Sed0012583 (gene) Chayote v1
Overview
Sequences
The following sequences are available for this feature:
Legend: five_prime_UTRexonCDSpolypeptidethree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.GCAATTTGTTCGTCTCGACGAAGACACTGTTATGAGAAGTCTGAATCACTTCCAAAACCTCCATTGTACGGACAGCACCGACAGGGCTTGAAAGTTGAAATGGCATTGGCTGCTATGATTCTCTTCTGGTAACGAAATCTCAAATTTAGCTGAATCTATCCAACTTTCTCTTGATTTCGCCAACAGTTCATTCTCTTCTGTTTTGATCGGAGAAAACACTAAATTCCGAATTCTCTGTCCCATAGCGCTGATTTTTGCTTGACATTTTAGCTGCAATTTTGAATGTTTCTGAATTTTCATCTAATGCGCCTGCGATTGCGAATGTTTCTGATCAAATGACTTCTCAAATTATTGCTAACCGACTGTTGTTGGAGATACTCACCTTGTGGCATTTACATCGAAAACGCGAGGAGTCTTCAACATTTTTATTAAAGATATGGCTACTCCACTCCTTATCAATTGCTTTTGAACTCTATAGGTGTATTGATCTCCCAAATTTCGATCTAACCAAATACTTAAAAATCTACGCGGGTGATTTGGAGTCTTGAGCCGTCATATTTGATCCAATAAATTCATTTCGAGTGCAATTCAAGATGGTCTTCCCCATATGACACCATCTTGAGGGATATGTTGGAAATATTCACCTGTGTCTTTGTCCCATGTTGAAAAATGAGCTATGAAGACTTGAGTTTTGAAGGTATGACCCCCAAGGGGTGGCACATGACTCCTTCGATGTCTCTCGGTGCCTGGCCTAAGGATGGGCGTGGTTACCTTGGTTTTAAAAAAAAAATGAGCTACTCCTCTCACTACCAATTGGTTTTAAGGTGGAACCCTTTTGTTGGAGATAATCATCTTGTTGCCTTTGTCCCATGTTGGAAATGTGATGAGTGTTCAACTACTTTGAATGATATATGGACTACTCTCCTAACGATAAAAAAAAATTGAGGTGGATCGATAGTATCTAATATCTATCAATCAGATAAAGATTATCGTATTCCTTCAAATGACGTGCTGAAAGTCATCATATGCTTATATTTTTTCATCGTGATTTAGTTTTCTGCTGTCAACCGTAATTCATTGGCTAACTGAGAGTTGTTTGATAATTTTGGTTTTTATTTATATTTATTTGTATCCAGTTGATGCAAGCTGCTCAATGATCGTGTGTGACTGCTCCTAGTGGATGTGATTTTGATAATTGAGAGTCCAATGTGTTCCCGAGCTTCTTCAAGTTATTGGTATATTTTATAGAGATTGGTGCTTTCCACGATTTCTTTTATGGATATTCATATTTGTACAAACTTTTTTCATGGTATCAGAATACCGAGGCTGCTTATTGTGATAAGCATCATAATTCCAATTCTCATTGTTTCTCAGTGCTATGTTTATCCTTATGAAAAAATATCTTTCCTACCACTTGATGTTAAGATCTCAAACATTTCAACTCTTCAAAATGTCACTAGTTTAAACCATTCAGCAGTCACTGGAATCCAACAAGTTCATTCCGTGGATACTATCACTCGCATAAACAATACGAAGAAAAGAACCGATTACGTTTCTGAAATGAAGGGAGAAAGAGGATTTGATTTGATATCAGATACTGATAAAACTAAAAGCATGTCATACGAGAAGGGTACAACATTTGAAGAGAGTTTGGTCATGCCAGATGGAAATTTTACAGTTGATAATGATGTCATGAGTGGGGATGGAGAATTTGGTTATAATCCCCCCATGAAGGAAGAATTTTTAGACAACAGTTACAAGAGAGATGTTGAAGGTGAAGACAGCAACAATCTAAATGTGAACGAAATCAGAAACCATATTTCCATAGCCTCTAATCAATCACAAGAATTAATTGTTGAACCAAGAAAGTTTGATTTGTCTTCTGCTCAAAACATATCTTTCATTCCAGAAGATCGTTTCAATAAAACTGACGAAGTAATTACAAAGGATACACGGAGCGGACAAGGAAAGAATGTTCCAAGTACATTGAATGGAATTGTGCAGTATGACATATCAGCTTTGAAGAGTCTCGAGATGCCATCAATATCGATCTCTCAAATGAATACATTGTTATCGATAAGTCACAACTCTTCTTGTTCGAAGGTATGGTTTTCAAAATTAAGGTTTCAATAAGACCACTGACAACAACATGATTCTAATACTCGCATTAGTGATTTTACTTGGTAGTAGACGCCACAGTGTCATTGGTCTTCCCCACGTGACCGTGAGCTTTTTCATGCAAGACTAGAAATTGAGAAAGCCACTGCTGTTGTGAATAGCCCAGGAATTGCTGTTTCAGTTTTCCGAAATGTTTCTATGTTCAAGCGGTAATCTTTTCTTAACATTGCTAGCTTTTTATGCAGCCTAGACATATTGATATGATAATAAGCTTATGTTTGTCTCCCATAATCTTCTTCTTAATAGCATAAATCCATTATATTTTAATGCTGAATGTGACTGATTTTGCTAGTGGGACTTATTTACTTATTGAGCTATACTTCTTGTAATGCTGTTCTTACTTCAAATTTCATTTTCTAAAGACTATGTTCTTCATACTAGCGAATAATAGCTAACAGTTTTATTAGGAAGTTTTAAAAAGGCCAATCATATATTGAAGCTTTTGTCATATGATCTGGACACAAAGTCAGAATCATTTTCTTCAGTCCAATTGGAAATTGTTAAAATATGCTATATCATGTTCCTGGTAACCTTTGTTGTAGTCATTCTAGTTGTATGGCCTGGCATATGATCAATCCCATTTCCCTTTATTAGTGTAAAAAAATTCCCTATTCATTTCCCCCTTTTCTGGCGTGATACTATGATAGCATTGATAAGTACCGATGTTAACCAAGATGAAGCATATATTGTATGTTCCCTTTGCAGGAGTTATGACTTGATGGAAAAGATGCTTAAAGTTTATATCTACAAGGAAGGAGAAAAGCCTATTTTCCATCAACCTCGGATGAGAGGGATATATGCCTCAGAAGGATGGTTTATGAAATTGATTAAGGAGAATAAAAAATTTGTTGCAAAGGATCCCAAGAAGGCTCACTTGTTCTATTTACCTTTCAGTTCGCAGTTACTAAGGAGTGCACTTTCTGAACAAAATTCCCAAGGTCGAAAGAACCTCGAGGAACAACTAGGGAACTATGTCGACTTAATTAGGAGAAAACACAAATTCTGGAACAGAACTGGAGGTGCCGATCATTTTCTTGTTGCTTGTCATGACTGGGTATGTATTCTATAAATAATTTAAATTTAATTCCAAGCAGCTGCGGCTCATTTGCTTTGTACTCTGTGGAGATTGTTCTGTGTGACCAAAACCCTGAGTTGAGCATTTTATAGTTTAGTTACAATCTGACCATTATGATATATGACTTATTTGAGTATATGAATAAACTAAGCATTCAAATGTACTGTCATCTCTAGTCAATCTGTTAGACTCCAATATTTATTAGTGAAAATATTTTGCGTACACGCTCACTTTCTCGTTTTCATGTGAAGCATTGCATCAGAGCACTCCTCCATTTCAAATTCTGCTCGAGGCTTAATTCAGTTTTGTCTTTTTGATAACACTGTCATATTTTGTTGGAGTATTTTATATAATTAAGTTATCATTTTGTGTATACATTCAATTTCAGGCCTCCAAACTCACAAGAAAGTATATGAAGAACTGCATCAGAGCACTCTGCAACTCAAATGCTGCTAGAGGCTTTCAAATTGGCAAGGACACCAGCTTACCAGTAACAAATATACATTTGACAAAGGACCCTGATATTACATCTGGAGCAAAACCTCCTTCGGAAAGAACTACATTAGCCTTCTTTGCTGGGGGTATGCACGGTTATCTTAGACCAATACTGCTTCATTTCTGGGAAAATAAAGAACCTGATATGAAGATTTTTGGCCCAATGGCACGCGATGTTGAAGGGAAAAGAGCCTACAGGGAGCACATGAAAAATAGTAAGTACTGCATATGTGCAAGGGGATATGAAGTTCATACTCCTCGGGTGGTCGAGGCCATTCTTAATGCGTGTGTTCCAGTCTTGATATCAGACAATTACGTGCCTCCTTTCTTTGAAGTATTGAACTGGGAATCATTCTCAGTATTTGTTCAAGAGAAAGAGATATCTAATTTAAGAAATATTCTGCTTTCAATTCCTGAGAAGAACTACATTGTCATGCACGCAAGACTGAAGATGGTGCAAAAGCATTTCATTTGGCACAAAAATCCTGTTAAGTATGACTTATTCCATATGATCCTTCACTCAGTATGGTATACTCGAGTTTTTCAGATGAAAACCAATTGATTTACATGGAACCAGATCCTGGTGTTGGAAATTGATAATGTATAGCAAGAGGGACAATTTTGGAAATTTCTCTATTTTAAAATTTTCTCATTTTCAATGACACAATTGCAAGAGTGTAGAAAAAAAATGGATAGAGTGATTTAAAAAAAAAAACTCAAGTATTTGATAGAGCGACTGAATCATAGTGGATCACCATGTTCTAAAGAACCGGATCGGATGTTCTGATGATTAGTCATCGCCGCCGTTTGATCTCTCAGTGGACTGCATCATCATTCATTTGGAATGCTTTAACATATATGTATGCAAAAACGTGGTGAGATTGATCAGGCTAGGTGGTTGTTTGCTCGTCTCGTGAACAAGAATTTGGTTTCTTGGAACTTGATGACATCTGGGTATGTAAAAAATGCACAGCCTGAGAAGTGTGTTGGTATGTTACATGGAATGTGATTGTCCAGTCATATGCCTGATCAAGTTACGATGTCAATTAAAATTGCTGCTTACTGTCAATGTGAACGTGTAGATGAAGCAAGAAAGTTGTTTAGTGAGTTTAAAGAGAAGGATATTGTTTGCTGGACAGCCATGTTAGTGGATTTATGCAAAAAATTGTAGAGAAGAGGTTGCACTGGGAACAAATCAAACCTGACAGCTACACATTATCAAGTGCTGTCAGTTAATGTTCCAAATTAACATCTCTATATCATGGTCATGCAGTTCATGGAAGATCAATCAGTTCTTGCTGGACTTGATAATAATTTGCTTTCATAGATGATGCAAGGCCAGTCTTCAACATGATTCTAACTAGGAATGTGATTTCATGAAATGCTATGATTGTTGGTTATGCACAAAATGGACATGATAAGGTTGCGCTTGAACTCTTTAAAAATATGTTGCAAGAGAAATTTAGACCTGATAATGTAACTTTTATAGGTGTTTTATCTGCCTGTCTCCATTCTAATTGGATTTAGCAAGGGCAGGGTACTTTGATCATATAAGCAATCAACATGGATGTACTTGCTTTGGATCATTATGCTTGTATGGTCAATCAAATAGGACGTTCAGGCTGCATTGATCAAGTAGTTAGTCTAATAAATAGTATGCCCCATGAAGCAGATATCTTGATTTGGTCCACACCTCTATCTGTTTGCACAACAAAGGGCGATATTGTAAATGCAGAAATGGCAGTTAGGCATCTTTTTGAATAGGATCCTATGAATGCTGTAACATATATTATGATCTCATATATGTATGTTTTTATGCGTTGACGGAAGGATGCAGCATCAGTAAGGACTGTCATAAAGAGCAAGAATTGTCAAAAAAATTGCCTCGGCATAGTTGGATTGAGATTGAGAATGAGGTTCACAAATTCATATCCAAAGACCGGACTCATCCAGAAACAGAAAACATATATGAGGAATTGAACATGTCGATAAGGAAACTTCAAGGAGATGGATTTACTCCCAATGCAAATCTGGTTTTGCTTGATATTGGAGAGAACGAAAAGTTCAAATCCATACGTCTCCACAGCGAGAAACTTACTATTGCCTTTGGTTTGCTAAAGAAACCTAATGGAACCAGTCCATAGAGGATCATAAAAAATATTCACATTTTCTGCAATTGCCATGAATTTATGAAGTTTGCATCTATGGTTATTGGAAGGCACATAATCTTAAGAGATTCAAATAGGTTTCATCATTTTTCAAGTAGGAAATTGTCTTGCACAACTAGCAAGGCATAACATGCTGGTGTAGATTGGGGAAAGTCACTGAGTTACGAGGTGAGAAAATGTTGATCTGGCCAACAAGAACAATAGCTGAATCGGTAAATGTGTATGTCCATGACCAAGAGTTCATGAGTCCCCCCACTTCCAATTGTTGTTGAACTCAAAAAAGAAAATGCTCATGTGAGGATAATGGGACTATATCAAAGAAGAAAAGTACAGGGTTCAAGGAAAGGGTTCTGATCCTGAAATTTTCAAAATGGAAAAGATTGCTGACATTCAAGTTCCCCAGTTGCTGGAAATTCTCAAATAGAGAGTATTCAGCTTACTAAAGCGTGTCATATCATATTACAGCATTGAGCGGTATAAAGTTTCCTTGTACAGTATTTTTCAAACTCGGTGTTGAAGAATTCTATAAGCGTTGAGTGTTTTGTCAAGGAAGCCATTTGCAGCATTTTTACATAAGCCCTCAAATACTTAACTCGTTAATGTCAATTCGTAAGTGAAGAGAAACAGAAAACAAGGTGACATCTTGTTTCTTTATCATAGGTCATACTACTGTGGATTTATGTTTCTTTAAATCGTTTTGTAGTTTTCGTTTTTCTGTTCTATGTGTAAATAAGCTGGAAAGTTTCTGAAACTTCCATTTGCTTGGTTTGAGAGCTCTCCCTTTGTCTCCTTTTGCGTACTTCATAACTTCAATGAAAATTATCTTTTTTTTAATTGAAAACAAGGTGAACCGACAGGCAACCAACAAAAAAGTAAAAAGATCAAAGAGGCTGATATAATGAATAAAGGGTCATGTTAAAAAAAATAGCTATAATGGTAGCACATAGTTATTTTATGATTTGGAGATTGCATTACATGCTGTATACTGGTGTCGTGGTTTCCCTCATTTTTGTAACTATGATCTTGCCATCTTGGTTATAGTTGCGTAGGTTTTTTAATCTGTTTCAACAGTTCTTTTTGTGCTTTTTCATATATCAATGAAAAGTATCTATTTCCCAGAACAAAAAATTGCATTAACAATGGAAGAATTGGTTGCAATTCTCATTATTGATTGAGAATGAAACAATGCTGATGTTGTTCTTTACTTCTACAGAATTGATTGTCTTCTGTGAGAAACTTAGCTCAATTATCTTCTTTTCCTTACATTCTCAGTTTATTTGTCTGTATAGAATTCTGTGCTAGCCATCAAAGTTCAATCAAAGTATTTCAATTTACGCGTCGCTATGTCGCTATGTCGATGGTTGATGCATGCATCTTTGACTACATATTGATACTAAATGGTGTCTATATTTCATTTTGAACAGGCTCTTCTAGCTAAGCTATCACATGGTTCATTCTTTGATTTAATTTTCTAACTCATCTCAGACAGTAGCAGAAAAATTAAGGTCTGATGGTTTAAACTTGTATTTTGTGCTGCAGAAACACGTGGAAGCTTGGCTGCTAATGGAAAGATTTAGGGAATTTCATGGAAAAATCTGGTAAGCGATTTGGCACATTTAAGTTGCTTGATGATTTAGAGACAGAGTCAGGACAGACATCATGATTTTCTTTTTGTCAGTCTCAGCTCTGCTTGACCCCTTTTAGCCTGTTTTTTTCAACTTTATTTCAACAATTAGGCGTAATTAATTTGGACAAGCAACGAAAATGTTTTAGTTATGGAATTCTCCATGCTCAATGATTGTACAAGTTGGCCGAAGAAATGGAATTTATTAATCTGTTAAAC