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HG10018195 (gene) Bottle gourd (Hangzhou Gourd) v1
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.ATGTCTTCTGGGTTGAGTTCACTATCATCCAGTGATGAACTTGACAATTTCAACCCTAGAACATCACCCGCTACGCCACCTAAACCTCTCGAAGAAGAATTGGCGTCTCTAGCATTGACCTTACCACATCCCCACCTGCTCTCCGACCAAGAGGATGTCAATGGCGTCTCAGATGGATCCGAGGCCGATAGCACTAGCTTTGGAATTCAACGGAGTGACGAGGAAACGAGGGTCGGCGTAGTTTATGAAGAGAATGTTGTGGGGAATTCGGCTTCGGTGGTTGAGGGAACGACGGGGGGTTCTGATGGTGCTGGGGTTGTGTGGGGGAGGACCAATTCGGAGATTGAGGTGGATAGACCGGCCAGTCCTAGCAGCAGTGGGTATGCAGGTGAAAGAGGAAGCAGCAGTGCCAGTAGCGGGAGGTCGGAGATGGATGGAGTTGCTGAGGACGAGATACAGGAACTGAGGGATGACGCTTCTGTTGGTGAGAATTCGAATTCTGTACACTCCTGGGTTCCTGGAAAGCGGCATGGTGATGAGGTACTGTAATTTGGCAACTTGTTGGCGACTGTTTGATTGGAGAATTTTGAACTCATTGTATGTAGAGTAGATCATGAATGAATATTGATGTTTGTGACTTACTTGGTAACTGTTTCCACGATATGTTTGGTTGGTACATTGTCTCTGAATCTTGTGACGAGGGTGGGCTGGGTTTAAGGAAATTTGAGGCTTAGAAATTTGGCTCTTGTAGCTACATGGCTATGGTGGTTCCCTCTAGAATCGAATACTTTCTGGTGCTAGGTTATAGTGAGAAAATATGGTTGATATTATTTTGGGTGGGTTTTGGCTTGTGTGGTTAAAGGCACCTTGAGGAACTTGCTGAAAGAAATCTCTTTGGGTTGCCCTTGTTTTCCCGAGTGCGAGAAATTTTCTATCGAGTATTGAGGATGGGCCACTCGTTCAATTTTTGGAAGACCGTTCTTTAGATGATAGTCCCCTAAGTTCTCTTTTCCCTTGTATTTTTCATCTCTCTTTTGTGAAGTGCGCTTTTGTAGTCTCTTTTCTTTCTTTATATGGAGATTCCGGTTAGTACAACTTTGATCTTAGGAGACCATTCTTTGAATGGGAAAGTTTTGATGTATCTTCTTTGCTTTCTCTTCTTCACAAGGTTATGCCATTGCCAGTGTTTTTTTAAAGCCCGAGGTGCAATAAAGCGCAATGGCCCTCTAGAGCCTGGTTCAAGGCGCACAAAAAACTCCGTGGTTTTTTTTGTGAGGTGCACTACGTATAACAAAAACATAAAAACATAAAAACATATACATGTGCATATACACAATACAGACCCTTCATGGCAAGAAATGAGGCTTAACTAAAGTATATAAAAGATAAACAAGGTTCTAATATTAGTCTTTCAACACAAAGTCAAGTCAATATCTCACAAAAAAACATGAAACACTACAACAACAATCACAAATAAAAATCTAAAGTCCTAAAGATCAAACTCACCATCACTAAATTGGTCCTCATTTATGAAACACGAATACTCCATTTTAGGGAGAGTGTCTGTGTTGGACATGGACACAGACACAAACACGCTCCAGACACTTGTCGGATTCAAACACGTTCAGATACGCTACAGACACGTGTTCGACACACACATTTTCATGTCCTATTTTTCTTTATTTATTTTTAATTTTAGACACATGGGGACATGTTTGGGACACTTTCTGGACACGCTGAGAATTTTTTTTTAAGGATGAAATGGTCCAACCTTTTATGATGGACCCAAATTTAAAGCCCAAATCAATTATATGTTAAACTAAGATTAAGAAAACAAAAGAAAATCCAAAACCAAAGATAGAAAATAGAAACATAAAAAACTGAACTTAGAAACCTAAACGTTTCATCTCCTACAATTGTGAATTAACTTGACATTTTATGCTTTTTTTTAGTTGAATGCATTTAGGATTTTATGCTAAATTTATATTAAAAAGAATTATAACAAAGAGTGTATCCCCAACGTGTCGTGTCCTAGTTTTTTTGAAATTGGCATATTGTCGTGTCGAGTCGGGTCATATCCATGTCTGTGTTTGTGCCTCTTAGGTCCTCATCTTCATTTTCTCCATCATTGGACTTATAGCCATTTGTATCTTTTTCTTCCGTCTCAGAGTTGGCCCTTCCTCTATTTCACAGTCAATTAGGTTTCTTCATTAATCATCTGAGGAGTGATCAAATTCTCCTCCCACATTGGTTAGCCTGGTCTAGGAAATATTCAGGTAAAGATCCTTGTGGAATAATACTGGGGAAATCCTCATTCTCTTGTACTAAGGTTTTACTATTGTCCTAAGATTTCTTAAATGTCGTCTTTCTTGGATGATGGGTAAATTGCTTAGTTATTTCACTTCTGCATGCTCCATTATTATTTTTATTATTTTTTTTTCTTTTTGTTGTTGTTGTTGTTGTTGTTTTACACATGCTATAGTTTCACTCATTTGAATCTGTTCACTTTTAGACTCTAGATAACTACCCGTTTGAGCGTAGCTTGATGCACTTGAATTTCAAGTCATTATGAGTTTGCTAGCATATGTTGACTTTACTGTATGTGGCATGGAGCAATGTTTGTTTATAGTTAAGCACAGTCATTGGTAGTTATAATGAAAATACAGGCTTTGAAAGTATAGCTCCTTTGAGTATATCGTTATAATTGCCAAGAAAAACTGCTCGTCACCTTTGGTTCATTGTGGTGACCGACTTAACAAACATTGATTATTATCACTACACCTTCCTTGATGAGTTAATTCTTAAAGTTCAGGATGATGCTTCCATATCGTGGAGAAAAAGGAAGAAACATTTCTTTATTCTTAGCCATTCTGGAAAGCCTATTTATTCCAGGTTTGTTCTTGTATAATAAACGGTTTTACCTGTTTAAACTTTAAAGCACTCTAATTTTCAACCTTCTACTAGGAGCTTATTTAAATATTATTAAGGATTGCAGGTATGGAGACGAGCACAAACTTGCAGGATTTTCAGCCAGCTTGCAGGCAATCATTTCCTTTGTGGAGGATGGGTAAGTCGCTGGACTTTGCTATGTTATGAATGAGTTTTACAATTTTTAAGCATTATGATATTCAGAATCTCAGGTAAGTTTCCTGAATCAATGCTTCACATTTCTGATTAATTATTTGTCTTTTCAGGGGTGATCGTGTCAAATGGGTTAGAGCTGGAAAACACCAGGTCTGTTTTCTTTTTCTTTTCTTTTATTTATATGCGTGTGTGTGTATCTAATTGGATACTTTCAATCTAATTGGTTACTTTCAATCTTGGTTATTGCCTTATTGGAGTTGCGTTTTCTTTTAACTTTAGGTGATTTAGGGGAGTCAGAATGGACCTTTGCCATGTCCGTTCTTGATGTTCACTTCATTAAGGCACAAGGGAATGAACTGATAGAGTGGGACCCAACTTAAAAAATAAGAATAATTCTGAAATGTCATTCCTTGTGATACTATTGTAGTGAAACTGGAAATTGGAGGAACAGATCCTGTTTTTTTTTTTTTTTTTTTTTTTTGCTGCTTTCAACTTTCATATTTTGCTTCTGTTATATTAAACTATGATTATTATTTTTCCATCTTCAGGTCGTTTTTCTTGTGAAGGGTCCAATTTACTTAGTTTGCATCAGCTGCACAGAGGAGCCTTATGAATCATTAAGAGGCCAATTGGAACTTATTTATGGTCAGGTAACCTTGGTTCTGCTCGTAACCCATTGAAATATTTCTTCTTTTCTTTTGTCTCTAGCTTTTGTACATCAATGCCTGCTTATTTGTGCAATCGAGTGATCGTCTTTCTTATTGTATGCTTACATTTTTATGAATGAAATATTTGTTGCCATCATGTTTTCTTCATGTATTTGATACATTGTAATACGTGCATGCAGATGATACTTATTCTAACAAAGTCTGTAAATAGATGTTTTGAGAGGAATCCCAAGTTTGATATGACTTCACTTCTTGGAGGAACAGATGTTGTCTTCTCGTCTCTCATCCATTCATTCGGTTGGTTAGTTTCAGCACTCTTGACCTACCTATATGTTTTTCTGGATGGGAAAGACCAGCCTGTTCTCTTTCTCCGTGTAAACTGCTTGTGCTTTCTTCAACTGTTATTCTGCTTATGCTAAAATATGACACCATCCAGACAACTCCAGGGTTATAAGACATCTATTGACTAAGATTTTGAATGGAAAATATTGGACATGGTTTCACATTTTTGTTAACTCAATATTGCAGTTTCTTCGCCAATAGCAGTGTATAAGGATTTTAATAGCATCTATTTCTGGATTGTTCTTTTCTACTACACATACCCCAGCAATCCCCCTTTTTTTAGTTTTTATTTTAATTCAGTCAATGTATTAATTTTTTTCTCTCTCCATATAAAATGTATATACAACTTTTCTTATCATGGGTGGTTGTACTTTTTGATATCATGTTTCAGTGAGGGATATTGGAATTTCATTTTGGAATGTATGATTTATTTCTTTAGTTCTAATTGATTGGAGTTCCACTTCAGGAACCCTGCTACTTTTCTTCATGCATACACTTGTCTTCCTCTTGCTTATGGTACAAGACAAGCTGCAGGTGCAATATTACAAGATGTTGCTGATTCAGGCATTCTTTTTGCAATCTTAATGTGCAAACATAAGGTGACATTTCATCTTCTTAGCCCCCTTCCTGCCCCTTGGCTCCATGTATCATGCTCTCCGTAGAATATATAAGAATCGGATCTAGATTGCAGGTTATCAGTCTTGTTGGTGCTCAGAAAGCTTCGCTGCATCCCGATGATATGTTACTACTTGCCAACTTTGTGATGTCGTCAGAGTCCTTTAGGTAAGTTTCAAAATTTAGGTTATATTATTCTGCTTCATTTAGAACAACCAAATTTTGCATCCAACGTAACCCCAATAAATTAACTTCGGCACAAGTGTGGTAAGTCTACTGATTTTCTTATTTTCTGGATCCATGTACAGTCAGGGTGGTGTCACAGTTTTAAAAAGATTCTTCTGTAAGCTCTTATCCATGATCCTTCAGGATAATTGGTGTTTTGTAATTTGCTTCTGTTTCTGGAGGGGGAGCCGTCTGCTCTCGGCTCTTAGGTGCCTTTTTTTTTTCTTTCTTTTTTTTGGGGGGTGGGTAATTACAGTCTTGCTCAAATCCTCCACAATTGGGAGGCCTAGATGCTTTAGTTCATTTGGGGAGGCGCTTCTTGCCTCTCTGCCCCTTGGCTGTTCTTTTTTGTGCCATGGCCCTGTTTCTTATATAAACAAAGTTGCAACAGTTCTGTCCTTATTTCTTCGTTGCCTTTGGATACCTTTACTGCCTGTGAGAGATTGTAAAATGTTTCTCATTCGCATGTGTGCTATACATGCTTATATCCATGTATGTGAGTACACATGCAGATATTCACATAATAGTTTAATCACGATTGTAGTTTCCTGTTTTCTTATAGAAGATCTAAGCTATTTTGATTGCTATGTGATATTCATTTGATTTAAGAGGCAACCTTGATGTCTTCTTCAAATTCCAAACAGGTTTCTTAACCATCTTCTATTGTCTATTTTGTGTTTTACATTCCATTCCCTGTTTGTCCAGACTCACTCTTTTTACAACTGCACATTATTAGGTTCTTCTGATATGTAAATGTCATTGACTAAATGAGTGGTGGTTTCTTTAGATATCTTCGATTTGGTTGATGTGGATCATCTTTGACATGTCCTATCCATAAACAAGTGGTTACTTTTTCATTTTATCTTTTCCCCCTTTTAATGCAGGACATCCGAGTCTTTCTCTCCAATATGCCTTCCAAGATACAATCCTATGGCATTTTTGTATGCATATGTTCATTATTTCGATGTGAGTGAGACTGATACTTCAAATTTTATTGGGTAAAATATACTTTTGGTCTAGGATTTAAACATAGTTTCTATGTGGTCCCTGAGTTTTCATAGCTACACACATGTTCCTTGAGATCTGAATTTAGTTTCTATTTGGTCATTGAGGTTTCAAAATTGACAGCAATTTAAATTTGATTTCTAATCTTTCCTTGAAGTTTAGCCAAAATGAGCATATGGGAGGGAAATTTGTTGTCATGAAAGTTTTATGATGCAAGTGTGGGGGTATTTTATAACTGCGTTGCCGTTATGATAAAGGAAACTACCTCAATTATGTTTGAGAACTAGACTAGAGAGTTAATAGGAATCTCTTTTGTGGATGAGAAGTAGATTCTGGATGTAGTGAGTCTGAGGTAGGGAGAGAGGAACTCTCAACTTCTCTTAGGTTTGTTGAAACTTTTTGAATGAAGTGGACTCTCTACTCGATACCTAATTAGTGTATGATTTTCTGTTTTGTTTCAACTTAGTATCAGAGATCTTAATTGCAACACCCCTACCATGTTCTTTTTTTCACCCTTATCAATTCTTTTCACGGGTATACTGCTGTCATTAGGATGAATGCAAGTATTGTGATGTTCTTCACCGATTGAGCTTTGTAATTTAATTAGGTTTTATAGTGGGCATAAGTAATTGTGATGTTCTATATATTATCCTCACTGCATATTGACTGAATAAATGTCTTGTGGCAGGTCAACACTTACTTGATGCTCCTTACAACTAATTCAGATTCCTTCTATCACTTAAAGGAATGCAGGTGAAATAGACGTCATATATCAGTACTATTAGAGTGTCGTTTGGCTGTCAACTAAGGCAAAAATGGAACATGTTTTTACCAACCATAATGTTTTTGTTTCTTTACAAATTACACCATGGATGTCCTGTCCTGCCAACCCACCTGACATGCTTTTAAAAATTCAGGTCGGCTACATAAATTGCATTTAAGTTTGAGCAAATTGCTATATTCCTATCAAGCAAAAATTTTCTAACCCTCTTTATCATGTATTTTAGTTAGGATAATGCACTGTATGAAATGTCATGATTAAAATGCATATCGAAGCAACATAGAATGACATTGAAAATTTTGTCAAGAATTAGGCCTACGCAACCTCATTGTGCCTTTATTATTATTTTAAACCTCAAACCAACTACATACTGCAATTTTTTTTGTTATTCAAAGACATTTGTGGGTTCCTATTCAATAATTGATAGTTGATACATTTTTCCTTTGCATGTTCTGAAAAATGGTCGACATCAAAGGATTCGTATTGAGACCGTCCTTCTGAAGTCAAATGTTCTTAGTGAAGTTCAGAGATCCATGTTAGATGGTGGGATGCATGTTGAAGATGTGCCTGTTGATTCTTTACCTCGTTATAGAACTGTATCTCCTCATTTGGGCCAACAAAGAGCTCCATCAGAGTTTCCTGAAAGATTCAAGGAATCTTATGCTGGGATGGGTGGTCCTGGTGGACTGTGGCATTTCATTTACCGCAGTATATATCTGGATCAGTATGTATCTTCTGAATTTTCATCTCCAATTAGCAGCCGGCAACAACAGAAGAGGTATTTGTGGCAAATTTCTAATCCCATAAATAACACTTAGATAGTTTTTTAAGCCCCTCTTATTAATCACGCTTTTTTAGATAAAATTTTATTTCTTTACATATTTGTTTTGATTTCTTTATTGTTGCAGATTGTACAGAGCATACCAAAATATTTATGCTTCTATGCATGATAAAGAAATTGGCCCTCACAAAACCCAGTTTAGAAGAGATGAAAACTATGGTACGTTTTTTGTTTTCCTTTGAGATTTCCAATTGGATTAATACAATAATTTATTTTCGCATAATTATACTGCACTTGCACTCTTGATGGTAAGGTTTTTCCTTTTTCCTTTATTATTATTATTATTTTCTATCAATTTCATAATTTTGTTGGCCTTCTGTTCTTTATTCCACTGTATTTCTTTACATCAGAATCACACGTTTTCCTTAGACTTTAGTTTGTCTCTTATATTTTTGTTTCGATAATCCACCACAATCAATTTTTGTTATATTACATCTAATTTATCCCTCTGGACTTTGTTTATCGTATACCACTAATCCACTGTCATGATAAGGAGTTTGATCTTTATTGGAGTTTTAGCCTTCCAGAGCCTTAATCAAAATATGCTCCAAGTCCAACATCTTATTAGGGTGGCATAAACATCTGAACAGATATTTTATATAATTTGCAGAATCTTCTATCAGGGGTATGCTTAGGTTTGAATTATGCAATAGAGGAAAGAGTGGCCTGTGTCTGTTTCAGTTGCATTAAACCCATTATCTGCTTAGACATAAAGATATGTGAACATATTGGCATTCTGTTAGGTACTAGATATTTAGTTAGTGTTAGTTAAGGAGTATAAGGATAATTAGATAGATAGGGAGTTACCGGTAGTTATTGCATAAGGGTGGTTACTAGGGTGGTTACTACTTGTTATAAATAGAGGGAGGTTATTCTGTGAACGAGAGGTTATTTTGTGGAGTGATCTAGGGCTTGGGTGAGGATACTCAAGAGGGAGGTTCCAAGTGCCTTGTACTTGAGTTTATCTTGTATTTTCTTTATAGTTATATCTCAATATATTCAGATCTTGTTCTAGTTAGGAAGTATCCTAACAAATTGGTATCAGAGCCATTCATCTTGGAACAACAATTTTAGTAATGGATCTTGATCATGGAATTAACGAATTCTTAGAGATACAAAGAGACATGAGAGAAATACGACATAGGATCAAGGATTCCCAACAAAGATGGGCAGAAAGAGAAGAGAGAAGATTAGCAGCCATCAACACAAAGAAAGGAAACTTGATTCGAAAGCTATCTGGTCGAGTTCGAAGAGTGGCGGGAAGACGACGATCGTACCCGAGTATCCCTCTAAAAAAGTTTGGGAGAACCAATCGGCAAGGCAAGAGGGATGTAAAGAAAGAAGAATTGGTGAAGACGGAGTCAAAAACACAATGAGAAGGGCATGGTCAGAACGTTCGAACTTTAAAAATATTAAAAGTTAGTGAGACAAGGAATGGAAGGAGTAAAATACCAACGCAGGGGAGACAGAGGAAGAAGAATCGAGTGGTCAAATGGTGGAACAAACGAAACGGTGGCCGGAAGAAAAAAAAGAGGAAGAACCTACCAACGAACATGCAATCAACACAAAGAAAAGAAAAGCTTCAAATTCAAGCAAATGGGGGAGTTTGTGCTGCTTATTGGCTGAATCTCCAATTCATTAAGCAGGCTGTAGAGAAGGCTGCCGGTTTTGTGTTAAAAGAAAAAAAAAAAGAAGAAGAAGAAGAAGAAGAATAAGTTGCCCAATTTTGTGATCATGTTTGTACACCTTGAGGACAAGGTGTCTTTGAAGGGTAGGGTAATGTTAGGTACTAAATATTTAGTTAGTGTTAGTTAAGGAGTATAAGGGTAGTTAGATAGCTAGGGAGTTACTGTTAGTTATTGTATAAGGGTGGTTACTACTTGTTATAAATAGAGGGAGGTTATTCTGTGAAGGAGAGGTTATTCTGTGGAGTGATCTAGGGCTTGGGTGAGGATACTCAAGAGGGAGGTTCCAAGTGCCTTATACTTGAGTTTATCTTGTATTTTCTTTATAGTTATATCTCAATATATTCAGATCTTGTTCTAGTTAGGAAGTATCCTAACACATTCATGTTTAAATATGGTTTTTCTTGGCAGTTCTACTCTGCTGGGTCACCCAAGATTTTGAGCTTTATGCAGCATTTGATCCATTGGCTGATAAGGTATTTCTTTTTGTCGATTTATGAGTATTTCTGGTTGACTGAAAAAATTATTTATATGAAGGCATAGTGACCATGTTCTTGCTTGTTGGTCTTTCATGAATGGACATATGGTGAATTTTAAGTTTATTTTATTTTACAAGAAAAGTACTTTTCATTGATGTTTGAATAGTTCCAAACTTGAAATTACTAGCGAAACAATACAAACTTTAATGATTAGGATCTCAACTCTTCAGTAGATGAACGGTATATTTGGATTAAACTCCTAATTTGAAAAACGGTGCTTGGACATGGTTTAGCACTTACGGAATTTGTGGATTAATATTTAAGTCCTACTTCAAAATTTGGAATGAAGGGAATAGAAGAATCTAGAAAGATAGTCTGGAAGACCTTATGAGTTATTTGGAGGTTTCCATTTCATGTATCTAGTTGGCTTTTCTGCTTATAGAGATTCCAATTTGAGTGGTCTCTTTTACAGATCCACCTTTTTGAGTTTTCTTGTCGTCAATTCTGATTTCATTCTCTCCTTTGAAAGGAAACAAAAAGATAAGGAAAATTCTTGATCGTTTACTCACACTAGATACATGGCTTTCTCGGTGATATCCATGTTCAATCTTAGAGATTTGGATAAGAAGGGTATTGTCACCATCTTTATCATTTCTTTTGCATACTTTGTGATGGCAGCATCTAGTCTTTGCTGACTTTTTGCACCTACACACTCTTATTTGTTTCGACAAGAAACAATACTTTCATTGAAACTTTCCATTGGAGAAATGAAAATATACTAATGCTCAAAAATTAAAAGATACACACTCTGCAAGGGAGTGAAAGAAATACAATTACAATGAAAAAAAGGCATTCCAAAGTCCCATCTGCCTTGGATCTCGTTTCCCTCTCAAAAGGGCTTCTTCAGAGATTCTTGGTCTTTCGTGGTGTATTCTTGACCCTTTTTTTGGTTTTTTGTTTCTCTTTGTTTGGTCTAGCTTGTTTTGGTTTGGTTTGCCCATTAGTTTCTTTTGGGACTCTTTATCTAAGTTTTTTGTGCTTCTTGGTTGAAGGTTTTCTTCTTTTTTGGCCTGTCTTCCTCAGTTATGTTTGTCTCCTGTATTTGTCTTTTATTTGGAGATCTTGTATTTTGGAGCATTAATCTCTTTTCAAATTAATGAAATCATTGTTTTCATTTAAAGAAAAAAAAATCATATGAATTTATGCTTGTTGACTTCAAAAACTGCATTAACCTGTAAGTTTGATTTTGGCACCAACGAAAGCCCGACCAGTAATTGAAGAACATTATCCTTGGAAACAATGGAAAACAACCAGTGCACCTACACTGTTACTAGTTCTACTTTGATTCTGACCCTGCTTGTATTGTTGTGATAGAGATCTGGTAGAGGTTTTTCTGAATCCTCCATATTAAAGGAAATTTTGGCAGGCTGGTTGTTAGTGCTCGATATGGGCTGTTTAGGATAGAAGTAGATGAAAGAGAGTTTGGAGCCTCTCCCTTGTTTTTTAACTCTTCCCTGCTTCTTCATTTTTTTTTTCTTCTTTTTCTTCTCTCTATTACTGTCCACTGGAACTCACCCTAATTAATATTTGTTTTTTCTCCTTTAAAGAACTTTAGTCTTCTTATTTAGTTTTCAATTGGAGATCTGTTTTGTAATCACCCTTAGATGCTTGGGGTCTCCCTTATTTCATTTATTCAGTTTCTTATCTAAAAAAAAGAATATTTGCTTTTTTCCTTACGGTTCCCTTTACTTTATGTGTCTGTGTGTGCCTATTGACTTTCTTTTATGTTTCCTTTGGTAATGTGAATTTGATTTCCTTTGGGGGAAACAAAAGCTTTTCTGATTGTAGAAGATATGATTTCACAGGCTTTGGCGATAAAGATCTGCAATCGAGTTTGTCAATGGATTAAGGATGTTGAAAACGAAATTTTTCTTCTGGGTGCGAGCCCATTTTCATGGTAA ATGTCTTCTGGGTTGAGTTCACTATCATCCAGTGATGAACTTGACAATTTCAACCCTAGAACATCACCCGCTACGCCACCTAAACCTCTCGAAGAAGAATTGGCGTCTCTAGCATTGACCTTACCACATCCCCACCTGCTCTCCGACCAAGAGGATGTCAATGGCGTCTCAGATGGATCCGAGGCCGATAGCACTAGCTTTGGAATTCAACGGAGTGACGAGGAAACGAGGGTCGGCGTAGTTTATGAAGAGAATGTTGTGGGGAATTCGGCTTCGGTGGTTGAGGGAACGACGGGGGGTTCTGATGGTGCTGGGGTTGTGTGGGGGAGGACCAATTCGGAGATTGAGGTGGATAGACCGGCCAGTCCTAGCAGCAGTGGGTATGCAGGTGAAAGAGGAAGCAGCAGTGCCAGTAGCGGGAGGTCGGAGATGGATGGAGTTGCTGAGGACGAGATACAGGAACTGAGGGATGACGCTTCTGTTGGTGAGAATTCGAATTCTGTACACTCCTGGGTTCCTGGAAAGCGGCATGGTGATGAGGATGATGCTTCCATATCGTGGAGAAAAAGGAAGAAACATTTCTTTATTCTTAGCCATTCTGGAAAGCCTATTTATTCCAGGTATGGAGACGAGCACAAACTTGCAGGATTTTCAGCCAGCTTGCAGGCAATCATTTCCTTTGTGGAGGATGGGGGTGATCGTGTCAAATGGGTTAGAGCTGGAAAACACCAGGTCGTTTTTCTTGTGAAGGGTCCAATTTACTTAGTTTGCATCAGCTGCACAGAGGAGCCTTATGAATCATTAAGAGGCCAATTGGAACTTATTTATGGTCAGATGATACTTATTCTAACAAAGTCTGTAAATAGATGTTTTGAGAGGAATCCCAAGTTTGATATGACTTCACTTCTTGGAGGAACAGATGTTGTCTTCTCGTCTCTCATCCATTCATTCGGTTGGAACCCTGCTACTTTTCTTCATGCATACACTTGTCTTCCTCTTGCTTATGGTACAAGACAAGCTGCAGGTGCAATATTACAAGATGTTGCTGATTCAGGCATTCTTTTTGCAATCTTAATGTGCAAACATAAGGTTATCAGTCTTGTTGGTGCTCAGAAAGCTTCGCTGCATCCCGATGATATGTTACTACTTGCCAACTTTGTGATGTCGTCAGAGTCCTTTAGGATTCGTATTGAGACCGTCCTTCTGAAGTCAAATGTTCTTAGTGAAGTTCAGAGATCCATGTTAGATGGTGGGATGCATGTTGAAGATGTGCCTGTTGATTCTTTACCTCGTTATAGAACTGTATCTCCTCATTTGGGCCAACAAAGAGCTCCATCAGAGTTTCCTGAAAGATTCAAGGAATCTTATGCTGGGATGGGTGGTCCTGGTGGACTGTGGCATTTCATTTACCGCAGTATATATCTGGATCAGTATGTATCTTCTGAATTTTCATCTCCAATTAGCAGCCGGCAACAACAGAAGAGATTGTACAGAGCATACCAAAATATTTATGCTTCTATGCATGATAAAGAAATTGGCCCTCACAAAACCCAGTTTAGAAGAGATGAAAACTATGTTCTACTCTGCTGGGTCACCCAAGATTTTGAGCTTTATGCAGCATTTGATCCATTGGCTGATAAGGCTTTGGCGATAAAGATCTGCAATCGAGTTTGTCAATGGATTAAGGATGTTGAAAACGAAATTTTTCTTCTGGGTGCGAGCCCATTTTCATGGTAA ATGTCTTCTGGGTTGAGTTCACTATCATCCAGTGATGAACTTGACAATTTCAACCCTAGAACATCACCCGCTACGCCACCTAAACCTCTCGAAGAAGAATTGGCGTCTCTAGCATTGACCTTACCACATCCCCACCTGCTCTCCGACCAAGAGGATGTCAATGGCGTCTCAGATGGATCCGAGGCCGATAGCACTAGCTTTGGAATTCAACGGAGTGACGAGGAAACGAGGGTCGGCGTAGTTTATGAAGAGAATGTTGTGGGGAATTCGGCTTCGGTGGTTGAGGGAACGACGGGGGGTTCTGATGGTGCTGGGGTTGTGTGGGGGAGGACCAATTCGGAGATTGAGGTGGATAGACCGGCCAGTCCTAGCAGCAGTGGGTATGCAGGTGAAAGAGGAAGCAGCAGTGCCAGTAGCGGGAGGTCGGAGATGGATGGAGTTGCTGAGGACGAGATACAGGAACTGAGGGATGACGCTTCTGTTGGTGAGAATTCGAATTCTGTACACTCCTGGGTTCCTGGAAAGCGGCATGGTGATGAGGATGATGCTTCCATATCGTGGAGAAAAAGGAAGAAACATTTCTTTATTCTTAGCCATTCTGGAAAGCCTATTTATTCCAGGTATGGAGACGAGCACAAACTTGCAGGATTTTCAGCCAGCTTGCAGGCAATCATTTCCTTTGTGGAGGATGGGGGTGATCGTGTCAAATGGGTTAGAGCTGGAAAACACCAGGTCGTTTTTCTTGTGAAGGGTCCAATTTACTTAGTTTGCATCAGCTGCACAGAGGAGCCTTATGAATCATTAAGAGGCCAATTGGAACTTATTTATGGTCAGATGATACTTATTCTAACAAAGTCTGTAAATAGATGTTTTGAGAGGAATCCCAAGTTTGATATGACTTCACTTCTTGGAGGAACAGATGTTGTCTTCTCGTCTCTCATCCATTCATTCGGTTGGAACCCTGCTACTTTTCTTCATGCATACACTTGTCTTCCTCTTGCTTATGGTACAAGACAAGCTGCAGGTGCAATATTACAAGATGTTGCTGATTCAGGCATTCTTTTTGCAATCTTAATGTGCAAACATAAGGTTATCAGTCTTGTTGGTGCTCAGAAAGCTTCGCTGCATCCCGATGATATGTTACTACTTGCCAACTTTGTGATGTCGTCAGAGTCCTTTAGGATTCGTATTGAGACCGTCCTTCTGAAGTCAAATGTTCTTAGTGAAGTTCAGAGATCCATGTTAGATGGTGGGATGCATGTTGAAGATGTGCCTGTTGATTCTTTACCTCGTTATAGAACTGTATCTCCTCATTTGGGCCAACAAAGAGCTCCATCAGAGTTTCCTGAAAGATTCAAGGAATCTTATGCTGGGATGGGTGGTCCTGGTGGACTGTGGCATTTCATTTACCGCAGTATATATCTGGATCAGTATGTATCTTCTGAATTTTCATCTCCAATTAGCAGCCGGCAACAACAGAAGAGATTGTACAGAGCATACCAAAATATTTATGCTTCTATGCATGATAAAGAAATTGGCCCTCACAAAACCCAGTTTAGAAGAGATGAAAACTATGTTCTACTCTGCTGGGTCACCCAAGATTTTGAGCTTTATGCAGCATTTGATCCATTGGCTGATAAGGCTTTGGCGATAAAGATCTGCAATCGAGTTTGTCAATGGATTAAGGATGTTGAAAACGAAATTTTTCTTCTGGGTGCGAGCCCATTTTCATGGTAA