HG10005250 (gene) Bottle gourd (Hangzhou Gourd) v1
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Overview
Sequences
The following sequences are available for this feature:
Legend: CDSpolypeptide Hold the cursor over a type above to highlight its positions in the sequence below.ATGTCTGTACTGATTGTAACCAGTCTGGGGGACATTGTGATCGACCTGCACACCGACGTGTGCCCCTTGACCTCCAAGAATTTCTTGAAGCTCTGCAAGTGAGTCAGTTCTTTCATTTTCTTTGTTCTATCTATTAGTTTTTCTGCCTGGATTTTGTTAAGAGTACTCGTTCCGTCTGTTTTGCTAATACTCTCTTTTTTCCGCCTTCATCAATGAACAGCAATAGTTTTAGTTATTCAAGCACTGAAAAATTTCTATTTGCCGGGCGGAAATGTTCATTTTCGTGTTAAAAGATATACCTGATTTACAGTGGATAACTAGTTTACTTGATGTCAAGAATTCAGCTCGATAGTTTCCATTTCATCTTTCTTATCCTTTATTATTTTCACTTGGATTGATGCAGAATTAAGTACTACAATGGGTGTCTGTTTCATACAATACAGAAGGACTTTACTGCTCAGACTGGTGACCCCACTGGCACTGGTACTGGTGGCGACTCAATCTATAAGTGAGTGCCTTTTAATCACAAGATTCTGATCTTACACGCTGAATTTTGTTTTGAAACTTTTCTTGTTTAGTTTTCATATTACATTGCTTGTTGGCTGCGTTGATTCGGAATAATCAATTTTGACGGAATAATCAATTTTGAACTTGAAGGCATCTTATGGCTATCATGTCGTGATACATCCTTCATGTTTTTTGACTGTTTCATCTAATCTTTTAACTTGATCTTCAAACCTCAGATTTCTCTATGGGGACCAGGCTCGATTTTTCAGTGATGAGATTCGTCTCGATTTAAAGCATTCTAAGACCGGCACAGTTGCAATGGCCAGTGCTGGAGAAAATCTTAATGCTTCTCAGGTACTATTGATATGTGAATTTGTTTCCTCTATTATTAAGTTTTGTCTATACTCGTGCTGGTTCTCTGAAATTTACCTGCTTGCACTACATTAAGAACTAAGATGACATTCATGTCTTTTTTTGTTTTCAGTTTTATTTTACTTTGCGTGATGATCTCGAGTACCTTGATGGCAAGCACACTGTAAGTCTCCTACCACAATAACCTATGCTCTCTCCCTTTCCCATTGCTCGGATGTGGTCTCCGCCTCTCTCATCTCTAATATGCCTCAGTATCCAAGATACAAACCATGAGAAAAGGAAGACAATGGTCAACATTTCATCAAAAGAAAAAAAAAATAGTTCACAGGGATAACTATCTGTGCAATAATTACTCTGTAGTCTATATCACGTATTCAATTTAGGGATTTTTTCAGCACTAATTCATCCTTGGATGACATGTTTAATTGTGTCGTATTTTGAGTTCTGCTAGTCCTTATCTTTCTGACAGTGTAATTGCCCTGCACAATGCATTTCTTATGGAAGGGTGGATTGTTAAGGAGATTTGGGGTGCAGTAGTAAGAGCTTATTTTTGAGACTGTGTCTTTGAAGGGCCGAAGGATAAAATGGCATTTAAGCTATTTAGTGGGAGGTTTACTATAAGGGATAGAAGACGTTTCCTAAATTCTTAAAGAACCTTCTCATCTTTGGCTTAATTCTTGTCTTTTTGCTTCTTTTCTGAGCTCTTGTTATAAAGAGTTTCATAGTTACTTTTTCTTGTTTAATTCACAGAAAAAATAGTTACTTTCATTCTTATGTTCATAGGTTATTTTGGTAAAATGTAAGTTTTGTAATTAATTATGTGAAGTTATTGATGAGAATTTAGTGAGTTAGGGTTCTTCTATAAGTACTGGTTTATGGTAATTGACAAAGCTTTGCATTTATTCTGATGGTAAGAGTAGCTGTTGCTTTTGTGTTTATGATAATTTTTGTTACTAAAGAATTCTCCAAAATTGTAGGTCTTTGGAGAGGTTGCTGAAGGACTTGACACCTTGACTAGGATTAATGAAGCCTATGCAGATGAGAAGGGCAGACCATACAAAAATATCCGGTATGTGTGTCAGAAAAAAAAAACTTTTCATTAATGTCTGAGACATACAAAAGAGATTGCCAAGCGTCCAAAGGAAAAAATAGATAACAAAAAATTACTCCCATTGGCATGCACCATTGATGGATCAAAATTCCCGAAGGAATTTGAAAGTGTGCACCAACTGGATATCAAAACTTAATATTATTCCATGAATTGTTATAATCTTGAGATTCATTTTTGCCAGTTTAGTTTAATGACATTTTGTATCTTGTATTCCTATAGCGATTGCAAATTTATCGTTATATTTTTCTCTTCTCAAATATTTTGTTTCATATTAAAATTATGTCAATCTGATCAGAATCAAGCATACTTATATACTGGATGATCCATTTGATGATCCGCCCCAGTTAGCTGAGCTGATTCCAGATTCTTCTCCTGAAGGGAAACCAAAAGATGAGGTAGGAATTATTTGTTGTAATCTATATTTTGGTGGAGGTTTAATTACACTGAGATTATACTGTTCGACTTAGCTGATCTCTAAATTTTCAAGTTGATTTAGATAAGAAATTTATCCTTCCCATGAATTGTTATTTTAATGTTTCAAATCCTAAGCTGTAAGAATTGATGGTATCAAACTCATTATTGTTGAAGTTTAATCTGAAGTATGGGATCTTGTGAGTTGTTCTTAGGGGATGTATATATTTTGGGTTAAATTGGCAACTTTAAATATGTGAAAATTTGGGGGAATTGTTTTTCTAGAGCAAGTTTTCTCTGAAACACAATCAAACTCACAAAATAATGCATTCTTATTGCCATTGTTGCTTCAGACATTAATTCAGGTCCACAAAATTGTCATCTTTTCCGTGGAGCAGTTTGTCTTGAGATATATAATTCTGAACACTATGTTTTATGCATAATTATCTTTTGTTCTTATGGGAATTACAACTCTACTTTAGCCGGGTCTTTTGTAACTATGTCTTGCTTTGATTCTGTGAGATCTTTTCAAATCCTAGAAAAAGCACTTTTCAAATCCTAGATTCTGTCAGATTGGAGCCTTGTAGTTCTTTTGGGTTTCTTCTTGTCCCTTGTTGTCCCTTGTTCTTTTGTCGAGCTCTTTTTCTTTTGTTTTGTTGAGTTTTTCTTACTTGAATTCCTTTCCTTATTTCTAAATGAAAGTGTGGAAAAGCTAAGGGGTTCATAGCAGTGGAACAGAGGGGGTTTCAAGATAGGTAAAATTTTTGGGTGGACTCATTTCAATGTCTCTCTGGGGTTTCTTATATGAAGTTGTTTCGAGATTTTCCTCTCTTTCTCTATTTTTTTAATTTAATTTATTTTCTTATTATGGCCAACACTAGTACTCCATTTTGTAATTGGTTTTTTTGTTTTGTTTGTCCTCTATGTTGGTTTTGCTTGGTGGCTCTTTGCGTTGATTTGGCTTTGGGTTCTTGTCTGGTCTTTTTCCTGAGTTTGCAGTAAGACAAGTTTTGGAAGTTCATAAAAGGCTCATTTCACTAAAAGGCCCCGTATTTTAATTATCTATTAGAGAAGGAAGAAATACATTTGGAAGAAGGGGATTTGATAAGCACCATTACTTTGGTTGGACGTAACTGAATGGGATGGATAAATAGGAGAGAGGAAGAAACAGTAGGTCATGTCATGAGTTTGGAATTGGAGGATAGGAAGTCTCTTAAACGACTTCCTACAGCTTGTACAAGAAAGAAGCAAGTTGGTCAAAGATTTTTTTTAGAGGGGATAGAATGCAAACCTTTATATGCTTTAGGTCGAATTTGGTAGGACATAAGCTTTGGAGTAATTTAAGTTGTTGCTTCAATCAAAAGTTTGGGGAGAAAACTCGAAGTTCTGATGGCTATATGTAATACAAAGTTATGTAACATCATCAGACCTGATATTACAGTATTATTTCTAGAATTTTCTGGGAATTGTCACCGATGTTCTTGCTAAAAGAAAATGTCAATTGTATATGTAAAAAGGATAAATCGGTGATGGTTGAGGATTTCTCCTTTCTTATATGTCTACCTATCAGTGATTTCTCCTTTTTGATATGTCTCTATCAATGATTTCTCATTTTTTATATGTCATACAAATGATTTCCCTTGTGGCTGTGTGTCAGTTTATTAGGATGTTTGGGGTTGTGGCGCACAATAGGGATTGCTGATCTATGGTGGAGGAGATTTTGATGAACTCTCCTTTTCGTGATAAAAGGAGGAGTCATGTGGCCGGCTTGTTTTTTGATTAAGTACCATCAATCTGATAGGTACCCCTATCAAGATCCTTTTATTGATTTGGTGAAAGATAGAAAAACAAAAGTAACATTCAACCACAATCTCCCTCACTGGAGAGAAGAGTTCCTCCTAACACACATAAAAACCAGATAAAAAAAACAACAGCACACACAAAAACATATATAAGACTAAAAACTGGTAAAAAATAACTTCCAATAACTTAAAGTCTAATTCTTTAACTACTGGTAGATGCTTCCCCTTAACCACTTCTTTCTCTTTCTCCTTCCCTTTCTTATTCTTCCTGACATATGTGATTAACGTTGGTGGTCTAACAATACCGCCCCCTTCCAAAGTCAACTTGTCCTCAAGTTGAAATGAAGGAAATTGGCAACGGAAGTCTTCAAGAACCTCCCAAGTAGCTTCGTGGTTGGGCAAACCCTTCCAACATACCAAATTTTTTTGAGATTGAGTAAGGGGATTCAGACGAATTCCACTAACAAACGCGGGTTCCAACAACCATTCATACATATCAGAGAACTTTGGTGGTAGCGGGTGAACAGACTGTCCCGATCCAACAAGCTTCTTCAGTTGAGAAACATGAAAAACAGGATGAATAGTGGCCTCAGCAGGCAAGTCAAGTTTATACGCAAGCAATCCCACCCTGGCCAAAATTGTATGCCCAAAATATTTTGCTGCCAACTTTTCATTCCTCCTTTGTGCTAGAGATACTTGACGATAAGGTCGAACCTTCAAAAACACCCGATCCCCTACCTGGAATTCAGCGTCACGCCGCTTTTGATTAGCATACTTCTTCATGCGTTCCTGTGATACTCGCAAATGCTCTTTCATCATATGAAGAGCGACATCTCGTTCTCTGAGTTGCTGATCCAAGGTCGAATTAGAGGTACATTCAGCTCCATAGTAAACTAAAGTAGGTGGAACGCGCCCATAAACTGCCTGAAAGGGAGTAATGCCAGTAGAAATATGATAAGTAGTGTTATACCAATATTCAGCCCATGGAAACCAACGTACCCATTCCTTAGGACGTTCTCCACAACAACACTGCAAATAAGACTCCAAACAACGATTTACTACCTCCGTCTGTCCGTCAGTTTGTGGATGATAGGCTGAACTATGATGCAAACGAGTGCCTGCAGCACGGAATAATTCTTGCCAAAAATGATAAAGAAAATTTTTATCGCGATCAGATACGATAGATCGAGGAAACCCATGCAAACGAACCACCTCCTTAATAAACACGTCGGCCACATCTTTTGTTGTAAATGGGTGTTTCAAGGCTATAAAATGCCCGTATTTACTTAATCGATCAACTACTACCAGCACCGAATCATACCCTTTAGCTTTTGGTAACCCCTCCACAAAATCCATGGAAATATCACTCCAGATGGTAGTAGGGATTTCTAAGGGCAGCAACAACCCAGCCGGACTCAAAGCCAATGTCTTATTTCGCTGGCAAGTCACGCATTCCTCAACATACTTTCGAACATCGGCCTTCATTCCCTCCCAATATAACTCCCCCAACAATTGCTTGTAAGTACGTAGAAATCCAGAATGCCCTCCAAACACAGAATCATGATATGTATGCAAAAGGGTAGGAATCAAGGTTGAAGATTTAGAAAGGACTAACCGATTCTTATACTTGAGAATGTCCTGATGAAAAGTAAACCATGGCATACCATCGTCATCTTGTCGTAATTGATCAATAATAGCACATAATTTCGGATCCTTGAGGACCTCTTCGCGGATTATGTGAACATCCAGAAGAGCAGGTGCAGTTAAATAAGCGAGATGTATTGATGGGGGAACTCGCGACAAAGCATCAGCTACTGTATTTTCAACCCCTGGCTTGTATTTCACTTCAAAATCATAATCCAATAACTTGGCCACCCACTTTTGATGTTGAGGCTGAATTACGCACTGCTCCAAGAGAAACTTGAGAGCCTTCTGATCAGTGCGAACTACAAATTTTTGCCCCAAAAGATAAGGTCGCCATCGCTGAACTGCCAACACAACGACCATCAACTCGCGCTCATAAACGGGCATAGCTCGTTCGCGCATATATAAAGTTTGGCTGTAATATGCAATAGGGCGATTACGTTGAAGTAGGACGGCGCCAATACCATGGCCGGATGCATCAGTTTCAATTTCGAACGACTGAGTAAAATCAGGCAATGCCAGTACGGGTAAGGAAGTCATAGCGCGTTTCAATGTTTCGAAAGCTGTTTGTGCATCCGTCGTCCATTCAAACATCCCTTTTTTTAGTAACTGGCTGAGAGGAGCGGCCAACCGCCCATAATTCTAAACAAAACGACAATAATAACCGGTAAGCCCCAGGAAACCCCGTACTTCTCGGACGGTGGTCGGTATAGGCCATTCAATCATAGCGCGTAATTTTTCTGGATCTGCTTCCACTCCTTGCCCATAAATTAAATGGCCCAGATATTCCACCCTGTCACGAGCAAACTGACATTTCGAGCGATTTGCATACAAGACATTCTCGCGCAGAACAGAGAGTACAACACGTAGATGAACTAAATGAGCTTCCAAAGTAGGGCTGTACACCAGAATGTCATCAAAGAAAACAAGGACAAACCTTCGTAAATATGGCCGAAAGATCTTATTCATCAACGCTTGAAAGGTAGAGGGTGCATTGGTTAAACCAAAAGGCATCACCAAAAACTCATAGTGACCTTCGTGTGTTCGAAAGGCAGTCTTCTCCACATCCGCCTGATGCATTAAAATCTGATGATACCCTGATTTGAGATCGATCTTAGAAAAGAACATGGCACCATGCAACTCATCAAACAACTCTTCTATTACGGGAATGAGAAATTTGTCTGGAATAGTAACATTATTCAAAGCGCGATAATCAACACAGAAACGCCACCCTCCGTATTTTTTTTACCAATAAAACGGGACTCGAGTAAGGGCTCACACTTGGGCGGATAATTCCAGAATCGAGCATCTCTTGGACCAATTGTTCCATCTCACCCTTCTGATGATATGTGTAACGATAAGGCCGAACATTGACAGGTTGAGTACCTGGTTTAAGGTATATATGATGCTCAATACCCCTTTTAGGGGGAAGCTGATTGGGCCACTCAAAAATATCAGAATATTCGTCCAACAAATCAAGAATGGATTCTGGTACAGCAAAGGAGTCCGCAACCCCATACCATTCCGCGAGAGAAACCCCTCCTTCCAATGCGCGACACTCAACAAGAAAACCCATATCAGTCTGCTCCCAATTCTTGACCAAACGCTTCAAACTAATTCTGCTTTTAGTAAGGCTTGGATCACCCTGAAGCACAATCGGGTTGTTCCCAGGATTAATGGTCATTGTCAAATTACGCCAATCCACCTCAGTAACACCCAAAGTAAACAACCACTGCATGCCCAAAATACAATCTACACCCCCCATTTCAAACGGTAGAAAATTTTGGGTAACAAGGAAAGTTCCCAAACGAAGTTCTACATTTTTACAAATCCCTTTGCCTTGTACTGCAGTACCGGTACCCATCACAACACCATAATGAGAAGTGTGTTCCACTGGCAACTTCAACAAATCGACCACGCGTTGAGATAGAAAATTATGCGTTGCGCCGCAATCAATCAATACAACAATCGCCTCCCCACCAATCGATCCTCGTAGTTTCATAGTACCCGGATTGGTCAATCCCACTACCGAATTAATGGACTATTCGATCACTTGAGGATCGTCAACAGTCGTCTGTTGCAACTCCACCGGTTCAAAAGGATCATCGTCATCTTCAAAAATGTCAAATTCCTCATCATTATCGCGAACGAGAAGAAGGCGCAGTTCTCGGTGTTCGCGGCCCTTACATCGGTGACCGACATAATATTTTTCATCACATCGGAAGCAAAGACCTTTGTCTCTCTTAGCCTGAAATTCAGCATCAGAAAGACGTCTGGAAGGTCCTTCTCGGCGCTGTCCAGCAGGTGGCACTCCTCGAAGTGTAATCGTCTGCATAGGTGAAGGATCGGAAAGCACCAGAGTATCCTTTCGACCAAGCGGCACCAGCGGATTATCCCTTCTTCCGAGCGGCAGGACTGATTTCAACGAGGGAAGAGAAAACCCTTTCGGATCCAACCCGGCTTGGGCCCGGGTCTGCTCTCTGTTTTCAATCAATTGGGCCAATTTCATTTTGTTCACCAGCCCAGATGGAGCCCAACATTCTACTTCAGCTTTGATCCACGGTATAAGCCCATTCATAAAAGTATTTTCTAATACTTCATCAGATAATTGAGGTAACGGTGCAACTAACCGATGGAATCGGTTGCGATATTCTTCGACGGTGGATTCCTGTCGAATCGCAAGAAACTGGCCGCATATGGTGCCCTGCTTCGCCGAACAGAAATTCTCCAGGATTCGGACCTTCAAATCCGGCCAACCACGAAAAGGGTCTCGCTCCTCCGTCGCACGGTACCAATCGAGCACCGCTGACTCAAAACTAATAACCGCAACGGTCAACTTCTCCTCCTCGGATAATTTATGGATTGAAAAATAGCGTTCTGCGCGAAACAACCACGAATCCGGATCAGAACCATTAAAAATAGGCATCTCGACTTTCTTGAAGCGACTGCGATCCATCCCATGATCATCCGCTGCTGCTCGGGGAAAACCAGAACTAGTTTCGCCAATATCCCCAACCGGTCCGTGATCAACAGTGGTGCGAGGAATACCCGGGAAACCAGTAGAACGATTGTTGCGCGCGAAGATAGCCAAAAATTGCCGCATCTCATCCGCACGTTGTTGCTGTTTGTCGGCTTGAACGGTTAAACGATCAACACTTTTGGCCAACGAGGTGAGGGTATCATCCATAATCGGCAATTTCTGCACGCTGATCTGGATATCTTCAATCTCTTTGTCGGTAGCCTCTAAACGTTCCTCCAGTCGCTTCTGTGCCATCTTCCCAATCTTGCCCAGTTTGTGGCTCTGATACCAATTTGATAGGTACCCCTATCAAGATCCTTTTATTGACTTGGTGAAAGATAGAAAAACAAAAGTAACATTCAACCACAATCTCCCTCACTAGAGAGAAGAGTTCCTCCTAACACACATAAAAACCAGATAAAAAAAACAACAGCACACACAAACATATATATAAGACTAAAAACTGTATAAAAAATAACTTCCAATAACTTAAAGTCTAATTCTTTAACTACTGGTAGATGCTTCCCCTTCCTTAACCACTTCTTTCTCTTTCTCCTTCCCTTTCTTATTCTTCCTGACATATGTGATTAACGTTGGTGGTCTAACACAATCTTGCTGGAGTGCACTGTCAAATTATTTTCCCTGTACATAATATACTAATAGAGGGTCTTTTTTGTAAGCTCTTAATGAGAGCAGCATAATTTTTTACTCTCTAAATTTTTAATTTACCTATGAAAAGTTTGTTTTTTTGTTAGTTTGTTTGTTTTGTTTTGTTTTGTTTTTTTTTTTTTTTTTTGTAAATATTTAAGGAAACAGAAATCATTTCATTAATATGGTGAAATGTATACAAAAGTCCTATTGCGAGTAATTACAAAAAATACTTCCACTGAGTAATCAGAATAGACAAGTTGTACTTAGAAAAAGGAGGAGCTAATTTACTCCAGATAAAGCTAAAAAAGTAGACTCAATAAAGGTTGAAGAATCGTGTTTTTATCTGAAAAGATGTGATCATTTTGCTCCAACAATCTTCATTCTGAATTTTCATTTGGTGACTGAGTTCGAACCTAAGGAGCTCTCCTTTGTAAGCATGTCCTAATTTATGATATATTCCTTCTGTTGTGTGAAGATTGTTGATGAGGTGCGACTGGAAGATGATTGGGTCCCACTGGATGAGCAATTAGGTCCAGAAGAACTTGAGGAGGTTTTTCGTGCAAAGGAAGCTCACTCCAGAGCTGTTGTGCTTGAAACTGTAAGCTCCATTACATGCTCCAGTCGTGTATTTAATCTTCATCATTATCATTTATCTAACTTGGTCTTACGCCCTTTATGTCAAACTTGCTGGACAGATTGGAGATATTCCTGATGCTGAGATAAAGCCTCCTGATAACGTGTTATTTGTTTGTAAATTGAATCCGGTCACAGAAGTGAGTTCGTACTACTCCTCACTGATCTAACGGTGATTATTATATGTATATAGGGTTAAGTATCTCAATGATTGTTTTGATTGGTTCACCTTTGTGAATGCAGGATGAGGACTTGCTTACAATCTTCTCCCGTTTTGGCACTGTATTATCGTAAGTAATTGTCAACAAGCATCAATTAAATTTTGGATCTGTACATCACGTGTTTTTAATAAATCGTATGTGGTTTTAGGGCTGAAGTTATCCGTGATTTCAAGACTGGCGATAGTTTATGCTATGCCTTCATAGGTTGGTTGAAATTTATGCTTTTCATAATCATGGTGATACACTTGAACCAAAGTTGTGCATTTCTTATTTTCTTTCTTCTATTGGTAAAAAAATATTTTTAAAAAAACAGAAGAGATAATTAGAATCTCAAGCGTCAAGGTGGTGGGTTGCCTTTCTTTTTTGTTCTCCTAATTGGCCCACTATTATCTCGTTATTTGACAATTTCTGCCTTTTTAGTCAATCTCTCTTGTTTCCTTTCTCTCTTTTTTTCTTATTTTTTTCTTCATTTTATTTATTATTATTTATAATTTATTTAAAAGGCCATTTCTTGCACCGTGCTGAGTCTAGTCCCAAGGTTATGCATGTACATGCTATTCTTTCATGTAACTGAATCTAAAACGTTAGCACAAGGGATGGTCCTGTCTAAAAGACTGGATTCAGCAAAGAGATCAAATTCCAAGGAACTAACAAGAATATTTTGAGCTTCTTGACCATAAGATATTGTTTAAAGTAACTTTTGGGATGTTAAAATGTGATTTCCTTTGCTGCTTCGGTATAGTTTATAATTTGGACGTCCTTTATAGTTCTTTTTTATTATTTAAGATCCTTTAGAATAGACCACTAAGAGATGGAAAAGTAAAGATTCTATTGGTTTTGGGAAATAAACATTCCTCCAGATAAAGCTTGAATGGAGCTCTGTTTTTGAATCTTGGCCATCCAGGTGTAGATATGATGTTGGAGATGTCAATGTGAATGAACTGATACGATGCTCATATATTTGCATGTTTTTTTTTATTGAATTATTTTTATAAGAAACTGATAATATGTTTTGATCAAAGAGACCTGTAGGAAAAAGTTCTAATTGTATTTTCTTGGTGTTTTATGATGTAGGAATATATTTTATGAAAGAGTTGGAATATTGATGCAATATAATGGTTGTGGATCATGATCAATTATCACTATTGAGAATCTGAGATCAAATTGTTCCGTTTTTATAGGACTTTTTAGTAACTTTTCCATGCAATGACATTAAAATAGGCAACTTGTCTATGATGTTCTAGTTTATCTCCATAATTCTTTAATCTATCTTATTTTTGTTCTAATTACCATAGTCTATGTAGAGCAGGCTGTGCAAACTTCATTTCCAGCATGGTTTGGTGTTCAATTCATAATTCTGTATTAAAATTTTCAGCTGATTCAATCTTATTTTGTCGTGGACAGAGTTTGAGACAAAAGAGGCATGTGAACAAGCATATTTTAAGGTGTGTTAAAAAGAAAGACGTGTGCCCCATTGCCCCATTACCTTTGTTAAAAAGTCATGTTTTTGTAATCTTATTTATTCTTGTAGAGTAACTGATGTCGGATTTTCTTTATATGTGTGTTGATGGAAGATGGACAATGCTTTGATTGATGATAGAAGGATACATGTGGATTTCAGTCAAAGTGTTGCAAAACTATGGTCCCAATACCGGCGTAAAGATTACTCAGCAGATAAAGGTGAGAAAGTACAATATTCAATGAAGTAACTGGTTGGTTTTTGTAAGAGTAAAAATTGGTCGCAAATCTTAAATTTAGTCCTCAATGCTAGTTTATTGTTGATTTTTTAAAATTGTTTTTGTTATCTATGGCATTTTGAAAACATATTCACATATTTTATTTTCTAGCATGAAAGTTATTATTATTATTATTATTTTATCAATAATTGAAAGTATATAGACTAAAATTGAACAAACTTCAAAGTATGGAGACCAAAATGGTATTTTAACCTTTTTTTTTTAATTGCATTTCTAACCATATAATTTATGGAATAAAACTGAAAAATATTATTGGGTTGAACTTACTGCTTCTGGGCGTAGGTAGGGGTTGCTTTAAATGCGGCGCTCCTGACCATATGGCTAAGGATTGCACTGGTGGATCTACAAAGTTCATTTTGAAGGACGATAACGTACAGCATGGTGGAGATGAATCAAGGTTTGTGAAGTAATACCCCCCCCCCCCCCCCCCCCCTCCTCCCCTTCTCTCTCTCTCTATTATGACACCTGAATTGTTGTTGTAGGTATGACTTTGTTTTTGATGAGGACAATGGAAGTAACCATAGGAAAGAAAAGAGATATCGAGATCATGATAAAAATAAGCATGTTGAGAGGCCAAACACTAGGAAGCAAAGCCCCACTGGGCGTGAGCGATATGCAGAAAAGAAGAGTGCAAGTGATAGGCATGAATCAAATGACAGAAATAGATTCAGGGAAAGAGAGACGCATCGAGAAAATAAGGACAGACAATCTACTGGACACAGAGGAGACAGGCATGATTTTGATGATCGAAGGGACCATGAAAAACAAAGGAAGAGACAGAGTGACCGGGATGATCATAGGAAAACAGAGTTGGGTTATAAAAAAAGATCAGATGATAATGACGTTTATGACAAGAAAGATTATGAAGCTAATAGAAACAGAGGTGAAAGAGAATATAGTGACAAGTCAGAGAAGAGGAAGGATGAGGAGTTTTATGGCAGAAGGCATACAGATAGTAGCCATGAAGAGAAAAGGTACGAGGGAGATGGTAGAAGGAGAAGTACAGATGATAGTCGAGAATATAGGAAGGATGAAAGAGGTTATGGTAAAAGAAATTTCGATAGCGATGAAGCAGAGATGAAAGACAGGTCGCATTATAAGAAAAGATATACAGTTGATGACGGTTACAAGGACAGGAGAGAGAGAGACGAGCGAGAACCCAGAAGACGAAGCAAGGAAGAGTACAAGAAATGAATGTCTGTACTGATTGTAACCAGTCTGGGGGACATTGTGATCGACCTGCACACCGACGTGTGCCCCTTGACCTCCAAGAATTTCTTGAAGCTCTGCAAAATTAAGTACTACAATGGGTGTCTGTTTCATACAATACAGAAGGACTTTACTGCTCAGACTGGTGACCCCACTGGCACTGGTACTGGTGGCGACTCAATCTATAAATTTCTCTATGGGGACCAGGCTCGATTTTTCAGTGATGAGATTCGTCTCGATTTAAAGCATTCTAAGACCGGCACAGTTGCAATGGCCAGTGCTGGAGAAAATCTTAATGCTTCTCAGTTTTATTTTACTTTGCGTGATGATCTCGAGTACCTTGATGGCAAGCACACTGTCTTTGGAGAGGTTGCTGAAGGACTTGACACCTTGACTAGGATTAATGAAGCCTATGCAGATGAGAAGGGCAGACCATACAAAAATATCCGAATCAAGCATACTTATATACTGGATGATCCATTTGATGATCCGCCCCAGTTAGCTGAGCTGATTCCAGATTCTTCTCCTGAAGGGAAACCAAAAGATGAGATTGTTGATGAGGTGCGACTGGAAGATGATTGGGTCCCACTGGATGAGCAATTAGGTCCAGAAGAACTTGAGGAGGTTTTTCGTGCAAAGGAAGCTCACTCCAGAGCTGTTGTGCTTGAAACTATTGGAGATATTCCTGATGCTGAGATAAAGCCTCCTGATAACGTGTTATTTGTTTGTAAATTGAATCCGGTCACAGAAGATGAGGACTTGCTTACAATCTTCTCCCGTTTTGGCACTGTATTATCGGCTGAAGTTATCCGTGATTTCAAGACTGGCGATAGTTTATGCTATGCCTTCATAGAGTTTGAGACAAAAGAGGCATGTGAACAAGCATATTTTAAGATGGACAATGCTTTGATTGATGATAGAAGGATACATGTGGATTTCAGTCAAAGTGTTGCAAAACTATGGTCCCAATACCGGCGTAAAGATTACTCAGCAGATAAAGGTAGGGGTTGCTTTAAATGCGGCGCTCCTGACCATATGGCTAAGGATTGCACTGGTGGATCTACAAAGTTCATTTTGAAGGACGATAACGTACAGCATGGTGGAGATGAATCAAGGTATGACTTTGTTTTTGATGAGGACAATGGAAGTAACCATAGGAAAGAAAAGAGATATCGAGATCATGATAAAAATAAGCATGTTGAGAGGCCAAACACTAGGAAGCAAAGCCCCACTGGGCGTGAGCGATATGCAGAAAAGAAGAGTGCAAGTGATAGGCATGAATCAAATGACAGAAATAGATTCAGGGAAAGAGAGACGCATCGAGAAAATAAGGACAGACAATCTACTGGACACAGAGGAGACAGGCATGATTTTGATGATCGAAGGGACCATGAAAAACAAAGGAAGAGACAGAGTGACCGGGATGATCATAGGAAAACAGAGTTGGGTTATAAAAAAAGATCAGATGATAATGACGTTTATGACAAGAAAGATTATGAAGCTAATAGAAACAGAGGTGAAAGAGAATATAGTGACAAGTCAGAGAAGAGGAAGGATGAGGAGTTTTATGGCAGAAGGCATACAGATAGTAGCCATGAAGAGAAAAGGTACGAGGGAGATGGTAGAAGGAGAAGTACAGATGATAGTCGAGAATATAGGAAGGATGAAAGAGGTTATGGTAAAAGAAATTTCGATAGCGATGAAGCAGAGATGAAAGACAGGTCGCATTATAAGAAAAGATATACAGTTGATGACGGTTACAAGGACAGGAGAGAGAGAGACGAGCGAGAACCCAGAAGACGAAGCAAGGAAGAGTACAAGAAATGA