HG10006967 (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.ATGGAAGGAGGGAAAACGGACGACGGCGAAGGAGGAGGACGGGAAGGGAAGATGGTTGACCTGATGATGGGGCCAACAGAGGGAATCGACAGACGGGAAAAGGTTGACGACTACAGTTGAATGGTGGTAAAATTGGGAGAAGGGAGAGGAAGACGGGTAGCCTTTGGATGGTTTTGTGAAGGGAAAAATCGAAGAGGACACTGGTAGAGTGAGTCGAAAGGCGAGAATGGGAAGGAAGGGTAGGGCTGGGGAGGAGGAAAGATGGTAGATGGAGAGTCAGAGGGACTGACGGTTGGACGCTGATAGAACTGGACGGAAGGCGGTGGCGGAAAAAGTCAGTAGATTAGGGAAAGGGAAAGTTGGTAGCCAAAGATGTATAAACCTACTCCTAAGAAATCTCCAATCATTCCTCGATCTACTCAGTCTCCTCCATTGATTGATGACCCTCAGCAGCCCCACTTGGGAGAGGAAGAGTCACTACATAAGCAGCATCAAGATAACCCCGTTTTTGTTCAAGCCACGATTTGTCTTACTTCCATTGGTGGGAATGATGAAGGGGTGGTTGTTCCGGCTTTTAATAAGTTGGATTCGGCAGTTTCTTTCTCGCTTTGTCCACCACGAGGTTCCAAAGAGAGAGTCCTCGGATTATGTCCATTGGGGTGGGCAAGGTAGGAAGAGGGAAAAGAACCAATCTTGCAACCAACTGGAGCGACCCAATTATTCACCTTCTTGGGGTCACAATTGAAGATTAAAAAGAGTCCTCGAATTATGTCCATTCCGTGTTTCGTATTTGTGCTTATGCTTCTTAGATTTCATTGGTCTAATTTGTTTCTCATATGATTTGCAATGCATCATCTATTTGTTATGTTGGGGATCATGACTGTTGATGGAGAGCTTTGCCACCTGAAACTAGATTATTGATTCTTTAAATTTTCAGGGGATCAAATACTGATAATTTAATCGAATTATTCATTTTATTTTGATGAACTCTATGCATAGAATTATCATATATATTTTTTTAATTTCCCCCTATCTTGTAGGTATTTGAAACGAGGTGTAAATGAAAAAGGTAGAGTGGCAAATGATGTCGAGACTGAACAAATTGTTTTTGAGGATGTCCCTAAAGGGGTTCCTATGCAATTAAGTTCCGTTGTCCAGAATCGTGGCTCAATCCCTCTTTTCTGGTCACAGGAAACTTCGCGCCTGAACTTAAGGCCTGATATTATATGTATGACCTTAATTCCATTGTACTTGTTCTCAATCAGCTCTTGTATTATTCCTTCCTTGAACCCGATTTTGTTTTTCCAGTGTCGAAGAAGGATCAAAATTATGAAGCAACAAGACTTCATTTTGAAAATCTTGCTAAAAGATATGGAAACCCCATAATTATATTGAACTTGATAAAGGTACTTAGTTTAAATTGATATTTTTTTTATACTTCCATAATACTCGCAATGATGGTTTAACATGCAATGGATGGAAGATGCACCACGTTGTGTTATGGCTCAATAGTAGAGTGCTTGTAGATGTTTTCAGATTCATGCTTTAATTGAATTAATGATCAGTCTCAAGTTATATTTGGCTTTTCATGAAAACAGACACGTGAGAAGAAGCCACGAGAATCTATTCTTCGTGCTGAGTTTGCTAATGCTATTGATTTCATTAATAATGATCTATCTGAGGAGAACTGTCTTAGGTTTCTTCATTGGGATCTACACAAGCATGCTCGGAGGTCTGTGTCTTGTAACATGAGTTTTGGGAACTTGTCTGGACTTTTTTGTTAAGTGTTTTTTACTTGTGACATATTCTGTTTGGTTTCCTTTAGTTAAATTTTTGTCTGGAGAAAAACTAACTTCGGTTTTAATATTTTTCCTTTCAACATCCAGTAAAGCTACAAATGTTTTACTGCTTCTGGGGAAAGTGGCTGCTTTTGCGTTGACACTTACAGGATTCTTTTATTGTCAAGTTACTCCAGCATTAAGATCTGAAAGGTACTTAATTTTCCCGTCATTTTTCTTTTTGTATATTCATTTTCAATTACTTTCTTAGCCATCTGTACGATGGAAGCATACGTGTGAACTTAAACTTGAATACATCAAATATTTCATCCTTGTATCAATGGGATGCAGCAGAGTACCCTCTCTTTCTTTCTTTCTTTTTCTCTTTTTCTTCCTTTTTGCCCTTCTTCTTCTTCTTCTTCTTCTTAAAGGAAACACAACTTTTCATTGATATAATAAAAAGAGTCTAATGCTCAAAATACAATGAAACGAAAAGTTAAGACAATAAACTTATCCAATACAACGTCAAGACTATCTAACACTAGAACAAAGACTAAACAGATAAAATGAAGGCACCCCAATTCAAACAGAAATCTTGGATAGAAATCTAAGTTTGACTGAAATTATAATATTTTGTATTCCAAATTTCTTTTAGTGTAATAGCCTTTTTATATGAGAGAAATACTCATTTCCTTTTCAAGAAAAAAAAATATGAGAGAGAGACTCAATACATAAAAGGAAAGGTTTTTTATTTTGAAAAAATACGGAACTTTTCAATAGGAATGAAAAGAGACTAGTGCTCTGTGTGCCAACTTAGTTGTGATATTCGGGTGCACCTGTTGATCCCTTGGTCTTATTGGATTTGTCCATAATGAAGATTATCTCATGGAACACAAGAGGGTTTGATGATTCATCTAAGAGATTGGTGCTGAAAAGAAGTTTTAAGAAATTAAACCAAAATTTGGTTTTAATCCAAGAAACAAAGAGGGATGCTTTTAATATTGATTTTATCAAAGATTTATGGAGTTCGAAGGATGTTGGTTGGATTTTTGTAGAATCATTTGGCAAATATGGAGGTCTTCTAACCATGTGGGATGAAAGCAAAATATTTGTTACTGACGTTCTCAAGGCAGGTTATTCTTTGTCTGTCAAATGTACAACCATTTGCAAGAAGGCGTTTGGATAACAAATGTGTTTGGCCCAACTGATTATAGAGAAAGAAGATTCTTATGGCCAGAATTGTCCTCCTTCTCCGACCATTGCGTGGAGCCTTGGTGTCTTGGTGGAGATTTTAATATAACTCGACGGGCTCAGGAGCGTTTTCTCTTATGAAGAGTAACGAGAATTGCGGAAGTTTAATAACTTCATTATTGCTGAAACTTGTTGGAAATCCTCCTTTCTAATGGTCGTTTTACTTGTATGGTTGAGGACCTACATCGTCCATTTTTCAATTGCAGCTATGCTGTAAAATGTTGGCAACGTTTGATTGATTGTTTCAACCTAAGATGGGGCCTTTGGCAATGTTTCTCGTGATAACGTTTGGCAGATTTTGGTTGGTCCAAAGTTCAAGACAGCTCGTAAATTACTTTGGAATAATGCGGTCAAGGCCTTGCTTTCTGAACTTTGGTTTGAAAGGAACCAAAGATTCTTCCATGACAAATCAACCCTTTGGTTAGAGCGTTACAAGATAGCCCGACTCAATGCTTCCTCTTGGTATACTCTTTCCAAGTCTTTTGCAGATTTTTCCATCTAAGATCTAAGTCTGAACTTCAGGTTTATACTAGAAGAAACTTGACTCAAAGGGATGAAGATCAGACAATTGACTTATCACAGGACCAATCTAATGCTTCGATGAATGATTCTGAAGATCTAGGTATTAGACACTCTACTCCTGTTCCTCCTAGTTCTTCATCTCCTCATAATCCTTTATTTGATATCTCTGATCTTGATATTCCAATTGCCCATAGGAAAGGAACCTGTAAATGTACCAAATATCCCATTGCATATGATTGTCATATGCAAACTATCTTTCTTATCATAGATTGTCTGACTGTCTGATGTAAGAAGAATATGGGTTAATTGGATAATTAGTTAATATTCTAGGTTAATTCCCTTTTTACCCCCACTTGTAATAAAGTTCTATAAATAGGAACCTTCCCCTCTTGTATCAAACACATTATTCATTCTAATAAAGATCCACAATATTGATTCTTGGAGAGAATTCTCTTCGTTATCTCTTTAGGCTACATTAATTTGGTATCAGAGCGACCATCTGGGCCAATATTGACTGCCACCGGTGGAAGACCGGGAAATTCTTGGTGACGACGATCACAAGAGGGAGCTTCGTGAGTTGTGCTCGTTGCTAAACAACCCACATCTAATTAGGGGGAACCCTTGAAATTCCAAGAAAGAAAGAACAGCCCAAAGATTTTTCAAGATTTTGCAAGAATGGATTATTGCCGATCAAAGAAGATGTTCAAGAAAAAAACCAGCAGTTGTTATAGGCAAGATAATCAATTTTACATCCAAAAACAATGTTGGGATTCAGACTCAAGTGATTCAGAAGAAGAATTTCAACATACTAATTTTGTTCATGCTCGATTTTCTCAAAGAACCTATCATATGCATTATCCACATTGGAAACTTGATTTTAGTGATTCTAGTGACTCCGAAGACGTTTTTAAGTCAATTTGGGATGGAATAAGAAGGTGGCAACATCGAAAAAGGGCTCAACGATCCAATCAAACCCATTTTTTCAAGAAATCAACATAAAGATTGGGAGTTAGATGAATTAAAGAATCATCAAGAATGAATTTTTATAGCCCAAAAAGAATGTTCAAGACTCGAAATTATTTTTTTGGTTACGTAACACAATCAAGAAAGGTTGATTCAAGAAAATCAATGGTTGAGTTCTATACCCACGACGAGATTGAAACATATCCAAGAATCCAACAAAATGACTACTTTGGTCCTATAGCATTGGAGGAAATAAAGAAACCAACAAAAGAAATCCAACGCTCATTGGAAAAAATGACTCAACATATTGATCATTTATCAATTCATTTGCAAGAGTTCAAGAACGGATTGATTTCATGTACAGAAGAAAACACAAATTAGAAAATCTTGAAGATAAAATTGGAAAAAATTCTTGTTGAGACCCATGTAGTTAATGGAGGTGATTGAGACAAAAATCATGAGAACGAAGTAGAAGTAGAAGAAGAAGAAAAAGAAGAATTTAAAGATGTTAATTCGGAAATTATCTCAAGTGAAGAAGAAAAAATTCAACGAAGAAGATGGAATAGAGGTATCGAACACTGAGCAAGAATCGAGCAAGAACAATGACACATTGATTGCGTTTGAAATAGATCACCAAACTGTCGAAGAACTTGAAGCGAATGATAAAGAAGATGTTATTCTTGAACAATTCTCTTTGGAAGGTGGTTTTTTAGTGATTGGTCCTTTGAATACGGTTTTGAATGAGCTTGAAGGATACATCTTTTTTGGGTTTATGGCCAATGGAGAAGTTCATCTTTTGGTGGCAATATTGGATTTTTTGTCTCGAATTTATCACTTTGATCATAATATTTTTGTTCAAAATGTAGGAGTTTGGTTTGGTCATACTCCATTGAACAAGTTTATTTCATACCTTGTTTGCTTCATAATTTTTTTCTTTTTAAAACTCGAGGACGAATTTTCTTTTTGGAGGGGTAGAATGATGTAAGAAGAACAGGGGTTAATTGGGTAATTTGTTAATATTCTAGGTTAATTCCCTTTTTACCCCCGCTTGTAATAAAACTCTATAAATAGGAATCTTCCCCTCTTGTATCAAACACATTATTCATTCTAATAAAAGATCCACAATATTGATTCTTGGAGAGAATTCTCTTTGTTATCTCTTTAGGCTACATCAGAAATAATCTTGTTTCCGTTTCAAAAACAAAAGATTGGATTTTTTGTACTTAGGAGCATTGCCCTCTTTCAAGGATACAAATAATGTTCAAGCCTAAGAAAAGTAGATTAAATACCAAAATAGAAAAGAAAGCTATCTAAAACAGATAAAAACTAAAGCATAAAGCCAATACAAGAACTTCAAGATAAAAAAAAGACTCTTAGAAGGTAGTCAAATAATCTGCTATTCAGTGATCTGGGCTGATTACATGGATATTCTTACACTTACATAGTTCTTGGCCCTTGCTTCTCAATGATAATATTCCGTGCATTCCCACAAGGTCTAACCTAGTTGGCCAAAACTAATATCTATATACTTTTGGCCAAAGTGATGTGTTGGTTACCTAAGGAACACAGATACGGATATGAGAAACGGATACGACACGACACGTTATTTCTTCAAAATCTAAGACACGGACAGGGCAAGGAGGCATTTATTAAAATATACATTTTTTAAAATATAAATAATTTTTATACTAGAAGAAAGTTCAAAGTAAATGGGTTGATGCATATATATGCTTAAGAAATTAGTTTGATGTATTTCACACCCAAAATTTATTATTATTTGTCATATATGTGTTTTTTTAGTCTACTTAACAAGTGCTCTATGCATGTCTAACACATCTGTTGCACTAACAAGTGTCTGATACGTGTTCAACAAGTGTCAGAGTGTCCGACATGAACACGCTAGCCAAAGTAAAGTGTTCGTGCTTCTTAGTTGGTTACTACTTACTACGTGTTAAATCGCCGATTGACCCAAAAATTTAAGCTGATGGATGAAGACAAATTTAATATTATATCACTAACACTCTCCCTCACTTGTGGGCTTGAAATATGAAGAAGACCCAACAAGTGGAAATGAATATTAATTGGGAAGGAAATAACAATGCAGGGGCTTGAACACAAGACCTCCCTAGACCACCTACTCTAATACTATGTTAAATCGTCGATTGACCCAAAAACTTAAGCTAATGGTTAAAGGCAAATTTAATATTATATCACTAACACTACACATATGCATTTTTTTTTTCCATGGTTCTGTTTCTGAGTTGGTCTCTCTCTCAATGTAAGAAATGAATGCTAGATTTTAGCCCAGGAATTCAGTCTGGATGGCAATGGTATCACTTTTCTGGTAGCAAGTTCCTTGACTCTTCCTGATAACAAACTTTATATGAAAACTTTCTTACAGGAGTGAAGGAAATTGCAGCTTATTTTCTCAGTTAGATTCAGACAATGATAATGAAGATGCTGCTAGCATGGAAAAGCAAATAAGTGCTTACAACCTTGTTTCTAATGGAAATTACGTTATTAAGCAGCCATTATTCCAGAGTGGGGTGCTAAGGACCAATTGCATAGACTGCCTCGACCGTACTAATGTTGCACAATATGCATATGGGCTTGCTGCTCTTGGACACCAGCTTCATGCCTTGGAAATCTTAGATTCCCCCAAAATCGATCTTGATGCCCCTTTAGCTGATGAATTAATGGGCTTTTACGAGAAAATGGGTGACACGCTCGCACACCAGTATGGTGGCTCAGCAGCCCACAATAAGGTATGTCCAATTTCTGCCAGAGTGCTCCCAACGTGGGAAATGAAATCCAATCTTTAGTTGTTATTATTACTATTTTTCAAAACTGATATCAACAAAATAATTTAGTCTTTGAAGTTGCAGATAAGAACAATGTTGTAGTAATTACAAATAACACAAAAAAATCAGAGTAAATATTAAGAAAAAAACTCGTACACAATTAGGTTGAGGCAGAGTTATCTCACTCTCTTTAAGGAGATTCAAGCCCTCTGTAGTATGTATTGTATTTGTTTATATGAACCACTGATGTGGCAGATATTCTCTCACTTGTCTCCTCTATGATATAATAAACCAACTGAAATGTAGTGTAGCTCAAACCACTCTTTATTGAAAGGCTAAGCTTTTTTAAATCACCGATTGTCTCAAAAGTTTAAGCTGATGGGTAAATATGAATTTAATATTTTAAAATGTGCGTTTTCTTTTGGAGAGGCGAGGCGTAAGCCTTATTTTATATTAAGAAAACATAATTAAATCAAAATTAAATCATAAAACATAAAATCCTGTATATTCTTAAAATTATAATATTGCTTAGAATACATAACATACTCAAAATTAATCATGACAGAAAAAAAATTAATCATAACATACTCAATAATTTTTTTTTAAACGAAAACAAGCCTCTTCATTGAAATAATGAAATGAGACTAATACTCAAAGTACAATATTTTGATACAAAGAGCAACAAGAACTAGAACTAGAACTAAGGAAAGCTTTCTCCATAAAGCCTCCTTTTCCAAAAAAAAGGTAAGTGCTCTCCCCTCTCTCCTCTCTCTTCTCTACTCTTTCCTCTTTCCTTTTCCCTCTCTTCTCCCTCCTCCCTCCTTCTTCAGCAGGTCTACAGCTTTGGCTTTTTAGTTTATGTGGTAAAGTGAAGTGTCCGAAAAGTAAAGCAATACTAGAGACCACATAAACCAAAGAGGAGACTCAGTGAAGTGTCCAAAAGATTGGCTCTCAAAAGATTTCTTAAGAAACACAATCTCTTTTTGAAAAAGAAACAAGTCTCTTCATTGATATAATGAAATGAGACTAATGCTCAAATTACAAAAATGATATAAGAGCAAAAGAACAACCGAAATATGGATCAATGAGTGCACCCGGACATCTCAACTAGGTTGACACTCCCTTAGCACTCTCATCATCTTCTAACAAAAATTAAAACATCCAAATATCAACGGGCAAATCCATCATAACAAGGAACACCCCGAATACAAAGGGGCAGCAAGAGGAATAAAAGAAGTTAAAAAGTACAACCATAAACAAAAAAAAAACTAAGAATCTGGAAAAATGCATGCCTTCCAATTTAAGGAAACATCCGGAATGGAATAATCTACAAAGGATCTTGAGAGGGTGCACCAAGAAGAAGCGTGAAGTCGAGCTATTCAAACCTATCCAACTAAGGTGTTGATTTATCATGAAATACTCTTTGGTTCCTTTCAAACCAAATTTCCACTAACAAAGCTTTGACCGCATTAAACCAGGTTAGCTTGGATTGTGATTTCAGCTTTGGACCCAGCAGAACCTGAAATGTATTGTCTCTAAAAACATTGCCAAAAACCCAATTTAAGTTAAATAAATCCAATAAACGAGACTAACATTTGAAACCATAGCAACAATAAAAAAAATACATGCTGAAGGGTCTCTAGGGCCGCCAAACATAAAGCACAAGCCGAAGGTGATAGACAATGAGAAGGGAGTTTCCTTTATAACCAAGGAAACATTTAATAATTCAAAAAGCATGATCCATATTGTGTAGTGTCAATATTGATGAAAATACGCAGCTGTCTACTGCCTCTAGACTAAATTGCAAAGTTGAACATTTGGCCATAAAGGAAGCATAATTAATCATTTGGCAAAATGGGATTTGGTTATTAAACCACGAGATGATGGAGGTCTCGGTTTTGGAGGCCTAAGAGCAAAAAGTCTTGCACTCTTAGCCAAATGGGGTTGGAGATATCTGGATGAAGATAATCCTTTATGGTGTCAGGTAGTTAGAAGTATTCATGGGAAAGACTCTTATAACTGGAACACGGTGGGGAAGAATGGTAACAATTTGAGAAGTCCTTGGATAAGCATTTCCAAACATTGGCTGAATGTGGAGGCTTTAGCTATGTTTAAACTCGGAAATGGTTCCAAAACAACTTTTTGGTTGGACCCTTGGGATGGATTAGTACCTCTGTGCAGTAGCTATCCAAGATTATATAGGGTTGCTTTGTTTCCCAAGGGGTCGGTGGCTGATCATTGGGATGAGGAGATCCACTCTTGGTCCATTATTTTTCGCAGATTGTTAAAAAGATGATGAAATCATTGAATTCCAGAATTTGCTTGGGCAAATTTCTGCCAGGAGGCCATCAGAAAATTATGACAGAAAGGGTGGTCTTTAGAAGCTTCAGGGAAGTTCTCTGTGAACTCCCTTTCAGCTCACTTGTCTCCATCTTCCCCTGTGGATAAAAGGCTTTTTAAAGCCTTGAGGAAGACAAAAAGCCCTGGGAGAGTCAACATTCTTGTATGGATAATGATATTTTGGGCATCTAAATTGCTCTTTTGACTATGCAAAGGAAGCTCCCATCCCACTGCCTTTCTCCATCTATTTGTCCTCTTTGTGAAGCAGAAGGAGAGGACTTGTTGCATTTATTCTTTCGCTGCTCTTATGTGATGAAGTGTTGGTGGCGTTCATTCTTCAAAGTTAATTAGGTGTTTGGAGATGCTTTTTGTGATAATGTTCGTCATATTTTGATTGGGCCGGCTCTTCGAAAGGAACCCAGATTGATTTGGGCTAATGCTGTTAAAGCTTTACTTGGTGAAATTTGGTCTGGCGGAACCAAAGGATTTTCCATGACAAGAAGATGGAGTGAATGGATCGGTTTGAGGTGGCTCGCTTGAATGCTTCATCTTGGTGCACTTTATCCAAGCATTTTGAAGACTTTTCGATTCAAGAATTACATTTAAATTGGCATGCTTTTATTTTTTCAGCCTAAGTTTGTATTTGCATTGTGTGGTTACTGTTTGGACAGCTTGTTTCCTAATTGTTTTCCTTGGATATTTGGACTGTTTTTGGTCTTGTTTTTGTATGGACATGATGAGGATGCTAAGGGGGTGTCAATCTAGTTGAGATTCCCGGGTGTATTCCCTGATCCTTAGGTTTATTTCTCTTTCATTGTATCCATATTATGGACTTTGAGCATTAGTCTCATTTTATTATTTCAATGAAGAGGCTGGTTTCTTGTTAAAAAAAAAAAGTGACTTTGATCGCTATAGTGCAATGAGATGATTGTTTTGACCTATTTTGTGAGAATTGTTATATTTTTTCTACTTAGATAGAAATTATATTTAAGCAGTTCTATTGTTCCTTTTTGAATTCGTGACTCACTATGCTTCTGAAAAATCATGGGTTTTTCCTTTTCACTTGAGGAATGATTATCGTTATCAAAACTGTAGAGGCATCGTTTTCCATCTTTCTAAGTTTTCTGCAACATGGGTGCAAAATAGATATTCTCTGAGAGAAGGGGACAGTGGAAAGCAGCAACTCAGTCGCAGGAGTTCTTCAGAACTCTTCAAAGATATTATAGCAATGCCTACATGGATTCAGAAAAACAAGATGCTATTAATTTGTAAGTTTACCTATATCATTCCTGTATTTAATTTGAATAAGGATCGATGAAAAGGATTTTGTCCTTGTAGACTTTTTCCCTCCAAGCCATCACTGTTGGTTGTAGATTAAATTATGAAGTAACATGTATCCTTTGAAAAAGAAACAAGGTTTTTCATTAATGTATTAGAGTGAAGACAAAAAGAATGACACCTACAGAGACTAGATTTTCTGGGGAAAAAATAGAGAAAAAAAAGGCATAATCAAAAGAAGAAAAAAGGGAGAGAAAACCCTTGAAACTACAAAAAGAGCCCCTCAATTGTGACAAATATCTTGAGATGAATTTCCGATGAATAATTTGTTAAGGATCACAGCGAGAGGCTTCAATCCTGAGGAGCTGAAAACATCTAGCCAAAAAGTAGGTTTATCTTCTTTCATTTCTATAATATCACTGTGAATATATGCATAACATGTTCACAGTCATACCATTCATTCTACTCGATGAAAGTTTGGTTAGGGCAAGCTAGCCACAAGGTAGGTTTGTTTTAAAGTCCTCTGATTTCTGAACTAAACATTTGGATGAATACCCTTGCAAGCATTAATCCTTAATAACTTCGCTTTGTGTGATAAAGTTGGAACAATGTATGAAATATATTAGACAAAACATCCTTCTCGAGAACCCAGCTCACATTGGAATGCAATAACAAAGAACAAACAGATGGAAATAACCCATGAAGGGAAGCTTCTTTGGAAGAGAGTATTCAGTGTTGACACCTCCATATGATCCATATAAAGAAATTAACCTTCATGGGGCATTTTGATTTTTTTTTTTTTTTTTTTTTTTTTTTAATGGAAACCATCCTCTTCATTGAATTAATGAAATGAGACTAATGCTCAACGTACAAAATATTAGATATAAATACATAGAGTGATAGAAGAACCTAAGGATCAGGAGATACACCCAGAAATCTCAACTAGGTTGACACCTCCTTATCAACCTCATCCTATCCATACAACAATGAGAAGAAAAACAAACCAGCAACCAAAAACAACAAAAAAAATAGCACTATAATAACAATACAATGTAAGAATAATACTTAGGCTGGAACGAGAAAGCTTTGAACTAGAAAGAAGGCAGTGGGGATTGATCACCAAACTTTGGAATGGAGGTTTAGCTGAGAAAGAACCTGAGGATTCAAGTCGCTATACTTCAGAATATGGGCTAGAGTTTGGATGGATCCCATTTAGAAGCAGAAGATCTCAGAATCAATCAATTTTGTCATCTCTCAAGTATCTTTGTAGAAAGATTTTCCGGGAATTTGTTTGAATAAGCATAAACTCATGAATAAGAGACAGAAATTTCATATATGAGGTCTGCTCAAGATTGTATTTAAATTTTTAAGGAAAAAATACACTTTTGGTCCATGAGGTCTAAAGAGTCCAGATCATCAGACACATATAAGACACAAAACAGATATAGTGGTACATCAATTTTTAAAAATGACACGTTAATTATATACTTTTCTTTGTTTTATTTGTGTTCATATTTTCACATATTTCGAATATCTAATTCCTTTAATGTAAATTTCTATCTTTAAACATCAAAAGAACATCCATACCAATCATTAAAATGATAAGAGATGACAAACTGAGAAAAATGAGTAGAAAAATTTAGGCTAGAAAATAGTAGAAGATGAACACCTACGACGTTACTTGAACAGGAATTGTTCTATAGGTTGTATAACTGTGTCCTTGATTGATGCATACAAAATAGTGAAGAAACAACATTTAAAAAAAAATTTAAAAGAAACAGAACTTTACGACTAGGTGTTAATGGTTTCTGTTCATATACTAACGATGAGGGTATTTTTGAATTTTTTTCTTAGTTTAAGGGTATTTTTGAAACTTTTGAAAGTTGGTATTTTTGAAACAAAACATTAACAGTTTCCATCCAAAACTAATGGTAAGGGTTTTTTGAGCTTTTTTTGAAAGTTCAAGGGTATTTTTTAAACTTTTGAAAGTTCAAGGGTATTTTTTAGGGCTGTTTTCAAATATAGAAAAATGAGTCAAACTATTTACAAATATAGAAAATTTTTACAGTCTATCAGTGATAGACCGCGATAGAATTCTATCGCTTTCTATCGCTCAAACGATAGAATTTATTTGCTTGAGCGATGGAAAGCAATAGAATTCTATCGCGGTCTATCACTGATAGACAGTGAAATTTTTCTATATTTGTAAATAGTTTGATATTTTTTCTGTTTATAGTAATTTCCCTATTTTTTATAATTTAGCCTAAAATAAAATAAAAACTGCTCCTGCCTAAGAAAATGTGAGCTAATTGATTATGATAGTTGCTTGGAATAGTATGTATACGTGAAATTAATGTCTTAATTGCATCTTTAATGAAAGCAAAAATGAGGAGATGCTTCTTGGGTATAGACGACATAGACTTATACTAACATGGGGATGATATTCATTAAATCATGGATATTGTGTAAAAGTTTTAACTACGAAATAATTGTCTCAGATTTCTGGGACATTTTCAACCCCAAAAGAACAAGCCTGCACTCTGGGAACTAGACTCAGATCAGCATTGTAATGTAGGGAGGAATGGGCGAATCCATGCGCAAGAAGATGGAAGGTAAATCTTCTATCCAGAATTGCTTGATATAAGTTTTTTTTTTTTTTTTTAAACTCTATAAGATAGTGTGCATCACTGTTTGTTTTTTTTTTCCTAACCTTATCAACAATTAGATCTCTAAAAGATATAGCTTTTCGGTTCTCTCCAAGAGGGAGGCCAAGGTAAGAGGAAAGAAAGAAGCCTGATCACAGTTGATGCCCAATAACTGACATTTGCTCCTTTCCCGAGCAACCCAACATGTGATTAAGAGTCTGTAAGACCCCTAGATAGGGAAATATTAGGATTAATAGTATTATTAGTAGTAAGGGGCATATTAGTAAATAACTAGTAAGTTTGTTAGGGCTTTTAGTTATAAATAGAGGGAGTGGGTTGAGAGCAAAGGTGTGAAGAATTTTGTGGGATTTCCTTTGTTGGGAATTTGGGAGAGACTAGCTTTCTCAAAAGGCTAAGTTACCTTATTACTTTTCTTATGATAAGCCATTAAATGGGGAAGGCGAAAAGCATGTCTTGGAAGCCGAAGATGTTTCTCCCTCACAAGATTTAATTGTAGATGAGTTATCCAATAAAGCATTAAAGAAGAAAGAGGTTATTGGTAATGAAAATTCGGTTGAAGTTGAAGGATTTAATTTATTAGAAGGGCATCATCATCAGTACATCCCAGTTCATTCACCCTCAGTTAATGATTTTCTTGCCGCCTCGGAAAAAAATAGCAATGAAGAGGTCTGCTCGGATTCCCAAATAATTTCATCTGAAACTACTCCTGCACTGGACTTGTTAAACATCCCTGGAAGCTGTAAACGTAAAGAAGAAGTGGAAAAGGCAACATTGGAAGATGAAAGGACATTTTGTACTTTTTATTCAGAAAAAGAAGATTTAATTGAAGTTTCTGGTAAATTAATTCCAGTACTTCCATTTCACTACTCAAGACAAAAAATCCACCCCAAATTTCTCCAAGATTTGCAAGATTAATTATGATGCAATAGAAGCCGGTTGTGTTAAAGCTCAAGTTCTTGGATTTGCTTATGTTAAATCGGGTACCACAAAACTGGAGAAGCAGCCACCGGAATTTACTAATCAATTCTAAAAATTCCAAATTCTAATGTGCAATTCAGAAGATGTAGCCCTTGTATTACTTCTCCAAAAAGCCATCCTTCTCATATAGAATCTGACGATGACTCAACAGCAAGTGTAAGTAGCAAAGAAGAAGAGTTTGAGCCTCCATCGACCGTTCCTGAAACTCAAGTTTTGGAAAATCAGTTTGATGAAGCGTTGATTGGTCTATTTCACAGCTCAACAGAGAATTCAGCATTGAAAGCTAAACAAGTAAGTCTTTCTCCTTTGTCTCCATCACAAATTCCATCTAACCTTAGCTCAATTGTTGTATTGTGTGGAATTCAGCTTGGATAAATGGAAGGAGGGAAAACGGACGACGGCGAAGGAGGAGGACGGGAAGGGAAGATGGTTGACCTGATGATGGGGCCAACAGAGGGAATCGACAGACGGGAAAAGTCTCCTCCATTGATTGATGACCCTCAGCAGCCCCACTTGGGAGAGGAAGAGTCACTACATAAGCAGCATCAAGATAACCCCGTTTTTGTTCAAGCCACGATTTGTCTTACTTCCATTGGTGGGAATGATGAAGGGGTGGTTGTTCCGGCTTTTAATAAGTTGGATTCGGCAGTTTCTTTCTCGCTTTGTCCACCACGAGGTTCCAAAGAGAGAGTCCTCGGATTATGTCCATTGGGGTGGGCAAGGTATTTGAAACGAGGTGTAAATGAAAAAGGTAGAGTGGCAAATGATGTCGAGACTGAACAAATTGTTTTTGAGGATGTCCCTAAAGGGGTTCCTATGCAATTAAGTTCCGTTGTCCAGAATCGTGGCTCAATCCCTCTTTTCTGGTCACAGGAAACTTCGCGCCTGAACTTAAGGCCTGATATTATATTGTCGAAGAAGGATCAAAATTATGAAGCAACAAGACTTCATTTTGAAAATCTTGCTAAAAGATATGGAAACCCCATAATTATATTGAACTTGATAAAGACACGTGAGAAGAAGCCACGAGAATCTATTCTTCGTGCTGAGTTTGCTAATGCTATTGATTTCATTAATAATGATCTATCTGAGGAGAACTGTCTTAGGTTTCTTCATTGGGATCTACACAAGCATGCTCGGAGTAAAGCTACAAATGTTTTACTGCTTCTGGGGAAAGTGGCTGCTTTTGCGTTGACACTTACAGGATTCTTTTATTGTCAAGTTACTCCAGCATTAAGATCTGAAAGGAGTGAAGGAAATTGCAGCTTATTTTCTCAGTTAGATTCAGACAATGATAATGAAGATGCTGCTAGCATGGAAAAGCAAATAAGTGCTTACAACCTTGTTTCTAATGGAAATTACGTTATTAAGCAGCCATTATTCCAGAGTGGGGTGCTAAGGACCAATTGCATAGACTGCCTCGACCGTACTAATGTTGCACAATATGCATATGGGCTTGCTGCTCTTGGACACCAGCTTCATGCCTTGGAAATCTTAGATTCCCCCAAAATCGATCTTGATGCCCCTTTAGCTGATGAATTAATGGGCTTTTACGAGAAAATGGGTGACACGCTCGCACACCAGTATGGTGGCTCAGCAGCCCACAATAAGATATTCTCTGAGAGAAGGGGACAGTGGAAAGCAGCAACTCAGTCGCAGGAGTTCTTCAGAACTCTTCAAAGATATTATAGCAATGCCTACATGGATTCAGAAAAACAAGATGCTATTAATTTATTTCTGGGACATTTTCAACCCCAAAAGAACAAGCCTGCACTCTGGGAACTAGACTCAGATCAGCATTGTAATGTAGGGAGGAATGGGCGAATCCATGCGCAAGAAGATGGAAGAAGATGTAGCCCTTGTATTACTTCTCCAAAAAGCCATCCTTCTCATATAGAATCTGACGATGACTCAACAGCAAGTGTAAGTAGCAAAGAAGAAGAGTTTGAGCCTCCATCGACCGTTCCTGAAACTCAAGTTTTGGAAAATCAGTTTGATGAAGCGTTGATTGGTCTATTTCACAGCTCAACAGAGAATTCAGCATTGAAAGCTAAACAACTTGGATAA ATGGAAGGAGGGAAAACGGACGACGGCGAAGGAGGAGGACGGGAAGGGAAGATGGTTGACCTGATGATGGGGCCAACAGAGGGAATCGACAGACGGGAAAAGTCTCCTCCATTGATTGATGACCCTCAGCAGCCCCACTTGGGAGAGGAAGAGTCACTACATAAGCAGCATCAAGATAACCCCGTTTTTGTTCAAGCCACGATTTGTCTTACTTCCATTGGTGGGAATGATGAAGGGGTGGTTGTTCCGGCTTTTAATAAGTTGGATTCGGCAGTTTCTTTCTCGCTTTGTCCACCACGAGGTTCCAAAGAGAGAGTCCTCGGATTATGTCCATTGGGGTGGGCAAGGTATTTGAAACGAGGTGTAAATGAAAAAGGTAGAGTGGCAAATGATGTCGAGACTGAACAAATTGTTTTTGAGGATGTCCCTAAAGGGGTTCCTATGCAATTAAGTTCCGTTGTCCAGAATCGTGGCTCAATCCCTCTTTTCTGGTCACAGGAAACTTCGCGCCTGAACTTAAGGCCTGATATTATATTGTCGAAGAAGGATCAAAATTATGAAGCAACAAGACTTCATTTTGAAAATCTTGCTAAAAGATATGGAAACCCCATAATTATATTGAACTTGATAAAGACACGTGAGAAGAAGCCACGAGAATCTATTCTTCGTGCTGAGTTTGCTAATGCTATTGATTTCATTAATAATGATCTATCTGAGGAGAACTGTCTTAGGTTTCTTCATTGGGATCTACACAAGCATGCTCGGAGTAAAGCTACAAATGTTTTACTGCTTCTGGGGAAAGTGGCTGCTTTTGCGTTGACACTTACAGGATTCTTTTATTGTCAAGTTACTCCAGCATTAAGATCTGAAAGGAGTGAAGGAAATTGCAGCTTATTTTCTCAGTTAGATTCAGACAATGATAATGAAGATGCTGCTAGCATGGAAAAGCAAATAAGTGCTTACAACCTTGTTTCTAATGGAAATTACGTTATTAAGCAGCCATTATTCCAGAGTGGGGTGCTAAGGACCAATTGCATAGACTGCCTCGACCGTACTAATGTTGCACAATATGCATATGGGCTTGCTGCTCTTGGACACCAGCTTCATGCCTTGGAAATCTTAGATTCCCCCAAAATCGATCTTGATGCCCCTTTAGCTGATGAATTAATGGGCTTTTACGAGAAAATGGGTGACACGCTCGCACACCAGTATGGTGGCTCAGCAGCCCACAATAAGATATTCTCTGAGAGAAGGGGACAGTGGAAAGCAGCAACTCAGTCGCAGGAGTTCTTCAGAACTCTTCAAAGATATTATAGCAATGCCTACATGGATTCAGAAAAACAAGATGCTATTAATTTATTTCTGGGACATTTTCAACCCCAAAAGAACAAGCCTGCACTCTGGGAACTAGACTCAGATCAGCATTGTAATGTAGGGAGGAATGGGCGAATCCATGCGCAAGAAGATGGAAGAAGATGTAGCCCTTGTATTACTTCTCCAAAAAGCCATCCTTCTCATATAGAATCTGACGATGACTCAACAGCAAGTGTAAGTAGCAAAGAAGAAGAGTTTGAGCCTCCATCGACCGTTCCTGAAACTCAAGTTTTGGAAAATCAGTTTGATGAAGCGTTGATTGGTCTATTTCACAGCTCAACAGAGAATTCAGCATTGAAAGCTAAACAACTTGGATAA