![](http://cucurbitgenomics.org/sites/default/files/styles/slideshow/public/carousel/101322_web.jpg?itok=EG-G51x6)
Sgr017087 (gene) Monk fruit (Qingpiguo) v1
Overview
Sequences
The following sequences are available for this feature:
Legend: exonCDSpolypeptide Hold the cursor over a type above to highlight its positions in the sequence below.ATGAGTTGCTCGAGCCCTTGCAGTTCTTATAGCCAAGACGAGTACTGTAATAATTCTCTGATAAAGAAAATCGGAAGAGATCAAGTTAAAGATGGGGCGGCAGCCGCGGCGGAGCACCAGGCAAACACCACCTCCGGCCTCCACACCCCAGATACCAAAGTGACATCAACCCCAAAAATATGGAGGGGCCAGACCGGTCTGCATTACACCACTCTCTTAAGACACGTAAGAAGATATAGATCATTGAGCTGCTAGAGCTAACTAACAATCCTTTACGTTGTTAAATTTTGTTCCGAAAATTATTTTAACTGCATGCATGCAGCTTAAAAAGCCCACCGAAGAAACATACTGATTTTGGAAGAAGTTGACACAGGTTCATGGGGTTCTGAATATTATAGGATGGGGAACTTTCATGCCCACTGGGATTATCATCGCCAGATACTTCAGAGAATTCCCCACGAGCTGCGATCGATGGTATTCCGCTCACGTACTCTGCCAAACTTCTGGCTATATCATGGGCATCGTCGGATGGGGCTTTGGAATCTCAGTAGCGAACTCCTCCAAACGCTCTCACGTACCATTCTTAATTCTGGGCATTATCGTCATCGTCCTCACGACCATTCAAGTAAGTTTGGGTAAAAAATTTTATCCCAGGCAAAGCTCTGATGAACCCTAATAAGCGTTAATGATTCTGCAGATGTTTGCTATATGTCTGCAACCCAAGAAGGAGAGCGGGTGGCGCCGGAGCTGGGAAATCTACCACCATCTGCTGGGATACGTGATAATGGCGCTGATAATAGCAGATATATTTGAAGGGATCAATGCGCAGCGCCACCCGGAGAAGTGGCGGTGGGCTTACGTCGGAATACTTGCAGTTCTTGCGGTTGTGGCTGCGGCTTTGGAGATGAACAGATGGATCAAGGTTAAAATGTTCAAACAGGCTATGAAATTTAATGCCAATATGTATTCTCCCAGTACTTGATTTGATCATCCTCCTGCACAATCTGCTATTTTTTTTTTCTCTCTCTCTCTCTCTCTTTTTTCTAATTTCATTTCTGTAATTTCGAGTAATTGTTTCGCTTTGGTCAATTTTTTTTTATTAAAAAAAGTTTTTAATTTTTTTTGACCCCATGGCTTCTCAGATGTCTGTGGGATTGATTTATTTCTTGGCCTTTTTTTTAGTAATTAAATAATGGCTAATTAATTTGCTGGAAATTATTTGGATTTTTATGAAAATTGTGGGATGAGAATTCACATTTTCAACCTATTGAGAAGATGTTTACCTGTTGAGGTATGTTGAGAATGAGATTCGCGAAATAGAGATATATTAAAGTTAAAACAGATGTTTTTATTTTAAAAAAATTATGAAAAAAGAAAAAATTGAAACACTATATGGGGAAAGGGAAATCTTGATGACGACGCCGTTTCAGCCACTTGGAGTTGGAGTTGGAGTTGGCGTCTTGTCTTGTCTCTGGATTTGCTTAATTGGAACGCCGAAGCCTCAGGGTTCAGAGCCCTCCCCTGTTTTGTACTTTCCGAGTAACGAACAATCTGGAGCAGGCAGATTCTGGTGCAGTCATGGACGCCTCCGCCGCTATCGACGGCGCCGCATCCGCAGCGCTCAGGTCCGTGCTTCAGTGCGTACAGCAAGCCGCCGGACGGCCCGGTCGTGGCTCCCAGCCGATCCGAGTTGTAGCTGTCAGCAAGACCAAGCCGGTTTCCGTCATTCGTCAAGTCTACGATACTGGCCACCGATGCTTTGGCGAGAATTACGTTCAGGAACTTGTTGAAAAAGCTCCTCAGGTTTTTTCTTGTTCAATTTCGATTCTGATAGAATTATTTTCTGTTAATTCTATGAGAGTTATTGGAATTCACGAAAGAGTTAATGGTCAATGATTTGAACTGGAACTACTTAACTTTGAAAATCATTGGAAATTGCAGCTTCCGGAGGATATCGAATGGCATTTCATCGGGAATTTGCAGAGCAACAAAGTGAAACCACTTCTGAGTATGATCAAATCTATTTTCTAGAAAGTATTTTGATTGCAGTCTGAAAGCATTTTTTTAAAATTTTTTTAAAAATTGCATACGACACAAATATACGACTCAACATACTCTGTAATCTCAGAAGAATATTATATTCTATTCATATCAGTAAAACAGTAAAGCCATTCTATTTATAGAGCGCTCACTACACTCAACTAAGGCTAACCAAATGGGTGACAGCCTAACTGAACCAAGCAGCTGAATGAAACCAACTAGCAAGGGGATAAATAGCTATTAGGATTCTTCCTTTACGAACTTCTTAACTAGTTGTACATTATGAGTTCCCAAATAAGATTTTCACTTTTTAAGGATAAGAGTCCTTCCTATATCCACTTAAAAGTTAAAAGGTCATGGTCAAGGATATGGGAGCTATTGGAGACATCCTTCAAATGCAATTTACAACTTAAAATACATGTAATGTCGCTAAGCCAAAGCCACTTATCTTGATCAGAGCCAAGGCAAGTATTTTGGAGCAAATCCATTAGGGAATCCATTATTGGGTTTCCATGTCATTTAGGTTCCTCTTGCCGTCAAGATTCAAATGATAAATCAACATTCCAAATCTGACTATAAGGAACATTTTACTGTTGGATATACAACGAAGATGGGGTTATTATTTTTGACATTGAAACCTTTAGCTAAGCCCAAATCAAGGCATTTAGAGAGAAGTTTGCTAGGACAATCCACCACTAGAGTAAAAAGTAAAGTCGCAAGGGGTCTGCTTGTCTAATACACTAGAGGTTGAGATTTTTCTCCTTGGCCTTCCCTTCTCAATCAAATTTTCGAGAGGCTTCATGACTTTGTTCTTTATGAGTTAAGCTTCTATTGGTCTGTTTTCATGCCCATTACATTCTATATCTTTGTTATTCACCATAATTTCTCCATTAGAGCATTCACAATCTCATTATAAGAGATTTTTCCCTGCTATAATTAACCACACAATTGAAGAAATTTGTGTTCTCATCCCCTTTTTAAAGCCATATAGACTTGCACTTTTGGCTCCAAAATATTTCTTGTTAAAGAGTCACGTAATCTCAAATTTCTTGTTTTTGCTGATTTGAGAGAGGAAAGTAGTCTTCTAAGTCATCTAAAGATTTAATCTCAGCAATGATGCTGATTTTAGTGGGGTGAATGTGATCAAACTCTTTATTCCATTTCTTCAGGAAAGCCTTGAAAGATTTAAGCTTGAACTTACATTCCAACAGGTGAAGAAAGTAATTATTATCAAGCAACATATTTCAACTTTAGAAGGAGGGGAGGGCTCCATTTGAAATTAGCAGTATCAAGCCTGTCCAGTCTAGATACCCTAGAGTTCTTAAACTTAAAGATACAATCTTGAGATGCCAAGAACCTGTCAGTAAGGGATGTAGGCATAGGGGTTGAATTTGTAATTTCGTTTGATTTTAATTTGTAATAAAAAGTAAAATCAAATCAAAATAACTACAAATTTAACCCCTATACCTGTTCCTTCATATTGGACAAAGTAAATTTGACATAAAGAAGATGTAAATCCTTTTTATTGTTCTCAATCCCGGTTTTCCATAAAAAAGAAAAAAAAAAGATGTAAATCTGTGAGAGAGAGATCATTGATCAACTTGTTGAACAGATTAATACTTCTGGTCAAGCTTGAGTTAGAAGATTTTTCCGCAAATGCACTTGAGACATTGAAATCCCCATTCAAAATCCAAAAATCAGAGCAAAAATCACCATGATTCTCAAGTTCCCTCCAACGGTGTCCTTTGGCTGGTAGAGGAAGGACTCTCAGTCCCTATAAGCCGGGAAAAAGTGTTATTTGCCAAAATGATTTTGACCATGAGAGAGAAAGAATCTCCAATATCTTCCTCAATCAAAATTTAAAGATCTTTTCAAAGGAAGTCCAACTAATATTTCGACTCCAAATAGCTTTGATCATAGAACAATAGACCGAAGTGAGCTTGTTTCTTGGTGAATAACAAGACCCAAATTAGAATTCAAAATGGCACTTTTGAGCATTCAATACACTCAACTTTAGAGCACACAATACGCTCAACTAAGTCTAACTAAATACATGACCGACCAACATGAAGAATGTGATGTTTAGTTTGGTTATTCTCTTACCTAGAAAAGAAATAATTAGGATACCGAGTTGGTTAGTCAGACTATAAATTTTTGTATTGCGGCATTTGCATTTCATATAAGCTGATGGTTTCAAGACATTTTCAATTGCTTCTTTTCATCTGCTTTTGTTCTTTCATTTCTAACCGTTCCTTTTGCAATGCCATACAGCTGGCGTCCCAAACCTTGCAATTGTAGAGAGTGTGGACGATGAGAAGGTACTCTTCTTATTAACTATCTTGAATTTCTTAATATGAAGCTCATTTTCACCTTAAATTAAAATGAGAGTTTTTAAAATTACTCTCCACTATTTTATTTTATTTTAATTGTGCAATTGTTTTTCTTGGATCAAGTTGAATTTGGTTTATAGCATGCAGTAGAAACACTTTGTGATGTGTTGAATGGAAATTGAACTTGGCGATTCTGTTTTACTAACTGAAACAACTAACGTGGGGACAATTCTTGAGAAATTTTGAATATGTATTTGTATGGATGATCCGTTTCCATCAATTTTGGATTCAGGCATGCTGCTTTTCTTGTCTCATTGGACCACGCCTAACACTATGCCTTTTTTATTGTATTCAAATGGTTCTCTTTGTTATTTATTGATGTGCACTATAACTTCCTTTTCAATTTGCTTAAACTCTTTTCTCAGATTGCAAAGCATTTGGATCGTGTGGTTGCAAGTATTGGGAGGAAGCCTCTTAAGGTGTTTGTCCAAGTGAATACAAGTGGAGAAGAATGTATGTTTCTGTTTTTAAAATTGATGATCAAAGTGCAGTTTAATGATTACATCTTTAAAGATTTGATTTGCAACTTGCAAGACTGGTCCAATTTTTTTTTTCAAGTGAAATATCTTATTGACCTACAGCTACAGATTAGGCAACAGTGTAATAATTGTTTGCGTGAAGCACATGCTCCAATTTATTCTTTTTGAATAATTAATTCTTTGGAAAAAGAAAATAATCTTCCTTACATTCTCGTCCACTCAATTTATTATCTAAAGATAGTGAAGATAGCTCGCATAGTCATGAGATTTCTTTTCCTGTGTGATCACTTGTTGAATCCCACCTCCCAGAATAACTTCCCGAAATTCTGCCTGAAGCATTTATTCTGTGCAATACAGACAATTATGTCCCTCAGTTTCAAGATCAGAATTCAGAATGGTAAAGCTTGTCCAGTTGTTCACTTTTAATCATATGATTGAAGTTTTTCCATCTGCTAATAACCTTAGCGACATTGGAGACATTTTTTAAACTTAGATTGTGGAAAGTGCATGTTTAAGAAGGTGACTGCTGATGTCATCTATCCAGTACGTGCAGCAACTTTATTGCTTCAGTTTTTAACATAATCATGGAATGTTGCAATCCATTGCCTGCAATATAGTCAACTTGTTTTAGTCATGCATTTATTATATCTTCGAATAATGTTTATCCTGTGTTAAAGTGCAGCTAAATCAGGTGTTGAGCCCTCTGGGTGTGTGGAGCTTGCTAAGCACATTAGTTTGAATTGCCCAAATCTTCAGTTTTGTGGGCTAATGACAATTGGAATGTTAGATTATACATCAACACCAGAAAACTTCAAGGTGATAAATCCCTACACTTCAACCTCGCCTTGCCCACCATTCCTCTTTTATGAGAAACTTTGTGTGCACCTTACACTCGTACTAATTGGTATATATTGGTTGCAGTCATTGGCTAACTGTAGAACTGAGGTCTGCAAGGCACTTGGAATATCAGAAGAGCAGTGTGAGCTATCAATGGGCATGTCAGCAGACTTCGAGCAAGCTGTAAGAACGAATTTCATTATAATGTGGTATCTGTTCAATGGGATATATATATATAAACTTGACCTAAAGCATTGATTAATTATCCTCTCGGAAATGTCATATTAATGAAATAAAGCTGAGCTTGAGAAGGATGGTTGCTGTTGTTGCTCTACCAAGGGCCAAAGGGTCAAGCGTTACTCATTGCTTGATTAATAGAATTTGTTTAGGGGGACGCTTTGGATTACGCAATTAACGCTTATTCTGCATGTTTTGCAGGTTGTAATGGGAAGTACCAATGTGAGGGTCGGATCTATCATTTTTGGGGCGAGGGAATATCCCAAGAAAAAGTGAATTTTACTCACTAGAAGATCTATGTGCTTCTCGTTGTAACCACTTTGATGAAATAATCTGCCAACATTTAACAACCTTTGAATAAAATATCACTATAGAAAGCATCCAACTCGAGTAATTTTTAGTTTGCAAAACACTGTAAAGTGAGGGCTGTATGTTCGGGTAGACACATTTTTACGCCATCTGATGATTGATGGAGATGGATTACACTAGACATTTGATTTGGCATAACCGTAAACGTTTTTGCATAATTTAAAATAATTATTTGAATACTTATAAGTTGGTCGTTAGGAATTTTATTGGGTCTGTAAAATCTTAAAATATATTTTCATTCATGAGATTTTAAAAAAATCTTTAAAATAGTCTCTGTCAACATTTTATTGGATAACATTGATTAAATTTAAACTATTTTTTATTTTGACTCAGATGTTTTAATAAAATATTTTAGTAATAGATGTTTAAAAAAGAGGATATTGTTTAAAATTTTATTTTCAATAAAAAAAATAAAATTTATATATTTAATCCGTTGATGGACCAATGAAACTCAGCCATCTATTCTAATCCAAAAAATAAACAAATCACCCATCTATTCAACATTGAAATCCAGCCTGTCGTGTTGTGACAGCCTAGAACTAAACGAGTCCAAACTTTTTGTTCTTGATAAAGCTTGGTCACCTACAAGGCTATGGACCAGGATGACAACGACCTCCACCCAACGCCATGGTATAAAAAAAAAAAAAAAATCGAATAAATGTTCACACTTCAAAAGAAAAAAAAGAATTGAACTTAGTGAACACAAGGAAGTTGCACCTGCATTATTTATAAGGGAAAAAAAATATCACCATTTGGTCACATGAAGTCCAATTGATATGAAATTTCTTTCCTGATACAACAATAATGTCAGCAAATAACAAATTAAAATAAATAACCTGTTCCAAGTACAAGGCAACTCTATATAAGATCAGCATCAAAATCTAGAATATGGTAACCATCTTTTCGACATGGGCTGGGCAGTTCATCGGAAGCCTTCTAAATTGATTGACAATGCAGACACACCATGAACAAGGTGACTTCCTTGTACGCTCCGTGTATGTAGATGATTTATACATGAACCAACGATGCCCGAGTTAGATGGACAAAGATAGGTATTGTGAAATGTGATTGAACTATCAAGCTTGGTTTTCTTTTGAAAACCAAGAATATCTAATCAACTAACGGACACCTCAACTAATTTTTGGATGTACTCACCCTACAACATTTGTAGTTAAAAAATTTATAGAATATTTAATTTTTTTAACTAGGTGGCTATTATGATGAATGATAGTTCAAGTTAGTTGATCTAAGTATCTAATAATGCCGAGGCATCAAAGTGACTGACAACTCCCTCGCTTAATAATCGCATAGCAGCTCCCTGGGAAAATTTTCTGGCAAATAGGAAACAAGGAACAAAAGTTGAATTATTTCGACACCATTCCGTTCTGAACTCAGTCTCATAGTAGACATGGTTGATTCCCTGTCAAGATAATACACGTCAATCCTAATACCATCATTATTAAGCCAAGCAGTCTAACAATCAGTGTAAGAAACAGCATGACTACAATAGATAAAAACTAAAGCATTTAATTTCATAGGAAACCAAGTCTATCCGCCCGTCCTCCTATCCACTCTTAAAACGGAAAAAAAAAAAAAGAAAGAGAGAGAGAGAGAGAGAGAGACACGACAATGTAATAACCTTTATTTCCTTAATCTGACGAGGTCCAGCATTAGCGTAGTTAAACGTAATAGGATGCCAGCCCTTGTTCTCCATTTTAGTGCTTGACTGATTCCATAGCGTGTAAGTTAATGTTCTTCGTTCAAGTTCACCTTCAAGTTCATTTAACTACAGAGTAAACACAAGAAAAGAATGTTACAACGTAAATTATCTGTGACACTCAAACTATTCCAGATAACAATTTACAGTCACTGGAAAGGGTTACAAACTCATCTTCTCTGACGACAGAAAAAAAAAACAGAGAGAGAGAGAGAGGGAAATCAATGAAGAAGAAATATCACGGCCTCAGAAGACAAATCTGTACTCACAGCAAGTAATGTCTGGACATAGTGTTCATCTGGAATACAGTTGTGCTGCTTTTGAAGTTTCTACAATCAGAATTTCGGCCAGGTTATTGGTGCAAATTTTTTTTATGGAAGATTGATATCTTGAATGAAAGAACTGGTATCCATAGAGTAGTACACAGAACAATCTTAGTAGATCATATCCAGAATAATGAATAAACTATTACTTAATAACAGGCATATTTTTTGCCCTCAGAATTGAATTTCTCAATATACACAAATGATCACTTACAATATTCATATTTCCTTTGCTGGCATCCACAGGTGGCCTTCGCTGTAGTTAAGAAAAAAGTATAGATTTTATCATGCAATACCAAAAGGGTGAAATTTTGCTTCATAAAAATCTCAAGTATGTGTCTAGGGGAGTGGGGATTCCAGCTATATGCCATTCAATTTAAAGATGATATATTTGGGGAAAACATGACCAAGTTATGTTTATGTGTGTGTATGAATGATAGTATCTTCACTGAAGAAATAAATAACTGCACCGGAATCATGGTTGACAGATGAAGGAATTTTCTGCATAACACATACCTTGCAGAATAATCCAAAGATCGGGAATATAATATCATCATCCACAATTACTTCTGCATGACTACGAATCAAACTGATCCACTGCAATTTAACCACAAAGCAAGATAATAGCATTCATCATGATTGTTTAGAATCCAACTAACAGGCATCTGCACCCAAGAGAGTGGAAACTGTATTGCATAGTAGATCATGAATGCTAAGGTTGAGTAAAGTTTCTTGAAGCAGTAATTTCTTAAATATTATCTCAAGCAATAAATAGGGCATACTTATTTCCTTTGGCTACTGGGAAGGGCAAGACAACTACAAATGAAAAATAATTACTGAAACACAAAACATGGATACAAAACCCAAGTCTCATAGTTACATGAATCTGAATAACTAGGCAAAAAGATGAAAAAGTTAAACAAAACAAAAGATGCAAGCAAAAACTAATGAGAATTATGATGGATGACCTGGGACCCTTTTCTCCACTTGCTCTTAGGTATAGTAGGTGACATTTTTGGGTTATAGCGACCCTCCTTTGCATCAAGAAAACTACAAGGAAAAATGAGAACATAAATATCAAATGGTTTGGGTTGGCATATTTAAATATTCAAGAGCCATTCTGAAAGCTATAAAATTTGGCACCAAATGGTCAACAAAGAATAAGTGCTTGGCACCTCAGAGTCAAAGCCCTCCATCTACCTGTCCACGAAACTCCTTGGAGAAGCCATGAGATAGCTGTATATATAGCTAAAATTGTATAGCGGAACACAACTGCAGCATCAGGAGACAAATCTTAAGGGAAGTTGTGAAACACCTCAACTTCATAGATTAAAATGTTCAGAGCGCAATGGAAAGTGGCAGTGGTCATCATAAAACACCTGTCAGATAGAAGCACAAATCTCTGGTTTGCTGGATCTTCGATCGCTGCTTCAAGTAACAACCTCTCTGCAGCAATCATACTCGACTTTCCCCAGGCCACCTGCAACATAATATCACTTTTTGCAATCGATTTGCAAAATTCAAAACTTGAATAAATTATTAATACTGTTGTTGCTAAATTTTAGTTGGAGAGCCACCTGAGCTGTTTGCTCCACATTGGCACTGCCCAATTCTAACAAACAGAGACGCTAAAGGAAAAATGATAAAGAATAAAGAATACCTACTTGGGAGAAAAACTGAGCACCAGTGTGGTGAATTGAATAATAGGAAAATATAGCATACCTCAACATGAATTCACCCCCTCTACATAAAAATGGAGATTAATTGATAATTCCATCATAACTATAGTACCTAGCTATAGAGAACAATACCCCTAATGCCTAGGGACATTGTCATCCTTTTGACTTGCTAAGGGTGAAGTATTTACAGAGGTTGTTCCCTCACCTTGATTAAGGGTAGGCTTGTTTGAGCAGTGAGCTTACTACCGCATTGAGGAATAGCCTACTATGCTCCTCAATTTAATACAAAGGAAACACCACACTTTGAGATGAGCTCATGCCCTGCCAGGTCTCTAGAGTTAATTTTCTTTTGTTCTTCCAAGAATGCACACCAATTATTCTAGGCCTAGTGTGCTCATCCTATTTAGCTCTTCAAGGATGAGCACCTACCTTGTCAGACTTAGTGTGCCCATCCTGATGTGCTAAGATGTGCGAGTCGGAAGGGATAATCTTGATTTCTCTACGTGGCATTATTGGTAGGTGACATGTAGGCACGTAGTTCTCCAAAAATTTTCACCCATAACAATGGTCTCCCATTCCATAAGTGTGCTAATGAGGCCTTTACGATGCTATGCAAGAAGATCTAATTACCAATTTGGGAGTGCTATGAGGTGAATTAATTGCATATCATATCAAGTACAGGTACTAGGCCTATTGGGTTTCCTCCCTCCAGCATTGAGACAACTAGTATTGGGCAAAATTTTTAAGGAGGGAATCTTGCATCACTTGAGATTCTCAGCTAGTATTATGCTATATTTGCACTCAACCTAAATAATCTATACATCAAGATAACATCGGCAGCCGAGGACAGTGTAGACAAAGAAAATAATAAGCTGCCCAATCAAAGAAACTCCAATCAGCTAAGCTAAACTTGTACCAAAGATCATATAACTTGAAGAGTTCGTCCCTCATACTTCGATATAACTCCACACACGCACACATAGAGTAGGGTAAAGAACAACTGAACAAGCATCCATTTCCATTATTCTCCATGATGGTAAGTATACACGGATGCTATGGAAAAACATAAAAACTTCATTTCATCAGAACATACAGCATGTTACCTGTATGCTATTCGTCAATTGCCGTCCAAAAAAGAAATGCGACCTCGTCGTCGATTCATCGAATACAAATCCTGGTGCCGAGTGAATATAAACCGAGAAGTTGGCAACGTCGCCATTCTGGAATAG ATGAGTTGCTCGAGCCCTTGCAGTTCTTATAGCCAAGACGAGTACTGTAATAATTCTCTGATAAAGAAAATCGGAAGAGATCAAGTTAAAGATGGGGCGGCAGCCGCGGCGGAGCACCAGGCAAACACCACCTCCGGCCTCCACACCCCAGATACCAAAGTGACATCAACCCCAAAAATATGGAGGGGCCAGACCGGTCTGCATTACACCACTCTCTTAAGACACGTTCATGGGGTTCTGAATATTATAGGATGGGGAACTTTCATGCCCACTGGGATTATCATCGCCAGATACTTCAGAGAATTCCCCACGAGCTGCGATCGATGGTATTCCGCTCACGTACTCTGCCAAACTTCTGGCTATATCATGGGCATCGTCGGATGGGGCTTTGGAATCTCAGTAGCGAACTCCTCCAAACGCTCTCACGTACCATTCTTAATTCTGGGCATTATCGTCATCGTCCTCACGACCATTCAAATGTTTGCTATATGTCTGCAACCCAAGAAGGAGAGCGGGTGGCGCCGGAGCTGGGAAATCTACCACCATCTGCTGGGATACGTGATAATGGCGCTGATAATAGCAGATATATTTGAAGGGATCAATGCGCAGCGCCACCCGGAGAAGTGGCGGTGGGCTTACGTCGGAATACTTGCAGTTCTTGCGGTTGTGGCTGCGGCTTTGGAGATGAACAGATGGATCAAGGTTAAAATGTTCAAACAGGCTATGAAATTTAATGCCAATATGGTTCAGAGCCCTCCCCTGTTTTGTACTTTCCGAGTAACGAACAATCTGGAGCAGGCAGATTCTGGTGCAGTCATGGACGCCTCCGCCGCTATCGACGGCGCCGCATCCGCAGCGCTCAGGTCCGTGCTTCAGTGCGTACAGCAAGCCGCCGGACGGCCCGGTCGTGGCTCCCAGCCGATCCGAGTTGTAGCTGTCAGCAAGACCAAGCCGGTTTCCGTCATTCGTCAAGTCTACGATACTGGCCACCGATGCTTTGGCGAGAATTACGTTCAGGAACTTGTTGAAAAAGCTCCTCAGCTTCCGGAGGATATCGAATGGCATTTCATCGGGAATTTGCAGAGCAACAAAGTGAAACCACTTCTGACTGGCGTCCCAAACCTTGCAATTGTAGAGAGTGTGGACGATGAGAAGATTGCAAAGCATTTGGATCGTGTGGTTGCAAGTATTGGGAGGAAGCCTCTTAAGGTGTTTGTCCAAGTGAATACAAGTGGAGAAGAATCTAAATCAGGTGTTGAGCCCTCTGGGTGTGTGGAGCTTGCTAAGCACATTAGTTTGAATTGCCCAAATCTTCAGTTTTGTGGGCTAATGACAATTGGAATGTTAGATTATACATCAACACCAGAAAACTTCAAGTCATTGGCTAACTGTAGAACTGAGGTCTGCAAGGCACTTGGAATATCAGAAGAGCAGTGTGAGCTATCAATGGGCATGTCAGCAGACTTCGAGCAAGCTGGGGACGCTTTGGATTACGCAATTAACGCTTATTCTGCATGTTTTGCAGGTTGTAATGGGAAGTACCAATTCACTGGAAAGGGTTACAAACTCATCTTCTCTGACGACAGAAAAAAAAAACAGAGAGAGAGAGAGAGGGAAATCAATGAAGAAGAAATATCACGGCCTCAGAAGACAAATCTGTACTCACAGCAAGTAATGTCTGGACATAGTGTTCATCTGGAATACAGTTGTGCTGCTTTTGAAGTTTCTACAATCAGAATTTCGGCCAGAGCGCAATGGAAAGTGGCAGTGGTCATCATAAAACACCTGTCAGATAGAAGCACAAATCTCTGGTTTGCTGGATCTTCGATCGCTGCTTCAAAACATACAGCATGTTACCTGTATGCTATTCGTCAATTGCCGTCCAAAAAAGAAATGCGACCTCGTCGTCGATTCATCGAATACAAATCCTGGTGCCGAGTGAATATAAACCGAGAAGTTGGCAACGTCGCCATTCTGGAATAG