MC02g0553 (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.GTTTACTTCAGTAATTAAGACAGATATAAGAGACTAAAAAAAAAGAGTGTATATAAGTATAAGTGGGCAGAAGTCGGATAATTCGGGAACCCGATTATTTGGGCCCGAGAAACCGACGTTTTCTTTAATTGTTCCTCACGGCTGGAAGTAATGGCGTGAGTTGACTGCGTGTCCTTCAAGCTATCCAGACATTTTAATATACTCCGACCAAAACCCTAATTCAGATTCTGCGTACTTCCTACCGAGCGAGGATTAGGAACCTCTTGGAAAGAAGAAAAAGGAGACGGAGAAAGTTGAAATGGCTGGAATCGGACCACTTTCACAGGATTGGGAACCGGTGGTCCTCAGGAAGAAGGCACCCAACGCGGCTGCCAAGAAGGATGAGAAAGCCGTCAATGCAGCGCGGCGAGCCGGGGCGGAGATTGAGACTATAAAGAAATGTGCGCCCTCTAATTTTGATAATTATTTCATCCCTTTGATTTTCTTATTTGAAATCTCAATCACTCGCTTCTTGTTTTTTGTTTGGACTTTGAACTCTATTTTTGCTCAAGTAGTTTAAAAGTATAGGATAATTATTAAGTCGGGAGTGATGATATCAAATTATATCCAAGTTTTATGTTGGGAGGCAATTAGGACTGGTTTTTTGAACTGGGCATCACCTGGAATGTTTAAATTTTTAAAAGATCAGTGGGCAATCATCGTTTGTGACTTGGTGTCGACCCTTGCAGAGTTGGGCTATGCATATCTTTCTGAATCCTCTTATATTCTGCTTATGTTGGTTCAAAACTCGTCCGGAGTTTGTTTTATTAAGTCTAATATAGCGTTGCTACGATACTTTTTTTTGGCCTTTTGCAGCTGCTGCTGGGTCAAACAAATCTGCCTCTAGCAGTACTAGTTTGAACACTAGGAAGCTTGACGAAGAGACTGAGAACCTTTCTCGTGAGTACTTCTGGATTACATTTGCATTGCATCGTTGGATAAGTTTTATCATCCACTCGTGTTTGTGGTTTAAGCTCTTAGCAGATTAGTTGGTCTCTTGACTCTTATTAGAGATATTAATTATAAATTTGGTTGCTAGACTTTCAAAGTTGTATCTATTTATTCATCGTACTTTAAGAAGTTTATTATAGATTTACGAAATTTTAGGGTTATGTTTATCCAGTTCTTCTATTTTAAAAGTTTTTAATATGTCCCTGAATTTTAAAATTTTTGTATTGTAGGTCCCTATGGTTAGCTCTTTTAATACTTATATGCATTCATTATGTATTGTTTAAGGATTATGTAACGACACAAACCTTGAATAATACAGTCAGACGTCAGTGATGTATTTGACACGCAATTGAAAGTTTAGGTATCTATTACAAACTTTTTGAAATATAGGGACTAAATAGACATAACCTTGTAAGTTTAGGGATCGTTTAGAAAATTTTTTAAAGGACATGAATTAAATAGGCATAATCTTTTAGGTGGAACTTATAACTTAACCTAGTGTCGTGCAAGCAGTGGTCATCACATGTTATACTATCTCAATTAGTTTTAGGAATTTTAATGTTTTATATCTCTTTAGATTGCACATCCAACTGCATGATGGTTCATCCATCTTGTGTTGGTGTTGTATTTTTCTTAATTCATTATGCATTACTTATTTTGTTAATTGGTTGATCTAATTTGACCCTAGATGATCGTGTACCAACTGAGCTGAAGAAAGCAATTATGCAAGCTCGAACAGAGAAGAAGCTCACCCAGTCTCAGCTTGCTCAAGTATGTTTGTCCCTCTCATGTTGGCTTGTTCCGTATTATGTGCATGTGTTTGTGATGACCTGGATTTATTTTTCTTCCTGTAGCTTATTAATGAGAAGCCTCAAGTAATCCAAGACTACGAGGCTGGAAAAGCTATTCCAAATCAACAGATAATAACCAAACTTGAGAGAGCTCTTGGGGCAAAACTGCGTGGGAAGAAATAAAGAGATCTGGAAAGTTAAGTATGAGTTCTATTTAAGTTTTTGTTTGAACCGTGCACAAAAGTTCATACCCTACTGTGGTTTCAATGTGTAACTATATGAAACTGTCCTTGTGTGCCTGTATAAGTACTTGTTGCAGTGTCTCGTTGGTAAGTTCTTACCTGGAAATAAATAAATATCATGTCTGTCATGTTGCTTTAATTTCCAGATGTTTTGGCTGCCCTTTTCACATCAGAAGTAAGCTTGTTAAATGTTCGCACCCATGACCTTTAACAATTCAGCAACTTGTATGGAGAGCTCTTGAATGTCGTAAATTTTCTAGTTTGGTTCTGAACTTTATTTCTAAATTCGATGTCCATGATGCAATTTGTGTTCTTTGAAACTTCCCCCCTTGAATTGGACCAATGGTAGAGGTTCTTCTCTTAAGCCACTTTCTAGGTGATGATCGTGACAAATGTATCATGTTATTCAAAGAATGTTTTGAAAGTTTAAATCGACAAAATTGACTGAACTAAGGAAGTCAAGGTTGGTTTTGGTTAGTATCTTCTCCTTGGCTGGATTTGGCTTGCAATATCTATCTCTCTCTCTCTGAGGACTCTTCCAGTGCACCACACACCCCTACACTTCTCCCTTCCTCTCTAGCTCCCATGCTCTCTCCCCTGGTGAAACTTCATCAAGTTCAAGAAATTGTGACTTATTTCTGCAGTTCCGCAATGATGAGAAAGTAGAACAGTATTCTCCCAAATTAACAAATATGGTTTCTATTTGCCTGTTTGATCAATGGAAACTGATCTCTCCCTTGTATGAAGTCCACTCTCTCCCTCTCCTTCTTTCTTTGAGGTCTCTGCCACGCCAATTCATATCCCGTAATTCTCCTGGCCTCACCCTGATTGAATCTTTAGCCAGTTCAAGTAATTGTGGCCATTCAAGCAGAACTGCACTAGGGGAGAGAATAGAATGGATATTGGCCCGAAATAATGAATATGGTTCTTGTCCAATCAATGGAAACTGATCTCTCCTAGTATGATGCAATCAACTCTTGGAATCTTGATCTGTGGGATCTCCTTTATATTCTTGATGCATTTTGCCATATTTTTTTGCAAAATATTTTTGACCGTTTTGATCTGAACCGACCCATGTCTTACCTTCAGTTAAGAAAATGGGTTCACAACAATCATCCTTTGGATCACTTTTTGACAATAGCTTCTTGTTACAGAGCGTCGTTTCGAGGTCTAATGAATAGTAAACTATGTCCACTGTAAATCTATAGTTGACTTGAGGCATAGGTTCTCTTTGCCATTTCTGACACCAAGAGATGTCACTAACCAAACAGAATAATTAGAAAACTCTCAGCCATATCCTTCAATTGCTCTCTCTTCTCTTCCATGTTGTTGCTATTGAAGGAAAAACAGCAGAGAGCTAGTTTTATCCCAAGTTGGATAGATATTCTTTCCTTGATGCGTGAAATGCGAGAAAGGCTCATTATGATGCCTAACAGCAGGAAATTCAAAGCATTGTTATAATTTACGCCATTGATCTGATTCTTGGAGCCTTTATATGCTTAAAGTTGGGTGGGCACCGAACTTCTTTTTCCCTAGATAATGGTGTGCTTGAAGTTTTCCTATTTTTGCTGATAAACTAGTCGTCTAAGACATCAAAATAGTTTATATTAAGTTTTATTTGTTTAAGTGGCATATTACTATTCTGTTAAAAGGTATTGGTCGTATAGTTTGTACGTTATAGATTTTCAGAGGATGGTTTGATTATCCATGTGAATCATTGTGCTAACAATTACAAATGCTTCATTTCTACATATCGTTTTCTTTTGGCTTCAACCCTCAAAATAATTCATTTATTCAATTATCTATTGAATTCTACGAAAACAATAATATATATTAAAAAAGTATAAATGTGATATCACATCGACAAGGAATGAATATATGCTTGATGAATCACTACTTTATGACTTGAATAAGAATAACTTCTATAAATGGGTTAAGTAAATATAATTCACAACTTCGGGTAATAGTTAATTATAGTTAATTATAGTGATCATTTACTTTTCATATAGTTAATATAGAAAACTTGTAGCAAGTAAACTTGAACCAAATTCATGCAATATCTTCTTGGTTAAAATAGAGCTAGACAATTCCTTATTTACACCTTGAAATTCTTTTACCATGTTCTTCCACATATGTAAATAAGTTTTACAAAGTACGACAGAAGATACCCAACAATTCACCAATATAATTATTGTCAAGTTCGTAGATAAAAATATGTTTATCCTATGGTCTTGATTGATGGGTAGAACAAGTCATTTCAATCCATGTGAAGAAGGCTTCATAATTTTGCATGGTTTAAAAATGGTCAAATCTTAAGTCAAGAAATGTATTGAGAAGCAAAATGTGGGGAAGATATGGTTGACATGGTCTTTAATTCATTCTAACAAAGTGGTTACCAAGAAGAGTGGCACATGGGTCCATTTTCCATGCACTAGCCACATGGTACACATAATGAATGGGCTCCTCTCTCCCATCCTATTTTCTACATTTTTTGCTAATTAGAGCTCCACATATTTTTTGGAATGTAAAAATTCAAGAATACGCGTACCTGTTTCAAAGTTGAAATCCAAAGCTACTAAATAAACATTTTTTCATTTGTAACAATGCTACTTATTTCAGTAGTTGCTTGAGTTAATATAGGACTGTAAAAGTCAAAATTTTTATTAGTGACCTAAATACGAAGAAATATGTATTAGATTTTGATAATCTAACTTCATTTAAATAACACTACACTTAATGTTTCTGTGTGACATAAATGACTTGAAGTACAAATTGTTTTTTTTAAGGATATTGAATCTTCAACTTCTAAGAAATAAGCAAAATACCTATTAAGTATAATTGGACTGATTTTGATTATTAGATTTTTTTTTTCAATGAGAATTTGTTAAAAATTTATGTATAATTAATTAAATAGTTTGAGCACTCTCTTTCCCGATGAATGATTGGTGGTGATATAAACCGTTTGGGTTCCATTCCATGTGATTGTTGTCGAAGGGTTTCCCAGAGGTGTATGGGAGTTACCGTGCAGCCGCGTTGCACCGGAGTTTGGTTACTTCCTTCAGACATAGATAAGACAGCAATGGAGCTATCTAATTGGAGCGTGCAACATCTGCCGCGAAAATTCGCGCGTGGGTCTACTCTATCTATTTCTCTAACGAGACGAGACAGCGGAAGGAGAAAATTTAGATAATTAATAAATGGAACAATTAAAAAAAACCGAAAATAGGAACAAAAATCGGAAAGAGAGAGAGAGAGGAGAGAGAGAGAGGGAGCTCTACTCTCACATGGCCTCTTTGCCATTAGGGCCTCGCCATCAACCTCCACCACAGCCACAGTCACAGCCACAAGTACAGCTGCTACAACAGCCTCACCCTGAAAATGACCGTCTGAATCTCAACTCTCACCGTACCTCAGCAATGGACTCCGATAAGGTTCTCTCTCTCTCTCTCTCTTCTGGTGTTGTTTTCTGCTTGTGATGTGTGTTGTCTCTCTGTGCGATGTTTTGCTTCTGTTGATGCTTTGTTTGTGCCTGATCCAGCTCAAGATCCTCATTTCTTGCTAAGATAGGAGCGATCTACGGTGATTTGATAGTTTTTTTCCTCGATTGGAAGGCCGGATAAGCAGCCGGAAGTTCTCACCGGCAATTAGATTGGAGATATTTTCTGGCTCAGTTTTGTTTGTTTGATCGATTCCGAAATTACTAGTATATATATATATATATATATGGTTCAGTGTTTGATCAAGTATTTAGCTGAGATCTTGCAGCTTGAGCTGAATGTGCTCGAACTATCTTCTGTTAGTTTAATTGCTCCGAGAATTGAGGGAGTGATTTATTGGAATATTTCCGTAGCTTGTTTTATTTCTCCTAGCCTTGATAATTGGGAAATTAAGTGGAACTGTGTGTTAACGCGGTGTCTGAATTGACCTCGTATCGTAAATTGATCATCTAATTGATGTTTCAGAAACTTCTTTCCCCAGTCTTTCAATTTGTTTCGATCTTCTACAGTTTCGACTATTGTTTAATCTTCTACAGTTTTGATACTTTTTAATTATGGTTGCTCTTCTCCGTGAATTTTTTGAAAAGCAATTTATAGTTTGCTTTGGGAAGTCGATAGCGGCTGATTCCCTCCTTAGTTCCTTGGGTGGAGATGCAAGCTCTTTGAAGCATGTGATGCTTTCTTGTAAGCAATAGCTATCGATATTGCTTTTCCAAGACGTTGCTCTGGATATATTAATCTGTCTTCAACCCTACATTTTGAGACCCATCTTCAATTCCTTCAGATACATTCCGATCCTTATCAAATCCCAAAACACCATCATAAATTTTCAGCGAATATACCAATTACTTAATTACTGTTAAGTTGGTTTTGTATTTGTGTACATCGTCCTTCACGTCAGCATCAAATACTCTACTTCCTATAGTCAATCGTGGGCTTTCCTACTAAAGTTGCCTGGACCTAGACGTGTTTTCATTAGATGTGGGTAATCATATGAAAAGATGTTGATACTTCAATATATCAACAATAAAAAGGTCTTTTTACAGACTGTTTAATCCTCCTATTTGCAGCAAAATTGGCTTGACTTCTACTATTATAGGGTTCTATGTGGATAAATCCTTTACATGTGCCCCCTATGCATCTGGTATATATCCCTCATAACTGCAAACTTTCTGCCTCACTTACCATGCTTTATGCTACAAATTCCAGGAAATGTCAGCTGCAGTGATTGAAGGGAATGATGCAGTAACTGGTCATATCATTTCCACTACGATTGGTGGAAAAAATGGTGAACCAAAACAGGTTAAATTCTCATACCCACTCCCTCATAATTTGTTTCAATCATTTTCTCCTTTAGTTCACTTGTGGAATAAATATGTTTCATTCTTCAATTTGGTGGACATTGTGTAAAACAAAATTTAATCTGAGACGGTAAATGTATATCTTAAACAACCTACCTTATTAATCAATAATTCTTTTTTCTTTTTTTTTTCTTTTGCAACTTTAAAGTGATCTAAAAATCTTCAGTGTAGTCAAAATTAACCTTGAAATATTGAGTTACTGAAATGTTCAAATTTCCTTGCTTGTAATGTAGACAATCAGTTACATGGCTGAGCGTGTGGTGGGTAGTGGTTCGTTTGGAATTGTATTCCAGGTAGATATAAAATTATATTTCACCATATGACAAAGTTTGTGCAATTTCCATATTCTTGAAGTTTGCCAATCATTCTTTCAGGCAAAATGCTTGGAAACGGGAGAAACAGTTGCCATAAAGAAGGTCTTGCAGGATAAACGTTATAAAAACAGGGAGCTGCAACTAATGCGCCTGATGGATCATCCAAATGTGGTTTCTCTGAAGCATTGCTTCTTCTCTACTACTAGTAAAGATGAGCTCTTCTTGAATTTGGTTATGGAATATGTCCCCCAAAATATGTACCATGTTCTTAAGCACTACAACAGCATGAATCAGAGGATGCCACTCATATACGTCAAACTTTACACATATCAAGTATGTCATGTTATTTCATATGCGATAGAATAACTTTCTGTCGGTTTTTTATATGCTAACACAAAGTTAATAAATTTTTCAGATTTTTAGGGGCCTTGCCTATATTCATTCAGTCCCCGGGGTCTGCCACAGGGATGTGAAGCCTCAAAATATTTTGGTATAGTGCTTTTTTTCTCCCTTCATTCTCCTCTTTGTCTATGTTTGAACTATTTATCTGAAACTACTCCATGGAATTTCTGTAGGTTGATCCTCTAACTCATCAAGTTAAGATTTGCGACTTTGGGAGTGCAAAAGTATTGGTATGCACTAATATTCCACACCTTCTGGTGGATCAAATTTAATCAATATGTCATATATTATGCTTAAGATTGAGGTTGGACATAGTAGTAAACGCCCCCTGTTCAAGCTTACTACTGTATGTTTTTTTAATTATTTTTATAAAAGATATATTGATAAGAATCAGTAAAGTAAGTTTATCTGATCATCCAAACTAAGTTGGTGTAATTTAGCAACTTCATTTTCAATATATCATTAGAAAGAGAATAAAATAAAATTTTAAATAGATCGGCTAAATTTAAAGTTTAAACATAGTTTTCTACATAGATCGTCCAAAAAATTGATTACAAAGGTTAGAGGAACCACTACCAGGTGGGAAAAATAATATGAAGACTTCTAAAAGCTAAGCAATTAGTAACTCGAGTCTTCTAAAAAATGTAAGTGGGTTATTCATTAAAGGAAGCAAACATAAACAATTGTTTGAAATTGAGTGCCAATGTTCAGAAAATTTGTAAGACGAAGGAGAATCATGGCCATGGAGTTAGCATAATCACTTCCAACTATAAATTTCCTCAACCAAAGAACTGTTCCAATACTTTAGGGTCATAGGATATTCTCTGTTTTCAAATTTTTTTTAAACATGATCATTGAGGTTATAATTTGTGCTTTTCTATAAGGGTGAAATGGAATTTAAAAGACTGCCACTTGATTGATTTACATTTTATGTTCTTTCTCAAATAACTTTTTTCCTAACTCTTCTGTTTTCGGATTAAGGGTGAAGCTAATATATCATACATATGTTCACGTTATTATCGAGCTCCAGAACTCATATTTGGTGCAACAGAATACACGACCTCAATTGATATTTGGTCGGTTGGTTGTGTCCTCGCTGAACTTCTTCTAGGCCAGGTCAGTGACTTTGGTGGAGGGTGGGAATTGATACACTTCAATTTATAATAATTTCTATGAACAGATGAATTTTTTCTTGCGTTTTTTAACTAAATCTTGCTGATTTGTTACAGCCATTGTTTCCTGGGGAAAATGCAGTGGACCAACTTGTAGAGATAATCAAGGTGATGCCTCAGTTTATGGTGATTTTAGGACCAGACAAATGAAGCTTCATCTCATGTATATATATATATTTTTTTACCTTCTTATAGGTTCTTGGTACCCCAACTCGAGAAGAAATTCGATGCATGAATCCAAATTACACAGATTTTAGGTTCCCTCAGATTAAAGCCCATCCTTGGCACAAGGTATACAATTAGGTATTGACCCACTTAGTTAAGTGGGTAATTTTTTTCATTTTACATACATACATATATATATTACTTCCCCCACCCCACCCCTGTGTCCTGTATTCTCTCTCCATGGAATGTAACTGCCACAATCGATTGACCATTATGGGTTTTGTGCTGCACTATTTTTCCTGCCTTTACTGCCTGAAATACTGTTGCCTATCTGCTGCTCCAACATTTCTCTAGTTGAAATGGTTATCCTTATGTTCTTTTGTTTAGGTTTTTCACAAGCGAATGCCTCCTGAAGCTATTGACCTTGCTTCACGTTTGCTTCAGTATTCTCCTAGTCTTCGCTGCACTGCTGTGAGTTGAACCATTTTCCTCTGTTCTGCGTCTGAATTCTTAAGTACATGTAATGCTAATGCTTGATTTTCTCACCTTAAACCAGTCCTATAATGGACTCCATGAAGCAAAGTTTAGCCACTACATTCTATCAAGTTTTTATCTAGCTATTGCCTAATCACGATTTTGGTTTTTGGATGTCAAGGCAATTTTGGTTCATGATATTGATGATGGTCGGTGGCTTTTATTTATCTTCTCTCTCTATTCATTGCAGCTAGAAGCATGTGCACATCCTTTCTTTGATGAGCTACGGGAACCCAATGTTCGCCTCCCTAACAACCGTCCATTGCCCCCTCTATTCAACTTTAAGCAGGAAGTACGTTAACTTTTCATTTTATTTCCTATTGAAGACTTAATTAAGATACTTCATAGGTTAAATCCAGAACTTTTCGTATCTAAGATGTCACTTAAATTTCATAAAACTAAATCGTCATGTACTGGGAGAATACCTAATTGCCACACTGCTGGATACTTCTTTTACTTTTAACAACAGTTCCAAATCCTTCTTTTGTTTCCGGTGTCAACATGATCACCTGAGTTGTTGACCACTAGAATTATACAGGTGTATGCCTCATCTACATTGTGTGTCTGTTTTCTTAAAGTTAAGGTATCGGGATAAAAGTACATTCATATGTAACAATGAGCATTACCTTTCCTTTTGGTGCCCATCTTGCTAACTTGTTTGTTCTGCGCTTGGAAATCTGAGGTATAAACCTGATTACCTGAATGTGGGATTTGTTCAACTGACATGAAATGTTGTTCTACTACTATGACATGGCATCGTTATTTATTTATTTATTTTCCCTCTACATTAATCCCAGCAACAATGTAGAAATTTGAACAAACCCATCTGTATAAATGAGTTGCTTCCGGTTTCGCTGGTAGCCAGTTGGTCTTTTAACCTGTGTACTGGTTGGCCTACCTAATAACATTCTCTTACTAGAAGCATTTCGTGCTAACATTTTCGATCTATGATCTGATTGCAGTTATCTGGAGCATCCCCTGAACTGATCAGCAGGCTGCTACCGGAGTATGTGCGAAGGCAGATTGGTCTCAGTTTTCAACACCAAGCAAGTACATAAAATGAAGACACGAATCAACATATAAGATCCGTTTCTTGGGTGGATGGATAAAATGCAACCAAAAGCTCCTTGCAGTCTAGATAACCAAGTATCATGGCCGAACCCCTGCCCTGCAAAGATTTACGAATATACCACTGGGTGTTCGGCTTAGCGTGGAAAATGGTGATCAACTACTTTATTTTAGCCAATACATATTGATTTTGTATTCCCCATGTCTAGATTTTTTGTTTTTGATCCATAAAGTCGGAGAAAGCTGGAAGTATGACCATGGAAAGGTATGCCATTCATGTCTAGCTAGGCAGTGCCTCCAAAAAAAGTTTAGTAGGAGCTCGTGGAGCTTATTTGTAGCTTCGAATTGGAATTGTTTTGTCCTGGTAAGTTTTCTGTATGTATAATTTAGTCTGTTTCCGGACCATATTTAGTGATGGAGGTTACTTTTCTTCCATTCGTTCTTCGATTGCTTTACTCTGTTTTGTTGTTTTCTTCATTTTTTATAATCTAAGAACGAAAGAAAACCAAATGGATGCAAGGGGCTCCTCAGGTTTAAGAGATTTGTTATTACTGTTATATGACCTCCTTTGACATAAAAAGATGACTCCTGGTCCTGGCTGATGGAAA GTTTACTTCAGTAATTAAGACAGATATAAGAGACTAAAAAAAAAGAGTGTATATAAGTATAAGTGGGCAGAAGTCGGATAATTCGGGAACCCGATTATTTGGGCCCGAGAAACCGACGTTTTCTTTAATTGTTCCTCACGGCTGGAAGTAATGGCGTGAGTTGACTGCGTGTCCTTCAAGCTATCCAGACATTTTAATATACTCCGACCAAAACCCTAATTCAGATTCTGCGTACTTCCTACCGAGCGAGGATTAGGAACCTCTTGGAAAGAAGAAAAAGGAGACGGAGAAAGTTGAAATGGCTGGAATCGGACCACTTTCACAGGATTGGGAACCGGTGGTCCTCAGGAAGAAGGCACCCAACGCGGCTGCCAAGAAGGATGAGAAAGCCGTCAATGCAGCGCGGCGAGCCGGGGCGGAGATTGAGACTATAAAGAAATCTGCTGCTGGGTCAAACAAATCTGCCTCTAGCAGTACTAGTTTGAACACTAGGAAGCTTGACGAAGAGACTGAGAACCTTTCTCATGATCGTGTACCAACTGAGCTGAAGAAAGCAATTATGCAAGCTCGAACAGAGAAGAAGCTCACCCAGTCTCAGCTTGCTCAACTTATTAATGAGAAGCCTCAAGTAATCCAAGACTACGAGGCTGGAAAAGCTATTCCAAATCAACAGATAATAACCAAACTTGAGAGAGCTCTTGGGGCAAAACTGCGTGGGAAGAAATAAAGAGATCTGGAAAGTTAAGTATGAGTTCTATTTAAGTTTTTGTTTGAACCGTGCACAAAAGTTCATACCCTACTGTGGTTTCAATGTGTAACTATATGAAACTGTCCTTGTGTGCCTGTATAAGTACTTGTTGCAGTGTCTCGTTGGTAAGTTCTTACCTGGAAATAAATAAATATCATGTCTGTCATGTTGCTTTAATTTCCAGATGTTTTGGCTGCCCTTTTCACATCAGAAGTAAGCTTGTTAAATGTTCGCACCCATGACCTTTAACAATTCAGCAACTTGTATGGAGAGCTCTTGAATGTCGTAAATTTTCTAGTTTGGTTCTGAACTTTATTTCTAAATTCGATGTCCATGATGCAATTTGTGTTCTTTGAAACTTCCCCCCTTGAATTGGACCAATGGTAGAGGTTCTTCTCTTAAGCCACTTTCTAGGTGATGATCGTGACAAATGTATCATGTTATTCAAAGAATGTTTTGAAAGTTTAAATCGACAAAATTGACTGAACTAAGGAAGTCAAGGTTGGTTTTGGTTAGTATCTTCTCCTTGGCTGGATTTGGCTTGCAATATCTATCTCTCTCTCTCTGAGGACTCTTCCAGTGCACCACACACCCCTACACTTCTCCCTTCCTCTCTAGCTCCCATGCTCTCTCCCCTGGTGAAACTTCATCAAGTTCAAGAAATTGTGACTTATTTCTGCAGTTCCGCAATGATGAGAAAGTAGAACAGTATTCTCCCAAATTAACAAATATGGTTTCTATTTGCCTGTTTGATCAATGGAAACTGATCTCTCCCTTGTATGAAGTCCACTCTCTCCCTCTCCTTCTTTCTTTGAGGTCTCTGCCACGCCAATTCATATCCCGTAATTCTCCTGGCCTCACCCTGATTGAATCTTTAGCCAGTTCAAGTAATTGTGGCCATTCAAGCAGAACTGCACTAGGGGAGAGAATAGAATGGATATTGGCCCGAAATAATGAATATGGTTCTTGTCCAATCAATGGAAACTGATCTCTCCTAGTATGATGCAATCAACTCTTGGAATCTTGATCTGTGGGATCTCCTTTATATTCTTGATGCATTTTGCCATATTTTTTTGCAAAATATTTTTGACCGTTTTGATCTGAACCGACCCATGTCTTACCTTCAGTTAAGAAAATGGGTTCACAACAATCATCCTTTGGATCACTTTTTGACAATAGCTTCTTGTTACAGAGCGTCGTTTCGAGGTCTAATGAATAGTAAACTATGTCCACTGTAAATCTATAGTTGACTTGAGGCATAGGTTCTCTTTGCCATTTCTGACACCAAGAGATGTCACTAACCAAACAGAATAATTAGAAAACTCTCAGCCATATCCTTCAATTGCTCTCTCTTCTCTTCCATGTTGTTGCTATTGAAGGAAAAACAGCAGAGAGCTAGTTTTATCCCAAGTTGGATAGATATTCTTTCCTTGATGCGTGAAATGCGAGAAAGGCTCATTATGATGCCTAACAGCAGGAAATTCAAAGCATTGTTATAATTTACGCCATTGATCTGATTCTTGGAGCCTTTATATGCTTAAAGTTGGGTGGGCACCGAACTTCTTTTTCCCTAGATAATGGTGTGCTTGAAGTTTTCCTATTTTTGCTGATAAACTAGTCGTCTAAGACATCAAAATAGTTTATATTAAGTTTTATTTGTTTAAGTGGCATATTACTATTCTGTTAAAAGGTATTGGTCGTATAGTTTGTACGTTATAGATTTTCAGAGGATGGTTTGATTATCCATGTGAATCATTGTGCTAACAATTACAAATGCTTCATTTCTACATATCGTTTTCTTTTGGCTTCAACCCTCAAAATAATTCATTTATTCAATTATCTATTGAATTCTACGAAAACAATAATATATATTAAAAAAGTATAAATGTGATATCACATCGACAAGGAATGAATATATGCTTGATGAATCACTACTTTATGACTTGAATAAGAATAACTTCTATAAATGGGTTAAGTAAATATAATTCACAACTTCGGGTAATAGTTAATTATAGTTAATTATAGTGATCATTTACTTTTCATATAGTTAATATAGAAAACTTGTAGCAAGTAAACTTGAACCAAATTCATGCAATATCTTCTTGGTTAAAATAGAGCTAGACAATTCCTTATTTACACCTTGAAATTCTTTTACCATGTTCTTCCACATATGTAAATAAGTTTTACAAAGTACGACAGAAGATACCCAACAATTCACCAATATAATTATTGTCAAGTTCGTAGATAAAAATATGTTTATCCTATGGTCTTGATTGATGGGTAGAACAAGTCATTTCAATCCATGTGAAGAAGGCTTCATAATTTTGCATGGTTTAAAAATGGTCAAATCTTAAGTCAAGAAATGTATTGAGAAGCAAAATGTGGGGAAGATATGGTTGACATGGTCTTTAATTCATTCTAACAAAGTGGTTACCAAGAAGAGTGGCACATGGGTCCATTTTCCATGCACTAGCCACATGGTACACATAATGAATGGGCTCCTCTCTCCCATCCTATTTTCTACATTTTTTGCTAATTAGAGCTCCACATATTTTTTGGAATGTAAAAATTCAAGAATACGCGTACCTGTTTCAAAGTTGAAATCCAAAGCTACTAAATAAACATTTTTTCATTTGTAACAATGCTACTTATTTCAGTAGTTGCTTGAGTTAATATAGGACTGTAAAAGTCAAAATTTTTATTAGTGACCTAAATACGAAGAAATATGTATTAGATTTTGATAATCTAACTTCATTTAAATAACACTACACTTAATGTTTCTGTGTGACATAAATGACTTGAAGTACAAATTGTTTTTTTTAAGGATATTGAATCTTCAACTTCTAAGAAATAAGCAAAATACCTATTAAGTATAATTGGACTGATTTTGATTATTAGATTTTTTTTTTCAATGAGAATTTGTTAAAAATTTATGTATAATTAATTAAATAGTTTGAGCACTCTCTTTCCCGATGAATGATTGGTGGTGATATAAACCGTTTGGGTTCCATTCCATGTGATTGTTGTCGAAGGGTTTCCCAGAGGTGTATGGGAGTTACCGTGCAGCCGCGTTGCACCGGAGTTTGGTTACTTCCTTCAGACATAGATAAGACAGCAATGGAGCTATCTAATTGGAGCGTGCAACATCTGCCGCGAAAATTCGCGCGTGGGTCTACTCTATCTATTTCTCTAACGAGACGAGACAGCGGAAGGAGAAAATTTAGATAATTAATAAATGGAACAATTAAAAAAAACCGAAAATAGGAACAAAAATCGGAAAGAGAGAGAGAGAGGAGAGAGAGAGAGGGAGCTCTACTCTCACATGGCCTCTTTGCCATTAGGGCCTCGCCATCAACCTCCACCACAGCCACAGTCACAGCCACAAGTACAGCTGCTACAACAGCCTCACCCTGAAAATGACCGTCTGAATCTCAACTCTCACCGTACCTCAGCAATGGACTCCGATAAGGAAATGTCAGCTGCAGTGATTGAAGGGAATGATGCAGTAACTGGTCATATCATTTCCACTACGATTGGTGGAAAAAATGGTGAACCAAAACAGACAATCAGTTACATGGCTGAGCGTGTGGTGGGTAGTGGTTCGTTTGGAATTGTATTCCAGGCAAAATGCTTGGAAACGGGAGAAACAGTTGCCATAAAGAAGGTCTTGCAGGATAAACGTTATAAAAACAGGGAGCTGCAACTAATGCGCCTGATGGATCATCCAAATGTGGTTTCTCTGAAGCATTGCTTCTTCTCTACTACTAGTAAAGATGAGCTCTTCTTGAATTTGGTTATGGAATATGTCCCCCAAAATATGTACCATGTTCTTAAGCACTACAACAGCATGAATCAGAGGATGCCACTCATATACGTCAAACTTTACACATATCAAATTTTTAGGGGCCTTGCCTATATTCATTCAGTCCCCGGGGTCTGCCACAGGGATGTGAAGCCTCAAAATATTTTGGTTGATCCTCTAACTCATCAAGTTAAGATTTGCGACTTTGGGAGTGCAAAAGTATTGGGTGAAGCTAATATATCATACATATGTTCACGTTATTATCGAGCTCCAGAACTCATATTTGGTGCAACAGAATACACGACCTCAATTGATATTTGGTCGGTTGGTTGTGTCCTCGCTGAACTTCTTCTAGGCCAGCCATTGTTTCCTGGGGAAAATGCAGTGGACCAACTTGTAGAGATAATCAAGGTTCTTGGTACCCCAACTCGAGAAGAAATTCGATGCATGAATCCAAATTACACAGATTTTAGGTTCCCTCAGATTAAAGCCCATCCTTGGCACAAGGTTTTTCACAAGCGAATGCCTCCTGAAGCTATTGACCTTGCTTCACGTTTGCTTCAGTATTCTCCTAGTCTTCGCTGCACTGCTCTAGAAGCATGTGCACATCCTTTCTTTGATGAGCTACGGGAACCCAATGTTCGCCTCCCTAACAACCGTCCATTGCCCCCTCTATTCAACTTTAAGCAGGAATTATCTGGAGCATCCCCTGAACTGATCAGCAGGCTGCTACCGGAGTATGTGCGAAGGCAGATTGGTCTCAGTTTTCAACACCAAGCAAGTACATAAAATGAAGACACGAATCAACATATAAGATCCGTTTCTTGGGTGGATGGATAAAATGCAACCAAAAGCTCCTTGCAGTCTAGATAACCAAGTATCATGGCCGAACCCCTGCCCTGCAAAGATTTACGAATATACCACTGGGTGTTCGGCTTAGCGTGGAAAATGGTGATCAACTACTTTATTTTAGCCAATACATATTGATTTTGTATTCCCCATGTCTAGATTTTTTGTTTTTGATCCATAAAGTCGGAGAAAGCTGGAAGTATGACCATGGAAAGGTATGCCATTCATGTCTAGCTAGGCAGTGCCTCCAAAAAAAGTTTAGTAGGAGCTCGTGGAGCTTATTTGTAGCTTCGAATTGGAATTGTTTTGTCCTGGTAAGTTTTCTGTATGTATAATTTAGTCTGTTTCCGGACCATATTTAGTGATGGAGGTTACTTTTCTTCCATTCGTTCTTCGATTGCTTTACTCTGTTTTGTTGTTTTCTTCATTTTTTATAATCTAAGAACGAAAGAAAACCAAATGGATGCAAGGGGCTCCTCAGGTTTAAGAGATTTGTTATTACTGTTATATGACCTCCTTTGACATAAAAAGATGACTCCTGGTCCTGGCTGATGGAAA ATGGAACAATTAAAAAAAACCGAAAATAGGAACAAAAATCGGAAAGAGAGAGAGAGAGGAGAGAGAGAGAGGGAGCTCTACTCTCACATGGCCTCTTTGCCATTAGGGCCTCGCCATCAACCTCCACCACAGCCACAGTCACAGCCACAAGTACAGCTGCTACAACAGCCTCACCCTGAAAATGACCGTCTGAATCTCAACTCTCACCGTACCTCAGCAATGGACTCCGATAAGGAAATGTCAGCTGCAGTGATTGAAGGGAATGATGCAGTAACTGGTCATATCATTTCCACTACGATTGGTGGAAAAAATGGTGAACCAAAACAGACAATCAGTTACATGGCTGAGCGTGTGGTGGGTAGTGGTTCGTTTGGAATTGTATTCCAGGCAAAATGCTTGGAAACGGGAGAAACAGTTGCCATAAAGAAGGTCTTGCAGGATAAACGTTATAAAAACAGGGAGCTGCAACTAATGCGCCTGATGGATCATCCAAATGTGGTTTCTCTGAAGCATTGCTTCTTCTCTACTACTAGTAAAGATGAGCTCTTCTTGAATTTGGTTATGGAATATGTCCCCCAAAATATGTACCATGTTCTTAAGCACTACAACAGCATGAATCAGAGGATGCCACTCATATACGTCAAACTTTACACATATCAAATTTTTAGGGGCCTTGCCTATATTCATTCAGTCCCCGGGGTCTGCCACAGGGATGTGAAGCCTCAAAATATTTTGGTTGATCCTCTAACTCATCAAGTTAAGATTTGCGACTTTGGGAGTGCAAAAGTATTGGGTGAAGCTAATATATCATACATATGTTCACGTTATTATCGAGCTCCAGAACTCATATTTGGTGCAACAGAATACACGACCTCAATTGATATTTGGTCGGTTGGTTGTGTCCTCGCTGAACTTCTTCTAGGCCAGCCATTGTTTCCTGGGGAAAATGCAGTGGACCAACTTGTAGAGATAATCAAGGTTCTTGGTACCCCAACTCGAGAAGAAATTCGATGCATGAATCCAAATTACACAGATTTTAGGTTCCCTCAGATTAAAGCCCATCCTTGGCACAAGGTTTTTCACAAGCGAATGCCTCCTGAAGCTATTGACCTTGCTTCACGTTTGCTTCAGTATTCTCCTAGTCTTCGCTGCACTGCTCTAGAAGCATGTGCACATCCTTTCTTTGATGAGCTACGGGAACCCAATGTTCGCCTCCCTAACAACCGTCCATTGCCCCCTCTATTCAACTTTAAGCAGGAATTATCTGGAGCATCCCCTGAACTGATCAGCAGGCTGCTACCGGAGTATGTGCGAAGGCAGATTGGTCTCAGTTTTCAACACCAAGCAAGTACATAA