GCAATTTGTTCGTCTCGACGAAGACACTGTTATGAGAAGTCTGAATCACTTCCAAAACCTCCATTGTACGGACAGCACCGACAGGGCTTGAAAGTTGAAATGGCATTGGCTGCTATGATTCTCTTCTGGTAACGAAATCTCAAATTTAGCTGAATCTATCCAACTTTCTCTTGATTTCGCCAACAGTTCATTCTCTTCTGTTTTGATCGGAGAAAACACTAAATTCCGAATTCTCTGTCCCATAGCGCTGATTTTTGCTTGACATTTTAGCTGCAATTTTGAATGTTTCTGAATTTTCATCTAATGCGCCTGCGATTGCGAATGTTTCTGATCAAATGACTTCTCAAATTATTGCTAACCGACTGTTGTTGGAGATACTCACCTTGTGGCATTTACATCGAAAACGCGAGGAGTCTTCAACATTTTTATTAAAGATATGGCTACTCCACTCCTTATCAATTGCTTTTGAACTCTATAGGTGTATTGATCTCCCAAATTTCGATCTAACCAAATACTTAAAAATCTACGCGGGTGATTTGGAGTCTTGAGCCGTCATATTTGATCCAATAAATTCATTTCGAGTGCAATTCAAGATGGTCTTCCCCATATGACACCATCTTGAGGGATATGTTGGAAATATTCACCTGTGTCTTTGTCCCATGTTGAAAAATGAGCTATGAAGACTTGAGTTTTGAAGGTATGACCCCCAAGGGGTGGCACATGACTCCTTCGATGTCTCTCGGTGCCTGGCCTAAGGATGGGCGTGGTTACCTTGGTTTTAAAAAAAAAATGAGCTACTCCTCTCACTACCAATTGGTTTTAAGGTGGAACCCTTTTGTTGGAGATAATCATCTTGTTGCCTTTGTCCCATGTTGGAAATGTGATGAGTGTTCAACTACTTTGAATGATATATGGACTACTCTCCTAACGATAAAAAAAAATTGAGGTGGATCGATAGTATCTAATATCTATCAATCAGATAAAGATTATCGTATTCCTTCAAATGACGTGCTGAAAGTCATCATATGCTTATATTTTTTCATCGTGATTTAGTTTTCTGCTGTCAACCGTAATTCATTGGCTAACTGAGAGTTGTTTGATAATTTTGGTTTTTATTTATATTTATTTGTATCCAGTTGATGCAAGCTGCTCAATGATCGTGTGTGACTGCTCCTAGTGGATGTGATTTTGATAATTGAGAGTCCAATGTGTTCCCGAGCTTCTTCAAGTTATTGGTATATTTTATAGAGATTGGTGCTTTCCACGATTTCTTTTATGGATATTCATATTTGTACAAACTTTTTTCATGGTATCAGAATACCGAGGCTGCTTATTGTGATAAGCATCATAATTCCAATTCTCATTGTTTCTCAGTGCTATGTTTATCCTTATGAAAAAATATCTTTCCTACCACTTGATGTTAAGATCTCAAACATTTCAACTCTTCAAAATGTCACTAGTTTAAACCATTCAGCAGTCACTGGAATCCAACAAGTTCATTCCGTGGATACTATCACTCGCATAAACAATACGAAGAAAAGAACCGATTACGTTTCTGAAATGAAGGGAGAAAGAGGATTTGATTTGATATCAGATACTGATAAAACTAAAAGCATGTCATACGAGAAGGGTACAACATTTGAAGAGAGTTTGGTCATGCCAGATGGAAATTTTACAGTTGATAATGATGTCATGAGTGGGGATGGAGAATTTGGTTATAATCCCCCCATGAAGGAAGAATTTTTAGACAACAGTTACAAGAGAGATGTTGAAGGTGAAGACAGCAACAATCTAAATGTGAACGAAATCAGAAACCATATTTCCATAGCCTCTAATCAATCACAAGAATTAATTGTTGAACCAAGAAAGTTTGATTTGTCTTCTGCTCAAAACATATCTTTCATTCCAGAAGATCGTTTCAATAAAACTGACGAAGTAATTACAAAGGATACACGGAGCGGACAAGGAAAGAATGTTCCAAGTACATTGAATGGAATTGTGCAGTATGACATATCAGCTTTGAAGAGTCTCGAGATGCCATCAATATCGATCTCTCAAATGAATACATTGTTATCGATAAGTCACAACTCTTCTTGTTCGAAGACGCCACAGTGTCATTGGTCTTCCCCACGTGACCGTGAGCTTTTTCATGCAAGACTAGAAATTGAGAAAGCCACTGCTGTTGTGAATAGCCCAGGAATTGCTGTTTCAGTTTTCCGAAATGTTTCTATGTTCAAGCGGAGTTATGACTTGATGGAAAAGATGCTTAAAGTTTATATCTACAAGGAAGGAGAAAAGCCTATTTTCCATCAACCTCGGATGAGAGGGATATATGCCTCAGAAGGATGGTTTATGAAATTGATTAAGGAGAATAAAAAATTTGTTGCAAAGGATCCCAAGAAGGCTCACTTGTTCTATTTACCTTTCAGTTCGCAGTTACTAAGGAGTGCACTTTCTGAACAAAATTCCCAAGGTCGAAAGAACCTCGAGGAACAACTAGGGAACTATGTCGACTTAATTAGGAGAAAACACAAATTCTGGAACAGAACTGGAGGTGCCGATCATTTTCTTGTTGCTTGTCATGACTGGGCCTCCAAACTCACAAGAAAGTATATGAAGAACTGCATCAGAGCACTCTGCAACTCAAATGCTGCTAGAGGCTTTCAAATTGGCAAGGACACCAGCTTACCAGTAACAAATATACATTTGACAAAGGACCCTGATATTACATCTGGAGCAAAACCTCCTTCGGAAAGAACTACATTAGCCTTCTTTGCTGGGGGTATGCACGGTTATCTTAGACCAATACTGCTTCATTTCTGGGAAAATAAAGAACCTGATATGAAGATTTTTGGCCCAATGGCACGCGATGTTGAAGGGAAAAGAGCCTACAGGGAGCACATGAAAAATAGTAAGTACTGCATATGTGCAAGGGGATATGAAGTTCATACTCCTCGGGTGGTCGAGGCCATTCTTAATGCGTGTGTTCCAGTCTTGATATCAGACAATTACGTGCCTCCTTTCTTTGAAGTATTGAACTGGGAATCATTCTCAGTATTTGTTCAAGAGAAAGAGATATCTAATTTAAGAAATATTCTGCTTTCAATTCCTGAGAAGAACTACATTGTCATGCACGCAAGACTGAAGATGGTGCAAAAGCATTTCATTTGGCACAAAAATCCTGTTAAGTATGACTTATTCCATATGATCCTTCACTCAGTATGGTATACTCGAGTTTTTCAGATGAAAACCAATTGATTTACATGGAACCAGATCCTGGTGTTGGAAATTGATAATGTATAGCAAGAGGGACAATTTTGGAAATTTCTCTATTTTAAAATTTTCTCATTTTCAATGACACAATTGCAAGAGTGTAGAAAAAAAATGGATAGAGTGATTTAAAAAAAAAAACTCAAGTATTTGATAGAGCGACTGAATCATAGTGGATCACCATGTTCTAAAGAACCGGATCGGATGTTCTGATGATTAGTCATCGCCGCCGTTTGATCTCTCAGTGGACTGCATCATCATTCATTTGGAATGCTTTAACATATATGTATGCAAAAACGTGGTGAGATTGATCAGGCTAGGTGGTTGTTTGCTCGTCTCGTGAACAAGAATTTGGTTTCTTGGAACTTGATGACATCTGGGTATGTAAAAAATGCACAGCCTGAGAAGTGTGTTGGTATGTTACATGGAATGTGATTGTCCAGTCATATGCCTGATCAAGTTACGATGTCAATTAAAATTGCTGCTTACTGTCAATGTGAACGTGTAGATGAAGCAAGAAAGTTGTTTAGTGAGTTTAAAGAGAAGGATATTGTTTGCTGGACAGCCATGTTAGTGGATTTATGCAAAAAATTGTAGAGAAGAGGTTGCACTGGGAACAAATCAAACCTGACAGCTACACATTATCAAGTGCTGTCAGTTAATGTTCCAAATTAACATCTCTATATCATGGTCATGCAGTTCATGGAAGATCAATCAGTTCTTGCTGGACTTGATAATAATTTGCTTTCATAGATGATGCAAGGCCAGTCTTCAACATGATTCTAACTAGGAATGTGATTTCATGAAATGCTATGATTGTTGGTTATGCACAAAATGGACATGATAAGGTTGCGCTTGAACTCTTTAAAAATATGTTGCAAGAGAAATTTAGACCTGATAATGTAACTTTTATAGGTGTTTTATCTGCCTGTCTCCATTCTAATTGGATTTAGCAAGGGCAGGGTACTTTGATCATATAAGCAATCAACATGGATGTACTTGCTTTGGATCATTATGCTTGTATGGTCAATCAAATAGGACGTTCAGGCTGCATTGATCAAGTAGTTAGTCTAATAAATAGTATGCCCCATGAAGCAGATATCTTGATTTGGTCCACACCTCTATCTGTTTGCACAACAAAGGGCGATATTGTAAATGCAGAAATGGCAGTTAGGCATCTTTTTGAATAGGATCCTATGAATGCTGTAACATATATTATGATCTCATATATGTATGTTTTTATGCGTTGACGGAAGGATGCAGCATCAGTAAGGACTGTCATAAAGAGCAAGAATTGTCAAAAAAATTGCCTCGGCATAGTTGGATTGAGATTGAGAATGAGGTTCACAAATTCATATCCAAAGACCGGACTCATCCAGAAACAGAAAACATATATGAGGAATTGAACATGTCGATAAGGAAACTTCAAGGAGATGGATTTACTCCCAATGCAAATCTGGTTTTGCTTGATATTGGAGAGAACGAAAAGTTCAAATCCATACGTCTCCACAGCGAGAAACTTACTATTGCCTTTGGTTTGCTAAAGAAACCTAATGGAACCAGTCCATAGAGGATCATAAAAAATATTCACATTTTCTGCAATTGCCATGAATTTATGAAGTTTGCATCTATGGTTATTGGAAGGCACATAATCTTAAGAGATTCAAATAGGTTTCATCATTTTTCAAGTAGGAAATTGTCTTGCACAACTAGCAAGGCATAACATGCTGGTGTAGATTGGGGAAAGTCACTGAGTTACGAGGTGAGAAAATGTTGATCTGGCCAACAAGAACAATAGCTGAATCGGTAAATGTGTATGTCCATGACCAAGAGTTCATGAGTCCCCCCACTTCCAATTGTTGTTGAACTCAAAAAAGAAAATGCTCATGTGAGGATAATGGGACTATATCAAAGAAGAAAAGTACAGGGTTCAAGGAAAGGGTTCTGATCCTGAAATTTTCAAAATGGAAAAGATTGCTGACATTCAAGTTCCCCAGTTGCTGGAAATTCTCAAATAGAGAGTATTCAGCTTACTAAAGCGTGTCATATCATATTACAGCATTGAGCGGTATAAAGTTTCCTTGTACAGTATTTTTCAAACTCGGTGTTGAAGAATTCTATAAGCGTTGAGTGTTTTGTCAAGGAAGCCATTTGCAGCATTTTTACATAAGCCCTCAAATACTTAACTCGTTAATGTCAATTCGTAAGTGAAGAGAAACAGAAAACAAGAAACACGTGGAAGCTTGGCTGCTAATGGAAAGATTTAGGGAATTTCATGGAAAAATCTGGTAAGCGATTTGGCACATTTAAGTTGCTTGATGATTTAGAGACAGAGTCAGGACAGACATCATGATTTTCTTTTTGTCAGTCTCAGCTCTGCTTGACCCCTTTTAGCCTGTTTTTTTCAACTTTATTTCAACAATTAGGCGTAATTAATTTGGACAAGCAACGAAAATGTTTTAGTTATGGAATTCTCCATGCTCAATGATTGTACAAGTTGGCCGAAGAAATGGAATTTATTAATCTGTTAAAC