![](http://cucurbitgenomics.org/sites/default/files/styles/slideshow/public/carousel/101322_web.jpg?itok=EG-G51x6)
HG10018143 (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.ATGGAAGAACCCCCCAGTGGGAATGGCAATGTCGATTCGGCATCAGCAAAAGCAGAGACCGAGGACGAGACCGCCATCGGCCCCGGTCCGGCCCCTCGCTCGCGACCCAAACGCCCCCTCCAGTTTGAGCAGGCCTATCTCGATACCATCCCCTCTGCTAACATGTATTTCTTTCTTTCTTTCTTTCTTTCTTTAATTCTCTCTAGCTTCAGAGCTGTCCAAAACTTGTCGTCTTAATCTTTTTCTGTTAATTATAGGGTACTTTCATTACTGATATGCAAAGTTATGGAAAGTTTAGGTACTGGGATCATTTAGTTAGCTAAATTTGGATGAGAATTGAATATGGGGTTGTGGGTATCTGAAATTACATTTGGGTTTTTGTGGTTACTGCGATGGCTATTATACTAGTGAACTATGTGGAGTAGGCTCTTGCAATGTTGCTACCTATTTATCGACTTTATAGGACATGAAGGGTTATTGAATTGTTAACTGGGACTGATATTTATTGTCAGAGAAATTGGATGGTAGATTATTCTTCACCCATTCTTATTTTTCCTTTAACAGGTATGAGAAAAGTTACATGCACCGTGATGTGGTTACTCATGTTGCTGTGTCTTCTGCAGACTTTTTTATAACTGGGAGCGATGATGGTAAAATTCTAATCACGTTATCTCTTAAGATAGCTAATTTAGGTTTCTTAGATACTTGCGCTCGTGTATGTTTTGTGTTTGTTGTGACTATCATTGAACGATTAGATTATTGATATGTTGTTAGGACAGAAATGTTAGACTCTGTGTAGAATTTCTTTCCAAAATAGTAAAAGAGTGTTGCTGATGAAAAAGAGCAAACAACAGCACATGAATTGATGAAAAGTTGAAAGGATGAGTAGAGCAAAGTTGGATCATGCAACATAACATATAGATGGATAGAGGAGAGAACATTGATTAAGTTCTTAGTTAGTAATAGCGTTGAAGGAACTTTGTTTATTGAATTTATTGGTGCTTCATAATCCTCTGGAAGTGTAGATAAAAATGTTTCATTTATTTTATATACTTGTGGAGTGTATTGGGAAACAAATATTATTCACATTGTTATTGGCAGTTCATTAGCAAATATTATGGTGGGTAATTTTGTGTAGTCTTTGTGGGGGAAAGGAAGAGATTTTTTTAGGGGATTGAGAGACGTTGAAGCGAGGTATGGTCCCTTGTTAGATTTCATACTTTTCTTTGAGACTCTGTTTGTAAAGCTTTTTGTAATTACCCTTTAGGATTTATTTTGCTTGATTGGAGGCCCTTTTAGGCCAATTAGGACTCCTCATTGGGGTGGTTTTTTTTTTTATTCCCCTTGTATCTTTTCATTTGTTCTCAACGAAAGTGTGGCTTTTCATTAAAAGAAAAGCAAATATTATGGTGAGTAAAAATGTTTATCTTTAAAGGGTGTACATTTAAAAAGTTAAACACATAGGCACGATTTTTTAATTTTCCGAACATGTTCTTATTTGACCTCTTCATTAGGGAGCCTCCTAGAAACTAAACCACCACATTTGGCTTGGACACCATGTGTTGGTTATTGCTTAGACATGATGTTAGAGAATATGTTCTTTCATTTTATCTCAACAAAAGTTTGATATTTTACCCAGTAAAAAAAATTTAAAAAAAAAGAACATGTTCAAGATCTCAATTATTGGAATGGAATATACAATTAAGATCAGATGGTAGTGCATGAGAATATTCATCATTCAGCTGCAGAAACAATGGGTTATCATCATCACACTTTCAAGACCTCAAATATTATGAAAACATTGAAAAGGGATATGGGGATTTTGGTTAGAATTATAATTGTCTAAGTGTGTTGAATACAGTGAGATATTTCCTTGATTTGAAGGAGTTGGTTGTACCTATTTGATGTATCTTATATGCTTTATAATTGTTTTAAGTCCTTTTATTTTAATACTGTAATTTGGTTACCTTTAATAACCAATTATTTAGTTAGTTAGTTAGTTAGCTAGCTTAAGTTGTATTCCTTGCCTATAAATAGAGGCTGGATCTCTTGTTTTAAATATAATAAAAATACTGATTCTTCAAATTCCTTTAGTTTACACACCAAATTGGTATCAAAGACAGAAAGATCTGAATCTGATGGCGGGAAAAAAGCCTACTAACGACAATAATCCTTAGGCTTTGGAAAAAGAAGCTTCATGTGCTGCCCTATCACCAAGAACTTTGACCAGACGCGTGCAGTCCGTTGAAGCATCTCTAGTCCGTTGAAGCATCTCTTGATGGTATTCACAGGATTTTGGAAAGGATGTCAACCTGGATGGAAGAAATAGCTAATAACGTCGCATCGGGTCATCAACCAAGAGAACAAGAAAATCAACCAAGAAACAATGACCAGCCCCAAGATCGTCAGAATATGAATTTTCAGCAACAAATTCAACCAAGAAACATTCAAGATCCACCAGTAGTCATCCAAGAAAGGCCAAGAATGCAAGCATATCACCAAAGACATCACCAAAACAACGATTCATCGAGTGAAGAAGAAGAGAATGAAATTTAGATAGAACGTTGGAGAGTGGGGAATTATCAGCATCGTTACCATCAACCGGCTGGGGAAATGAATGAATATAGAGTCAAATTAGATATCCCAACTTTTAATGGAAAAAGAGACATAGAAGTTTTCTTGGAATGGTTAAAAAATGTAGAAGGATTCTTTAAGTATGCCAACACTCCAAATCATAAGAAGGTACAACTAGTAGCCCTCAAATTTCGAGGGGGAGCTTCGGCCTGGTGGGAGCAAGTTGAGGTAAATTGATTAAGAAGTGGAAAAAACCCCATCACAAGTTGGGAAAGATTGAAACGCATGATGAAAGAAAGATTCTTGCCAAACCTGTCTGAAAGTAAACATCACCTAATCACAAGATTCATAGGCGGCCTTCGTATGGAAATTTGAGATAAGGTAAAACTCCAACCATTAGGATTTCTTGCTGATGTGATTTCTTTGACAGAAACAAATGAAGAAATGAGTGAAACTCAATCAAAGAGATTCATTAAAAGAAACCAATTGGAAACTTCACCAAATACGGATCAAGCCGGGAGACGAATGGAAAATTGCCTTCAAAACAAATGAAGGACTATTCGAATGGCAGATTCAAATTCCTTTGGTTTACACACCACTATTAGGACTTGATTTGCCATTGCTCTTATGATTTTGTCCAGCTTCCATCGAAAAGAAACAGCTTGAGAAAGATATTCATTTCAAATTAATGAAATAATAGCCCGTGGAGCTAGGAGCAACAAGACAAGTGAGTAGTTCAAAGTGTGGCGGTGCCTACTTTTTGAGCTGCAATTGTGTTTGCTCTTAAGGTTTTGAGCCCTGTGATTTGAGTTCTTAGATTGGAGGGTGGCAGGGTTTTATTTATTTATTTTCTTTTTTAATAAAAAAATCTAATATTATTATTATTATCATAGACCATTAGGAAAAAGAAGGTAGGGGAAAGTAATATCACTCATTCGATTAGCAGTAGCTAGGAGATTTCCTAGCCTGTGGAGGGTACTAGACTTCTCAACATTTTTGAGATTGTATCCATTTTATTTTATTTTAATACAATCTAGATTGCCATGACTTGGTGACATTGGTGTCTTCAAACTGAAACATCCTTAAGTTGCAGATTCAATTTAACTTTCTATTCAGCAAGATTGATTGTTTTTTTTATTCTGTTATTTTTTTAATGATGATGATAATACATATGTACGAGAATGTATGAGAAGATCGCTCCATGGACTTCATTGACTTATGAAGACCTACAACAGTCGATGATTTTGACTTGTTCTGATTGATTGTTTTAGAAAGATGGTATATTTCATCTAATGTTAGTAAATAATGCATTGTATGTATGGCAAAGTTACTATTCCAAGAAGTGGGCAGGCTAACAATGTACCATAAACTTATAAATTTTTAGCAATTTTTGTGTTGCTTATGGAATAAGTTTTTCCATTAGCCTAAATAGTTCAGTTCAACAAATCTCCCTCAAACTAGTGGGCAAAGAAGTGACGAACCGAACATGAGCACTTTGGTTTAAGTCTTGAGGAGCGAAAGTAGTGGATTTGTGCCTCCCTCAAGTTGGGATGGCCAGAAAGAGGATTAAAGAAGGATTTACAACTAAAAATCTCAGAAGAATTGACCTTCCAATTTTTAGAATCTGGACAGCGGCCAAGAGAAACACCATGAAAAGCAATGGGAGATTAGCCCATTCTACCCATTCAGCAATAGTAAAAGGCCTTCTGAAACCTAAATTCCAGCCTTGGTTAGCTTCAGATCAGCAATGGAAAATAGAGGTCTTGGTTGATTGGCTATTTATTTTTGTATAAAAAAGCTTGGTTGTTAGCTGGCGGTAGCTTAGATCTTGTGAGTTGGTTACCAATACCATTACAGCAACAAATAACCTATAAATGAGACCTTTAGGTTGTAGTTATCATTATTTTTCAGTTTAACTTCAATAACCCCTTAAACTTTGTTCTTCTCTGCACCCAAATATGGCCTTGATCAGTTTCTCCCGCAAAAGACAGGCCTCCTGTTACAACTCTACTGGGATTTTTTCTAAACAAAATCTAAGATCTTCTTGTGCAATGACATGGCAGCTTTTTGGATGATTTGGTTAGAAAATGGTCTGGATTTTATAAGAAGAAGCTGGTGCAAGTGAAACATATTTACAAGATTTATTTTCTTTTGCGTGTCTAAATCCAGCTTTATGTAATGTTCTCTGTACTCTTCTTTAGTTTATGTTTACTGGAGAGTTTCTCTGCCTCTCAATTATTTTTTACTAGGAAACAAACTAATGTATTTACCAAAAAGAGAGGATGTACAGGAAAGAAGAGGATGCATTTTTTCTTCATGTTTTTTTTTCTATTCCTCTCTTTTTAGTTTGCTGATAATTATCACATTAAGGTAAACTATAGCCTCTTTCTTTTCATTCATTAATGAAAAGTTTGTTTGTTTTGTTTTTTTTTTCCTGCTGTTTTCTTAAGGAATAAAGTGGATAAATCGTAACCACTGAACCCCAGAGAGTTGCTTCTTTATGCCACTGCGATAACTTAACGATTTCTTCCATTATTTCTTCTTCTCTCTCTCTCTCCCTGCCCCCAACCCGATGCAGGGCATCTCAAGTTTTGGAAGAAAAAGCCTATTGGTATTGAGTTTGCCAAGCATTTCAGATCTCACCTTGGTCCTATTGAAGGCATAGCTGTGAGTTATTTTCTTGCTTCAAATTCTTTTTCTGAGTAATGATCTCCAACCATTATCAGTCGCATAATTTGTTCCAGTTTTGCAGGTTAGCGTTGATGGTCTGCTTTGTTGTACAATATCAAATGATCATTCTGTAAAGATATATGACGTCGTTAATTATGATATGATGGTCATGATACGGCTTCCTTTTATTCCTGGTGCGGCTGAATGGGTCTATAAACAAGGGGATGTGAAAGCCAAGCTGGCTATCAGTGATCGGAACTCATCATTTGTGCACATATATGATGCACGATCCGGTTCAAATGAACCTATTGCCTCTCGAGAGGTTAGATTGCATCTTTAAGCATCATTGAAATAACTGTCACTCTTTATTACACGTAGGGTGCACCTTTTCTTTTGGGGCATGACTCCCCAGTCCCAACTACTATTTTGTTTTATATTTCTTTCAGGTACACTTGGGGCCAGTAAAGGTTATGAAGTACAATCATGTATTTGATTCAGTTATATCTGCTGATGCCATGGGACTTATTGAATATTGGACTCCTGACACACTCCAGTTTCCTGAAAATGAGTACGTTCTTTTTCATGGATTTTGATTTTTGATATTCTATGGAATTGGAAGCTACATGGTTTTTATTTTTATTTATGTTTATGATATAAGAACATTTTATTATGTATATATTTTAGTTTAGTTATACATGATACACAAATGGTTATATAGACGGTTATCTAATGTCATGGAAAAGGTCCCTTCCATGGTATGAACTCAAGAGTTCATTCATAGAAGAAGCTGCTAGAAAAATACAGAGCATTGGCCAGAAAAAAAGAAGAAAGGAAACCTGATTAGGCGGTAGAATAATATGACCAAAGTGTGTTTGATGCTCTTCTTTCCTTCTGCATTTTACCGCTACACTTCTCTGATTGACCTCCCTTTATCCACTACCTTTCTCTTTGTTCCTTGATCATTCGCTTCCACCCTTCACACCTGAAGAAGGAAATAAAAGAATTAGAAAGCCATCATAATTCATACCCGAAATATTACATGGAACACTAGGAACAATTACTCAATATATAATTGTGGCTGAGCTTGTGATTCTTGTTTGAGATCTAGCACTTCATCTACCCTAGGAATCTGTGACGGTTTTCACCTTGAAGTGAAATGTCTACTGTTGTTGCTTTTGAAGGGATAAATTATCTTAATAGGAAAGGGACTTGTCAATTTCATCAATAGCAATCTACACTCCTTAAATGAAGCATTTGTCTACCTACAGGTTCATTTTGAGTTAAATAGGATCCCGTGCTCTGTTAATTGTAACTTCATGGTCACAGTAGTCTAATAGGTGTTTGTTTTTCCTTGTACCTTTTAGTTATTCTCAGTGTTTTGTAAAGCTTGAGGCGCACTAAGGCACAATGGCTATTTGGGACTTAAGCGCAAGGCGCAAGAAAAGAGTGAGCTTTTTTTATTAATGAGACACACTATCTATAAAAGAACATAAAAAAATATAGATACATGTATATGTACACAACAAGAAACATTAAAAAAAAGAAAAATCATGGTAAGAAGTGAGGTTTTAAGAAAGAAAAATATATAGAAGATAAACAAGTGAAGAAGTGAAGAGGAAGGAGAAGATCTAAGGAGAAATCCTTTAATGTTTTCTATTTTATTTTAACCCTAAATTCAGATTAGGGTTAAAAAATATATTTTTATTATTAATCTGTTAAATAATAACCCATTTAGGGTTAATAGGTTAAAAAAAAAATTAAAAAATCCTGGGAAGGTGTGTGAAGTGTGTGCCTTGGCTGTGCCCTCCTAACAACGCCTCGCTTCTTCAATGTGAGACACTGCAGTTGTGCCACAGTCGACTTTCAAAACACTAGCTATTAGCCTGTTCCAGAATCCTCGTTTATTTTGTCACATCTTTTTAGTTTCTCTCTCCTTTCATTATTTGAATGGAAAATCCAGCGGTCTGGAGGTTAGTTAACAGTTATTTTTATCATTGCTGAAATTTTGTATTTTTTGACTTTTTGAATTTCATGTATATGTAATCGTGTTCTGTCTGGCTTTTGCAGTGTCAATTTTAAATTCAAAAGTGACACCAATCTTTTCGAAATAGTGAAATGCAAGGCAACTGTTTCTGCTATAGAGGTAATGTATAGGTTTTAGTCTGTACATATAAATATCTATTCCACTGAAGTAGGTATCAACAGGAATGTGCGTGATGGGAATCATTGTTTCATTATTCTTCAGGTCAGCCCAGATGGTAAACAGTTTTCAATTACATCACCTGATCGGAGAATACGTGTATTTTGGTATCGCACGGGTAAACTAAGACGAGTTTATGATGAATCTCTAGAGGTAATTTTAAGGTAACAGTGAGCTTTTCTGTAATAACCTTGGTGTGATACATTTCTGATATTTTTAGTCTTTCATTAATTAGGTTGCCCAAGATCTGCAAAGAAGTGATGCACCGTTATACCGACTGGAAGCAATTGATTTTGGGAGGAGAATGGCTGTTGAGAAGGAAATTGAGAAGACAGAAAGTGCTCCACAACCAAATGCTGTATTTGACGAGAGCTCTAATTTTCTAATCTATGCGACTCTTCTTGGAATAAAAGTAAGATGCCAATGTTGGGTAAAGTGATGTCCGCAATTCTTTTACCACCAGTTATCGTTCTCAATTTTGCCTCCAAAAGAACTAGCTAAATACCTAATAACTAAGAGTCTATGCCAAAATACAAGTTCTATTGATGATAGGGAGCAGATGAATGTGTATAAATTTGATCTCCTAAAAGGGTACCACTCTTTATTAGGTAGTAAACTTGCACACAAACAAAGTTGCACGGATCCTAGGGAAGGTGGAGAACAATGACCGGTTCTTGAGAATTGCCCTGTACCAAGGTGACAAAAGCAGTAAAAAGGTTCGAAAAATCCCCTCTGCTGCTGCAAATGCTAATGAGAGCAAGGAGCCTTTGACAGATCCTACTCTGTTATGTTGTGCTTTCAAGAAACATCGAATATATTTGTTCAGGTGAGTATTTTTCGTGGGACATATTAATAGCAACTTATGGTTAATTTCATCGTATTATTTTTTAGTTTTTTAATTTTTTTTAAATTTTATTGAAGGAAACATTTTATTAAAAATTAAAAAAAGGAAAATCAGGCAAAAGTAAAGCTAAAAAGAAGGCCAAGACTAAAAGGAGGACAAAACAAGTAGAACATTTAAGTAAAACCTTGACTCCTTGGTAATCAAGGGAAGGTCTTAAAAGCTAGAAGAAAATGTTCATGAGGCTTTGAAGTGTGTTTCACTCCAAACCTTCTCCCACTTCGATTGATAAGCAGTGTGTGCACACCTCGCATAACAGTAGGCTAGTTTCCTCACTCTGTGTGATCCAAATTATGTTGAGGTAGATTATTCGAGGAATGAAAAACTCAAGGTACAAAAGTTTGAGATGTAAGCTGTAGAGCATGGTCGATCTAAAGTGTGTCTATGGGAAAGGAGTAGTAGGTCATGCAAGGTATATGTTATTCTATATCAAACATATTCTTGATTTGTCAAATCAAACATGAAAGGCATGATGCAAGTCTAATGTAATGTCGCCCATATTGATGAAATTTACATGTTTGTTGGTGATAGAAAGTTACTTGAAGATGTGTGTTTTGTTGAAAATTAAGAGTTAACCATGTGGTTTTTAATTGTTTCCTGAAAAGCTGAGTGTAGGGGGTTGTATGGGAGGCTGGATTGTAATCAGGATTACTGGAAATTAGAGGAGTGTTGAAATGCGTGAGGTATCGAGGGTGGAACGGAATGAGATTGTGAAACGTAAAAATGGTGGGAAACAGGATTTGGTTAAAATCTGCCGGAACAAAATGAGTTTAATATTACAAATCAGGCCCAAAACGCTCAATTCAAACATGGGTTTTGGATTACATTACAATCCAAACCCGTTCCAATACGGTCCCCCAGACAGCCCCTTAGAGATAATAAATCAATTGTGGTGGGGTTGCAGACTTTAAAAGAGCCCAAAATTTTGGGAGTAATGCGATGGAATATGGCTGGAAAGGAACCGGAGGCTTTTTAACTGATAAGTTCATGGGTTGGGAAGTGGTTTCAAATTTAACCAAGTGTCATGGCTTTTGTGAACTCCTATCAGACTGTTGATAAATTTTGGTTGTATTTTTTACTACATTAATGGAAAGTGTTCCATTTCAAAAGAAGGTTTATAAGAATCTATCTGTCACGTTTAAGACCTTGGATTGTCTTTCAAGTCATAGTAATAACTCAATACATGTGAGTATAACTCTTATATATGTCTAAAGAAGGTCAAATGATGTGATATGTCAAATTCATAAGAATTTAAATGAATATTTGGTAGAAAGAAAGCATGCACTCTAAGGATGATGAATATTGGGGGAATGCATATGTGGTCAGAGTTGGCTCAATCAATGATCAGGGATCAACATTTGGTTAGTTTTGGGAGTGCGTTAGCATTGGAGTTCCCACACTTTTTGATTAACATCAATTATGTGTTTGTTGAATTCCTTTATCAGCGGTTGGTTGGGGAGGACATATGTCTTCCAATCCACCTTTTATTTTATTTAGTTTGTTTAGAAAGGAAACCATTCCCTTCCACCTTTTATTCACGGTTCGTACTTCAATGATTTTATACTTTTCTTGTTTAAGAAAATAAAAGGGAAAAAATTACGATAATATATACCTTGACCATGGAGAGGTTTCAATTACACAGTATCACTTTATTTTGATGAGAAATGCTCTCTTTCTATCCATATCTTTCCTCGTCACTAGTGGTGCTTTACAAATATATATATTTTTTCCTTTCTGACTTTTGATCAGAATTTGTTTGTTTTATAAAGTCGAAGAGAGCCAGAGGAACCAGAAGATGCAACAAAGGGAAGAGATGTATTTAATGAAAAGCCTCCAGCTGACGAATTATTGGCAGTATCAGATATTGGCAAGTCAGTTACAACATCTCTTCCTGATAATGTGGTAAGTATTCTTTTTCTTCTCTCTCTGCACTAAAGTATTCTTGTGGCAAAATCTAAACCCGGTTAAGAAGGATTCTTAAAACAAGGTCTTGTTTAATTTATTTTCTTCTCTCTTTCTACTATGTTTATTTTTTTATTTATTTTTTTAAATTTTTTTAAAAATGTAATTGTTATTAAAAGGAAATAAAGCTTTCTTCATTATACTGTTGTAAATTAACAATATAAAAAGAGTATTGTTGTAGATTTTTCTTTCAAGTGGATGAGAGCTAAGAAGCACAAACATTTTAGTTTGGCTAGCGTGTCCGTGTCCGACACTTGTTGGACACATATCAGACATTTGTTAGTGCAACAAATGTGTTAGACATGCATTGAACACTTGTTGAGTAGACCAAAAGACACATATATGACAATAATACTAACTTTTAAGTGTGAAATACATCAAGTTAAGTCTTTTAAGCATATAAATGCATCAACCAATTTACTTTTAATTTTATTTTGGTATGAAAATGATATATATTTTCAAAAATGTATATTTTAGTAAACGCGTCATTGCCGTGTCGTGTCCTAGATATTTAAAATATGGCGTGTCGCCGTGTCCGTGTCCGTGTCGTTGTCGTGTTGTATCCGTATCTTGTATCCATATCCGTGCTTCTTAGGATGAGAGGATTCACCTTTGAGGTGCATGCCTATACCTGGTTTCAAACTATTTTAATGTTAATACCCAGTTTAATTTTCTAACGCATTATAATTATTTATTCTTTTGTCTATTTATAACTTCATTAGTTTGTTTCTGTTAGATAAAGAAAATGTATCTTTTCTCTCTAATATAAAGCAAACTGATTTATCTGATCCATGCTTCCTCAGATATTGCATACCACTATGGGGGACATCCATATGAGATTGTATCCCGAGGAGTGTCCTAAAACAGTGGAAAACTTCACAACGCATTGCAGGAATGGCTATTATGATAATCTTATCTTTCATCGGGTCATCAAAGGCTTCATGATACAGACAGGAGATCCTTTAGGAGATGGAACTGGTGGTCAGTCTATTTGGGGAAGAGAGTTTGAAGATGAATTTCACAAAAGGTAACTATTATATTGACTATTTTTCATTTTTCTCAGATTACTTAAAATGGTTTAATGCAGTTTGTGGTGGTGGTTCTGCTATCAATGATGTTGTATTTGAGCAGGGTCTGCTCCCAATGCTTTTATTCTTCCGGGAGAAAAAAAGCATCTTCTCTATTTTCTCCTATACCTACAAAAGCTAGCAATATTACTAGTTTTCTCTCTCAAACCTAACAATAGACTACTCATTTTAAACCAATCTAGAGTAATTTAGACTTACAAATTGGAGAATAAAACTATCATCCCTGATGCCTCTTTCAGTTTTTTTGGTTGGATAAGGAGAAATCCTCATACAATTGAATAGAGACTTCTCGCTATTAAGTCTATGATTTTTGAGGATTGGAGCTGCTGCTTATAGCATGCATATGGACCTTATGGTTTGTGCATTTTGTATCTTTTCAGTTTACGGCATGACAGGCCTTTCACAGTTTCAATGGCTAATGCAGGCCCAAACACAAATGGGTCTCAGTTTTTTATCACAACCGTAGCCACTCCTTGGCTGGACAACAAGCATACAGTGTTTGGAAGAGTTATTAAAGGCATGGACGTTGTGCAGGTATGGTTTTGTTATGATCCATTGGCCTATCTTTTTGTTTATTCATTCCATTTGGTACATTTTTGGGTTTTAATTATAAATTCTGTAAACATGGGTATCCTTCAGTAACTTGATATCAAATGTTAGTTGGATGATCTTGAATGACATTGCTTAACTTTTGATATTATGGCTTATTACAAATGAATTAATGTAAACCAGGGACACAATATTGACATTTTTGCCGATAATTCAATGACCAAGTAAATGGCCTGTAACTTGAGGATATTGATAAATTCACTGAATTAGATTTTAGGTGATTGCAACTTGCAAGCGTGTTATGCTAAGATTAGTGGCGAGATATTTGATGTGGTCTCTGTGCTTTTGCTTTTATATTATTCATGCCTGTAGCCTGAATCTCTTTATTCACAATTGGTGAGAACTAGAACTAAGAATTTTCTTAAATTCTTGTATATTTAAACAGACAATTGAGAAAGTGAAAACAGACAAGGCAGACAAGCCATATCAAGATGTGAAAATTTTAAATGTATCTGTTCCGAAGCCTTGA ATGGAAGAACCCCCCAGTGGGAATGGCAATGTCGATTCGGCATCAGCAAAAGCAGAGACCGAGGACGAGACCGCCATCGGCCCCGGTCCGGCCCCTCGCTCGCGACCCAAACGCCCCCTCCAGTTTGAGCAGGCCTATCTCGATACCATCCCCTCTGCTAACATGTATGAGAAAAGTTACATGCACCGTGATGTGGTTACTCATGTTGCTGTGTCTTCTGCAGACTTTTTTATAACTGGGAGCGATGATGGGCATCTCAAGTTTTGGAAGAAAAAGCCTATTGGTATTGAGTTTGCCAAGCATTTCAGATCTCACCTTGGTCCTATTGAAGGCATAGCTGTTAGCGTTGATGGTCTGCTTTGTTGTACAATATCAAATGATCATTCTGTAAAGATATATGACGTCGTTAATTATGATATGATGGTCATGATACGGCTTCCTTTTATTCCTGGTGCGGCTGAATGGGTCTATAAACAAGGGGATGTGAAAGCCAAGCTGGCTATCAGTGATCGGAACTCATCATTTGTGCACATATATGATGCACGATCCGGTTCAAATGAACCTATTGCCTCTCGAGAGGTACACTTGGGGCCAGTAAAGGTTATGAAGTACAATCATGTATTTGATTCAGTTATATCTGCTGATGCCATGGGACTTATTGAATATTGGACTCCTGACACACTCCAGTTTCCTGAAAATGATGTCAATTTTAAATTCAAAAGTGACACCAATCTTTTCGAAATAGTGAAATGCAAGGCAACTGTTTCTGCTATAGAGGTCAGCCCAGATGGTAAACAGTTTTCAATTACATCACCTGATCGGAGAATACGTGTATTTTGGTATCGCACGGGTAAACTAAGACGAGTTTATGATGAATCTCTAGAGGTAGTAAACTTGCACACAAACAAAGTTGCACGGATCCTAGGGAAGGTGGAGAACAATGACCGGTTCTTGAGAATTGCCCTGTACCAAGGTGACAAAAGCAGTAAAAAGGTTCGAAAAATCCCCTCTGCTGCTGCAAATGCTAATGAGAGCAAGGAGCCTTTGACAGATCCTACTCTGTTATGTTGTGCTTTCAAGAAACATCGAATATATTTGTTCAGTCGAAGAGAGCCAGAGGAACCAGAAGATGCAACAAAGGGAAGAGATGTATTTAATGAAAAGCCTCCAGCTGACGAATTATTGGCAGTATCAGATATTGGCAAGTCAGTTACAACATCTCTTCCTGATAATGTGATATTGCATACCACTATGGGGGACATCCATATGAGATTGTATCCCGAGGAGTGTCCTAAAACAGTGGAAAACTTCACAACGCATTGCAGGAATGGCTATTATGATAATCTTATCTTTCATCGGGTCATCAAAGGCTTCATGATACAGACAGGAGATCCTTTAGGAGATGGAACTGGTGGTCAGTCTATTTGGGGAAGAGAGTTTGAAGATGAATTTCACAAAAGTTTACGGCATGACAGGCCTTTCACAGTTTCAATGGCTAATGCAGGCCCAAACACAAATGGGTCTCAGTTTTTTATCACAACCGTAGCCACTCCTTGGCTGGACAACAAGCATACAGTGTTTGGAAGAGTTATTAAAGGCATGGACGTTGTGCAGACAATTGAGAAAGTGAAAACAGACAAGGCAGACAAGCCATATCAAGATGTGAAAATTTTAAATGTATCTGTTCCGAAGCCTTGA