAATGGATAATAATAATGGGGAGATAAATAGCGATTATGAAAAAATGATTGTCAGTGACCCAAAAACAAGGAAAGGGAATTCTCCCTTGTCTCCATGGTCTGAACTCTGATCTCCGCCCCCAAACACCCCAAAAGCAAATTTTGAATTGATTATCAAATTTTCTTGTAATTTGTAAATACTATTGTATGTGTTTGTTTCCTTTAAAAGTCGCTTAAAGATATTTATTTGTGATAAAGGCTTGGATCACTTATTTCTGGAGGAGAGCAAAAAATGATGAACTCGAACCAGACATTGCAGATGAACGTTTGGAGTTCTGGATCAGCCACAATAACAAATCCACTTCTCATGATGCAGTTGATGGTTCGTTTTCTATCTCTTTCTCGCCGCATTCTTAATTTTTCTAGTTTACATGTTCTTTAAATCAATACGAACTTAATAGTCATTAACCTTGAACAAGAATCTAAATTAAGAACAAAAGAAAACTGCCTATATTTGCCAAAAGAGCCTAAGAATCCAATTTCCATTGTTTATGTCAGCCAAAAGTTAGAAGTGTTTATACACTTGTATTCATTATAGTTTAGTTTTTCTGCTATAAACTATCGCTTAACTGTTATGACCATTCACTAATGGCTTAGTTGCCGCTGACAAGACAATAACTCAATCGGTATAAATTTATGCAATAACTAAGAGGTCATATGGTTCGAATTATTGCGCCTCTTGTTGTTGAACTACAAAAAATAGTTTAGTATGAAAGTAGTATACAAGAGTATTTTCTTTCACACGCTTGAGTCATTTATACATTTGAATCACTCCACCATAATTTTGTAATAATTTGCTTAAACACTATATATAAAAAGTTATTCCCGCCTTCATAATAATTCTCGTTTGAAGTGATTTCTGTTTTAATAGTACATCATTCTCTTATATGTTTGTTGATGGGATTTTGGTGTCATGCACCTACAAATTAAGTTTGATGTTGAAATATCGAATCATCATTTTTATCTAAAATTTTGAAAGATTTAAGGATATTACATTGTTTGACTTCAATGATCACTCATTTTATCTATAATTTTGAAAGGTCTAGGGGATGTTACATACTTCAATGGTCACTCATTTGATTGTTTTTTTTTTTTTTTTTTTAAATTTATTATTATCATTATTTGAATCATATATGGACAGTTGAGCGTGGGCTCTTGGAGCTTCGGAAGCTAGGTATTGAAAACCAGCTATGGGAAAGATCTCGCAAAGGGCTCGAGCTGAACCCTAACCGAAAACCTCGTCAATCCGACTTTTGA ACAAAATATGAACCAATCGTTATTGAGTCGATTGCAGCTGAAGATCTGATCGTAGAATCCTCTGCTCAAAGATTACGAAGGAGCTATGGATCGGATTAGACCGGTACATACTCGACATAAAAGTAACTCGAGCACTCCATTGGGTCCGGGATCGCCATTGGTGTCACCGTTTCCCAGCCATGGGCGATCAGGCTCAACTGGCGTCGCGAATTCGAAGAGAGGGCAGAACAATGCAACGAAAGCTGCAGCGCAAAGGCTTGCAAGAGTGATGGCAAGTTCAGCTGATGATGAGGATGAAGATGATGATCTTTCTTTTGATTTGAGTTTGGCGAGTGGTACAGGGAGCATTGGACTGGCAAGTGGAAGACCAGCCAGATCCCGCTCTCCCATGCCATCTGCTCGAACTACTCATGAACCTACTTCTGGACATGCGGTTTCTGCCGGTCGAGCATCTCCAACTGTAAACCATACCGAGCAACCAATGTCGGGTCGTACAACACTAGGATACCGATCATCTCATTCTGATACTAATGTCGAACAACCTCCTCGCTCTTCAACGCCTAGTCGATCATCCCAGCTTGCCAACTCAACAGAGCAACCTCCATCTAGTCGTAGTCGTCCAAATTTAGGAGCCAAGTCAGTTCCAATTGTACCTTCTTCTGTATCTATATCACTTAAACCAGCATTGTCAATAACTCCCAAAGAGAGTCAATCTGATTCCAGAACATCACTTAGATCAACCTTGCCTGTCACTCCAAAAGAAGGTCAATTTGATATCAAAACGTCACTTAGACCAACCTTGCCCGTAACTCCGAAAGACGGCCAGTTTGATTCTAAAATATCTCTTAGACCAACCTTGCCCGTAACTCCGAAAGATAATCAGTTTGATTCTAAAATATCCCTTAGACCAAGCTTTCCAGCAACTCCAACCGAGAGTCAGTTTGACAGCAAAAGAGATAAGAGGTTGTCTTTGGATATGGGAAGCGTGAACTTCAGAGAAACTAGCAACAACCAGCCATCTAGTTCTGCTTTACAAGATGAGCTTGATATGGTACAGGAGGAAAATGAAACTTTACTTGAAAAGCTTCGACTTGCAGAAGAAAGATGTGAGGAAGCAGATGCTAATGCCCGACAGCTTGAGAATCAGGTTGCTATGTTTGGAGAAGGAGTGTCACTGGAAGCCCGTCTTTTGAGCAGGAAGGAGGCAGCTTTGCAGCAGAGAGAGGCTGCTTTCAAGGTTGCATCACAAACTCATGGAAGCAAAGGTACTAATCATATTGCTGCACTTCAAACGGAAGTAGAGACTGCAAGGGATGAGGCAGCATCTGCTTTGGAGCAGTTGCACGAAGCTGAGGCTGAGTTGCAGTCGCTTAAGATTATGACTCATAGAATGATACTGGCTAAAGAAGAAATGGAAGAGATTCTTTTGAAGAGGTGTTGGCTTGCTCGATACTGGAACTTATGCGTTCATTACGGTATTCATGCTGAAATCGCTGGTGCAAGATCTGAATACTGGTCATCTTTTACTTCGTCTCCTGTTGAAGTTGTATTGGAAGCTGGAAAGAAAGCTAAAGAGGGGACAGCAATCGATGATTTGGTGGACAGAGAAAATGAACTTTCAAGAGAGGCAAATGTCGAGAGCATGCTTTTAGTGGAGAGAGGTTTACGGGAGCTTGCTACATTGAAGGTAGAGGACGCAGTGGCTTTTGCAATGGCTCGTGATCGACGCACAAATTTTCTAAAACCAGATGAAGTGAAGCTGCCAATAGAAGGACAATTTGAAGCATTTGAGTTAAGCCATGAGGAGGCAGAGGATGTTTCTTTTAAGCAGGCTTGGATCACTTATTTCTGGAGGAGAGCAAAAAATGATGAACTCGAACCAGACATTGCAGATGAACGTTTGGAGTTCTGGATCAGCCACAATAACAAATCCACTTCTCATGATGCAGTTGATGTTGAGCGTGGGCTCTTGGAGCTTCGGAAGCTAGGTATTGAAAACCAGCTATGGGAAAGATCTCGCAAAGGGCTCGAGCTGAACCCTAACCGAAAACCTCGTCAATCCGACTTTTGA ATGGATCGGATTAGACCGGTACATACTCGACATAAAAGTAACTCGAGCACTCCATTGGGTCCGGGATCGCCATTGGTGTCACCGTTTCCCAGCCATGGGCGATCAGGCTCAACTGGCGTCGCGAATTCGAAGAGAGGGCAGAACAATGCAACGAAAGCTGCAGCGCAAAGGCTTGCAAGAGTGATGGCAAGTTCAGCTGATGATGAGGATGAAGATGATGATCTTTCTTTTGATTTGAGTTTGGCGAGTGGTACAGGGAGCATTGGACTGGCAAGTGGAAGACCAGCCAGATCCCGCTCTCCCATGCCATCTGCTCGAACTACTCATGAACCTACTTCTGGACATGCGGTTTCTGCCGGTCGAGCATCTCCAACTGTAAACCATACCGAGCAACCAATGTCGGGTCGTACAACACTAGGATACCGATCATCTCATTCTGATACTAATGTCGAACAACCTCCTCGCTCTTCAACGCCTAGTCGATCATCCCAGCTTGCCAACTCAACAGAGCAACCTCCATCTAGTCGTAGTCGTCCAAATTTAGGAGCCAAGTCAGTTCCAATTGTACCTTCTTCTGTATCTATATCACTTAAACCAGCATTGTCAATAACTCCCAAAGAGAGTCAATCTGATTCCAGAACATCACTTAGATCAACCTTGCCTGTCACTCCAAAAGAAGGTCAATTTGATATCAAAACGTCACTTAGACCAACCTTGCCCGTAACTCCGAAAGACGGCCAGTTTGATTCTAAAATATCTCTTAGACCAACCTTGCCCGTAACTCCGAAAGATAATCAGTTTGATTCTAAAATATCCCTTAGACCAAGCTTTCCAGCAACTCCAACCGAGAGTCAGTTTGACAGCAAAAGAGATAAGAGGTTGTCTTTGGATATGGGAAGCGTGAACTTCAGAGAAACTAGCAACAACCAGCCATCTAGTTCTGCTTTACAAGATGAGCTTGATATGGTACAGGAGGAAAATGAAACTTTACTTGAAAAGCTTCGACTTGCAGAAGAAAGATGTGAGGAAGCAGATGCTAATGCCCGACAGCTTGAGAATCAGGTTGCTATGTTTGGAGAAGGAGTGTCACTGGAAGCCCGTCTTTTGAGCAGGAAGGAGGCAGCTTTGCAGCAGAGAGAGGCTGCTTTCAAGGTTGCATCACAAACTCATGGAAGCAAAGGTACTAATCATATTGCTGCACTTCAAACGGAAGTAGAGACTGCAAGGGATGAGGCAGCATCTGCTTTGGAGCAGTTGCACGAAGCTGAGGCTGAGTTGCAGTCGCTTAAGATTATGACTCATAGAATGATACTGGCTAAAGAAGAAATGGAAGAGATTCTTTTGAAGAGGTGTTGGCTTGCTCGATACTGGAACTTATGCGTTCATTACGGTATTCATGCTGAAATCGCTGGTGCAAGATCTGAATACTGGTCATCTTTTACTTCGTCTCCTGTTGAAGTTGTATTGGAAGCTGGAAAGAAAGCTAAAGAGGGGACAGCAATCGATGATTTGGTGGACAGAGAAAATGAACTTTCAAGAGAGGCAAATGTCGAGAGCATGCTTTTAGTGGAGAGAGGTTTACGGGAGCTTGCTACATTGAAGGTAGAGGACGCAGTGGCTTTTGCAATGGCTCGTGATCGACGCACAAATTTTCTAAAACCAGATGAAGTGAAGCTGCCAATAGAAGGACAATTTGAAGCATTTGAGTTAAGCCATGAGGAGGCAGAGGATGTTTCTTTTAAGCAGGCTTGGATCACTTATTTCTGGAGGAGAGCAAAAAATGATGAACTCGAACCAGACATTGCAGATGAACGTTTGGAGTTCTGGATCAGCCACAATAACAAATCCACTTCTCATGATGCAGTTGATGTTGAGCGTGGGCTCTTGGAGCTTCGGAAGCTAGGTATTGAAAACCAGCTATGGGAAAGATCTCGCAAAGGGCTCGAGCTGAACCCTAACCGAAAACCTCGTCAATCCGACTTTTGA MDRIRPVHTRHKSNSSTPLGPGSPLVSPFPSHGRSGSTGVANSKRGQNNATKAAAQRLARVMASSADDEDEDDDLSFDLSLASGTGSIGLASGRPARSRSPMPSARTTHEPTSGHAVSAGRASPTVNHTEQPMSGRTTLGYRSSHSDTNVEQPPRSSTPSRSSQLANSTEQPPSSRSRPNLGAKSVPIVPSSVSISLKPALSITPKESQSDSRTSLRSTLPVTPKEGQFDIKTSLRPTLPVTPKDGQFDSKISLRPTLPVTPKDNQFDSKISLRPSFPATPTESQFDSKRDKRLSLDMGSVNFRETSNNQPSSSALQDELDMVQEENETLLEKLRLAEERCEEADANARQLENQVAMFGEGVSLEARLLSRKEAALQQREAAFKVASQTHGSKGTNHIAALQTEVETARDEAASALEQLHEAEAELQSLKIMTHRMILAKEEMEEILLKRCWLARYWNLCVHYGIHAEIAGARSEYWSSFTSSPVEVVLEAGKKAKEGTAIDDLVDRENELSREANVESMLLVERGLRELATLKVEDAVAFAMARDRRTNFLKPDEVKLPIEGQFEAFELSHEEAEDVSFKQAWITYFWRRAKNDELEPDIADERLEFWISHNNKSTSHDAVDVERGLLELRKLGIENQLWERSRKGLELNPNRKPRQSDF Homology
BLAST of Sed0016461 vs. NCBI nr
Match: XP_008455538.1 (PREDICTED: coiled-coil domain-containing protein SCD2 isoform X1 [Cucumis melo] >XP_008455544.1 PREDICTED: coiled-coil domain-containing protein SCD2 isoform X1 [Cucumis melo]) HSP 1 Score: 998.8 bits (2581), Expect = 2.2e-287 Identity = 547/692 (79.05%), Postives = 595/692 (85.98%), Query Frame = 0
BLAST of Sed0016461 vs. NCBI nr
Match: XP_038891160.1 (coiled-coil domain-containing protein SCD2-like isoform X1 [Benincasa hispida]) HSP 1 Score: 994.2 bits (2569), Expect = 5.4e-286 Identity = 547/673 (81.28%), Postives = 589/673 (87.52%), Query Frame = 0
BLAST of Sed0016461 vs. NCBI nr
Match: XP_023537927.1 (coiled-coil domain-containing protein SCD2 isoform X1 [Cucurbita pepo subsp. pepo] >XP_023537928.1 coiled-coil domain-containing protein SCD2 isoform X1 [Cucurbita pepo subsp. pepo]) HSP 1 Score: 991.5 bits (2562), Expect = 3.5e-285 Identity = 537/672 (79.91%), Postives = 584/672 (86.90%), Query Frame = 0
BLAST of Sed0016461 vs. NCBI nr
Match: XP_022965626.1 (coiled-coil domain-containing protein SCD2-like isoform X1 [Cucurbita maxima] >XP_022965627.1 coiled-coil domain-containing protein SCD2-like isoform X1 [Cucurbita maxima]) HSP 1 Score: 991.1 bits (2561), Expect = 4.6e-285 Identity = 537/669 (80.27%), Postives = 585/669 (87.44%), Query Frame = 0