ATGAGTTGCTCGAGCCCTTGCAGTTCTTATAGCCAAGACGAGTACTGTAATAATTCTCTGATAAAGAAAATCGGAAGAGATCAAGTTAAAGATGGGGCGGCAGCCGCGGCGGAGCACCAGGCAAACACCACCTCCGGCCTCCACACCCCAGATACCAAAGTGACATCAACCCCAAAAATATGGAGGGGCCAGACCGGTCTGCATTACACCACTCTCTTAAGACACGTTCATGGGGTTCTGAATATTATAGGATGGGGAACTTTCATGCCCACTGGGATTATCATCGCCAGATACTTCAGAGAATTCCCCACGAGCTGCGATCGATGGTATTCCGCTCACGTACTCTGCCAAACTTCTGGCTATATCATGGGCATCGTCGGATGGGGCTTTGGAATCTCAGTAGCGAACTCCTCCAAACGCTCTCACGTACCATTCTTAATTCTGGGCATTATCGTCATCGTCCTCACGACCATTCAAATGTTTGCTATATGTCTGCAACCCAAGAAGGAGAGCGGGTGGCGCCGGAGCTGGGAAATCTACCACCATCTGCTGGGATACGTGATAATGGCGCTGATAATAGCAGATATATTTGAAGGGATCAATGCGCAGCGCCACCCGGAGAAGTGGCGGTGGGCTTACGTCGGAATACTTGCAGTTCTTGCGGTTGTGGCTGCGGCTTTGGAGATGAACAGATGGATCAAGGTTAAAATGTTCAAACAGGCTATGAAATTTAATGCCAATATGGTTCAGAGCCCTCCCCTGTTTTGTACTTTCCGAGTAACGAACAATCTGGAGCAGGCAGATTCTGGTGCAGTCATGGACGCCTCCGCCGCTATCGACGGCGCCGCATCCGCAGCGCTCAGGTCCGTGCTTCAGTGCGTACAGCAAGCCGCCGGACGGCCCGGTCGTGGCTCCCAGCCGATCCGAGTTGTAGCTGTCAGCAAGACCAAGCCGGTTTCCGTCATTCGTCAAGTCTACGATACTGGCCACCGATGCTTTGGCGAGAATTACGTTCAGGAACTTGTTGAAAAAGCTCCTCAGCTTCCGGAGGATATCGAATGGCATTTCATCGGGAATTTGCAGAGCAACAAAGTGAAACCACTTCTGACTGGCGTCCCAAACCTTGCAATTGTAGAGAGTGTGGACGATGAGAAGATTGCAAAGCATTTGGATCGTGTGGTTGCAAGTATTGGGAGGAAGCCTCTTAAGGTGTTTGTCCAAGTGAATACAAGTGGAGAAGAATCTAAATCAGGTGTTGAGCCCTCTGGGTGTGTGGAGCTTGCTAAGCACATTAGTTTGAATTGCCCAAATCTTCAGTTTTGTGGGCTAATGACAATTGGAATGTTAGATTATACATCAACACCAGAAAACTTCAAGTCATTGGCTAACTGTAGAACTGAGGTCTGCAAGGCACTTGGAATATCAGAAGAGCAGTGTGAGCTATCAATGGGCATGTCAGCAGACTTCGAGCAAGCTGGGGACGCTTTGGATTACGCAATTAACGCTTATTCTGCATGTTTTGCAGGTTGTAATGGGAAGTACCAATTCACTGGAAAGGGTTACAAACTCATCTTCTCTGACGACAGAAAAAAAAAACAGAGAGAGAGAGAGAGGGAAATCAATGAAGAAGAAATATCACGGCCTCAGAAGACAAATCTGTACTCACAGCAAGTAATGTCTGGACATAGTGTTCATCTGGAATACAGTTGTGCTGCTTTTGAAGTTTCTACAATCAGAATTTCGGCCAGAGCGCAATGGAAAGTGGCAGTGGTCATCATAAAACACCTGTCAGATAGAAGCACAAATCTCTGGTTTGCTGGATCTTCGATCGCTGCTTCAAAACATACAGCATGTTACCTGTATGCTATTCGTCAATTGCCGTCCAAAAAAGAAATGCGACCTCGTCGTCGATTCATCGAATACAAATCCTGGTGCCGAGTGAATATAAACCGAGAAGTTGGCAACGTCGCCATTCTGGAATAG MSCSSPCSSYSQDEYCNNSLIKKIGRDQVKDGAAAAAEHQANTTSGLHTPDTKVTSTPKIWRGQTGLHYTTLLRHVHGVLNIIGWGTFMPTGIIIARYFREFPTSCDRWYSAHVLCQTSGYIMGIVGWGFGISVANSSKRSHVPFLILGIIVIVLTTIQMFAICLQPKKESGWRRSWEIYHHLLGYVIMALIIADIFEGINAQRHPEKWRWAYVGILAVLAVVAAALEMNRWIKVKMFKQAMKFNANMVQSPPLFCTFRVTNNLEQADSGAVMDASAAIDGAASAALRSVLQCVQQAAGRPGRGSQPIRVVAVSKTKPVSVIRQVYDTGHRCFGENYVQELVEKAPQLPEDIEWHFIGNLQSNKVKPLLTGVPNLAIVESVDDEKIAKHLDRVVASIGRKPLKVFVQVNTSGEESKSGVEPSGCVELAKHISLNCPNLQFCGLMTIGMLDYTSTPENFKSLANCRTEVCKALGISEEQCELSMGMSADFEQAGDALDYAINAYSACFAGCNGKYQFTGKGYKLIFSDDRKKKQREREREINEEEISRPQKTNLYSQQVMSGHSVHLEYSCAAFEVSTIRISARAQWKVAVVIIKHLSDRSTNLWFAGSSIAASKHTACYLYAIRQLPSKKEMRPRRRFIEYKSWCRVNINREVGNVAILE Homology