ATGGAAGAACCCCCCAGTGGGAATGGCAATGTCGATTCGGCATCAGCAAAAGCAGAGACCGAGGACGAGACCGCCATCGGCCCCGGTCCGGCCCCTCGCTCGCGACCCAAACGCCCCCTCCAGTTTGAGCAGGCCTATCTCGATACCATCCCCTCTGCTAACATGTATGAGAAAAGTTACATGCACCGTGATGTGGTTACTCATGTTGCTGTGTCTTCTGCAGACTTTTTTATAACTGGGAGCGATGATGGGCATCTCAAGTTTTGGAAGAAAAAGCCTATTGGTATTGAGTTTGCCAAGCATTTCAGATCTCACCTTGGTCCTATTGAAGGCATAGCTGTTAGCGTTGATGGTCTGCTTTGTTGTACAATATCAAATGATCATTCTGTAAAGATATATGACGTCGTTAATTATGATATGATGGTCATGATACGGCTTCCTTTTATTCCTGGTGCGGCTGAATGGGTCTATAAACAAGGGGATGTGAAAGCCAAGCTGGCTATCAGTGATCGGAACTCATCATTTGTGCACATATATGATGCACGATCCGGTTCAAATGAACCTATTGCCTCTCGAGAGGTACACTTGGGGCCAGTAAAGGTTATGAAGTACAATCATGTATTTGATTCAGTTATATCTGCTGATGCCATGGGACTTATTGAATATTGGACTCCTGACACACTCCAGTTTCCTGAAAATGATGTCAATTTTAAATTCAAAAGTGACACCAATCTTTTCGAAATAGTGAAATGCAAGGCAACTGTTTCTGCTATAGAGGTCAGCCCAGATGGTAAACAGTTTTCAATTACATCACCTGATCGGAGAATACGTGTATTTTGGTATCGCACGGGTAAACTAAGACGAGTTTATGATGAATCTCTAGAGGTAGTAAACTTGCACACAAACAAAGTTGCACGGATCCTAGGGAAGGTGGAGAACAATGACCGGTTCTTGAGAATTGCCCTGTACCAAGGTGACAAAAGCAGTAAAAAGGTTCGAAAAATCCCCTCTGCTGCTGCAAATGCTAATGAGAGCAAGGAGCCTTTGACAGATCCTACTCTGTTATGTTGTGCTTTCAAGAAACATCGAATATATTTGTTCAGTCGAAGAGAGCCAGAGGAACCAGAAGATGCAACAAAGGGAAGAGATGTATTTAATGAAAAGCCTCCAGCTGACGAATTATTGGCAGTATCAGATATTGGCAAGTCAGTTACAACATCTCTTCCTGATAATGTGATATTGCATACCACTATGGGGGACATCCATATGAGATTGTATCCCGAGGAGTGTCCTAAAACAGTGGAAAACTTCACAACGCATTGCAGGAATGGCTATTATGATAATCTTATCTTTCATCGGGTCATCAAAGGCTTCATGATACAGACAGGAGATCCTTTAGGAGATGGAACTGGTGGTCAGTCTATTTGGGGAAGAGAGTTTGAAGATGAATTTCACAAAAGTTTACGGCATGACAGGCCTTTCACAGTTTCAATGGCTAATGCAGGCCCAAACACAAATGGGTCTCAGTTTTTTATCACAACCGTAGCCACTCCTTGGCTGGACAACAAGCATACAGTGTTTGGAAGAGTTATTAAAGGCATGGACGTTGTGCAGACAATTGAGAAAGTGAAAACAGACAAGGCAGACAAGCCATATCAAGATGTGAAAATTTTAAATGTATCTGTTCCGAAGCCTTGA MEEPPSGNGNVDSASAKAETEDETAIGPGPAPRSRPKRPLQFEQAYLDTIPSANMYEKSYMHRDVVTHVAVSSADFFITGSDDGHLKFWKKKPIGIEFAKHFRSHLGPIEGIAVSVDGLLCCTISNDHSVKIYDVVNYDMMVMIRLPFIPGAAEWVYKQGDVKAKLAISDRNSSFVHIYDARSGSNEPIASREVHLGPVKVMKYNHVFDSVISADAMGLIEYWTPDTLQFPENDVNFKFKSDTNLFEIVKCKATVSAIEVSPDGKQFSITSPDRRIRVFWYRTGKLRRVYDESLEVVNLHTNKVARILGKVENNDRFLRIALYQGDKSSKKVRKIPSAAANANESKEPLTDPTLLCCAFKKHRIYLFSRREPEEPEDATKGRDVFNEKPPADELLAVSDIGKSVTTSLPDNVILHTTMGDIHMRLYPEECPKTVENFTTHCRNGYYDNLIFHRVIKGFMIQTGDPLGDGTGGQSIWGREFEDEFHKSLRHDRPFTVSMANAGPNTNGSQFFITTVATPWLDNKHTVFGRVIKGMDVVQTIEKVKTDKADKPYQDVKILNVSVPKP Homology
BLAST of HG10018143 vs. NCBI nr
Match: XP_038894702.1 (peptidyl-prolyl cis-trans isomerase CYP71 [Benincasa hispida]) HSP 1 Score: 1112.8 bits (2877), Expect = 0.0e+00 Identity = 555/624 (88.94%), Postives = 561/624 (89.90%), Query Frame = 0