ATGGATATTCATATTTGTACAAACTTTTTTCATGGTATCAGAATACCGAGGCTGCTTATTGTGATAAGCATCATAATTCCAATTCTCATTGTTTCTCAGTGCTATGTTTATCCTTATGAAAAAATATCTTTCCTACCACTTGATGTTAAGATCTCAAACATTTCAACTCTTCAAAATGTCACTAGTTTAAACCATTCAGCAGTCACTGGAATCCAACAAGTTCATTCCGTGGATACTATCACTCGCATAAACAATACGAAGAAAAGAACCGATTACGTTTCTGAAATGAAGGGAGAAAGAGGATTTGATTTGATATCAGATACTGATAAAACTAAAAGCATGTCATACGAGAAGGGTACAACATTTGAAGAGAGTTTGGTCATGCCAGATGGAAATTTTACAGTTGATAATGATGTCATGAGTGGGGATGGAGAATTTGGTTATAATCCCCCCATGAAGGAAGAATTTTTAGACAACAGTTACAAGAGAGATGTTGAAGGTGAAGACAGCAACAATCTAAATGTGAACGAAATCAGAAACCATATTTCCATAGCCTCTAATCAATCACAAGAATTAATTGTTGAACCAAGAAAGTTTGATTTGTCTTCTGCTCAAAACATATCTTTCATTCCAGAAGATCGTTTCAATAAAACTGACGAAGTAATTACAAAGGATACACGGAGCGGACAAGGAAAGAATGTTCCAAGTACATTGAATGGAATTGTGCAGTATGACATATCAGCTTTGAAGAGTCTCGAGATGCCATCAATATCGATCTCTCAAATGAATACATTGTTATCGATAAGTCACAACTCTTCTTGTTCGAAGACGCCACAGTGTCATTGGTCTTCCCCACGTGACCGTGAGCTTTTTCATGCAAGACTAGAAATTGAGAAAGCCACTGCTGTTGTGAATAGCCCAGGAATTGCTGTTTCAGTTTTCCGAAATGTTTCTATGTTCAAGCGGAGTTATGACTTGATGGAAAAGATGCTTAAAGTTTATATCTACAAGGAAGGAGAAAAGCCTATTTTCCATCAACCTCGGATGAGAGGGATATATGCCTCAGAAGGATGGTTTATGAAATTGATTAAGGAGAATAAAAAATTTGTTGCAAAGGATCCCAAGAAGGCTCACTTGTTCTATTTACCTTTCAGTTCGCAGTTACTAAGGAGTGCACTTTCTGAACAAAATTCCCAAGGTCGAAAGAACCTCGAGGAACAACTAGGGAACTATGTCGACTTAATTAGGAGAAAACACAAATTCTGGAACAGAACTGGAGGTGCCGATCATTTTCTTGTTGCTTGTCATGACTGGGCCTCCAAACTCACAAGAAAGTATATGAAGAACTGCATCAGAGCACTCTGCAACTCAAATGCTGCTAGAGGCTTTCAAATTGGCAAGGACACCAGCTTACCAGTAACAAATATACATTTGACAAAGGACCCTGATATTACATCTGGAGCAAAACCTCCTTCGGAAAGAACTACATTAGCCTTCTTTGCTGGGGGTATGCACGGTTATCTTAGACCAATACTGCTTCATTTCTGGGAAAATAAAGAACCTGATATGAAGATTTTTGGCCCAATGGCACGCGATGTTGAAGGGAAAAGAGCCTACAGGGAGCACATGAAAAATAGTAAGTACTGCATATGTGCAAGGGGATATGAAGTTCATACTCCTCGGGTGGTCGAGGCCATTCTTAATGCGTGTGTTCCAGTCTTGATATCAGACAATTACGTGCCTCCTTTCTTTGAAGTATTGAACTGGGAATCATTCTCAGTATTTGTTCAAGAGAAAGAGATATCTAATTTAAGAAATATTCTGCTTTCAATTCCTGAGAAGAACTACATTGTCATGCACGCAAGACTGAAGATGGTGCAAAAGCATTTCATTTGGCACAAAAATCCTGTTAAGTATGACTTATTCCATATGATCCTTCACTCAGTATGGTATACTCGAGTTTTTCAGATGAAAACCAATTGA MDIHICTNFFHGIRIPRLLIVISIIIPILIVSQCYVYPYEKISFLPLDVKISNISTLQNVTSLNHSAVTGIQQVHSVDTITRINNTKKRTDYVSEMKGERGFDLISDTDKTKSMSYEKGTTFEESLVMPDGNFTVDNDVMSGDGEFGYNPPMKEEFLDNSYKRDVEGEDSNNLNVNEIRNHISIASNQSQELIVEPRKFDLSSAQNISFIPEDRFNKTDEVITKDTRSGQGKNVPSTLNGIVQYDISALKSLEMPSISISQMNTLLSISHNSSCSKTPQCHWSSPRDRELFHARLEIEKATAVVNSPGIAVSVFRNVSMFKRSYDLMEKMLKVYIYKEGEKPIFHQPRMRGIYASEGWFMKLIKENKKFVAKDPKKAHLFYLPFSSQLLRSALSEQNSQGRKNLEEQLGNYVDLIRRKHKFWNRTGGADHFLVACHDWASKLTRKYMKNCIRALCNSNAARGFQIGKDTSLPVTNIHLTKDPDITSGAKPPSERTTLAFFAGGMHGYLRPILLHFWENKEPDMKIFGPMARDVEGKRAYREHMKNSKYCICARGYEVHTPRVVEAILNACVPVLISDNYVPPFFEVLNWESFSVFVQEKEISNLRNILLSIPEKNYIVMHARLKMVQKHFIWHKNPVKYDLFHMILHSVWYTRVFQMKTN Homology