BLAST of Sgr017087 vs. NCBI nr
Match: TYK13025.1 (proline synthase co-transcribed bacterial-like protein [Cucumis melo var. makuwa]) HSP 1 Score: 658.3 bits (1697), Expect = 7.0e-185 Identity = 348/474 (73.42%), Postives = 383/474 (80.80%), Query Frame = 0
BLAST of Sgr017087 vs. NCBI nr
Match: KAF3451752.1 (hypothetical protein FNV43_RR07848 [Rhamnella rubrinervis]) HSP 1 Score: 531.6 bits (1368), Expect = 9.9e-147 Identity = 272/431 (63.11%), Postives = 325/431 (75.41%), Query Frame = 0
BLAST of Sgr017087 vs. NCBI nr
Match: TXG46953.1 (hypothetical protein EZV62_026247 [Acer yangbiense]) HSP 1 Score: 528.5 bits (1360), Expect = 8.4e-146 Identity = 278/472 (58.90%), Postives = 332/472 (70.34%), Query Frame = 0
BLAST of Sgr017087 vs. NCBI nr
Match: PON91274.1 (hypothetical protein TorRG33x02_128370 [Trema orientale]) HSP 1 Score: 459.5 bits (1181), Expect = 4.8e-125 Identity = 240/344 (69.77%), Postives = 269/344 (78.20%), Query Frame = 0
BLAST of Sgr017087 vs. NCBI nr
Match: XP_022133285.1 (pyridoxal phosphate homeostasis protein [Momordica charantia]) HSP 1 Score: 399.8 bits (1026), Expect = 4.5e-107 Identity = 203/220 (92.27%), Postives = 207/220 (94.09%), Query Frame = 0
BLAST of Sgr017087 vs. ExPASy Swiss-Prot
Match: O94903 (Pyridoxal phosphate homeostasis protein OS=Homo sapiens OX=9606 GN=PLPBP PE=1 SV=1) HSP 1 Score: 180.3 bits (456), Expect = 7.3e-44 Identity = 112/231 (48.48%), Postives = 145/231 (62.77%), Query Frame = 0
BLAST of Sgr017087 vs. ExPASy Swiss-Prot
Match: Q1ZXI6 (Pyridoxal phosphate homeostasis protein OS=Dictyostelium discoideum OX=44689 GN=prosc PE=3 SV=2) HSP 1 Score: 178.7 bits (452), Expect = 2.1e-43 Identity = 103/218 (47.25%), Postives = 138/218 (63.30%), Query Frame = 0
BLAST of Sgr017087 vs. ExPASy Swiss-Prot
Match: Q9Z2Y8 (Pyridoxal phosphate homeostasis protein OS=Mus musculus OX=10090 GN=Plpbp PE=1 SV=1) HSP 1 Score: 178.3 bits (451), Expect = 2.8e-43 Identity = 108/221 (48.87%), Postives = 145/221 (65.61%), Query Frame = 0
BLAST of Sgr017087 vs. ExPASy Swiss-Prot
Match: Q3T0G5 (Pyridoxal phosphate homeostasis protein OS=Bos taurus OX=9913 GN=PLPBP PE=2 SV=1) HSP 1 Score: 175.6 bits (444), Expect = 1.8e-42 Identity = 105/218 (48.17%), Postives = 139/218 (63.76%), Query Frame = 0
BLAST of Sgr017087 vs. ExPASy Swiss-Prot
Match: Q5R4Z1 (Pyridoxal phosphate homeostasis protein OS=Pongo abelii OX=9601 GN=PLPBP PE=2 SV=1) HSP 1 Score: 174.9 bits (442), Expect = 3.1e-42 Identity = 106/228 (46.49%), Postives = 140/228 (61.40%), Query Frame = 0
BLAST of Sgr017087 vs. ExPASy TrEMBL
