HG10021903 (gene) Bottle gourd (Hangzhou Gourd) v1
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Overview
Sequences
The following sequences are available for this feature:
Legend: polypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below.ATGATTTCAAGTCCAAAGGCTGCAAGAGTTGTGCTTGTGAGTAAAGCTCATCTATTCAAGCCAACTTATCCACCAAGCAAAGAGAAAATGATAGGTCCTCAAGCTTTGTTTTTCCATCAAGGTCCTTACCATTCTCACCTTAAGAAGCTCATTCAAGCTTCCTTTTTGCCATCTGCTATAAAAGCCTCTATCTCTCAAATTGAGAACATTGTTCTCCACCTTCTCCCCTCTTGGAATAACTCCCAAATCAACACCTTGCAACAAATGAAAAGGGTAATTATTTCCTTCTTCTTCTTTTCTTTTCTAATGGTTTTTTCTTCTGCTGTCCACCGCTGTTGGACTATGTTAATTGAACTATGTTCGTGTTAGAAACGGATAAATATCCATTCGGGAGAAGAAGGTTTGCAATGATATGACAGATTTTTGCCACATGTTAAGATGATTGAACTAAATTAGCATAGGGGGAAATTAAAATTGAATAATAATGAAGTGAAGTGTGTTGTTTTAATTACCATATTTGTTTGTTGCAGTTTGCTTTTGATGTGGCAATGATATCAGCTTTTGGAGACCAACAAGATTTGGAAATTGAAAGAATCAAACATTTGTACCAATGCCTTGAAAAAGGCTACAATTCTATGCCTCTTGATCTTCCTGGAACTCCTTTCCGCAAAGCAATGAAGGTATACCAAACAAACCTCCAATCAAAATATGTCCTGTGACAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAATTAATGTTATAAAAATACATGCGTTATTTTTCTAATATAGTATGAGAGCCATTAAAATCTAAATAGATAGTTAGTTAGAAAAAAATTAAAAATTAAAAATATATAAATTACTCCTCTTATTTTATTCAAACCAAATTGAGATGGCCCATAAAAAAGGGAGATTAATGTTGAAATGGGTATTATTTCATTAGGCGAGGAAGGTGCTAAGTGAGACATTGGGGAAATTGATAGAGAAGAGACGGCGGAGCAAAGAGCATGGAGGTTGGTTGCTGGCGGTGCTACTGAGCGGTGGAGGTGGCGACGGTGGAGAGGATGAGAAAAAGAAGCTGAGTGATTCACAAATAGCAGATAATATAATAGGAGTAATATTTGCAGCACAAGACACGACAGCCAGTGTTTTAACATGGATTCTCAAGTATTTACACGACAATCACCATCTTCTTCAAGCTGTTCAGGTAAAATTAAATTTTACCTTTTTATTATTATTATATTTAATATTGGGTTAATAAAATTAAAAATTTGAAAAAAAAAATTATTCAGAAGGAGCAAGAGGCAATTTTTGAAAGGAAAGTGTGCGAAGGGAACCGTGGTCTTTCGTGGGATGATACAAGACGCATGCCCTTCACTAGTCGGGTATATTATATTATATTGTAGAAAAAATTTTATATATAAAAAAAATGTCAAACTATTTAAAGAAAATAGCAAAAAAAAAAAATACTGATAGAAATTGATAGACTTCTATCAATATATATCAGTGATAGACTTCTATTATTTTTATCACTAATAGATCCTGATAGACTTCTATCATTTTTATTACTGATAGATCCTGATAGATTTCTATTAGCGTTTATCACAACTATCTTGTGTAAATAATTTCTCCTATTTTTCTATTTTTAAAAATTTTTATATATTATATATAGATTTTTTTTAAATTAATTTGAGATATGAAATTTTTAGGAATGGATTAAATAGTATTTAAGGTTTGGTATTAATTAATTAATTATGAAATTGATAGGTGATCCTAGAAACCCTAAGAAGAGCACGTGTTGTGTCATTCACATTCAGGGAAGCAGTAGAAGAGGTTGAATTTGAAGGTTATTTAATCCCAAAAGGATGGAAAGTTCTTCCACTCTTCAGAACCATTCATCACTCCCCTGATTTCTTCCCACATCCCCACAACTTTGATCCTTCAAGATTCGAGGTGCCTATAATTTTATTATTATTATTTTTTTAAGACGGTTTTTAAATATAGAAAAATGAGTCAAATTATTTATAAATATAGAAAAAATTTACTGTCTATCGGCGATAGATTGCGATAGACAATGATAGAAGTCTATTGTTTAAAAGATAGAATTATATCGCAATCTAGCTGATAAACGACAGTGAAATTTTTCTATATTTATAAATAGTTTGATATTTTTTTTATAGTAATTTTTTTTTTTTTTAAATTTACTTTATATATATATAAGAAAATTTGTTTTTGTTTTTTTTGTATTCAAATTTTGTTGAAGAGATGTATTTGGTCTTTGTGTTTAAAATTTTGTCTTTTTAAGTCTTTGAATTTTTAAGAATAGAGATGTGTTTTGTTCTTAAATAGATGTTTATTTATTTCATTTTTGTCCCTATATTTTTAATTTTGGTTCATTTTGATTCTTATACTTTTAAAATGTTCATTTTAATAGTAACTATTTTGGTCATTTAGAAATGAAAATAAAGATATCAAAATGGTTACTTTTATAAAATATAATGACAAAAATGAACATTTTAAAAATACATGGATTAAAGTTAAAAATATAAAAATAAAAATAAAAATATCAAAAATATAGGAACTAAAATTAACAAGTCAAATTTTTAGTGAACTTTAAAAGTATAATCGTAAATATATATATATATTATATAATATATATATATATATATATATATATATATATAGATTATAATAAGTAAAGAAATTGTAAAATGTGTAAAGTGGGTAATCCAAATATAAGGTCATCACTGCCTGTATTATCTAAACACATCCCCATGTCGTTTTCGATGTGTGTAAGCCAAATATATGTTTATATCATTCACTCTTATTTTTCAATATGTCTCTCTTCAAAATCTTTCTTAGTGTCAGATCACGTGAGGTACTTACCTTTGTAGGGTATATCTGAAAATTATTCGAGGAGGCTGTCAGTATTTTTGTATCGTTTGATGTAACAATACGAAGAAAAAGAAAATTGTAAAAGTATCTCGAATTTATATATTTAAATATATATATATATAGATTTTAGAATTAATCTATGATCCATGATTATTATAAAGTTAGCTAGCAAATAAGGTTGGTTAATCATCTCGATTTTTATTTTTTATTTTTAGAATGTGTTTACAAATATAAACTAATAGTAAGAAAATTGAGAAGAAACAAACATAAATTTCTTTTGAAAGATAATTAAAAATAAAATTGTTATCAAATGAGACTTAAATATTAGTTTATTACTCGGAATCGGAATCTATTTAAAATCGTAATCTACTAATTCAAACCTTCTAATATAGAAGACGGTCTTTTGAATCCAAACGTCTTAAACCTGCATTTTAAATTCGATGTTTTTAGATAAAGTTGATTTAATATATAATAATTATTATTAATTTTTTTTGTTTTTTTGGGGTTAAAGGTGCCACCTAGACCAAACACGTACATGCCATTTGGAAATGGAGTGCACTCGTGTCCAGGCAGTGAGATGGCTAAGCTTGAAATGCTTGTTCTTCTCCACCACCTCACCACCACTTACAGGTTTTTTTTTTCTCTTTTTCCCACTACTTTTTCTATAGATTTGAAAATATTTTTATATCTAATAGAGCACGACTATCAATTTCTTGTTTAAAATGCAAATAAGATTTCATATTAATTAGAAAAGAAAGTAATTATAAATATATAAATAAGGACAAATAATTTTAGAAATAAAATCATCAAAATTTATGTCCAAAAGTGAATAGTATCATACTATGGTGGAGATAAGGTGAAAGGTTAGTTGTTATTATTATCACTTCTTTCAATAAATTTTGATTTAATTGATATCTCTTTCTTTCTAAGAAAATCCTATTTTTATCTATACGAATATTATTCTCTCTTTTAAGTAATTTGATTTTTAGTGTTGATCTACACTAAAAATCAAATGAATGAAGTTCGTATATCCACTACTATTACAAAGGTGGTTCATGAGCTATACTTAAATTGGTCTCTTTTCGAGGTCTAAAACCCTAATTTTGGATTATTTTATTAGTCTTTTTTCTTCAAGTTTAATTTATACTTTAGACTGGAGGGAGAAATGGTTTTAATTATTAGTATGATGTATCTATCAACCTCTTGAAACTTGATCTTACTTTTTGCTTGTTAACTAGTATTTTGTCTTTCTATCTTCGATAAAAGAAAAAAATTAATTTTATTTTTAAAATTTGGTTAAGAATCCAATTATTTAAGATATATAAAAATTATGAGAAAACAAACATAATTTTCAAGAACTAAACCGTTATTAAACATGATTAATTTTTTTTTTTTTTTTTTTTGTTGACTAGAAGGTCAAATCTTTTCATTGGTTGTGGTCCTCTCTCCTTGAATGTTCCTTAAGCTGTGGAACTGTGGTCCTTTTTTTCCCTCTATATCTCTCTTATCTAAGGGCAGCTTACCCTTAAAATATAAGGCTCCCCTTTCCTTCCTTTCTCTTATCTGAATCTATATAAAGGGCAGTACCTCTTACCCTTGGAATAAAAGGCTTCTTTGTCCCTCCCTCCCACACACACCCCCCACCATACCCTCAAAATAAAATAGAAAAATATTCAGATGTTTTCTAGGCTGCATCTATTTCTGTGCCATCTAAAAAATTATTCCGTAAAAATTATCACATGACAATTTTTATTTTTAGAGCAGTCTAGGTTTCACCTAATCATTTGTCCCTTAAAATATTATCAAAAGGGTCTTTTCTTTTTGCAAAGGTCCTTTAATTATCCTTAATATTAAAGGACCCCTTTACCATCTCATGTGGGTTTACTATGTTTTATTTTTCTTCCTTGAACACAAATTATGGAAAAAAAATGTCTTGGATATAGGACATGTTTTGAATATTTTTTTTAAACAAATCAATAATTCTTTATATAGAAAGATTTTTTTTTTTATTGAGTCTAGTAAAAAAAAATGAAGTTATTGATTATAAATTTGATAGTTTGAAAAAGAAAGTTAGAATTTAGTTTTATGGTTTGATAAAATCTCATAAATAGTTTATATAGTTTGATATAATACCCTAAAGACTATTTATGAAGATTATATCAAATTATAGGGACTAAATTTTAATCTTCTTTTTGACTAAATTTATATTTTAACCAAAATTATTTATTTTCTTAAATTTTAAATTTCTTGGAGGAAACAAGGTAGGATTGTTTTTTTGTTGCATGCATTAGTACACGTGGCATACATGCATCAAATCTTAGTATAGGGGGGAAAATACTACACATAATATTACATTCCCAATAACCTCTTCGTTGCTTGTCACCTCCTACTCATATTGCTTTTCATGAGTAATAATGAATTATAGTTTTTTATATATCTTTTAAAATTTTTGTGGTTAAACATGACTCAATTAGAGAGAATTATAAGATAATTAATCTATTCTTCATCATATATATCTTTCTAGTATCTTTTTTAATTTTCAATTAGGATTAAAATATTTTTTGATATATTTCCTAATATGATTAAAAAAAAAAAAGTCACTTTATACTTTTTTGAAAAATAGTTTTATTTTGTTGATGGGTTATATTTTAAGCTTATCTAGAAATAATTTGTTCAATTGAAGTGACATGACTCATATATGCCTGACTAGCCATTATGATCAGCTTTTCAGTCTTGTTATTTGTATTTTTTAAGGTCATATCATTTAATTTAATAAATATATGTCTTTTTATGTGTGACTGAAAATCATTCCATATGTGTAAGTCTCACATCACTTCTTCAATTTATTAAGTCATATTTCTTTTAGGAAAAAAAAAACTTATAAATAAGCAATGTTTTTTTTATTTAAATTATTACTTGTTTGAGATATTTTTTAGAATGTAATAATTTTAGGAGTGTGTTGGATTGAAAAAATAATATGATAAGACTTGAATTCTAACCCCCAAGAAAACAAGAATAAATCTTTTTTCTTGAGAAATTTTTAAAAATAGAAAAATAAGAGAAATTATTTACACAAAATAGCACAAGTTTTAGATAGTTATAATAGACTCTAATAGAAGTCTATCAAGGTCTATCAGTTATAGAAATAATAGAAGTTTATCAGGATAGATGTTGATAGAAGTCTATCAATGTCTATCAGTATCTTTTTTGCTATTTTCTGTAAATAGTTTGACATTTTTTCTATCTATGAAAATTTCTCTTTTTTTTTTTACTATGTAATATAGATAAATTGTGAGATTACTTAATAAAACCCAAAATTAAAGAAAAATAAAATCCGATAATTTAAGATAATTAACTTAAATTTAGAAAAATTGTTATAAACAGAAAAAATATCAAATTATTTACAAATATAGAAAATTTTTACTATTTATCCGTGATAGATCACGATGGAATTTTATCGCTGGAACGATAGACATAGTAGACAGAAAAAAATTTCTATATTTATAAATAGTTTGACTCATTTTTTTATATTTGAAAGCATCCCTTAAATTTACTTAAAACTCGAGATATTACACTAGTTAAGACATCCAACTAAAAAATAGTGAAACTCAAGAGAACAAATTTAAATTTCAAGATTCACTCAAAATTGTGGATTCTAATTGTCTACATGTAAGCTGACTCGAATAGTGAGTTACATCCTTGAGATTCCATTTCCCAAAATCCCAATCATTTGGTCTCAAAATATCCTAACCCTAATCCATTTCTTCATCTCTCTCTCTCATACTTTTCTCTGTCAAATAACATACAAATGGCGGAGAATTGGCCTGTCAAGGCTTCGGCCCATGGCGACAAAACAAAGCCGCCATAGCCAGCTGTAAGGAACAATCATAATTCTCTCTATCACCACTCACCAACCCATTTCTTCCATCTCCACGTTTGAACGTTTAACACCTCATGTTTTTCTTTTGCTGATCCAGCCGTCAAGAGTGGTAGGAATATTGATTCTTTCATCTGGGTTTTACGTTAAATGTTGATTATGATGTTTCTTTATACTCATGACTGTTTGTGGAAATGTCGCAATTGAATTATATGGGGGGTTTTTAGGTAATGCCTGTAAAATGTTTGTGAAAATGTCACTGTTGAATTTATAATGTAGGCTTTGAAATGTCTGACTGAATTATAATGGTGGATTAATTAGTTGTTTGCGTAATCTGCATACGAAGTGTTTGTGAAAATGTCTCAGTTGAATTGTGATGTTGCTTGCCAGGTGTTTGTGAAAATGTCTCAATGAGTTTATAGAGAGATAATTAGTTATGTTGGCTAATCTTGGCTTTATTTTTGTTTGGGGAATCAGATGGAAAGTAGTGGGAGAGGAATCTGGAATACAATACGGTCCATTTCCTGTACCTAAAGGTGGTTTACCCATAAAAGTATTTTCAAGGAAGAGGAAGATAATTACATCTTAGAATTGATGAAGAATATTCAGAGTTCTGATTGGACAAAAGCTGAAAAGCACAAGTCCTTTTTTTTTCTTCCCCTTCCATCTTTAACATCATTTTCCCAATTTCTGAATGGTAATCCTTGTGTATTACTTTTTTTAATACTAAGTCTTTTTGTCTGGTTTGCCATAACTGTCAAAGCAGTTTATGTTCATTGAGCATCAAACTTCAATTTGTTTATATTGAATGAGGAAAAAAGGAGAGAAATCCCTCTTTGTAATCTGTGTATGTTAAAGAAAGAAAGAAAGAAAGAAAGAAAGAGTTTATTTTTCGAGGGTTTTGAGGATGAAATGTGAGTGGTCAGAATGATGGATAAGATTGGTTTCATTATTTCACAGGCAGGCAGGCAGGCAGGCCCTCCTCTCCCTGTTTGAAGTGTGAAAGGGCAAGGACAAAGCTTGGCCTTGCTGGAAGCAGACCCACAAGGTAATAATAATAATAATAATAAGTCTTAATAGTTAAATGGTGTTTGTGTTTGAGACATATAACATCAGTACGGTGTGCTCCCTAGAATTCCACGTTGTAGTGTGTCAGGGCACCAAAATTGTAGGCCTGCTTGGATTGTTAACAATGGTGGCCACTATTCAGCTTAAGCATTGATGGAGGGATTTTTGGAACTTACAATCATTAATATCATTTGTATTTGAAGGGAGACAACATTTGTCCATCAACTTTGTTTTTAACATGCTCTTTAATTTTGGCCCTCCCAAGTTCCTTCTCTTCTGATAAGGTTCTGTTTCTTTTCTTTTCTTTTACCTCCATTCATTTCCTACCATTCTTCATTTTTAGATATTTCATCTACCAATTCTATAGACTCAATTAAAACTTCAGAAATTCTGTCAGATATACTCAACTTTAGGGTATATTTTCTAAAATATCTCAAATAAGTTTGTTTTTCACAAAGTACAATTAGTAATTGTTTTTTAATTACAAATTTGAAAATTTTAACGTTTTTATTAGAGTGATTGTTTTAAATGATAAAAATCCTAGAAATATAGACGGTTATATTTTACTATATTTGTAAATAAGTTGGGGCATTTTGCTATATTTTGATAGGTTTTATTATTAATATTTTTTAATTTTTCAAGTTTGAAAATACATAAAAAAAAATGTTGTTTTTAAATATAGAAAAATGAGTCAAACTATTTACAAATATAAAATTTTTTTACTAGACTCTATTATTCTATCGCTCAAGTGATAGAATGCTATCACAGTCTATTGTTGATAGACAATTAATTTTTTTTATATTGGTAAATAATTTGATATTTTTTTAATTTCCTTAAAAAAAAATCAATAGGAAATTTCAAATTATAACTTACTTAACAATTGCCTCCATGGATGAAAGAATTTTTATGCAATAATCTATCATAAACGTTGTCAAATTTTCATTAAATTTTAAATCAACTTTTAATTCTATTTCAAAATTTCAGTTCTTTGCATTTTTTCTTACTTTGTTGTTCAATTTTGTCAATTATCGGATTGTTGTTAACGATCATATTTTATTAAGTCATGTACACACTTGTCAAAAGGGTACATATCCCTCTATTTCAATTTTTTTTTTCTTTTGTCTTTTTAGTATTCCCTAAAAGTTCAGAATATGGATAGTTTTTTCTTTTCAATACTTTTTAAACATTCACTTGTTAAATGGTTTTATTAGTTAGTTCTTTCAATAAAAAAAATTAAGAAGTTGGATCAATTGTCCCAAACATAGGAAACTCAATACATGTCAAAGATGCCAAATCGTGAGGGACTTTTACTGGTTTACAGGTAAACCTCTGCAAGATAAGTCTCTTAAATGAAACGAATAATAATGTAATGGTGAAATATGACCAACAAAAAATGTTATGAAGTTCAAAGACAACTCACATATATTAGCTTAAATCATTGCTGTTGGTTCGAACTCCAAATCGGGTGATTGATCTTTGTCGAGTAGATTACAGAATGTACAATTTGCTGATATGTTAGACAACAGTACAATAATTTAATGTAGGGGTCAAGAAATGAAGGCTGAGTTACAATGGCCCCTACAAAGAAATTATAACCTGAAGGAAATTTAAAAATTCCATGTGACTTAGTGCATCATTCATTCATTGAATGGCTGAAACGGCAGCAACAAACTTTTGGATTTACCATAGCCAGCCACAGCCATCCTGAAATGATTGAACATCTGATGCTTGACAATAGTGAATATAGCAGAAGCACACAATCTAGCAGAGCATGAATTTCCATTGTACAAAGATATGGCTATGTCAAATTGAAATGAACAGATAAGTTTTTAACCTTTTACGCTGAAGATTCGAAATCACTGCAGCAAATCATTTCAATATTCAAAAGATTGAAACCCCATATTGACATTTCCTTTAGAAAGCATATAAAGACCTTTGTTTGGTCATAATTTTCCTAAATGACAAGAATAGGAAGCACAGAAACAAAATCTTTGATTTGATTTAATGCTAGAAACCAAAAGGCAGAGTAGGAGGGAGATAATGAGATAATGAGGATATCACCTAACAATGAACAATGGACAGAAAAAGTATAACCAATCATCAATGTTGATATGCTATGAATTTGAGCAAGGATTGAAATGACAATCGATGGCGATATTGCTCGGTTGCAATTTGAACACCGAGTCGAGTCCTGAATAGTATGAAATGCTCACAAGGACTTCCACATTGCAAATATGTGGAGCAAATCAAAGATAGACTGATATTTTCCTCAACTCCCAAAAGGATTGGCCTTCAAAGGCAAGGTGAGGTGGATAAAAGTCAGCGGATTCAACAGCCTATCTTTTCTCTACCATTATAGTGTTAGGGCCTACTGCATCAGTGTGCAGAACTTGAAAATCACACATGCCATATGTGCTTTAATAAAGCAAAGGTCATAAGGCATTTTTGAAGGGATTCTACTGAGTTTTTATGGTGATAGATTTCAAAGCATTTTCTGAAATGGTAGGACATTGTCTTACGGGAAAGAGTTGAAAGTCATTCATGAAAAAATCAACCTACTCAAAGCAGTAAATCACAGAATATTTTCTCCTTTTCATGGGGGTTGTTCGCTAGCATTATCCACTGATCTTTGCCGGCACAAACAGCTAGAGCTTAGGATAACTTAGCAGCAAAATAGAATTGAATTGGCTTCATTAAAGGACCCCAAGGACTATTGATTAAACAACAGGCAAAAGGATGAGCAACCATTTAGGCAAGATCGAAAGTTCGGCTCTTTCTATTCTCCTTAATTAGACTCATTGAAGGATCCTAAGGCCTATTTGATTAAACAAGAGGCAAAAGGACTACCAACCATTTAAACAAGATCGGAAATTCAAAACTAGTTGGCTCTGTCCATTCTCCTAGTAAGATACAATGACAAAATTACAGGATAAAGAATGAGATTCATACCAAGGAGGACATGGTAAAGATGCATTTAGGAGTGCTGACATAAGCACTTTAACAAAAACATGTTTAATTAAAAAAAAATCAGATGTTTAGTTTCACTCTTAAAAATGTAATTAGGTATTTTTTGGGCAAGTATTTGGGCCAAAAGCACTCCCAACGTGCTTTTTTTCCAAATTTACTATGAGGCCATTTAAGACACCAACTAGAAGTTGGAGTGGATTATTATAGCCCACTCCATGTTTGGGGCACCAAATATAATAGTAATGTATATAACTATTATAACCTACAATTAAGTATAATAAATACTATTTCAAAATCCTCTTTGCCACAATATTTACTATTTGCTATGATATTTACTATTTTTCGCTCATCCTCTCTTTTCTTCTTTGTTATAATGTTTACTATTTCCTACCCAAACAAATATAGTTTACACCCTAAACACAAACTATAATAACTCAGACTAAAATAGTCTACATCCCAAACACTAACTATTATAACCCACTAACTACAATAACCAACTCAATGCCCCAAACTCCCCCTATAAAGTTACTTCCTAATACGATTCGTTTAAGTAGGAGCCGGGATGTGGTTGTGACAGTGCCAAAAGCACTCCCACATGGTGAATCCTTGTAAAAGTATAGGCAAATGAATTACCATCTGTTTGCCAACCAATCAGATTCACCAATTTCTAAAAACGGCAGCTCCTAGAGAAACAAGTAGTTCATGTTTAGAATGATTTCCAAAGTGATTAAAAAGTCATTCCAGACAGTCCAGTATTCTATTTCTAGTTAAGTTCAAACATACACATGCCCACATTTAAACATGCAGTCATATATAAGGAACACAATGACAAATAAAAATGTTATGCGCAGAATATATACTAGATTCTTTAGCAGAGGCAACAAAAATAAAGTCAATGGGAGTAATGATTTTTCCACATATCAAAATGGTCAATAAGAGATTCCTCAGCCCGCCCGCCCCCCCTGTCCCTTGCTTTTGCTAAAGCTTAGAGATGCATGTACATGTGTCTGTGCAAGTCATCATACAACATACAATGATAAATCTAGAATTTAAAATTCATTGTACGAAACATGATGATTCAAAATCTAACATACACTCTGTATGACAGATTTCCATGGATGGAGAAAAACGACAACGAAAAGCAATATAGAATATGAAAATTTTAAAATGTTTCCAAATATCAAAAAGTGTACAGTCTTCTAATCAGATACAGTTGTGGTTCATCTGGATGAAAGATGGATTATTTGATAGCCATCCTTAAATATTCCTCTGGCATTCTGTTGTGTTGTGTATGGGTTTGAAGAACTCTTTCATAGTTACATTTTTTTGGATAAGATCTTTCACAGTCACATTTTAAAATCCGTAATCACTTTGAACCCTCCACTCTTGAAGTAAAATATACATATACATATATACACATACACACATACACACACACATATATAGTACCAGCATAATAAGCTTCAATGCCTTTGTCAATGAATTGAAGAAGTACACAAGGTTAACTTATAAGTTTGATAACTTAAACTGTCAAGATTGTGTTTATTTAGTCCTTGAACTTCAAAAAATTTTTAATACGCCACTAAACTTTGTGTTTATCGAATCCAGTATAAAGTCTGCAATAGCTTTCTATATTTCCAAAGTTTTTTCTGTAGTTTAATGTTAAATAGCATGTCGACACTGTTATTCAATGAAAGAATTTACACTGTTTCTTAAAAAAAATAATAACAAAAGAAAACTAAAAAGAAAAAGAAAAAAAAGTAAAAAGTAAAAGCATGTTGGTACTATTATTTAAGGATTACACATCATGAGTTGAAATCTAGCAACTTTAGACATTCGATGGCATAGAAGTTAAACTAATGTTGTTGACCTATTAGACACAAAATTGAAAGTTCAATGGTTTATTAAAATCTTTTAAAAGTACCGAAATTAAGTAGACACAATCTTATTAGTTTCAATCCTAAAAATTTAGGGACTAAACTTTTAATTAAACATCCATAATAAAGTAAAATTGATTTACAATCAATTTACCTACGGATTGAGTCCTCATTTTAGAAAAAGATAGTAGGAGTTCATGGATGCTCAACATAGACAGTAATTTTTGCATGATCTCTCCAAGCACATTGAAAATTCGGTTGAACGCAAAAGAAAGGCAAACAAGGCCCTCAAGTGAGAGTTAATCACAAGTAATACCAAAAGAGAGAAAGCACAAGGATCATATTTTGGTAAGTCAATCTATAGTGGGTGGATTATAGGAGAGAGAACCTTTTCAAAAGGCTATTAGTTATTGTAATTTCTTTTGATATTTCAATATAGTTTTTACTAGTGTTTCTTGTGTTTGGATACCTAAAATTCTTGCATTGACTATCTAAATAAAATTGAGCAGTTGTATTCGTTATACTAGGGAGCTAAAACCTCAATCCAAATGATACTTCTATTAACTTACTAAAACTTGATTCATACACCTACAGTAAGCAATTTTGCCTATAGTTCTCTTGCTCCTGGTCTCAACAGCATTCTAACAAAGGTTAAAAGATGCTAAAATACAAAAGGGCGAAAGGAGGAATAAAGGCTTTTTAAGGTGCAAAGAGAATTTAAGAATAGGAGTTGAAGAAATTTATGGCAACAGGTAATTGAAAGGAGGAGACAGTTGGAGCTGAGAATGGAAGAGTTGCTGGAAGTTGTAGAGATCTTTTTCAATTTAGCAGATAAGATTACTTCACCCTATCTTTAAGAAAAGCATTGTATAACTATTGATTAACTGTGACGATTTTGTGTCCCTATACTTTCAAATGTTCATATTTAGCCTATATACTTTCAATAAATCTTAAAATTAATCCTCAACATTAGTTCAAATCTAATTTTTATCAAACTTGGCAACATAATAATAATAATTTTCATTCAAGAAAAGACATAATGTGAATATGTTTTCAAAATTTACAAGGAGAAGGCTAATAAGAGACTTTTTATTATTATTATTTTAGAAAAAAGTTAACCATAAACTCATGGTTGGACAAAATTTGAAACTAAAAGAGAACAAGTTTCAAAGTAGAGTGACCAAAATAACATTTTAACTTATATATTTTTAAGAATCAAGTATATCAATATATACACATAAAAAAGATTATGTGTCTATGTCCTACGTTTTTTTTAGAAACTGACGTGCTATTGCATTACATTAGTATTGTATCCATGTCTTTTGTGTCTATGTTCATGCTTCTTAGTCAATGAGTTACTAGAAGACATCCATTGGATTTTTCCATGTAATCTAGATTTCCCCTCAAATGCCTTGATGACTAAGAATGCTCTTCGGTCATTACACAACCATAAATGTACCCGCATCAGAGCAATTTTTTGGATTAAATGTTACCTCAAGGCATCATATCAACTCATAGTTCTTTCTCCAATCCATTCTTACTAATGAAAAAAAAGTGACATTGTGGTGACCAACTAGTTTGAATAACGAAGCTATGAATAAGATAGCGCCAAATAAGTCTCTTATTCTTGTGATAGATGAACTAGTGCAATTATTTTCTCTAAGTTTAACTTGAAATTGGGACTTCACAAATAAAGATGCATCTTGCAAATGTACCCTTCAAATGCATTGGAGGATTATGAGTCTATGGCTTTGGTTCTAGTTTTAGCTTTACTGAATTTTCACCAGGAATGTATAGTAAGAACTTATGTATCAGGGTATGAGGTAGGGGCAACTTCGATGCAAGACTATCTAGTGGTCAATTTAAACTAAGTTTCATCCACTCAAGCACAACAGAAGTTCATTTCTGACTATGAACTCACTGAAATTCTGCATCCTGTACAAATGGGGAAACTATGCTATGTTAGGAAGAAAATTCCTAAATACGTGCAGACCAAACAAGCTTGAAATGTTTCTCCTAACAGATTAATAGGTTAAACAAAGATGGGCAACCAAATTCTCGTACTTCAATTTTAAAACATGATACTTGCCAGAATTAGGAAAAAAAGGTCATAGAGGCATTTCTACACCTCCCATCCAATGAAACCCATGCATCCATATTTATGGTTCAAGAGTACTATCCAACTGTCATCAGACAGCAAGTTGAAGAGAATTCTCCAAGAATCAATAAGGCTGTTACAGAACGCCAGAATGCATATCCCCAGTTTACAGTTGAAAATGAATAGCTATAAGTACAAGGGTCATCTAGTCATGCCCAAAAGATTCCAGCTAATATTTCTCTCTACTCCAAAAGCATCATTGTAGCCTATTTGGTGGTCCGGTCGTGCACAGGAACATAAAACCTATAAGAGAATGTAGCAGACTCATGTAGGAAGAGAATGAAGAAAATAGGACAAGATCTATGGCTAGATGCAATGTTTGACAATGCGAAATGTACTTGGCCATGCACCTGTCTAGGTCTTGCATCCATTAATAATAGCCAAGTTTCCATGGAACAAATTGTTTCTCAAAGGGTTAGCATGGGACAACTTGACGATGATGTTATGGAGGATTTCCTAAATCAAACAAAAAGGACGTAACATTGGGTGGTGGTAGAGGTATAACAATTTACGTTTGAAGTAGTTAATATATAGAAACTCACGAAATCTATGTTGTTTTGCATTAGACTAATTGAGGAAATGGGCAAAATGAGTGTCTTGGGCAGAGTAATGGTATAATACCTCTCTTTGTCTCCATCAAAGTTACACCATTCCACCTTCCATACGGCAAGCCACCCCCTACATTTAACCGTTATGAGCAATCCCACTTAACCAATCTCTTCAGTAGATCAACTCCTCCAAGATAGGGACGCCATCCTTGATCAAGCTCAAATTCATACAAGCCAAATGAACAATGAAAACTAGCAACCTCCCAAACCTCCTCCCAAGATCTCTCTACCTCCCCAAAAATTTTGCTATTTCTCTCAAGCCAAATCCCCTAGAACAAGACAAAGAAACAAGACTGCGATAAAACTCACCCTTTATTTCAAAATAGGAAACTCTGGAGCATCTCCTCAATCAATCATGGCATCGCACTCCCTACCACGACACAGCCCAATCATAAGCTGGACAAACTCAAGCATTTGCACCATAGGGAATGAGGAAACAGGCATCCCCACAACAAATGGTCAATATACTGAAATCCTCCTCATGCTTCCTGTAGAATGCACCATTGCCAGCCCAACACAACAGGAGGTTGTCTCTAAATTCAAACAAAAGTTGTAATTCGTCCATGCAAAACCTCCACCAAAGAATTTAACCTTCTTGGAAATTTCTCTTCCAAAGAGAGGAAAAGGCCAAGGCATCTGAAGAGAACAAGGTTACACAAAATATGAAAGAAAGAACAACGTATGACACCCTCCAAAAGATTAGGAGTCTGAATTCTAGCATCTCCTCTGCACACACCTAGATGATGTAAAGGACAGAACACTATGCCAACGCTTTTGCAATCACTTTATTATACAAATGCCGATAAAACCCAAGAAAAGCAAGGAAAGAGGATCAGAGGAAGGAAAAATAGAAATTGCTGAATGACAATTCTTGTTGAAAAGGTGATAGAGACGAGAAAATAAAGCGCAAAGAGGGGGGTTACCAACCAACTAGTCCTCCCAAAAGTAAACCTTAGAGCCTTCTCCAGTGAAACATTTCTGATAGGAATGGTATTAGAGGGATATTAAGGGTATATTAGTAATTAGTTAAGTAGTTTGTTAGGGAAGTTGGTTATAAATAAAGGGGTAGGGGAATGGAGAAGATAGGCAATATTTTGGAATATGAATTAGGGCTTGAGAGTGATCTCAAGATTGGGAGGGTCCAAGTACCTCGAACACTTGGTTTATCTTGTAATTTTCCTTATCGTTTATCTTTCAATATATTTGGGTTCTATCAAATTGGTATCAGAGCCGTTCGATTCTGGCCATGGAGGTAGATGCAGATGAATTTAGGGAGGTGTTGAAGTTTGTGCGTGAGAGGGTCGAATATATGATAGCTATTTCAGAGGGCAGAGTCGTTCCAATAGCAAAGGTCGTGGTCCAACAAGAAACGAAGATGGAGAGTAGGATGATAGCAGTAGAAGAAAAATTGTTGGAAATAGGGGAGAGACAGGCAATAATGGACACAAAAATGGAGGAACAGCTCAGGGAGGCCAAGGCAGCTAAGGACGAGCAAAATGGTCAGATGAGTTTGATTCTTTCACGATTGGATGCAATGGGAGGTAGGGGCTCAACGTCATCGGAAAGAACCGTGACCGATAAAGGAAAAGGAGTCATGGGCGTGGAAGTAACGGAGTCAAAGAAGAGTAATCACCAACAAAAGGAGGAGGAAGGCATTCATGCACCTGGGAGTAAAGAAGTTCCTCTGATTGATATGAGATTGAGGAAGTTGGAGGTGAAGCTTCGGAGAAGAAGCCGAAGATTGCTGGAATGGTCGAAGAAAATGAGCTGGTGGAGACGTCGATGCAAGACTCGTGACGAGGTAGTAAAGATGAGGAAGGGGAGATGGGTCAGTAATCGCGAAGCTCGGGAGAGAGCGGGTGACCCTGATGAAAAGGGAACTAAAAGGAGGAAAGCACTCGAGAGAGGCAAATGCTTTCGAAGAATGCCGACATGGAAGATGCAAAAGATTTGGTGGAAGGGCGGCGCAAGCTTCGCAAAGGGACAACCATGAATGATTTCAAGTCCAAAGGCTGCAAGAGTTGTGCTTGTGAGTAAAGCTCATCTATTCAAGCCAACTTATCCACCAAGCAAAGAGAAAATGATAGGTCCTCAAGCTTTGTTTTTCCATCAAGGTCCTTACCATTCTCACCTTAAGAAGCTCATTCAAGCTTCCTTTTTGCCATCTGCTATAAAAGCCTCTATCTCTCAAATTGAGAACATTGTTCTCCACCTTCTCCCCTCTTGGAATAACTCCCAAATCAACACCTTGCAACAAATGAAAAGGTTTGCTTTTGATGTGGCAATGATATCAGCTTTTGGAGACCAACAAGATTTGGAAATTGAAAGAATCAAACATTTGTACCAATGCCTTGAAAAAGGCTACAATTCTATGCCTCTTGATCTTCCTGGAACTCCTTTCCGCAAAGCAATGAAGGCGAGGAAGGTGCTAAGTGAGACATTGGGGAAATTGATAGAGAAGAGACGGCGGAGCAAAGAGCATGGAGGTTGGTTGCTGGCGGTGCTACTGAGCGGTGGAGGTGGCGACGGTGGAGAGGATGAGAAAAAGAAGCTGAGTGATTCACAAATAGCAGATAATATAATAGGAGTAATATTTGCAGCACAAGACACGACAGCCAGTGTTTTAACATGGATTCTCAAGTATTTACACGACAATCACCATCTTCTTCAAGCTGTTCAGGTGATCCTAGAAACCCTAAGAAGAGCACGTGTTGTGTCATTCACATTCAGGGAAGCAGTAGAAGAGGTTGAATTTGAAGGTTATTTAATCCCAAAAGGATGGAAAGTTCTTCCACTCTTCAGAACCATTCATCACTCCCCTGATTTCTTCCCACATCCCCACAACTTTGATCCTTCAAGATTCGAGGTGCCACCTAGACCAAACACGTACATGCCATTTGGAAATGGAGTGCACTCGTGTCCAGGCAGTGAGATGGCTAAGCTTGAAATGCTTGTTCTTCTCCACCACCTCACCACCACTTACAGATGGAAAGTAGTGGGAGAGGAATCTGGAATACAATACGGTCCATTTCCTGTACCTAAAGGCAGGCAGGCAGGCAGGCCCTCCTCTCCCTGTTTGAAGTGTGAAAGGGCAAGGACAAAGCTTGGCCTTGCTGGAAGCAGACCCACAAGGATGATAGCAGTAGAAGAAAAATTGTTGGAAATAGGGGAGAGACAGGCAATAATGGACACAAAAATGGAGGAACAGCTCAGGGAGGCCAAGGCAGCTAAGGACGAGCAAAATGGTCAGATGAGTTTGATTCTTTCACGATTGGATGCAATGGGAGGTAGGGGCTCAACGTCATCGGAAAGAACCGTGACCGATAAAGGAAAAGGAGTCATGGGCGTGGAAGTAACGGAGTCAAAGAAGAGTAATCACCAACAAAAGGAGGAGGAAGGCATTCATGCACCTGGGAGTAAAGAAGTTCCTCTGATTGATATGAGATTGAGGAAGTTGGAGGTGAAGCTTCGGAGAAGAAGCCGAAGATTGCTGGAATGGTCGAAGAAAATGAGCTGGTGGAGACGTCGATGCAAGACTCGTGACGAGGTAGTAAAGATGAGGAAGGGGAGATGGGTCAGTAATCGCGAAGCTCGGGAGAGAGCGGGTGACCCTGATGAAAAGGGAACTAAAAGGAGGAAAGCACTCGAGAGAGGCAAATGCTTTCGAAGAATGCCGACATGGAAGATGCAAAAGATTTGGTGGAAGGGCGGCGCAAGCTTCGCAAAGGGACAACCATGA ATGATTTCAAGTCCAAAGGCTGCAAGAGTTGTGCTTGTGAGTAAAGCTCATCTATTCAAGCCAACTTATCCACCAAGCAAAGAGAAAATGATAGGTCCTCAAGCTTTGTTTTTCCATCAAGGTCCTTACCATTCTCACCTTAAGAAGCTCATTCAAGCTTCCTTTTTGCCATCTGCTATAAAAGCCTCTATCTCTCAAATTGAGAACATTGTTCTCCACCTTCTCCCCTCTTGGAATAACTCCCAAATCAACACCTTGCAACAAATGAAAAGGTTTGCTTTTGATGTGGCAATGATATCAGCTTTTGGAGACCAACAAGATTTGGAAATTGAAAGAATCAAACATTTGTACCAATGCCTTGAAAAAGGCTACAATTCTATGCCTCTTGATCTTCCTGGAACTCCTTTCCGCAAAGCAATGAAGGCGAGGAAGGTGCTAAGTGAGACATTGGGGAAATTGATAGAGAAGAGACGGCGGAGCAAAGAGCATGGAGGTTGGTTGCTGGCGGTGCTACTGAGCGGTGGAGGTGGCGACGGTGGAGAGGATGAGAAAAAGAAGCTGAGTGATTCACAAATAGCAGATAATATAATAGGAGTAATATTTGCAGCACAAGACACGACAGCCAGTGTTTTAACATGGATTCTCAAGTATTTACACGACAATCACCATCTTCTTCAAGCTGTTCAGGTGATCCTAGAAACCCTAAGAAGAGCACGTGTTGTGTCATTCACATTCAGGGAAGCAGTAGAAGAGGTTGAATTTGAAGGTTATTTAATCCCAAAAGGATGGAAAGTTCTTCCACTCTTCAGAACCATTCATCACTCCCCTGATTTCTTCCCACATCCCCACAACTTTGATCCTTCAAGATTCGAGGTGCCACCTAGACCAAACACGTACATGCCATTTGGAAATGGAGTGCACTCGTGTCCAGGCAGTGAGATGGCTAAGCTTGAAATGCTTGTTCTTCTCCACCACCTCACCACCACTTACAGATGGAAAGTAGTGGGAGAGGAATCTGGAATACAATACGGTCCATTTCCTGTACCTAAAGGCAGGCAGGCAGGCAGGCCCTCCTCTCCCTGTTTGAAGTGTGAAAGGGCAAGGACAAAGCTTGGCCTTGCTGGAAGCAGACCCACAAGGATGATAGCAGTAGAAGAAAAATTGTTGGAAATAGGGGAGAGACAGGCAATAATGGACACAAAAATGGAGGAACAGCTCAGGGAGGCCAAGGCAGCTAAGGACGAGCAAAATGGTCAGATGAGTTTGATTCTTTCACGATTGGATGCAATGGGAGGTAGGGGCTCAACGTCATCGGAAAGAACCGTGACCGATAAAGGAAAAGGAGTCATGGGCGTGGAAGTAACGGAGTCAAAGAAGAGTAATCACCAACAAAAGGAGGAGGAAGGCATTCATGCACCTGGGAGTAAAGAAGTTCCTCTGATTGATATGAGATTGAGGAAGTTGGAGGTGAAGCTTCGGAGAAGAAGCCGAAGATTGCTGGAATGGTCGAAGAAAATGAGCTGGTGGAGACGTCGATGCAAGACTCGTGACGAGGTAGTAAAGATGAGGAAGGGGAGATGGGTCAGTAATCGCGAAGCTCGGGAGAGAGCGGGTGACCCTGATGAAAAGGGAACTAAAAGGAGGAAAGCACTCGAGAGAGGCAAATGCTTTCGAAGAATGCCGACATGGAAGATGCAAAAGATTTGGTGGAAGGGCGGCGCAAGCTTCGCAAAGGGACAACCATGA MISSPKAARVVLVSKAHLFKPTYPPSKEKMIGPQALFFHQGPYHSHLKKLIQASFLPSAIKASISQIENIVLHLLPSWNNSQINTLQQMKRFAFDVAMISAFGDQQDLEIERIKHLYQCLEKGYNSMPLDLPGTPFRKAMKARKVLSETLGKLIEKRRRSKEHGGWLLAVLLSGGGGDGGEDEKKKLSDSQIADNIIGVIFAAQDTTASVLTWILKYLHDNHHLLQAVQVILETLRRARVVSFTFREAVEEVEFEGYLIPKGWKVLPLFRTIHHSPDFFPHPHNFDPSRFEVPPRPNTYMPFGNGVHSCPGSEMAKLEMLVLLHHLTTTYRWKVVGEESGIQYGPFPVPKGRQAGRPSSPCLKCERARTKLGLAGSRPTRMIAVEEKLLEIGERQAIMDTKMEEQLREAKAAKDEQNGQMSLILSRLDAMGGRGSTSSERTVTDKGKGVMGVEVTESKKSNHQQKEEEGIHAPGSKEVPLIDMRLRKLEVKLRRRSRRLLEWSKKMSWWRRRCKTRDEVVKMRKGRWVSNREARERAGDPDEKGTKRRKALERGKCFRRMPTWKMQKIWWKGGASFAKGQP Homology
BLAST of HG10021903 vs. NCBI nr
Match: XP_008457459.1 (PREDICTED: abscisic acid 8'-hydroxylase 2 [Cucumis melo]) HSP 1 Score: 661.4 bits (1705), Expect = 7.3e-186 Identity = 335/382 (87.70%), Postives = 343/382 (89.79%), Query Frame = 0
BLAST of HG10021903 vs. NCBI nr
Match: XP_038894709.1 (abscisic acid 8'-hydroxylase 2 isoform X2 [Benincasa hispida]) HSP 1 Score: 660.2 bits (1702), Expect = 1.6e-185 Identity = 336/383 (87.73%), Postives = 342/383 (89.30%), Query Frame = 0
BLAST of HG10021903 vs. NCBI nr
Match: XP_038894708.1 (abscisic acid 8'-hydroxylase 2 isoform X1 [Benincasa hispida]) HSP 1 Score: 659.8 bits (1701), Expect = 2.1e-185 Identity = 336/384 (87.50%), Postives = 342/384 (89.06%), Query Frame = 0
BLAST of HG10021903 vs. NCBI nr
Match: XP_011658248.1 (abscisic acid 8'-hydroxylase 2 isoform X1 [Cucumis sativus] >KAE8653258.1 hypothetical protein Csa_019706 [Cucumis sativus]) HSP 1 Score: 658.3 bits (1697), Expect = 6.2e-185 Identity = 333/382 (87.17%), Postives = 344/382 (90.05%), Query Frame = 0
BLAST of HG10021903 vs. NCBI nr
Match: XP_022948432.1 (abscisic acid 8'-hydroxylase 2-like [Cucurbita moschata]) HSP 1 Score: 620.5 bits (1599), Expect = 1.4e-173 Identity = 316/382 (82.72%), Postives = 332/382 (86.91%), Query Frame = 0
BLAST of HG10021903 vs. ExPASy Swiss-Prot
Match: O81077 (Abscisic acid 8'-hydroxylase 2 OS=Arabidopsis thaliana OX=3702 GN=CYP707A2 PE=2 SV=1) HSP 1 Score: 487.6 bits (1254), Expect = 1.9e-136 Identity = 252/383 (65.80%), Postives = 300/383 (78.33%), Query Frame = 0
BLAST of HG10021903 vs. ExPASy Swiss-Prot
Match: K4CI52 (Abscisic acid 8'-hydroxylase CYP707A2 OS=Solanum lycopersicum OX=4081 GN=CYP707A2 PE=2 SV=1) HSP 1 Score: 423.7 bits (1088), Expect = 3.4e-117 Identity = 222/395 (56.20%), Postives = 275/395 (69.62%), Query Frame = 0
BLAST of HG10021903 vs. ExPASy Swiss-Prot
Match: Q9FH76 (Abscisic acid 8'-hydroxylase 3 OS=Arabidopsis thaliana OX=3702 GN=CYP707A3 PE=1 SV=1) HSP 1 Score: 419.1 bits (1076), Expect = 8.3e-116 Identity = 211/379 (55.67%), Postives = 267/379 (70.45%), Query Frame = 0
