HG10007150 (gene) Bottle gourd (Hangzhou Gourd) v1
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.ATGGGGTGTCTGGTTAGCCGAGAGGCGTCTTCTAGAAGTGTAGAAGCCCCTGTAGATAAGGGGAAGAGGAATCAAATTACTGAGTCTCGTGTCCAAGGCGAGAGTGTTCAGGAGAAAGCAGTAGAGCGTGTGAGTGCTAATGTAGAGGAGCATGTAAATGTGAACAAGGAAGAGGAGCAGAAGGCAGATGGGGGTCAGGATCGCCCACCAGCAGAGCGGAGAAAGTCGAGGAAGGTTCCGAGGCCAACTAACTTGCCAAACCATTCCCAGGGAGAGCAAGTTGCTGCTGGATGGCCTTCTTGGCTCACGGCAGTTTGTGGAGAGGCTCTCAATGGCTGGATTCCTCGGAAGGCTGATACATTTGAAAAGATTGATAAGGTGGGCAATCGACTAAGTATAATTAGGTGTAGTTTCAGTTTGATTTATTGTATAATTGGATCCTCCTGTAATGCATTCTTGTGCTTGTTCTTTAACTTTTTACACTCCGCTGGCTTACATGCTTCTAACATAATTGTTTTGGTGTTAGATTGGACAAGGAACGTATAGCAATGTGTATAAAGCTAAAGATATACTTACAGGTAAAATTGTTGCACTGAAGAAGGTTCGATTTGACAATCTGGAACCTGAAAGTGTGAAATTTATGGCTAGAGAGATTCTCATCCTTAGGAGATTAAATCATAACAATGTTGTGAAATTGGAGGGGTTGGTTACATCACGGATGTCTTGTAGTTTATACTTGGTGTTTGAGTACATGGAACATGATTTAGCAGGTCTTGCTGCAAATCCAACAATCAAATTTACAGAATCTCAGGTTAGCATATTGTTTCTTTCAGTTTTCATATCCAAACTGAATCTTGGTGCAGTTTCTCCAGGAAATCAAAAGCTGAACAATAATTCTTTTGGTGAAAACATGCCTATTTATAGGTTAAATGTTTCATGCAACAACTTCTATCTGGACTGGAACACTGTCATAATCGACGGGTGCTTCACCGTGACATTAAAGGATCTAATCTTCTCATTGATAGTGGGGGAGTGCTTAAAATTGCTGACTTTGGATTGGCTTCTTTCTTTGATCCAAATCACAAGCACCCTATGACGAGTCGGGTGGTTACCTTATGGTATCGACCTCCTGAACTACTTCTTGGAGCAACTGACTATGGAGTAGGTGTAGACCTCTGGAGTGCTGGGTGTATACTGGCCGAGTTATTAGCTGGGAGGCCTATTATGCCTGGCCGTACAGAGGTAATTGCTTTCTTTCTGGTTTAGCTTCATAGCTCGGGCTTCCATTTTCAGCATGTGAAATAAGTAGTAAATTTTCTCTCTCTAGTGCATTTAATTGCTCACAATGACTTTCATGTAGATATTTTTGAATGCCAATGTTCTTGTTTTATTTGATAATTCTCATGATACTTTAGTTCCAACATGTGCATTTGAAGTAACTTCTGTAGGAAAATCATGCTCATAAATTGCATTGCAAGTGGAAACTATGTCGTTTGTTACAGCAGATTGTAGTTTTAAGGGAAGTCATGCTTATAAATTGTATTACTTAGAAATATGTAGTTGGGTAATTACCGTAGCCTTATTATTTATTTATTTTTGTTTTGTTAGCTCTGTTGTTGTTGGCTCCATTTTTTATATTTGGCTGTTGTTTCTGTAAGCCCCTCGGCAAACTTTCATTTTTCTCTTCGAAAGTTCAGTTTTCGGTCAAACCAATTATCATGTAAGTTTTCTTTGTAAACAATGACGGCTTTGTCCGGGTAGAAATCAACAAGCTTGAAAGAAGAGGGAGCGGGATTCTTATATGTGGCCTCTGTAGGAATGGGGAGGGTCTTTTGGTGCCAGAAGAGAGTTTTTTAGAACTTCCTTGTAAGAAATCTTGGTATAAATGGCTGGTGGTGGCTGGCTGGCTGGTTTCCTTAATAAGAGAGATGAAATTAATCCATCCCTTCTTATCTTTTCTCATAGGGATGATGATTTTATTTAATCCTCCATTAATGCCAAGCTTCATGGTTTCAGCTCAATCTCCTTTTCGACTGGTGATCTTTTCTACCCATAAGTCTTATTCATCAATACGGCTTTTTTGAAGGAATTTTTGGTTGAGGGGGGCATCTACTAATGCAGCAAAACTCAAGTTCAGCCATGGACCAGACTCTTTCTTCAAAGAAAGAGTGAAGAACTGGTCTTTCCAAGAATCAGTGATGAGCAAATCTCACTCGACCAAGAAATGTTTGTTTCAGGATTAAACAATGGAATATTAAAATTGAGGCTAGAGTCTCATGCATGCATGTACTATAAACTTCCTACCAATAGTTTTCTATTCTTATGATGATTATGTCTAAGGATGCATCATACAATGTAGGAGAATCATGATAGAGAAAAAAATTATATTAGCAGCACTATTTTGATTATTCTAAACTACAAAAATGAAGAATCACGGGGCTCATAATAGAGATGGTAGTCTTTGGCAGGTCTATTTTGATTAACACTCCAACTTTAGATAAATGAATGCATTTTTTTAGGATAAAAAACAATTTCATTGATAAATAACATTAAAAATATCCAACACATAACAACAAAAAGACCCCTACGCTAACTAACTTTCACACTGAGTTTCCCTTTTTGCCCTTGCACGAGTACTTTGGCAATATTGGAGGCCTAACAATATCCAAAGAGTTACGACAAAAAAACTCCCATAAAGAGATACGAGATGATCCAAAGGGATTCCCTATAAAAAGATATAGAAACAACAAAAACCAAGGGGGAGGGGGGCAACAAAAAGGAGAGTTAAAAGAGATAGATGTAAAGTGGATAGACGATGCAAGATGGCCTCCGATCTCCAAATGCAAATGAACGGGCACACCCAAACAAAACAACTATCCAAAGAACATCAAACAGATGCACCCCAATGAAGTGAAGAAAAAACCAATCTAAAAGCACCACCTATAATCAATCAAAACAAAAATCACTTTTGGTTGAAACTGTGATGGAGAAAACAACCAATTTGATGAAAGGAGAGCGCCAAGCTTGTAAGTGATCAAGCCAATAAAGTCCCCTCTCTAACCAAAGATGTAGCTTTTTTCTCATAACTGATCGAGCATTCCAAGTTCTAGATTTCTCTAACACATTTCCTTTGTTTCATTGTATGCTTGTTGTTGTTCTTTTTCGTGGCGGGGATAGCCATAATACAAAGTCTGTTGTCTCTGAACCAATGAGCCAATGCATTTGAATGAGGCCCCAGATTGAACGGCTCATCTGTCGGAGGAGGAATGTAAGCATACCATTGTACTTCATGAGGTTCATAAAGGGAAGATGGATGAGGTGAATTAGGGGGAGTAGGGATGTGGTTGGAAAGGTAGTTCTCCGTATCGACATTAGGCAAAGGCACAATGGCTGTAGAATGCTTAACACCATGACAAAAAATTGTCTTTAGTTGGTTGTTGGTTGTATGGTCTGCAAAATTCTTGGGGGTTGTCAAAGGTGCAGATGGTCTTGGGGGAAAAGAAGAGCAATATGTGAAAGAAGGAAGAGATTGCGCGTGAATGAGAAGTTGCGTGGGAGAAACAGATGATGGGACCGAAAGAGAGAGGATGTATGAAGAGTTGTTTGGGCAATCAGATGAGGCTGGATGGTAAAGGTCATTTTTTTAAGGAGACTCCTTGGGTGGAAAATCAGGCAAAAGAGGCTGATTGGTGGCTTTTTGGGATGACAAGACAGTTGATTGGGTGGGCTGAAAACCAAGGTATGTAGCAGACGGAAAATGAGTTTTTTGATATGATAAAATGATTGATGGGACGGACATTTTGATTGATTTGTACAACTTTCAGATGGAGGGGTTGTGTCAATGTTCTTGTTCACCAAAATCAAGCTATTTTCTGGCGGGTTTCTCGAATGTGAAGCAAAGGATGCAAACTCTGGCAATGTTGATCAATCTCCGGTGTCTTCTCCGACGACTTTGCAGTTGGGGAATCTTGAAGAGTTTTTCCATGAACGGCAGCGATGTAGCCTATGTAAGGGTCCACTTCGAGAAAAGGATTGATTTGAACATTTGGAGATAATGATGAAGTGGTGGGGAGATGGGTGTTGGCTGGAAGGAAACCATTTTTGTTCAATTTGACCTTTAAACTTACCTCTATCATGTCCATTCTTGCCAAAGTCGTCTTTGATGTCTCAACATACCCTCCACAAAGATCTCCAATAAGCTTGAATGTATCATAAGATCACCGATCAATAGGTAAATTATGGATCTTTTTCCAACCCTCACACGAGGGTATCTTCATCTCCTTGTAAAAAGCCTCAATACTCCACCCGTTCAAATTTTAACTTAAAATTTCCAACTGGGAACCAATCTTTGATATTGCAAAATGCTTGCCCTTGTTCTTCGTTTTCCACAGCAAGGATGATTTTATTTGGTTGCAAGGAACTCATTGATCTAAAGTAGGTGACTTCTCTTCAAATAGCATAGAGGATGTCAAGCCAGTCATCATGAAGGTTTCTCTGTAAACAATAATGACTTTGTCGGGGTAGAAAGCTGCTAGCTCAAAAGAAGAGGGAGGAGGAACTTTAATTTTGGCCTTTGTTGGAAAGGTTTTAGGGAGGTCATTGGTGGCCAAAAGAGTTATTTTTAAAGCTTCCTTGTAAGATACCTTGGTATTCATGGCTGGAGGAGGTTGGTTGGTATCTTTAATAAGAGAGATGAAAATTTTATTTAGGCCTCCATTAATGCCAAGATTCACTATTTCTGCACGATGGCCTTTTCGGCTAGTGATCTTTTCTACCCATAAATCTTATTCATCAAGACAACTTTTCTAGAATAACTTTTGGTTGAGGAGAGTGTCGATTAGTGCAGCAAAACTAGATGACAGTCATGAACGACTCTTTCTTCAAAGAAAGAGTGAAGGATCTATCTTTCCAAGCGTTGGTGATGCACAAACCATGATCAAGTTCAATGGTGAAGGTGTTGTTGTCAATGGTGAAGGAAGGAAGGGGAGAGGAAAAATGGCGAGGCATGTTGTTGACCAAAATAGTTCTAGTGATGGTGAAGAGAAAAGGGAGTGTACGGAGAGGATTCCATGGAGAGAGAGTTTCCTTCAGATAAATGAATGTATGAAAAGTTCAAAACTAGCAAAAATCAGAATTTAAAGGATAAAAGGTCACAGTTTAAAGATCTGACATATGAAAATGTCTCTGTTTGAACTACTGCTTCTTTCCTAAAAGATGCTCCCCTACGAAATTACTACCTCTCTAATCACTATTAAGATCAAATAATTTTTATTCACTTTTTACAGTTGCAAACATGCAACAATTTTTGTAATTCATCCATCATAACGATTACCTATTGTTTTAACTAGATTGTCTTTAGCCATTAATGACTTTAAGTGAGCATACAAAAGTGCATTATGTATAAGGTGTTGAGTGTGTGGATCACCGTATCCCTTATGGATCATCATGGGAAAGCATGACATAATATCAGGCAAAATATGAAAAGTAACGCCTTTCATGGGTAATTTTATCAGTTTTCATTTTAGTGGTAGGATTCCTTCTCTGTTTGTGTACTTTGCTTTATGATGCATGACACCATTACTATCACCATATTGGCTTTGGTTTAGTGATAGGGTCCCTTATATATGTGCATGAGCCCTTCAGTGAATGTGGTTAGTTATATACGCCTCACCGATAGTGTTGCGTGCTAGATTCTTCTGTACTATCTTTTTAATCATTGAGTAAATGTTTCACATTTAAAACAGCTATCATCTATTTTCATTATAGTCGAACGTTAACACAGTATGGTTTTAACTTTTAACTATGTTATAGGTTGTTCTCGTTTTCCTTAACTTGAATTTTTCTAGCATTTTGGGGTATTCCCTTTTTTGTAATCTCATGCCATCTATGAAATTGTTTCTTATCCATAAAAAAGAAAAAAAGAATCTTTCTAACCTTCTCTACCAGTTGTGCTTGCTAATTACTCTTTTGCTCATCCAGGTAGAGCAACTACACAAGATATACAAGCTTTGTGGCTCCCCTTCAGATGAATATTGGAAAAGAGCAAAACTTCCAAATGCAACTTTATTTAAGCCCAGAGAACCTTATAAAAGATGTATAAAGGAGACATTTAAAGATTTCCCTCCATCTTCTCTGCCCCTTATAGAAACGCTTCTTGCAATTGATCCAGCAGAACGAAAGACAGCAACAGATGCATTAAATAGCGAGGTGAGCTAAAAAATTATCAGAATACATCTTTGTTATGACTTTCACTTCTTTCAGTAATCTGATTGAAATGATATGGTTTCATTTATTATAGACATCAATCTTCCTCTACTATATCTACCAATCAGACCGAATGTTGTTGCTTCCTGTGCTTCTTCTGGTGTGGTTTCAATAGGACAGCATATTAAGTTAATTTCTTTCATGGAGAACGAAAGTCCTTTCTTTTTCATTAAGTCAGCGTATTAAGTCCTTTTATTATAGACATTAAGACAGCGAATAAAGTCCTTTTATTATAAACATTAAGACGCGTGTTAAGTTCACAATTTTAAGTTATAAAATATCTCTAATTTTTCAATTGAAATTAATATTTGATGTGAAATTTTCATGGCTTATTAGATATATATTTTCTTGGGTAAACAGACTTTTGACGAACTAGGAAAAGCGCACATGTGTGGATAAAAGTCAAAATCACATTCACATGTTTTTTTTTTATCATTTATTGCTGCATTCTATCGAATATGAAACTTTGTTAAATTCAATTTACTTACCCGTATCTAATTTTACTATTATTTGTTTGATTTTGAAAATCTAAAATATTGTTAGCATGAGGAAGATTTTATTTAATACGATCCCTGGAAATAACGGGTGTTCCCAGTATGTACAGCCGGTTTGGGTGTGCTTTCTGGTGTTCTTTGGGGTTTCTTTGGCTTGTAGCAAAGATTGTTGGATGATGACTAAGGAGGTTGTGTTGTTCGCTCCCTTTCAGCATACGGGTAGAGTTCTTTGAGAGGCTTGTTTCTTTTTGGTGTTATGAGGTATTTGGCTTTAGAGAAAAACATTAGAACTTTTAGAGAGGTTTTTAGAGAGGTTGTGAGGAGTTGGAAAAGTAAATTGGGATAACGTTAGTATAACACCTCTTTATATGGCTTTGCTTCTTAAGGCTTTTGTAATTATTAGTTAGGTGTTTTCTTTTGGATTGGAGCCCTCTTTTTAGGTCAAGGCTCCTCTTGTTGGATTTTTCCCTTTTTTTCTTAGAAAAAAAAATTTATGCCCTTGTATATTCTTTCATATTTCTGTATGAAGCTTGATTTTTTTAAAAAAAACTAAAATACAAATAAGGGGTGTTTGTTGTTTGAAGGAAAATTCTTTATAAAGGCTTTCAATGCTAATGAGGCTATTGAAGACTAGGGCTGGTAAGAAAGGATGTATTATCTTTCAGATGTTTGAATTCTCGCTAGCTTGGCATAAAGATACTTGTGGTATGATCAGAGAATTCTTGATCCATATGCCCTTTTGTAAGAAGGGTTGTTTTATGGCTTGCTGGGGTGTGTGATGTTATGTGGGATCTTTGGGTGAGCGGAATAACTGAGTGTGCAGAGGGTTGGAGAGGGATTCTCATGATGTTTGGTCTCTTGTTAGATTTCATTTTTCTCTTTGGGCTTCAATTTCGAAGGTCTTTTGTAATTACACTACAGGATCTATTTTGTATAGCTAGAGTCCATTCTTTTAGTTGAGCTCCCTTTTTGTGTGCTTGACTTTTTGTATGCTCTTGTATTTTTTCATTTTTTCCCAATAAAAGTTATAAAAAAGGACACATATTCCGTTATCTTTATCATCTTTCTGCCAAGAAAAAATTATTTTCTTGTTGATGTTCTGTTATTTTTGGGGAGCTCACGCTTTTTTTCGTTCGGTTTTCATCGTCGTTTGTCTAGTAGGGAAACGACGGAGGTCATGACCCTCCATTCTTTATTGGGGGATGTTGAGTTTAGGCAAGGGAAAAGGTACGTCCATATTTGGAGTCTTAGCCCTTTTGATGGGCTCTCTTGTAAATCTTTCTTTCATTACTTGTTGGATCTTTCCTTTTAGAGAGTCGGGTTTTTCAATTCTTTGGAAGGTGAAAGTCTCGAAGAAGGTAAAGTTGTTTATCTGGCAAGTTATTCATAGAAGAATTAATACCTAGGGATCACTTATTTTTGAATTATTCTTACGTGCGATTAGTTTAAAACTTCTTTTTTTGGGGTGTTCAATATTCAAGTAGCGTGTCCTAGAGCTTTTAGTGATATGATCAAAGAGTTCCTCCTCCATTCTTCTTTCGATGAGGAGAGGGATTTTTTTTGGAAGGTGGGGGTGTGGTTTGATTTGGGGTATTTTTTTTTTCTTTTGGGGGGGGGGGGGGGGGGGGGGGGGAGGGTTCTTTGTGCGATCAATGAAATTAATCTGGAATGTTCATGGATTGGGTAGTTGGAGGAAAAAGGTGTTGGTCAAGAAGATTATTCAACAACAAAACTCGAGTATTGGAAATGAAATTACTTGCCATTGACGCCCATATGGTTAAATCAATTTGGCGCTCTTCCCACATTGGCTGGACAATCCTTGATAACATAAAATCATCTGGGGATATTCTTGTACTTTGGAGTGACGAGTGAGCCAAATTTTACAATTCGAGAGGTTATTTAAGGTCTCTTCATTGTCTCTATTCATATTTTTTTGATTGGTGGTTTTTCTTTTTGGCTTATGATTACGACTGTCTATGGGCCATCCGAAAACAATTCACTAATGATTATTGGTGGAAATTGTATGACTTGGCTGGTTTGGGGGAAATCGTTGGATTACAGGTGGTGATTTCAACGTGACATGTTGGTCTTGGGAGAAATCTCGATCACTACCAACAAGAGTATGAGTGCTATTAATAAGTGGATTCTAATTATCGGTTGTTAGACATTCCCTTGTAGAATAGTTGTAGCACTTGGTCTAGCTTTGGCCCCACACGATACTCATCACTTTTAGACAAATTCACGATCAGGGAGGCTTGTCATAGTTAATTTGGTTAAGTGACCCATAAATGTCTGGATAGAATTACATTCGACCATAACCCCTTATCCCTAACTCTTGGGGATATTACTTGGGGGCCTTGCCCTTTTCGTTTTGAAAATTTTTTGCTGCAAATTTTGTCAATACGTGAGGTTGTGGATGGTTGGTGGAATTGGAATTCTTTAATAGTTTGGCCTGGCCATGGATTGATGATGAAACTAAAGGGCCTCAAAGTTGAGCTACAAAATTGGAGCAAGGTACAACACCTGGAAGCCTCACTCAATCGTATCTCAACGCCATTTGTTAGTCAGTTTGGAAGACAATGGTCCTTTATCTGCATCTCAGTTTGACTCTCATCGTTTGCTGCGTGAATAGTTTGAGAATTTGACAGCACATGAACACGTCTATTGGCATCAATGTTGTAAGTTGAAATGGCTCACTGAGGGTGATGAAAACCCCAAGCTTTTCCATCGAATTTTAGTTCCTACCTTTAAGAAAAATCTCTCACCAGTTGAAAATCATGTGTATGGGACCCTTGGAAAAGGAAATCACATAAACCTAGGTTGGCATTTTTGCAGGGGAAGATTACAAAGCTGAGGGAAGAGCAACCGATGTGAGTATGACTAAAGTAACAATCCTCCCAAAAACAAGCACCAGTCCTATATGTGAACGAGAAACTTACAAACCTGCGATGGGGTTTAACATTGAGAAATGGCTTTCGATGGATCCTTGGACTTTTCAGTGGCTAGATTATAGGCCAAACTATTTAAATGACGCCCATGTATAGAGTAATCTTGTGCCATAGTATTGTGTTCTACGGGAATCCACCTCACATACTCTCCAAAAAACCACCCTCCTCCAAGCTCCTGAAACTGATTCCACTTCAAGTGTATGAGATTCACCTTTTTTTCCTTCCCTTCCAACAAAAAATATTGAAAAAATTAGGAAAAAAAACAGACATACGTGATTTTCTCCAGTTTGTTATTAACAAGGGAAGGGAAAGAAAAGGGATTTCATCTCATTCATGAGACACTGAATCAAGTTAAGTCTCTCTCTTTCTTTCTGAACGTATAATTTGTTCTAAAAGAGCTGCATTTCTGATTGTTTTCCACTCCAGGATTCTAGAAAGAAAACCTTGGATTGTTTGTCCAAAGAAGGCCCAATTACTGAAAAGGAAGCAGGAGATGATCTCACACCATAAACATTTCTCCTGTTAGTTTTTGTGCTAGAAACCTAAAATGTATGAAAAATTTGTTTAAAATAACGAAAGAATCCTCCCTTATCAAAACAAAAATACATGGCATCGTTCACATATTGCAAATGTGTGAGGAGGGCCCCCGACCCACTTCGAACCCAACCCCACATATGCATCGCATTCAAATCCATTTTGAGCCATACCTTCTACATCGTTGTGTGCCTTGTAATCCTCAATAGCTTCAATTAGCAATAAAGAACTCATAAGAATTTGGCAGTAGAGTGCTGGTGCTTATTCTGCAGAAAATTTTGTATGAGCAATAGTTCTAGGACATCAATATTGTTGAAATATTGATATAATTTACCATAACCCATCAGTTTATTTTTTTTGGATTAATCGGTGTTTTAACATGATATCAGAGCAAAAGGTCTTCTGTTTGAATCTAAGCAATGCCATTTCCTCTCCGATTAACATTTATTTTTAATTTTTGGCCATTCTACAAATTTTCAAGCCCACGAGGGAAATATTGAAATGTTGATATAATTATATATATTGTAATCCATCCACTTAAGTTTTTAGGTTAATTGGTGATTGAACTAATATTATGCTTCCAAAAGTTATTTTAGGGTGGTGGCATGAAGGAAAGGCTAAAGTTCTATTGCAAAGTACTTCCAGAGCTATTTTGTGGATGATTTGGATCATTGATTGATAGAAAACTTAGAGAAAAGATTCAATAAATTTCATTGACTTCACAAAAAAAGTTAAATGCATATTTATATAAATTTAATGTATAACCAAATATGTATAAAATACATATTTACTCTGGTCTATAACCTTAATCTCCTTTAGTTTGGTATTTCTTAACTATTACAAATCTTGTAGGTTTTTTTATTCTTTGCAATGCAATCTTTTAGGCTTATTTTGCTTCAATTTATAAGGTAGCTTTAATCAGGGAAATTATAACCATTTGGATGTTGAACAGATTTTACATTCTCACTTTCTGTGACTGCTATAATGGGAATTATGCCATATTTTTGTATGCCTTTCAAACTTTGTCCATTGCATTACAGTTCTTCATGACAGAACCTTTAGCCTGCAAACCCTCCAACCTCCCGAAATATCCTCCCAGTAAGGAGATGGATGCTAGAAGACGGGATGATGAAGCTAGGAGGTATGAATGCCTTAATTTCAGTTTCTGTTTAGTATATGCCTGGTTTATTTTGATATTTTTTGTACTGTGGGGCCATGAACTCCTTGGGCCAAACAAGGAGTGGAGTTCACAACTCCCAACTCCTTGGGGCAAAGATCCCCTCAAGGTTGATGTGATGCTCATTAGACGATGATTTAGTCTGACATAGTAACCATTGGCACAAAATCAAGTGGGTTAAAAGATTTGATAGGGTGGATGTGCATACTCTCTTACTAGAGCTTTCATTGAGATAAATAAAACAACTGGCTTACTCTCTTGTGCCACCTATTGCCATGTGCAGTAACAAGGACACATTAGAATGTAAACTGAAAGCTCAAGTATTAAATTGATACAACCATCAAATTCTAGAGACCGAAATTTGTAATTTAACTTTTTTTTGTTTAAGTTCAGAGTTGAATCTCCCTCTCCCTCCAGCACATAGGTGTGCACTAGGCTGATCAACTTTTTTGAAACTATCAGAACGTATTATAAATTGTATTCACGAGTTAGGGAAAATAATTTAGAAATGGTACCTAAAGCTAAGATCCTTTCGAACCAAACTGAACGTCTGAAAAAAAAATGATGGAATTCAACTAAACTCGCAAACCAACCAAAATAGAGTTCGACCAAGGCAGTTTTGGTTTACGAATTCTGTCAAACTGTACTGTGCAAACTGACTTTTCTGAATGCATATACATGGGTGTTACATGAAGATATGTTGACAACCAAACAGTCCATTTTATAGCTTTATCTATTGTTGCTGCGACTAAAATGAGGAAAGGGAAAAAAATGAAGATTTCGTTGCAGAAGAATGTGTCCTATAGATTGATTATTTGAGTGGCATTTAAACATCATTTTCCTCAAAATTCTGTTCAGTTGTATACATGTTACTATTGAGTCTAATAATTCTTTTTGGATGAGTTTGGATTTGTGGTTGTTATTCTTACTCCTGTGGACTTGCTTTGTGAGTGTTATTTGTGTTTTTGTTGAGCGTCATTCTATATCCATTTTGCAGACTAAGAGCAGCTAGTAAAGCCCAGGGAGATGGAGCGAAGAAAACACGACGTGTTAGGGCTATTCCAGCTCCCGAAGCCAATGCCGAAATACAAACAAACATTGACGTAAATATTAGTTTGCTAAGTTCAAGATCATAGACCAGCTATACACAAATATTTGGTTATAGCTTTTCCTATGATTTATAAAGTGTTAAACTGTTGAAATTGTTTTATCTTGAAACAGAGAAGGCGATTAATAACACATGCTAATGCAAAGAGCAAAAGTGAAAAGTTCCCCCCACCACACCAAGATGGAGCGCTTGGCTTTACGCTAGGATATTCACGTCATATCGACCCATCTGGTGTTCCTCCCGACATACCGTTCAGCTCGACGCTGTTCACTTATTCTAAGGAACCAATCCAAGCCTGGTCTGGTCCACTAGTCCCTGGTGCTGGCACTGATGCTCCTTCTAGGCAGAAGAAGCATGTAGGAGGTAAAGGCAAGAAAATCATGGTCTAAAATTTTGATAAGATTGTGGTTGTACTGCCTGTTTGCTGATAGGTGTATCATCAAATTCTTCCCACGGTTCATCCAAATTGGTAATCAATCAGCCTGGCCTGCTCTCAGCTGAGAAGATCATGAATTGA ATGGGGTGTCTGGTTAGCCGAGAGGCGTCTTCTAGAAGTGTAGAAGCCCCTGTAGATAAGGGGAAGAGGAATCAAATTACTGAGTCTCGTGTCCAAGGCGAGAGTGTTCAGGAGAAAGCAGTAGAGCGTGTGAGTGCTAATGTAGAGGAGCATGTAAATGTGAACAAGGAAGAGGAGCAGAAGGCAGATGGGGGTCAGGATCGCCCACCAGCAGAGCGGAGAAAGTCGAGGAAGGTTCCGAGGCCAACTAACTTGCCAAACCATTCCCAGGGAGAGCAAGTTGCTGCTGGATGGCCTTCTTGGCTCACGGCAGTTTGTGGAGAGGCTCTCAATGGCTGGATTCCTCGGAAGGCTGATACATTTGAAAAGATTGATAAGATTGGACAAGGAACGTATAGCAATGTGTATAAAGCTAAAGATATACTTACAGGTAAAATTGTTGCACTGAAGAAGGTTCGATTTGACAATCTGGAACCTGAAAGTGTGAAATTTATGGCTAGAGAGATTCTCATCCTTAGGAGATTAAATCATAACAATGTTGTGAAATTGGAGGGGTTGGTTACATCACGGATGTCTTGTAGTTTATACTTGGTGTTTGAGTACATGGAACATGATTTAGCAGGTCTTGCTGCAAATCCAACAATCAAATTTACAGAATCTCAGGTTAAATGTTTCATGCAACAACTTCTATCTGGACTGGAACACTGTCATAATCGACGGGTGCTTCACCGTGACATTAAAGGATCTAATCTTCTCATTGATAGTGGGGGAGTGCTTAAAATTGCTGACTTTGGATTGGCTTCTTTCTTTGATCCAAATCACAAGCACCCTATGACGAGTCGGGTGGTTACCTTATGGTATCGACCTCCTGAACTACTTCTTGGAGCAACTGACTATGGAGTAGGTGTAGACCTCTGGAGTGCTGGGTGTATACTGGCCGAGTTATTAGCTGGGAGGCCTATTATGCCTGGCCGTACAGAGATGAGGCTGGATGGTAAAGGTCATTTTTTTAAGGAGACTCCTTGGGTGGAAAATCAGGCAAAAGAGGCTGATTGGTGGCTTTTTGGGATGACAAGACAGTTGATTGGGTGGGCTGAAAACCAAGATGGAGGGGTTGTGTCAATGTTCTTGTTCACCAAAATCAAGCTATTTTCTGGCGGGTTTCTCGAATGTGAAGCAAAGGATGCAAACTCTGGCAATGTTGATCAATCTCCGGTAGAGCAACTACACAAGATATACAAGCTTTGTGGCTCCCCTTCAGATGAATATTGGAAAAGAGCAAAACTTCCAAATGCAACTTTATTTAAGCCCAGAGAACCTTATAAAAGATGTATAAAGGAGACATTTAAAGATTTCCCTCCATCTTCTCTGCCCCTTATAGAAACGCTTCTTGCAATTGATCCAGCAGAACGAAAGACAGCAACAGATGCATTAAATAGCGAGTTCTTCATGACAGAACCTTTAGCCTGCAAACCCTCCAACCTCCCGAAATATCCTCCCAGTAAGGAGATGGATGCTAGAAGACGGGATGATGAAGCTAGGAGACTAAGAGCAGCTAGTAAAGCCCAGGGAGATGGAGCGAAGAAAACACGACGTGTTAGGGCTATTCCAGCTCCCGAAGCCAATGCCGAAATACAAACAAACATTGACAGAAGGCGATTAATAACACATGCTAATGCAAAGAGCAAAAGTGAAAAGTTCCCCCCACCACACCAAGATGGAGCGCTTGGCTTTACGCTAGGATATTCACGTCATATCGACCCATCTGGTGTTCCTCCCGACATACCGTTCAGCTCGACGCTGTTCACTTATTCTAAGGAACCAATCCAAGCCTGGTCTGGTCCACTAGTCCCTGGTGCTGGCACTGATGCTCCTTCTAGGCAGAAGAAGCATGTAGGAGGTGTATCATCAAATTCTTCCCACGGTTCATCCAAATTGGTAATCAATCAGCCTGGCCTGCTCTCAGCTGAGAAGATCATGAATTGA ATGGGGTGTCTGGTTAGCCGAGAGGCGTCTTCTAGAAGTGTAGAAGCCCCTGTAGATAAGGGGAAGAGGAATCAAATTACTGAGTCTCGTGTCCAAGGCGAGAGTGTTCAGGAGAAAGCAGTAGAGCGTGTGAGTGCTAATGTAGAGGAGCATGTAAATGTGAACAAGGAAGAGGAGCAGAAGGCAGATGGGGGTCAGGATCGCCCACCAGCAGAGCGGAGAAAGTCGAGGAAGGTTCCGAGGCCAACTAACTTGCCAAACCATTCCCAGGGAGAGCAAGTTGCTGCTGGATGGCCTTCTTGGCTCACGGCAGTTTGTGGAGAGGCTCTCAATGGCTGGATTCCTCGGAAGGCTGATACATTTGAAAAGATTGATAAGATTGGACAAGGAACGTATAGCAATGTGTATAAAGCTAAAGATATACTTACAGGTAAAATTGTTGCACTGAAGAAGGTTCGATTTGACAATCTGGAACCTGAAAGTGTGAAATTTATGGCTAGAGAGATTCTCATCCTTAGGAGATTAAATCATAACAATGTTGTGAAATTGGAGGGGTTGGTTACATCACGGATGTCTTGTAGTTTATACTTGGTGTTTGAGTACATGGAACATGATTTAGCAGGTCTTGCTGCAAATCCAACAATCAAATTTACAGAATCTCAGGTTAAATGTTTCATGCAACAACTTCTATCTGGACTGGAACACTGTCATAATCGACGGGTGCTTCACCGTGACATTAAAGGATCTAATCTTCTCATTGATAGTGGGGGAGTGCTTAAAATTGCTGACTTTGGATTGGCTTCTTTCTTTGATCCAAATCACAAGCACCCTATGACGAGTCGGGTGGTTACCTTATGGTATCGACCTCCTGAACTACTTCTTGGAGCAACTGACTATGGAGTAGGTGTAGACCTCTGGAGTGCTGGGTGTATACTGGCCGAGTTATTAGCTGGGAGGCCTATTATGCCTGGCCGTACAGAGATGAGGCTGGATGGTAAAGGTCATTTTTTTAAGGAGACTCCTTGGGTGGAAAATCAGGCAAAAGAGGCTGATTGGTGGCTTTTTGGGATGACAAGACAGTTGATTGGGTGGGCTGAAAACCAAGATGGAGGGGTTGTGTCAATGTTCTTGTTCACCAAAATCAAGCTATTTTCTGGCGGGTTTCTCGAATGTGAAGCAAAGGATGCAAACTCTGGCAATGTTGATCAATCTCCGGTAGAGCAACTACACAAGATATACAAGCTTTGTGGCTCCCCTTCAGATGAATATTGGAAAAGAGCAAAACTTCCAAATGCAACTTTATTTAAGCCCAGAGAACCTTATAAAAGATGTATAAAGGAGACATTTAAAGATTTCCCTCCATCTTCTCTGCCCCTTATAGAAACGCTTCTTGCAATTGATCCAGCAGAACGAAAGACAGCAACAGATGCATTAAATAGCGAGTTCTTCATGACAGAACCTTTAGCCTGCAAACCCTCCAACCTCCCGAAATATCCTCCCAGTAAGGAGATGGATGCTAGAAGACGGGATGATGAAGCTAGGAGACTAAGAGCAGCTAGTAAAGCCCAGGGAGATGGAGCGAAGAAAACACGACGTGTTAGGGCTATTCCAGCTCCCGAAGCCAATGCCGAAATACAAACAAACATTGACAGAAGGCGATTAATAACACATGCTAATGCAAAGAGCAAAAGTGAAAAGTTCCCCCCACCACACCAAGATGGAGCGCTTGGCTTTACGCTAGGATATTCACGTCATATCGACCCATCTGGTGTTCCTCCCGACATACCGTTCAGCTCGACGCTGTTCACTTATTCTAAGGAACCAATCCAAGCCTGGTCTGGTCCACTAGTCCCTGGTGCTGGCACTGATGCTCCTTCTAGGCAGAAGAAGCATGTAGGAGGTGTATCATCAAATTCTTCCCACGGTTCATCCAAATTGGTAATCAATCAGCCTGGCCTGCTCTCAGCTGAGAAGATCATGAATTGA MGCLVSREASSRSVEAPVDKGKRNQITESRVQGESVQEKAVERVSANVEEHVNVNKEEEQKADGGQDRPPAERRKSRKVPRPTNLPNHSQGEQVAAGWPSWLTAVCGEALNGWIPRKADTFEKIDKIGQGTYSNVYKAKDILTGKIVALKKVRFDNLEPESVKFMAREILILRRLNHNNVVKLEGLVTSRMSCSLYLVFEYMEHDLAGLAANPTIKFTESQVKCFMQQLLSGLEHCHNRRVLHRDIKGSNLLIDSGGVLKIADFGLASFFDPNHKHPMTSRVVTLWYRPPELLLGATDYGVGVDLWSAGCILAELLAGRPIMPGRTEMRLDGKGHFFKETPWVENQAKEADWWLFGMTRQLIGWAENQDGGVVSMFLFTKIKLFSGGFLECEAKDANSGNVDQSPVEQLHKIYKLCGSPSDEYWKRAKLPNATLFKPREPYKRCIKETFKDFPPSSLPLIETLLAIDPAERKTATDALNSEFFMTEPLACKPSNLPKYPPSKEMDARRRDDEARRLRAASKAQGDGAKKTRRVRAIPAPEANAEIQTNIDRRRLITHANAKSKSEKFPPPHQDGALGFTLGYSRHIDPSGVPPDIPFSSTLFTYSKEPIQAWSGPLVPGAGTDAPSRQKKHVGGVSSNSSHGSSKLVINQPGLLSAEKIMN Homology
