HG10008857 (gene) Bottle gourd (Hangzhou Gourd) v1
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Overview
Sequences
The following sequences are available for this feature:
Legend: polypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below.ATGTTTAAAACCGTCCGCTTCGAAATATCACGACTGAAGGAAGGGGGACGTGGTGGCGGCACAATGTCAGGAAGATGGAGGCGAAGTAAGAGACCCATGGCTCAGGCCGACACTCACGCTCATAGTCCTCCCTTACTTCCGCTTACCACATCTCGCAAGGGTCTTTCAAATGCCATTTCCTGCTGGTATTGCGATTGTAAGATCACCTCCGTCAACGAACTTATTTTCCAATTTGGACGAAGACATGCCAGGTTTCTCTTTCAATTTCAATCGTCTGTTATGGTTTTACTGTCCGTGGAGCACTTTATTAGTATTTTTTTTTTATTCTGTTTGTTCAGCAGTATCAGCATCTTTTTTCCTATTAGACTGAGCTGATGCCCAATTGTTTGCTTATTTATTTTACATTTGTGTGAAACATTGCAGGGTTCTGAGAATGTGGTTCTCGATTGGGATTGGTTTTTCTCTTGCTGCTCTTGCTGTTGTTGCCACGGTTTCAGCCGACGCTTTCTTTTTGTTGTTTATTTTATATATTTTTTAAAAAATTCTTGTTATTCTTGTTATTCTAGCTGTTTTCGTCTGAGTGCTTTCAAACCCACTGTACATCCGAAATGTCCAAAATAAATAGAGATGGCTGGGTCATAATAGGAGTAGAAAACAGAGAAACTCACACGGAAATGATCACAAGAAGCAACACTTTTCTTATTGAAAAAGTGTTCAAGAGTCGGCCTACATATATAGGTGGCTTCTCAACAGAATAACAAATGGGAACAGCAGAAGCGAAACAATTAACTCTTCTAACTCAAATGATAAAATTAGTTATATTACAACAAAATGGCAGCTCATCAGTGGGCTGTCTTAATGATGTAATAGGCTTAGGATAATTTGGTCAATTCAAGCTAATCTTGGTAAATCCTTGATTACTTACATTTTAATTACCAAATTAGGTTTTTAACCTCTTTTAGTTATCCTTTTAGGATTCTTGTAATTCTCTATAAATAGAGGGTTCCCCCTTGTATTACACATCTTCTCATTAATAAAAGACTTTGGTTTGGATTCTTATAGATTTCTCTCCTTATAGTACTTAGGATACATCACTTAATATCCCCCTGCAAGCCAATGTTTGAAGCTTCACAAACATGAAGTTTCTCTGCAGAGGTGGAAAAGGTCGATTTGAAAGTGGCTTGGTAAATATATCAACTACTTGAGGCTTGATCTGTGGCTGGGAGATGATGAACAATGAGTTTTTGTTGTAAACTAGACCTCAAATGAAATTAATGACCAATTCTAAATGTTAAGTCCAAGAATACAATATAGGACTAGCGCTAAGATAAACCACTATCAAGTTATCATACCATAGTATGGTCAGCTTGGAAAGAGGAATATGAAGTTCTTTAAGCAAAGAAGATAGCCAAATTAACTCTAAAGTAACGTGTTGGGTTTCTAATCTCCCTGCACTTAGTAAAACCCATCAAGGATAGACAAAAGTAGGGGAATATGATCCCTGTTACGATATCATCCAATTCAAGTAGAAATTCCAAGGCAAGTTCACAATCACTATGAAAAGTACAACCATGAAATAGTCCAAAGAGCAACAAGAAAAAAAATAACAAAAGATGAACAACACAAAGGAACCAACACTTTCAAGAGAGTTGGAAATTCTCTCCTATCCTCAGCCTTTAGCCAAGATCTTTTCTCTTGATCATAGACCATCAAAGCTCTTCTTAAACTCCTCGGTGGTTCCCACTTGTAACAAATTCCCTTGGTTAATGTTCGGTATCTCATTTGTCCCTTGTGCAATTCCTCTATTACCCCTTTGAGAATACATATATAGGATTTGGGTCTCATAATATCGTTATTTCGAGACTCATCTTGTCCTTAAGGTAGAAAAGAGGAAATTGTTTCTTCATAAAATCGACTCCCACGTAGGCTTGCTTTCAAGTAAGTTCATCCACTTCACTAACCATTCATTAGTTGCCATTTCTCCATTCTGTCGAACTCCCAAGACTGATTCTGGCTTCACTTGCAACTCAAAATTCTTCGTGTGATTTGGAGGATGTTGTTGGACTGAGTACTTGCTCCCACCAACTTTTTATGTTGAGAAATATGGAAGACATTGTGAATCGATGCCTCAGGAGGCAACTTCAATCTATAAGCCTTTTCGCCAATTCCCTCAAGGATTTGGTATGGACCATAGAATTTGGTAGGTAACACACCTCTTCTTTGCTAGTGTACATTGTCGATGGGGACTAGGGATGCAAGCATAAATCGAAAAACTCGAAAAACCGACCGAAACCGCTGTCGGCTCAGTTTATTACCGGTTCGGGTCAAAGATTCAGTTTTTACATTTAAAAAACCGATCAAAACGGTTCGATTGCGGGTTTAGTACTGGGTTGGTGGAATATAACCGAATCTACTGAATAATTATATTAGTAATAAAAATCGTATAGTTTACCAACAGGTGCAAGTGGCTCCAGTGGCAATGCCTTCAAGATGATGCCAGTGGCATGTTCGAGCTAGGATGAACGAAAATATTTTATTTTGAGAGTTTACAAACATGTGTGTTGCAAATTCCTTGACCCTGCTTGGGCCTCATCCAAATAACGTGAAGTGGGCTCATGGGCCTGCCTTTGAGAGACAAATACCCAATTATTAACAATGTGAACTGGAAACCGAACCGAGTAAATTGGTTTCCAACAGTTCGGCGTGGTTCGGTCAATATTCATAGGCGGTTCGACGCAGTTCTTCCATTTCCTTAGTAATATCTGGCGGTTTGGCTTCGGTTTGAGGCTCAAATCGAGCCGAACCGAACCGATTACACCCTTAATAAGGACAGAGTTTCAGGAACACTTCATCTCCCACCACTTAAGAAATACAGACACGAATGCGGATACAGAGGCAAAAAAAGTCAAAAGTCTTTTTGGGGGTGGTGGCTTTTAGGAGCCTTAATACTCATGACAAATTACAGAGGAAGTTTGGGCTCTATCCCCTATATGCCAGCTTGTGTATGAAAGGAGAAGAAAATACTGATCATATCTTCCACCATTGTCCGTTTTGCTCAATATGGTTGGAAGTAGTTGTTGAATACTTTTGGGATCTTTGATTGTCTCCCTAAACAGATTGATAATTGGCTGGTTGAAGTGCTTATGGCTGGAAGTTGAAGAGGAAAGCTGGAATTTTATGGGGCCATGCAGTAAGAACTTTCCTTTGGGCTTGTTGGTTCGAAAGGAACAAATGTCTTTTTTTATGATAAGTTCACTGCCTACTTCCTTTTGTGACAACTTTTAGCTTTTATCATCTTGGTGGTATGACACCTGCAACCAATTCTTTTGTAATTATCCAATTGCGTTAATTCCCAAAATGGAAAAAGTTTTTTTAATAATCTCTCTTGGGAGGAGGTTCTCTCTTCCCCAAGCCCCTAAGTTGTGTTTCTTCTTTGATGGTTATATCATATGTTCGTACCTTTTTTATCAAAAGGAAAAAAAAAAAGGAAAAAAAGAAAAGCTAATAGCCAAACTAACTTTTAAAAAATGACAAGTGACAGAAAGCCCAAAACTAAAAGATAGACTACATCAGAGAGGCTGAAAGAAGAGTCGGTCCTTTGTAGTCAAACAAGGACGGCTACTCATTGGAAAATGAATGTAATGGATATATAGAAGGGTAAAGAGGGAGGAAGAAATCAGGGAGCACGGGAAGGGGCAGAAGGATAGATATTTATGCTGTCATTATCCTTAGAGTTCATCAAGAACATTTTTCAACTCAATCAAGCTCCAAATTGATTCTTACATTTCACTCTGGACTCTATTTTTATGAACGATAGTATTTGAAATAGACTTCCTACATGAACAAACTAACACCCAAGTGACTTTTTTTCCGCTCTTGCTGTATCGGTGTTCTTTATCTAATCTTTTATTTGTTTTCTCTATTCATGGCTTATTTCCTATAACTGTTATTATTACAGTGCTATATACTCTTTGTCTGGGCAAGTAATTTTCTTTTCTTGTATTAGTTCATGTTAGTAACAAGCTTAATTCTTTATTTTCCAGGTTCTCTTTCGGGAACTTGCAATAGCGATGCATATTTTTAGCAATAGCAATGTGATCCGTGGTCTTCCTATTTCCTATTCCTCGTTATTTGGTCTTCCTCCGTTGGTTCATATACAATACCTTTCAATATTTTGTTCCATTATCATTAAAATTAGATCTCATTCTTCAATTTCTCTGTGAGATGCCTGCTTCTCATTACATTTTTTCTTCTACACTAGATTTCCAGCTGTAGTTTTTCCCCTGCTGATGCTGGATACATAATTATCTCTACCTTAATATCTGTAGCTTTTCATGAATTTGGTCATGCTGCTGCTGCTGCAAGGTATGTTTCTTTCTGCACCATCAATTCTGATTTTTGTTCCTTTTCAATTGACATTTGTTTAACAGTGTTATATTTACTAATTTGTATCAGATGCAATACCTGGAAAATCAGATGATCATTATTTTAGATCTTAGAATGTAGAGGACTAGATTATCATTTCTCACTCTGGAAACTTTACCTGTATGGCAGTGAGGGCGTGAAATTGGAGTATGTTGCTGTTTTTATTGCACTCCTTTTCCCTGGTGCTTTGGTGGCTTTCAATCATGATGCACTGCAGGATTCATCATGCTTCAGTGCTCTTCGTATCTACTGTGCTGGTATTTGGCACAACACAGTTGTAAGCTCAAATTGTGTTATTGGCTGGCCGTTGACTTTTGTTTAATCTCCCATTCTAGTAAGGGATCTGGGTCTGGCTGTAATTGCTTCAGTTGTTTTCTATCTTAGAAGAGATGTATCTAAATGTACGATATCTCTCTAGCTTTCTGCAGCTTCTGGATTGATATTATTCTTCCTGCCGCTGATTTTGTTTCCTCTTTACATACATGGCCAAAGTCCCATGGTACGTCAACATTTTATTCTTGCATAAAATTATTTCATAAATTCACATGAAAAGATTTTATTTTTCATTTTCCAATCTTGACTGAATCCCGTAAACTGTGATAGGTTCTGGACGTTCCTTATACTTCACCATTGTCAAGTTATTTGTCCCATGGTCATGTAATTTTGTCATTGGATGGCATGCACGTTCACAGCGTGGATGATTGGATCAATCTATCGGCTCAAATAAGTGAATTAACATTTCAAAATGAAACCCGGTCCAGACTTGGTGAAAACAACCCAATGGCCGATGGCAGAAGGGGATATTGTGTTCCAAATTTTATGTTGAAAGAAAGCAATAAAGTTCAGTTCACACATGACCAGTCGGCTTGTTTTGGCGACCTTACTTCTTTCACATCTATTCCTTGTGTTAGTTCTACTGCTTTAATTGATAGTTATACGGAAGATAACAATTCTAACCACAAAGAAGGAATATATTGCTTGAACGTCAACGATGTTATTGAGCTTAATAAGTGCACTAGATGGGATAAAGCATTAATCAATGATAGCATTAGCTCCTGTATGTGTTCACAGGTAAGCACTTGATCTTTGTGAGCATTATGCACTTTTGCAAGTTCTCTTTGTTGGCTTTAGCTTATCACATTTTTTTAAAAACTCTAATTCGCAGGATGAAACTTGCTTAGGTCCAGTCCAAATGCCTGGTTTGGTATGGGTTGAGATTACATATTTGAACCCCCATTCCTCAGACTGTTCCTATTCCAGTGAATATCCACTCCCAAGTTCAAATTGTAGTGGAACTTTTATTTTTGTTGGTGATGTGGTCTCAATGGCACGCTCTATTCAGCTGACCATGTACCGACCACGATTGGATTTTCGTTTCGCTACATATCTTCCAGATGTACTGGAAAGGACTTTATCGTGCTTATTTCATACCTCTCTTGCGCTAGCCCTTCTCAACAGTTTGCCGGTAAGTTCTAATTACACCTTTTTGTAAATTATTTTCATATTTACTTCGTGAGGATAATATCTAATAAATTGTAGGGTTTAGTCTATTCTTCAAATCATGTGCTTTGCAGAATTTTTGTGAATATATCTGCTGTTCGGAATTTTGGAATTTTGTAAGTATTATTGATTATGTAATAGCTTCCCCTTTTATCTTTTCTTGGGTGTGAAGTGCCTTTCAATTTCTACATTCTGTGTCGTGATGAACACAATCATTTTCAATATTGATAGTGACTTGATTGTTGCAATAGGACTCTTCTTTAGGAGTTTGAATTTCTAAGGCATCCTTTTTAGCTAATTTTTTCCTTATCCACTGAGCCATAGTATGAAATTTCGCTTCAGTGCTTCTCCGGGATGCCAAAGATTGATTCTTGCTCCTATACTCTAAGTGTCTCCAAACATAGGTCATGTGAAACCTTAAGAACAATTCTCTTTCAACTTCAGAATCAGCCTAAATGGCCGTTGTTACAACTTTATATAGGTTGGACAGTAGCTTAATGACATATTTGGGACTGATTTTGAAATGGTTAAAATCGTTTTAACCATTGTTGGTTACTTGGTCCGGGGAGTTCAATTATGCATTTTGGGCGATTCGGGCTGCCCGGTTTTTCACTTTTTCTTACTTTTCTCAGCAGTTCGCTGTCAGTTCAACACTCAAACTGAGCCAAACCAAATTGATTACACCCCTATGAAACATCAATCTCCTTTGTGAAATGCTTGTCAGCTTCAATATGCTTCGTCTTAATTATGTAGAAATAGATTATGATAGCAATGAAAATCTTGTTATCACAATCGATTTGTATAGGTCTCTTTTGAGGCAATTTTATTTCAAGTTAGGAGTGAGCAATTCAAATAAAAAAATCGAGCCGACCAATCAAAATCGACTGAACCAACTTCGGTCGGTTGGTGGTTGGTCTTTTATTTTGAAAAACTGACAGTTGGTCGGTCAGTGCGCACAAAAATGGCTCAAACCGGCTGGTTGACCGATCTATATATACACATGAAAAAAAAGGAAATTTGAATTTGCACACCAGCTAGTTTTGAAACCACAACCTACTTTTAGTAGGTAATCATTACCTATTTACTTTTTATCATTTTCCCTTCTCTTTCTTCACTTTCTCTCCCTCCAACGTTTCATTTTCCTTTTTTTTCCTCTCTTTCTTCATTTTCTTTCCCTCCCAAGTTTCATCTTCATTTTTCTCTCTTTCTTGCATTTCATCTTCTCTCTTCTTTCTGATCATTTTTTTCTCTCTTTGCCTTATTTCTACTGAACAACACTGCCATCCAGCTCCATGGAGTCACGGAGCAATATTTTCTCTTTCGCCTGCTACATTTTCCTTCTCTCTTTCTCCTATTATCTTCTCCCTCTGTTTTCTTTTCAACCAAAACTCAAGTCACTGGAGCCGAACAACATCATCCAACTAGTATGACTCCAACGAAGATCACTCTCTCAAAACTGAACGAAACTGACCGATTGTTCATGTAACAGTCAATTAGTTCCAAAAACCCTCCCAAAATCGACAACCACTGACAATCAAAACCGAAAAATCGGTGATTGACATTAGTTTGAACCCAGAACCAATACCAACTAAACGATGATCACTCCTATAAGTATCCTTTTAATTCGTATATCCTATAAGTGTACTACGCCATAGCTAATTTTTTTTCCAGCAAAGTAACAATAACTAGAAGTCTAGAAGTTGATTTTACTTCCAGCCCAATCTATTTCAATATACACTTCAACTTGAAGATGGTCATGTTTAAAAAATAATATGCCTTTACTAAAGTTCCTTTATAAAATATTCAAGATTCTATACACAATTTCGAAATGAATGGGTACAGGTGAGTGCATATAACTAACCAATAATAAATGTTATATTTGGACATTTGTGAGATAAATAGATCAGTCTACCCAAATCTTTGGTATCTGTTTTTGACATTTACTTTAGCTTTTACAAATAGTAATTTTAGATTTGGTTTAATAGGAGTTTCTACTGTCTATCGAGTAAACATGCCTCTTGAAGTAAGTCAATAACATATTTCCTTTCATCAACTAAAATACTCTTCTTAGATCTTATGAGCTCCATCCCTAAAAAAGTACTTTAAGGCTCCTGAATTTTTTATTTGAAACTCACTTACAATTTTGTTCTCAAGATCAACAAAACCTTCTTCATTACTACATATGAGAATAATATCATCAATATAAAATTTAAAATAGTAGATTTTTGTGTTCCTAGAGTTTTTATAGAAAATGGAATGGCCTATTTGACTTTGAAAGTATCCATAGCTCTAGTGACTGTTTTTTCAAAGCATTTGAATCAAGTTATTAAACTTTCTTTAAGGTTATTACTCATTGTGTATTTTTATAGGTATATTATTTGGATGGTGAATCTATTCTGGAGATAATTTTTTTCCAACTCACCTCAATGAGCCCGTGGAACAAGGAAAAAGTTCTTCGATGTTTTCTAATGGGAGGGACACTCATCTCAATCTTTTTACTGCTGAGGATTTTCTTCCATTTATTTGTCAGCTGATGGTAATCTGTAACATTGATGTTTTTGTTTATCTTTGAGCATGATAGGTTGCTACTAATTTCTAACTGCATTGGTTGGTAAAGCCGTTTTATTATTTGTATATATAACTTAGATCTCTGCTTCTACAATAAAGTTCTTCCTCATCCAGTAGCACACCAAGCTCTTTTCAGCCGTCAAAAGTTCCGGACCCCAATCCCTCCCTTAGGAACCCCCCACAAGAGCCCAAACCTCAGCCTCTTTACTCTTGATGGAGTTTTTGAGAGAGCCGTTAACCCTTTCCTTGTTCCAGCAAGAAAGCCTCTCTAAACAAAACTTAATCCTATCCCAAAAGGAGATCACACCACCTCTTCTAGACCTAGAGCCATCCCAACACTCACTAACAATCCTTTTGCAATCCTCAAAACAAGCCTAGCTTTCTTCAAACCTAAGCGACGTAGCAAACTTTTTTTCTATAATTGAACTCCCGTAAAGGACCCAAATCAGCAACTATAGGCCTATGATTAGAGCAATGGAAATTCAGATTAATCTTCAAAAATTTGAATTAGATATCATCGAGTTTATCAAGCCTTTCTTTGATGAGCGGACCATTTTGATATTTTATTTTTCAGGTGAAAAGATTTTCGCCGCATCGTGGGTCAATAGGATTGTTGATATCAATTGGCTTGCAAAAGTGGTTCTTTTGGCGCTTTTTTTTTTTTTTTTTTTTTGATATTCGTGAGTGTTCAGACCAGCTTTATGCGTACCTTGACTAATCTCACGGGACAACACGTCTGTTCCTACAATATTTGAGTGTCAAGGAAACCTGTAGGATATTAAATTCTAGATAAGTGACCACCATAGATTGAACCCATGACCCCTTGGCTCCCCCTTCTCATATGCCAAATCTAGAGAATATCTATTGCATCCTTAAGCTTCACAAGTAATTTCTAAGACTTAAACCTCTTCTCCTTTGTTGGATTTCTGTAAAAACCAGTAAATCTCCACCATCAAGAATCATCCCTCATCGTCGCATCAATGTGCCCCACTGAAAAGGACAAGACAAAGAGGTTAGTATCTCGGTTCCAAAGAAGAATCAGGCCCCTGCTTTTACCTCTACTTTGGACATTGAAACAACAATCAACCCCCAACTTAACCTTTGCATTAATCTCATAACTACACATCGTTTCAACTAGGAACACAATTAGTGGTTGTACACTTCTAACCTTGTGTTGAAGTGCCTAGAGCATTTGCCAAACCTTGAACTTTCCAACATAAGAGTTTCAATGAGGCTGAATAGAAGCCTCCGCCGATATCCCTCAAATCAAATTCAAATTCTTGATGTGGCCGAAGCTTTTGCTCAAATACCAAATTGATGTAGCCTAAAGATAAAAGGAGAACTCTCTCCAAGATTCAAATCAAAGTCTTTTATTATGAATCAAAAGTTAACAATATAAGAAGACAATTTCTCTATAGAGAATTGTAAAGCAAACTAACCCTAATTAATCAAAGAAATCAATTATAATCTTAATAAATCAAGGAAACTAATCCTAGGGGTGTTCACTAAAACCGACCAAACCGAATCGAAAATTTAGTTTTTACTGAAGTGTCAGTTTAAAATTATAAAGAAACCAAAATTTTCAGTTCGCCTCAGATTTGGTTTATTTATTTATTTTTACTAATCGGAGTGACGAAGGGCTAAATCGAATGAATAACCGAATCGTTTATATTTATAATTGGGTTTATATAAAATCAAAAATCGAACCGAATATTTGTGGTTTGGTATATATATTCAAACTAGAATTTTTTTCGGTTCGGTTCGGTAGCCAAATCGAGCCATGAACACTTCTAACTAATCCTAATCCTTCTCAGATCCAAGAATTTAATCAAGATAGTTCACTTTACCTTAATCTCATTGCATCACTTATCCAGCTTTTTGTTTGGGCCTCAGGACACAACTCAATCAAGAAACTTACATTATGTAAACGATGATTTTGAAAAAAACTAACCGAGGTATTTGTTGATACAAATTTGAAAATTTAAAAGTCAAAATGGAAATAATCATGAATTATGAATTGAAAGGTAGGGTAAGATGCTATATTGGTAGAATTTAAGTGGTGGAGAGGCAATTGCGTGGTTGGTTTGATTTATTAACCGTCTTACACACGGAATATGCGGAATCTTCAAAAGTTGGACAGCGACAAGCAAGAACATATAATATGAAAATTATGAGAAGATAATGGGAAATCAAATAAAAATAAGGGGCTATGTTGAAAATGGAAGGCAAATGCAAAAGGAAAAGAAGATACATTGAACCTAGACACCCGAGTGGTGGGGTTTAAGAAGAAGAAGAAAGGGGAGGGCATTCACAAGTTTGAGAAAATGGGAGTCCTGAAATCAGCTGTGGATGACTCAATGAGCTTGAGCCTGAGGAGGAGGAATGAAGAGCTGGAGAAGGAACTGGAGGCGAGCCAGGAAAGAGAGCAGGTTATGAGGGAGCAGCTGAAAAGGGCTTGGGAAAGGCTTAAGGTGGCAGAGGAGGCGGAGGAGAGGCTTTCGTCGCAGCTTGGGGAGCTCGAGGCAGAGGCTCTAGCCCAGGCTCGTGATTACCACCAACAAATCACATCGTTGATGAACCAGCTTTCCCAGGCTCATAAACTGCTGCAAGCTGCCTCCACATCCCATTCCATCGCCTCCTTTACATAGATGTTTAAAACCGTCCGCTTCGAAATATCACGACTGAAGGAAGGGGGACGTGGTGGCGGCACAATGTCAGGAAGATGGAGGCGAAGTAAGAGACCCATGGCTCAGGCCGACACTCACGCTCATAGTCCTCCCTTACTTCCGCTTACCACATCTCGCAAGGGTCTTTCAAATGCCATTTCCTGCTGGTATTGCGATTGTAAGATCACCTCCGTCAACGAACTTATTTTCCAATTTGGACGAAGACATGCCAGGGTTCTGAGAATGTGGTTCTCGATTGGGATTGGTTTTTCTCTTGCTGCTCTTGCTGTTGTTGCCACGATTTCCAGCTGTAGTTTTTCCCCTGCTGATGCTGGATACATAATTATCTCTACCTTAATATCTGTAGCTTTTCATGAATTTGGTCATGCTGCTGCTGCTGCAAGTGAGGGCGTGAAATTGGAGTATGTTGCTGTTTTTATTGCACTCCTTTTCCCTGGTGCTTTGGTGGCTTTCAATCATGATGCACTGCAGGATTCATCATGCTTCAGTGCTCTTCGTATCTACTGTGCTGGTATTTGGCACAACACAGTTCTTTCTGCAGCTTCTGGATTGATATTATTCTTCCTGCCGCTGATTTTGTTTCCTCTTTACATACATGGCCAAAGTCCCATGGTTCTGGACGTTCCTTATACTTCACCATTGTCAAGTTATTTGTCCCATGGTCATGTAATTTTGTCATTGGATGGCATGCACGTTCACAGCGTGGATGATTGGATCAATCTATCGGCTCAAATAAGTGAATTAACATTTCAAAATGAAACCCGGTCCAGACTTGGTGAAAACAACCCAATGGCCGATGGCAGAAGGGGATATTGTGTTCCAAATTTTATGTTGAAAGAAAGCAATAAAGTTCAGTTCACACATGACCAGTCGGCTTGTTTTGGCGACCTTACTTCTTTCACATCTATTCCTTGTGTTAGTTCTACTGCTTTAATTGATAGTTATACGGAAGATAACAATTCTAACCACAAAGAAGGAATATATTGCTTGAACGTCAACGATGTTATTGAGCTTAATAAGTGCACTAGATGGGATAAAGCATTAATCAATGATAGCATTAGCTCCTGTATGTGTTCACAGGATGAAACTTGCTTAGGTCCAGTCCAAATGCCTGGTTTGGTATGGGTTGAGATTACATATTTGAACCCCCATTCCTCAGACTGTTCCTATTCCAGTGAATATCCACTCCCAAGTTCAAATTGTAGTGGAACTTTTATTTTTGTTGGTGATGTGGTCTCAATGGCACGCTCTATTCAGCTGACCATGTACCGACCACGATTGGATTTTCGTTTCGCTACATATCTTCCAGATGTACTGGAAAGGACTTTATCGTGCTTATTTCATACCTCTCTTGCGCTAGCCCTTCTCAACAGTTTGCCGGCAAATGCAAAAGGAAAAGAAGATACATTGAACCTAGACACCCGAGTGGTGGGGTTTAAGAAGAAGAAGAAAGGGGAGGGCATTCACAAGTTTGAGAAAATGGGAGTCCTGAAATCAGCTGTGGATGACTCAATGAGCTTGAGCCTGAGGAGGAGGAATGAAGAGCTGGAGAAGGAACTGGAGGCGAGCCAGGAAAGAGAGCAGGTTATGAGGGAGCAGCTGAAAAGGGCTTGGGAAAGGCTTAAGGTGGCAGAGGAGGCGGAGGAGAGGCTTTCGTCGCAGCTTGGGGAGCTCGAGGCAGAGGCTCTAGCCCAGGCTCGTGATTACCACCAACAAATCACATCGTTGATGAACCAGCTTTCCCAGGCTCATAAACTGCTGCAAGCTGCCTCCACATCCCATTCCATCGCCTCCTTTACATAG