MC03g1127 (gene) Bitter gourd (Dali-11) v1
Overview
Sequences
The following sequences are available for this feature:
Legend: utr5CDSpolypeptideutr3 Hold the cursor over a type above to highlight its positions in the sequence below.AAAAAAGAACAAAAAAAAAAGGAAGATATCCTAATATCTCTCTCCGTTTCTTTTTCTCTGTCGCTCGAAACCCTCGTTCTCAGCCCCTTCCTGCCGGCGATACCCAAGCGAGCTACGACGATCTTGGCCTCAACGAAACTCCAGCGGCACGCGCGAACCACGATCGGCGAAGACCCGCGACTCCCTTCTCCGGCTACGTATTCATCTGTGAACTCGATTCATCACTATTATTCCGGTCTATCTCTGTTGTCGCATTGGTCATTGCAGGTTGCCGATTGAATTCTCCTGCTAGATTCATACTGGATTATATCCATCATCGATTAGGTGTTGTACAACCAGAACCATCTTCTCTTTTACTTATTTGATTTTTGCTGTCCACTCGTATTACTATTTCGAACTCCAGAAATTGGGCTCACTGTAGTTGAATAGGCTGCATTCGGTAGCTTGCAATCAGTAAGGAGTATACTATTTTCACTGAAATATGTTTCTCTCTCCGTTTCATCTCCATTTTACTCCTCGCACCTTCCTTTTCGATGTTTTTATCAGTTGTTTATATTTGTAACATCGATTTAAAAACTAAAAATAGTGACGATAGAAAGGTACGTTCATAGAATACGTAATGGATTATGAATTAAAAATGATAGAATTATGATGGGAGAATAAGATTAATAATAGTACTCAATTTATATTACATTTTACTTGAAAATAATTTACAAGGCGTCATGTGAAATTTTTGTCCTGGGCCCACCTGATTCTCTCGTCCCTTTCTTTCTTTCGTTTGTTTTCCTTTCTTTCTTTCTTCTGTTGGCTACTTTATTCTGCAGGATCCATGTGCAAATTTCTGAATGTTCTTGTAATGATGCAGTATTAGCTATCGTGGAATCAGCAGGGATGTCTGAACTGGAAGAGAAGCTAGATGAAATTAAACCTTCAACAAGAAATGAAGATGAGTTGGTGGAAGGAGATGAAGGAGAGGAGGAGGACCTTTCATGGTCATCAGACTCTGACATTGGTGATGCATTGGACTGGTTGGATGCGAAGGAAGATGCTGAAGCAGTAGATGGGGCCTTTTCACTTAATGCTAGGCGTCCTAATGCTCATGGTGGACTCTATTCTCGTCATAATTATTCGACTCTTCAGCCTCTCTCAAATCGGAACCAAAAGTATTCCAATCATATTCGAGCTTCCCCTCTTGAGGTATATTAAATCTATTTCTCATTCTCCACTGTTTGAGAAATTCTCTAGTTTCTATGAAGTGATTGCATGAGTAAACTGAATCTAATTAACTTTCTCGTTTGTTGTGTTTACTTTTCTGCTGCGATAACAATATAAGGTGAGCTAGTTGGACAATCATATTTGTTGGCGTGAGTGACATAGATGCATAGGTCCTTTATGAAACATTATTTTGGCTATGATTTTACATGCCTTTAGATTTTTATGTTTGGGATATAAGAAATAGAGGTTTCTGACATCTGAGTATGCCTTCTGGGTGAGCATTCAAGAGGATTTTGTATTCCCGCCTTTGGTGTTGGGTTTTTTAGATCACAGTGGCATCCCTTTGAACTATCACCTTTCTTATATTAACTTAATTTACATTAGATTGTAATACTTCTGTTTGCTTGATAGATTGATAGATAAAACTGTATTTATTTTAAATTTATACGTTGGTTAATGCAAATTGCATAGAATTAGCTAATAAATTCATGCCATTTTGATTTATAAAACTGATATTTGGGTAGAAATGCTAAGGCGAATAATGTAATGAAATAGGATTTGAATTTAATTACTTGAAATTAAATTTAAGTTTGAAGTAAAACATACATGTAATTTGAATAAACCATAATTTTTGTTTATCCCCATGGACTAAATCTACTCAACTGATACCATCATTTAAGTATTTCTAGATAATCTTTCTTAAGTGCTTGTTAGTAATCCTTGGCAAGGGCTTGGGATCTCTGGGTCATATTGACTCAGAGGTCTCAAGTTCGAATATTCGGGTGAGCTTAATAAAAAGAACCCTTGATGTCCCCTGTGTCCAGGTCTTGGGACAAGTGTGGGTGCCCCGATATAGGGAAGTTAAACTCCGACTCTCGGTTATCAAAATAACTAACTTAATTCTCAGACTTATGGATTCTCTATGACCGAGTGCCGCCTTAATTATTTTTCATGTTTCTTTTAGTACAACAAGTGTTTTTAATGTTTGTTACTCAATGATGTAGGAATGGGAAGGGAGGTTTAACGTCAGTATGTCGAACTCTGTTACCACTGCTATTCGTGGCAGTGTCAGGGAAATGGCAATAGGAAAAACAAAAACTACAGAAAAAGCTGATCGTGCGACTGTTGAACAGGTTGGTGATGATAATTTTTTCTTGGTTTGCTCCTGAAACATTCCAATCTATTGTGCATTGTAAGTACTTATATCATCAAATTCATGACTGATGTAGGCAATAGATCCTAGAACTCGAATGGTTCTATTCAAGATGCTCAACCGGGGTGTTTTTCATGACATCAATGGCTGCATTTCTACTGGAAAAGAGGTATGTATTATATAACTTATTATGGAACTGGAGTAAAGATTTCATCCTTTCATAGTCCTCCATTTTTATCTAGTATGTTATTCTAAGTAGTATTTATTCATTTGTCTTTCTGTCTTTTTCATCAATAGGCTAATGTCTATCATGCAACAAAATCTGATGGTCAGGAATTGGCTGTCAAAGTCTACAAAACTTCAGTTTTGGTGTTTAAGTATGTCTCAGGCTCTTTAGTTTGATTTGGAGTTCATTACTTTGGTTCCATTCAAAGTTTTTATGATAGTTGCCTTGACAACAGATTTTGGGTTTTGGATATTACCAATTAGGTACAGCCATGGTGATAATCTTTTTGGTTAGTTCGAAATGTGGACAAGAATTATTCTCATAGTTTGATTGTCCCTTCTATCTGCATATCAGGAATCACACAACGCGCCTTACAATTTTGTGATCTTTTTTCACTTTAATTATAGAGTAACATGGGATTTTATCAGTTTTTTTTTTCTAGATATAAAAGTGAACCATGTCTTCTGTTGTTATGGAAAATAGGAGGGATGTATCAATGTAAGGAATCCCTCCACAAAATATTGATATTCAGAGAATAAAGAGCCCTAGGGCTTTACAAAAGTCTCCCCCAGCCAGTTAGAGAGGACTGGTTCTCTCTCTACCAAGTCTTGCCAAAACAAACAGCATAAAAGCATAACACAGCATCCCAAAAGCATATAAACTGAAACTAACTAACTTGAAGAGGGTGAATTCCCTTCTTTACCCCTTCTTACACAAGTATTTACTAATGGGTGCTTTACAATCGCATTGTTATTTTGGAACTCATTAATCGTTTGTATTGATGTCCTGAGCTTAGTTTATTATGCTGGTCAATTTCAGGGATAGGGATCGCTATGTCCAAGGTGACTACCGTTTCAGACATGGATATTGCAAGCACAATCCCAGGAAAATGGTGAAGACATGGGCTGAGAAGGAAATGAGGAATTTGTTGAGGTAATCTCACCAATTATTCATAGTTCATGTAAACCTCCATTGTCTATAACATTGAGTAAACAATTGGGTTTCTGTCTGTTCGGTTTCGGTGTTAACTTAAGCTTTGTTTATCTGAGGCTCTGAGTTACACATGGTGATTGCCTTTTTAGTTTTTACCATAGAAATATCGTATGAAATTTTGCATGCTAATTGTTGTAGTGTTAGGCATGTATTGGTGGTATTGGTTGAAGTATAGGTAAACTATTCTATTTTATACCCACGGCAATTAAAAAAATAAATCTATTGCTTCGTCCATGTTATTTTGCTGACTTTGAAGTATTGGTTGAAGTATAGGTAAACTATTCTATTTTATACCCACGGCAATTAAAAAAATAAATCTATTGCTTCGTCCATGTTATTTTGCTGACTTTGAAGTATTGGTTGAAGTATAGGTAAACTATTCTATTTTATACCCACGGCAATTAAAAAAATAAATCTATTGCTTCGTCCATGTTATTTTGCTGACTTTGAACTTTCAGGTTAAAAGCTGCTGGAATTAGATGCCCGACTCCTCACCTCTTGAGACTGCATGTGCTGGTCATGGAGTTCATTGGTGTGTATATCCCCTCCTTGAAATTGTGTTCCAGAAATTGACATTGGAAGTGATTGATGTTGGTGTATTTTTCAACTTCTGTTGGTAATCATAACTCGATTTTGTAGAAACCAATTGAGTGCCTTTTTCTAACCCCACCCACCCCAAAAGAGTTTCAATGATGTAAAAAAGAGAAAAGCTTAAAAGCTTACAAAAAGAGTCTTCAATTAGAGGTTAGTAGAGGAGAGGTAATAGTTAGAAAAATGTCTTGAGCATGAGAAGCAAGAAAAGAGATATTATGTTAAAATTTTGAGAGTTCCTTTTTAATATATTGGAATTCCTATACTATATCCCTTTAGTCAAATCTCCTATGAAATTGCTTTTATGGCGTTTGAGCATTAAACAGATGTTCCACCCAGTAAAGAAAACATAGTGTTTTGCAAAGAGAGATGCATGGACCTGCTAATATAAAAATATAAAAAAACCCTCTACCATAAAGAACTGAAAACGAAGCAAAAGAAGATACTTAGCACTTTATGACTGGTATTTTTGGGTCACATCTTAAATCAAAGACGCCACCGATTTTCTTTTTCCTCTTCGTAGGTACAGCTGGTTGGGCCGCACCTCGTCTTAAGGATGCTGCCTTGTCGTTGAACAAGCTTCGTGAAAGTTATTTGGAGGTATGTCTGAATCTGTGAATATTATCACTGGGTCAGGTTGTAAGCTTCGTCTTAAAAAATCAGTTTTCTTGTTTGTCATTCAGGAATTTGGAGTTTCTTAAGTTTAATGTTTCATTATAGGAAACACTTTGCTTGCATGGCTCCAATGTGCTAATTTCTTTTGCATTTTTCAGATAATTATTACAATGCGGACTCTCTACCAGAAGTGCAAGTTAGTGCACGGAGATCTTAGTGAATATAACATACTTTATTTTGAGGTGAGTGGCTGAAATTATGATCGGTTAGAAAAAATTTCATTATGGAAAAACTAACGCAAGCTCCTCTCTTGCATTATAGGGTCACCTTTATGTTATAGATGTTTCTCAAGCAGTTGATCTTGACCACCCTCATGCCCTCGACTTCCTTCGTGAGGACTGTCTTCATGTTTCGGTAAGATGTCACGCTCCAGGCTTTTTTTTTGTTATGTTTTAAAGTTCCCTTCTGATGAAGTGATTTTGAGAGATGATACGTTCTACTGAAACAGGATTTTTTTAAAAAACATGGTGTAGCTGTAATGACAATACGAGAACTATTCGATTTTATAGTTGATCCATGCCTCACTGATGATATGATTGATAATTATCTGGGAGAGGTTTGACATTTAAGAATTGTCTTTTTAATTATTATATGATTAAATTTCAGAAGATCTTTTTTTTTTCCTTTCTTTTTACCCTGTTTAATTAATTGCAGATGCAACAAAAAATCATGGCAAGAGGAGATATATCTGTGGAGGATGAGATTGCAGATTCTGTATTTGTGCAGGTAATTTGTAGTTACAAACCATGTTACTGTAAGTTCACTTTATGATAGAATTGAAGGTTGATTCTTTGCAGTCGATAGATGAAGGATCGGTTAGATTAGGGTTCTTGCGATGCAATTTTTAATCGTCTTTTATCCTTCCCAGTCATATATTCCAAAGACACTGGATGATGTCAAACATGCTGAGGAGGATGTAATACGTTTAACAAGTGGTCAAGACACTCAAGATATGTACTATAAGACCATTACAGGATTAAAACAGGCCCTTCCTAGAGTCCAACCTGTGCCAGAGTTCAAAGATGAGGAAGAACACAATGCATACCCTAATGAACAATCTGATAAAGAATCTGAATCGACATCAGAGGGAGATGAAGAGAGCTCAAATGAGTCTGAAGGAGGACCGGATTCTTCAACTGAGACAACGCAGGCACCAGTTGACCGGAAAACTGCCAGAAAAGAGAACAAAAAGAAGGTGAAGGAAGAGAAGAGAGAGGCCCGGAAAAACAAGGTTCCAAAAGCTGTAAAGAAACGAAAGAAGAAGCTGGCCAAGTCCCACAAGTAGGATGAAAATTGGTTCAGTTAGGTCAGTTTTGAAGGTTGTCCAGCAGTATTTGAACCGAACCATGTGGGAATTGAAGTATGAAAGATACTTGCAATTTCTTTGGTTTGGTTCTGCAGTTTTGATTTATGTTTATGATGTTTTGTTTAGTTTTTATTTATTTTACTGTTTTGCGCTCAAGTTTCCATTTAACACAAAAGAAAATGGAGATAATATGATTTTGTTGAACTGATTTATGAGAATTTGTTATCGCACAACAGTATCTCGATCTACATCTTCAAACAGGCACGCTGATATTTTTACATTTCTAAAAAGCATCATGAAATTAGCTTGAAGTAAAAGAAATTTCAAACTTAAAAACAACTGAAGATTAGTATTATAAAAGAGGTATATTGTAAAGACCACCGCATTGTCTATGCTTGTTTGGCAGATTTTGTGAAATCAAAATTAATTATTTGATGTTTATTAATATAATTTAAAGCAGAACGGCCCACACTTCAAATATCTAGTCGTTTTACACCTTGGATAAAATATCCACTATTTACTTTTTCCCTTGTTTCCACCTAAACAAAACACTGGACAAATAGCTTGTCTTTCGGTGAATCGAGCATCTAACCTCAAAAGAACCCCATCAACAAAGAATGGGAGGGAGAAGCAAAATAAAGAAGGAAAAAGAAAAGGGGAAACGCCCACTTTGATGGCAGAAAACAATACATTCAGAGGAACTTGGGAACTCTTCTTGCAAGATAAACAGACCTCAAGGAAGAAGGCGAATATGAATTTATTAAGAAGGAAAAGAGAGAAGTAAAAAACCGGACCCTATAGGTACACACAATGATTGAAGAACGACGTGCTTTCCCTTGGCATTACAATCTTTTCCGGCGTCGTCTCAGTCCTGTATCAACGTAATATATGCAGATTATCTTATCTTTGATCAACCTTTAATTGTTTAGGGGCAACTTGTGCTCTGTTTATGTTCTCCTCGTTCCATGAGGGATCCACTGCAGGAAGTTGGAATTCGTCCGGCTTCAGGGCCAGGGCAAAATCGGGCAACGTCGGTGCGGTCTCCACGATCCTGTAATTGTTGATTTACAGGCTGAATGATCAGTGTGGTTTATCATGAAGTTTACCATTTGGAAAAAATACTTACTTTTCGAAAGAGTACAAGTCGCGGTTTATCCGCACTTTGCTTGAAGCGTCTTTTGGAATTTTTTCTGATAGATACTTCATGGTTCCAAAAAGTGGCGGATTTCTGCATGGAGAATGCAATCATTGCTACGGGAGAAAAAAAATAAGGGTAACAATTTCCATTATATTTTAAACTCTCTCAAGTATGAATTAAGTAAATATTCTTTGGTGCTACATTTTGTTACTATAATTCAATTTATATATTGCGTTTACCAATGATTTATTTGTCTAGAGTTCGCAAATGGAAATAAATTTCTGTTTAACATAGATCTAACATTTGTATGAAACTCTTACTTCAGACTATGAACTTGAAAATGAAAGAAAAGTTAGAAACATGCCTGCAGACGTGCCAATCGAAAGACAATGAACATACCAATGAAATGAAAGCAGAAATAAAGTACCTTGATAAAGGAAGAGCGGAGTTAAATGCCTCACAAGCCTTTTTACTTTCTTTAAAATATTCATCAGCTGCTTGCAATGCAGCTACAGCCATCCCATGGGACTTCTCTGTGTTTCCCTCGTCGAGAATCAAACCATGGTAATAATAAGCTGCAGCCTGTTTAACAATGAGTTAGTTCGGGATATCTGTTTGCCAGGTTATCTACTGTGACACTACTATCAAACTCGATTCTCATAAATTAATGGTATAAGGTTATAGTTATAGATGTGACAAAATTAAGCTTTTGGAAATTGGGATAGGCACCAAATATTCCAATTCCTAATACAAACAGGATGAAATTTTTAAGTAAAATGAAACTGAATATAAACAGAGTTTCTTAATCAGCAGAAAGCCAGAGATGGACAAGGACTCAACTGAGTATTTTATTCCCAACTCCTGGGTACTTTGTTATGAGTAGACTCTAATATCTTGGCATCCTTTGGGATGCTATAGGTAGGAGGATTATTTTTTTTAAGTACAATAAATATGGGGTATGAGGATTTAAACTTCTGACTTCAAAAGAAGAAGTGTCTTTTATCATTGAACTATGTTCATCTCGACTTTGGCTAGCTATTAGTGTTCTTGCTATCGTTAATTAGTCAAAACCAAGAGTAGCTAGGATATAAAAGTGCAATCAAAACATACCTTTGCTTCAATGTATTTCCATTTAACGAAGAACCGGTGCTTCTCTCCCCAACCATTCGATAATGGAAGATTCATAATGTTATCTTGGGCCTGTAAAATAATCAGCATATAAGAGCTGCTATTTGAACAAATAGATAGTGAACATCATTGACCGATTCAGAATCAGTATTTGAGGAAAATAAAATTGACCAATACATGAACAAAGTAATCCATCATCCAGGAACACCAGCCAAGCTGTGTAAGTAATTAACATTCAGATGGATTCTACATGAATCATGAAATAAGTTCTACATCGTAAAATTTGACCACTCAAAACTCAGGCAGGATACTGAATACAGAAAATTATACAAATTTACCATTAAATAAATGGATAATCATCCACGTCCATACAATCAACAAAGGTCCAAAGAATGCATTTGCAAATAATCTGATTGGTTAAAATGTTTCAGCACCTTGAAATTAGAATCTACTTTCTTCTATTTCATATTGGAGAAAAAGCAAGCTTCTAAATCCTAAGTAGGTAGGTGGCCACCATGGTTTGAACTCATTCCCTCTAAGTCCTTTGCTATTTATATTGGACCTCATTGACCACTTGAGAAATCCATGATGGTTTTACATGGAATTAAGATTCTTGGAAATGTAATACTTGGATATAAAATATTCAAAAATAAAGGATGACAAAAATTGGTATTAAGATGCCAAGAAACGGAATACTTTGGATATAAGTTATCCAAAAATAAAG AAAAAAGAACAAAAAAAAAAGGAAGATATCCTAATATCTCTCTCCGTTTCTTTTTCTCTGTCGCTCGAAACCCTCGTTCTCAGCCCCTTCCTGCCGGCGATACCCAAGCGAGCTACGACGATCTTGGCCTCAACGAAACTCCAGCGGCACGCGCGAACCACGATCGGCGAAGACCCGCGACTCCCTTCTCCGGCTACGTATTCATCTGTGAACTCGATTCATCACTATTATTCCGGTCTATCTCTGTTGTCGCATTGGTCATTGCAGGTTGCCGATTGAATTCTCCTGCTAGATTCATACTGGATTATATCCATCATCGATTAGTATTAGCTATCGTGGAATCAGCAGGGATGTCTGAACTGGAAGAGAAGCTAGATGAAATTAAACCTTCAACAAGAAATGAAGATGAGTTGGTGGAAGGAGATGAAGGAGAGGAGGAGGACCTTTCATGGTCATCAGACTCTGACATTGGTGATGCATTGGACTGGTTGGATGCGAAGGAAGATGCTGAAGCAGTAGATGGGGCCTTTTCACTTAATGCTAGGCGTCCTAATGCTCATGGTGGACTCTATTCTCGTCATAATTATTCGACTCTTCAGCCTCTCTCAAATCGGAACCAAAAGTATTCCAATCATATTCGAGCTTCCCCTCTTGAGGAATGGGAAGGGAGGTTTAACGTCAGTATGTCGAACTCTGTTACCACTGCTATTCGTGGCAGTGTCAGGGAAATGGCAATAGGAAAAACAAAAACTACAGAAAAAGCTGATCGTGCGACTGTTGAACAGGCAATAGATCCTAGAACTCGAATGGTTCTATTCAAGATGCTCAACCGGGGTGTTTTTCATGACATCAATGGCTGCATTTCTACTGGAAAAGAGGCTAATGTCTATCATGCAACAAAATCTGATGGTCAGGAATTGGCTGTCAAAGTCTACAAAACTTCAGTTTTGGTGTTTAAGGATAGGGATCGCTATGTCCAAGGTGACTACCGTTTCAGACATGGATATTGCAAGCACAATCCCAGGAAAATGGTGAAGACATGGGCTGAGAAGGAAATGAGGAATTTGTTGAGGTTAAAAGCTGCTGGAATTAGATGCCCGACTCCTCACCTCTTGAGACTGCATGTGCTGGTCATGGAGTTCATTGGTACAGCTGGTTGGGCCGCACCTCGTCTTAAGGATGCTGCCTTGTCGTTGAACAAGCTTCGTGAAAGTTATTTGGAGATAATTATTACAATGCGGACTCTCTACCAGAAGTGCAAGTTAGTGCACGGAGATCTTAGTGAATATAACATACTTTATTTTGAGGGTCACCTTTATGTTATAGATGTTTCTCAAGCAGTTGATCTTGACCACCCTCATGCCCTCGACTTCCTTCGTGAGGACTGTCTTCATGTTTCGGATTTTTTTAAAAAACATGGTGTAGCTGTAATGACAATACGAGAACTATTCGATTTTATAGTTGATCCATGCCTCACTGATGATATGATTGATAATTATCTGGGAGAGATGCAACAAAAAATCATGGCAAGAGGAGATATATCTGTGGAGGATGAGATTGCAGATTCTGTATTTGTGCAGTCATATATTCCAAAGACACTGGATGATGTCAAACATGCTGAGGAGGATGTAATACGTTTAACAAGTGGTCAAGACACTCAAGATATGTACTATAAGACCATTACAGGATTAAAACAGGCCCTTCCTAGAGTCCAACCTGTGCCAGAGTTCAAAGATGAGGAAGAACACAATGCATACCCTAATGAACAATCTGATAAAGAATCTGAATCGACATCAGAGGGAGATGAAGAGAGCTCAAATGAGTCTGAAGGAGGACCGGATTCTTCAACTGAGACAACGCAGGCACCAGTTGACCGGAAAACTGCCAGAAAAGAGAACAAAAAGAAGGTGAAGGAAGAGAAGAGAGAGGCCCGGAAAAACAAGGTTCCAAAAGCTGTAAAGAAACGAAAGAAGAAGCTGGCCAAGTCCCACAAGTAGGATGAAAATTGGTTCAGTTAGGTCAGTTTTGAAGGTTGTCCAGCAGTATTTGAACCGAACCATGTGGGAATTGAAGTATGAAAGATACTTGCAATTTCTTTGGTTTGGTTCTGCAGTTTTGATTTATGTTTATGATGTTTTGTTTAGTTTTTATTTATTTTACTGTTTTGCGCTCAAGTTTCCATTTAACACAAAAGAAAATGGAGATAATATGATTTTGTTGAACTGATTTATGAGAATTTGTTATCGCACAACAGTATCTCGATCTACATCTTCAAACAGGCACGCTGATATTTTTACATTTCTAAAAAGCATCATGAAATTAGCTTGAAGTAAAAGAAATTTCAAACTTAAAAACAACTGAAGATTAGTATTATAAAAGAGGTATATTGTAAAGACCACCGCATTGTCTATGCTTGTTTGGCAGATTTTGTGAAATCAAAATTAATTATTTGATGTTTATTAATATAATTTAAAGCAGAACGGCCCACACTTCAAATATCTAGTCGTTTTACACCTTGGATAAAATATCCACTATTTACTTTTTCCCTTGTTTCCACCTAAACAAAACACTGGACAAATAGCTTGTCTTTCGGTGAATCGAGCATCTAACCTCAAAAGAACCCCATCAACAAAGAATGGGAGGGAGAAGCAAAATAAAGAAGGAAAAAGAAAAGGGGAAACGCCCACTTTGATGGCAGAAAACAATACATTCAGAGGAACTTGGGAACTCTTCTTGCAAGATAAACAGACCTCAAGGAAGAAGGCGAATATGAATTTATTAAGAAGGAAAAGAGAGAAGTAAAAAACCGGACCCTATAGGTACACACAATGATTGAAGAACGACGTGCTTTCCCTTGGCATTACAATCTTTTCCGGCGTCGTCTCAGTCCTGTATCAACGTAATATATGCAGATTATCTTATCTTTGATCAACCTTTAATTGTTTAGGGGCAACTTGTGCTCTGTTTATGTTCTCCTCGTTCCATGAGGGATCCACTGCAGGAAGTTGGAATTCGTCCGGCTTCAGGGCCAGGGCAAAATCGGGCAACGTCGGTGCGGTCTCCACGATCCTGTAATTGTTGATTTACAGGCTGAATGATCAGTGTGGTTTATCATGAAGTTTACCATTTGGAAAAAATACTTACTTTTCGAAAGAGTACAAGTCGCGGTTTATCCGCACTTTGCTTGAAGCGTCTTTTGGAATTTTTTCTGATAGATACTTCATGGTTCCAAAAAGTGGCGGATTTCTGCATGGAGAATGCAATCATTGCTACGGGAGAAAAAAAATAAGGGTAACAATTTCCATTATATTTTAAACTCTCTCAAGTATGAATTAAGTAAATATTCTTTGGTGCTACATTTTGTTACTATAATTCAATTTATATATTGCGTTTACCAATGATTTATTTGTCTAGAGTTCGCAAATGGAAATAAATTTCTGTTTAACATAGATCTAACATTTGTATGAAACTCTTACTTCAGACTATGAACTTGAAAATGAAAGAAAAGTTAGAAACATGCCTGCAGACGTGCCAATCGAAAGACAATGAACATACCAATGAAATGAAAGCAGAAATAAAGTACCTTGATAAAGGAAGAGCGGAGTTAAATGCCTCACAAGCCTTTTTACTTTCTTTAAAATATTCATCAGCTGCTTGCAATGCAGCTACAGCCATCCCATGGGACTTCTCTGTGTTTCCCTCGTCGAGAATCAAACCATGGTAATAATAAGCTGCAGCCTGTTTAACAATGAGTTAGTTCGGGATATCTGTTTGCCAGGTTATCTACTGTGACACTACTATCAAACTCGATTCTCATAAATTAATGGTATAAGGTTATAGTTATAGATGTGACAAAATTAAGCTTTTGGAAATTGGGATAGGCACCAAATATTCCAATTCCTAATACAAACAGGATGAAATTTTTAAGTAAAATGAAACTGAATATAAACAGAGTTTCTTAATCAGCAGAAAGCCAGAGATGGACAAGGACTCAACTGAGTATTTTATTCCCAACTCCTGGGTACTTTGTTATGAGTAGACTCTAATATCTTGGCATCCTTTGGGATGCTATAGGTAGGAGGATTATTTTTTTTAAGTACAATAAATATGGGGTATGAGGATTTAAACTTCTGACTTCAAAAGAAGAAGTGTCTTTTATCATTGAACTATGTTCATCTCGACTTTGGCTAGCTATTAGTGTTCTTGCTATCGTTAATTAGTCAAAACCAAGAGTAGCTAGGATATAAAAGTGCAATCAAAACATACCTTTGCTTCAATGTATTTCCATTTAACGAAGAACCGGTGCTTCTCTCCCCAACCATTCGATAATGGAAGATTCATAATGTTATCTTGGGCCTGTAAAATAATCAGCATATAAGAGCTGCTATTTGAACAAATAGATAGTGAACATCATTGACCGATTCAGAATCAGTATTTGAGGAAAATAAAATTGACCAATACATGAACAAAGTAATCCATCATCCAGGAACACCAGCCAAGCTGTGTAAGTAATTAACATTCAGATGGATTCTACATGAATCATGAAATAAGTTCTACATCGTAAAATTTGACCACTCAAAACTCAGGCAGGATACTGAATACAGAAAATTATACAAATTTACCATTAAATAAATGGATAATCATCCACGTCCATACAATCAACAAAGGTCCAAAGAATGCATTTGCAAATAATCTGATTGGTTAAAATGTTTCAGCACCTTGAAATTAGAATCTACTTTCTTCTATTTCATATTGGAGAAAAAGCAAGCTTCTAAATCCTAAGTAGGTAGGTGGCCACCATGGTTTGAACTCATTCCCTCTAAGTCCTTTGCTATTTATATTGGACCTCATTGACCACTTGAGAAATCCATGATGGTTTTACATGGAATTAAGATTCTTGGAAATGTAATACTTGGATATAAAATATTCAAAAATAAAGGATGACAAAAATTGGTATTAAGATGCCAAGAAACGGAATACTTTGGATATAAGTTATCCAAAAATAAAG AAAAGAACAAAAAAAAAAGGAAGATATCCTAATATCTCTCTCCGTTTCTTTTTCTCTGTCGCTCGAAACCCTCGTTCTCAGCCCCTTCCTGCCGGCGATACCCAAGCGAGCTACGACGATCTTGGCCTCAACGAAACTCCAGCGGCACGCGCGAACCACGATCGGCGAAGACCCGCGACTCCCTTCTCCGGCTACGTATTCATCTGTGAACTCGATTCATCACTATTATTCCGGTCTATCTCTGTTGTCGCATTGGTCATTGCAGGTTGCCGATTGAATTCTCCTGCTAGATTCATACTGGATTATATCCATCATCGATTAGTATTAGCTATCGTGGAATCAGCAGGGATGTCTGAACTGGAAGAGAAGCTAGATGAAATTAAACCTTCAACAAGAAATGAAGATGAGTTGGTGGAAGGAGATGAAGGAGAGGAGGAGGACCTTTCATGGTCATCAGACTCTGACATTGGTGATGCATTGGACTGGTTGGATGCGAAGGAAGATGCTGAAGCAGTAGATGGGGCCTTTTCACTTAATGCTAGGCGTCCTAATGCTCATGGTGGACTCTATTCTCGTCATAATTATTCGACTCTTCAGCCTCTCTCAAATCGGAACCAAAAGTATTCCAATCATATTCGAGCTTCCCCTCTTGAGGAATGGGAAGGGAGGTTTAACGTCAGTATGTCGAACTCTGTTACCACTGCTATTCGTGGCAGTGTCAGGGAAATGGCAATAGGAAAAACAAAAACTACAGAAAAAGCTGATCGTGCGACTGTTGAACAGGCAATAGATCCTAGAACTCGAATGGTTCTATTCAAGATGCTCAACCGGGGTGTTTTTCATGACATCAATGGCTGCATTTCTACTGGAAAAGAGGCTAATGTCTATCATGCAACAAAATCTGATGGTCAGGAATTGGCTGTCAAAGTCTACAAAACTTCAGTTTTGGTGTTTAAGGATAGGGATCGCTATGTCCAAGGTGACTACCGTTTCAGACATGGATATTGCAAGCACAATCCCAGGAAAATGGTGAAGACATGGGCTGAGAAGGAAATGAGGAATTTGTTGAGGTTAAAAGCTGCTGGAATTAGATGCCCGACTCCTCACCTCTTGAGACTGCATGTGCTGGTCATGGAGTTCATTGGTACAGCTGGTTGGGCCGCACCTCGTCTTAAGGATGCTGCCTTGTCGTTGAACAAGCTTCGTGAAAGTTATTTGGAGATAATTATTACAATGCGGACTCTCTACCAGAAGTGCAAGTTAGTGCACGGAGATCTTAGTGAATATAACATACTTTATTTTGAGGGTCACCTTTATGTTATAGATGTTTCTCAAGCAGTTGATCTTGACCACCCTCATGCCCTCGACTTCCTTCGTGAGGACTGTCTTCATGTTTCGGATTTTTTTAAAAAACATGGTGTAGCTGTAATGACAATACGAGAACTATTCGATTTTATAGTTGATCCATGCCTCACTGATGATATGATTGATAATTATCTGGGAGAGATGCAACAAAAAATCATGGCAAGAGGAGATATATCTGTGGAGGATGAGATTGCAGATTCTGTATTTGTGCAGTCATATATTCCAAAGACACTGGATGATGTCAAACATGCTGAGGAGGATGTAATACGTTTAACAAGTGGTCAAGACACTCAAGATATGTACTATAAGACCATTACAGGATTAAAACAGGCCCTTCCTAGAGTCCAACCTGTGCCAGAGTTCAAAGATGAGGAAGAACACAATGCATACCCTAATGAACAATCTGATAAAGAATCTGAATCGACATCAGAGGGAGATGAAGAGAGCTCAAATGAGTCTGAAGGAGGACCGGATTCTTCAACTGAGACAACGCAGGCACCAGTTGACCGGAAAACTGCCAGAAAAGAGAACAAAAAGAAGGTGAAGGAAGAGAAGAGAGAGGCCCGGAAAAACAAGGTTCCAAAAGCTGTAAAGAAACGAAAGAAGAAGCTGGCCAAGTCCCACAAGTAG