BLAST of HG10007150 vs. NCBI nr
Match: TYK10183.1 (putative serine/threonine-protein kinase [Cucumis melo var. makuwa]) HSP 1 Score: 1076.2 bits (2782), Expect = 0.0e+00 Identity = 558/649 (85.98%), Postives = 561/649 (86.44%), Query Frame = 0
BLAST of HG10007150 vs. NCBI nr
Match: XP_038877551.1 (probable serine/threonine-protein kinase At1g54610 isoform X1 [Benincasa hispida]) HSP 1 Score: 1057.4 bits (2733), Expect = 5.2e-305 Identity = 544/635 (85.67%), Postives = 549/635 (86.46%), Query Frame = 0
BLAST of HG10007150 vs. NCBI nr
Match: XP_004135651.1 (probable serine/threonine-protein kinase At1g54610 [Cucumis sativus] >XP_031741384.1 probable serine/threonine-protein kinase At1g54610 [Cucumis sativus] >KGN66143.1 hypothetical protein Csa_007034 [Cucumis sativus]) HSP 1 Score: 1057.0 bits (2732), Expect = 6.8e-305 Identity = 546/635 (85.98%), Postives = 549/635 (86.46%), Query Frame = 0
BLAST of HG10007150 vs. NCBI nr
Match: XP_008450739.1 (PREDICTED: probable serine/threonine-protein kinase At1g54610 [Cucumis melo]) HSP 1 Score: 1052.4 bits (2720), Expect = 1.7e-303 Identity = 544/635 (85.67%), Postives = 547/635 (86.14%), Query Frame = 0
BLAST of HG10007150 vs. NCBI nr
Match: XP_022989369.1 (probable serine/threonine-protein kinase At1g54610 [Cucurbita maxima] >XP_022989370.1 probable serine/threonine-protein kinase At1g54610 [Cucurbita maxima]) HSP 1 Score: 1045.8 bits (2703), Expect = 1.6e-301 Identity = 540/651 (82.95%), Postives = 552/651 (84.79%), Query Frame = 0
BLAST of HG10007150 vs. ExPASy Swiss-Prot
Match: Q9ZVM9 (Probable serine/threonine-protein kinase At1g54610 OS=Arabidopsis thaliana OX=3702 GN=At1g54610 PE=1 SV=1) HSP 1 Score: 727.6 bits (1877), Expect = 1.2e-208 Identity = 393/659 (59.64%), Postives = 467/659 (70.86%), Query Frame = 0
BLAST of HG10007150 vs. ExPASy Swiss-Prot
Match: F4I114 (Probable serine/threonine-protein kinase At1g09600 OS=Arabidopsis thaliana OX=3702 GN=At1g09600 PE=3 SV=1) HSP 1 Score: 522.7 bits (1345), Expect = 6.0e-147 Identity = 281/586 (47.95%), Postives = 368/586 (62.80%), Query Frame = 0
BLAST of HG10007150 vs. ExPASy Swiss-Prot
Match: F4ICB6 (Protein IMPAIRED IN BABA-INDUCED STERILITY 1 OS=Arabidopsis thaliana OX=3702 GN=IBS1 PE=3 SV=1) HSP 1 Score: 464.9 bits (1195), Expect = 1.5e-129 Identity = 236/472 (50.00%), Postives = 313/472 (66.31%), Query Frame = 0
BLAST of HG10007150 vs. ExPASy Swiss-Prot
Match: Q9LFT8 (Cyclin-dependent kinase C-1 OS=Arabidopsis thaliana OX=3702 GN=CDKC-1 PE=1 SV=1) HSP 1 Score: 323.9 bits (829), Expect = 4.1e-87 Identity = 177/427 (41.45%), Postives = 242/427 (56.67%), Query Frame = 0
