HG10010228 (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.ATGGGTAAAGAAATGGCCGAAATGAACACCACCTTCCTTACCGATTTTCTGCGACAGTGCGGCGGCTACTGCGTTCTAGACGGCGGCTTTGCGACGGAACTGGAGCGCCTCGGTGCCGATCTTAACGATCCTCTCTGGAGCGCTAAATGCCTCATCACCTCCCCTCACCTTGTCCGACGGGTACTTTCTTCTCTCCATAAAAACTTGGCTTAGATCAAACCTTATCTTTCTTTTTATATTATTTAGGGATTTTAATTAAATTCCCTATTTTTTTTCTTATCCAACCCTTTCTCCATTGCTGTCTAAATTCTATTTGGTCGTTAGACGTGTTTTTTAAGATCTACGAGTTTACAGACACTAAAAAATCGTAGGGTTAAACAAGTTAATTAATTAGTCAGGTGACAAATATTAAAAAGAAAGTGATTTTAATTTTCTATTTTATAAATCTTTAAAATTTCGTTTGATTATTTAATTTTTAATTTTTAAAAATTAAGTCTATAAATACTATTTATATATATATATATTTTTTTTTATATTTTAAAAATCAAGTGAAGTTAAAAAATCAAGTGAAGTTTTAATTTACTAAACAGGTCTAAACTTTTCAATTTTATCGAAGTTGGATTATATATAAATTTAAAATTTTAAAAATTATTAATTTAATCTCTTTATTTTTTTAAAAAATGGAGCATAACAGAATTGTTATCACGCAGGACAAAAATAAATAAATAAATAAATAAATAAATCACGATTTAAGTATTTAATAAACAAGGATTGTTCTGCGCCGGAGAGTGGATTGGTTGTCGCAGGCCCATATGAGAATAGGGCTCAAGTTAGCTACCAGTGTCTCCGCCGCCACCTCCTGAAATTACTTATTTATTATTTTCTTTTTCAACATATGAGATTTTTTTTTTTGTCCCTATGGAGTTGGTTCATTGTCTAATTATAATCCATGCGCTCTCAATAAATTTTAAATTTAGTTTCTCTTAATAGTAATTTTCATGTATATGTGAATATATTTTCAAAATTTATGATAAAAATTTAAAATAAATAATAAAAAGATATTTAAAAAAACAAAAAACAAACAATAAACTAGCGGAGACTAAATTTAAGATTTATTGAAAGTACGTGACTTAAATTGTAGCATTAAAAATACATGGACTAAAATATTTAACAAACTTAGGCCATTTAACAAACTCTAAGTACTAAAATGACATTTTAACCTTATTTGTTTTTAACTTCTAAGAATTATGGTTGAGTTATATTTACTTTTGATGATTTTACATTTGTGCCTTAAGAAAAAAGTGTTATGACAATTTTATTCTCTTCCTTATCACCAATAATAATAATAATAATAAAAAGGTTTGATTTACCTTACATTTTTTAACACTCTATGAAAGCTGACAAAAAATGATAATGATAATGATAAAATAAAATAGTTGTGGGATCTAATTAATCTTTAAGAGTCGATTTCATAACGTTTCTATTTTTTGTTGCACGTTCCTTGTTTTTTACCCTTTTTGTTTCATGTTTCTCATTTAGTAGAAATTTTCAAAACAACATCTTGTTTTCTATTTTCATATGTAAAATCTAAATAAAAGTATTATTTTATGTATTTTTTTATTTCTAAAATGCATAATAATTTGCCTTACATTTTTTAACACCCTACAAAAAATAATAATGATAATGATAAAATAAAATAGTTGTGGGATCTGATTAATCTTTAAGGGTCGATTTGATAACGTTTCTATTTTTTGTTACACATTGCTTGTTTCTAACCATTTTTGTTTCTTGTTTCTCATTTGGTAGAAATTTTGAAACAACAAAATCAAGTGTCTTGTTTTCTATTTTCGTATCTAAAATCTAAATAAAAGTATTATTTTATATTTTTTTATTTCTAAAATGCATAATAATACATTTCATTTGCTTGATTTTCAGAGTATATAATATAGAAATATTTCCTCATCATCATGTAATCTGCTTAATTTATGACAGGTCCATTTAGACTACCTTGATGCTGGGGCCAATATCATTTCCACGGCATCTTATCAGGTTCTTTTCTCCACCCTATTTTACTGTTCTAATAAAACTATTTTCTACCTGCTTGTAATTGTTCAAATTGTTGCTACAACTGAATTTTAATATTAGTTTGGTTCATAAGATTCAACCACTATCACTATTACTCTAGATCCAAATTGTTTAAGTTGTAAGAAATCCATGATTTCATTGTATATTATATGCAGGCAACACTTCAGGGTTTTGAGGCTAAAGGATTTTCTAGAGATGAGAGTGAAGAATTGCTAAGAAAAAGTGTTGAAATTGCGCTTGAAGCACGTGACATCTATCTTGAACGATGTACGAAGGATTCTTGGGATTTCACTGCAAGTGGAGCGGGATCGAGGAGGCCAATTCTGATAGCCGCCTCGGTTGGCAGCTACGGGGCTTTTTTGGCTGATGGATCTGAATACAGGTGAGCAAACTCTACTTAGTAAGTCATTCCAAACAGACCCTTGAGTTTGAGTTTTACCATTTGCAAGTATGGATTTCAATAGTTGTAGGAATTGTCATAACGACTACTTTCCTAGGAGAAAATGGTTTTAGGCTAAAACCCTTGTTCCCTTTTTCTGTTTTGTACAAGTATATATATCTAACAGTTGTTGTATTGCCGTGTCGTGCCGTTTTACAGTGGGGTGTATGGTGATTCAGTTACTCTGGAAACACTGAAAGATTTTCACAGAAGAAGAGTGCAAATTCTGGCCAACGCAGGTGCTGACTTAATCGCGTTTGAGACGATTCCAAACAAGTTGGAAGCTCAAGTATGAAAATGCTGTTGGAAACTAGTTGTCATTGTTGGTGTTGGCAGGGTTCCAAGTTTAACTTCTTTATGCTGCTTATGTGGAATTTTCAGGCATATGCTGAGCTTCTAGATGAAGAGGGCATTGAAATTCCTGCTTGGTTTTCTTTCAACTCCAAGGATGGAATCAATGTGGTTAGTGGGGATTCTATATCTGACTGTGCCTCCATTGCAGATGTTTCAAAGCAAGTTGTTGCTGTAGGAATCAACTGTACTCCTCCCAGATATATTCATGGACTAATCTCGTCGATTCGGGAGGTAAATTCCGCTAATACCCTTTTATGACTTTTAACATTCCCATTGTCTTATCTGTCTCAATGAAGTTCGAAGCAGATCCAATAGGCCCCGAATTACTAGAGTGTATGTACGTAAGCGTGCGAAGAGAGAGGGTGGTTATACGTGTTAGGAAAATGTGTAGATTGTGTGGGCTCTACGGAATATTGTTAGTTAAAGGGGCTCAGGATTGAGGTATGTAAGCCATTGAGGCAGTAGGAGGGGAATTATCTTTTTGCTGAATTTCTTTGTAGTTGGTTCTCTTTATTTGATCTTGGAGAAGAAAGGGAGCTCTCCAATTCTCTCTCTGCTTGTTGATAGGTTTATCATAAATTTGAGGATTTGGGAATCAGTGTGTGCACAAACGAAGTCAAGTCAACTTCATGCTCCTGCTAAAGAGGAAAATAGTAAGCCATAGCCACCCTTCTTCACTGCCAAAGGCTTCTGCTAAATGCCAAGTGATAGGATTAGTGGATATAAACAGGAATTACATGGAAATCAGCCTACTAATGGAAAAGGAACATAGGAAGCAGTTCTCAGATCTGCTCATGATCTAAGTAAACATGTTCATCTGATTGGCAGGTCACTAATAAACCAATTGTGATTTATCCAAACAGTGGGGAGACTTATGATGGTGTGACCAAACAGTGGTTGGTGAGTTTTCTACTGTCTTTTTTTTTTAAGTGAGTTATTTAAACTTCACAATTTTGTTGCTTCATATCGATGTACACTACAGAACAACAAACACAGACAGTTTCTCTTTTAGTTCTGTTTATCCTTTGAAAAATTTAGTCACTTCTGTTTATGTTTGCAGAAATCTGATGGAATGATAGGGGAAGACTTTGTATCATATGTAAGAAAGTGGAAGGAAGCTGGAGCCTCTCTGTTTGGTGGGTGTTGCAGGACCACTCCAAACACAATCCGGGGCATAGCAAAAGCGCTCTCTCATAAAAACTTTTGAGCTGTTTCCCCTCTATTTACAAGCTTTGGTATGTACTACATCCAATATCTCAGTTGTCCTCTGTTCTTAGCTGTGCTAGAGACAGAAACCGTCATTAGATAATTATGAGATGATATCGATGATATCCTTCTAAATGGGATAACGATCGAGTTTTTGTAAATATTAAAGAGAGAGAGCTGTTCATAAACATAAGTTCTCCCTGTTTCACATCTCCCAAAAGGAATCTTTCCATCTTGTAGTTGTGATATTTTTATCCTTAACAATCAAAATTTTCAAGTCCTAAGGATTTCCTTTAATTTTCTTTTTCCCCTTTCTTTCACAGATTCTCATGTCTGATAAATGCTGAAGTTCTCACAAGTGTTTTCAAGATGCAATAATTTGAAACTGATAGTGATTGATGGTTCCATTGCAAACCACCAAATGCAAGTCCTAAAACCAGAAAGGAAATAGAGAAGCCCATATGCTTGAAGACAAAAGCAACCAGTACAATTCTTAGTCTAGTCTGGGGATGAAGATATACCAATCTTGTGCAGCTCCAACTTTTGAGTGCCTAATTATATCCTTAGGATTTGGCTTTAGATTCTCTAAAAGGGGAAATTAGAGCTAATGTTATTGGGTTCCATAACAAATATCATTTGATGGCCAAGTCTGTTTGTCTTATTGGTAGAGCCAAGAGGCTCCCATCTAAGTTTGAATCTTCTGTTTTACCATGTACTGCCTCAAATAAGTAACAAAAGATAAATTTTGATTGCATGAAGTAACCAGATTTCTCTAAGAAGTATGTTAATTTTGAGGATTCCTAGTCTCTATGAACAAAAATTTAGAAACTGAGTAAGGTGAGAGGTAATGAATACATGTTCCCAAACAATGTAATATTATTCTTACTTAAGGGTGCTCCGAACGACCAAGCACGAACGTGAGAGGTAAATAGAATTTGAATGCCTTGAATCTCATTGGTAGAGTTAAGAAGACTTCCATCTAAGTTCTTATTCATATTATTTACGATTTTGGCCATAGGGTTTGGAGGGGTGCGCTATATATGAACTCTCTAACTATACTGGCAATTCTGAATCTGTACTCTAATATTTTCTCTCTAATAAAATTTGATTTTTTCCTCTGCCCATATTGTTAGTGAATCAAATCTTTGTGTCGATTTATATTGTTTACACTTTTTTGTTTTCTTTGGTTGTCGATTTCATGATAGGTATACTCAATTGTCATTTATGAGTGACCAAATTTGGAATGAAAATTTATAAGAATTGAAAGTCTACCTATTTAAAAATAGAGCTTTTAGTGTTGCAAAGACTTAAGAGATGCATATATAATTTGCATGTGAATAAGAAGTTTAAGAATATGATTATTTGAATCAAAACTTCTAAATTTGAAGATTCAAACAGATATATCAAACATACTTTTTTAGATATTGAATGGCTAGGACAAAAGCATGGTTACATATATCATGGAAATGACATCATATACTAGTCAATGGAGTGTTTCATTTTGAAGGCAAAAAGAAGGAATAGTGAGGTCAATTCTTCTTTAATTGTTCAAACATGGCCCAACTCCTCTTTTATTTGATGGGATTATTCACTTAAAATGGTCCTTTTAACTGCTGTTCAACCCTCACTTTTCTTTTTTCTTTGTTCTGCATTCAAAATAACTATATCAATACTTTAAAACAAGTTATGAAAGAAAAAGAAGGGGCTGATTTCATTTCATTTTTAAAAAAAGAAAAATCAATCATTTTGTGTTGATTAGACAACCTCCCTTGATATGAAAACAATGGAGATCCACTCATTACACAATCGAACGTGAGTGTCCAATTTTCAAGTCAGAACCACTTTTAAAAATTTTGAATTCATATTCTAATCTTGTATTTGGTTACTTGTAAAAAATTCTCTTTTTCCTTGTATTTTCCATTTGCTTTAGTGGAATTTTTTGACTATGAGATCAGGTAATGACACTTGATATTCTATATGGTTGTATATTTGTCACGTTAGCTTTTACGAGAGAGTTTGAGACGTGGTTTCGACATTGTAAGCCTAAATTTAATGAATTAGAGAGCTTAAGTAAAAGTTCTAAGAAGTCTAAGTTTAGAGACTTGAACAGTGACAATTACCGTTTAAGTTTGGGAGATTATCGAGTTCAAGTTTGTGAGTATTCTCGACAACTCTTCTTTTCGATATGCTAAATCTAACTTCTTGAACATAATCTAATTGATCAAGTCATTAATAGTTTGTTTTAGATAGATCATAAGTTTGAGTACTTGTTTGGTTGATTGGTTAGCACCTAGTTGAAATAAATGCAAATATGTAAAGGCAGATGAGCATGAAGAGAAAGGATGTCCATATAAATATTGGTTGCTGAGTCGATGAGTATATATTTAATATGGTGCCCCAGCATTGGAATGTTCCACCATCAGCTCACTAAATTTTGTCGTCAGATTTTCAAGTTTGCTCTAACTGAATTGACCATTGATAAGGCTCAATAATTATGAGCTTTAGGAATAAACCCATAAGGAAAGGGACAGCCTTTTCTTTTTATGATATGCATACCACAACAGTGAATCAAACGCACCTCTTTCCATTCTCTCTCATGACAAAAAATTAAACTTTTTTCAAACCCCTTTGTTTTTTTCCCTTTTTAATTACAATAATCATGTTTAATTGAATATCAGTGACGCTGGGTTTGAAATTTGTATACGTAAATCCAAGGTTCAAGGTTACTGAATCCTCAAAAATCCTTGATGGGTTCTGAGGTGTAAAGGCAGCTTTTTATTATTCATCGCTCTTTCTTCCATTTGATCTCCAAAAAATCACACTTTTCAAGAAGAATTTGGGGTCTTTTGAGTATTAGTGGTGTAGCATTTCAAAAGTGCTTCTTGTTGATTAGATAGCACTATTGAGCTGAAGGGGATGAATCTGTATACCGAAAGAAGTAAAATTTGAGAGAACCCCAATTGGAGAAGGTAAAAAAAGCTGAGAGACAAATGCATGATTTGTCAATGTAGCATGGAATTGTTAAGTGGGTACCCCATATTCAAGCGAAAGCTTCGGGTTTGTGCCTCTTGCAACTGGTTTTGGTGGACCATAATGAGAAGAAGAAGGAGATTGATGCAAACTTGCCTTCAATGGACCACTGAGGTTGAATTTCTTTTTTTTTTTTTTTTTTTTTCCCTTTCTATGGTCATGAACAAAGAGATCCCTACTATTCCCCTCTCTTTTAAGACTTGAGCCATTTTCTCTCTCTCTTTCTGCACTCTATACTGTTCAACTTTGTACTTGGTGGGTTATTTGGAAGAGGCCCTCTTGGGATTAAGTGAAAATAAGTTTGATAAATCAGCTTCTTTCTCTTTCTCTTTCTTCTCTCTTTTTTTACAGCATTGTTTTCTCCTGATTCAGAATCTGGGTCATCGCTTCTTATGCTTTTCAAGTTTGTTTTCACCTTCTTTCTCCCTCTTTTGTTTGGGAAAACGCTTGTGTCATTTTGTTGTTCTATTGGTTTTTTTTCTTTACTGAGTTTGTTTTGATGATTTAGGGGACAAATGATAAGTAAACTGGGAAATTTGGTTGGATTGCATGTCATTGTATTGAACTTCAAAGGTCACCTGCCATTTGGGGAAGGGAAATCCCAGTTGGGGTTCTCTCTCTTTCTCTTCTTTTTCTTCTGACCACAACTTATTAACCTAGAGAGAGTCCTAAAAGATAACAGAGGAAGCTGCATGAAGAATCAGAGAAACAATGAGCGATGGGAATTCGAAGAAAAGCAAGGTGTTTCACTTTCTTCTACTTGAAACAAGTCTTTTCCTTGATGGGAAATTGATTTTTGTTTCTTTTTAACTGTTTTTTGCAGCTCTCATGGTCCAAGAAGATGGTTACAAAATGGTTTAATATCAAGAGTAAAAGTGGAAGTGGAGATTATGAGGCAGATCATGGTGTTTATGAAAGTGAATCTCAAACACCTTCCTTCTTTATTAGTAGAGATTTTTCTCCTCTAATATTAGAGTTGCACTATAGTCCCATATCTTGTCTTGGTAGCTTTGTTGAATCTCAAATCCAAACGTACAATTACACTGCTACATTCCTTAATGGTTTCTTGTTTCTCTTGATTCCCATTATATACAAATCCTTCTGCAGCCAAATAAGTAATTGGGATATTTGCTAGTTGTAGTAATGGATTATTAGTGTTAGAAACTGATTTTGAGTACAAGGTTCATGTGCTAACAGTGTCTCGCTTGTCCAGGAGGTGATGTTGAGTATAGGAATAGCATTTCAATGAGAGAGAATTACATTGGTAAGAAAAGCAAAACAGTTCAAGTATATCGATCGGTCATTTTATTTTTAAACCAATCCACTTTCTAAATCTTTGAATCTTTTTCTGTCTCTCTCTCTCCACAGATAAATCTAGAAAGAGCATAGAGCATAGCCACCATGGACATATGAATATCGACAATCCTCGTATCGTAGATGTTCAGAACTATAGGTGTATATGATTTTTTTTCCTTGTAAAGAACAAGTTTCATATTGCAGGTTTTCTTGATCTGTAATTTAACTACCAGAACTTCTATGTTTGTTTCGGGAGCAGCATTTTTGTTGCTACATGGAATGTTGGTGGCAGATCCCCTCCTAGTAATCTAAGTTTAGAAGACTGGCTTCATACCTCAGCCCCTGCAGACATTTATGTACTTGGGTATGAGTAGATTCGATGCATCTAAGTGTGCGTTTCCTGCCAAGCTTTTTAGTTTTAGCTCTTGAGTTATTTTATAAAATCAAACTCAAATTATTGCAAGGTCATGTTTTATGATTCACGTATTAAGCCTGAGACAGCCCTACGGTTTTAAAGAAACAGAACTTAAAGTTTTATCTGGCATCTACCATGTCTTTCAGATTTCAAGAGATAGTACCACTGAATGCTGGTAATGTGTTGGGCGCAGAGGACAGCGGTCCTGCCAGGAAATGGCTAACCCTCATTCAGAAAACGCTAAACAATCTTCCTGGAACAAGTGGAGATAAAGTGTACTGCATGCCATCTCCCATCCCTGAGCCAGTCATAGAATTAAATGATGATTTTGAGGAATCAATGAGGCTTAAGAACTCATCTTCCTGCCGTCGTCAATCTTTTCATACAACTAATAGCGGTAGACCATCTAACGACCAGTCAACTGCACTGCCTCAACTTGATAGAAGATTTAGCATCTCTAATCATGTGTTCTTTGACCACCGGCCTAGTGACTACGAATCCAGTTTCAGATGGGGTCATAGGCTAAGCAACTATAACAGGCAAAGTGATTACTGTAGGCAAAGCAATGACTCAAGGCTAAGTGACTATTCCAAATGGGGATCATCCGAAGATGATGGATGCCATGGGGATTTGACAAGTGAAACTTTATTCTCACCACCGTTATATAATGGATCCACATCCAAGGAAGATGAACACAGGATGTCGGGACATTCGGGATATTGCTTGGTTTCTAATAAACAAATGGTTGGTATTTTTCTCACAATATGGGTCAGGAGTGAATTGAAGGATAGCATACGAAACATGAAAGTATCCTGTGTTGGTAGAGGATTGATGGGATACCTAGGAAATAAGGTACAAATTTTAGTAGTTACTGTATTTTGTATCTTTGTGGCTCCCCAGAAGTATAAAATAAGCTTGTTATTAAGTAACTTAGTGTATTCTGCATGTTTTATTATAGGGATCAATTTCAGTTAGCTTGTCTTTGCATCAAACAAGCTTTTGCTTCATCTGCAGTCACTTAACCTCAGGACAGAAACAGGGTGATGAGTTAAGAAGGAATTCTGATGTGATGGAGATCCTGAAGAAGACCCGGTTTCGGTGTGATCGAAGTTTGCTTCATCAGAAGTCACCTCAAACAATCCTTGAGCATGAGTTAGATCCTTACTCTCCAGCATTCGGTTATTCCATTATTGCTTGCAGTTAGAAGAAGCTGAGAATTGAAAATGGAATAGACAAAAGCCTATATATATGTTAACAACTTGAGACAATTGCATACCTAACACATTTTAGTCCAGTTCATTTCCAAATGATTTTATTCATGTTTGAGCATCTTTGTAGTAATTTTGCTTTAGGAAGTATAAGAACCATGCATGCCTATGTTCGACGTATTCATTCAATTTGATGTTCATTGTTTGTCTACCAACACTACCTTTAAGTATTTTAACTATGAGTTGATCTTCCAGTCGAATTATCTGGTTTGGGGATTTAAATTATCGAATCGCTCTATCTCACCGCTCTGCCAAGGCACTTGTTGAGATGCAAAATTGGAGAGTATTGCTTGAGAATGATCAGGCACGTTTATAATTATTCCTGTGATGAGTAGTTTTGTGTTCTAAATGCTTTGTTTTTCACCTGATATCATTAGTAATGCAACTTTTTATTTAAATCATTCCCTTCTTAGCAGTTACGTAATGAGCAGAATTACGGCCGAGTCTTTGTTGGATGGAATGAAGGCAATATATATTTTCCACCCACTTACAAATACTCAAATAATTCAGACCAATACTCCGGGGACGGTATGTACTGGAAGGAGAAACGTAGAACTCCTGCTTGGTAAGAACGACTCTCAAGCAATTTCAGTGCACCAAGAACAACCCCTCCCTGAGTTCTTATATGTGTCTGTTAATTTTTTATTTGAAGGTGTGATCGGATTTTGTGGTATGGACAAGGTCTCCATCAATTATCGTATGTCCGGGGTGAATCCCGGTTTTCAGATCATAGACCTGTTTATGGCATATTTTGTGCTGAGGTAGAGTCAAACCATGACCAATTAAAGAAAAACATGAGTTCTAGTTCCAAGATTGATGTGGAGGAGCTTTTACCATACTCTCATGGATATACTGAACTGAACTTTTACTGAATGGGTAAAGAAATGGCCGAAATGAACACCACCTTCCTTACCGATTTTCTGCGACAGTGCGGCGGCTACTGCGTTCTAGACGGCGGCTTTGCGACGGAACTGGAGCGCCTCGGTGCCGATCTTAACGATCCTCTCTGGAGCGCTAAATGCCTCATCACCTCCCCTCACCTTGTCCGACGGGTCCATTTAGACTACCTTGATGCTGGGGCCAATATCATTTCCACGGCATCTTATCAGGCAACACTTCAGGGTTTTGAGGCTAAAGGATTTTCTAGAGATGAGAGTGAAGAATTGCTAAGAAAAAGTGTTGAAATTGCGCTTGAAGCACGTGACATCTATCTTGAACGATGTACGAAGGATTCTTGGGATTTCACTGCAAGTGGAGCGGGATCGAGGAGGCCAATTCTGATAGCCGCCTCGGTTGGCAGCTACGGGGCTTTTTTGGCTGATGGATCTGAATACAGTGGGGTGTATGGTGATTCAGTTACTCTGGAAACACTGAAAGATTTTCACAGAAGAAGAGTGCAAATTCTGGCCAACGCAGGTGCTGACTTAATCGCGTTTGAGACGATTCCAAACAAGTTGGAAGCTCAAGCATATGCTGAGCTTCTAGATGAAGAGGGCATTGAAATTCCTGCTTGGTTTTCTTTCAACTCCAAGGATGGAATCAATGTGGTTAGTGGGGATTCTATATCTGACTGTGCCTCCATTGCAGATGTTTCAAAGCAAGTTGTTGCTGTAGGAATCAACTGTACTCCTCCCAGATATATTCATGGACTAATCTCGTCGATTCGGGAGGTCACTAATAAACCAATTGTGATTTATCCAAACAGTGGGGAGACTTATGATGGTGTGACCAAACAGTGGTTGAAATCTGATGGAATGATAGGGGAAGACTTTGTATCATATGTAAGAAAGTGGAAGGAAGCTGGAGCCTCTCTGTTTGGAGGTGATGTTGAGTATAGGAATAGCATTTCAATGAGAGAGAATTACATTGATAAATCTAGAAAGAGCATAGAGCATAGCCACCATGGACATATGAATATCGACAATCCTCGTATCGTAGATGTTCAGAACTATAGCATTTTTGTTGCTACATGGAATGTTGGTGGCAGATCCCCTCCTAGTAATCTAAGTTTAGAAGACTGGCTTCATACCTCAGCCCCTGCAGACATTTATGTACTTGGATTTCAAGAGATAGTACCACTGAATGCTGGTAATGTGTTGGGCGCAGAGGACAGCGGTCCTGCCAGGAAATGGCTAACCCTCATTCAGAAAACGCTAAACAATCTTCCTGGAACAAGTGGAGATAAAGTGTACTGCATGCCATCTCCCATCCCTGAGCCAGTCATAGAATTAAATGATGATTTTGAGGAATCAATGAGGCTTAAGAACTCATCTTCCTGCCGTCGTCAATCTTTTCATACAACTAATAGCGGTAGACCATCTAACGACCAGTCAACTGCACTGCCTCAACTTGATAGAAGATTTAGCATCTCTAATCATGTGTTCTTTGACCACCGGCCTAGTGACTACGAATCCAGTTTCAGATGGGGTCATAGGCTAAGCAACTATAACAGGCAAAGTGATTACTGTAGGCAAAGCAATGACTCAAGGCTAAGTGACTATTCCAAATGGGGATCATCCGAAGATGATGGATGCCATGGGGATTTGACAAGTGAAACTTTATTCTCACCACCGTTATATAATGGATCCACATCCAAGGAAGATGAACACAGGATGTCGGGACATTCGGGATATTGCTTGGTTTCTAATAAACAAATGGTTGGTATTTTTCTCACAATATGGGTCAGGAGTGAATTGAAGGATAGCATACGAAACATGAAAGTATCCTGTGTTGGTAGAGGATTGATGGGATACCTAGGAAATAAGGGATCAATTTCAGTTAGCTTGTCTTTGCATCAAACAAGCTTTTGCTTCATCTGCAGTCACTTAACCTCAGGACAGAAACAGGGTGATGAGTTAAGAAGGAATTCTGATGTGATGGAGATCCTGAAGAAGACCCGGTTTCGGTGTGATCGAAGTTTGCTTCATCAGAAGTCACCTCAAACAATCCTTGAGCATGAGTTAGATCCTTACTCTCCAGCATTCGACCAATACTCCGGGGACGGTATGTACTGGAAGGAGAAACGTAGAACTCCTGCTTGGTGTGATCGGATTTTGTGGTATGGACAAGGTCTCCATCAATTATCGTATGTCCGGGGTGAATCCCGGTTTTCAGATCATAGACCTGTTTATGGCATATTTTGTGCTGAGGTAGAGTCAAACCATGACCAATTAAAGAAAAACATGAGTTCTAGTTCCAAGATTGATGTGGAGGAGCTTTTACCATACTCTCATGGATATACTGAACTGAACTTTTACTGA ATGGGTAAAGAAATGGCCGAAATGAACACCACCTTCCTTACCGATTTTCTGCGACAGTGCGGCGGCTACTGCGTTCTAGACGGCGGCTTTGCGACGGAACTGGAGCGCCTCGGTGCCGATCTTAACGATCCTCTCTGGAGCGCTAAATGCCTCATCACCTCCCCTCACCTTGTCCGACGGGTCCATTTAGACTACCTTGATGCTGGGGCCAATATCATTTCCACGGCATCTTATCAGGCAACACTTCAGGGTTTTGAGGCTAAAGGATTTTCTAGAGATGAGAGTGAAGAATTGCTAAGAAAAAGTGTTGAAATTGCGCTTGAAGCACGTGACATCTATCTTGAACGATGTACGAAGGATTCTTGGGATTTCACTGCAAGTGGAGCGGGATCGAGGAGGCCAATTCTGATAGCCGCCTCGGTTGGCAGCTACGGGGCTTTTTTGGCTGATGGATCTGAATACAGTGGGGTGTATGGTGATTCAGTTACTCTGGAAACACTGAAAGATTTTCACAGAAGAAGAGTGCAAATTCTGGCCAACGCAGGTGCTGACTTAATCGCGTTTGAGACGATTCCAAACAAGTTGGAAGCTCAAGCATATGCTGAGCTTCTAGATGAAGAGGGCATTGAAATTCCTGCTTGGTTTTCTTTCAACTCCAAGGATGGAATCAATGTGGTTAGTGGGGATTCTATATCTGACTGTGCCTCCATTGCAGATGTTTCAAAGCAAGTTGTTGCTGTAGGAATCAACTGTACTCCTCCCAGATATATTCATGGACTAATCTCGTCGATTCGGGAGGTCACTAATAAACCAATTGTGATTTATCCAAACAGTGGGGAGACTTATGATGGTGTGACCAAACAGTGGTTGAAATCTGATGGAATGATAGGGGAAGACTTTGTATCATATGTAAGAAAGTGGAAGGAAGCTGGAGCCTCTCTGTTTGGAGGTGATGTTGAGTATAGGAATAGCATTTCAATGAGAGAGAATTACATTGATAAATCTAGAAAGAGCATAGAGCATAGCCACCATGGACATATGAATATCGACAATCCTCGTATCGTAGATGTTCAGAACTATAGCATTTTTGTTGCTACATGGAATGTTGGTGGCAGATCCCCTCCTAGTAATCTAAGTTTAGAAGACTGGCTTCATACCTCAGCCCCTGCAGACATTTATGTACTTGGATTTCAAGAGATAGTACCACTGAATGCTGGTAATGTGTTGGGCGCAGAGGACAGCGGTCCTGCCAGGAAATGGCTAACCCTCATTCAGAAAACGCTAAACAATCTTCCTGGAACAAGTGGAGATAAAGTGTACTGCATGCCATCTCCCATCCCTGAGCCAGTCATAGAATTAAATGATGATTTTGAGGAATCAATGAGGCTTAAGAACTCATCTTCCTGCCGTCGTCAATCTTTTCATACAACTAATAGCGGTAGACCATCTAACGACCAGTCAACTGCACTGCCTCAACTTGATAGAAGATTTAGCATCTCTAATCATGTGTTCTTTGACCACCGGCCTAGTGACTACGAATCCAGTTTCAGATGGGGTCATAGGCTAAGCAACTATAACAGGCAAAGTGATTACTGTAGGCAAAGCAATGACTCAAGGCTAAGTGACTATTCCAAATGGGGATCATCCGAAGATGATGGATGCCATGGGGATTTGACAAGTGAAACTTTATTCTCACCACCGTTATATAATGGATCCACATCCAAGGAAGATGAACACAGGATGTCGGGACATTCGGGATATTGCTTGGTTTCTAATAAACAAATGGTTGGTATTTTTCTCACAATATGGGTCAGGAGTGAATTGAAGGATAGCATACGAAACATGAAAGTATCCTGTGTTGGTAGAGGATTGATGGGATACCTAGGAAATAAGGGATCAATTTCAGTTAGCTTGTCTTTGCATCAAACAAGCTTTTGCTTCATCTGCAGTCACTTAACCTCAGGACAGAAACAGGGTGATGAGTTAAGAAGGAATTCTGATGTGATGGAGATCCTGAAGAAGACCCGGTTTCGGTGTGATCGAAGTTTGCTTCATCAGAAGTCACCTCAAACAATCCTTGAGCATGAGTTAGATCCTTACTCTCCAGCATTCGACCAATACTCCGGGGACGGTATGTACTGGAAGGAGAAACGTAGAACTCCTGCTTGGTGTGATCGGATTTTGTGGTATGGACAAGGTCTCCATCAATTATCGTATGTCCGGGGTGAATCCCGGTTTTCAGATCATAGACCTGTTTATGGCATATTTTGTGCTGAGGTAGAGTCAAACCATGACCAATTAAAGAAAAACATGAGTTCTAGTTCCAAGATTGATGTGGAGGAGCTTTTACCATACTCTCATGGATATACTGAACTGAACTTTTACTGA MGKEMAEMNTTFLTDFLRQCGGYCVLDGGFATELERLGADLNDPLWSAKCLITSPHLVRRVHLDYLDAGANIISTASYQATLQGFEAKGFSRDESEELLRKSVEIALEARDIYLERCTKDSWDFTASGAGSRRPILIAASVGSYGAFLADGSEYSGVYGDSVTLETLKDFHRRRVQILANAGADLIAFETIPNKLEAQAYAELLDEEGIEIPAWFSFNSKDGINVVSGDSISDCASIADVSKQVVAVGINCTPPRYIHGLISSIREVTNKPIVIYPNSGETYDGVTKQWLKSDGMIGEDFVSYVRKWKEAGASLFGGDVEYRNSISMRENYIDKSRKSIEHSHHGHMNIDNPRIVDVQNYSIFVATWNVGGRSPPSNLSLEDWLHTSAPADIYVLGFQEIVPLNAGNVLGAEDSGPARKWLTLIQKTLNNLPGTSGDKVYCMPSPIPEPVIELNDDFEESMRLKNSSSCRRQSFHTTNSGRPSNDQSTALPQLDRRFSISNHVFFDHRPSDYESSFRWGHRLSNYNRQSDYCRQSNDSRLSDYSKWGSSEDDGCHGDLTSETLFSPPLYNGSTSKEDEHRMSGHSGYCLVSNKQMVGIFLTIWVRSELKDSIRNMKVSCVGRGLMGYLGNKGSISVSLSLHQTSFCFICSHLTSGQKQGDELRRNSDVMEILKKTRFRCDRSLLHQKSPQTILEHELDPYSPAFDQYSGDGMYWKEKRRTPAWCDRILWYGQGLHQLSYVRGESRFSDHRPVYGIFCAEVESNHDQLKKNMSSSSKIDVEELLPYSHGYTELNFY Homology
BLAST of HG10010228 vs. NCBI nr
Match: XP_038875159.1 (type IV inositol polyphosphate 5-phosphatase 7-like isoform X2 [Benincasa hispida]) HSP 1 Score: 889.0 bits (2296), Expect = 2.9e-254 Identity = 442/539 (82.00%), Postives = 455/539 (84.42%), Query Frame = 0
