HG10004019 (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.ATGGCGGATATGGATTTCGTTGAGGGCGTTGGAGAGAGTTCTTCGCCGCCTCGAAGCTTTGGTGGCTTCTGTGCTGTCCACGATGTTCGGAACGATGTTTATACTCGGTTAGTTGAGTGTGGACATGAAGAGGCCGTTTCTAATCCCCAATTTCGCGAGAACTTGGATGCTCACTTCAATCGCTTGCCTCCGAGGTAGTTTATTTCGATTTACTTTGATTGTGATTAGTTTCTATTGTGTTTTCCCCCTTTTAATTTTTACTTTTGTATTTGATTTTGAACTGCTGTAATCGAGTGAGTGTAAATGCATTTGCATCCTTGCTTTATTTGATTTTCGATCCTTTTCCTGAGAATTTGTAGTGGATATAGTTTGTCTAACTGTATTAGGAAGCTGATTTTGGTGGATTACTTTTCTGGGGAATTTTCCTTTCTATTACGCGTCTGACATAATCCTATTGCTTCTGCTTAATCTATATGTTGTTTTCTAATGCTGGGAAAGTTCATTTGATAACGGTTTCTTTTTTAATTTTCTGTTTTTGAAATTTAGTTGGGTCTAGATATTAACTTTTTGTTTGTTTGTTTGTTTTTTTTTTTTTTTAAAAGGAAAATACTTTTGGAGTATTGGTCAGCACGTTTTGAAAACGAAGAACATATTCTTTTAATTACTTTTTTTAGTTTTTAGAATTTAGGTCAGATTTGAAAATGGTGTTCAGAAAGGATATGATTAATTGACTTGATTTCTTTTTTTAAAAATTATTATTGGACGATATTTGTTAAATTTTGGATTGACTAAACTTGTTGGGAGTAAGATTGAACTTACCAGCTTAACAACTTACTGTTTAAATAATACCAACCTATAAGGAACAAAAAATGGCGTAGTGATATGGTTGGAAGCAAGAGTTCATGTATGAGGTTGATATGCGTAGTGGGATAGTGCTCTTCTTTCCTAGCTATTCATTGGCCATAGCGAGACATTTGATTTTAAATGGTGTCAGTTCTTGACTTGAAAACGAAGAACTAAGACTCATCCTACCACCTAGATAGACGAATATCCACTAGCTACTTAGCTACTGGGCTCAGAAAAATGCTCACTCTACGAGCAAGGAACAACCTAAAGCAATATTTTCAAGGTTCACTAAACTCATGCTTTGGCCATGAAAGAACGTTAGGTGAAGAGGTGCTGCCATCTGCTTGATCATCCTATTCATCCAGTGGGCTTACTTCGTTTTATAGTTATTATATATAAAAAAAATCTATGATAACTAAGGGTCATATATGTTCCAGATTCATATTTACAGGTCTTTAGAAAGTGATGTGTTTCTGTGTAAAGTAATTTAGATGAGAACTAAAATTATTAAGTATTTTGATTGGAGGCTTGGGAAACAGATTAAGGAGTTTCTAAAAAAAGTTGATGATTAGCTTCTTGGCTATCATATCCCTGGTTAGATGCCTGCAAACTGTTTGTAGTACTTGTGGCTTAAAATGAATGACGGAATTTTCGAACATAAGGATCAGGACTTGGTCATACTATAGAATTTAGCAAGTTCTATTGTGTCATCTCAGATATTTTGGAGAAGAAATCCACTAATCTTATCAAGAACCACTGGAAGTTCTTTTTTTTTTTTCTTTTTTTTTTTGTGTAATTGTTAATTTTAAGGGGAATTTTTAAAAATAGAAAAATAAGGAAAACTATTTACACAAAATAGCAAAATTTTAGATAGTTGTGATAGGCGCTGATAGAAGTCTATCAAGGTCTATCAGTGATAGAAATGATAGAAGTCTATCATTGATAGATGCTGATAGAAGTCTATCAATATCTATCAATGTCTTTTTTGTTATTTTTCTGTAAATAGTTTGACATTTTTTCTATCTGTGCAAATTTCCCTAATTTTAAATTATAATCCAGTGACTTGGGCTTGGTTGGTGCCTTAGCTTCGTCCCCTATTTTGTTTATCTATTTTAGATTGTGTTTCTCATAGTAAAAGATAAAATATGGAATTTTTAGTGGCCGGTGAGTGTATAAGTAGTATAACATGTTAAAATCACATAGCTATAGTCTATACTATATCATCGGGTAGGGATGATCTACTCCATTCTTATTAATTTATTAACTTCTTGGTTCTTGATAATTATTCTGTCAGTTATGGACTTGATGTTAACATGGAGAAGGTGGAAGATGTTTTGTTACATCAAAAGCTTCTTTTCCTAGCAAAGGATCCAGAGAAGTGCCCTGTTTACCACATTCGTTTTCTGGAGGTATTTTTTCAATTTCATTTGTTTAATTTTTAGAGGAAACTAATGGGCAGTGTTGCTTGGTTCTAAACATTCTTATAGTTTTTTGCATAGTGTGATTATGCCAAACATATGGTGGAAAACATATAACCTGAGGCAAAAATTAGAAAAATGGCTTGCAGAAAGAGAGATATTATCAGTTTCCTATTGATGACTAGTTAGAGAGGGTGACAATTTGGAATTACTGTATATGAGGTCATAACCATCACTGCTGAAGGCAGAACTTCCTAATATCAGAGGAAAAAAAAACTGAGGATGGCGCATTGCTACAGACTGCATCAAATTGCCATTGGTGGCACTGGCACCTGGAGGGTAGGACTGATATTCTGCTTGTTAAATATAATCCTCCCCAGCCCCTGCATCTTCTCGAATAGCCAATACAAAATGAATTTAGAATGTGTTTGTATGGATTTATAGCAATACGGTTGCACAGAAGAAAGTCAGATGGTAATACTAAAGCAACTGAGACAATACATTATATATTTGACGATTAATTAGTGGTTGCATTAATCACTCATATTTCTTTGATATGAAATTACTTAATATTTTTTCCTTTGAATCGCCTTTTGCCTTTTGCCTCTTTATTTATTTATTTATTTTTTCTGGTAGTCCATGTGGTAAAATAGATCTAACAATAATTTTTGCCCAAGTACTTTCATTATGTTAAGCCATTTGGTTTAGGAGAAGCGAGAGAATTTTTGAAAATCGACACGAGGACGTTGACGATAGTTGGATATTTAATAGTTGGTGGTTTAACATGTTCATGTGAAGTCTTTGTATTTTGTTTCTTCTTATGACCCGATGTAGTTAGATACGCAATTGGTGTGCAACATTTGATAATGATTACTTATAACTCTGTAACTCTATAAAGTTTGTATGTTGTTTGTATAAACTTTGTTTTAGTGGTCGGAGGTTTTATTGCTCTACACTTTTCTTGTTGATTTTGTAGCACATAAGTACTAAGTCAGATGGCAATGATGATCACGTTTTTCTTGATAGTATTCTTTTAAGTGGTTCATCTAATGAAGCAGCTGATGGAAAACTTCCACTATCACACAAGAGGTAAGACTTACTGCATTTTCATTATTAGGCTAACTGTCTCTCCTTCCATGCTACCGTCTCTCCAATCCCTTAGATTTCTTTCCTCACATAGTTGATTTGTATTAATTGATTTCTTAATCATTGGTTTGTAGAACTCGAGGAAATATAATTGACTTTGAGCCTTGTTCCAAGCTTGAGGACTTAAATTTGGATGTTAGAAAAAACTCAAAGGCCGTGGATAGGAGGTATGATTTGGACAATTTTTCCAAAAGCTATAATTTAAATTGAAGTTGGAGGAATGTAGGATTAACACATGTATTTGTATTCAGTATTTCTGTTGATTTATCATACTACAAATTCTTGTAGTTCTCGTCAGGGTTCAAAATTTTGACTTATCAGTTGTCTATAACTAGATATTAAGATGTTTTCTAAAAGCACAATGCAGGGTGGGTAATATTGCACATGTTCTGATACACGAAGTGATATTTTCAACGATTGACAAGCCAAAGCTTCTTAGCCAGGTAGGCTGGAATGGGTGTTTTGTCTTTTGTTTTTTGATAGTGTCTAAATGAATGTTTTGGCAAGGCAAAACTCGGCAAAACATTCATAGCCAGGCATGCTCATTGAAGTCTTGTTCTTATGCTCCTATGACCTATCTAATGGAACTTACATATACTAAGGCTAGAATTTTACTGTATGTTTGGCGTTCTTACTAGCTTATGGTACAATCTTTAGAAGATCGATTTAAAGGAACAACAGAACTTTTAACAAGGGCAGAAACTTTTTGGTTGTTTGTTTGTTAGTTTTTTTTTTTTTGGTTTTTGTTTTCCTTTTTATCAGTTTTAGTCACTGTATTATTTTGATGTATTATACTCTCTTTTGAGCAAGTAGGGTCTAAATGATCTTTTGGGAAAATGGAATAATTTTTATTTCAGTAAGAAACCTTTTTATTGAAAGAATGAAATACACCAGTTGAAGTCCTTTGTTTGACTGAGGGGGCTATATAATAATAATTATTATTTTTTTAAAAAGGGCTTTATAATATAAGAAGGAGAATACCGTCTGTGTATATCTATAGATAGGAAGGGGAATAGTTTACAAAGCAGTTGAACCTACACTCTGAAAAGAAGTAACAAAAAGATATAGTGACCATAATTTCATGAGACCCTTTCTTACTCTGCTGAAAGACTTTCTATTCCTGTATAATTAAAATGTCTAAAAAAAATGGCCCTTACAAGCATTGAACCACAAACACAGAGTTATTCTGACTAACAGAGAAAACATTAATAAATGCATAGATGGAATTGATCTTGAAAACTAGGTGTACACAAACTGAGTATCAGGAATGGACAGTAAATGAACAATCTATCATGGGACGATTAATACTCATACTAGGTGTAGAGAATAACTCATGGTCATTATTATGAAAGTATCAGTATGATAGAATTCACACTGATTTTTGCTAACGACTTATCAGTTTTTTTCCTAGCTTTCTGCTTTGCTTTCTGATATAGGACTTAACATTCGGGAAGCACATGTGTTTTCAACATCTGATGGTTACTCCTTGGATGTATTTGTGGTGGATGGATGGCCTGTTGAGGTACAGTATTGTGATATATGCTAAATGTATATTTTGCCATTTCTACTGCGGTATTGCCCTGTTTTTCATATTTTATGTTCTTGTTAGATTTATTTATTTATTTGTTTAATTTTTTTACTGTTGTAATCCTATCATTGTAAATGGTATTGTATGATGATATTCAATTACTATATAGAATGATTGGAAGATCTAATATATCTTCGCTATTTGGCTCAAAATTGCCTTCTTTGTTTGCTTATTGCCTGTTCCTAACTTCATGTTATGTCACTCTCTGGCCTTAAGAATAAAAGGTAGCTCGACGAACTGTAAATTTACTCTGTCTTACTCTATTATTTAGTTGGCCTTTCAAGTTGCATATGTATGCAGCAACCACCCCAAGAGTAATCCACATTTGAATGTAGGGATTAGAGTGCTAGTGCTTGCCCAACTGGTTGTCTGGTCTTCCAACATGTCTATTTTAAATCAAGACATGGAAACCTGTATGAGATTTTTGGATATGATGTTTAACAAAGATTCTCCACATTTTGCATCTGTATCTAAGAATTTTAAATGGAAAATTGTATTAGATGGGTTACTTAAAAGAAATTATGGTTTATACCTGGACAGAAACCTTCTAATATTATAAGGGGGATCGGTATTATGTATCCTTTATGACAGGATCTGTGCTAAGTCCAAATGTTGCTGACTTTGCAATCTTGTGACCAGGAAACTGATGGCTTGTACGAAGCTATGGAAAAAGCAGTGGCTAGATATGAGGTAAATTGTGTGTTCTTTTGACATGATTTTTTATCAGAATATTGAATGAAATGGTCATTACCTAATTTATAATGCCGTGATATTTTTGCAGCATAATATGAACATTCTTTTACTAATTATTATTATTTTTGTCTTTTTGTTATATACAAATTTGAGCGCTTTGTTTTCTATTGCCTGTGGTTGAAGATTGTTTTAAAACCTCATCTCCACCCCCTTTTCCCTTTCAAGAGAGAGAATATGAAGGAAACAATGCAACTTCTTTCATGGAATGCAGGGATCGTGGTCTGGTTCTTCACATTCTCATCCGGCAGTCAAGAAAACATTAGATGCCCAGGAAAAATCAGCAGATTGGGAAATAGACAGACGGTTACTGAAGATAGGTGAAAGAATTGCATCTGGATCTTGTGGTGATTTGTAAGTTTGAACTGAAAATACACTTTTATATGACCATGTCTTGAACCGTGGTTAGTATGGTTACCTTATTAGGAAGCTTACAGATATTGCATCTGAATTAATTACATTAGGGTCTCGTGGCAATATCGTAAGTTGAAGTTTCAAATTATCTGCAATTGAGCAATGAAATCAAGTGACCATCTTTGCCATTCATAGCAATGTCGTTTCACAATATGAGATGTTCGATTGTTCAGTATTTCTTTGTTTTCTGAATATTACAGGCCCCTCTTTAATTCACGATGACGTATATTACCATGTGACTCATTTTTCTTTACTCATCTGCAGGTACCGTGGATTTTATCTTGGTCAAGATGTAGCTGTCAAGATATTAAGATCTGAAGATCTAAATGATGATTTAGAGGATGAATTCAATCAAGAAGTGGCAATTCTCAGGTAATTTTGATAGGTGATAAAATTACTTTTTTAAAAACAATTATATGTGAGTTTGGGGTATGAACTTAGGAACACTGTTTCCTATCATCATAAAAAAAGAAACCCCATAAGGATTACAGACAGAAAAATGTAAAATATTGATATATATCTTTCCAAAATTATCATACTGTAAGTTTAAGAATCCACTGATCATTTCTGCCAGAGGATGCCGTGTATTGATGGTAATCATTTTTATTGCTTATTTATGTCTTAGTTTTTCTTGCAAACTTCTACATCTGGATAGTTTATTTAGTTTAATCATGCAGAACATGTGCAAAGTTTCAGCTTGAAAGTGTACATGCTAAGAGATGCACATTTTTCACTTTGTGATCTCGCCGGTTGATATTATGAAATATCTTTCCTTTTGTTTTGATTCTATAGGAGATTATGTTTGGATATTTTACATATAGGGGGCCTTCAATTGAAAAGGAGGTCTAGAAATTAATGGCTGCTCAATTAATTAATCAGAAATGAACCTGCACTCCTGAAAGTGAAAGTACAAATATGATGTTCACCAATTTCCTTGCATCCAAACATTGTAATAGTTTAAAATATATTCGTATCAAAAGGATCTTCTGGCAGACAGTAATGTTGTTTAAGCTGCAGATTCAAAATCTTCAAGTTCCCGGAATTGTTTTGATGTTTCCCACTGCACATTTTCCCCGATCCATTGATAATGGTTTCCTTTTATTTATGAAGGGATAATTTCCAGAGTTTATGTTTTTCAATCAATTTGTTATAGGTGTATCTACCGCCATACATCCTTTGTGAAGGGATCTTAATTAATCTGAAATGCAGGAAGGTCCAGCATAAAAATGTAGTTCGTTTTATAGGTGCGTGTACAAACTCTCCACACTTGTGTATTGTAACAGGTACAGAAATCTCTACTCTAGTCTTCCTTATTTAATTTTCTGTCTTCTCTTTTTCCTTCATCAGTTCTTGGTTAGTTTCCTGTAGGATCTTCTTCTGTAGTTTACATACATATCTTGATAGATGTTTGCCTGCTTCAGACAAGAGTTGTGTGCAAATTAGCGAAATTCTGCACCAATAAGAAGATAGATAGTCACGTCAAGCTCTTTTAACTTCATGTTCTAGTGAAAGGTTTTGATGGAGGTCAACTTTGTTACCATAAATAGTTACTGTCCTCAGACACTTAGTTGGCTGTCGTCTGACCTTGGCTGGACATTATTTTTGGCCAATAGATACAACTACCAACTCTTCCTCATGCATTACTTGATGCAAAATTTCGTAATTTTTTTCTTCTAAAAAGCAAAAGAATTTGTTTTACAACAAAAGTTTGGCTTTTTGAAAAGGCAATAAATTCTTTTGTTTGTTTTAGGATGAAGATAAGCCTGTGAATAACATGTTTAAGAGGGATTGAAAAGGACTTGGTTGATGGTTGATCCATCGGAAATTTCAACTTATAATGTTTCTATTTGGGTGTCGGTGTCGATTGACGAGCCCCTTTTATAATTATTCGATACTTCATATTTGGTTAGGTTGGAGGCTCTTTCTCTAGGGTGCTCCTTTCTATGGGTTTTGTTTTTGTTTTGGTTTTTTTATACCTTTGTATTCTTTGATTCTTTTTTTTCAATGAAAGTTGGTCTTCTATAATAATAATAATAAAAAGGTTTTAGTTGATAAATGAAACATACGAAAGGGCAAAGCCCAAAAAGCTAAAAGAGTTACATAAAAGGTCTCTTGCTGGAAACTTGGAATGCTTATGGTAAGGGGATAGTTACAAAAGTATTAAGATGATGACTGCAAGAAAGACATGAAGATACGAGGTTCTCTTTAGATTTTGAGTTATTTAGTATGGGCTTGAGTGATTTAGTAGTGAGGCTATGTGAGGTAGGTTAGATTTTAGATTATTGAGTTTTCTATTGAGAGCCAACAATTTATTTATAAATAAGAAAGTGAAGGTGGTGAGGTGAGGTGAGAAAGGATTTATATATATATAAAATAGACTCATTCGAGGGATTGTAAAACTCCATTCAGGATTTTTGAGGAATCCAACCTCGTAATTGACTAACAGATCAGTTCAACGTAAAAATTCCCCCCCCCCCCCCCCCCCTTCTCTCCCGTTTCCCAATTTAACTTAAAAAGACAAATCTTGAACACCCACTGCCATAAATTTCCTAAGCCACTATTTGAATTCCATTATTATAGGAATCCACTGACCAACTAATTGGATTAAAGAAATAAAGAAAATACTCCATGAGTATGATGAAAGATGACAAATCGGTTTAGCAAAACTGAGTTTGGCATAGATGGTATCAAATAAAAGTAGTGTGTGGAGTAAGGATCACAATTTTGGAGGTGATTATATTTTTAGATCAAACGATATTGAGGAGGATATTCAGGGCAAAATGTGGGGGCAGTTTTGTTGCAATAATACGAATGTAGGGAAATTTTATTGCACTTCTATATCTCCATCTGTATTGATACCTGAAATGCCTAATTTGATTTGCATTTTGGATTGGAAATTGGTCATTAAATTCACTTTCTTCTGTAGTCCTGTTTGTTGGATTTATGTTCTATCTGTATTGTTCAAATAGAAATTTTAAATTTCGTTGTTTCTTGCAGAGTATATGCCAGGAGGGAGTCTTTATGATTACTTGCACAAGAATCATTGCGTGTTGAAGCTCTCTCAACTGCTGAAGTTTGCTATTGATGTTTGTGAAGGAATGGGATACTTACATTTAAATAACATTATCCATAGAGACTTGAAGACGGCAAATTGTGAGACACTCAGCATGTAAGATTAGAACATTATCTTACTGGAATTGGTTTTGTCAGCTTCTGAAGTGTAGTAGTGTAGATATCTTAAACGATTATTTTGATATCAAACTAGTTTTATATGAATTAGGTGTTGGAAGATAACAGAATGAAAATATATTTGAAAGTTGTTTTGGGGTTTGAAAGGAGTCATTCCAGCCCTTAGATAAAGGGAAAAAGAAAGAGGAGTAACCATACTGAAATAGCTATGCAAATGAGATATAACTCTAAACTCTAATGTGATCATTTAGTCCGTGAGATGTACTAATTCACTCTACCATTAACAATTAACAGTCACTGTTGCCCTGAGCTGACTGAAAAAGTAAATATATCAAGTGGTGTCATGTCTTACGAATATATGTGAAAGCATCTTCATGTATAACTGTTATCTTTGGATTTGGAGATGGCCAAGTCATATGATGAAAAAAACATTGCGTAGTTAGTCTCTAGTAAAGGTCACAGTAAGTCTCTTGTAAAGGTCACAGTACAAAAGAGATAAATAGGATTTCTCGTCAGGTATAGCTCTCATGGCCATGCTGCTGTTCTTTTGAATTGGTGTTTTGTACCTAATTAGATACATACGTGCGTGATGAACTTTTGTAGTAGTGGTTTACATTGCTGGGATCCTCTGGCTGTTTTGATCATTTCTCTAACTGTTGAAGCGGTTTTACACACTTATTATTACTTCAAAGTTGCCAATGTTGTATGGAATTTTGGAGCAGGATTTGCATGTGTTTCCCAAGTACGTTTGTATATTCTCTTGTTAAAAGATAGTACTGCCAACATATAAAGAGAGCTGAAATTAGGAGACTATTTTTGTCGATTACACTTCCACATACGTTCTTTATTATAAATTTTGTTCAGTAGTATATCTCAACTATTTCCTGTTGACTTAGCGAGTCTCATCTGTGGGTTTTGTATGCTTGCATTTTATGGAGAATCAATGCAGGCCAAGGATATTAGCCAAAAGTCCCCTAGTTATGTGCTTTTATGAGCTTGTACTAAAAATGATTTTAATCTACTTATGAGTAAAAGACGTATTCTTTTTGCGTTCAAGGTTGTAAAGGTGGCAGATTTTGGAGTTGCACGATACCAGAGTCAAGGAGTAATGACAGCAGAAACTGGAACATACAGATGGATGGCACCTGAGGTGATAAATCTGTTGGAGGATATTGGCAAATTACCATGCTGACTTGCTTAATTTATGAATTTAGAGATTGTATTTTAGAGTATTGGCAGCATTTCAATTTGACTTAATCTTTTTGCCTTGATTTTACTTTTCATCTCAAGGTAAATAATCATCTGCCATATGATCAGAAAGCAGATGTTTTCAGTTTTGCTATTGTGCTGTGGGAACTAGTAACAGCAAAGGTACATCTTAAGCCGACTACAATGCTACATTCTTTTTTTTCCTTTTGTTTTGCTTGCTTGTATTTCAGGGCAGCTATTGTTGAGCAGTATTGTATATAAGATGATTGCATATCTTTATCATTATTTTGTTAATTTCTTAATAGTTATAGGATAATCACTAGATGTGTGTGATCATTCTTTTCACCCAAGCTTTTGGCATCTCAGGTTCCTTATGATTCCATGACACCATTACAAGCCGCCCTTGGAGTAAGACAGGTTTGTGTGTCCTAGTTTTTGGTGCATTACTATTTATTATTATTTTTCAAAAATTAAGAAACTGAGCTTTCATTGAAAGAAATGAAAGAATGTACAAGGCATAAGAAAAAACCCACAAAAAGGGAGAATCCAAGAAATTACCAAAAAGGGACTCCAATCCAACAAAATTAAAATAAGGTCATAGCCACAAAAGGCCTAGTGACCGATGCCCACACTGAACCTTACCACCTCCCAAACCTCATCACATGACCACTCCACCTCTCTCTAAAATTCTTATTGTTGGCCAAACTTTCCATAAAATGGTAAAGAAGTTAGGTTGCCACCAAAAACTGTCCCTCTAAAATGAGTACCCAAGAGCACCTCTTCAATAGTGTACCCATTGCCATTCCCAGCCAAAGACAAGCTAAACATGTATGAGAAGACCAATTTTTTTCTTCCCATCTGTAGCCCTATGGACCAATGATAAATGAGGGAACTTGACGTAGCTGCTGTTGAATAAAATTTAAATAAAGGGCATTATAAGTTCATTCATTCTTCAGCGATTCAAAGAGCATTTCATTTTTGGAATCAAGTTACACAACATAGTTTTTTTATTATTTTTTCTTTTTTTGATTTTGTCTTGCGAAAATTGTTTTTTTAATTGTCTGAATATTCAAAAACTAAGACCATTCCAATGCTCCCTTCCGGATAACCTAAAACGTGTAGGCCTACCGAGAGGGTACTTTCTAATCGTATTCGGTGAACGTTGTTCTTTTGGAAAAAGAAAATTCTATTTAAGTTTTGGATATTTAAATTTTTTATTAACTGATCCTTTTGAATGCATCTCAGTAGGATTAAAAGAAAAAAATAAAGAATGAAAAAAGAAGCTTATGCTTATGATACATGAATGGGAATTCAAAGTGTAGCAACTAAAACTAAGATTCAATACAGTTAGTGAATGGAAAGATGGGGGCAATCGATAAAGGTTGCTGTTAAGTATAAAAAAACAACATCAATATAAATAGGATGAATTGAGTATATTTAGAAGAATGCTCCGGTTGCTGTTTGTTTTACTTTTCTTTAGGATTCCTCATGTGTTTAGTATCAAGGAGTCCAAAGCATTGCTTTATTTCCCCTTTAGGGACTTGGCAGAACACAGTATTCAAGGGTTAGACTTCATTAATCTTTTTCAGGGACTACGTCCAGATCTTCCCAAAAACGTTCACCCCAAATTGTTGGATTTGATGCAAAGATGTTGGGATGCAGAACCTGTAAATCGGCCTCCATTTACCGAGATAAAAGTTGAACTCGAAAATCTCCTCGAAGAAGTTGAGGTATACTCTTCCCCGTCTTTACAACCTTATGGATAA ATGGCGGATATGGATTTCGTTGAGGGCGTTGGAGAGAGTTCTTCGCCGCCTCGAAGCTTTGGTGGCTTCTGTGCTGTCCACGATGTTCGGAACGATGTTTATACTCGGTTAGTTGAGTGTGGACATGAAGAGGCCGTTTCTAATCCCCAATTTCGCGAGAACTTGGATGCTCACTTCAATCGCTTGCCTCCGAGTTATGGACTTGATGTTAACATGGAGAAGGTGGAAGATGTTTTGTTACATCAAAAGCTTCTTTTCCTAGCAAAGGATCCAGAGAAGTGCCCTGTTTACCACATTCGTTTTCTGGAGCACATAAGTACTAAGTCAGATGGCAATGATGATCACGTTTTTCTTGATAGTATTCTTTTAAGTGGTTCATCTAATGAAGCAGCTGATGGAAAACTTCCACTATCACACAAGAGAACTCGAGGAAATATAATTGACTTTGAGCCTTGTTCCAAGCTTGAGGACTTAAATTTGGATGTTAGAAAAAACTCAAAGGCCGTGGATAGGAGGGTGGGTAATATTGCACATGTTCTGATACACGAAGTGATATTTTCAACGATTGACAAGCCAAAGCTTCTTAGCCAGCTTTCTGCTTTGCTTTCTGATATAGGACTTAACATTCGGGAAGCACATGTGTTTTCAACATCTGATGGTTACTCCTTGGATGTATTTGTGGTGGATGGATGGCCTGTTGAGGAAACTGATGGCTTGTACGAAGCTATGGAAAAAGCAGTGGCTAGATATGAGGGATCGTGGTCTGGTTCTTCACATTCTCATCCGGCAGTCAAGAAAACATTAGATGCCCAGGAAAAATCAGCAGATTGGGAAATAGACAGACGGTTACTGAAGATAGGTGAAAGAATTGCATCTGGATCTTGTGGTGATTTGTACCGTGGATTTTATCTTGGTCAAGATGTAGCTGTCAAGATATTAAGATCTGAAGATCTAAATGATGATTTAGAGGATGAATTCAATCAAGAAGTGGCAATTCTCAGAGGATGCCGTGTATTGATGGTGTATCTACCGCCATACATCCTTTGTGAAGGGATCTTAATTAATCTGAAATGCAGGAAGGTCCAGCATAAAAATGTAGTTCGTTTTATAGGTGCGTGTACAAACTCTCCACACTTGTGTATTGTAACAGAGTATATGCCAGGAGGGAGTCTTTATGATTACTTGCACAAGAATCATTGCGTGTTGAAGCTCTCTCAACTGCTGAAGTTTGCTATTGATGTTTGTGAAGGAATGGGATACTTACATTTAAATAACATTATCCATAGAGACTTGAAGACGGCAAATTGTGAGACACTCAGCATTAGTGGTTTACATTGCTGGGATCCTCTGGCTGTTTTGATCATTTCTCTAACTGTTGAAGCGGTTTTACACACTTATTATTACTTCAAAGTTGCCAATGTTGTATGGAATTTTGGAGCAGGATTTGCATGTGTTTCCCAAGTTGTAAAGGTGGCAGATTTTGGAGTTGCACGATACCAGAGTCAAGGAGTAATGACAGCAGAAACTGGAACATACAGATGGATGGCACCTGAGGTAAATAATCATCTGCCATATGATCAGAAAGCAGATGTTTTCAGTTTTGCTATTGTGCTGTGGGAACTAGTAACAGCAAAGGTTCCTTATGATTCCATGACACCATTACAAGCCGCCCTTGGAGTAAGACAGGGACTACGTCCAGATCTTCCCAAAAACGTTCACCCCAAATTGTTGGATTTGATGCAAAGATGTTGGGATGCAGAACCTGTAAATCGGCCTCCATTTACCGAGATAAAAGTTGAACTCGAAAATCTCCTCGAAGAAGTTGAGGTATACTCTTCCCCGTCTTTACAACCTTATGGATAA ATGGCGGATATGGATTTCGTTGAGGGCGTTGGAGAGAGTTCTTCGCCGCCTCGAAGCTTTGGTGGCTTCTGTGCTGTCCACGATGTTCGGAACGATGTTTATACTCGGTTAGTTGAGTGTGGACATGAAGAGGCCGTTTCTAATCCCCAATTTCGCGAGAACTTGGATGCTCACTTCAATCGCTTGCCTCCGAGTTATGGACTTGATGTTAACATGGAGAAGGTGGAAGATGTTTTGTTACATCAAAAGCTTCTTTTCCTAGCAAAGGATCCAGAGAAGTGCCCTGTTTACCACATTCGTTTTCTGGAGCACATAAGTACTAAGTCAGATGGCAATGATGATCACGTTTTTCTTGATAGTATTCTTTTAAGTGGTTCATCTAATGAAGCAGCTGATGGAAAACTTCCACTATCACACAAGAGAACTCGAGGAAATATAATTGACTTTGAGCCTTGTTCCAAGCTTGAGGACTTAAATTTGGATGTTAGAAAAAACTCAAAGGCCGTGGATAGGAGGGTGGGTAATATTGCACATGTTCTGATACACGAAGTGATATTTTCAACGATTGACAAGCCAAAGCTTCTTAGCCAGCTTTCTGCTTTGCTTTCTGATATAGGACTTAACATTCGGGAAGCACATGTGTTTTCAACATCTGATGGTTACTCCTTGGATGTATTTGTGGTGGATGGATGGCCTGTTGAGGAAACTGATGGCTTGTACGAAGCTATGGAAAAAGCAGTGGCTAGATATGAGGGATCGTGGTCTGGTTCTTCACATTCTCATCCGGCAGTCAAGAAAACATTAGATGCCCAGGAAAAATCAGCAGATTGGGAAATAGACAGACGGTTACTGAAGATAGGTGAAAGAATTGCATCTGGATCTTGTGGTGATTTGTACCGTGGATTTTATCTTGGTCAAGATGTAGCTGTCAAGATATTAAGATCTGAAGATCTAAATGATGATTTAGAGGATGAATTCAATCAAGAAGTGGCAATTCTCAGAGGATGCCGTGTATTGATGGTGTATCTACCGCCATACATCCTTTGTGAAGGGATCTTAATTAATCTGAAATGCAGGAAGGTCCAGCATAAAAATGTAGTTCGTTTTATAGGTGCGTGTACAAACTCTCCACACTTGTGTATTGTAACAGAGTATATGCCAGGAGGGAGTCTTTATGATTACTTGCACAAGAATCATTGCGTGTTGAAGCTCTCTCAACTGCTGAAGTTTGCTATTGATGTTTGTGAAGGAATGGGATACTTACATTTAAATAACATTATCCATAGAGACTTGAAGACGGCAAATTGTGAGACACTCAGCATTAGTGGTTTACATTGCTGGGATCCTCTGGCTGTTTTGATCATTTCTCTAACTGTTGAAGCGGTTTTACACACTTATTATTACTTCAAAGTTGCCAATGTTGTATGGAATTTTGGAGCAGGATTTGCATGTGTTTCCCAAGTTGTAAAGGTGGCAGATTTTGGAGTTGCACGATACCAGAGTCAAGGAGTAATGACAGCAGAAACTGGAACATACAGATGGATGGCACCTGAGGTAAATAATCATCTGCCATATGATCAGAAAGCAGATGTTTTCAGTTTTGCTATTGTGCTGTGGGAACTAGTAACAGCAAAGGTTCCTTATGATTCCATGACACCATTACAAGCCGCCCTTGGAGTAAGACAGGGACTACGTCCAGATCTTCCCAAAAACGTTCACCCCAAATTGTTGGATTTGATGCAAAGATGTTGGGATGCAGAACCTGTAAATCGGCCTCCATTTACCGAGATAAAAGTTGAACTCGAAAATCTCCTCGAAGAAGTTGAGGTATACTCTTCCCCGTCTTTACAACCTTATGGATAA MADMDFVEGVGESSSPPRSFGGFCAVHDVRNDVYTRLVECGHEEAVSNPQFRENLDAHFNRLPPSYGLDVNMEKVEDVLLHQKLLFLAKDPEKCPVYHIRFLEHISTKSDGNDDHVFLDSILLSGSSNEAADGKLPLSHKRTRGNIIDFEPCSKLEDLNLDVRKNSKAVDRRVGNIAHVLIHEVIFSTIDKPKLLSQLSALLSDIGLNIREAHVFSTSDGYSLDVFVVDGWPVEETDGLYEAMEKAVARYEGSWSGSSHSHPAVKKTLDAQEKSADWEIDRRLLKIGERIASGSCGDLYRGFYLGQDVAVKILRSEDLNDDLEDEFNQEVAILRGCRVLMVYLPPYILCEGILINLKCRKVQHKNVVRFIGACTNSPHLCIVTEYMPGGSLYDYLHKNHCVLKLSQLLKFAIDVCEGMGYLHLNNIIHRDLKTANCETLSISGLHCWDPLAVLIISLTVEAVLHTYYYFKVANVVWNFGAGFACVSQVVKVADFGVARYQSQGVMTAETGTYRWMAPEVNNHLPYDQKADVFSFAIVLWELVTAKVPYDSMTPLQAALGVRQGLRPDLPKNVHPKLLDLMQRCWDAEPVNRPPFTEIKVELENLLEEVEVYSSPSLQPYG Homology
BLAST of HG10004019 vs. NCBI nr
Match: XP_038884573.1 (serine/threonine-protein kinase STY8-like [Benincasa hispida]) HSP 1 Score: 1013.4 bits (2619), Expect = 8.1e-292 Identity = 510/610 (83.61%), Postives = 525/610 (86.07%), Query Frame = 0
BLAST of HG10004019 vs. NCBI nr
Match: XP_008441530.2 (PREDICTED: serine/threonine-protein kinase STY8-like [Cucumis melo]) HSP 1 Score: 1006.5 bits (2601), Expect = 9.9e-290 Identity = 509/611 (83.31%), Postives = 523/611 (85.60%), Query Frame = 0
BLAST of HG10004019 vs. NCBI nr
Match: TYK11024.1 (serine/threonine-protein kinase STY8-like [Cucumis melo var. makuwa]) HSP 1 Score: 1006.5 bits (2601), Expect = 9.9e-290 Identity = 509/611 (83.31%), Postives = 523/611 (85.60%), Query Frame = 0
BLAST of HG10004019 vs. NCBI nr
Match: XP_004141017.2 (serine/threonine-protein kinase STY8 isoform X1 [Cucumis sativus]) HSP 1 Score: 996.5 bits (2575), Expect = 1.0e-286 Identity = 503/611 (82.32%), Postives = 519/611 (84.94%), Query Frame = 0
BLAST of HG10004019 vs. NCBI nr
Match: XP_023550618.1 (serine/threonine-protein kinase STY8-like isoform X1 [Cucurbita pepo subsp. pepo]) HSP 1 Score: 984.2 bits (2543), Expect = 5.2e-283 Identity = 501/623 (80.42%), Postives = 521/623 (83.63%), Query Frame = 0
BLAST of HG10004019 vs. ExPASy Swiss-Prot
Match: F4JTP5 (Serine/threonine-protein kinase STY46 OS=Arabidopsis thaliana OX=3702 GN=STY46 PE=1 SV=1) HSP 1 Score: 454.1 bits (1167), Expect = 2.5e-126 Identity = 268/596 (44.97%), Postives = 350/596 (58.72%), Query Frame = 0
BLAST of HG10004019 vs. ExPASy Swiss-Prot
Match: Q8RWL6 (Serine/threonine-protein kinase STY17 OS=Arabidopsis thaliana OX=3702 GN=STY17 PE=1 SV=1) HSP 1 Score: 449.1 bits (1154), Expect = 8.0e-125 Identity = 259/594 (43.60%), Postives = 359/594 (60.44%), Query Frame = 0
BLAST of HG10004019 vs. ExPASy Swiss-Prot
Match: O22558 (Serine/threonine-protein kinase STY8 OS=Arabidopsis thaliana OX=3702 GN=STY8 PE=1 SV=2) HSP 1 Score: 449.1 bits (1154), Expect = 8.0e-125 Identity = 267/596 (44.80%), Postives = 347/596 (58.22%), Query Frame = 0
BLAST of HG10004019 vs. ExPASy Swiss-Prot
Match: Q9ZQ31 (Serine/threonine-protein kinase STY13 OS=Arabidopsis thaliana OX=3702 GN=STY13 PE=1 SV=2) HSP 1 Score: 216.1 bits (549), Expect = 1.1e-54 Identity = 134/341 (39.30%), Postives = 178/341 (52.20%), Query Frame = 0
BLAST of HG10004019 vs. ExPASy Swiss-Prot