BLAST of HG10018143 vs. NCBI nr
Match: XP_008461705.1 (PREDICTED: peptidyl-prolyl cis-trans isomerase CYP71 [Cucumis melo] >KAA0040906.1 peptidyl-prolyl cis-trans isomerase CYP71 [Cucumis melo var. makuwa]) HSP 1 Score: 1111.3 bits (2873), Expect = 0.0e+00 Identity = 556/624 (89.10%), Postives = 560/624 (89.74%), Query Frame = 0
BLAST of HG10018143 vs. NCBI nr
Match: XP_004139479.1 (peptidyl-prolyl cis-trans isomerase CYP71 [Cucumis sativus] >XP_031744641.1 peptidyl-prolyl cis-trans isomerase CYP71 [Cucumis sativus] >KGN64908.1 hypothetical protein Csa_022805 [Cucumis sativus]) HSP 1 Score: 1110.1 bits (2870), Expect = 0.0e+00 Identity = 555/624 (88.94%), Postives = 560/624 (89.74%), Query Frame = 0
BLAST of HG10018143 vs. NCBI nr
Match: TYK10631.1 (peptidyl-prolyl cis-trans isomerase CYP71 [Cucumis melo var. makuwa]) HSP 1 Score: 1103.2 bits (2852), Expect = 0.0e+00 Identity = 556/634 (87.70%), Postives = 560/634 (88.33%), Query Frame = 0
BLAST of HG10018143 vs. NCBI nr
Match: XP_022938006.1 (peptidyl-prolyl cis-trans isomerase CYP71 [Cucurbita moschata] >XP_022938007.1 peptidyl-prolyl cis-trans isomerase CYP71 [Cucurbita moschata] >XP_022938008.1 peptidyl-prolyl cis-trans isomerase CYP71 [Cucurbita moschata] >KAG6585984.1 Peptidyl-prolyl cis-trans isomerase CYP71, partial [Cucurbita argyrosperma subsp. sororia] >KAG7020781.1 Peptidyl-prolyl cis-trans isomerase CYP71 [Cucurbita argyrosperma subsp. argyrosperma]) HSP 1 Score: 1089.3 bits (2816), Expect = 0.0e+00 Identity = 545/624 (87.34%), Postives = 554/624 (88.78%), Query Frame = 0
BLAST of HG10018143 vs. ExPASy Swiss-Prot
Match: Q8W4D0 (Peptidyl-prolyl cis-trans isomerase CYP71 OS=Arabidopsis thaliana OX=3702 GN=CYP71 PE=1 SV=1) HSP 1 Score: 965.3 bits (2494), Expect = 3.0e-280 Identity = 461/603 (76.45%), Postives = 514/603 (85.24%), Query Frame = 0
BLAST of HG10018143 vs. ExPASy Swiss-Prot
Match: Q29RZ2 (Peptidylprolyl isomerase domain and WD repeat-containing protein 1 OS=Bos taurus OX=9913 GN=PPWD1 PE=2 SV=1) HSP 1 Score: 578.2 bits (1489), Expect = 1.0e-163 Identity = 295/609 (48.44%), Postives = 403/609 (66.17%), Query Frame = 0
BLAST of HG10018143 vs. ExPASy Swiss-Prot
Match: Q8CEC6 (Peptidylprolyl isomerase domain and WD repeat-containing protein 1 OS=Mus musculus OX=10090 GN=Ppwd1 PE=1 SV=2) HSP 1 Score: 577.8 bits (1488), Expect = 1.4e-163 Identity = 294/609 (48.28%), Postives = 404/609 (66.34%), Query Frame = 0
BLAST of HG10018143 vs. ExPASy Swiss-Prot
Match: Q96BP3 (Peptidylprolyl isomerase domain and WD repeat-containing protein 1 OS=Homo sapiens OX=9606 GN=PPWD1 PE=1 SV=1) HSP 1 Score: 577.4 bits (1487), Expect = 1.8e-163 Identity = 294/609 (48.28%), Postives = 402/609 (66.01%), Query Frame = 0
BLAST of HG10018143 vs. ExPASy Swiss-Prot