ATGTCTGTACTGATTGTAACCAGTCTGGGGGACATTGTGATCGACCTGCACACCGACGTGTGCCCCTTGACCTCCAAGAATTTCTTGAAGCTCTGCAAAATTAAGTACTACAATGGGTGTCTGTTTCATACAATACAGAAGGACTTTACTGCTCAGACTGGTGACCCCACTGGCACTGGTACTGGTGGCGACTCAATCTATAAATTTCTCTATGGGGACCAGGCTCGATTTTTCAGTGATGAGATTCGTCTCGATTTAAAGCATTCTAAGACCGGCACAGTTGCAATGGCCAGTGCTGGAGAAAATCTTAATGCTTCTCAGTTTTATTTTACTTTGCGTGATGATCTCGAGTACCTTGATGGCAAGCACACTGTCTTTGGAGAGGTTGCTGAAGGACTTGACACCTTGACTAGGATTAATGAAGCCTATGCAGATGAGAAGGGCAGACCATACAAAAATATCCGAATCAAGCATACTTATATACTGGATGATCCATTTGATGATCCGCCCCAGTTAGCTGAGCTGATTCCAGATTCTTCTCCTGAAGGGAAACCAAAAGATGAGATTGTTGATGAGGTGCGACTGGAAGATGATTGGGTCCCACTGGATGAGCAATTAGGTCCAGAAGAACTTGAGGAGGTTTTTCGTGCAAAGGAAGCTCACTCCAGAGCTGTTGTGCTTGAAACTATTGGAGATATTCCTGATGCTGAGATAAAGCCTCCTGATAACGTGTTATTTGTTTGTAAATTGAATCCGGTCACAGAAGATGAGGACTTGCTTACAATCTTCTCCCGTTTTGGCACTGTATTATCGGCTGAAGTTATCCGTGATTTCAAGACTGGCGATAGTTTATGCTATGCCTTCATAGAGTTTGAGACAAAAGAGGCATGTGAACAAGCATATTTTAAGATGGACAATGCTTTGATTGATGATAGAAGGATACATGTGGATTTCAGTCAAAGTGTTGCAAAACTATGGTCCCAATACCGGCGTAAAGATTACTCAGCAGATAAAGGTAGGGGTTGCTTTAAATGCGGCGCTCCTGACCATATGGCTAAGGATTGCACTGGTGGATCTACAAAGTTCATTTTGAAGGACGATAACGTACAGCATGGTGGAGATGAATCAAGGTATGACTTTGTTTTTGATGAGGACAATGGAAGTAACCATAGGAAAGAAAAGAGATATCGAGATCATGATAAAAATAAGCATGTTGAGAGGCCAAACACTAGGAAGCAAAGCCCCACTGGGCGTGAGCGATATGCAGAAAAGAAGAGTGCAAGTGATAGGCATGAATCAAATGACAGAAATAGATTCAGGGAAAGAGAGACGCATCGAGAAAATAAGGACAGACAATCTACTGGACACAGAGGAGACAGGCATGATTTTGATGATCGAAGGGACCATGAAAAACAAAGGAAGAGACAGAGTGACCGGGATGATCATAGGAAAACAGAGTTGGGTTATAAAAAAAGATCAGATGATAATGACGTTTATGACAAGAAAGATTATGAAGCTAATAGAAACAGAGGTGAAAGAGAATATAGTGACAAGTCAGAGAAGAGGAAGGATGAGGAGTTTTATGGCAGAAGGCATACAGATAGTAGCCATGAAGAGAAAAGGTACGAGGGAGATGGTAGAAGGAGAAGTACAGATGATAGTCGAGAATATAGGAAGGATGAAAGAGGTTATGGTAAAAGAAATTTCGATAGCGATGAAGCAGAGATGAAAGACAGGTCGCATTATAAGAAAAGATATACAGTTGATGACGGTTACAAGGACAGGAGAGAGAGAGACGAGCGAGAACCCAGAAGACGAAGCAAGGAAGAGTACAAGAAATGA MSVLIVTSLGDIVIDLHTDVCPLTSKNFLKLCKIKYYNGCLFHTIQKDFTAQTGDPTGTGTGGDSIYKFLYGDQARFFSDEIRLDLKHSKTGTVAMASAGENLNASQFYFTLRDDLEYLDGKHTVFGEVAEGLDTLTRINEAYADEKGRPYKNIRIKHTYILDDPFDDPPQLAELIPDSSPEGKPKDEIVDEVRLEDDWVPLDEQLGPEELEEVFRAKEAHSRAVVLETIGDIPDAEIKPPDNVLFVCKLNPVTEDEDLLTIFSRFGTVLSAEVIRDFKTGDSLCYAFIEFETKEACEQAYFKMDNALIDDRRIHVDFSQSVAKLWSQYRRKDYSADKGRGCFKCGAPDHMAKDCTGGSTKFILKDDNVQHGGDESRYDFVFDEDNGSNHRKEKRYRDHDKNKHVERPNTRKQSPTGRERYAEKKSASDRHESNDRNRFRERETHRENKDRQSTGHRGDRHDFDDRRDHEKQRKRQSDRDDHRKTELGYKKRSDDNDVYDKKDYEANRNRGEREYSDKSEKRKDEEFYGRRHTDSSHEEKRYEGDGRRRSTDDSREYRKDERGYGKRNFDSDEAEMKDRSHYKKRYTVDDGYKDRRERDEREPRRRSKEEYKK Homology
BLAST of HG10005250 vs. NCBI nr