ATGTTTAAAACCGTCCGCTTCGAAATATCACGACTGAAGGAAGGGGGACGTGGTGGCGGCACAATGTCAGGAAGATGGAGGCGAAGTAAGAGACCCATGGCTCAGGCCGACACTCACGCTCATAGTCCTCCCTTACTTCCGCTTACCACATCTCGCAAGGGTCTTTCAAATGCCATTTCCTGCTGGTATTGCGATTGTAAGATCACCTCCGTCAACGAACTTATTTTCCAATTTGGACGAAGACATGCCAGGGTTCTGAGAATGTGGTTCTCGATTGGGATTGGTTTTTCTCTTGCTGCTCTTGCTGTTGTTGCCACGATTTCCAGCTGTAGTTTTTCCCCTGCTGATGCTGGATACATAATTATCTCTACCTTAATATCTGTAGCTTTTCATGAATTTGGTCATGCTGCTGCTGCTGCAAGTGAGGGCGTGAAATTGGAGTATGTTGCTGTTTTTATTGCACTCCTTTTCCCTGGTGCTTTGGTGGCTTTCAATCATGATGCACTGCAGGATTCATCATGCTTCAGTGCTCTTCGTATCTACTGTGCTGGTATTTGGCACAACACAGTTCTTTCTGCAGCTTCTGGATTGATATTATTCTTCCTGCCGCTGATTTTGTTTCCTCTTTACATACATGGCCAAAGTCCCATGGTTCTGGACGTTCCTTATACTTCACCATTGTCAAGTTATTTGTCCCATGGTCATGTAATTTTGTCATTGGATGGCATGCACGTTCACAGCGTGGATGATTGGATCAATCTATCGGCTCAAATAAGTGAATTAACATTTCAAAATGAAACCCGGTCCAGACTTGGTGAAAACAACCCAATGGCCGATGGCAGAAGGGGATATTGTGTTCCAAATTTTATGTTGAAAGAAAGCAATAAAGTTCAGTTCACACATGACCAGTCGGCTTGTTTTGGCGACCTTACTTCTTTCACATCTATTCCTTGTGTTAGTTCTACTGCTTTAATTGATAGTTATACGGAAGATAACAATTCTAACCACAAAGAAGGAATATATTGCTTGAACGTCAACGATGTTATTGAGCTTAATAAGTGCACTAGATGGGATAAAGCATTAATCAATGATAGCATTAGCTCCTGTATGTGTTCACAGGATGAAACTTGCTTAGGTCCAGTCCAAATGCCTGGTTTGGTATGGGTTGAGATTACATATTTGAACCCCCATTCCTCAGACTGTTCCTATTCCAGTGAATATCCACTCCCAAGTTCAAATTGTAGTGGAACTTTTATTTTTGTTGGTGATGTGGTCTCAATGGCACGCTCTATTCAGCTGACCATGTACCGACCACGATTGGATTTTCGTTTCGCTACATATCTTCCAGATGTACTGGAAAGGACTTTATCGTGCTTATTTCATACCTCTCTTGCGCTAGCCCTTCTCAACAGTTTGCCGGCAAATGCAAAAGGAAAAGAAGATACATTGAACCTAGACACCCGAGTGGTGGGGTTTAAGAAGAAGAAGAAAGGGGAGGGCATTCACAAGTTTGAGAAAATGGGAGTCCTGAAATCAGCTGTGGATGACTCAATGAGCTTGAGCCTGAGGAGGAGGAATGAAGAGCTGGAGAAGGAACTGGAGGCGAGCCAGGAAAGAGAGCAGGTTATGAGGGAGCAGCTGAAAAGGGCTTGGGAAAGGCTTAAGGTGGCAGAGGAGGCGGAGGAGAGGCTTTCGTCGCAGCTTGGGGAGCTCGAGGCAGAGGCTCTAGCCCAGGCTCGTGATTACCACCAACAAATCACATCGTTGATGAACCAGCTTTCCCAGGCTCATAAACTGCTGCAAGCTGCCTCCACATCCCATTCCATCGCCTCCTTTACATAG MFKTVRFEISRLKEGGRGGGTMSGRWRRSKRPMAQADTHAHSPPLLPLTTSRKGLSNAISCWYCDCKITSVNELIFQFGRRHARVLRMWFSIGIGFSLAALAVVATISSCSFSPADAGYIIISTLISVAFHEFGHAAAAASEGVKLEYVAVFIALLFPGALVAFNHDALQDSSCFSALRIYCAGIWHNTVLSAASGLILFFLPLILFPLYIHGQSPMVLDVPYTSPLSSYLSHGHVILSLDGMHVHSVDDWINLSAQISELTFQNETRSRLGENNPMADGRRGYCVPNFMLKESNKVQFTHDQSACFGDLTSFTSIPCVSSTALIDSYTEDNNSNHKEGIYCLNVNDVIELNKCTRWDKALINDSISSCMCSQDETCLGPVQMPGLVWVEITYLNPHSSDCSYSSEYPLPSSNCSGTFIFVGDVVSMARSIQLTMYRPRLDFRFATYLPDVLERTLSCLFHTSLALALLNSLPANAKGKEDTLNLDTRVVGFKKKKKGEGIHKFEKMGVLKSAVDDSMSLSLRRRNEELEKELEASQEREQVMREQLKRAWERLKVAEEAEERLSSQLGELEAEALAQARDYHQQITSLMNQLSQAHKLLQAASTSHSIASFT Homology
BLAST of HG10008857 vs. NCBI nr