BLAST of HG10010228 vs. NCBI nr
Match: XP_038875157.1 (type IV inositol polyphosphate 5-phosphatase 7-like isoform X1 [Benincasa hispida] >XP_038875158.1 type IV inositol polyphosphate 5-phosphatase 7-like isoform X1 [Benincasa hispida]) HSP 1 Score: 886.7 bits (2290), Expect = 1.5e-253 Identity = 441/538 (81.97%), Postives = 454/538 (84.39%), Query Frame = 0
BLAST of HG10010228 vs. NCBI nr
Match: QCD97600.1 (homocysteine S-methyltransferase [Vigna unguiculata]) HSP 1 Score: 859.0 bits (2218), Expect = 3.3e-245 Identity = 477/908 (52.53%), Postives = 584/908 (64.32%), Query Frame = 0
BLAST of HG10010228 vs. NCBI nr
Match: XP_004145386.1 (type IV inositol polyphosphate 5-phosphatase 7 isoform X1 [Cucumis sativus] >XP_011649174.1 type IV inositol polyphosphate 5-phosphatase 7 isoform X1 [Cucumis sativus] >XP_031736629.1 type IV inositol polyphosphate 5-phosphatase 7 isoform X1 [Cucumis sativus] >XP_031736630.1 type IV inositol polyphosphate 5-phosphatase 7 isoform X1 [Cucumis sativus] >XP_031736631.1 type IV inositol polyphosphate 5-phosphatase 7 isoform X1 [Cucumis sativus] >KAE8651837.1 hypothetical protein Csa_006486 [Cucumis sativus]) HSP 1 Score: 826.6 bits (2134), Expect = 1.8e-235 Identity = 414/524 (79.01%), Postives = 429/524 (81.87%), Query Frame = 0
BLAST of HG10010228 vs. NCBI nr
Match: XP_008449334.1 (PREDICTED: type IV inositol polyphosphate 5-phosphatase 7-like isoform X3 [Cucumis melo]) HSP 1 Score: 811.6 bits (2095), Expect = 6.0e-231 Identity = 412/516 (79.84%), Postives = 421/516 (81.59%), Query Frame = 0
BLAST of HG10010228 vs. ExPASy Swiss-Prot
Match: Q0WQ41 (Type IV inositol polyphosphate 5-phosphatase 7 OS=Arabidopsis thaliana OX=3702 GN=IP5P7 PE=1 SV=1) HSP 1 Score: 566.6 bits (1459), Expect = 4.4e-160 Identity = 306/557 (54.94%), Postives = 377/557 (67.68%), Query Frame = 0
BLAST of HG10010228 vs. ExPASy Swiss-Prot
Match: Q9LR47 (Type IV inositol polyphosphate 5-phosphatase 6 OS=Arabidopsis thaliana OX=3702 GN=IP5P6 PE=1 SV=2) HSP 1 Score: 561.6 bits (1446), Expect = 1.4e-158 Identity = 311/584 (53.25%), Postives = 385/584 (65.92%), Query Frame = 0
BLAST of HG10010228 vs. ExPASy Swiss-Prot
Match: Q8LAX0 (Homocysteine S-methyltransferase 3 OS=Arabidopsis thaliana OX=3702 GN=HMT3 PE=1 SV=2) HSP 1 Score: 488.0 bits (1255), Expect = 2.0e-136 Identity = 229/317 (72.24%), Postives = 271/317 (85.49%), Query Frame = 0
BLAST of HG10010228 vs. ExPASy Swiss-Prot
Match: Q9M1W4 (Homocysteine S-methyltransferase 2 OS=Arabidopsis thaliana OX=3702 GN=HMT-2 PE=1 SV=1) HSP 1 Score: 446.8 bits (1148), Expect = 5.1e-124 Identity = 213/306 (69.61%), Postives = 259/306 (84.64%), Query Frame = 0
BLAST of HG10010228 vs. ExPASy Swiss-Prot