Match: XP_038887784.1 (peptidyl-prolyl cis-trans isomerase CYP59 isoform X1 [Benincasa hispida] >XP_038887785.1 peptidyl-prolyl cis-trans isomerase CYP59 isoform X1 [Benincasa hispida] >XP_038887786.1 peptidyl-prolyl cis-trans isomerase CYP59 isoform X1 [Benincasa hispida] >XP_038887787.1 peptidyl-prolyl cis-trans isomerase CYP59 isoform X1 [Benincasa hispida] >XP_038887788.1 peptidyl-prolyl cis-trans isomerase CYP59 isoform X1 [Benincasa hispida] >XP_038887789.1 peptidyl-prolyl cis-trans isomerase CYP59 isoform X1 [Benincasa hispida]) HSP 1 Score: 1061.6 bits (2744), Expect = 2.6e-306 Identity = 558/615 (90.73%), Postives = 581/615 (94.47%), Query Frame = 0
BLAST of HG10005250 vs. NCBI nr
Match: XP_023530032.1 (peptidyl-prolyl cis-trans isomerase CYP59 [Cucurbita pepo subsp. pepo]) HSP 1 Score: 1051.2 bits (2717), Expect = 3.4e-303 Identity = 553/617 (89.63%), Postives = 580/617 (94.00%), Query Frame = 0
BLAST of HG10005250 vs. NCBI nr
Match: XP_022989122.1 (peptidyl-prolyl cis-trans isomerase CYP59 isoform X1 [Cucurbita maxima] >XP_022989123.1 peptidyl-prolyl cis-trans isomerase CYP59 isoform X1 [Cucurbita maxima]) HSP 1 Score: 1050.8 bits (2716), Expect = 4.5e-303 Identity = 552/617 (89.47%), Postives = 581/617 (94.17%), Query Frame = 0
BLAST of HG10005250 vs. NCBI nr
Match: KAG6589309.1 (Peptidyl-prolyl cis-trans isomerase CYP59, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 1049.7 bits (2713), Expect = 1.0e-302 Identity = 553/617 (89.63%), Postives = 580/617 (94.00%), Query Frame = 0
BLAST of HG10005250 vs. NCBI nr
Match: XP_022930629.1 (peptidyl-prolyl cis-trans isomerase CYP59 isoform X1 [Cucurbita moschata] >XP_022930630.1 peptidyl-prolyl cis-trans isomerase CYP59 isoform X1 [Cucurbita moschata]) HSP 1 Score: 1047.0 bits (2706), Expect = 6.5e-302 Identity = 552/617 (89.47%), Postives = 580/617 (94.00%), Query Frame = 0
BLAST of HG10005250 vs. ExPASy Swiss-Prot
Match: Q6Q151 (Peptidyl-prolyl cis-trans isomerase CYP59 OS=Arabidopsis thaliana OX=3702 GN=CYP59 PE=1 SV=1) HSP 1 Score: 666.8 bits (1719), Expect = 2.4e-190 Identity = 356/515 (69.13%), Postives = 407/515 (79.03%), Query Frame = 0
BLAST of HG10005250 vs. ExPASy Swiss-Prot
Match: P0C1I6 (Peptidyl-prolyl cis-trans isomerase-like 4 OS=Rhizopus delemar (strain RA 99-880 / ATCC MYA-4621 / FGSC 9543 / NRRL 43880) OX=246409 GN=cyp13 PE=3 SV=1) HSP 1 Score: 386.0 bits (990), Expect = 8.2e-106 Identity = 241/483 (49.90%), Postives = 312/483 (64.60%), Query Frame = 0
BLAST of HG10005250 vs. ExPASy Swiss-Prot
Match: Q8WUA2 (Peptidyl-prolyl cis-trans isomerase-like 4 OS=Homo sapiens OX=9606 GN=PPIL4 PE=1 SV=1) HSP 1 Score: 381.7 bits (979), Expect = 1.5e-104 Identity = 239/497 (48.09%), Postives = 317/497 (63.78%), Query Frame = 0
BLAST of HG10005250 vs. ExPASy Swiss-Prot
Match: Q9CXG3 (Peptidyl-prolyl cis-trans isomerase-like 4 OS=Mus musculus OX=10090 GN=Ppil4 PE=1 SV=2) HSP 1 Score: 379.8 bits (974), Expect = 5.9e-104 Identity = 238/509 (46.76%), Postives = 318/509 (62.48%), Query Frame = 0
BLAST of HG10005250 vs. ExPASy Swiss-Prot