BLAST of HG10007150 vs. ExPASy Swiss-Prot
Match: Q5JK68 (Cyclin-dependent kinase C-2 OS=Oryza sativa subsp. japonica OX=39947 GN=CDKC-2 PE=2 SV=1) HSP 1 Score: 322.4 bits (825), Expect = 1.2e-86 Identity = 178/428 (41.59%), Postives = 241/428 (56.31%), Query Frame = 0
BLAST of HG10007150 vs. ExPASy TrEMBL
Match: A0A5D3CE95 (Putative serine/threonine-protein kinase OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold16G003280 PE=4 SV=1) HSP 1 Score: 1076.2 bits (2782), Expect = 0.0e+00 Identity = 558/649 (85.98%), Postives = 561/649 (86.44%), Query Frame = 0
BLAST of HG10007150 vs. ExPASy TrEMBL
Match: A0A0A0LWK7 (Protein kinase domain-containing protein OS=Cucumis sativus OX=3659 GN=Csa_1G573620 PE=4 SV=1) HSP 1 Score: 1057.0 bits (2732), Expect = 3.3e-305 Identity = 546/635 (85.98%), Postives = 549/635 (86.46%), Query Frame = 0
BLAST of HG10007150 vs. ExPASy TrEMBL
Match: A0A1S3BQK0 (probable serine/threonine-protein kinase At1g54610 OS=Cucumis melo OX=3656 GN=LOC103492228 PE=4 SV=1) HSP 1 Score: 1052.4 bits (2720), Expect = 8.1e-304 Identity = 544/635 (85.67%), Postives = 547/635 (86.14%), Query Frame = 0
BLAST of HG10007150 vs. ExPASy TrEMBL
Match: A0A6J1JM63 (probable serine/threonine-protein kinase At1g54610 OS=Cucurbita maxima OX=3661 GN=LOC111486443 PE=4 SV=1) HSP 1 Score: 1045.8 bits (2703), Expect = 7.6e-302 Identity = 540/651 (82.95%), Postives = 552/651 (84.79%), Query Frame = 0
BLAST of HG10007150 vs. ExPASy TrEMBL
Match: A0A6J1EZW0 (probable serine/threonine-protein kinase At1g54610 OS=Cucurbita moschata OX=3662 GN=LOC111437752 PE=4 SV=1) HSP 1 Score: 1043.5 bits (2697), Expect = 3.8e-301 Identity = 539/651 (82.80%), Postives = 551/651 (84.64%), Query Frame = 0
BLAST of HG10007150 vs. TAIR 10
Match: AT1G54610.1 (Protein kinase superfamily protein ) HSP 1 Score: 727.6 bits (1877), Expect = 8.8e-210 Identity = 393/659 (59.64%), Postives = 467/659 (70.86%), Query Frame = 0
BLAST of HG10007150 vs. TAIR 10
Match: AT1G54610.3 (Protein kinase superfamily protein ) HSP 1 Score: 727.6 bits (1877), Expect = 8.8e-210 Identity = 393/659 (59.64%), Postives = 467/659 (70.86%), Query Frame = 0
BLAST of HG10007150 vs. TAIR 10
Match: AT1G54610.2 (Protein kinase superfamily protein ) HSP 1 Score: 723.0 bits (1865), Expect = 2.2e-208 Identity = 393/660 (59.55%), Postives = 467/660 (70.76%), Query Frame = 0
BLAST of HG10007150 vs. TAIR 10
Match: AT3G05050.1 (Protein kinase superfamily protein ) HSP 1 Score: 657.9 bits (1696), Expect = 8.5e-189 Identity = 370/674 (54.90%), Postives = 438/674 (64.99%), Query Frame = 0
BLAST of HG10007150 vs. TAIR 10
Match: AT5G50860.1 (Protein kinase superfamily protein ) HSP 1 Score: 580.5 bits (1495), Expect = 1.7e-165 Identity = 323/597 (54.10%), Postives = 383/597 (64.15%), 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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