BLAST of Sed0012583 vs. NCBI nr
Match: XP_038880633.1 (probable glycosyltransferase At3g07620 isoform X1 [Benincasa hispida] >XP_038880634.1 probable glycosyltransferase At3g07620 isoform X1 [Benincasa hispida]) HSP 1 Score: 1096.6 bits (2835), Expect = 0.0e+00 Identity = 546/657 (83.11%), Postives = 583/657 (88.74%), Query Frame = 0
BLAST of Sed0012583 vs. NCBI nr
Match: XP_038880635.1 (probable glycosyltransferase At3g07620 isoform X2 [Benincasa hispida]) HSP 1 Score: 1093.2 bits (2826), Expect = 0.0e+00 Identity = 546/657 (83.11%), Postives = 583/657 (88.74%), Query Frame = 0
BLAST of Sed0012583 vs. NCBI nr
Match: XP_038880636.1 (probable glycosyltransferase At3g07620 isoform X3 [Benincasa hispida]) HSP 1 Score: 1090.9 bits (2820), Expect = 0.0e+00 Identity = 545/657 (82.95%), Postives = 582/657 (88.58%), Query Frame = 0
BLAST of Sed0012583 vs. NCBI nr
Match: XP_022933600.1 (probable glycosyltransferase At3g07620 [Cucurbita moschata]) HSP 1 Score: 1088.9 bits (2815), Expect = 0.0e+00 Identity = 543/660 (82.27%), Postives = 591/660 (89.55%), Query Frame = 0
BLAST of Sed0012583 vs. NCBI nr
Match: XP_023531315.1 (probable glycosyltransferase At3g07620 [Cucurbita pepo subsp. pepo]) HSP 1 Score: 1087.4 bits (2811), Expect = 0.0e+00 Identity = 541/660 (81.97%), Postives = 591/660 (89.55%), Query Frame = 0
BLAST of Sed0012583 vs. ExPASy Swiss-Prot
Match: Q9FFN2 (Probable glycosyltransferase At5g03795 OS=Arabidopsis thaliana OX=3702 GN=At5g03795 PE=3 SV=2) HSP 1 Score: 309.7 bits (792), Expect = 8.0e-83 Identity = 150/345 (43.48%), Postives = 222/345 (64.35%), Query Frame = 0
BLAST of Sed0012583 vs. ExPASy Swiss-Prot
Match: Q9SSE8 (Probable glycosyltransferase At3g07620 OS=Arabidopsis thaliana OX=3702 GN=At3g07620 PE=3 SV=1) HSP 1 Score: 305.4 bits (781), Expect = 1.5e-81 Identity = 149/346 (43.06%), Postives = 224/346 (64.74%), Query Frame = 0
BLAST of Sed0012583 vs. ExPASy Swiss-Prot
Match: Q3E7Q9 (Probable glycosyltransferase At5g25310 OS=Arabidopsis thaliana OX=3702 GN=At5g25310 PE=3 SV=2) HSP 1 Score: 278.5 bits (711), Expect = 2.0e-73 Identity = 154/407 (37.84%), Postives = 238/407 (58.48%), Query Frame = 0
BLAST of Sed0012583 vs. ExPASy Swiss-Prot
Match: Q9LFP3 (Probable glycosyltransferase At5g11130 OS=Arabidopsis thaliana OX=3702 GN=At5g11130/At5g11120 PE=3 SV=2) HSP 1 Score: 275.4 bits (703), Expect = 1.7e-72 Identity = 137/348 (39.37%), Postives = 218/348 (62.64%), Query Frame = 0
BLAST of Sed0012583 vs. ExPASy Swiss-Prot