BLAST of Sed0016461 vs. NCBI nr
Match: XP_011648785.1 (coiled-coil domain-containing protein SCD2 [Cucumis sativus] >XP_011648786.1 coiled-coil domain-containing protein SCD2 [Cucumis sativus] >XP_031737161.1 coiled-coil domain-containing protein SCD2 [Cucumis sativus] >KAE8651569.1 hypothetical protein Csa_019467 [Cucumis sativus]) HSP 1 Score: 988.8 bits (2555), Expect = 2.3e-284 Identity = 538/673 (79.94%), Postives = 587/673 (87.22%), Query Frame = 0
BLAST of Sed0016461 vs. ExPASy Swiss-Prot
Match: Q8RWD5 (Coiled-coil domain-containing protein SCD2 OS=Arabidopsis thaliana OX=3702 GN=SCD2 PE=1 SV=1) HSP 1 Score: 364.8 bits (935), Expect = 2.1e-99 Identity = 287/677 (42.39%), Postives = 372/677 (54.95%), Query Frame = 0
BLAST of Sed0016461 vs. ExPASy TrEMBL
Match: A0A1S3C153 (coiled-coil domain-containing protein SCD2 isoform X1 OS=Cucumis melo OX=3656 GN=LOC103495686 PE=4 SV=1) HSP 1 Score: 998.8 bits (2581), Expect = 1.1e-287 Identity = 547/692 (79.05%), Postives = 595/692 (85.98%), Query Frame = 0
BLAST of Sed0016461 vs. ExPASy TrEMBL
Match: A0A6J1HKU2 (coiled-coil domain-containing protein SCD2-like isoform X1 OS=Cucurbita maxima OX=3661 GN=LOC111465468 PE=4 SV=1) HSP 1 Score: 991.1 bits (2561), Expect = 2.2e-285 Identity = 537/669 (80.27%), Postives = 585/669 (87.44%), Query Frame = 0
BLAST of Sed0016461 vs. ExPASy TrEMBL
Match: A0A6J1FI09 (coiled-coil domain-containing protein SCD2 isoform X1 OS=Cucurbita moschata OX=3662 GN=LOC111444316 PE=4 SV=1) HSP 1 Score: 985.7 bits (2547), Expect = 9.3e-284 Identity = 534/672 (79.46%), Postives = 581/672 (86.46%), Query Frame = 0
BLAST of Sed0016461 vs. ExPASy TrEMBL
Match: A0A6J1CPD7 (coiled-coil domain-containing protein SCD2-like isoform X1 OS=Momordica charantia OX=3673 GN=LOC111013085 PE=4 SV=1) HSP 1 Score: 968.0 bits (2501), Expect = 2.0e-278 Identity = 531/690 (76.96%), Postives = 581/690 (84.20%), Query Frame = 0
BLAST of Sed0016461 vs. ExPASy TrEMBL
Match: A0A0A0LJG0 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_2G013280 PE=4 SV=1) HSP 1 Score: 899.0 bits (2322), Expect = 1.1e-257 Identity = 509/673 (75.63%), Postives = 556/673 (82.62%), Query Frame = 0
BLAST of Sed0016461 vs. TAIR 10