KRTKKKGRYPNISLRFFFSVARNPRSQPLPAGDTQASYDDLGLNETPAARANHDRRRPATPFSGYVFICELDSSLLFRSISVVALVIAGCRLNSPARFILDYIHHRLVLAIVESAGMSELEEKLDEIKPSTRNEDELVEGDEGEEEDLSWSSDSDIGDALDWLDAKEDAEAVDGAFSLNARRPNAHGGLYSRHNYSTLQPLSNRNQKYSNHIRASPLEEWEGRFNVSMSNSVTTAIRGSVREMAIGKTKTTEKADRATVEQAIDPRTRMVLFKMLNRGVFHDINGCISTGKEANVYHATKSDGQELAVKVYKTSVLVFKDRDRYVQGDYRFRHGYCKHNPRKMVKTWAEKEMRNLLRLKAAGIRCPTPHLLRLHVLVMEFIGTAGWAAPRLKDAALSLNKLRESYLEIIITMRTLYQKCKLVHGDLSEYNILYFEGHLYVIDVSQAVDLDHPHALDFLREDCLHVSDFFKKHGVAVMTIRELFDFIVDPCLTDDMIDNYLGEMQQKIMARGDISVEDEIADSVFVQSYIPKTLDDVKHAEEDVIRLTSGQDTQDMYYKTITGLKQALPRVQPVPEFKDEEEHNAYPNEQSDKESESTSEGDEESSNESEGGPDSSTETTQAPVDRKTARKENKKKVKEEKREARKNKVPKAVKKRKKKLAKSHK Homology
BLAST of MC03g1127 vs. ExPASy Swiss-Prot
Match: Q9BRS2 (Serine/threonine-protein kinase RIO1 OS=Homo sapiens OX=9606 GN=RIOK1 PE=1 SV=2) HSP 1 Score: 401.7 bits (1031), Expect = 1.6e-110 Identity = 249/546 (45.60%), Postives = 339/546 (62.09%), Query Frame = 0
BLAST of MC03g1127 vs. ExPASy Swiss-Prot
Match: Q54VD8 (Serine/threonine-protein kinase rio1 OS=Dictyostelium discoideum OX=44689 GN=rio1 PE=3 SV=1) HSP 1 Score: 392.1 bits (1006), Expect = 1.2e-107 Identity = 242/554 (43.68%), Postives = 340/554 (61.37%), Query Frame = 0
BLAST of MC03g1127 vs. ExPASy Swiss-Prot
Match: Q922Q2 (Serine/threonine-protein kinase RIO1 OS=Mus musculus OX=10090 GN=Riok1 PE=1 SV=2) HSP 1 Score: 385.2 bits (988), Expect = 1.5e-105 Identity = 251/554 (45.31%), Postives = 341/554 (61.55%), Query Frame = 0
BLAST of MC03g1127 vs. ExPASy Swiss-Prot
Match: O44959 (Serine/threonine-protein kinase RIO1 OS=Caenorhabditis elegans OX=6239 GN=riok-1 PE=2 SV=5) HSP 1 Score: 328.9 bits (842), Expect = 1.3e-88 Identity = 189/409 (46.21%), Postives = 266/409 (65.04%), Query Frame = 0
BLAST of MC03g1127 vs. ExPASy Swiss-Prot
Match: O42650 (Serine/threonine-protein kinase rio1 OS=Schizosaccharomyces pombe (strain 972 / ATCC 24843) OX=284812 GN=rio1 PE=3 SV=2) HSP 1 Score: 306.2 bits (783), Expect = 8.9e-82 Identity = 206/538 (38.29%), Postives = 296/538 (55.02%), Query Frame = 0
BLAST of MC03g1127 vs. NCBI nr
Match: XP_022137613.1 (serine/threonine-protein kinase RIO1-like, partial [Momordica charantia]) HSP 1 Score: 1278 bits (3308), Expect = 0.0 Identity = 661/664 (99.55%), Postives = 661/664 (99.55%), Query Frame = 0
BLAST of MC03g1127 vs. NCBI nr
Match: XP_038895087.1 (serine/threonine-protein kinase RIO1-like [Benincasa hispida] >XP_038895088.1 serine/threonine-protein kinase RIO1-like [Benincasa hispida]) HSP 1 Score: 945 bits (2442), Expect = 0.0 Identity = 497/558 (89.07%), Postives = 518/558 (92.83%), Query Frame = 0
BLAST of MC03g1127 vs. NCBI nr
Match: XP_008437198.1 (PREDICTED: serine/threonine-protein kinase RIO1-like [Cucumis melo] >TYJ99080.1 serine/threonine-protein kinase RIO1-like [Cucumis melo var. makuwa]) HSP 1 Score: 938 bits (2424), Expect = 0.0 Identity = 493/563 (87.57%), Postives = 519/563 (92.18%), Query Frame = 0