MEQLKKTENRNKNRKERERGERERELYSHMASLPLGPRHQPPPQPQSQPQVQLLQQPHPENDRLNLNSHRTSAMDSDKEMSAAVIEGNDAVTGHIISTTIGGKNGEPKQTISYMAERVVGSGSFGIVFQAKCLETGETVAIKKVLQDKRYKNRELQLMRLMDHPNVVSLKHCFFSTTSKDELFLNLVMEYVPQNMYHVLKHYNSMNQRMPLIYVKLYTYQIFRGLAYIHSVPGVCHRDVKPQNILVDPLTHQVKICDFGSAKVLGEANISYICSRYYRAPELIFGATEYTTSIDIWSVGCVLAELLLGQPLFPGENAVDQLVEIIKVLGTPTREEIRCMNPNYTDFRFPQIKAHPWHKVFHKRMPPEAIDLASRLLQYSPSLRCTALEACAHPFFDELREPNVRLPNNRPLPPLFNFKQELSGASPELISRLLPEYVRRQIGLSFQHQAST Homology
BLAST of MC02g0553 vs. ExPASy Swiss-Prot
Match: Q39010 (Shaggy-related protein kinase zeta OS=Arabidopsis thaliana OX=3702 GN=ASK6 PE=1 SV=2) HSP 1 Score: 711.8 bits (1836), Expect = 4.8e-204 Identity = 354/422 (83.89%), Postives = 377/422 (89.34%), Query Frame = 0
BLAST of MC02g0553 vs. ExPASy Swiss-Prot
Match: Q39012 (Shaggy-related protein kinase iota OS=Arabidopsis thaliana OX=3702 GN=ASK9 PE=1 SV=1) HSP 1 Score: 705.7 bits (1820), Expect = 3.4e-202 Identity = 353/421 (83.85%), Postives = 376/421 (89.31%), Query Frame = 0
BLAST of MC02g0553 vs. ExPASy Swiss-Prot
Match: Q39011 (Shaggy-related protein kinase eta OS=Arabidopsis thaliana OX=3702 GN=ASK7 PE=1 SV=2) HSP 1 Score: 696.4 bits (1796), Expect = 2.1e-199 Identity = 330/380 (86.84%), Postives = 361/380 (95.00%), Query Frame = 0
BLAST of MC02g0553 vs. ExPASy Swiss-Prot
Match: Q60EZ2 (Shaggy-related protein kinase GSK2 OS=Oryza sativa subsp. japonica OX=39947 GN=GSK2 PE=1 SV=1) HSP 1 Score: 677.6 bits (1747), Expect = 1.0e-193 Identity = 331/402 (82.34%), Postives = 360/402 (89.55%), Query Frame = 0
BLAST of MC02g0553 vs. ExPASy Swiss-Prot
Match: Q9LWN0 (Shaggy-related protein kinase GSK1 OS=Oryza sativa subsp. japonica OX=39947 GN=GSK1 PE=1 SV=1) HSP 1 Score: 673.3 bits (1736), Expect = 1.9e-192 Identity = 321/377 (85.15%), Postives = 348/377 (92.31%), Query Frame = 0
BLAST of MC02g0553 vs. NCBI nr
Match: XP_022149709.1 (shaggy-related protein kinase eta-like isoform X1 [Momordica charantia]) HSP 1 Score: 857 bits (2215), Expect = 1.42e-313 Identity = 422/422 (100.00%), Postives = 422/422 (100.00%), Query Frame = 0
BLAST of MC02g0553 vs. NCBI nr
Match: XP_038901929.1 (shaggy-related protein kinase eta-like [Benincasa hispida]) HSP 1 Score: 838 bits (2165), Expect = 6.66e-306 Identity = 416/425 (97.88%), Postives = 419/425 (98.59%), Query Frame = 0
BLAST of MC02g0553 vs. NCBI nr
Match: XP_022944160.1 (shaggy-related protein kinase eta isoform X1 [Cucurbita moschata] >KAG6570526.1 Shaggy-related protein kinase zeta, partial [Cucurbita argyrosperma subsp. sororia] >KAG7010383.1 Shaggy-related protein kinase zeta, partial [Cucurbita argyrosperma subsp. argyrosperma]) HSP 1 Score: 835 bits (2158), Expect = 7.47e-305 Identity = 412/424 (97.17%), Postives = 417/424 (98.35%), Query Frame = 0
