![](http://cucurbitgenomics.org/sites/default/files/styles/slideshow/public/carousel/101322_web.jpg?itok=EG-G51x6)
Sgr026139 (gene) Monk fruit (Qingpiguo) v1
Overview
Sequences
The following sequences are available for this feature:
Legend: polypeptideexonCDS Hold the cursor over a type above to highlight its positions in the sequence below.ATGACTCACCCACCCTCGCCCACACCAATTTATGCTCTCTCTCTCTCTCTCTGCTTCCCCTTGCGCTTGCCTCTATTAAATTTTCATCTTTCTCTCTCTTTCTCTCTCTCTCTCTTAGTTGCTTGTGGTGCGGTGGTTGGAGTGGAACAAAGTAACAGAAACATCTGGCAGCTGGGTCTTTATTGCGTATGATTTTTACTCCTTTGCTTCGTTGGATCCATGAGTTTTGGGTATCAATGACTTGATGACTACGATGAATTTGCCTGCTGTTTGGGCCACCTCATTACTTATTGTTCTTCTGCATCTTCTTCTTCTTCTCTCCGCCTCTTCCGCTCCGAGAGTATGCCTTCTTTCTCTCTTCCATGGCTTTCTTTCCTTTTTTTGATATTTCTAGTGACTTGTTTCTGAGTTTTGCTTACTGGTTTGATCAGGGTCTATTCTTCGAAGACAAAACCAGGCTCGGATCCACCCCACCCAGCTGCCATAACAAGTGCAACGAGTGCCACCCATGCATGGCGGTGCAAGTGCCGAGCATGCCCGGCCGCGCCGGCCGGTTGGACACGGCCACGGCTTTGCCAATGGGGTTCTTCGACTCGTCTCCACAAGGGAACAGATACTCATTTTACAAGCCATTGGGTTGGAAATGCCGCTGTGGAAACCACTTCTTCAACCTTAGCCCAAAACCAGACCAAATTTTCATGTCCAAATATAGAGGGTTGGTCCTCCATTGTTCTGGTTTGTAAATGACTTTGAATTGTTTCTTTTTTTATTGTAAGGATGGAATTCTTTGTTCAGAGGGAAGCAGGAATGCAGAATGTTTGGTTTTTGCATTTATTGTATTGTATTGTACATACTCCAACTCTATACTATCTATCATCTAGAGAGATCAACATTTGACCCTACTTCTAGTTCTACTTGGTTCCATTTTTTGTTTTTTCTTTTTGAGGAAAAACATCTAAACTTGATGAACTTTTTTGTTTGGTTTTTGTTTAAAATTTATTTTTGGGTATGGGACATCACTTGGCTTTTTCTTATCTTCTTGGGATTTACATAAAGCTCTGACAGAGCAAGCCTCAGCCACAGATCAAATCATGTGCTGCATTTTTCAAACTCTTTTTGATGTGAGTTTAGATCTTTTCGCCTTTCTGCTTGCTGCAACCATCCCATCTGAATGACTCCAAATGCCTAACATTACAAAATGCAACTAGAGCACAATATATATATTTTTTGTTTGTTTTCTTTTGGTAATTGTTAATTGTTTTTTGTGTTTTTTAAGATTTAGCCTTTTTTTTTTATTATATTTTCTTTATTTGTAATATACTTTTTTAAAAGATAATTTTAATTCTAAAAAAATGTCTAAAAATTGTTTTGTTAAGTTTTTAAAAAATGATTACAAAAAAAAAAAAAAAAAAAAATTGGTGGGTAAATAAACTTAATTTTAAAAATAATATGTAATCAGATAATCTTGTTTTTATTTGCCAACTTGTATCTCTTTGTTGTGGATATGCTAATATTTAGGTGGTTGTTATTTGAGTAGAAAATAATTTTTAATGATTTATTCACGTTTCTGGTGTTTCTGAATAAAAAAAGAATTAAGTGTTTGATCTTTTTTACGGTTCTTTTTGCTTATTTTTAAGGTTAAATTACAAGTTTAGTCTAGAAATTTTTAAGGTTGTGTCAAATAAGTCTATGACCTTTCAAAAGTGTTTAATAGACTTTCAATTTTGTATTTAATTTGGTCCCTGAATTTAAAAAATGTCTAAGTGGTCCCCGAACTCTTAATTTTGTGTCTATTAAGTCTCTGACTTATTCGACAATTTTTAAATTAATAGATCTATTATACAAAAAATTTAATTTTGTATCTAATAAGTTCCTTAGTGAATTTTAAAAAATCTCTAATATGTTAGGGACCTTTTAGACACAAAATTAAAAATTTAAGAATTTATTAAACACAAAATTGAAAGTTTAAGAACATATTATATACTTTTTAAAGTTCATGGATCTATTAGACACAATATTGAAAGTTTAAGGACCTCATAGACATTTTTTACAGTTTAAAGACTTATTTGACATAATTTTAAAAGCTCAGCGGCTAAACTTGTAATTTAACCTATTTTTAATATAAAAACTTGTGTTTGATAATTTATTTTCAAGTTTTGTACTCTGTAATTTTATATTAAAAAAAATTCAATTGATAAAAATACTGTTTGAAATGTAACAATAAATTTATTACATTAATTTAGTTTTGTGACATTTAATATGTAGTATAAAAAATTATTCCATTAATATTTTTGTGAAATTTAAAACAAGAAACTATGGTATTACTTGGCTATAATGTTTGTTACATCATTAATGTGCAAAACTAGAGTAAAAAAATATAAGAAAGTAGTGGTTTTCTTTTTCCCTGTTTTAAAAAATTTTACCCTTCATGAACATTACTAATAAGTACAAAATGAGATATATAAAATGTTGTTAAATCCATCAATTTCTCTTAAAATGAGAACTTGAAATTGTTTGGAAGTTGTTTTTAAAATTCTGTTTTCTTAACACAAAAACTCAGTCAAACATATTTTTGGCTAATTGATTTTAAAGTTATTCTGCTTTATCTTCTTCTTACCTTGTTTTCGCAAATAGTTTATATTTTGAAACAATTAAACTTGTTCTTAGAAAACCGTAAATGATTATACAACAATTCTAATATTTACAAGTCATTCCATTACAATTTTTAAAAATTATTCTATAAAATACTTATTAAGTTTTGTACTATCAAATCTGTATGCCATGTTAAGTATGTTTCTGAAAATATATATAAAAATTGAAGAAATAAATTTATAATGTCGACCTTTTTTTTTTTTTTACACAAAACTACAAATCTAAATGGAATTACTCTCACGTGAATATTAGTGCCTCAAGTACATTAACAAAAATTAGAGAAGGACTTAAAAAACTTATCTAATAAGTATATCGTGTCAACATTATATTAATGTCGTTAATGCTAGGAAGTAAATAAAAGTAAAATCCCAAGTTTTAGAGCTTTTTTAAATTGTTAATTTTAGCATAACTCATTTGTTAAGAAGACATTTATAACTCATTTAAAAATTTAGGTTCAAATCCTCACCGTGATACTTGTGATATAATATTGGTTAAAAAATTCTTTTTGTCCCTATACTTTTATTGAAGTAATGATTTAGTCCTTGAATTTTAATATATAATGATTTAGTTCTTGTATTTCTAAATTTGTAATAATTTAGTCCCTGAATTTTAGTTTATAACAGTTTAGTCTTTATAGTTTAAAATTTGTAACGATTTAGTTCCTATCATATAAAATTTTTGTTAAGATTTAATGGGGATTCTTTACATATATCGATCGGTAAACTACTTATAATCCAAATGTGTTTATAAACTATAGAGACTAAATTATTATATAATAAAAACAGACACTTCATCTTGGTAAGATTTTTCATGGTATGGACTAAATCGTTACATATTAAAGTTTAGAGACTAAATTGTTACAAATTTAAAAGTACAAGGACCAAATTGTTACAAATTAAAGTTTAGGGACTAAATTATTACTTCAATGAAAATATAGGGACTAAAAATGTTTTTTAACCTATAATATTCTTTAAAAAAAGACAATCTAGTGCTCAAATTATAGAGATTGTATTTATAATTTAACTAATTATTTAATATGATTAGCATAATGTGTCTAGTGCTTTTATGCTTTTAAATGGACTAGAGAGAAATGGAAAAAATAATGTTAAATTGCCATCTTAGTTTTGGATTGATTTTGATCTCAATTTGTTCTATATTATAGTCCCTATAGTTAGTTAAAGCTCCCAAAATGTCTCCAAAATGCATGTGCGTAGAAAATAGATGGTGTTGTTGCATATCCTAAATCCGCAAACCATCTCTTTTCTACTTAACCATTTCCTCTTTACCCTAAAACCCATCTAATTTCTTTTAATTTTTACTCAACTTAAACTCTAATATATAGTGAGCTAATATAGTCAACCAATGTAACTTTTACACATATCTAATACTTACCTCTTTCTATCATGTTTAAAGAAAATGTGCTACACAATAAAATTGTTAACATCTAGTAACGGTAATGACATTTGGAGAGATTTAACTAAACTTTAAAGATTATAATTAAACTTTCAAAACTAAAGGGTGAAAGTAAAATTGAAGTTTGGACTAAGATAATAATTCAACAAATTTTCTTTTTTTTTTTATTATCCACTTCATAGGAGTTATGAGAGTTAGGGTCACCCACAATCTCTCCATAACAAAGTTGAGAATTAGTGATAAAGTAGAAAAGGAATAAAGATTCATAATTGAGGTCTATAACGGTTGCAAAATCCGTTAAGTTGCCGGGAGCATTCCGCGCCACAGAAACTCGGAGCCGGTCTCCTTCTCCTTCTCCTTCTCCTTCTCAGCCATGGCGAGCATCACCATGATGCTCGTTCGTCCCAATCTCATACCCGCTTCTTCCGATCTGCTTTCCCCTTTTCTCCGTCGATCTCTTCCTTCCACAGCCATATGTTTCCGGACCTCCAGAAAATCTACCACTTACAAACCTTTCTCCCTTTCAGTCTCAGCTTCTTTACAGGCTCTAATATTTGACTGCGACGGCGTGATCCTTGAGTCCGAGCACTTGCACCGCCAAGCATATAACGATGCCTTTGCTCATTTCGACGTCCGTTGCCCTAATTCAACGTCGCAGCCGCTCAATTGGAGCATCGAGTTCTACGACGAGCTCCAGAACCGCGTTGGTGGCGGCAAACCCAAAATGCGATGGTATTGTTCTCTTTCTATCATTTCACTGTTACTGTTAGTAATATGTTTTCCGGGTTCTCGGCGGTTTATTCGTGTTTTTGCATCCGAAGGTACTTCAAGGAGTTCGGGTGGCCATCGTCAACGATCCTCGAGAAGCCTCCGGAAGATGACGAGGACCGAACGAAGTTGATTGATATTCTTCAGGCATATTTATTTGATTTCCTGCCTTGTATCGATATTGTTATAGTGATGTGATGCTGATGTTATTATCCTTTGGCAAATGTAGGCTATGAGCGCTTTCGTAATTTGTGTTAGTTTATATATACAAATTGGATATCCTAGTATTTGACCCTTTTTATGCTGGATTAGTATTGTACATATGTACGGTTCAGGCGTCCTTGTGCATTCATAGGAAAAGTTTAGTGTCTGCATAGGCTTATCCATTTTAACTGATCTATTGGTTCTAAAGCTGTGATCCATATGTTTTGCGCTAATAAGCAACTTTCGTGATATACTTTGTGCTTTGAGATTCTATTAATGCCCTTTCTTTGGTCTTGTAGGATTGGAAAACGGAAAGGTACAAAGAAATAATAAAATCTGGAACTGTAAGGAAATAAATAGGTTTCATTTGGTATTGTTTTTGCTACTTTTATAAATTTTGTTGCTTGAGTGGCTCGTTAAGAACACAGATTGCTTTAATTCTGCCAGGTGAAGCCCAGGCCTGGGGTTCTAAGATTGATGGATGAGGCAAAGTCTGCTGTAAGTAATACAATTTAGCCATCCGACTGCTTTTTCTTTGGATAAAGTTTCAAACTTTGAGTTATCTTATCCCATTCAGCAGGATATCATCTCATAATTATCTGACTGTTTTTTCCTTGTATCACTTGTGGTGGTTTGATCCATGTACCTCTTCCAAAGCAGATGACAAGGGGATGGGCGCATTTCTTTGTTCAATTTATCATCAACTTATTTTATACTCCTTTGCATCAATTCTGTAATTCAATTTTCTACTTCGTCTTTTGTTGTTATTTCTCTTTCAAGTTGCTTATGAAATTAAGGTAAACTATTGTACTGTTTTTGTAGGGCAGGAAACTTGCTGTATGCTCTGCAGCTACCAAAAGTTCAGTTATTCTTTGCCTTGAAAACCTTATTGGAATTGTAAGCCTTTTGATTTGGTTCTTCATAGATTTAGAATCCCTCTTCTTGAGATAATAACATAATGTGCTTCTCTGATTTTAGGATCGGTTTCAAAATCTTGATTGCTTCCTTGCTGGTAAGCTTACTGCTTTTCCTATGTGATAATTTCTTGTGGTATGACTACTGTACATAATTTTAGTACATTATTAGATAGATACCTCATATTCAACAGTAAGCTTGAAAGAATATCTCAGAGCCTTTGTTGTAGGGTAATTAAATGTCCACCCATGCAGTGGGTGAATTACAAACGGTTTCCTTTGTCCTGTCTAATAAGTGATAGGTTTGCCTTAAATCGATCAATGATGATATCCATTTGTTTCAGTTCAGTTGGTCCTGGAAATCAATTGATTTTTAGGTTCTTTTGTTTATTTGTAGGTGATGATGTGAAGGAAAAGAAGCCCGATCCATCCATTTATATAACAGCCTCAAAAGTAACTAATACATAGTTCATGACTTTGAAACCTTCCTCTCTTGACGTGCAGTGGGCATGCATTGTTATTTTAACTGTAACATTTGCCTTGCAGAAGCTAGGCGTGTTAGAAAAGGATTGCCTGGTGGTTGAGGATAGTGTTATTGGCTTGCAGGTATATCAATTGTTCTGTAACTATTATTTTATAAATTGAAAACTTTGAGAATGAAAACAAAAATGTATATATAAATCATCTCAAAACTTCATTTGCATTTTTAGGCTGCAACAAAAGCTGGAATGCAATGTGTCATTACCTACACAACTTCCACAGCTAACCAGGTAAGAATGTGCCTCTAAGTTTATGTGTCATGTTCCCACACTCACAAAAAGATAGAAGGCAATATGTTTTTCCTTAGCTGAAAACTTAGCCAAGTATATCCCCGATGGTGACAATATTTGGATTTATTGAAATTAGGATTTTAAAGACGCAATAGCAACCTATCCAGACTTGAGTGATATAAGGTATGTAAGCTCCTCAAGTTTCTCTATTATGTTTTCGTTTCTATTTAATCCCTTGGCATCATTCTAATTTTTACTTTTGGCACCATAAATGCAGATTGAAAGACTTAGATTCACTACTACAAAATGTTGCCACTGCCAGATAGAAAATTTCTCACAACATTGAATTCATGATAACCAAGGAGCTTCCATGAAGTTTTGCTGCTATGCTAATATTGTTTTAGTATTTCCATACAATGTACAGGTGTACATGTATATTTGAATGGCAAGATTTAATAAAATTATGTTTCCAATCCTCTTCCTTACTAGAAAAATTATACATTTGAATGCACTACCAGAAGAGGCATCATAAGATGCCGTTGTTTGGACAATATCTGTCAACCAACGGTCAAGTTTAGTTGATACAAGAGGAGCTGGACTGATTAACCTTCTCAGGTGCCGAACTAATTCTCTCTTTCCATACACTTATCAGGCATTTGACTTGTAGCTTCTGATTTTATTGCTTTAAGATCTCAAGTGAATGGGTGGTATCTTTAGTGGCTAAATGTACAAGCCATATCATGTTCTTGAGAGTAGTAATGGATCAGGATAGCACGTTTCTGTTTTCCTTCTGTTCCTGTTGTTTCCCATCATTTTGTTTTCTTTCTTGGCGAGGGGTGGGGATGGACTTTGATTGGTGGTGGTATATCAAGAACAGAAAGCTCTTCAACTAAATTAGCAAAGGAAGAAGCCATGAACTTTATGGAAGAGAGCTGGAAACGTGACCTAATACTCTCCACTTTTCTCCCGTGGATATCCTCGGCCAGGGTAATGATATATTTTATTGTCGCATACCGAATCTAATAACTAGCCCAAATACGGCCCAAATACCGTTCATTCAGTAGCTGTTTTAAGTATCCACTGCATGGATTTTGGTGCAGGGTAAAAACCCAATGTCACTTCTACCTCATTTTCTTTTTCTTTCTTGAAGTCATGGTATGCCTCGATTGATTCATGATAGTTCAAAAGACAAAATTAAGTTGAACAGTCAAATTTATTTGTCTCGCATCTATGTATGATCTCGAGCTGAGTATAATCAAGACTTTTTTTTTTGTTGAGAATATCACAAATTAAGAGTGAGGAGATTCGAACTTACGACCTTTTAGAAGAAGTAGGGATAGTTCAACTAGAGATATTTTAACTGCTAAACTATGTTCGTGTTGGCAAATATAATCAAAGACTTTTGCTTCCGAAGGTAAATAATACATCATGACAAATGCAAATATCTGGCTCTCAACTTTGGTTATTTATTCCTTTCGCCGCACACGATTGTCCCGAGAAAGTGGTTGGAAGAGATAGGACTGGACTAGATGCGTTACTTTATTCGGTGTTAGAGATGATAATGTTGGACGAATACCTTGTTTATTCTTACAATCCAATCAATCCTGGCCGTCGAATTGACACATGAAGATAGATGAATCACAGAACTTGGTTAACACAAAACATAATTCTGCAGTCTTGAAGTTTGCCATCTTCGTTGATTGAGATGAGCAAGTCAGTGGTCGATAAACCTCATGCAGTGTGCATCCCCTATCCAGAGCAAGGGCACACGTTGCCCCTTCTGCAATTAGCCAAGCTTCTCCATTCAACTGGTTTCCACATAACCTTTGTCATCCCGGAGTTCTATCACGACCACATAAAACAGTCCCAGGGACCTGATGCCCTGAAGGGCTTGTCTGATTTCCAGTTCCAGACCATACCAGACGGGTTGCCTCCATCTGAACGCAAGGCCTCCCCAGATGTTCCGACGCTCTGTGATTCAACTAGGAGGAACTTCTTGAACCCATTCAAACGGTTGGTGGCTGAGCTGGATTCTTCGGTGGAGGTGCCTCCGGTGACCTGCATAATTGCCGATGGGGTCTTGAGCTTTGCTATAAAAGCTGCTGAGGAGTTGGGGATTCCAGAGGTTCAGTTTTGGACTGCTTCTGCTTGTAGCTTCATGGGATATCTGCAGTTTGATGAGCTTATTCGACGAGGAATTTTGCCATTCAAAGGTACGAGTTTTCCTCGAGCTTTTGCAGTTCTATCATGTATTACCGTTCCCATGATTTTGGATATGGTGATAGACTAGTTGTTAAAAATTTGTTTATGATTATTGTTTGGATATATGTTAGAGAAGTTGATAATATAATTGAGGATAGTGATATAACGATGGACATATTAAGTTTGAATTTTAATAGAAAAGAAAAGAAAAGAAAAACGCATCATTTTATCTGTATAACCTCCTCTAAACTTATTCGTCCTTGATAATGACCATTTTTTTGCCAGATGAAACTTTCTTGAGTGATGGTACTCTTGACACACCCATCAATTGGATCCCAGGGATGAAAAACGTCCGCCTTAGGGACCTCCCAAGCTTCATCAAAACTACTAACATAGATGAAACGATGTTTGATTTCATGGGATCAGAAGCCCGAAATTGCTTGAGATCTTCTGCTATCATCTTCAACACATTTGATGAACTTGAACATGACGTTTTAGAAGCAATTTCAGAAAAATCCCTCCAAATATACACAGTAGGACCCTTATCCTTACTAAGCAGACAAGTAACTGAAAGCCATTTGAAGCCATTAAGGTTGAGTGTGTGGAAGGAAGACCAAAAATGCCTCGAGTGGCTGGATACACAGGCCCCCAAATCTGTTGTGTATGTAAGTTTTGGCTGCATAACCACGATGACAGACCAATGTTTAAGAGAATTTGCATGGGGACTAGCAGAGAGCAAGCAACCATTCTTGTGGGTATTGAGGCCTGATATGGTAGTGGGTGATGCAGCTATTATACCCGAAGATTTTTTAGAAGAGACGAAGGGCAGGGGATTTCTATCAAGTTGGTGCCCTCAAGAGCAAGTGCTGGCGCACCCATCAATTGGGGCTTTTCTGACTCACTGTGGTTGGAACTCTACTTTGGAAGGCTTATGTGGGGGTGTGCCATTGATGTCCTGGCCGTTCTTTGCAGATCAACAAACGAATTGTCGATATGCTTGCATCAACTGGGGCATTGGCATGGAATTGAACGACGACGTGAAGCGCACAGATATTATAGCAATTCTGAAGGATATGATGGAAGGAGACAAAGGGAAGGAGTTGCGGCAAAATGCTGTAGAGTGGAGAAAGAAAGCAGAAAAAGCAACTGCCATCGGTGGTTCATCCTTCGCTAATTTCAATAGGTTGATCAAGGAACAATTTCGTGCTGGTTAGTGCTTAAGCAAATTGGTTATATGGGGAGAAAGATTATGCAATGCTCATGGACCACTTTTGAGATTTTTCGTCTTTCAATCTTTCTTTCCATTGGTAGAATCATGTTTAAGCTTTTCAGATAATCAAATGCTTCGGCAAATGGAGAATGTTCATATTTCGAAGCGTTCAGCGGCTGCAGGAGTCCAAAACAGAACTGCCAGTACAAGGGGTGGATATCTCTCCAGTTCCATTCCACCACATGCAGAAATCAAAGTCTTTATCTTCCCAGAACTTGAGAGTTCCACTAGCTGCTCTACGCCTTTTTAG ATGACTCACCCACCCTCGCCCACACCAATTTATGCTCTCTCTCTCTCTCTCTGCTTCCCCTTGCGCTTGCCTCTATTAAATTTTCATCTTTCTCTCTCTTTCTCTCTCTCTCTCTTAGTTGCTTGTGGTGCGGTGGTTGGAGTGGAACAAAGTAACAGAAACATCTGGCAGCTGGGTCTTTATTGCGGTCTATTCTTCGAAGACAAAACCAGGCTCGGATCCACCCCACCCAGCTGCCATAACAAGTGCAACGAGTGCCACCCATGCATGGCGGTGCAAGTGCCGAGCATGCCCGGCCGCGCCGGCCGGTTGGACACGGCCACGGCTTTGCCAATGGGGTTCTTCGACTCGTCTCCACAAGGGAACAGATACTCATTTTACAAGCCATTGGGTTGGAAATGCCGCTTTGCCGGGAGCATTCCGCGCCACAGAAACTCGGAGCCGGTCTCCTTCTCCTTCTCCTTCTCCTTCTCAGCCATGGCGAGCATCACCATGATGCTCGTTCGTCCCAATCTCATACCCGCTTCTTCCGATCTGCTTTCCCCTTTTCTCCGTCGATCTCTTCCTTCCACAGCCATATGTTTCCGGACCTCCAGAAAATCTACCACTTACAAACCTTTCTCCCTTTCAGTCTCAGCTTCTTTACAGGCTCTAATATTTGACTGCGACGGCGTGATCCTTGAGTCCGAGCACTTGCACCGCCAAGCATATAACGATGCCTTTGCTCATTTCGACGTCCGTTGCCCTAATTCAACGTCGCAGCCGCTCAATTGGAGCATCGAGTTCTACGACGAGCTCCAGAACCGCGTTGGTGGCGGCAAACCCAAAATGCGATGGTACTTCAAGGAGTTCGGGTGGCCATCGTCAACGATCCTCGAGAAGCCTCCGGAAGATGACGAGGACCGAACGAAGTTGATTGATATTCTTCAGGATTGGAAAACGGAAAGGTACAAAGAAATAATAAAATCTGGAACTGTGAAGCCCAGGCCTGGGGTTCTAAGATTGATGGATGAGGCAAAGTCTGCTGGCAGGAAACTTGCTGTATGCTCTGCAGCTACCAAAAGTTCAGTTATTCTTTGCCTTGAAAACCTTATTGGAATTGATCGGTTTCAAAATCTTGATTGCTTCCTTGCTGGTGATGATGTGAAGGAAAAGAAGCCCGATCCATCCATTTATATAACAGCCTCAAAAAAGCTAGGCGTGTTAGAAAAGGATTGCCTGGTGGTTGAGGATAGTGTTATTGGCTTGCAGGCTGCAACAAAAGCTGGAATGCAATGTGTCATTACCTACACAACTTCCACAGCTAACCAGGATTTTAAAGACGCAATAGCAACCTATCCAGACTTGAGTGATATAAGGATAGCACGTTTCTGTTTTCCTTCTGTTCCTGTTGTTTCCCATCATTTTGTTTTCTTTCTTGGCGAGGGGTGGGGATGGACTTTGATTGGTGGTGGTATATCAAGAACAGAAAGCTCTTCAACTAAATTAGCAAAGGAAGAAGCCATGAACTTTATGGAAGAGAGCTGGAAACGTGACCTAATACTCTCCACTTTTCTCCCGTGGATATCCTCGGCCAGGATGAGCAAGTCAGTGGTCGATAAACCTCATGCAGTGTGCATCCCCTATCCAGAGCAAGGGCACACGTTGCCCCTTCTGCAATTAGCCAAGCTTCTCCATTCAACTGGTTTCCACATAACCTTTGTCATCCCGGAGTTCTATCACGACCACATAAAACAGTCCCAGGGACCTGATGCCCTGAAGGGCTTGTCTGATTTCCAGTTCCAGACCATACCAGACGGGTTGCCTCCATCTGAACGCAAGGCCTCCCCAGATGTTCCGACGCTCTGTGATTCAACTAGGAGGAACTTCTTGAACCCATTCAAACGGTTGGTGGCTGAGCTGGATTCTTCGGTGGAGGTGCCTCCGGTGACCTGCATAATTGCCGATGGGGTCTTGAGCTTTGCTATAAAAGCTGCTGAGGAGTTGGGGATTCCAGAGGTTCAGTTTTGGACTGCTTCTGCTTGTAGCTTCATGGGATATCTGCAGTTTGATGAGCTTATTCGACGAGGAATTTTGCCATTCAAAGATGAAACTTTCTTGAGTGATGGTACTCTTGACACACCCATCAATTGGATCCCAGGGATGAAAAACGTCCGCCTTAGGGACCTCCCAAGCTTCATCAAAACTACTAACATAGATGAAACGATGTTTGATTTCATGGGATCAGAAGCCCGAAATTGCTTGAGATCTTCTGCTATCATCTTCAACACATTTGATGAACTTGAACATGACGTTTTAGAAGCAATTTCAGAAAAATCCCTCCAAATATACACAGTAGGACCCTTATCCTTACTAAGCAGACAAGTAACTGAAAGCCATTTGAAGCCATTAAGGTTGAGTGTGTGGAAGGAAGACCAAAAATGCCTCGAGTGGCTGGATACACAGGCCCCCAAATCTGTTGTGTATGTAAGTTTTGGCTGCATAACCACGATGACAGACCAATGTTTAAGAGAATTTGCATGGGGACTAGCAGAGAGCAAGCAACCATTCTTGTGGGTATTGAGGCCTGATATGGTAGTGGGTGATGCAGCTATTATACCCGAAGATTTTTTAGAAGAGACGAAGGGCAGGGGATTTCTATCAAGTTGGTGCCCTCAAGAGCAAGTGCTGGCGCACCCATCAATTGGGGCTTTTCTGACTCACTGTGGTTGGAACTCTACTTTGGAAGGCTTATGTGGGGGTGTGCCATTGATGTCCTGGCCGTTCTTTGCAGATCAACAAACGAATTGTCGATATGCTTGCATCAACTGGGGCATTGGCATGGAATTGAACGACGACGTGAAGCGCACAGATATTATAGCAATTCTGAAGGATATGATGGAAGGAGACAAAGGGAAGGAGTTGCGGCAAAATGCTGTAGAGTGGAGAAAGAAAGCAGAAAAAGCAACTGCCATCGGTGGTTCATCCTTCGCTAATTTCAATAGGTTGATCAAGGAACAATTTCGTGCTGATAATCAAATGCTTCGGCAAATGGAGAATGTTCATATTTCGAAGCGTTCAGCGGCTGCAGGAGTCCAAAACAGAACTGCCAGTACAAGGGGTGGATATCTCTCCAGTTCCATTCCACCACATGCAGAAATCAAAGTCTTTATCTTCCCAGAACTTGAGAGTTCCACTAGCTGCTCTACGCCTTTTTAG ATGACTCACCCACCCTCGCCCACACCAATTTATGCTCTCTCTCTCTCTCTCTGCTTCCCCTTGCGCTTGCCTCTATTAAATTTTCATCTTTCTCTCTCTTTCTCTCTCTCTCTCTTAGTTGCTTGTGGTGCGGTGGTTGGAGTGGAACAAAGTAACAGAAACATCTGGCAGCTGGGTCTTTATTGCGGTCTATTCTTCGAAGACAAAACCAGGCTCGGATCCACCCCACCCAGCTGCCATAACAAGTGCAACGAGTGCCACCCATGCATGGCGGTGCAAGTGCCGAGCATGCCCGGCCGCGCCGGCCGGTTGGACACGGCCACGGCTTTGCCAATGGGGTTCTTCGACTCGTCTCCACAAGGGAACAGATACTCATTTTACAAGCCATTGGGTTGGAAATGCCGCTTTGCCGGGAGCATTCCGCGCCACAGAAACTCGGAGCCGGTCTCCTTCTCCTTCTCCTTCTCCTTCTCAGCCATGGCGAGCATCACCATGATGCTCGTTCGTCCCAATCTCATACCCGCTTCTTCCGATCTGCTTTCCCCTTTTCTCCGTCGATCTCTTCCTTCCACAGCCATATGTTTCCGGACCTCCAGAAAATCTACCACTTACAAACCTTTCTCCCTTTCAGTCTCAGCTTCTTTACAGGCTCTAATATTTGACTGCGACGGCGTGATCCTTGAGTCCGAGCACTTGCACCGCCAAGCATATAACGATGCCTTTGCTCATTTCGACGTCCGTTGCCCTAATTCAACGTCGCAGCCGCTCAATTGGAGCATCGAGTTCTACGACGAGCTCCAGAACCGCGTTGGTGGCGGCAAACCCAAAATGCGATGGTACTTCAAGGAGTTCGGGTGGCCATCGTCAACGATCCTCGAGAAGCCTCCGGAAGATGACGAGGACCGAACGAAGTTGATTGATATTCTTCAGGATTGGAAAACGGAAAGGTACAAAGAAATAATAAAATCTGGAACTGTGAAGCCCAGGCCTGGGGTTCTAAGATTGATGGATGAGGCAAAGTCTGCTGGCAGGAAACTTGCTGTATGCTCTGCAGCTACCAAAAGTTCAGTTATTCTTTGCCTTGAAAACCTTATTGGAATTGATCGGTTTCAAAATCTTGATTGCTTCCTTGCTGGTGATGATGTGAAGGAAAAGAAGCCCGATCCATCCATTTATATAACAGCCTCAAAAAAGCTAGGCGTGTTAGAAAAGGATTGCCTGGTGGTTGAGGATAGTGTTATTGGCTTGCAGGCTGCAACAAAAGCTGGAATGCAATGTGTCATTACCTACACAACTTCCACAGCTAACCAGGATTTTAAAGACGCAATAGCAACCTATCCAGACTTGAGTGATATAAGGATAGCACGTTTCTGTTTTCCTTCTGTTCCTGTTGTTTCCCATCATTTTGTTTTCTTTCTTGGCGAGGGGTGGGGATGGACTTTGATTGGTGGTGGTATATCAAGAACAGAAAGCTCTTCAACTAAATTAGCAAAGGAAGAAGCCATGAACTTTATGGAAGAGAGCTGGAAACGTGACCTAATACTCTCCACTTTTCTCCCGTGGATATCCTCGGCCAGGATGAGCAAGTCAGTGGTCGATAAACCTCATGCAGTGTGCATCCCCTATCCAGAGCAAGGGCACACGTTGCCCCTTCTGCAATTAGCCAAGCTTCTCCATTCAACTGGTTTCCACATAACCTTTGTCATCCCGGAGTTCTATCACGACCACATAAAACAGTCCCAGGGACCTGATGCCCTGAAGGGCTTGTCTGATTTCCAGTTCCAGACCATACCAGACGGGTTGCCTCCATCTGAACGCAAGGCCTCCCCAGATGTTCCGACGCTCTGTGATTCAACTAGGAGGAACTTCTTGAACCCATTCAAACGGTTGGTGGCTGAGCTGGATTCTTCGGTGGAGGTGCCTCCGGTGACCTGCATAATTGCCGATGGGGTCTTGAGCTTTGCTATAAAAGCTGCTGAGGAGTTGGGGATTCCAGAGGTTCAGTTTTGGACTGCTTCTGCTTGTAGCTTCATGGGATATCTGCAGTTTGATGAGCTTATTCGACGAGGAATTTTGCCATTCAAAGATGAAACTTTCTTGAGTGATGGTACTCTTGACACACCCATCAATTGGATCCCAGGGATGAAAAACGTCCGCCTTAGGGACCTCCCAAGCTTCATCAAAACTACTAACATAGATGAAACGATGTTTGATTTCATGGGATCAGAAGCCCGAAATTGCTTGAGATCTTCTGCTATCATCTTCAACACATTTGATGAACTTGAACATGACGTTTTAGAAGCAATTTCAGAAAAATCCCTCCAAATATACACAGTAGGACCCTTATCCTTACTAAGCAGACAAGTAACTGAAAGCCATTTGAAGCCATTAAGGTTGAGTGTGTGGAAGGAAGACCAAAAATGCCTCGAGTGGCTGGATACACAGGCCCCCAAATCTGTTGTGTATGTAAGTTTTGGCTGCATAACCACGATGACAGACCAATGTTTAAGAGAATTTGCATGGGGACTAGCAGAGAGCAAGCAACCATTCTTGTGGGTATTGAGGCCTGATATGGTAGTGGGTGATGCAGCTATTATACCCGAAGATTTTTTAGAAGAGACGAAGGGCAGGGGATTTCTATCAAGTTGGTGCCCTCAAGAGCAAGTGCTGGCGCACCCATCAATTGGGGCTTTTCTGACTCACTGTGGTTGGAACTCTACTTTGGAAGGCTTATGTGGGGGTGTGCCATTGATGTCCTGGCCGTTCTTTGCAGATCAACAAACGAATTGTCGATATGCTTGCATCAACTGGGGCATTGGCATGGAATTGAACGACGACGTGAAGCGCACAGATATTATAGCAATTCTGAAGGATATGATGGAAGGAGACAAAGGGAAGGAGTTGCGGCAAAATGCTGTAGAGTGGAGAAAGAAAGCAGAAAAAGCAACTGCCATCGGTGGTTCATCCTTCGCTAATTTCAATAGGTTGATCAAGGAACAATTTCGTGCTGATAATCAAATGCTTCGGCAAATGGAGAATGTTCATATTTCGAAGCGTTCAGCGGCTGCAGGAGTCCAAAACAGAACTGCCAGTACAAGGGGTGGATATCTCTCCAGTTCCATTCCACCACATGCAGAAATCAAAGTCTTTATCTTCCCAGAACTTGAGAGTTCCACTAGCTGCTCTACGCCTTTTTAG MTHPPSPTPIYALSLSLCFPLRLPLLNFHLSLSFSLSLLVACGAVVGVEQSNRNIWQLGLYCGLFFEDKTRLGSTPPSCHNKCNECHPCMAVQVPSMPGRAGRLDTATALPMGFFDSSPQGNRYSFYKPLGWKCRFAGSIPRHRNSEPVSFSFSFSFSAMASITMMLVRPNLIPASSDLLSPFLRRSLPSTAICFRTSRKSTTYKPFSLSVSASLQALIFDCDGVILESEHLHRQAYNDAFAHFDVRCPNSTSQPLNWSIEFYDELQNRVGGGKPKMRWYFKEFGWPSSTILEKPPEDDEDRTKLIDILQDWKTERYKEIIKSGTVKPRPGVLRLMDEAKSAGRKLAVCSAATKSSVILCLENLIGIDRFQNLDCFLAGDDVKEKKPDPSIYITASKKLGVLEKDCLVVEDSVIGLQAATKAGMQCVITYTTSTANQDFKDAIATYPDLSDIRIARFCFPSVPVVSHHFVFFLGEGWGWTLIGGGISRTESSSTKLAKEEAMNFMEESWKRDLILSTFLPWISSARMSKSVVDKPHAVCIPYPEQGHTLPLLQLAKLLHSTGFHITFVIPEFYHDHIKQSQGPDALKGLSDFQFQTIPDGLPPSERKASPDVPTLCDSTRRNFLNPFKRLVAELDSSVEVPPVTCIIADGVLSFAIKAAEELGIPEVQFWTASACSFMGYLQFDELIRRGILPFKDETFLSDGTLDTPINWIPGMKNVRLRDLPSFIKTTNIDETMFDFMGSEARNCLRSSAIIFNTFDELEHDVLEAISEKSLQIYTVGPLSLLSRQVTESHLKPLRLSVWKEDQKCLEWLDTQAPKSVVYVSFGCITTMTDQCLREFAWGLAESKQPFLWVLRPDMVVGDAAIIPEDFLEETKGRGFLSSWCPQEQVLAHPSIGAFLTHCGWNSTLEGLCGGVPLMSWPFFADQQTNCRYACINWGIGMELNDDVKRTDIIAILKDMMEGDKGKELRQNAVEWRKKAEKATAIGGSSFANFNRLIKEQFRADNQMLRQMENVHISKRSAAAGVQNRTASTRGGYLSSSIPPHAEIKVFIFPELESSTSCSTPF Homology
BLAST of Sgr026139 vs. NCBI nr
Match: XP_022132959.1 (linamarin synthase 2-like [Momordica charantia]) HSP 1 Score: 910.2 bits (2351), Expect = 1.7e-260 Identity = 422/477 (88.47%), Postives = 458/477 (96.02%), Query Frame = 0
BLAST of Sgr026139 vs. NCBI nr
Match: XP_023545186.1 (linamarin synthase 2-like [Cucurbita pepo subsp. pepo] >XP_023545187.1 linamarin synthase 2-like [Cucurbita pepo subsp. pepo]) HSP 1 Score: 899.8 bits (2324), Expect = 2.2e-257 Identity = 421/478 (88.08%), Postives = 452/478 (94.56%), Query Frame = 0
BLAST of Sgr026139 vs. NCBI nr
Match: XP_022950861.1 (linamarin synthase 2-like [Cucurbita moschata]) HSP 1 Score: 897.9 bits (2319), Expect = 8.5e-257 Identity = 422/478 (88.28%), Postives = 451/478 (94.35%), Query Frame = 0
BLAST of Sgr026139 vs. NCBI nr
Match: XP_022978487.1 (linamarin synthase 2-like [Cucurbita maxima] >XP_022978488.1 linamarin synthase 2-like [Cucurbita maxima] >XP_022978490.1 linamarin synthase 2-like [Cucurbita maxima] >XP_022978491.1 linamarin synthase 2-like [Cucurbita maxima] >XP_022978492.1 linamarin synthase 2-like [Cucurbita maxima]) HSP 1 Score: 894.0 bits (2309), Expect = 1.2e-255 Identity = 418/475 (88.00%), Postives = 448/475 (94.32%), Query Frame = 0
BLAST of Sgr026139 vs. NCBI nr
Match: XP_038881808.1 (linamarin synthase 2-like [Benincasa hispida] >XP_038881809.1 linamarin synthase 2-like [Benincasa hispida]) HSP 1 Score: 891.7 bits (2303), Expect = 6.1e-255 Identity = 418/477 (87.63%), Postives = 452/477 (94.76%), Query Frame = 0
BLAST of Sgr026139 vs. ExPASy Swiss-Prot
Match: G3FIN9 (Linamarin synthase 2 OS=Manihot esculenta OX=3983 GN=UGT85K5 PE=1 SV=1) HSP 1 Score: 605.9 bits (1561), Expect = 8.7e-172 Identity = 271/466 (58.15%), Postives = 366/466 (78.54%), Query Frame = 0
BLAST of Sgr026139 vs. ExPASy Swiss-Prot
Match: G3FIN8 (Linamarin synthase 1 OS=Manihot esculenta OX=3983 GN=UGT85K4 PE=1 SV=1) HSP 1 Score: 599.0 bits (1543), Expect = 1.1e-169 Identity = 268/466 (57.51%), Postives = 364/466 (78.11%), Query Frame = 0
BLAST of Sgr026139 vs. ExPASy Swiss-Prot
Match: F8WKW1 (7-deoxyloganetin glucosyltransferase OS=Gardenia jasminoides OX=114476 GN=UGT85A24 PE=1 SV=1) HSP 1 Score: 589.3 bits (1518), Expect = 8.5e-167 Identity = 262/474 (55.27%), Postives = 365/474 (77.00%), Query Frame = 0
BLAST of Sgr026139 vs. ExPASy Swiss-Prot
