MC11g0570 (gene) Bitter gourd (Dali-11) v1
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Overview
Sequences
The following sequences are available for this feature:
Legend: utr5polypeptideCDSutr3 Hold the cursor over a type above to highlight its positions in the sequence below.GACATTTATTTCTCTTCCTTTGATTATTATATTTCTTTTATATGTGAGATAATATTGTAAAAAAAAAAGTTTTATTTAGATTATCTACCTATAGATTTTTGGACTTTCAAATTATCATTTTATTGTTTAAATGATGGAGGGTTAACGTAGAGAAGCTGCAAGATAATATGATGGGTCCCAGTCCCATCCCTTGGAGCTGACGTGGAGGAGTCCGGATGAGGATATTGATCATAAACTCCCAGTCTCCACAAATATAGCGCCACAGAATCTGTTCGCAATTTGCATTTTCTTCTTCTTCCGCCATTGTTGCAGAGAGAGGAAGCTCTAAGCAGGCCAAAAATGGCAGTTTCCTTCCTCTCTACCGTGCCTTCATTTCTTCCTCTTCAAACCGCCCCAGCTGCACCATCTCCCTCTTCTCACACTGTAAGTCTTCCCTTTCTTCCATAATGCGGAGCGCATTCTTGATCCTACATTCTGTCGCGTTAAATTTCAGGTCAGAATTCGTTGTGGCCAAATCAAACCGGATTCTAACAGCGAGGATCGATTTAGTAGAAGAGATCTTCTTCAAGGCTTCGGCGGTACCCTTTCCATGGTGAGAGCCATTTCTTTTTCTCTTTCAATTTCACCTCATTCTTTCCTCTGTACCCAGCATACCGTCAAAACTCTTATTTCGGAATTCAATTATATGAGTTAGAATGAAGTGATGATGAGTTTCTGCCAGTTGCGACCTCTTCTTAGGGATTGATGGTAAGCTCACACCAAATGGTGGAACCGGCTTATGCTGCTGATTTAATACAGCGCAGGCAACGATCTGATTTTTTATGTAAGTTATATTATCAGTCTGCATTATTGTTTTCCATTCTATTGTTTGCTTCTACTTTTTTATATGATGTTGCTATTCCCTAGTGGTTGAAATATATTGTATATAATGCGAGGTAATGGATTTACTTATTTCCCTTTTACATTGTTGATTGCAGCAAATATCAAGGGGACCCTTTTTACAGCTATTAAGGTATAAATCCAATAAATCATCACTAGCTCAAGTTGTTTTATCCTTTTTAGTGCATTCTCAACAAATAATCTAATGTTTAGGCTTGGATAATGGAACAGAGATTCAACATGTGACCATTAGTATAAAATAAGGAAGAATGACATTATGGGGATTTGAGCTTTTACGACCTATTGCATCACTATATGCTTAAATCGGTTAGGTTAGGGTACATGTAATCTTTTTAATATACTCTCACAACATTTTGGTTTTAACTTGTTTTAGCATGCAAATTGAAGGATTTATGTTCTTGTTCTAATAATTAAACACTTGGAGGAGATACTCATCCCCTTTGTTTTCTATTTTTATTTCAGAAAGATCCAGACATCGTTCCCTCCCTTTTAACATTAGCACTAAATGATGCTGTGACTTATGATAAGGTGAGACAAAAGTACTTCATCTATTTAAATTTACAAATCTAGACTTGATTGTACTGCATCAAGAAACTAAATAGACTGGAACGAAGATGCTGATAAGTTTTGATTGCATTTGTAGGCAACTAAATCTGGAGGGCCAAATGGATCCATTCGCTTCAGGTACTGCATTTTAGATGCCATTTCCTTATTTCTGAGAAAAAAATCATTAATATCCACATTCTTTTCATTATATACTTGTGCATGTATGGTGAGTCAATGATGATTCTCCAACACTTTTCAAGTATGGTATTATATTATTATTTAAATCATTATCTTTGCACTTTTTTTAGTTCCAAAATTATTTCAGCCACCGTATGGCACTGTTAAGCGTTAAATGTTTGTTTTATTTAACTAGCTACTGTGTTGTTTAAAAGTAATAACTTGGTGCTTCTTTCAATATTAAATCTGTTGACTTCTCTTCCATGCTTTCTGCTGTGAAGTTCAGAGATTTCCAGACCTGAAAATGAGAAACTTTCAGCTGCTTTGAGTTTAATAGAGGAAGCAAAGAAAGAGATAGATTCGTATTCAAAGGGTGGACCCATTTCCTATGCAGATCTTATCCAATTCGCAGGTTTTTTATGCCTTATGCTTATCATCTCTGAACTTTCTCCATACCTTGGCCAATTGCATTCTGATAACCTTCTTTAATCTTTTTTTTTTTTTTTAGTAAATTAGAGGCCTGCTGGTTACTAACTAAGTTGTCAGTGTAAAAGCCCCTAATTTATAGAATCTTTCAGTTCCTAATGGGGATGAGTTGGAGTGGGGTGATTCGTGTATTCTAATAGATAATAATGCTAGTGCCTTTTCTGAAGAAGAATGATAATATCTCTAGTTCATTTTCTCTATGCAGCACAAAGCGCCACTAAATCCACTTTTCTAGCTTCTGCCATCAGAAAATGTGGTGGGAATGAAGAAAAGGGGAATTTGTTATATACTGCGTATGGTTCCAGCGGGCAGGTTGGTTTCTTTGTACATTCATGCCGCATGCACATTGCATGTTTACCACAAATATACTCATCTAGTACATGCATGTGCCTGCGTAAGTGGGTCAGTAGGTGGGTGGATGTTAGAGTGAGGATCACTAGAGGGTTGACGAATATTCCTGTTAATGATGTCTTCTTTTATCAATTACATGGTGGACTAACTGATACTGCTTTCCTGAGCTAACAACCTCTGTTTTTGGCAAAGTGCTGAGCTGATATTCCCGCTATTATTGTTGTCTGATTCTCTGTGTTCACTTTTCTTCTTAAATCTGTTTCTTAGCTCTTAGACAACAAATCCGTGCAATCAATCTGATCATGTCAAGCGGTATTAGAGTGAATAGGGTTATTCAGAAAGAAAGTTCATGGAGACCAAAGTTGATAGAAAATATCATGAAAATTAGTTTCTTACATCAGTTTATTAACAACAGAAGATTGTGCTAGCTCAATCAAAGGGCATGTTTCACCATAAGTTAGGTTGCTTAACTGCAAACACGATTGTTGTGGATAAAATTCCACATAATAATTTATAGCTGTTGAAGTAATTTTTGCAAAATTTTTCAATCTGTAATTTGGTTGAGACAATTTCAGGATCCTCCACTTTTCTCATTCTAATTGGTTGGCCATTTCTTAGCCTGTCCAAATGGATAGAGAAAAGACACTGTTCTGAGAATTGTAGTCTGTGCATAAGCCAGCCTATAAATGCTAGAGTAGTGGTCAACTAATTATATGTCAAAAAAAGAATACGTGCATTTGCCAAATTTTTATTATTTGGGGTATAACACAAACAACGGTGTCTCCTTGTGCCCACAGTGGGGCTTGTTTGACAGGCAATTTGGAAGATCAGATGCCGAAGCACCTGATCCTGAGGGAAGGGTTCCCATCTGGGGGAAAGCTAGCGTCCAGGAAATGAAAGAGAAGTTCTCTGCTATTGGGTTTGGTCCCCGACAGGTACGTTTCTTAATTTCAAGCTGCATTTGAAATGTTTTGCTGCCTTAAAAGTATCAACCTGTCCATAGATTTCCTGTGGATTATATATATCAAAGAACTTAATTAATCCGTTCTATGTCAATTCAATATTTGTAGCTGTATTGTATACCTTATCATAGATTCTAATAGAGCATGTTTAGTGTCGTGTTAATTCACATTGATATCTTGATGATCAGAGGAGAACAAGCTCTTAACTCAAATGCTTTTGAGGTGACAATTGAAGTCTTGGCCTCTTGGTTGCGATCACCTATCTACAATATTAACATCTTATGGTTTTCATGATCATGACATGATGTGGGATTGGAAAATTTTTTATGTCAACAATGAAGCTAACACCCATGGCCATGGTTATCAAAAATAAAAGAAGCACAATCTTGTTGAACAAGAGGAGTTATTTTATATAACTGGTTTCTAAAAGCAATAAGATGTATTTATTTCCTGACAAGACCGCATGATCAAATCACATTTGTTTATATAGCTGTGGAAGTGTGATTTCATTGTGTTTCTTTGTTTTCCTTTTTGACTTAACTAATACTTTTTGAGGTTCATGTTAGGTTATACCTGGAGGATGAACTAAGATTTTATTTTTCATAATGTGCTTTTAAGTTAATATGAACGAACTATTAAAACAAAAGACTAAACATGTAATGAGGAACAAAGATGCAGGACCCTTGAAATGATCTTAAGATGCAAATATTATTAGTGATTGAAGCCTAAAACCTTGTTTGTCCAGCTAGCTGTTTTGTCTGCATTTCTGGGTCCTGATCAGGCAGCAACGGAGGAATTTCTAGCCTCAGATCCTGATGTTTTCCCATGGGTTCAAAAGTATCAACGTAGCCGTGAAACAGTATCTCAGACTGATTATGAGGTGAGTACGTGATTATTTATTTCTCTTCTAAAATGGACGAACTACCCCTTTTTGGCGGGCAAGAATAGGAATAGAATATCATATTAACTGCTTTTGCTCTCAGTCTTTTCATACTTTTAGATATTTTAATCCACCAATAAGTATATTCTCATTTGACCTATTCCTCCAGGTTGATCTAATAACTACTCTTACAAAAATAAGTAGCTTGGGACAGCAAATAAATTACGAGGCTTACACCTACCCAGTTAAGAAAGTTGATTTGAGCAAACTCAAGTTATAGTGAGTTTTGAAAAGATGATAGCCTTGAAGAAAGCTACTCTGCATTTTGAAACCAATTTTATACATCAGGCTTTACCACTTGGAGAATTGTATTGGAAGTTGGTCTGTAGGCATTGGCCATAGTTTACACACTTCGAAATGTACAATTTGTTGAAATCCACTGAAATTTTTCGTTCAAATTCTGTTCACACTATCTTTCCTTTCAAACCAATTTCTGTTTACGAGTCAAAAGTCTCAGCTGTGAGCAGGTATCAATGGGTATCAAGGGGTACAAGCATTTATAGCCGATGCCAGGGAATTGTACTGGTTACTCAACAGTAACAGAGACAGCATTTAAAGCCAAACAGATCTCAGTTTTGTCATACCACAAAACCTAAGAACATGAGAAAGCTTTATTTGATGATCTGTGGCTTTTGCAGCAATTTCTTTGAATTCCTCACTCTTTCACCATCCAAATAGGTCGTATGGACTACAAAAACTGAAATTTAAGGAATGAAAAACAGTCGGGATTGCCTCAGTGTACCCTATGCAGATGTGGGAGCAATTAGCTCTAAGCCCCCCATGAAAGGTCTCAAGGGCTCAGGGATAATAACAGAGCCATCTTCTTGCTGATAATTCTCGAGCAAGCAAATGATCATCCGTGGAATAGCACATGCTGTTGCATTCAACGTGTGAACGAACTGGGTAGGTGCCAGATTGCTTTTGCCCTTCTTTGAAGTTGTCGGCACCGGTTCATGTGGACGATATCGGATTCCTAATCTGCGGCTTTGATAGTCTGTACAATTCGATGCACTTGATATCTGTTGAGGACAACAGGGTATGGTTCGTAAATAAGATTTCAAATCTCTCAAAACAATTTAGCTCTAACCATATCCCCACTAAGGAGGAGAGAGAGGAGAGAGTTGAGAACCTCGCCGTATCGTCCTAAACCCGGCATCCATGCCTCCACATCAAATTTCCGATAAGCAGGAGCACCTAAATCTTCAGAAGCCATATCCAAGGTCCTGTGAGGATAACAGAGATGATGTAAAATGGGGCAACCAAAAACAGAACAATGCAGTGGCAACGAAGATCATTAATTCCCAAATAAAAGCAGGTTCTTACTTGAAATGCAATCCCAGTGATGAGAATAGGTGCTCTTCAATCCTAATGAGTTCTTCGTGGTAAGACTCGCTCTCTTCAGGTCGGCAAAATATAAACATCTCTAACTTGCTGAACTGGTGCACTCGATAAAGGCCCCTGCTCGGCATTAGATTAATATATCAAATACTACATAGCAAAGAAGACTTAGCAGTAATGATATGAGTGAAATAAAAGAAGTGAGACGCAGACTCAGGGCTTGTTCATTTATAGGATGATAGAGTTTTCAAACGATGTGGAACCACGGGCTTAGAGATGTTGGTCTGTACCTTGTTGCAGCTCCAGCAGCACCTGCCTCGGTACGAAAGCAATGAGAATAAGCCACATACTTCAAAGGTAATGAAGACTCGGAAAGGATAGAATCCATGTGAATCCCTCCTACGGGAATTTCTGCAGTACCGATGAGGCATTGGTCACTTCCCTCAATGGAATAAACCTACCAAGCAGTGAGCAGAGTGTGAAAAAATTGTAATTAAAATCCTCTTAGATGCTGACTATGGAAAGAAGTCTCTCATTCTATATTATAAAATGGCACCTTAAAAGTTAAAACACATCAATATGTATAAGAAATGTTATAATTAGCCACGGAAAGAGTTTCTTACAACGTTTAGCAAAACGAAAGCATATACAATTAATGGATGAAATTATCATCTGGAATGGTCAAGCTTGTACTCTACTCGATATCTGAGTTTGAGGCCTTGGAGTATATTGAAAACGAGCTAGATCTCAGTAGGAGTCAATTGAATTACTAAATATATACAAGGTTTACTGGGGGATTATCTCGAAACGATGAAGCTATCGGTCAGAGACCTCAAATAATGTTGCTTTTACTTATCTGTGGATAGAGAAGATGTGCGAAAAAAGGTTCTACCTGAGTATTTTCGCCACGAGGTTGGAACCCACACTTCTCAACAACTGAGGACCTCACAATTTCCGGGGTTATCAAAGGAGTAAATCCCCTTTTCATTACTTCCGAGAGTGTCCAGTTGATAAGACCCAGTTCCAATGTAACCGCTGCATTCTTCAGGTAGTAGAACTTAGATCCACTTACCTGTATAAACCAGAAAAATTTAACATTAGACATAAGAACTACAATAACTACCAAGTAATTCGAGGTACTTGGGCCCTCCCCTCTCTTGAGTATTCATACTCAAGTCAAAACCAAACTCACTAATTGGATACCTCCCTTCTTACACCCTCACTCTATTTATAATACTATCTCTAATAATTTCCCTATCTAATTACTAAGATACCCTCAATACCCTAATAATATCCCTAATTACCCTTAAGGTCATTCCTATCATTCCCACTTCCATAAAATGTAAGGAAACTAATCAACGTTTGAATAGGAATAGGCCTAGTTATGGATGATGGACTGAATATCTCTTATCTACGGTCCCGTTAGCATCAAAACTTGACAGTTATAACTCTAAGGCCATACATGGAGATAATGAACAACTAAACCAACACTGATGAGTCATGAACATAACAAAGTAAGCAAGGACATGTAATTTATCTTTTGGAGATATAGTCCTCCAATTTTACACCATAGAATGATAAGCACTGACCTAAAATAAGACAGAGTGAATGTTATGTGAGGATCTAAAGTCGAAACAAGAGTTCTCTTCATAAAACGTTCCAGATATACGTATAACAAGGTGAACTAGTAGCTCCTCTTAAGTACCTTAAACTGAACAAGGATTGTACCTCAGCAGCAGCATCGAAATCAAAAAGGTTTAACCGCTTCCCAAGTTCAAGATGATCTTTAACAGGAAAGCTGAACTCCCTTGGGGTACCGACCTACGAAAGAGAATGCAGAATGTAAAACGTACCATTCACAAGGATTAAGGTAAAGAAATATAATATAGAGTTGGAAAGTAGAAATACCGTCTTTCTTATCGTCGAGCATTCCTCCCCTCCTATAGGAACATCCGGGTGGGTCATGTTTGGTATACATTGTGCTTCTTGCTGAAGCTGATCTGTAAGTTTAAGAAGGTTTTCTTCCAAAGAGACTAGTCCTTCCTTCAGATTCTTTCCTGAAAAGAGAAATACCAGAGCGAGTTTGACAACAATGAAATTGAGAATAAAGCTAATGAAAAATTCAGACAGAAGAAATCCATATACCTTCCTCTATGAGTTTTTGCCGCTCAGATGGCTCCAGCTTCCCTTTCATCTTGTTTGCAACCGCATTCCTTTCTGCACGAAGCCGCTCGACTTCCTGGTATCTGTGAGTAACAGTTAGCTAAGCATTGGTTTCAAAATTACATACATAGTTTGACAGTTTGATGGTATGTCCTGGTGTATATTAGGGGGACTAAAATTTTGATGAAAGTATCATCAACAGGCCTAATAATCCAGCTCCAATGGTGCAAGAATGACAAACTGAATCAACACCCAGAAAAGAAAAAGTGAAAACAAAATCCAAATATAACCTTCTGGAGATTCAACATTTTGTCATACAGCTGGAGCACAAGTTCCAAATCAACACCAGACTTCCGATTGAGTATATTTGCAGCTACCAAATCCCTGTTGTCCCTAATCCACTTGAAGTCGATGGAAGCTCTCCATTGGGGCTTGGCGACTAATTCCCAATTCAAGAACAACATTAACGACGCCAAACTCCCGAAATGTCAAACGATGATGAACATGGAAGAGAAAGATGAATTACCCTTTTCTTCTCCGGCGATTGTAGTGGGAGGGTCGGCTTGGAGCGCCGGCAATGAGAGAGCTCGAAGGAGCAGTGGAATTGGAGGTCGTCTCTTGTTACGGCAAAAATGGGGATTCAGAGAATTGAGAGACGGCGGCCTGAAAATTAGACGGGAAGTGGAAGGCGTTGGAAAGGCGGCGAGCTTGAGAGTTTGGAAGCAGTGAAGCCCCATCGGTGGGCGGCGGAGGAAGATTTTTGTTCGGCGTTGAAGGAAGTGGATGGCTGCGCTTGCTTTGGCTTTACTTGCCCCAATTATCTTCTGAATCTCTTGATGTATTCGGGACGATGAATTTTGGATTACAAGTTTAGAC GACATTTATTTCTCTTCCTTTGATTATTATATTTCTTTTATATGTGAGATAATATTGTAAAAAAAAAAGTTTTATTTAGATTATCTACCTATAGATTTTTGGACTTTCAAATTATCATTTTATTGTTTAAATGATGGAGGGTTAACGTAGAGAAGCTGCAAGATAATATGATGGGTCCCAGTCCCATCCCTTGGAGCTGACGTGGAGGAGTCCGGATGAGGATATTGATCATAAACTCCCAGTCTCCACAAATATAGCGCCACAGAATCTGTTCGCAATTTGCATTTTCTTCTTCTTCCGCCATTGTTGCAGAGAGAGGAAGCTCTAAGCAGGCCAAAAATGGCAGTTTCCTTCCTCTCTACCGTGCCTTCATTTCTTCCTCTTCAAACCGCCCCAGCTGCACCATCTCCCTCTTCTCACACTGTCAGAATTCGTTGTGGCCAAATCAAACCGGATTCTAACAGCGAGGATCGATTTAGTAGAAGAGATCTTCTTCAAGGCTTCGGCGGTACCCTTTCCATGGGATTGATGGTAAGCTCACACCAAATGGTGGAACCGGCTTATGCTGCTGATTTAATACAGCGCAGGCAACGATCTGATTTTTTATCAAATATCAAGGGGACCCTTTTTACAGCTATTAAGAAAGATCCAGACATCGTTCCCTCCCTTTTAACATTAGCACTAAATGATGCTGTGACTTATGATAAGGCAACTAAATCTGGAGGGCCAAATGGATCCATTCGCTTCAGTTCAGAGATTTCCAGACCTGAAAATGAGAAACTTTCAGCTGCTTTGAGTTTAATAGAGGAAGCAAAGAAAGAGATAGATTCGTATTCAAAGGGTGGACCCATTTCCTATGCAGATCTTATCCAATTCGCAGCACAAAGCGCCACTAAATCCACTTTTCTAGCTTCTGCCATCAGAAAATGTGGTGGGAATGAAGAAAAGGGGAATTTGTTATATACTGCGTATGGTTCCAGCGGGCAGTGGGGCTTGTTTGACAGGCAATTTGGAAGATCAGATGCCGAAGCACCTGATCCTGAGGGAAGGGTTCCCATCTGGGGGAAAGCTAGCGTCCAGGAAATGAAAGAGAAGTTCTCTGCTATTGGGTTTGGTCCCCGACAGCTAGCTGTTTTGTCTGCATTTCTGGGTCCTGATCAGGCAGCAACGGAGGAATTTCTAGCCTCAGATCCTGATGTTTTCCCATGGGTTCAAAAGTATCAACGTAGCCGTGAAACAGTATCTCAGACTGATTATGAGGTTGATCTAATAACTACTCTTACAAAAATAAGTAGCTTGGGACAGCAAATAAATTACGAGGCTTACACCTACCCAGTTAAGAAAGTTGATTTGAGCAAACTCAAGTTATAGTGAGTTTTGAAAAGATGATAGCCTTGAAGAAAGCTACTCTGCATTTTGAAACCAATTTTATACATCAGGCTTTACCACTTGGAGAATTGTATTGGAAGTTGGTCTGTAGGCATTGGCCATAGTTTACACACTTCGAAATGTACAATTTGTTGAAATCCACTGAAATTTTTCGTTCAAATTCTGTTCACACTATCTTTCCTTTCAAACCAATTTCTGTTTACGAGTCAAAAGTCTCAGCTGTGAGCAGGTATCAATGGGTATCAAGGGGTACAAGCATTTATAGCCGATGCCAGGGAATTGTACTGGTTACTCAACAGTAACAGAGACAGCATTTAAAGCCAAACAGATCTCAGTTTTGTCATACCACAAAACCTAAGAACATGAGAAAGCTTTATTTGATGATCTGTGGCTTTTGCAGCAATTTCTTTGAATTCCTCACTCTTTCACCATCCAAATAGGTCGTATGGACTACAAAAACTGAAATTTAAGGAATGAAAAACAGTCGGGATTGCCTCAGTGTACCCTATGCAGATGTGGGAGCAATTAGCTCTAAGCCCCCCATGAAAGGTCTCAAGGGCTCAGGGATAATAACAGAGCCATCTTCTTGCTGATAATTCTCGAGCAAGCAAATGATCATCCGTGGAATAGCACATGCTGTTGCATTCAACGTGTGAACGAACTGGGTAGGTGCCAGATTGCTTTTGCCCTTCTTTGAAGTTGTCGGCACCGGTTCATGTGGACGATATCGGATTCCTAATCTGCGGCTTTGATAGTCTGTACAATTCGATGCACTTGATATCTGTTGAGGACAACAGGGTATGGTTCGTAAATAAGATTTCAAATCTCTCAAAACAATTTAGCTCTAACCATATCCCCACTAAGGAGGAGAGAGAGGAGAGAGTTGAGAACCTCGCCGTATCGTCCTAAACCCGGCATCCATGCCTCCACATCAAATTTCCGATAAGCAGGAGCACCTAAATCTTCAGAAGCCATATCCAAGGTCCTGTGAGGATAACAGAGATGATGTAAAATGGGGCAACCAAAAACAGAACAATGCAGTGGCAACGAAGATCATTAATTCCCAAATAAAAGCAGGTTCTTACTTGAAATGCAATCCCAGTGATGAGAATAGGTGCTCTTCAATCCTAATGAGTTCTTCGTGGTAAGACTCGCTCTCTTCAGGTCGGCAAAATATAAACATCTCTAACTTGCTGAACTGGTGCACTCGATAAAGGCCCCTGCTCGGCATTAGATTAATATATCAAATACTACATAGCAAAGAAGACTTAGCAGTAATGATATGAGTGAAATAAAAGAAGTGAGACGCAGACTCAGGGCTTGTTCATTTATAGGATGATAGAGTTTTCAAACGATGTGGAACCACGGGCTTAGAGATGTTGGTCTGTACCTTGTTGCAGCTCCAGCAGCACCTGCCTCGGTACGAAAGCAATGAGAATAAGCCACATACTTCAAAGGTAATGAAGACTCGGAAAGGATAGAATCCATGTGAATCCCTCCTACGGGAATTTCTGCAGTACCGATGAGGCATTGGTCACTTCCCTCAATGGAATAAACCTACCAAGCAGTGAGCAGAGTGTGAAAAAATTGTAATTAAAATCCTCTTAGATGCTGACTATGGAAAGAAGTCTCTCATTCTATATTATAAAATGGCACCTTAAAAGTTAAAACACATCAATATGTATAAGAAATGTTATAATTAGCCACGGAAAGAGTTTCTTACAACGTTTAGCAAAACGAAAGCATATACAATTAATGGATGAAATTATCATCTGGAATGGTCAAGCTTGTACTCTACTCGATATCTGAGTTTGAGGCCTTGGAGTATATTGAAAACGAGCTAGATCTCAGTAGGAGTCAATTGAATTACTAAATATATACAAGGTTTACTGGGGGATTATCTCGAAACGATGAAGCTATCGGTCAGAGACCTCAAATAATGTTGCTTTTACTTATCTGTGGATAGAGAAGATGTGCGAAAAAAGGTTCTACCTGAGTATTTTCGCCACGAGGTTGGAACCCACACTTCTCAACAACTGAGGACCTCACAATTTCCGGGGTTATCAAAGGAGTAAATCCCCTTTTCATTACTTCCGAGAGTGTCCAGTTGATAAGACCCAGTTCCAATGTAACCGCTGCATTCTTCAGGTAGTAGAACTTAGATCCACTTACCTGTATAAACCAGAAAAATTTAACATTAGACATAAGAACTACAATAACTACCAAGTAATTCGAGGTACTTGGGCCCTCCCCTCTCTTGAGTATTCATACTCAAGTCAAAACCAAACTCACTAATTGGATACCTCCCTTCTTACACCCTCACTCTATTTATAATACTATCTCTAATAATTTCCCTATCTAATTACTAAGATACCCTCAATACCCTAATAATATCCCTAATTACCCTTAAGGTCATTCCTATCATTCCCACTTCCATAAAATGTAAGGAAACTAATCAACGTTTGAATAGGAATAGGCCTAGTTATGGATGATGGACTGAATATCTCTTATCTACGGTCCCGTTAGCATCAAAACTTGACAGTTATAACTCTAAGGCCATACATGGAGATAATGAACAACTAAACCAACACTGATGAGTCATGAACATAACAAAGTAAGCAAGGACATGTAATTTATCTTTTGGAGATATAGTCCTCCAATTTTACACCATAGAATGATAAGCACTGACCTAAAATAAGACAGAGTGAATGTTATGTGAGGATCTAAAGTCGAAACAAGAGTTCTCTTCATAAAACGTTCCAGATATACGTATAACAAGGTGAACTAGTAGCTCCTCTTAAGTACCTTAAACTGAACAAGGATTGTACCTCAGCAGCAGCATCGAAATCAAAAAGGTTTAACCGCTTCCCAAGTTCAAGATGATCTTTAACAGGAAAGCTGAACTCCCTTGGGGTACCGACCTACGAAAGAGAATGCAGAATGTAAAACGTACCATTCACAAGGATTAAGGTAAAGAAATATAATATAGAGTTGGAAAGTAGAAATACCGTCTTTCTTATCGTCGAGCATTCCTCCCCTCCTATAGGAACATCCGGGTGGGTCATGTTTGGTATACATTGTGCTTCTTGCTGAAGCTGATCTGTAAGTTTAAGAAGGTTTTCTTCCAAAGAGACTAGTCCTTCCTTCAGATTCTTTCCTGAAAAGAGAAATACCAGAGCGAGTTTGACAACAATGAAATTGAGAATAAAGCTAATGAAAAATTCAGACAGAAGAAATCCATATACCTTCCTCTATGAGTTTTTGCCGCTCAGATGGCTCCAGCTTCCCTTTCATCTTGTTTGCAACCGCATTCCTTTCTGCACGAAGCCGCTCGACTTCCTGGTATCTGTGAGTAACAGTTAGCTAAGCATTGGTTTCAAAATTACATACATAGTTTGACAGTTTGATGGTATGTCCTGGTGTATATTAGGGGGACTAAAATTTTGATGAAAGTATCATCAACAGGCCTAATAATCCAGCTCCAATGGTGCAAGAATGACAAACTGAATCAACACCCAGAAAAGAAAAAGTGAAAACAAAATCCAAATATAACCTTCTGGAGATTCAACATTTTGTCATACAGCTGGAGCACAAGTTCCAAATCAACACCAGACTTCCGATTGAGTATATTTGCAGCTACCAAATCCCTGTTGTCCCTAATCCACTTGAAGTCGATGGAAGCTCTCCATTGGGGCTTGGCGACTAATTCCCAATTCAAGAACAACATTAACGACGCCAAACTCCCGAAATGTCAAACGATGATGAACATGGAAGAGAAAGATGAATTACCCTTTTCTTCTCCGGCGATTGTAGTGGGAGGGTCGGCTTGGAGCGCCGGCAATGAGAGAGCTCGAAGGAGCAGTGGAATTGGAGGTCGTCTCTTGTTACGGCAAAAATGGGGATTCAGAGAATTGAGAGACGGCGGCCTGAAAATTAGACGGGAAGTGGAAGGCGTTGGAAAGGCGGCGAGCTTGAGAGTTTGGAAGCAGTGAAGCCCCATCGGTGGGCGGCGGAGGAAGATTTTTGTTCGGCGTTGAAGGAAGTGGATGGCTGCGCTTGCTTTGGCTTTACTTGCCCCAATTATCTTCTGAATCTCTTGATGTATTCGGGACGATGAATTTTGGATTACAAGTTTAGAC ATGGCAGTTTCCTTCCTCTCTACCGTGCCTTCATTTCTTCCTCTTCAAACCGCCCCAGCTGCACCATCTCCCTCTTCTCACACTGTCAGAATTCGTTGTGGCCAAATCAAACCGGATTCTAACAGCGAGGATCGATTTAGTAGAAGAGATCTTCTTCAAGGCTTCGGCGGTACCCTTTCCATGGGATTGATGGTAAGCTCACACCAAATGGTGGAACCGGCTTATGCTGCTGATTTAATACAGCGCAGGCAACGATCTGATTTTTTATCAAATATCAAGGGGACCCTTTTTACAGCTATTAAGAAAGATCCAGACATCGTTCCCTCCCTTTTAACATTAGCACTAAATGATGCTGTGACTTATGATAAGGCAACTAAATCTGGAGGGCCAAATGGATCCATTCGCTTCAGTTCAGAGATTTCCAGACCTGAAAATGAGAAACTTTCAGCTGCTTTGAGTTTAATAGAGGAAGCAAAGAAAGAGATAGATTCGTATTCAAAGGGTGGACCCATTTCCTATGCAGATCTTATCCAATTCGCAGCACAAAGCGCCACTAAATCCACTTTTCTAGCTTCTGCCATCAGAAAATGTGGTGGGAATGAAGAAAAGGGGAATTTGTTATATACTGCGTATGGTTCCAGCGGGCAGTGGGGCTTGTTTGACAGGCAATTTGGAAGATCAGATGCCGAAGCACCTGATCCTGAGGGAAGGGTTCCCATCTGGGGGAAAGCTAGCGTCCAGGAAATGAAAGAGAAGTTCTCTGCTATTGGGTTTGGTCCCCGACAGCTAGCTGTTTTGTCTGCATTTCTGGGTCCTGATCAGGCAGCAACGGAGGAATTTCTAGCCTCAGATCCTGATGTTTTCCCATGGGTTCAAAAGTATCAACGTAGCCGTGAAACAGTATCTCAGACTGATTATGAGGTTGATCTAATAACTACTCTTACAAAAATAAGTAGCTTGGGACAGCAAATAAATTACGAGGCTTACACCTACCCAGTTAAGAAAGTTGATTTGAGCAAACTCAAGTTATAG MAVSFLSTVPSFLPLQTAPAAPSPSSHTVRIRCGQIKPDSNSEDRFSRRDLLQGFGGTLSMGLMVSSHQMVEPAYAADLIQRRQRSDFLSNIKGTLFTAIKKDPDIVPSLLTLALNDAVTYDKATKSGGPNGSIRFSSEISRPENEKLSAALSLIEEAKKEIDSYSKGGPISYADLIQFAAQSATKSTFLASAIRKCGGNEEKGNLLYTAYGSSGQWGLFDRQFGRSDAEAPDPEGRVPIWGKASVQEMKEKFSAIGFGPRQLAVLSAFLGPDQAATEEFLASDPDVFPWVQKYQRSRETVSQTDYEVDLITTLTKISSLGQQINYEAYTYPVKKVDLSKLKL Homology
BLAST of MC11g0570 vs. ExPASy Swiss-Prot
Match: Q9THX6 (Thylakoid lumenal 29 kDa protein, chloroplastic OS=Solanum lycopersicum OX=4081 GN=CLEB3J9 PE=3 SV=1) HSP 1 Score: 474.6 bits (1220), Expect = 9.8e-133 Identity = 247/349 (70.77%), Postives = 283/349 (81.09%), Query Frame = 0
BLAST of MC11g0570 vs. ExPASy Swiss-Prot
Match: P82281 (Thylakoid lumenal 29 kDa protein, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=TL29 PE=1 SV=2) HSP 1 Score: 448.4 bits (1152), Expect = 7.5e-125 Identity = 243/346 (70.23%), Postives = 272/346 (78.61%), Query Frame = 0
BLAST of MC11g0570 vs. ExPASy Swiss-Prot
Match: Q0JEQ2 (Probable L-ascorbate peroxidase 3, peroxisomal OS=Oryza sativa subsp. japonica OX=39947 GN=APX3 PE=2 SV=1) HSP 1 Score: 70.1 bits (170), Expect = 5.6e-11 Identity = 63/203 (31.03%), Postives = 86/203 (42.36%), Query Frame = 0
BLAST of MC11g0570 vs. ExPASy Swiss-Prot
Match: Q7XZP5 (L-ascorbate peroxidase 5, peroxisomal OS=Arabidopsis thaliana OX=3702 GN=APX5 PE=1 SV=2) HSP 1 Score: 70.1 bits (170), Expect = 5.6e-11 Identity = 69/235 (29.36%), Postives = 102/235 (43.40%), Query Frame = 0
BLAST of MC11g0570 vs. ExPASy Swiss-Prot
Match: Q01MI9 (Probable L-ascorbate peroxidase 3 OS=Oryza sativa subsp. indica OX=39946 GN=APX3 PE=2 SV=1) HSP 1 Score: 68.9 bits (167), Expect = 1.2e-10 Identity = 62/203 (30.54%), Postives = 86/203 (42.36%), Query Frame = 0
BLAST of MC11g0570 vs. NCBI nr
Match: XP_022133449.1 (thylakoid lumenal 29 kDa protein, chloroplastic isoform X1 [Momordica charantia]) HSP 1 Score: 672 bits (1733), Expect = 2.72e-243 Identity = 343/343 (100.00%), Postives = 343/343 (100.00%), Query Frame = 0
BLAST of MC11g0570 vs. NCBI nr
Match: XP_038897501.1 (thylakoid lumenal 29 kDa protein, chloroplastic isoform X1 [Benincasa hispida]) HSP 1 Score: 609 bits (1571), Expect = 1.54e-218 Identity = 313/347 (90.20%), Postives = 333/347 (95.97%), Query Frame = 0
BLAST of MC11g0570 vs. NCBI nr
Match: XP_022936227.1 (thylakoid lumenal 29 kDa protein, chloroplastic isoform X1 [Cucurbita moschata] >XP_022936228.1 thylakoid lumenal 29 kDa protein, chloroplastic isoform X1 [Cucurbita moschata]) HSP 1 Score: 594 bits (1531), Expect = 2.14e-212 Identity = 309/350 (88.29%), Postives = 326/350 (93.14%), Query Frame = 0
BLAST of MC11g0570 vs. NCBI nr
Match: XP_022975932.1 (thylakoid lumenal 29 kDa protein, chloroplastic isoform X1 [Cucurbita maxima]) HSP 1 Score: 592 bits (1527), Expect = 7.79e-212 Identity = 305/347 (87.90%), Postives = 326/347 (93.95%), Query Frame = 0
BLAST of MC11g0570 vs. NCBI nr
Match: XP_008466210.1 (PREDICTED: thylakoid lumenal 29 kDa protein, chloroplastic isoform X1 [Cucumis melo] >KAA0038694.1 thylakoid lumenal 29 kDa protein [Cucumis melo var. makuwa] >TYK31305.1 thylakoid lumenal 29 kDa protein [Cucumis melo var. makuwa]) HSP 1 Score: 590 bits (1521), Expect = 6.63e-211 Identity = 303/348 (87.07%), Postives = 324/348 (93.10%), Query Frame = 0
