HG10010729 (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.ATGTTCAAACAATCAGGGCATCGCTATTGGAATGGTACGACCGTAGCCGACATTGAAGATATTATGTTCAGCATAGACAATGTTCAAACAATCAGGGCATCGCTATTGGAATGGTACGACCGTAGCCGCAGGGACCTTCCATGGAGGAGCTTGGACAAAGGGCAACCTGAAACACGGGCTTACGGTGTGTGGGTTTCAGAAATAATGCTGCAGCAGACGAGAGTTCAGACCGTCGTCCACTTTTACAACCGTTGGATGCTTAGATGGCCCACCGTTCAACATCTCTCTCGTGCTTCTCTTGAGGTTTGTTTGGAATTTACTTTGAACTACAATACTGTCTTCTTTACTCTTAGTAAATGAATTTCGATATCTGCCCAGGAGGTGAATGAAATGTGGGCAGGCTTGGGGTACTATAGACGAGCTCGTTTTCTTTTGGAGGTAATCTTTACTCTCTCTATTAAAGAAGTTTCAATTCCATTAATATCTGCCACCATCGTTATTCCTTTCAGTTACCTTGGACATGATTTAGGGTTTGATACATATTTAAACATGAGTTTCTGCATTTCACTTCTTTATTCGAACTGCAAGTCAATAAACTTTTTAGAAATGTCTTGGGAAACTTGGAGTGTCTTTGAGTCATCCATTTCATTTGATAGGAGCAATAAAAGCTAAGTTGTAAGAGAAGAAAAAGTAAAGGCAAGGAATACCACCCTAAAACTTATACAAGTTGATCTTTCGAAAAGGCTATCTCGGACTGTATATGTTTACCATGAGATGAGGTTGAAGATTACAAAGAAACGAATAATAGAGATAACTCGTATGCATTTCTTCAAAATTATGCTTCACTTTCCCAAGGAACACATGATTTTTTCCTCTCTATTTTCTTTCTTAACAAATTTTGCATCCAAACATCCCCCATTTGTAAGAGTATATAAGAGAAAGAGAGTTAACGGGTTGACTTAGTATGGTCGTGTGGTGTATGTGTGTATATGTGTGAGTCCATTGCATATTAGTAATAGTTAGGTAGCACAGAAATGAGGGAGGAAATATATGGGTATTCCTTTGTTAAGAGGTCACACCTTTTGCTTTTAATATTTTTCAAGAAAGTTGGAACATTTTTTTGTAAGTTACGGTTGCAAGTTTGAGGTGTCTTACGGGGTATACTAGTTTATGATTTGTGGTCTTTGGCAGCAATGCACACAGTAAGTATACATCCTAGAGGGATTTCCTTTTCTACTTTTGTATATCTTTAGTAAATTGGTTGCTTTCAACTTTTCAAATATCAACGGAAGTTTATGTTTCTTGTCAAAATATTATTAGTAAAATACAAAATAACTGAAGTGAAAATAATAATAATAATAATAATAATAGGCATCTCTGGATAATTAATCATTGGTTATGAAATTTTGAATAGCCCTTTCTAATTTTGTTGCTAGGGTGCAAAGATGATAGTCAAAGAAGGTGGTAAATTTCCTAAAACGGTTTCTGCCCTTAGAAAAATTCCTGGAATTGGAGAATATACAGCAGGGGCTATTGCCTCCATAGCATTTGATGAAGTGAGTGCTTTTCTGGCCTATTTTTTTTCCCTACTCACAAGGAGCACTTCTAAATATGTTTCCTGAGCAGGTGGTGCCTGTGGTTGATGGTAATGTGATAAGGGTAATTGCTCGATTAAAGGCTATTTCAGGAAATCCCAAAGATCCAAAGTTGATCAAGCAAGTTTGGTGAGCATTCCTCATTATTAGGATAACTTACTTTTTGTCCACATAACAAAAATGCAAAACTAGTCTGTCTTATGGGGGGGAGAGGGGGCAAGAAACTTTTATAGAATCTTTACATCCTAGTCATTCTTATTATCTTCATCTTCTCTTGATAACTTAAAAATTTATAAATATGTTTGATTCGACTTGAGAGAAAATTTTAAAATGTTATTTTCTCCTTGTATAATCATTGTTTTTATATTTGTTAATAATGCTGAAAATAATAAAATTGAACCTTTTTATATACTTGATTTATAATAGTTTGAAGTTCATGCTCATTTAACCATTCTAATATAATTACCTTGTCTCATCTCCTCTATTTGTTGGGGGAGAGGAATTAGGAAGGCAGCTGCTCAATCATTTAACCATTCTAATATAATTACCTTGTCTCATCTCCTCTATTTGTTGGGGGAGAGGAATTAGGAAGGCAGCTGCTCAATTAGTTGATCCTTCCAGGCCTGGGGACTTCAATCAGGCACTCATGGAACTTGGTGCAACTTTATGCACTCCAACAAACCCAAGCTGCTCAACATGCCCTGTGTTTGATCACTGTGAGGCCCTTTCAATCTCAAAGCATGATAGTTCAGTTCTTGTCACAGATTATCCCGCTAAGGGGATAAAGACCAAACAAAGACATGATTATTCCGCTGTATGTGTGGTTGAGATATTGGAGAATCAGGGTACATCTCAATCAGAGAAATCTAGTAGATTTCTTCTTGTAAAGAGGCCTGATGAAGGTTTGCTTGCTGGTCTATGGGAGTTTCCATCTGTCTTGTTGGATGGAGAAGCTGATTTAAAGACAAGGAGAGAATCCATTAATAGCCTCTTGAGTAAATTCTTTGGACTTGAACCAAAAGAGAATTTTGATATGGTTATTAGAGAAGATGTTGGAGATTTTATCCATGTTTTCACGCACATCCGTCTCAAGATATATGTTGAGCACTTGGTGTTATGTTTAAAAGGTTCGAGTTTCTTCTCCTTTAATCCCCATCTGTGCATTAAGTATTCATAAATTCGGTGACTTGAACTTGCTATAAAATTTAACCTATATGAGATCTACTTATCTTATAGGCTAACAAATGTTGTGTGCGTGTTTATTATCTATTTCTATGTCACCTCTCGCGGATGATATATTGTCAATTGTCATAGATGGAAAACTATTATTGAAACCGATCTATGAGGAAAACCATTAAATGAAGTTTTGATTTTTGAAATATTACCCTGTATAATTTTAAGCTTCCAAATTCCAATTATCATATTAATTTAGGATTGAATTAGAATTTTGAGTTTCTCATCGGTTGCCCTCTTAAATTTGTTTTGTACTGCTTCTTCATTAATGCCTATTGTGCTCATTTTTTGTGGGCCCCCTTGGCTTCAATGGGAGGTATATCTTATTTTCCTCTTCTGCAATTCTATTTTTCTTGCCAATGAAGTTTCTATTCCCCATATACACATAAAGTAGGAATAAATAACTTCTTAAATTTACATTCTAATCACCATCGAAATTAAATCCTCTTCTGTTTATATTAGTGCTTGAAACTTCGTGGCTCTTAATTATCAGTAGTGTAACAAAGGAGCACTTGATGGTTTATTGTTCATAGCATTGCGGTTACACTGTGTTTAAATTGCCTGAAACAAAACATCAATTAATCCTTAGAATTCAGCTGCAACATCTATACTCAAATCTGGAGTGAGAAAAAGGTACGAGTGATTTTCATTTTTCCTAACAACATTTTGTCTTTTCTTGACTGTTGCATCTGTGACATGTAACATCATATTGTTAAATACTTCCGAATATTTTAATTTTAAAATCGAGTAGGTCATTGTGATTAGTATGGTAATCCATGATGATCTAAATTTTAATTATCGTCCTAAATTGACATCAACCACAATTTATTAGATTTAAAATGATTCTATTTTCATATTTATAGTAAATGTAATGTAGATGTCTAAAATTTATACAAGCACAATAAATTACTCTACTGCGGAACAGGTGTCGATAGTTATTTCTCACTATTTTCAATTTTTAATGCCATCAATTCTTAGTAAGTGATGAGAATAATAATTAGATAGTATATTTGAGCTCATATATGTATAGGTATTAATTTAGATCAATTAGTGTTTAGTTAGTTATTGTCTTATTTTCTTGTGAGGCTATAAATAGCCTCTTTAAGGTTGTAATAGGGAGATTTTGAATATCATTTGAAATAGAACTTTTTTTCTTTGGAGAACTCTCTTCCAATTTAGGGATGGATTTTCTTTGTTTGGTCATGGACTTGGCATAATACCTTCACTAGCTACACATTAAGTCAACCTCTAAGATCATTTTGTAGCATTTCAAGTTGATAATAACGAAAGTTGCTTACTTTTGCTTGGAATTGATTTTCATTAGTTTTCTTGAATCGTATGTTGTAGATAGACTTGTTTTCTGATTGTGCAAAGTACTTTGTGATAAGGACAATGAAACCTCCACCTATCTCCACAATGACATGATATTGTCCAGATAAACCCTCATGACTTTGCTTTTGGAACCACCCAAAATGCCTCATACTAATGGAGATAATTGTCTTTACTTATATACCCATGATCACCTTCCATAACCAATGTGGGACTTTGTTTGCACTCCTAACAATCCTTCCCTCGAATATAGTACCACTTTGAGCCTCCCGTCGAACAAATCCATCCACTCCCAACTATGACAGCTTGCTCTAAATCTCGAGGTACCTTCAGTTCATCCTAGGTCACTTGCTTTTCATCTCGAGGCACATCCCATTCATCTCGAGTCAACTTGCTCTTTATCTCGAGGCACATCCCATTCAACTCAGGTCAACATCCAAATAGAGCACGAGCAGGAGTACGAGCATGGATCACACTTGCTCTTATCAAGGTAGGGGAGACAAAAAGGCTACCCAAATAGAGCACTAATGAGACTTACTAAATTTCTCTTTTCGGAATTTGAGACCATAGCTCTGATATCAAATCATAACGACAACGAAACCTCCACCGATCTCCACAATGGTATGATATTGTCCATTTTGAGCATAGACCTTCATGACTTTGCTTTTGGAACCACCTAAAAGGTCTCATACTAGCCGAGATAATTGTCCTTACTTATATATCCACGATCACTTCCTTCCCTAACCAATGTGAGACTTTATTTGCACTCTTAACACTTTGTTCATCAAAAGCTATGGATGACTGGTTTTTTTTCTTTTTTGTTTTTGGAAATTTGTGAATTGTAATTTTTTTTTTCTTTTTTCATTTCAGTCATTTTACTTTCACATATGTATGTCTTCTTAAAGGTGAAGGCAGCAAGTTGTTTCGGAAACAGGAGAAGAAATCTATATTATGGAAATGTGTGGACAACAAGGTTATGTCAAGCATGGGGTTGACGTCCAGTGTGAGGAAGGTAAGCACAGATGGTGCATTAGATGACTTCTCGTTGTGTTACTTCAATATTACTTTCAGAAATATTTAATTCGAAGGTTTTATTCATCTACTCAGAAATCTTAATCTTTCTGTTTAACCCTTCATTGTTAAATTTGAAAGAACATTCTTTCAGATCACTCGGTACCAAAATTAATGCACCAACCCATGATTTATTGATGCAGAATTAGCATCGTTTGGGATCCTATAATGGAAGGAACCAATAAGAGGATTGAGACTTGAGTGAGAAGGAGAGAGATGCAGTGAGAAGGAGAGAGATGTGTTAATTTTGTTTTTCCATGATAAACGTTTTAAGTAATAAGAAGTTGTGAGGCCAAGACATTCATTTTAGGTGCCATCACTATTTATATTCGATTTAGTATTCTTGCTAACTGACAAATTAATACTCGTAGTGTCTCCAATGTTGATTGGTATGGAAGTTAACAACACTCGAGTTTCAAAATCATATATACAGTGGATAAAGTGACATTGAGAATTCGTAAGTTGGGACTTCTCTGATCACATGATCACTCTCTTTGAGTGTCCCTGTGAATGCATATTTAGATATCGATTACATAGAGCTTTGATATTTGTAAAGTAAATGCAAGTTTTGATGAGAATCAAGAACATCATATGAAATTATTTCTTGCTATCCCTTGGGGACATAATTATCAACCCTATGGCTCTAGTAAGTTCTGGTACCAAAACTAAATACTGTCATTTTTCCACATTTTTCTCCTCTCCTCTCAGCCACATACACCGAAAGATCCCTTTTCCCTCCTGTTTTCCTGGGGTTTTATTTTTTTTCTTCTGTGCACTCGGTAGATTGACATGATGGAGGTCAAGATTCACAAAACACAATTTCCCTTTATTATCCATCCATACTTGGGATAGAATTACATATAAGTTATAACCATGCTTCTGAAGTTTAAGAATAATGAATATGTGACTTCTGCACAATCAGATGATTGAAAGACCAGATCATGATTACTTTTCTTCCTTTTGATCTTCCATTTGTTATATCTGTCAATGCAATCACAAATTTCCTTAAACATCCATGTCAGTTTAGTTATTAAATGTGGGTTGTTAATTTGAGTATTTATTTTTTTCATAAGAGAATTGTTTTCTAATCATGTAAATGTGTAATGGACAATCAGTTATTAGGAACTAATTTGGCATTTTTTTGACAGGCATATGCCATGGTCGAGAAATTTCAGGCAGAGAAGACATCTTCTAGGCGTGCACTACCCAGAAAAAGACAGAAAGCTTGAGCTGCGGGAGCTGTTGACATTTACGATAAGTTTATTCATTTATCGATTGTTTTGTGTTTGTCCCACTAGTAATCGACAGCAGGACAGGCCTATTTTCATGAAAGTTGTAGATGATCAGGGGAAATTTGGAGGGGAGATTCGTGGGGATAGTCATGTTCTGGTTTTTTTGATTGGTAAGAATTGGATAAATAGATATATTGTTGAATGACAAAAAGTTCAAGAATGTTTCCATCCAGAATCCTCGTACACCAAAATATTTTAATTCACTGGTCTAAAGAAATAATAATTTCATAAAACTAATGAACAAAGCATCTACTATAATCGAGGCTGTCAAATAGGCTTAGCAAATTTTGAGGTATGTACTCAAGCCAGTGGCTACAAAAGGCGCTCAAGTAGTTTCATAAATGAAGAGCATAATTATGGACTTGGAATTAGGGGTGTGTTGTACATGAAGTCACTGAAAATTGATCCGATTGGTCGAAACCGATCGAATCGATCATGACCAATCGGTGGTTGGTTTTTCAACAAAAAACCGACCAACCGATCATAGGGCGTGAGTTTTTTCACCCTTTTAAAAAAAAAAAATTATTCATTTATTGTTTTTCCATATCCACAGTTGACAAGACAAGTCAATGAAAGGAGGAGCTTCTTTTATCTACAAGTCCATGAAGAATGAAGATCCAAAGAGATGAGGAAAAAAATTTTTAAAATAATAAAATAATAAAATAAAACGACGGAACCGACTGTCGGTCGAACACCAACATTTTTTTATGGTCCGTTTTCGCCTAAAATCAACACCAACCGATAGATATACATCCCTATTTAAAGTATGGTTCAAATGAAATCATGGAAGAAAACTTGGAACTTATCCTTTTTTGAACTTTTCAAAAGAAAAGAAAAAAAAAACTATTGTAAAGTCGCACACAGAAATAAAGTCTTTTCATTTGTACAATTTAATTTCATATTAAGAAATTAAGTCATTTGTATAAGTCAATTCTCGAACCAATTTTATATTTTGTATTTCTTTGTAATCCTCTCATGTGAGAATAATAATGACAATTTTTCCTTGAAGAGAATGTTTGACAAATGTTGTGATTAAATTGGCATTGTAAACGTCCTTTGTCTTTTACGGCTCTTAAAAAAATTTCAAACAACGCTGTAGGAGATTGTTTTAGTTCACAAAGAGACTTCTTGAATTTTCACATGTTATTAATCAGTTTTGTTGCTTCTATTCCATTAACTTTATCCATGTAAACTTCTTTTAAATCTCCATTAAGAAAGATAATTTTATGTCCAATTGGGAAAAATCCAATCATCATTAATAGTTATGGAAAGTAGGAGACGAATAGTGTTTAGCTTTACTGCAATTTTAGTCTCTTCAGAGGTGTTTGACCAAGAAGTTGGAGTTGGAGGCACTCCTTGTTTAGCCCAAGGAGTTTGCATACCATGTGACTAAAAAACAATTTCATGTCTTATTAATTCCTTACATTATAGGCCCCACGATTAAATAACTCTCAAGACTTAACAACTTCACTCATTGCTCCAAACACTCCCTTTAGTGTCTCATCAAGCTCAATGAACAATAGGACTAAAAACACTTAACAACCTCATTTTTACTAGTTAATTAGACTATGCAAACGAATTTAACCAAATAAACTTAAAGGTCCAATAATTAAGCTTAGTTTAAGAGTTGAATAACACTTGTAAACAAGAGTTATTATCTATTGTGCCACATTTATAAACACTTTAAGATTTAGATTTGCTATTATTTTATCATAGATTGTCATGTATGAAATTGTCTCATTTCTTAAATATTATTCGTGCTCTTAACAAGCCTTTTGTCGATCTCTCTTTTAAGTGAAGAACACAGAGGATGATTATGTGGAGATCGCTCGTCATGTGGAGGTTTTTCCCTTTGTGATGTGTAATCACTCTTGCAACTTTGTTGCTCACTGGCTTGAACAACTTATGATGTGCAGTCTTTTTCTTATGTGTTAGAAAGATCAAGTTGTCCTTTGAATTCTTCTCAACTCGATTTAGTTGTCATCTGCTCTTAATAAGGATCAGTTTGTGGCTATTTAATGATTTTTTTTTTTGAAATTTTATTTTCAACAGAAGATTAAAAAGAGAGAGTGAGAGGCCCAACAGTGAATTATTTGGGCCGTCTGGAAGTCCATTAATGGGCTGGTTCGGTCCAAAATTTGGAACGACGTCTTCTATTCTTTCCGATCCGAGCAGCGCGCTGTTTTGCTGTCGTTTCTCGTCGACGCGTTCCCTTCTAAAGCCCTAAACCCCGTCGTCGTCGTCGTCGTCGAAGAAGAAGAACATGGTGAGACTCACAGTCGATTTAATCTGGAAAAGCCCTCATTTCTTCAATGCCATTAAAGAGCGAGAACTGGACCTTCGAGGTTGTCTATATTTTCTCAACTCTTGCTTCTTTCATTCTCTCGAGCACACATTTCTTAACTCCTTTCTTCTCGTCTCCAGGAAACAAGATAGCAGTGATAGAAAACCTAGGTGCCACCGAGGTGAGTGATTCCCACCGCCTTATATCTCTTGTTTTAAATCTCTGGAACTCCCACATCTGTTAACTCCGTTTCCCGGGGTCTGTTTTACCGACTATGATGTATCCCTAACTTAGACAGTGCCATTTCTCCTCCTGGGATAGTTTTGTTGTAGTCTGAACTTTAAATTATGTTCTTACCCGCCTGTAAGCCGCACACATCTTTACATGCTAGCGAGAATCTTTCTACAGAATTCAACTTCACTTTAAATGAGTAATGACAGTTCTCATTTTCTCTGATTAGTTTGTTTTGCTGCAATCTCTTATACCATTATGAAGGTCCTTTGAGGTTTCCATTTTCCTTGAAGACAGCCTAAAGAACTCCAATTTGAGGCCACATGCTGTACATTTTCCCTTGAGTCATAAAAGAATTTAAATTTATCATATTAAGGATCCAATTATCCCTTTTAACCACAAGGATCAGATCTGAGCACTAATAGCAATTTTTTTCATAGAATTATGGCTATCTTCTTGAACTGCCTACCCGAGAGAATTTCTGAAAAGTAATCTTCCATATCCATTTTAAGGCAAAAGTTGGGGTCAAGATTTCTTTAGAGAGAACCAAGCTCACAGTGAATGAAGAGGTGGTTCATAGTTTTCACATCCTTTCTACATTAATGATAGATATGAGATCTGGGGCTATATAGAAAGAGATGGCCTCCGTTGTCTTCTATCTTGAGTAATAAGACTTCTTTAGGCCATAAATAAACTCAGTCCTGTTAAGGAACTTACTGGTGTAAACCAATTAGGAGTATTTTTTTTTTATTGAAATCAAAGGTCTGCTCCATTACAAATAGGACTAGTATTTATACTAGTGTTTCCCTTAACCAAATCTAACAAACTTAACAAACTACTCCAACAGCTAACGACTAACTTGCCCAATAGCTAGTTCAACCAAAAAATTATACAATGACATCACTTACCTTCCAAAATAAGCTCCACGAGAGCAGAACACAACTTGGACTAATTAGAGTTGAGCTTGAAGTTAACCATCATATGAGAAAAGAGGCCATTTGAATCAAGTTTCCAAAGCAGTCTATTCTTATCAATGCCTAGCTTTATCAGATTGAGCATAAGAGAGAAAAGGATCCACTCTTTAATTTTCTATCTCTTAGTCTCCTCCTCAAGCCGACATCCGATAGACTCCTCTTTCTGCAGATTCTTGATGAGGGCTCCTTCGGATTTTGGAACATCATTATTTTGAAAAGAAACAGGAGTGGCTATTATCCAACCAACCATCTTCCAAAAATGTTATTGTCTCTCATGCCAACTTTGTCTAAAGTACAAATTATCAACGGTCCTTTGGTTTTGATCACTTTATGGCTAAAATTAACTCCATGACCACGGCCTCCTACATTTGTGAGCCACCTGACGGGATAAGAACCATATTTACTCTGAGCCCTCGTGAAAGTATCTACAATAAAGCCACTATATCATTCAGGGTTCTTTCTTGTATCTCAGGTATCCCTTGTCCAATCCACCTGAAGAAATAGGTACTCATGGAGGGCAGCTTACTTTCACATTTTCACTTGACTGAGTGACACCCTTTATTGAAGAACTGACATACTCATTCTTATGTGTCAAGCTTCTATGGTTCATTCCTTTTTACTCTGTAGTACTTTGTAGTGGTGTTTGTTCACCACTTTGACCAAAGAGCACCCCCCAAAAAATAAAATAAAAATTAGAAAAATAAAGTGCAGCCTCATCTTCTTTTTGACAAAGAATACCCAATGTTATAAGGTCAAGTGGGTTGTCCCATGAAATTAATCGAGGTGCATGCAAGCCGGTCTGGACACTCACGAGTCACAAATAATAATAATAATAATAATAATAAGACGACAAAGAATATCTCTTGTCTCCTATTAAAATGGACAGAAACCAAGAAGGTGTCACCAACACACACTGGGTTAAAACTTTGTTAATATTTTTGACTTGAAGTGCTTTATCATCTAAACTCGTAAGTTTCCCCTTTTTCTGTCTGTCCGAGGACAGAATGGTTGTCAATTTATCTGGCTTTCCCAAAAATGAAAGAAAGTGATGTCTACTCTTGGTTTTCTTTTATTTTCTAGCCTTGTAATGGTAGATTTTCCTTGGCTAAATTTCAGGACCAATTTGATGCCATTGATTTGTCTGATAATGAGATTGTGAAGCTGGAAAATATGCCATATCTTAATCGATTGGGCACATTGCTGATCAATAATAATAGAATCACTCGTATCAATCCAAATATTGGAGGTGAGGTTTCCATTATGCTTTTATAGGATTATTTAGGCCTCGTTTTATGATTATTTTGTTTTTGAAAATTATGTTTGTTTACCCACAATGTTGTTTGGGTGAGTTCTCCACTTGAAACACATTTGAATTCTAAATCAAATTTCAAAAACAAAATAAGTTTTTTAAAACTATTTTTATTTTTGGGGAAGTTTTAAAAATAGAAAAATAAGGGAAACTATTTACACAAAATAACAAATTTTTTAGATAGTTGTGATAGACGCTGATAGAAGTCTATCAGGGTCTATCAGTGATAGAAATAATAGAAGTCTATCACTGATAGATGCTGATAGAAGTCTATCAGTATTTTTTGCTATTTTCTGTAAATAGTTTGATATTTTTTCTATCTGTCAAAATTTCCCTTTATTTTTTATATTATTTATTTATTTTTATTTTCAAATTTTGGCTTGGTTTTTGAAATGTTTTTAAAATATAGGTGATGAAACAGAAAAATCATTCGGGGAAGTGGTGTTTTCAAGCTTAATTTTCAAAAATAGAATACCAAAAACCAAAATTATTTTCAAATGGGACTCTAGCAATCTTATTTTTGGAAGTATTTTTTTCTAAAAAAAAATTTGTCTTTGTTCTTCTCAGAGTTCTTGCCAAAATTACATACGCTAGTTCTTACAAACAACAGACTTGTGAACTTGGTAGAGATCGATCCATTGGCATCCCTTCCAAAACTTCAGTTTCTTAGTTTGTTGGATAACAATATTACGAAGAAGCCAAACTATAGATTATATGTCATTCACAAGTTAAAGTCAGTCCGGGTGCTTGATTTCAAGAAAGTCAGAAACAAGGTAACTTTTTCCTGCATTCAGACCTTATTATTTAAGGAGTAGCTGTTATTCTTGGCTTGTTTCTGCCTTTTGCTTTTGACAATGCCCAGAAACATTTAGAAGACAGTTTCAAGTTTATTTCAATTTTAGAGTCTGATGGTGTATTTTGAAAAATGTCATAACTTAGGGCATGTTTGGCAGGCAATTCAGGTTTTGTTTTGTGTTTTGAGTTCAACGAATATGCATTTGGTAGGCAATTTGGATTTTTTTTTAAAAAATTGTTTCTGAATTTTGTTATCTAAATAGTGCAAATTCTGAAAACAACAATTTTATGTTTTCAGTGAAACCAGATTTTAGATTCAAATTTTTTAAAATGCAGAATTATATTAGAAAAGATAAAAACAATAACACATAGTATTTCATGTTATAAACTCATTTATTTCTGTTATGTTAAAATATGTATTGTATGATATATTATAGGGCAATTTTTAAAATAGAAAAATAAGGGAAACTATTTACACAAAATAGTAAATTTTTTAGATAGTTGTGATAGACGCTGATAGAAGTCTATCAGGCTCTATCAGTAATAGAAATAATAGAAGTCTATCATTAATAGATGCTGATAGAAGTCTATCAATGTCTATCAGTTTTTTTTTTCTATTTTCTGTAAATAGTTTGACATTTTTTCTATCTGTGAAAATTTTCCTATATTATATATCATATGATGTTACTAAAGAATAATTATACAAAATTTTTAACATAAAACAAGTTCATAAACTATTTTGTGATATTTTATATTCAATCTAATATTTAGTGTGTAACTATAATTAGTTTTATGGTTTGTAAATATATTATCAAACACATTTTGAAAATTGTGTTTCAATTGAAATTTAATTTTTGAATCTGCTACCAAACACATATATGATAATATGAAATACAATTCTGTTTTATTTGAATCCCTTGTTTTCAAAATTCTGTTTTCAGATTGCCTACCAAACAAGCTTTAACTTTTAGGGTTTTTTATAATATATATATTTTGTATTAATTTTTTTATTATTTGAGGACAGCATTACTTTGAATTTTCTTGTTATATTCAATATGACATTTGAATCTAAGTTGGGTTTTGATTGTGCTATTTCTGTAAAATCTTAAACTTCTTGCTGTTTTTAAAAGTACATATATTATGCGATTTATGTAAATACCTCTATCATTTATTAGAGAGGAAATGTGTTTCTTGCACATAAAGAATGTGCATATGCTCATATGGTAATACCTAAAGAATTCAAATGCATTCCGTTTAATGTCCAGCTATTTATTCATAAACAATCATGTGCCTGAGAATTAGTTTTTGTCTGAAGGAGTAAAACATAAAATTACCGAAGTGGCTATAAATAGAGTTGAATTTTATGCCATTCTAGTAGAATATCCGTGGACATCTAGGATGTGCACATGTTTAGACAAGTAGGGTTCCGCTCTACTTCATTCAACTCCAATTCGATTTGTCTGGCTTGATTTAGAGTCTAATTTTGTTCTTGGACATAACTGGTATGTCTGAATTCCTATATCAATGTGCTGTGGTGATAGACTTTGGGCATCTGCATCTCATGCCTACTGCATCTCTTCATTTCTAAATGTTATATACCAGGAGAGATTGGAGGCTAGGAATTTATTTTCATCAAAAGAAGTTGAAGAAGAGGCAAAGAAGGAATCTGTGAAGACGTTTGTTCCAGGTGAGTTAGAGAATACATCCAAACCTGTGGAGGAGAAACAAACTTCAAACGTGTCTGCACCAACACCGGAGCAGATAATAGCTATTAAGGTGTGTACATTCATACTATACATCAATCACATCATGGCATGAAGCTTAAGAATCACTTTGATTGAAACATATGTTTGCAACACGATCTTCTCTGCTTTGTTGCTGTTTAACAAAAAGAAATTTTTAAGGTCGCCTTGGCTGCCTTCAGCCTAAACAAAGGTCAAGTTCTAAAATTTATAGGGTAAAATGTACTTTTGGTCCATAAAGTTCGGAGTTAATCTCAATTTGTTGAAGTGGAGATGTAGTAAATAGTTCTAAATAGTCCCAGATTTTAGTTGACCATACATAATGCTTACTTGGTTGTAAAAATGTTGATTAATCTTTAGGTCAAATGGGGGCAACGACAATTTCTACCAGAGAAAAAGGGAGAAGGGAGTTAGAGGAAGGGAAATTAAAAAAAATGCCACATCATTTAAAATTTGCCTACTCACGTCCTAACTAACAATCAACCTCACTCAGAGACCATTTAAAACCATTTTTCAAACTTTGAGGACAAAAAAACATTGAAATCTCAAGGACCATAAATGTATTTTGCCCAAACTTCTTTTGTTGACTACCATTTCCTCACCAAAAAAAAAAAAACAAAATCTCAAGGACCATAGAAGTATGACAAGTTGGCTATCAACGTGTGATCCTCCCTTCTCTCTTTAGTCTAAGGTGTGCCTTATATTCTAGGCTTGAGAGACTTGTGTCTTGATCTCGAGCTTGGCTCTTTATCATGTAAATCATTTTCCTCTTGCTTTCTTCCCATTCTTGTTATCATATTCCTTCGAAGCTGAACATAATTTGGAGGTGGAGTGGTCAGTTTTTCTTCCAGGCAGTCATAGATGGGAGGATTTATCCTTTAACTTCATTCAGAGATCTCTTTTGGTATGCAATGCCTAGAAATCAGATAACTGTGTTTGGAGAATTGTAAGATATAATTTTAGATTTTTATTAATTTATTATGTAGGATCTACTTACATTTTCTTTTAATAAATCAATAATTGTATAAACGTTAAGTTAAATTTAGTAACAATGTTTTGTTCAACAAATTACTTCATCATAATTTTTTTTTATTTTATTAAAAAGTTAACAACTAAAACTAAAGAAATTAAATCGAATAATTTATTTTTTAGGGGGTTCAATAATTCTAATGCTTAATAGTAACATTTCTGACGTGTGATGATTAATATATTAGTTTATGTCAACTTAGTTGATGTCAGTCTAGGTTTGTGTTATTTTTAATTAATGTGTAAATTAGTATTTTAGAGTTAGGTATCTTATTTTATTGTAAAGCTATGAACAGTTAGCTTTTGACATATTATTCATTAGAAAAGAGTTTTGGAGAGGGTTATCTCAGCTGTGGAGAGTTTCTCCTTGTCGGGGATGGATTTTTTTTGTTTGGCCATTTACGCCACCCTTTCAAATCCATGACACTAAGGGTGTGTTTGGAATACATTTTCAAGCGTTTAATTTAAAAAATAAGTCATTTTGGAAAAAATTGGAGTGTTTGACAACCACTTAAAATAGATTTTGAAATGTATTTCAATCCGAACGGGCAATAATTCTATTAGTTTGATCTGTACTTGTGTGCTTTGTCTAGACAGGCTCCAGAGGATGATTATTTGCTAATTTGTACGTTGGCTTGTAAAGAAGTGTTTCACCACCATATGTTTCCTATTACATCGTGTGATCAATTAATTCTTTATGTGACAGGCGGCCATTGTAAATTCTCAAACTCTTGAAGAAGTTGCGAGATTAGAACAGGTGTGCTTCGTTTTTTGTTGTGTGCAGTCACCCCCCTCTCCCAGAATAGGGAGAAAAATCTCTTTTTTAAATGTTATGGGAATAGTAATGTTAGAAAAATCTTGTTTGTTGGCAGGCGCTCAAGTCAGGTCAGTTACCTGCAGATTTGAATCTTTTGGAAGATAATACCGTGCCAAACACCACGAAAGATACAGACGATAAGACAATGTCTGATAATGGAGACGAAGAAAATGTATCCAAGGATGTTAAAGAGCAATCGAATGATGAATCTACACCTATGGAGCAGGTACCACAAACGTTTATGCGGTTGTTTTATCTTACATTCTTTTTCAAGTTTGTTTCCGTAACCATATTTCTGTTTTGTAGCCGACAAGGGTTTCTAGTCTATGGCTTATATTATGTTTATTTTTTCATTTTCCTATGTGTGGTTGTAGGAATAGTAGGAGATCGCGTTCCTCTTAATACTTGGTGGCTCGTCTATAAGAAAGCATTCATCTATGGCGATCCTGTCGTGCTGATTTGTGGACCTTTTTATAAACAGTTTGAGAAGTCTAAGTATGGCACTTCCCAGCCTGGGGATGCTAGGCGGCTCGTTTGCCTCTTTTAAGAGTTGGTTCTTTCTTTTCTTTCCTTTTTCAGGGTAAAGAATTTCCTAACAATATGTACGGATCTATTGGCATACACATTGGGACTTGAATGTTCAAACAATCAGGGCATCGCTATTGGAATGGTACGACCGTAGCCGACATTGAAGATATTATGTTCAGCATAGACAATGTTCAAACAATCAGGGCATCGCTATTGGAATGGTACGACCGTAGCCGCAGGGACCTTCCATGGAGGAGCTTGGACAAAGGGCAACCTGAAACACGGGCTTACGGTGTGTGGGTTTCAGAAATAATGCTGCAGCAGACGAGAGTTCAGACCGTCGTCCACTTTTACAACCGTTGGATGCTTAGATGGCCCACCGTTCAACATCTCTCTCGTGCTTCTCTTGAGGAGGTGAATGAAATGTGGGCAGGCTTGGGGTACTATAGACGAGCTCGTTTTCTTTTGGAGGGTGCAAAGATGATAGTCAAAGAAGGTGGTAAATTTCCTAAAACGGTTTCTGCCCTTAGAAAAATTCCTGGAATTGGAGAATATACAGCAGGGGCTATTGCCTCCATAGCATTTGATGAAGTGGTGCCTGTGGTTGATGGTAATGTGATAAGGGTAATTGCTCGATTAAAGGCTATTTCAGGAAATCCCAAAGATCCAAAGTTGATCAAGCAAGTTTGGAAGGCAGCTGCTCAATTAGTTGATCCTTCCAGGCCTGGGGACTTCAATCAGGCACTCATGGAACTTGGTGCAACTTTATGCACTCCAACAAACCCAAGCTGCTCAACATGCCCTGTGTTTGATCACTGTGAGGCCCTTTCAATCTCAAAGCATGATAGTTCAGTTCTTGTCACAGATTATCCCGCTAAGGGGATAAAGACCAAACAAAGACATGATTATTCCGCTGTATGTGTGGTTGAGATATTGGAGAATCAGGGTACATCTCAATCAGAGAAATCTAGTAGATTTCTTCTTGTAAAGAGGCCTGATGAAGGTTTGCTTGCTGGTCTATGGGAGTTTCCATCTGTCTTGTTGGATGGAGAAGCTGATTTAAAGACAAGGAGAGAATCCATTAATAGCCTCTTGAGTAAATTCTTTGGACTTGAACCAAAAGAGAATTTTGATATGGTTATTAGAGAAGATGTTGGAGATTTTATCCATGTTTTCACGCACATCCGTCTCAAGATATATGTTGAGCACTTGGTGTTATGTTTAAAAGCCCTAAACCCCGTCGTCGTCGTCGTCGTCGAAGAAGAAGAACATGGAAACAAGATAGCAGTGATAGAAAACCTAGGTGCCACCGAGGACCAATTTGATGCCATTGATTTGTCTGATAATGAGATTGTGAAGCTGGAAAATATGCCATATCTTAATCGATTGGGCACATTGCTGATCAATAATAATAGAATCACTCGTATCAATCCAAATATTGGAGAGTTCTTGCCAAAATTACATACGCTAGTTCTTACAAACAACAGACTTGTGAACTTGGTAGAGATCGATCCATTGGCATCCCTTCCAAAACTTCAGTTTCTTAGTTTGTTGGATAACAATATTACGAAGAAGCCAAACTATAGATTATATGTCATTCACAAGTTAAAGTCAGTCCGGGTGCTTGATTTCAAGAAAGTCAGAAACAAGGAGAGATTGGAGGCTAGGAATTTATTTTCATCAAAAGAAGTTGAAGAAGAGGCAAAGAAGGAATCTGTGAAGACGTTTGTTCCAGGTGAGTTAGAGAATACATCCAAACCTGTGGAGGAGAAACAAACTTCAAACGTGTCTGCACCAACACCGGAGCAGATAATAGCTATTAAGGCGGCCATTGTAAATTCTCAAACTCTTGAAGAAGTTGCGAGATTAGAACAGGCGCTCAAGTCAGGTCAGTTACCTGCAGATTTGAATCTTTTGGAAGATAATACCGTGCCAAACACCACGAAAGATACAGACGATAAGACAATGTCTGATAATGGAGACGAAGAAAATGTATCCAAGGATGTTAAAGAGCAATCGAATGATGAATCTACACCTATGGAGCAGGGTAAAGAATTTCCTAACAATATGTACGGATCTATTGGCATACACATTGGGACTTGA ATGTTCAAACAATCAGGGCATCGCTATTGGAATGGTACGACCGTAGCCGACATTGAAGATATTATGTTCAGCATAGACAATGTTCAAACAATCAGGGCATCGCTATTGGAATGGTACGACCGTAGCCGCAGGGACCTTCCATGGAGGAGCTTGGACAAAGGGCAACCTGAAACACGGGCTTACGGTGTGTGGGTTTCAGAAATAATGCTGCAGCAGACGAGAGTTCAGACCGTCGTCCACTTTTACAACCGTTGGATGCTTAGATGGCCCACCGTTCAACATCTCTCTCGTGCTTCTCTTGAGGAGGTGAATGAAATGTGGGCAGGCTTGGGGTACTATAGACGAGCTCGTTTTCTTTTGGAGGGTGCAAAGATGATAGTCAAAGAAGGTGGTAAATTTCCTAAAACGGTTTCTGCCCTTAGAAAAATTCCTGGAATTGGAGAATATACAGCAGGGGCTATTGCCTCCATAGCATTTGATGAAGTGGTGCCTGTGGTTGATGGTAATGTGATAAGGGTAATTGCTCGATTAAAGGCTATTTCAGGAAATCCCAAAGATCCAAAGTTGATCAAGCAAGTTTGGAAGGCAGCTGCTCAATTAGTTGATCCTTCCAGGCCTGGGGACTTCAATCAGGCACTCATGGAACTTGGTGCAACTTTATGCACTCCAACAAACCCAAGCTGCTCAACATGCCCTGTGTTTGATCACTGTGAGGCCCTTTCAATCTCAAAGCATGATAGTTCAGTTCTTGTCACAGATTATCCCGCTAAGGGGATAAAGACCAAACAAAGACATGATTATTCCGCTGTATGTGTGGTTGAGATATTGGAGAATCAGGGTACATCTCAATCAGAGAAATCTAGTAGATTTCTTCTTGTAAAGAGGCCTGATGAAGGTTTGCTTGCTGGTCTATGGGAGTTTCCATCTGTCTTGTTGGATGGAGAAGCTGATTTAAAGACAAGGAGAGAATCCATTAATAGCCTCTTGAGTAAATTCTTTGGACTTGAACCAAAAGAGAATTTTGATATGGTTATTAGAGAAGATGTTGGAGATTTTATCCATGTTTTCACGCACATCCGTCTCAAGATATATGTTGAGCACTTGGTGTTATGTTTAAAAGCCCTAAACCCCGTCGTCGTCGTCGTCGTCGAAGAAGAAGAACATGGAAACAAGATAGCAGTGATAGAAAACCTAGGTGCCACCGAGGACCAATTTGATGCCATTGATTTGTCTGATAATGAGATTGTGAAGCTGGAAAATATGCCATATCTTAATCGATTGGGCACATTGCTGATCAATAATAATAGAATCACTCGTATCAATCCAAATATTGGAGAGTTCTTGCCAAAATTACATACGCTAGTTCTTACAAACAACAGACTTGTGAACTTGGTAGAGATCGATCCATTGGCATCCCTTCCAAAACTTCAGTTTCTTAGTTTGTTGGATAACAATATTACGAAGAAGCCAAACTATAGATTATATGTCATTCACAAGTTAAAGTCAGTCCGGGTGCTTGATTTCAAGAAAGTCAGAAACAAGGAGAGATTGGAGGCTAGGAATTTATTTTCATCAAAAGAAGTTGAAGAAGAGGCAAAGAAGGAATCTGTGAAGACGTTTGTTCCAGGTGAGTTAGAGAATACATCCAAACCTGTGGAGGAGAAACAAACTTCAAACGTGTCTGCACCAACACCGGAGCAGATAATAGCTATTAAGGCGGCCATTGTAAATTCTCAAACTCTTGAAGAAGTTGCGAGATTAGAACAGGCGCTCAAGTCAGGTCAGTTACCTGCAGATTTGAATCTTTTGGAAGATAATACCGTGCCAAACACCACGAAAGATACAGACGATAAGACAATGTCTGATAATGGAGACGAAGAAAATGTATCCAAGGATGTTAAAGAGCAATCGAATGATGAATCTACACCTATGGAGCAGGGTAAAGAATTTCCTAACAATATGTACGGATCTATTGGCATACACATTGGGACTTGA MFKQSGHRYWNGTTVADIEDIMFSIDNVQTIRASLLEWYDRSRRDLPWRSLDKGQPETRAYGVWVSEIMLQQTRVQTVVHFYNRWMLRWPTVQHLSRASLEEVNEMWAGLGYYRRARFLLEGAKMIVKEGGKFPKTVSALRKIPGIGEYTAGAIASIAFDEVVPVVDGNVIRVIARLKAISGNPKDPKLIKQVWKAAAQLVDPSRPGDFNQALMELGATLCTPTNPSCSTCPVFDHCEALSISKHDSSVLVTDYPAKGIKTKQRHDYSAVCVVEILENQGTSQSEKSSRFLLVKRPDEGLLAGLWEFPSVLLDGEADLKTRRESINSLLSKFFGLEPKENFDMVIREDVGDFIHVFTHIRLKIYVEHLVLCLKALNPVVVVVVEEEEHGNKIAVIENLGATEDQFDAIDLSDNEIVKLENMPYLNRLGTLLINNNRITRINPNIGEFLPKLHTLVLTNNRLVNLVEIDPLASLPKLQFLSLLDNNITKKPNYRLYVIHKLKSVRVLDFKKVRNKERLEARNLFSSKEVEEEAKKESVKTFVPGELENTSKPVEEKQTSNVSAPTPEQIIAIKAAIVNSQTLEEVARLEQALKSGQLPADLNLLEDNTVPNTTKDTDDKTMSDNGDEENVSKDVKEQSNDESTPMEQGKEFPNNMYGSIGIHIGT Homology
BLAST of HG10010729 vs. NCBI nr
Match: XP_038874808.1 (adenine DNA glycosylase isoform X1 [Benincasa hispida]) HSP 1 Score: 682.6 bits (1760), Expect = 3.5e-192 Identity = 333/359 (92.76%), Postives = 349/359 (97.21%), Query Frame = 0
BLAST of HG10010729 vs. NCBI nr
Match: XP_038874810.1 (adenine DNA glycosylase isoform X3 [Benincasa hispida]) HSP 1 Score: 682.6 bits (1760), Expect = 3.5e-192 Identity = 333/359 (92.76%), Postives = 349/359 (97.21%), Query Frame = 0
BLAST of HG10010729 vs. NCBI nr
Match: TYK24629.1 (adenine DNA glycosylase isoform X1 [Cucumis melo var. makuwa]) HSP 1 Score: 681.0 bits (1756), Expect = 1.0e-191 Identity = 338/371 (91.11%), Postives = 351/371 (94.61%), Query Frame = 0
BLAST of HG10010729 vs. NCBI nr
Match: XP_004140565.2 (adenine DNA glycosylase isoform X1 [Cucumis sativus] >XP_031743604.1 adenine DNA glycosylase isoform X1 [Cucumis sativus]) HSP 1 Score: 673.7 bits (1737), Expect = 1.6e-189 Identity = 334/371 (90.03%), Postives = 348/371 (93.80%), Query Frame = 0
BLAST of HG10010729 vs. NCBI nr
Match: XP_016902459.1 (PREDICTED: adenine DNA glycosylase isoform X2 [Cucumis melo]) HSP 1 Score: 673.7 bits (1737), Expect = 1.6e-189 Identity = 334/359 (93.04%), Postives = 346/359 (96.38%), Query Frame = 0
BLAST of HG10010729 vs. ExPASy Swiss-Prot