MSSGLSSLSSSDELDNFNPRTSPATPPKPLEEELASLALTLPHPHLLSDQEDVNGVSDGSEADSTSFGIQRSDEETRVGVVYEENVVGNSASVVEGTTGGSDGAGVVWGRTNSEIEVDRPASPSSSGYAGERGSSSASSGRSEMDGVAEDEIQELRDDASVGENSNSVHSWVPGKRHGDEDDASISWRKRKKHFFILSHSGKPIYSRYGDEHKLAGFSASLQAIISFVEDGGDRVKWVRAGKHQVVFLVKGPIYLVCISCTEEPYESLRGQLELIYGQMILILTKSVNRCFERNPKFDMTSLLGGTDVVFSSLIHSFGWNPATFLHAYTCLPLAYGTRQAAGAILQDVADSGILFAILMCKHKVISLVGAQKASLHPDDMLLLANFVMSSESFRIRIETVLLKSNVLSEVQRSMLDGGMHVEDVPVDSLPRYRTVSPHLGQQRAPSEFPERFKESYAGMGGPGGLWHFIYRSIYLDQYVSSEFSSPISSRQQQKRLYRAYQNIYASMHDKEIGPHKTQFRRDENYVLLCWVTQDFELYAAFDPLADKALAIKICNRVCQWIKDVENEIFLLGASPFSW Homology
BLAST of HG10018195 vs. NCBI nr
Match: XP_038894456.1 (vacuolar fusion protein MON1 homolog isoform X2 [Benincasa hispida]) HSP 1 Score: 1079.7 bits (2791), Expect = 0.0e+00 Identity = 559/628 (89.01%), Postives = 563/628 (89.65%), Query Frame = 0
BLAST of HG10018195 vs. NCBI nr
Match: XP_004139448.1 (vacuolar fusion protein MON1 homolog [Cucumis sativus] >KAE8652778.1 hypothetical protein Csa_022725 [Cucumis sativus]) HSP 1 Score: 1070.1 bits (2766), Expect = 6.7e-309 Identity = 550/627 (87.72%), Postives = 562/627 (89.63%), Query Frame = 0
BLAST of HG10018195 vs. NCBI nr
Match: XP_008462534.1 (PREDICTED: protein SAND [Cucumis melo]) HSP 1 Score: 1069.7 bits (2765), Expect = 8.9e-309 Identity = 550/627 (87.72%), Postives = 562/627 (89.63%), Query Frame = 0
BLAST of HG10018195 vs. NCBI nr
Match: XP_038894455.1 (vacuolar fusion protein MON1 homolog isoform X1 [Benincasa hispida]) HSP 1 Score: 1063.1 bits (2748), Expect = 8.3e-307 Identity = 559/660 (84.70%), Postives = 563/660 (85.30%), Query Frame = 0
BLAST of HG10018195 vs. NCBI nr
Match: KAG6583584.1 (Vacuolar fusion protein MON1-like protein, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 1062.4 bits (2746), Expect = 1.4e-306 Identity = 548/634 (86.44%), Postives = 558/634 (88.01%), Query Frame = 0
BLAST of HG10018195 vs. ExPASy Swiss-Prot
Match: Q9SKN1 (Vacuolar fusion protein MON1 homolog OS=Arabidopsis thaliana OX=3702 GN=MON1 PE=1 SV=2) HSP 1 Score: 667.9 bits (1722), Expect = 1.0e-190 Identity = 363/628 (57.80%), Postives = 429/628 (68.31%), Query Frame = 0
BLAST of HG10018195 vs. ExPASy Swiss-Prot
Match: Q5JL08 (Vacuolar fusion protein MON1 homolog OS=Oryza sativa subsp. japonica OX=39947 GN=MON1 PE=3 SV=1) HSP 1 Score: 615.5 bits (1586), Expect = 6.0e-175 Identity = 346/621 (55.72%), Postives = 406/621 (65.38%), Query Frame = 0