Match: XP_008437657.1 (PREDICTED: membrane-bound transcription factor site-2 protease homolog isoform X3 [Cucumis melo]) HSP 1 Score: 833.2 bits (2151), Expect = 1.5e-237 Identity = 419/492 (85.16%), Postives = 436/492 (88.62%), Query Frame = 0
BLAST of HG10008857 vs. NCBI nr
Match: XP_008437652.1 (PREDICTED: membrane-bound transcription factor site-2 protease homolog isoform X1 [Cucumis melo] >XP_008437653.1 PREDICTED: membrane-bound transcription factor site-2 protease homolog isoform X1 [Cucumis melo]) HSP 1 Score: 815.5 bits (2105), Expect = 3.2e-232 Identity = 419/527 (79.51%), Postives = 436/527 (82.73%), Query Frame = 0
BLAST of HG10008857 vs. NCBI nr
Match: XP_004145951.1 (membrane-bound transcription factor site-2 protease homolog isoform X1 [Cucumis sativus] >KGN49826.1 hypothetical protein Csa_000136 [Cucumis sativus]) HSP 1 Score: 809.3 bits (2089), Expect = 2.3e-230 Identity = 411/499 (82.36%), Postives = 424/499 (84.97%), Query Frame = 0
BLAST of HG10008857 vs. NCBI nr
Match: XP_031742143.1 (membrane-bound transcription factor site-2 protease homolog isoform X5 [Cucumis sativus]) HSP 1 Score: 808.5 bits (2087), Expect = 3.9e-230 Identity = 409/489 (83.64%), Postives = 422/489 (86.30%), Query Frame = 0
BLAST of HG10008857 vs. NCBI nr
Match: XP_031742142.1 (membrane-bound transcription factor site-2 protease homolog isoform X4 [Cucumis sativus]) HSP 1 Score: 808.1 bits (2086), Expect = 5.1e-230 Identity = 409/487 (83.98%), Postives = 421/487 (86.45%), Query Frame = 0
BLAST of HG10008857 vs. ExPASy Swiss-Prot
Match: F4JUU5 (Membrane-bound transcription factor site-2 protease homolog OS=Arabidopsis thaliana OX=3702 GN=S2P PE=2 SV=2) HSP 1 Score: 355.9 bits (912), Expect = 9.1e-97 Identity = 203/477 (42.56%), Postives = 281/477 (58.91%), Query Frame = 0
BLAST of HG10008857 vs. ExPASy Swiss-Prot
Match: O54862 (Membrane-bound transcription factor site-2 protease OS=Cricetulus griseus OX=10029 GN=MBTPS2 PE=2 SV=1) HSP 1 Score: 96.3 bits (238), Expect = 1.3e-18 Identity = 118/481 (24.53%), Postives = 188/481 (39.09%), Query Frame = 0
BLAST of HG10008857 vs. ExPASy Swiss-Prot
Match: Q0III2 (Membrane-bound transcription factor site-2 protease OS=Bos taurus OX=9913 GN=MBTPS2 PE=2 SV=1) HSP 1 Score: 94.7 bits (234), Expect = 3.8e-18 Identity = 114/481 (23.70%), Postives = 187/481 (38.88%), Query Frame = 0
BLAST of HG10008857 vs. ExPASy Swiss-Prot
Match: O43462 (Membrane-bound transcription factor site-2 protease OS=Homo sapiens OX=9606 GN=MBTPS2 PE=1 SV=1) HSP 1 Score: 92.8 bits (229), Expect = 1.4e-17 Identity = 116/484 (23.97%), Postives = 184/484 (38.02%), Query Frame = 0
BLAST of HG10008857 vs. ExPASy Swiss-Prot