Match: F4JRF4 (Adenine DNA glycosylase OS=Arabidopsis thaliana OX=3702 GN=MYH PE=3 SV=1) HSP 1 Score: 431.8 bits (1109), Expect = 1.4e-119 Identity = 224/378 (59.26%), Postives = 274/378 (72.49%), Query Frame = 0
BLAST of HG10010729 vs. ExPASy Swiss-Prot
Match: Q99P21 (Adenine DNA glycosylase OS=Mus musculus OX=10090 GN=Mutyh PE=1 SV=2) HSP 1 Score: 312.0 bits (798), Expect = 1.6e-83 Identity = 173/382 (45.29%), Postives = 231/382 (60.47%), Query Frame = 0
BLAST of HG10010729 vs. ExPASy Swiss-Prot
Match: P43333 (U2 small nuclear ribonucleoprotein A' OS=Arabidopsis thaliana OX=3702 GN=At1g09760 PE=2 SV=2) HSP 1 Score: 303.9 bits (777), Expect = 4.4e-81 Identity = 166/217 (76.50%), Postives = 185/217 (85.25%), Query Frame = 0
BLAST of HG10010729 vs. ExPASy Swiss-Prot
Match: Q8R5G2 (Adenine DNA glycosylase OS=Rattus norvegicus OX=10116 GN=Mutyh PE=2 SV=1) HSP 1 Score: 302.0 bits (772), Expect = 1.7e-80 Identity = 172/382 (45.03%), Postives = 226/382 (59.16%), Query Frame = 0
BLAST of HG10010729 vs. ExPASy Swiss-Prot
Match: Q9UIF7 (Adenine DNA glycosylase OS=Homo sapiens OX=9606 GN=MUTYH PE=1 SV=1) HSP 1 Score: 297.4 bits (760), Expect = 4.1e-79 Identity = 175/409 (42.79%), Postives = 236/409 (57.70%), Query Frame = 0
BLAST of HG10010729 vs. ExPASy TrEMBL
Match: A0A5D3DMU5 (Adenine DNA glycosylase OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold266G001760 PE=3 SV=1) HSP 1 Score: 681.0 bits (1756), Expect = 4.9e-192 Identity = 338/371 (91.11%), Postives = 351/371 (94.61%), Query Frame = 0
BLAST of HG10010729 vs. ExPASy TrEMBL
Match: A0A1S3CBT2 (Adenine DNA glycosylase OS=Cucumis melo OX=3656 GN=LOC103498904 PE=3 SV=1) HSP 1 Score: 673.7 bits (1737), Expect = 7.9e-190 Identity = 334/359 (93.04%), Postives = 346/359 (96.38%), Query Frame = 0
BLAST of HG10010729 vs. ExPASy TrEMBL
Match: E5GB45 (Adenine DNA glycosylase OS=Cucumis melo subsp. melo OX=412675 PE=3 SV=1) HSP 1 Score: 673.7 bits (1737), Expect = 7.9e-190 Identity = 334/359 (93.04%), Postives = 346/359 (96.38%), Query Frame = 0
BLAST of HG10010729 vs. ExPASy TrEMBL
Match: A0A0A0KC27 (Adenine DNA glycosylase OS=Cucumis sativus OX=3659 GN=Csa_6G088720 PE=3 SV=1) HSP 1 Score: 673.7 bits (1737), Expect = 7.9e-190 Identity = 334/371 (90.03%), Postives = 348/371 (93.80%), Query Frame = 0
BLAST of HG10010729 vs. ExPASy TrEMBL
Match: A0A1S4E2J7 (Adenine DNA glycosylase OS=Cucumis melo OX=3656 GN=LOC103498904 PE=3 SV=1) HSP 1 Score: 673.7 bits (1737), Expect = 7.9e-190 Identity = 334/359 (93.04%), Postives = 346/359 (96.38%), Query Frame = 0
BLAST of HG10010729 vs. TAIR 10
Match: AT4G12740.1 (HhH-GPD base excision DNA repair family protein ) HSP 1 Score: 431.8 bits (1109), Expect = 1.0e-120 Identity = 224/378 (59.26%), Postives = 274/378 (72.49%), Query Frame = 0
BLAST of HG10010729 vs. TAIR 10
Match: AT1G09760.1 (U2 small nuclear ribonucleoprotein A ) HSP 1 Score: 303.9 bits (777), Expect = 3.1e-82 Identity = 166/217 (76.50%), Postives = 185/217 (85.25%), Query Frame = 0
BLAST of HG10010729 vs. TAIR 10
Match: AT1G05900.2 (endonuclease III 2 ) HSP 1 Score: 64.3 bits (155), Expect = 4.2e-10 Identity = 58/224 (25.89%), Postives = 104/224 (46.43%), 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 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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