Match: Q5NVL7 (Peptidylprolyl isomerase domain and WD repeat-containing protein 1 OS=Pongo abelii OX=9601 GN=PPWD1 PE=2 SV=1) HSP 1 Score: 572.8 bits (1475), Expect = 4.3e-162 Identity = 294/609 (48.28%), Postives = 400/609 (65.68%), Query Frame = 0
BLAST of HG10018143 vs. ExPASy TrEMBL
Match: A0A5A7TFT9 (Peptidyl-prolyl cis-trans isomerase CYP71 OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold125G00160 PE=4 SV=1) HSP 1 Score: 1111.3 bits (2873), Expect = 0.0e+00 Identity = 556/624 (89.10%), Postives = 560/624 (89.74%), Query Frame = 0
BLAST of HG10018143 vs. ExPASy TrEMBL
Match: A0A1S3CFT5 (peptidyl-prolyl cis-trans isomerase CYP71 OS=Cucumis melo OX=3656 GN=LOC103500240 PE=4 SV=1) HSP 1 Score: 1111.3 bits (2873), Expect = 0.0e+00 Identity = 556/624 (89.10%), Postives = 560/624 (89.74%), Query Frame = 0
BLAST of HG10018143 vs. ExPASy TrEMBL
Match: A0A0A0LSZ3 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_1G153530 PE=4 SV=1) HSP 1 Score: 1110.1 bits (2870), Expect = 0.0e+00 Identity = 555/624 (88.94%), Postives = 560/624 (89.74%), Query Frame = 0
BLAST of HG10018143 vs. ExPASy TrEMBL
Match: A0A5D3CFQ8 (Peptidyl-prolyl cis-trans isomerase CYP71 OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold315G001110 PE=4 SV=1) HSP 1 Score: 1103.2 bits (2852), Expect = 0.0e+00 Identity = 556/634 (87.70%), Postives = 560/634 (88.33%), Query Frame = 0
BLAST of HG10018143 vs. ExPASy TrEMBL
Match: A0A6J1FBY7 (peptidyl-prolyl cis-trans isomerase CYP71 OS=Cucurbita moschata OX=3662 GN=LOC111444229 PE=4 SV=1) HSP 1 Score: 1089.3 bits (2816), Expect = 0.0e+00 Identity = 545/624 (87.34%), Postives = 554/624 (88.78%), Query Frame = 0
BLAST of HG10018143 vs. TAIR 10
Match: AT3G44600.1 (cyclophilin71 ) HSP 1 Score: 965.3 bits (2494), Expect = 2.1e-281 Identity = 461/603 (76.45%), Postives = 514/603 (85.24%), Query Frame = 0
BLAST of HG10018143 vs. TAIR 10
Match: AT2G36130.1 (Cyclophilin-like peptidyl-prolyl cis-trans isomerase family protein ) HSP 1 Score: 177.9 bits (450), Expect = 2.2e-44 Identity = 80/154 (51.95%), Postives = 106/154 (68.83%), Query Frame = 0
BLAST of HG10018143 vs. TAIR 10
Match: AT1G01940.1 (Cyclophilin-like peptidyl-prolyl cis-trans isomerase family protein ) HSP 1 Score: 171.8 bits (434), Expect = 1.6e-42 Identity = 77/152 (50.66%), Postives = 105/152 (69.08%), Query Frame = 0
BLAST of HG10018143 vs. TAIR 10
Match: AT5G67530.1 (plant U-box 49 ) HSP 1 Score: 155.2 bits (391), Expect = 1.5e-37 Identity = 71/151 (47.02%), Postives = 100/151 (66.23%), Query Frame = 0
BLAST of HG10018143 vs. TAIR 10
Match: AT4G33060.1 (Cyclophilin-like peptidyl-prolyl cis-trans isomerase family protein ) HSP 1 Score: 152.1 bits (383), Expect = 1.3e-36 Identity = 80/155 (51.61%), Postives = 99/155 (63.87%), 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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