BLAST of HG10021903 vs. ExPASy Swiss-Prot
Match: Q949P1 (Abscisic acid 8'-hydroxylase 1 OS=Arabidopsis thaliana OX=3702 GN=CYP707A1 PE=1 SV=1) HSP 1 Score: 416.0 bits (1068), Expect = 7.0e-115 Identity = 206/379 (54.35%), Postives = 269/379 (70.98%), Query Frame = 0
BLAST of HG10021903 vs. ExPASy Swiss-Prot
Match: Q09J79 (Abscisic acid 8'-hydroxylase 1 OS=Oryza sativa subsp. indica OX=39946 GN=CYP707A5 PE=2 SV=1) HSP 1 Score: 414.5 bits (1064), Expect = 2.0e-114 Identity = 206/379 (54.35%), Postives = 268/379 (70.71%), Query Frame = 0
BLAST of HG10021903 vs. ExPASy TrEMBL
Match: A0A1S3C5P5 (abscisic acid 8'-hydroxylase 2 OS=Cucumis melo OX=3656 GN=LOC103497144 PE=3 SV=1) HSP 1 Score: 661.4 bits (1705), Expect = 3.5e-186 Identity = 335/382 (87.70%), Postives = 343/382 (89.79%), Query Frame = 0
BLAST of HG10021903 vs. ExPASy TrEMBL
Match: A0A6J1G973 (abscisic acid 8'-hydroxylase 2-like OS=Cucurbita moschata OX=3662 GN=LOC111452117 PE=3 SV=1) HSP 1 Score: 620.5 bits (1599), Expect = 6.9e-174 Identity = 316/382 (82.72%), Postives = 332/382 (86.91%), Query Frame = 0
BLAST of HG10021903 vs. ExPASy TrEMBL
Match: A0A5D3BE29 (Abscisic acid 8'-hydroxylase 2 OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold194G002040 PE=3 SV=1) HSP 1 Score: 620.2 bits (1598), Expect = 9.0e-174 Identity = 316/362 (87.29%), Postives = 324/362 (89.50%), Query Frame = 0
BLAST of HG10021903 vs. ExPASy TrEMBL
Match: A0A5A7VRI5 (Abscisic acid 8'-hydroxylase 2 OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold352G00800 PE=3 SV=1) HSP 1 Score: 618.2 bits (1593), Expect = 3.4e-173 Identity = 315/362 (87.02%), Postives = 324/362 (89.50%), Query Frame = 0
BLAST of HG10021903 vs. ExPASy TrEMBL
Match: A0A6J1KC93 (abscisic acid 8'-hydroxylase 2-like isoform X2 OS=Cucurbita maxima OX=3661 GN=LOC111492574 PE=3 SV=1) HSP 1 Score: 617.5 bits (1591), Expect = 5.8e-173 Identity = 316/383 (82.51%), Postives = 330/383 (86.16%), Query Frame = 0
BLAST of HG10021903 vs. TAIR 10
Match: AT2G29090.1 (cytochrome P450, family 707, subfamily A, polypeptide 2 ) HSP 1 Score: 487.6 bits (1254), Expect = 1.3e-137 Identity = 252/383 (65.80%), Postives = 300/383 (78.33%), Query Frame = 0
BLAST of HG10021903 vs. TAIR 10
Match: AT2G29090.2 (cytochrome P450, family 707, subfamily A, polypeptide 2 ) HSP 1 Score: 487.6 bits (1254), Expect = 1.3e-137 Identity = 252/383 (65.80%), Postives = 300/383 (78.33%), Query Frame = 0
BLAST of HG10021903 vs. TAIR 10
Match: AT5G45340.1 (cytochrome P450, family 707, subfamily A, polypeptide 3 ) HSP 1 Score: 419.1 bits (1076), Expect = 5.9e-117 Identity = 211/379 (55.67%), Postives = 267/379 (70.45%), Query Frame = 0
BLAST of HG10021903 vs. TAIR 10
Match: AT4G19230.1 (cytochrome P450, family 707, subfamily A, polypeptide 1 ) HSP 1 Score: 416.0 bits (1068), Expect = 5.0e-116 Identity = 206/379 (54.35%), Postives = 269/379 (70.98%), Query Frame = 0
BLAST of HG10021903 vs. TAIR 10
Match: AT3G19270.1 (cytochrome P450, family 707, subfamily A, polypeptide 4 ) HSP 1 Score: 402.9 bits (1034), Expect = 4.4e-112 Identity = 206/390 (52.82%), Postives = 269/390 (68.97%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Bottle gourd (Hangzhou Gourd) v1
Date Performed: 2022-08-01
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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