Match: Q5RAC8 (Membrane-bound transcription factor site-2 protease OS=Pongo abelii OX=9601 GN=MBTPS2 PE=2 SV=1) HSP 1 Score: 92.0 bits (227), Expect = 2.4e-17 Identity = 116/486 (23.87%), Postives = 184/486 (37.86%), Query Frame = 0
BLAST of HG10008857 vs. ExPASy TrEMBL
Match: A0A1S3AV63 (Endopeptidase S2P OS=Cucumis melo OX=3656 GN=LOC103482997 PE=4 SV=1) HSP 1 Score: 833.2 bits (2151), Expect = 7.1e-238 Identity = 419/492 (85.16%), Postives = 436/492 (88.62%), Query Frame = 0
BLAST of HG10008857 vs. ExPASy TrEMBL
Match: A0A1S3AV46 (Endopeptidase S2P OS=Cucumis melo OX=3656 GN=LOC103482997 PE=4 SV=1) HSP 1 Score: 815.5 bits (2105), Expect = 1.5e-232 Identity = 419/527 (79.51%), Postives = 436/527 (82.73%), Query Frame = 0
BLAST of HG10008857 vs. ExPASy TrEMBL
Match: A0A0A0KQ25 (Endopeptidase S2P OS=Cucumis sativus OX=3659 GN=Csa_5G139060 PE=4 SV=1) HSP 1 Score: 809.3 bits (2089), Expect = 1.1e-230 Identity = 411/499 (82.36%), Postives = 424/499 (84.97%), Query Frame = 0
BLAST of HG10008857 vs. ExPASy TrEMBL
Match: A0A1S3AUN7 (Endopeptidase S2P OS=Cucumis melo OX=3656 GN=LOC103482997 PE=4 SV=1) HSP 1 Score: 803.1 bits (2073), Expect = 7.9e-229 Identity = 416/527 (78.94%), Postives = 433/527 (82.16%), Query Frame = 0
BLAST of HG10008857 vs. ExPASy TrEMBL
Match: A0A5A7TGR2 (Endopeptidase S2P OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold376G00150 PE=4 SV=1) HSP 1 Score: 800.4 bits (2066), Expect = 5.1e-228 Identity = 403/476 (84.66%), Postives = 415/476 (87.18%), Query Frame = 0
BLAST of HG10008857 vs. TAIR 10
Match: AT4G20310.2 (Peptidase M50 family protein ) HSP 1 Score: 322.0 bits (824), Expect = 1.0e-87 Identity = 192/477 (40.25%), Postives = 264/477 (55.35%), Query Frame = 0
BLAST of HG10008857 vs. TAIR 10
Match: AT4G20310.3 (Peptidase M50 family protein ) HSP 1 Score: 274.6 bits (701), Expect = 1.9e-73 Identity = 155/358 (43.30%), Postives = 211/358 (58.94%), Query Frame = 0
BLAST of HG10008857 vs. TAIR 10
Match: AT4G20310.1 (Peptidase M50 family protein ) HSP 1 Score: 258.5 bits (659), Expect = 1.4e-68 Identity = 146/349 (41.83%), Postives = 205/349 (58.74%), Query Frame = 0
BLAST of HG10008857 vs. TAIR 10
Match: AT5G24660.1 (response to low sulfur 2 ) HSP 1 Score: 67.4 bits (163), Expect = 4.6e-11 Identity = 45/87 (51.72%), Postives = 59/87 (67.82%), Query Frame = 0
BLAST of HG10008857 vs. TAIR 10
Match: AT3G49570.1 (response to low sulfur 3 ) HSP 1 Score: 66.6 bits (161), Expect = 7.8e-11 Identity = 41/74 (55.41%), Postives = 53/74 (71.62%), 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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