Match: Q3EAR7 (Probable glycosyltransferase At3g42180 OS=Arabidopsis thaliana OX=3702 GN=At3g42180 PE=2 SV=2) HSP 1 Score: 266.2 bits (679), Expect = 1.0e-69 Identity = 156/428 (36.45%), Postives = 232/428 (54.21%), Query Frame = 0
BLAST of Sed0012583 vs. ExPASy TrEMBL
Match: A0A6J1F5A9 (probable glycosyltransferase At3g07620 OS=Cucurbita moschata OX=3662 GN=LOC111440979 PE=3 SV=1) HSP 1 Score: 1088.9 bits (2815), Expect = 0.0e+00 Identity = 543/660 (82.27%), Postives = 591/660 (89.55%), Query Frame = 0
BLAST of Sed0012583 vs. ExPASy TrEMBL
Match: A0A6J1HMX2 (probable glycosyltransferase At3g07620 OS=Cucurbita maxima OX=3661 GN=LOC111465066 PE=3 SV=1) HSP 1 Score: 1081.6 bits (2796), Expect = 0.0e+00 Identity = 539/660 (81.67%), Postives = 589/660 (89.24%), Query Frame = 0
BLAST of Sed0012583 vs. ExPASy TrEMBL
Match: A0A6J1CTZ3 (probable glycosyltransferase At3g07620 OS=Momordica charantia OX=3673 GN=LOC111014547 PE=3 SV=1) HSP 1 Score: 1067.8 bits (2760), Expect = 1.9e-308 Identity = 538/668 (80.54%), Postives = 580/668 (86.83%), Query Frame = 0
BLAST of Sed0012583 vs. ExPASy TrEMBL
Match: A0A6J1CVI7 (probable glycosyltransferase At3g07620 OS=Momordica charantia OX=3673 GN=LOC111014602 PE=3 SV=1) HSP 1 Score: 659.1 bits (1699), Expect = 2.0e-185 Identity = 351/657 (53.42%), Postives = 455/657 (69.25%), Query Frame = 0
BLAST of Sed0012583 vs. ExPASy TrEMBL
Match: A0A1S3CNV8 (probable glycosyltransferase At3g07620 isoform X2 OS=Cucumis melo OX=3656 GN=LOC103503066 PE=3 SV=1) HSP 1 Score: 646.7 bits (1667), Expect = 1.0e-181 Identity = 350/651 (53.76%), Postives = 451/651 (69.28%), Query Frame = 0
BLAST of Sed0012583 vs. TAIR 10
Match: AT5G37000.1 (Exostosin family protein ) HSP 1 Score: 508.8 bits (1309), Expect = 6.4e-144 Identity = 275/514 (53.50%), Postives = 345/514 (67.12%), Query Frame = 0
BLAST of Sed0012583 vs. TAIR 10
Match: AT5G19670.1 (Exostosin family protein ) HSP 1 Score: 480.7 bits (1236), Expect = 1.9e-135 Identity = 226/401 (56.36%), Postives = 294/401 (73.32%), Query Frame = 0
BLAST of Sed0012583 vs. TAIR 10
Match: AT4G32790.1 (Exostosin family protein ) HSP 1 Score: 477.6 bits (1228), Expect = 1.6e-134 Identity = 253/519 (48.75%), Postives = 344/519 (66.28%), Query Frame = 0
BLAST of Sed0012583 vs. TAIR 10
Match: AT5G25820.1 (Exostosin family protein ) HSP 1 Score: 471.1 bits (1211), Expect = 1.5e-132 Identity = 245/451 (54.32%), Postives = 304/451 (67.41%), Query Frame = 0
BLAST of Sed0012583 vs. TAIR 10
Match: AT5G11610.1 (Exostosin family protein ) HSP 1 Score: 449.5 bits (1155), Expect = 4.6e-126 Identity = 221/404 (54.70%), Postives = 286/404 (70.79%), 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.
|