Match: A0A5D3CN93 (Pyridoxal phosphate homeostasis protein OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold255G006260 PE=3 SV=1) HSP 1 Score: 658.3 bits (1697), Expect = 3.4e-185 Identity = 348/474 (73.42%), Postives = 383/474 (80.80%), Query Frame = 0
BLAST of Sgr017087 vs. ExPASy TrEMBL
Match: A0A5C7GQU2 (Pyridoxal phosphate homeostasis protein OS=Acer yangbiense OX=1000413 GN=EZV62_026247 PE=3 SV=1) HSP 1 Score: 528.5 bits (1360), Expect = 4.1e-146 Identity = 278/472 (58.90%), Postives = 332/472 (70.34%), Query Frame = 0
BLAST of Sgr017087 vs. ExPASy TrEMBL
Match: A0A2P5F0F5 (Pyridoxal phosphate homeostasis protein OS=Trema orientale OX=63057 GN=TorRG33x02_128370 PE=3 SV=1) HSP 1 Score: 459.5 bits (1181), Expect = 2.3e-125 Identity = 240/344 (69.77%), Postives = 269/344 (78.20%), Query Frame = 0
BLAST of Sgr017087 vs. ExPASy TrEMBL
Match: A0A6J1BUU4 (Pyridoxal phosphate homeostasis protein OS=Momordica charantia OX=3673 GN=LOC111005906 PE=3 SV=1) HSP 1 Score: 399.8 bits (1026), Expect = 2.2e-107 Identity = 203/220 (92.27%), Postives = 207/220 (94.09%), Query Frame = 0
BLAST of Sgr017087 vs. ExPASy TrEMBL
Match: A0A6J1BT20 (cytochrome b561 and DOMON domain-containing protein At5g35735-like OS=Momordica charantia OX=3673 GN=LOC111005454 PE=4 SV=1) HSP 1 Score: 396.0 bits (1016), Expect = 3.1e-106 Identity = 190/249 (76.31%), Postives = 219/249 (87.95%), Query Frame = 0
BLAST of Sgr017087 vs. TAIR 10
Match: AT1G11930.1 (Predicted pyridoxal phosphate-dependent enzyme, YBL036C type ) HSP 1 Score: 342.4 bits (877), Expect = 7.9e-94 Identity = 179/233 (76.82%), Postives = 192/233 (82.40%), Query Frame = 0
BLAST of Sgr017087 vs. TAIR 10
Match: AT1G11930.2 (Predicted pyridoxal phosphate-dependent enzyme, YBL036C type ) HSP 1 Score: 342.4 bits (877), Expect = 7.9e-94 Identity = 179/233 (76.82%), Postives = 192/233 (82.40%), Query Frame = 0
BLAST of Sgr017087 vs. TAIR 10
Match: AT4G26860.1 (Predicted pyridoxal phosphate-dependent enzyme, YBL036C type ) HSP 1 Score: 312.4 bits (799), Expect = 8.8e-85 Identity = 148/218 (67.89%), Postives = 183/218 (83.94%), Query Frame = 0
BLAST of Sgr017087 vs. TAIR 10
Match: AT4G26860.2 (Predicted pyridoxal phosphate-dependent enzyme, YBL036C type ) HSP 1 Score: 304.3 bits (778), Expect = 2.4e-82 Identity = 148/228 (64.91%), Postives = 183/228 (80.26%), Query Frame = 0
BLAST of Sgr017087 vs. TAIR 10
Match: AT3G25290.1 (Auxin-responsive family protein ) HSP 1 Score: 147.9 bits (372), Expect = 2.9e-35 Identity = 66/163 (40.49%), Postives = 100/163 (61.35%), 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 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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