BLAST of HG10018195 vs. ExPASy Swiss-Prot
Match: Q9YGN1 (Protein SAND OS=Takifugu rubripes OX=31033 GN=sand PE=3 SV=1) HSP 1 Score: 207.2 bits (526), Expect = 4.9e-52 Identity = 146/465 (31.40%), Postives = 232/465 (49.89%), Query Frame = 0
BLAST of HG10018195 vs. ExPASy Swiss-Prot
Match: Q95KG9 (Vacuolar fusion protein MON1 homolog A OS=Macaca fascicularis OX=9541 GN=MON1A PE=2 SV=2) HSP 1 Score: 202.2 bits (513), Expect = 1.6e-50 Identity = 149/510 (29.22%), Postives = 247/510 (48.43%), Query Frame = 0
BLAST of HG10018195 vs. ExPASy Swiss-Prot
Match: Q86VX9 (Vacuolar fusion protein MON1 homolog A OS=Homo sapiens OX=9606 GN=MON1A PE=1 SV=3) HSP 1 Score: 201.8 bits (512), Expect = 2.1e-50 Identity = 151/517 (29.21%), Postives = 248/517 (47.97%), Query Frame = 0
BLAST of HG10018195 vs. ExPASy TrEMBL
Match: A0A1S3CIR5 (Vacuolar fusion protein MON1 homolog OS=Cucumis melo OX=3656 GN=LOC103500868 PE=3 SV=1) HSP 1 Score: 1069.7 bits (2765), Expect = 4.3e-309 Identity = 550/627 (87.72%), Postives = 562/627 (89.63%), Query Frame = 0
BLAST of HG10018195 vs. ExPASy TrEMBL
Match: A0A6J1HMH2 (Vacuolar fusion protein MON1 homolog OS=Cucurbita moschata OX=3662 GN=LOC111464922 PE=3 SV=1) HSP 1 Score: 1060.8 bits (2742), Expect = 2.0e-306 Identity = 547/634 (86.28%), Postives = 557/634 (87.85%), Query Frame = 0
BLAST of HG10018195 vs. ExPASy TrEMBL
Match: A0A6J1I552 (Vacuolar fusion protein MON1 homolog OS=Cucurbita maxima OX=3661 GN=LOC111469307 PE=3 SV=1) HSP 1 Score: 1045.4 bits (2702), Expect = 8.6e-302 Identity = 543/641 (84.71%), Postives = 554/641 (86.43%), Query Frame = 0
BLAST of HG10018195 vs. ExPASy TrEMBL
Match: A0A6J1DFB6 (Vacuolar fusion protein MON1 homolog OS=Momordica charantia OX=3673 GN=LOC111020536 PE=3 SV=1) HSP 1 Score: 1014.6 bits (2622), Expect = 1.6e-292 Identity = 527/627 (84.05%), Postives = 542/627 (86.44%), Query Frame = 0
BLAST of HG10018195 vs. ExPASy TrEMBL
Match: A0A660KT03 (Vacuolar fusion protein MON1 homolog OS=Carpinus fangiana OX=176857 GN=FH972_011312 PE=3 SV=1) HSP 1 Score: 837.4 bits (2162), Expect = 3.6e-239 Identity = 441/622 (70.90%), Postives = 483/622 (77.65%), Query Frame = 0
BLAST of HG10018195 vs. TAIR 10
Match: AT2G28390.1 (SAND family protein ) HSP 1 Score: 667.9 bits (1722), Expect = 7.2e-192 Identity = 363/628 (57.80%), Postives = 429/628 (68.31%), 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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