Match: Q2MHE4 (Serine/threonine/tyrosine-protein kinase HT1 OS=Arabidopsis thaliana OX=3702 GN=HT1 PE=1 SV=1) HSP 1 Score: 190.3 bits (482), Expect = 6.7e-47 Identity = 130/377 (34.48%), Postives = 177/377 (46.95%), Query Frame = 0
BLAST of HG10004019 vs. ExPASy TrEMBL
Match: A0A5D3CIL7 (Serine/threonine-protein kinase STY8-like OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold874G00760 PE=4 SV=1) HSP 1 Score: 1006.5 bits (2601), Expect = 4.8e-290 Identity = 509/611 (83.31%), Postives = 523/611 (85.60%), Query Frame = 0
BLAST of HG10004019 vs. ExPASy TrEMBL
Match: A0A1S3B3P5 (serine/threonine-protein kinase STY8-like OS=Cucumis melo OX=3656 GN=LOC103485631 PE=4 SV=1) HSP 1 Score: 1006.5 bits (2601), Expect = 4.8e-290 Identity = 509/611 (83.31%), Postives = 523/611 (85.60%), Query Frame = 0
BLAST of HG10004019 vs. ExPASy TrEMBL
Match: A0A0A0KBD0 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_6G058190 PE=4 SV=1) HSP 1 Score: 996.5 bits (2575), Expect = 4.9e-287 Identity = 503/611 (82.32%), Postives = 519/611 (84.94%), Query Frame = 0
BLAST of HG10004019 vs. ExPASy TrEMBL
Match: A0A6J1JZP0 (serine/threonine-protein kinase STY8-like isoform X1 OS=Cucurbita maxima OX=3661 GN=LOC111489741 PE=4 SV=1) HSP 1 Score: 982.6 bits (2539), Expect = 7.4e-283 Identity = 501/623 (80.42%), Postives = 522/623 (83.79%), Query Frame = 0
BLAST of HG10004019 vs. ExPASy TrEMBL
Match: A0A6J1FM34 (serine/threonine-protein kinase STY8-like isoform X1 OS=Cucurbita moschata OX=3662 GN=LOC111445204 PE=4 SV=1) HSP 1 Score: 978.0 bits (2527), Expect = 1.8e-281 Identity = 498/623 (79.94%), Postives = 521/623 (83.63%), Query Frame = 0
BLAST of HG10004019 vs. TAIR 10
Match: AT4G38470.1 (ACT-like protein tyrosine kinase family protein ) HSP 1 Score: 454.1 bits (1167), Expect = 1.8e-127 Identity = 268/596 (44.97%), Postives = 350/596 (58.72%), Query Frame = 0
BLAST of HG10004019 vs. TAIR 10
Match: AT2G17700.1 (ACT-like protein tyrosine kinase family protein ) HSP 1 Score: 449.1 bits (1154), Expect = 5.7e-126 Identity = 267/596 (44.80%), Postives = 347/596 (58.22%), Query Frame = 0
BLAST of HG10004019 vs. TAIR 10
Match: AT4G35780.1 (ACT-like protein tyrosine kinase family protein ) HSP 1 Score: 449.1 bits (1154), Expect = 5.7e-126 Identity = 259/594 (43.60%), Postives = 359/594 (60.44%), Query Frame = 0
BLAST of HG10004019 vs. TAIR 10
Match: AT4G31170.1 (Protein kinase superfamily protein ) HSP 1 Score: 220.3 bits (560), Expect = 4.3e-57 Identity = 137/342 (40.06%), Postives = 178/342 (52.05%), Query Frame = 0
BLAST of HG10004019 vs. TAIR 10
Match: AT4G31170.2 (Protein kinase superfamily protein ) HSP 1 Score: 220.3 bits (560), Expect = 4.3e-57 Identity = 137/342 (40.06%), Postives = 178/342 (52.05%), 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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