Match: AT4G08630.1 (unknown protein; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT3G48860.2); Has 1487 Blast hits to 747 proteins in 184 species: Archae - 0; Bacteria - 56; Metazoa - 305; Fungi - 197; Plants - 180; Viruses - 3; Other Eukaryotes - 746 (source: NCBI BLink). ) HSP 1 Score: 377.9 bits (969), Expect = 1.7e-104 Identity = 289/719 (40.19%), Postives = 389/719 (54.10%), Query Frame = 0
BLAST of Sed0016461 vs. TAIR 10
Match: AT3G48860.2 (unknown protein; INVOLVED IN: biological_process unknown; LOCATED IN: plasma membrane; EXPRESSED IN: 22 plant structures; EXPRESSED DURING: 13 growth stages; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT5G23700.1); Has 12429 Blast hits to 9751 proteins in 897 species: Archae - 180; Bacteria - 1190; Metazoa - 6552; Fungi - 1361; Plants - 886; Viruses - 50; Other Eukaryotes - 2210 (source: NCBI BLink). ) HSP 1 Score: 364.8 bits (935), Expect = 1.5e-100 Identity = 287/677 (42.39%), Postives = 372/677 (54.95%), Query Frame = 0
BLAST of Sed0016461 vs. TAIR 10
Match: AT5G13260.1 (unknown protein; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT3G48860.2); Has 30201 Blast hits to 17322 proteins in 780 species: Archae - 12; Bacteria - 1396; Metazoa - 17338; Fungi - 3422; Plants - 5037; Viruses - 0; Other Eukaryotes - 2996 (source: NCBI BLink). ) HSP 1 Score: 335.9 bits (860), Expect = 7.4e-92 Identity = 260/648 (40.12%), Postives = 350/648 (54.01%), Query Frame = 0
BLAST of Sed0016461 vs. TAIR 10
Match: AT4G25070.1 (unknown protein; EXPRESSED IN: cultured cell; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT3G48860.2); Has 14837 Blast hits to 10961 proteins in 1163 species: Archae - 189; Bacteria - 1924; Metazoa - 7665; Fungi - 1127; Plants - 653; Viruses - 80; Other Eukaryotes - 3199 (source: NCBI BLink). ) HSP 1 Score: 320.1 bits (819), Expect = 4.2e-87 Identity = 208/501 (41.52%), Postives = 306/501 (61.08%), Query Frame = 0
BLAST of Sed0016461 vs. TAIR 10
Match: AT5G23700.1 (unknown protein; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT3G48860.2); Has 30201 Blast hits to 17322 proteins in 780 species: Archae - 12; Bacteria - 1396; Metazoa - 17338; Fungi - 3422; Plants - 5037; Viruses - 0; Other Eukaryotes - 2996 (source: NCBI BLink). ) HSP 1 Score: 316.2 bits (809), Expect = 6.1e-86 Identity = 257/687 (37.41%), Postives = 335/687 (48.76%), 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 Position : 0 Zoom : x 1
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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