BLAST of MC03g1127 vs. NCBI nr
Match: XP_004137539.1 (serine/threonine-protein kinase RIO1 [Cucumis sativus]) HSP 1 Score: 936 bits (2419), Expect = 0.0 Identity = 490/563 (87.03%), Postives = 516/563 (91.65%), Query Frame = 0
BLAST of MC03g1127 vs. NCBI nr
Match: XP_023542499.1 (serine/threonine-protein kinase RIO1-like isoform X1 [Cucurbita pepo subsp. pepo]) HSP 1 Score: 911 bits (2354), Expect = 0.0 Identity = 487/572 (85.14%), Postives = 520/572 (90.91%), Query Frame = 0
BLAST of MC03g1127 vs. ExPASy TrEMBL
Match: A0A6J1CAT3 (Non-specific serine/threonine protein kinase OS=Momordica charantia OX=3673 GN=LOC111009012 PE=3 SV=1) HSP 1 Score: 1278 bits (3308), Expect = 0.0 Identity = 661/664 (99.55%), Postives = 661/664 (99.55%), Query Frame = 0
BLAST of MC03g1127 vs. ExPASy TrEMBL
Match: A0A5D3BH21 (Serine/threonine-protein kinase RIO1 OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold248G002840 PE=3 SV=1) HSP 1 Score: 938 bits (2424), Expect = 0.0 Identity = 493/563 (87.57%), Postives = 519/563 (92.18%), Query Frame = 0
BLAST of MC03g1127 vs. ExPASy TrEMBL
Match: A0A1S3ATK0 (Serine/threonine-protein kinase RIO1 OS=Cucumis melo OX=3656 GN=LOC103482696 PE=3 SV=1) HSP 1 Score: 938 bits (2424), Expect = 0.0 Identity = 493/563 (87.57%), Postives = 519/563 (92.18%), Query Frame = 0
BLAST of MC03g1127 vs. ExPASy TrEMBL
Match: A0A0A0LQN2 (Serine/threonine-protein kinase RIO1 OS=Cucumis sativus OX=3659 GN=Csa_1G043280 PE=3 SV=1) HSP 1 Score: 936 bits (2419), Expect = 0.0 Identity = 490/563 (87.03%), Postives = 516/563 (91.65%), Query Frame = 0
BLAST of MC03g1127 vs. ExPASy TrEMBL
Match: A0A6J1K0V1 (Serine/threonine-protein kinase RIO1 OS=Cucurbita maxima OX=3661 GN=LOC111490077 PE=3 SV=1) HSP 1 Score: 908 bits (2346), Expect = 0.0 Identity = 486/572 (84.97%), Postives = 518/572 (90.56%), Query Frame = 0
BLAST of MC03g1127 vs. TAIR 10
Match: AT2G24990.1 (Serine/threonine-protein kinase Rio1 ) HSP 1 Score: 718.0 bits (1852), Expect = 7.0e-207 Identity = 379/526 (72.05%), Postives = 441/526 (83.84%), Query Frame = 0
BLAST of MC03g1127 vs. TAIR 10
Match: AT5G37350.1 (Serine/threonine-protein kinase Rio1 ) HSP 1 Score: 714.9 bits (1844), Expect = 5.9e-206 Identity = 382/539 (70.87%), Postives = 445/539 (82.56%), Query Frame = 0
BLAST of MC03g1127 vs. TAIR 10
Match: AT5G37350.2 (Serine/threonine-protein kinase Rio1 ) HSP 1 Score: 504.2 bits (1297), Expect = 1.6e-142 Identity = 270/373 (72.39%), Postives = 310/373 (83.11%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Bitter gourd (Dali-11) 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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