MEGGKTDDGEGGGREGKMVDLMMGPTEGIDRREKSPPLIDDPQQPHLGEEESLHKQHQDNPVFVQATICLTSIGGNDEGVVVPAFNKLDSAVSFSLCPPRGSKERVLGLCPLGWARYLKRGVNEKGRVANDVETEQIVFEDVPKGVPMQLSSVVQNRGSIPLFWSQETSRLNLRPDIILSKKDQNYEATRLHFENLAKRYGNPIIILNLIKTREKKPRESILRAEFANAIDFINNDLSEENCLRFLHWDLHKHARSKATNVLLLLGKVAAFALTLTGFFYCQVTPALRSERSEGNCSLFSQLDSDNDNEDAASMEKQISAYNLVSNGNYVIKQPLFQSGVLRTNCIDCLDRTNVAQYAYGLAALGHQLHALEILDSPKIDLDAPLADELMGFYEKMGDTLAHQYGGSAAHNKIFSERRGQWKAATQSQEFFRTLQRYYSNAYMDSEKQDAINLFLGHFQPQKNKPALWELDSDQHCNVGRNGRIHAQEDGRRCSPCITSPKSHPSHIESDDDSTASVSSKEEEFEPPSTVPETQVLENQFDEALIGLFHSSTENSALKAKQLG Homology
BLAST of HG10006967 vs. NCBI nr
Match: XP_038876533.1 (phosphoinositide phosphatase SAC4-like [Benincasa hispida]) HSP 1 Score: 736.5 bits (1900), Expect = 1.7e-208 Identity = 370/409 (90.46%), Postives = 379/409 (92.67%), Query Frame = 0
BLAST of HG10006967 vs. NCBI nr
Match: XP_016902578.1 (PREDICTED: LOW QUALITY PROTEIN: phosphoinositide phosphatase SAC3 [Cucumis melo]) HSP 1 Score: 722.2 bits (1863), Expect = 3.4e-204 Identity = 362/409 (88.51%), Postives = 375/409 (91.69%), Query Frame = 0
BLAST of HG10006967 vs. NCBI nr
Match: XP_031740945.1 (phosphoinositide phosphatase SAC3 isoform X3 [Cucumis sativus]) HSP 1 Score: 717.6 bits (1851), Expect = 8.3e-203 Identity = 355/376 (94.41%), Postives = 364/376 (96.81%), Query Frame = 0
BLAST of HG10006967 vs. NCBI nr
Match: XP_031740946.1 (phosphoinositide phosphatase SAC3 isoform X4 [Cucumis sativus]) HSP 1 Score: 717.6 bits (1851), Expect = 8.3e-203 Identity = 355/376 (94.41%), Postives = 364/376 (96.81%), Query Frame = 0
BLAST of HG10006967 vs. NCBI nr
Match: XP_031740949.1 (phosphoinositide phosphatase SAC4 isoform X7 [Cucumis sativus]) HSP 1 Score: 717.6 bits (1851), Expect = 8.3e-203 Identity = 355/376 (94.41%), Postives = 364/376 (96.81%), Query Frame = 0
BLAST of HG10006967 vs. ExPASy Swiss-Prot
Match: Q7XZU1 (Phosphoinositide phosphatase SAC4 OS=Arabidopsis thaliana OX=3702 GN=SAC4 PE=2 SV=1) HSP 1 Score: 523.1 bits (1346), Expect = 3.9e-147 Identity = 276/427 (64.64%), Postives = 318/427 (74.47%), Query Frame = 0
BLAST of HG10006967 vs. ExPASy Swiss-Prot
Match: Q7XZU2 (Phosphoinositide phosphatase SAC3 OS=Arabidopsis thaliana OX=3702 GN=SAC3 PE=2 SV=1) HSP 1 Score: 518.1 bits (1333), Expect = 1.3e-145 Identity = 279/441 (63.27%), Postives = 317/441 (71.88%), Query Frame = 0
BLAST of HG10006967 vs. ExPASy Swiss-Prot
Match: Q94A27 (Phosphoinositide phosphatase SAC2 OS=Arabidopsis thaliana OX=3702 GN=SAC2 PE=2 SV=1) HSP 1 Score: 511.9 bits (1317), Expect = 9.1e-144 Identity = 266/375 (70.93%), Postives = 297/375 (79.20%), Query Frame = 0
BLAST of HG10006967 vs. ExPASy Swiss-Prot