BLAST of MC11g0570 vs. ExPASy TrEMBL
Match: A0A6J1BW05 (thylakoid lumenal 29 kDa protein, chloroplastic isoform X1 OS=Momordica charantia OX=3673 GN=LOC111006019 PE=3 SV=1) HSP 1 Score: 672 bits (1733), Expect = 1.32e-243 Identity = 343/343 (100.00%), Postives = 343/343 (100.00%), Query Frame = 0
BLAST of MC11g0570 vs. ExPASy TrEMBL
Match: A0A6J1F7V3 (thylakoid lumenal 29 kDa protein, chloroplastic isoform X1 OS=Cucurbita moschata OX=3662 GN=LOC111442901 PE=3 SV=1) HSP 1 Score: 594 bits (1531), Expect = 1.04e-212 Identity = 309/350 (88.29%), Postives = 326/350 (93.14%), Query Frame = 0
BLAST of MC11g0570 vs. ExPASy TrEMBL
Match: A0A6J1IEE0 (thylakoid lumenal 29 kDa protein, chloroplastic isoform X1 OS=Cucurbita maxima OX=3661 GN=LOC111476489 PE=3 SV=1) HSP 1 Score: 592 bits (1527), Expect = 3.77e-212 Identity = 305/347 (87.90%), Postives = 326/347 (93.95%), Query Frame = 0
BLAST of MC11g0570 vs. ExPASy TrEMBL
Match: A0A5D3E7N2 (Thylakoid lumenal 29 kDa protein OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold455G006040 PE=3 SV=1) HSP 1 Score: 590 bits (1521), Expect = 3.21e-211 Identity = 303/348 (87.07%), Postives = 324/348 (93.10%), Query Frame = 0
BLAST of MC11g0570 vs. ExPASy TrEMBL
Match: A0A1S3CS32 (thylakoid lumenal 29 kDa protein, chloroplastic isoform X1 OS=Cucumis melo OX=3656 GN=LOC103503691 PE=3 SV=1) HSP 1 Score: 590 bits (1521), Expect = 3.21e-211 Identity = 303/348 (87.07%), Postives = 324/348 (93.10%), Query Frame = 0
BLAST of MC11g0570 vs. TAIR 10
Match: AT4G09010.1 (ascorbate peroxidase 4 ) HSP 1 Score: 448.4 bits (1152), Expect = 5.3e-126 Identity = 243/346 (70.23%), Postives = 272/346 (78.61%), Query Frame = 0
BLAST of MC11g0570 vs. TAIR 10
Match: AT4G32320.1 (ascorbate peroxidase 6 ) HSP 1 Score: 71.2 bits (173), Expect = 1.8e-12 Identity = 78/281 (27.76%), Postives = 115/281 (40.93%), Query Frame = 0
BLAST of MC11g0570 vs. TAIR 10
Match: AT4G35970.1 (ascorbate peroxidase 5 ) HSP 1 Score: 70.1 bits (170), Expect = 3.9e-12 Identity = 69/235 (29.36%), Postives = 102/235 (43.40%), Query Frame = 0
BLAST of MC11g0570 vs. TAIR 10
Match: AT4G35000.1 (ascorbate peroxidase 3 ) HSP 1 Score: 60.1 bits (144), Expect = 4.1e-09 Identity = 51/160 (31.87%), Postives = 71/160 (44.38%), Query Frame = 0
BLAST of MC11g0570 vs. TAIR 10
Match: AT3G09640.1 (ascorbate peroxidase 2 ) HSP 1 Score: 53.5 bits (127), Expect = 3.8e-07 Identity = 47/160 (29.38%), Postives = 67/160 (41.88%), 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 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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