Match: F8WLS6 (7-deoxyloganetin glucosyltransferase OS=Catharanthus roseus OX=4058 GN=UGT85A23 PE=1 SV=1) HSP 1 Score: 577.0 bits (1486), Expect = 4.3e-163 Identity = 264/480 (55.00%), Postives = 361/480 (75.21%), Query Frame = 0
BLAST of Sgr026139 vs. ExPASy Swiss-Prot
Match: B2XBQ5 ((R)-mandelonitrile beta-glucosyltransferase OS=Prunus dulcis OX=3755 GN=UGT85A19 PE=1 SV=2) HSP 1 Score: 560.5 bits (1443), Expect = 4.2e-158 Identity = 255/469 (54.37%), Postives = 346/469 (73.77%), Query Frame = 0
BLAST of Sgr026139 vs. ExPASy TrEMBL
Match: A0A6J1BUJ7 (Glycosyltransferase OS=Momordica charantia OX=3673 GN=LOC111005675 PE=3 SV=1) HSP 1 Score: 910.2 bits (2351), Expect = 8.0e-261 Identity = 422/477 (88.47%), Postives = 458/477 (96.02%), Query Frame = 0
BLAST of Sgr026139 vs. ExPASy TrEMBL
Match: A0A6J1GFZ4 (Glycosyltransferase OS=Cucurbita moschata OX=3662 GN=LOC111453833 PE=3 SV=1) HSP 1 Score: 897.9 bits (2319), Expect = 4.1e-257 Identity = 422/478 (88.28%), Postives = 451/478 (94.35%), Query Frame = 0
BLAST of Sgr026139 vs. ExPASy TrEMBL
Match: A0A6J1IMT4 (Glycosyltransferase OS=Cucurbita maxima OX=3661 GN=LOC111478453 PE=3 SV=1) HSP 1 Score: 894.0 bits (2309), Expect = 5.9e-256 Identity = 418/475 (88.00%), Postives = 448/475 (94.32%), Query Frame = 0
BLAST of Sgr026139 vs. ExPASy TrEMBL
Match: A0A0A0KG87 (Glycosyltransferase OS=Cucumis sativus OX=3659 GN=Csa_6G499840 PE=3 SV=1) HSP 1 Score: 862.1 bits (2226), Expect = 2.5e-246 Identity = 399/477 (83.65%), Postives = 443/477 (92.87%), Query Frame = 0
BLAST of Sgr026139 vs. ExPASy TrEMBL
Match: A0A5A7T422 (Glycosyltransferase OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold255G002930 PE=3 SV=1) HSP 1 Score: 757.3 bits (1954), Expect = 8.7e-215 Identity = 363/478 (75.94%), Postives = 404/478 (84.52%), Query Frame = 0
BLAST of Sgr026139 vs. TAIR 10
Match: AT1G22370.2 (UDP-glucosyl transferase 85A5 ) HSP 1 Score: 552.7 bits (1423), Expect = 6.2e-157 Identity = 248/467 (53.10%), Postives = 347/467 (74.30%), Query Frame = 0
BLAST of Sgr026139 vs. TAIR 10
Match: AT1G22340.1 (UDP-glucosyl transferase 85A7 ) HSP 1 Score: 545.4 bits (1404), Expect = 1.0e-154 Identity = 243/472 (51.48%), Postives = 349/472 (73.94%), Query Frame = 0
BLAST of Sgr026139 vs. TAIR 10
Match: AT1G22360.1 (UDP-glucosyl transferase 85A2 ) HSP 1 Score: 543.9 bits (1400), Expect = 2.9e-154 Identity = 241/476 (50.63%), Postives = 352/476 (73.95%), Query Frame = 0
BLAST of Sgr026139 vs. TAIR 10
Match: AT1G22380.1 (UDP-glucosyl transferase 85A3 ) HSP 1 Score: 539.3 bits (1388), Expect = 7.1e-153 Identity = 242/469 (51.60%), Postives = 346/469 (73.77%), Query Frame = 0
BLAST of Sgr026139 vs. TAIR 10
Match: AT1G22400.1 (UDP-Glycosyltransferase superfamily protein ) HSP 1 Score: 531.2 bits (1367), Expect = 1.9e-150 Identity = 239/470 (50.85%), Postives = 343/470 (72.98%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Monk fruit (Qingpiguo) 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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