BLAST of MC02g0553 vs. NCBI nr
Match: XP_023512785.1 (shaggy-related protein kinase eta isoform X1 [Cucurbita pepo subsp. pepo]) HSP 1 Score: 834 bits (2155), Expect = 2.14e-304 Identity = 411/424 (96.93%), Postives = 417/424 (98.35%), Query Frame = 0
BLAST of MC02g0553 vs. NCBI nr
Match: XP_022985976.1 (shaggy-related protein kinase eta isoform X1 [Cucurbita maxima]) HSP 1 Score: 834 bits (2155), Expect = 2.14e-304 Identity = 412/424 (97.17%), Postives = 416/424 (98.11%), Query Frame = 0
BLAST of MC02g0553 vs. ExPASy TrEMBL
Match: A0A6J1D7U7 (Non-specific serine/threonine protein kinase OS=Momordica charantia OX=3673 GN=LOC111018071 PE=3 SV=1) HSP 1 Score: 857 bits (2215), Expect = 6.87e-314 Identity = 422/422 (100.00%), Postives = 422/422 (100.00%), Query Frame = 0
BLAST of MC02g0553 vs. ExPASy TrEMBL
Match: A0A6J1FYI0 (Non-specific serine/threonine protein kinase OS=Cucurbita moschata OX=3662 GN=LOC111448697 PE=3 SV=1) HSP 1 Score: 835 bits (2158), Expect = 3.62e-305 Identity = 412/424 (97.17%), Postives = 417/424 (98.35%), Query Frame = 0
BLAST of MC02g0553 vs. ExPASy TrEMBL
Match: A0A6J1J9R6 (Non-specific serine/threonine protein kinase OS=Cucurbita maxima OX=3661 GN=LOC111483855 PE=3 SV=1) HSP 1 Score: 834 bits (2155), Expect = 1.04e-304 Identity = 412/424 (97.17%), Postives = 416/424 (98.11%), Query Frame = 0
BLAST of MC02g0553 vs. ExPASy TrEMBL
Match: A0A1S3BJ87 (Non-specific serine/threonine protein kinase OS=Cucumis melo OX=3656 GN=LOC103490499 PE=3 SV=1) HSP 1 Score: 828 bits (2139), Expect = 2.96e-302 Identity = 409/424 (96.46%), Postives = 414/424 (97.64%), Query Frame = 0
BLAST of MC02g0553 vs. ExPASy TrEMBL
Match: A0A6J1G771 (Non-specific serine/threonine protein kinase OS=Cucurbita moschata OX=3662 GN=LOC111451449 PE=3 SV=1) HSP 1 Score: 817 bits (2110), Expect = 8.69e-298 Identity = 406/428 (94.86%), Postives = 414/428 (96.73%), Query Frame = 0
BLAST of MC02g0553 vs. TAIR 10
Match: AT2G30980.1 (SHAGGY-related protein kinase dZeta ) HSP 1 Score: 711.8 bits (1836), Expect = 3.4e-205 Identity = 354/422 (83.89%), Postives = 377/422 (89.34%), Query Frame = 0
BLAST of MC02g0553 vs. TAIR 10
Match: AT1G06390.1 (GSK3/SHAGGY-like protein kinase 1 ) HSP 1 Score: 705.7 bits (1820), Expect = 2.4e-203 Identity = 353/421 (83.85%), Postives = 376/421 (89.31%), Query Frame = 0
BLAST of MC02g0553 vs. TAIR 10
Match: AT1G06390.2 (GSK3/SHAGGY-like protein kinase 1 ) HSP 1 Score: 705.7 bits (1820), Expect = 2.4e-203 Identity = 353/421 (83.85%), Postives = 376/421 (89.31%), Query Frame = 0
BLAST of MC02g0553 vs. TAIR 10
Match: AT4G18710.1 (Protein kinase superfamily protein ) HSP 1 Score: 696.4 bits (1796), Expect = 1.5e-200 Identity = 330/380 (86.84%), Postives = 361/380 (95.00%), Query Frame = 0
BLAST of MC02g0553 vs. TAIR 10
Match: AT5G14640.1 (shaggy-like kinase 13 ) HSP 1 Score: 628.6 bits (1620), Expect = 3.8e-180 Identity = 300/367 (81.74%), Postives = 331/367 (90.19%), 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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