Match: Q7XZU3 (Phosphatidylinositol-3-phosphatase SAC1 OS=Arabidopsis thaliana OX=3702 GN=SAC1 PE=1 SV=1) HSP 1 Score: 424.1 bits (1089), Expect = 2.5e-117 Identity = 217/384 (56.51%), Postives = 274/384 (71.35%), Query Frame = 0
BLAST of HG10006967 vs. ExPASy Swiss-Prot
Match: Q8RW97 (Phosphoinositide phosphatase SAC5 OS=Arabidopsis thaliana OX=3702 GN=SAC5 PE=2 SV=1) HSP 1 Score: 371.3 bits (952), Expect = 1.9e-101 Identity = 200/369 (54.20%), Postives = 255/369 (69.11%), Query Frame = 0
BLAST of HG10006967 vs. ExPASy TrEMBL
Match: A0A1S4E2Y2 (LOW QUALITY PROTEIN: phosphoinositide phosphatase SAC3 OS=Cucumis melo OX=3656 GN=LOC103499357 PE=4 SV=1) HSP 1 Score: 722.2 bits (1863), Expect = 1.6e-204 Identity = 362/409 (88.51%), Postives = 375/409 (91.69%), Query Frame = 0
BLAST of HG10006967 vs. ExPASy TrEMBL
Match: A0A6J1D3V2 (phosphoinositide phosphatase SAC3-like isoform X1 OS=Momordica charantia OX=3673 GN=LOC111017054 PE=4 SV=1) HSP 1 Score: 713.8 bits (1841), Expect = 5.8e-202 Identity = 362/420 (86.19%), Postives = 377/420 (89.76%), Query Frame = 0
BLAST of HG10006967 vs. ExPASy TrEMBL
Match: A0A6J1D2T2 (phosphoinositide phosphatase SAC3-like isoform X2 OS=Momordica charantia OX=3673 GN=LOC111017054 PE=4 SV=1) HSP 1 Score: 711.4 bits (1835), Expect = 2.9e-201 Identity = 354/375 (94.40%), Postives = 363/375 (96.80%), Query Frame = 0
BLAST of HG10006967 vs. ExPASy TrEMBL
Match: A0A6J1FFQ8 (phosphoinositide phosphatase SAC3-like isoform X1 OS=Cucurbita moschata OX=3662 GN=LOC111443619 PE=4 SV=1) HSP 1 Score: 695.7 bits (1794), Expect = 1.6e-196 Identity = 356/420 (84.76%), Postives = 370/420 (88.10%), Query Frame = 0
BLAST of HG10006967 vs. ExPASy TrEMBL
Match: A0A6J1I5G6 (phosphoinositide phosphatase SAC3-like isoform X1 OS=Cucurbita maxima OX=3661 GN=LOC111470096 PE=4 SV=1) HSP 1 Score: 692.2 bits (1785), Expect = 1.8e-195 Identity = 355/420 (84.52%), Postives = 369/420 (87.86%), Query Frame = 0
BLAST of HG10006967 vs. TAIR 10
Match: AT5G20840.1 (Phosphoinositide phosphatase family protein ) HSP 1 Score: 523.1 bits (1346), Expect = 2.8e-148 Identity = 276/427 (64.64%), Postives = 318/427 (74.47%), Query Frame = 0
BLAST of HG10006967 vs. TAIR 10
Match: AT3G43220.1 (Phosphoinositide phosphatase family protein ) HSP 1 Score: 518.1 bits (1333), Expect = 9.0e-147 Identity = 279/441 (63.27%), Postives = 317/441 (71.88%), Query Frame = 0
BLAST of HG10006967 vs. TAIR 10
Match: AT3G43220.2 (Phosphoinositide phosphatase family protein ) HSP 1 Score: 518.1 bits (1333), Expect = 9.0e-147 Identity = 279/441 (63.27%), Postives = 317/441 (71.88%), Query Frame = 0
BLAST of HG10006967 vs. TAIR 10
Match: AT3G14205.1 (Phosphoinositide phosphatase family protein ) HSP 1 Score: 511.9 bits (1317), Expect = 6.4e-145 Identity = 266/375 (70.93%), Postives = 297/375 (79.20%), Query Frame = 0
BLAST of HG10006967 vs. TAIR 10
Match: AT1G22620.1 (Phosphoinositide phosphatase family protein ) HSP 1 Score: 424.1 bits (1089), Expect = 1.8e-118 Identity = 217/384 (56.51%), Postives = 274/384 (71.35%), 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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