Match: Q4VNK0 (Selenocysteine Se-methyltransferase OS=Brassica oleracea var. italica OX=36774 GN=SMT PE=1 SV=1) HSP 1 Score: 438.7 bits (1127), Expect = 1.4e-121 Identity = 209/305 (68.52%), Postives = 253/305 (82.95%), Query Frame = 0
BLAST of HG10010228 vs. ExPASy TrEMBL
Match: A0A4D6MA31 (Homocysteine S-methyltransferase OS=Vigna unguiculata OX=3917 GN=DEO72_LG6g2311 PE=3 SV=1) HSP 1 Score: 859.0 bits (2218), Expect = 1.6e-245 Identity = 477/908 (52.53%), Postives = 584/908 (64.32%), Query Frame = 0
BLAST of HG10010228 vs. ExPASy TrEMBL
Match: A0A5D3E2W2 (Type IV inositol polyphosphate 5-phosphatase 7-like isoform X1 OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold216G001220 PE=3 SV=1) HSP 1 Score: 811.6 bits (2095), Expect = 2.9e-231 Identity = 412/516 (79.84%), Postives = 421/516 (81.59%), Query Frame = 0
BLAST of HG10010228 vs. ExPASy TrEMBL
Match: A0A1S3BLT0 (type IV inositol polyphosphate 5-phosphatase 7-like isoform X2 OS=Cucumis melo OX=3656 GN=LOC103491240 PE=3 SV=1) HSP 1 Score: 811.6 bits (2095), Expect = 2.9e-231 Identity = 412/516 (79.84%), Postives = 421/516 (81.59%), Query Frame = 0
BLAST of HG10010228 vs. ExPASy TrEMBL
Match: A0A1S3BL61 (type IV inositol polyphosphate 5-phosphatase 7-like isoform X1 OS=Cucumis melo OX=3656 GN=LOC103491240 PE=3 SV=1) HSP 1 Score: 811.6 bits (2095), Expect = 2.9e-231 Identity = 412/516 (79.84%), Postives = 421/516 (81.59%), Query Frame = 0
BLAST of HG10010228 vs. ExPASy TrEMBL
Match: A0A1S3BMF1 (type IV inositol polyphosphate 5-phosphatase 7-like isoform X3 OS=Cucumis melo OX=3656 GN=LOC103491240 PE=3 SV=1) HSP 1 Score: 811.6 bits (2095), Expect = 2.9e-231 Identity = 412/516 (79.84%), Postives = 421/516 (81.59%), Query Frame = 0
BLAST of HG10010228 vs. TAIR 10
Match: AT2G32010.1 (CVP2 like 1 ) HSP 1 Score: 566.6 bits (1459), Expect = 3.1e-161 Identity = 306/557 (54.94%), Postives = 377/557 (67.68%), Query Frame = 0
BLAST of HG10010228 vs. TAIR 10
Match: AT2G32010.2 (CVP2 like 1 ) HSP 1 Score: 566.6 bits (1459), Expect = 3.1e-161 Identity = 306/557 (54.94%), Postives = 377/557 (67.68%), Query Frame = 0
BLAST of HG10010228 vs. TAIR 10
Match: AT1G05470.1 (DNAse I-like superfamily protein ) HSP 1 Score: 561.6 bits (1446), Expect = 1.0e-159 Identity = 311/584 (53.25%), Postives = 385/584 (65.92%), Query Frame = 0
BLAST of HG10010228 vs. TAIR 10
Match: AT3G22740.1 (homocysteine S-methyltransferase 3 ) HSP 1 Score: 488.0 bits (1255), Expect = 1.4e-137 Identity = 229/317 (72.24%), Postives = 271/317 (85.49%), Query Frame = 0
BLAST of HG10010228 vs. TAIR 10
Match: AT3G63250.1 (homocysteine methyltransferase 2 ) HSP 1 Score: 446.8 bits (1148), Expect = 3.6e-125 Identity = 213/306 (69.61%), Postives = 259/306 (84.64%), 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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