Match: Q4WAQ9 (Peptidyl-prolyl cis-trans isomerase-like 4 OS=Neosartorya fumigata (strain ATCC MYA-4609 / Af293 / CBS 101355 / FGSC A1100) OX=330879 GN=cyp6 PE=3 SV=1) HSP 1 Score: 354.8 bits (909), Expect = 2.0e-96 Identity = 231/487 (47.43%), Postives = 301/487 (61.81%), Query Frame = 0
BLAST of HG10005250 vs. ExPASy TrEMBL
Match: A0A6J1JEX6 (Peptidyl-prolyl cis-trans isomerase OS=Cucurbita maxima OX=3661 GN=LOC111486286 PE=3 SV=1) HSP 1 Score: 1050.8 bits (2716), Expect = 2.2e-303 Identity = 552/617 (89.47%), Postives = 581/617 (94.17%), Query Frame = 0
BLAST of HG10005250 vs. ExPASy TrEMBL
Match: A0A6J1ES07 (Peptidyl-prolyl cis-trans isomerase OS=Cucurbita moschata OX=3662 GN=LOC111437036 PE=3 SV=1) HSP 1 Score: 1047.0 bits (2706), Expect = 3.1e-302 Identity = 552/617 (89.47%), Postives = 580/617 (94.00%), Query Frame = 0
BLAST of HG10005250 vs. ExPASy TrEMBL
Match: A0A1S3BHJ7 (Peptidyl-prolyl cis-trans isomerase OS=Cucumis melo OX=3656 GN=LOC103489645 PE=3 SV=1) HSP 1 Score: 1042.0 bits (2693), Expect = 1.0e-300 Identity = 548/621 (88.24%), Postives = 574/621 (92.43%), Query Frame = 0
BLAST of HG10005250 vs. ExPASy TrEMBL
Match: A0A0A0K7H0 (Peptidyl-prolyl cis-trans isomerase OS=Cucumis sativus OX=3659 GN=Csa_7G237870 PE=3 SV=1) HSP 1 Score: 1031.6 bits (2666), Expect = 1.4e-297 Identity = 542/613 (88.42%), Postives = 568/613 (92.66%), Query Frame = 0
BLAST of HG10005250 vs. ExPASy TrEMBL
Match: A0A6J1D2L2 (Peptidyl-prolyl cis-trans isomerase OS=Momordica charantia OX=3673 GN=LOC111016763 PE=3 SV=1) HSP 1 Score: 1022.7 bits (2643), Expect = 6.4e-295 Identity = 534/614 (86.97%), Postives = 564/614 (91.86%), Query Frame = 0
BLAST of HG10005250 vs. TAIR 10
Match: AT1G53720.1 (cyclophilin 59 ) HSP 1 Score: 666.8 bits (1719), Expect = 1.7e-191 Identity = 356/515 (69.13%), Postives = 407/515 (79.03%), Query Frame = 0
BLAST of HG10005250 vs. TAIR 10
Match: AT1G53780.2 (peptidyl-prolyl cis-trans isomerases;hydrolases;nucleoside-triphosphatases;ATP binding;nucleotide binding;ATPases ) HSP 1 Score: 193.7 bits (491), Expect = 4.2e-49 Identity = 108/223 (48.43%), Postives = 141/223 (63.23%), Query Frame = 0
BLAST of HG10005250 vs. TAIR 10
Match: AT1G53780.1 (peptidyl-prolyl cis-trans isomerases;hydrolases;nucleoside-triphosphatases;ATP binding;nucleotide binding;ATPases ) HSP 1 Score: 166.0 bits (419), Expect = 9.4e-41 Identity = 94/205 (45.85%), Postives = 126/205 (61.46%), Query Frame = 0
BLAST of HG10005250 vs. TAIR 10
Match: AT1G53780.3 (peptidyl-prolyl cis-trans isomerases;hydrolases;nucleoside-triphosphatases;ATP binding;nucleotide binding;ATPases ) HSP 1 Score: 166.0 bits (419), Expect = 9.4e-41 Identity = 94/205 (45.85%), Postives = 126/205 (61.46%), Query Frame = 0
BLAST of HG10005250 vs. TAIR 10
Match: AT2G36130.1 (Cyclophilin-like peptidyl-prolyl cis-trans isomerase family protein ) HSP 1 Score: 135.2 bits (339), Expect = 1.8e-31 Identity = 68/161 (42.24%), Postives = 94/161 (58.39%), 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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