Sgr025938 (gene) Monk fruit (Qingpiguo) v1

Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

Legend: exonCDSpolypeptide
Hold the cursor over a type above to highlight its positions in the sequence below.
ATGAGCAGGGAAGTCGTCGGCGACGGCCGGCGTACCTCAGAGCTGCTACTTCTTGACCTCGTACGTGACTTTGTTCTGATGTCAGGGAAGTCCATCGCCGGCGCCGGAGACGTCATGAAAAAGGACTGCACCGATCTCATCCGTCGGATCGCGCTCCTTATCCATCTAGCGGAGGAGATCGTAAACTTCAAGGGCGGCGACAATCTCAAGGAATTGAATGAGTCTGCTTGTTGTTCTTCTTCCTCTACTTTGGATTGCCTTTCAGAAGTGGCCGGAGCCATTCAGGCGGCGAAGCGCCTTCTTTACGCCGCTTTGACTTTCTCTGGAAACGACGACGCTCCTGCGACCTCGCCTGTGAGTTCATCCTTATCGTTCTCTTCTTCTCTGATCGCAATTATTTTCTGTGTTTTGATTGGTTTGATAACAAGCCGGAAGTGGAACTTCCATTAATGTAATAACTCTGAACTCTGGGATTTTGATTTTCGCTACAGTTTTGGCAAATTTTCTCGGCCGCCAAACGGTTCTATTCCTTAAATTTTACCAGAAATTTCTTTCTGCGTTGGCTCTTTAGCATTCTTCTTCTTCTTCTAGCAGATCGTGTCCAATAAAAATGTATAAGTAATTAGGTATAAATCTTGTCAAAATTTTTACTTTGATTCTTATATTTTGAAATTGGAATGGTAAGAAATCGAATTAAATCGAAGAATTCAACTGAATTAAATTAGTTCGGTTTAGTTAATCTTTTGGTTCGGTTCAACTTTAACCTGATTATGTTGGGTTAGTGGTTCAACATTGAAGTGAGCTGAACCGATATTATTATTTATTTTTTAAAATTTATTTGTTTATTATATAATAATTATTATTGTATTTATTTATTGCTTATATTTGATTAAGTGGTATTTTTATTAAAGTAATTTTATTAAGTGATATTAAATTGTACCAACCTAATCCAATGAATCAATCTAAACCAAATTGAACCAAATTGATTTGGTTCTCATTCAATGGTTGGTTTAGTTGGGTCCCAAAAATTTACAAAACTGAACCATTTAGTTTGGGAGATTTGACCAAAAACTGAGCTGAATGAATAAATTTACAATCCTATTTAAAATAGTTTGTTTTAATTCTAAATTTTTACAAATATTTGTTTTGATTATTGGTGTTACATTTTTTTGTTCTGTTAATGAAAATCTTAAGTTTCCTACTTTTAAATTTGATAATAGACTAGATATATGTTGTTTAGAATGCAGGTCCATGTGATGTTAATGCAATGCGAAGATTTAGCAACAAAGACAAAAAGAAGATTTTATATTAAGTTTACAAGTCAAAATAGAATATTTAAATGTAGGAGATAAATAAAGAAAATATAGAAATGATTTAAAAAAGTAAATGACAAATAATATTTATCACCTATTCGCACAAGTTTACAATATAAAAATGTACAAATTTGTTTAGAATAATCGAAAATAGCTTTTGACATAATTTCCAAACCCCTAATATCCTTTTAGAAATATTTTATATATACACATTACATGATTAAGAAATAGTAAAATCTCTTTTTCCAAAAAAAAAAAAAAAAAAGAAAGAAACAGTAAAATCTCGATGAATATTTTTATCATAAAAATAAAACTTTCATTTTCTTGATTCCAGTGTTGTATCAGTATTATGTTGTACTCTCAAATTAGCTTTTACCATGGCTTCAGAAAAACATCTTGATAAAATAAAATATTCCTACTTTGAAATGAAATTGTTAATTTATTCATAAAAAAATCGTAAGTTGAACATAAAAATTCATTCCATTTACTTATCCCTCAATGCAAATATGGCATGATAAAAATTCAAAATTACAGAAATAGCAACTTAAAAAAGTAATTGGAAATATTCTAACAAAATCAATCAATAATTATTAAGATTATCTTAATTAACATGTAGGTTGATCAAAATCAATAGTTATTGCTAAGAATTTAAATATTGATGTAGGAGGAGATATTTAAGAAAGTCATAAAAAAAAAATTATTCAAATATAAATAAGTGTGAATAAGTTAAAATTCTTATTATTAATATTTATCTTCAATTGAGTGTTATATTTTTTTTATACTTTTAACAATATTTTTACCATATATCAAAAAAATGTTTAATCTCTAGAATCAATGTCAAACTCTTAAATTAATGAAAATATCAATATATCGAAAAATAATTTAGCGATCAATAGTTGGTAATTATTTGTATGAAAATGAGCATTTACAAATATTTAAGAAAATGAGATTATCAAATGAAAAAATTCCCACATTTTACATAAATGAAGTTTTGGTTCTGCGTGTTCTTGGCATTTGCATGTGTTTCATATCTCTATATTGGACACTGAAAATTCTAAATCTTTTTCATTCGAAGGACGGAGCTACCAAAAAATTGGTTCTCCAATTTCAGAACGTGACAAACAGTTTGGAAAATGCACTCGCAAATCTGCCATACGACCACTTTTGCATCTCAGATGAAGTTCAGGAACAGGTATAATCAAAACTCACACTTCATTATTATTATGGGTGACCCGAATTCTTTAAAATTCGATTTGAGAAGCTTATGATGTTATATTTAAAGTGAGAAAAATTGTGGTCGGCCAGTATTCTACGTAAAATCCATTGGCAATTTACACACGAGTGAAATGAGAGCAATAATAGCATTAAGAAGAAAAGTAAAGGAAAAGAAATACACTCAAGATTTATTTAGGTTCATCCTTAAATGGGTTACGTCTTGTCTTCTCCAAATAGAAACAATGAAGAGTACACACTTATAATATGTGTCACCTTTTACATATCGCATGAAAGGAGTTTCAATTTCTTTATTCTCTCTCAAACACAAGCTTAAACCCGAGAAAACCTTCTTTGTCGGCGCAATGTCGACTATCTACTTCTTTGAGATGACGTTTATGTTGGGCTTCTAACAAACGTGAACTTGGCTCTACAACATAACTATTGTGTTTTTCTTCCTCTTTTATCTCATTGTTTCATAACCGTTTCAGAATAGTTGTCCTAAATTTAAGTTGATTATATTTCGCCTCTTCCTCGAACCGTTGAGAAAGCCTTTTGTCTCCTGAGCTTTGCTTTGCTTCTGTTTTTTCCTTTTCTGGGTCCAGGTTGATTTGGTTAGAGCTCAGTTGAGGAGAGCAGCAAAGAAGTATGAGTCTATGTGTGAACTTGCAGACAAGAAGCTTCATTCTCGAGGTTCTGTAAAATGGAGGGTCAACAGTGATGTTAAGAACATGAGTAGTGGTGATGATGAAGCTGCAGAGCTGCAGCATCTTCCCCGAAACCGTGACGATTGGATCAGTTTTGATTTGGCAGAGCTGAAGAACTCTGATTCATGTTTGGATGAGTGTTCAAGTGTTGCTCATTCTGATATGGAAGATGTTATAGCCAGCAAGAGCCAGGATGAGGTTGGGAAGTCTGATGAAGTTGTGATTCCTGAGAACTTCTTATGCCCCATATCCCTTGAATTGATGACAGATCCTGTCATCGTCTCGACGGGACAGGTATGATCGCCATCGATCTGATTCTGTTGTTTTCTAGAAAATGATGAGTTAAAAAAACTGCTTGACAAGTTTATGATTTTGAAAGAAGAACAACATCCGTTGTTTCGTTCGAGAAAACAACTTTTAAGAAACAGTTAACGAAACATGTTTTTACTGAATTTTTGCTTGAAAAGGCAGAAAATTGTGATGAAAACGGGTTTCCGTACAAGGATCGACTGACTTAACAATGATCATTTGTAGACATATGAGAGATCGAACATACAGAGATGGATAGACAGTGGAAACACAACTTGTCCAAAAACTCAGGAGCAGCTCCAGGCTCTGATCCTCACTCCAAATTTTCTGATGAAACAACTGATATCTGAATGGTGTCAAGAACACAATGTCAAGTTAGAGGAAGGATTAACCAACCGGAAACTTAGGAAGTACAGATCATTGGAAGATGATCGCCGAAGGACTATGCCCATCAAAACTTTGGTTCGACAACTTTCTTTCGGGTCGATTCAGGAGCAGAAGGCAGCTGTGACCGAGATCCGAAAGCTATCGAAAAGCAGCTCAGATCACAGAGCTGAAATAGCAGAAGCAGGAGCAATCCCACACCTGGTTAACCTTTTAACTTCAGAAGATGTTCTAACCCAAGAGCATGCAATTACTTGCATTCTCAACCTTTCACTTCATGAACAAAACAAGAGACTTGTTATGCTTTCTGGTGCAGTTTCTTACATTTCCAAAGTCCTCAAAGTTGGGAGCATGGAAGGGAGAGAGTCTGCTGCTGCAACGATTTACAGCTTGTCGTTAGCCGATGAGAACAAGGCGATAATTGGGGCTTCGGGCGTGATCCCCGACCTGTTGGAAATTCTCGAGATCGGGAGCATGAGAGGGAAGAAAGATGCTGCAAGAGCCCTGTTGAATTTGTGTACGTACCAAGGGAACAAGGGCAGGGCTGTGAAGGCTGGGATTGTCAAACCATTGTTGAAAATGCTCTCAGATTCAAATGGCTCCATGGTTGATGAAGCTCTGTATATAATTTCGGTTCTTTGTGGCTATCCGGAGGCGAAGGCTGCGATGGCGAACGCAAACTTTCTGCTCGTTTTGACCGACGTTCTGAAGACGGGGTCGTCTCGCAACAAGGAAAATGCAGCTGCAGTTCTACTTGCCTTGTGCAAGGGAGATTTGGAGAAGCTTGCATGGTTAAGCAGGCTCGGCGTGGTGATACCGTTGATGAGACTTGCCGAGAACGGCACGGAGAGAGCGAGGCGGAAGGCTAGTTCATTGTTGGAGCAACTCCGAAAATCATGA

mRNA sequence

ATGAGCAGGGAAGTCGTCGGCGACGGCCGGCGTACCTCAGAGCTGCTACTTCTTGACCTCGTACGTGACTTTGTTCTGATGTCAGGGAAGTCCATCGCCGGCGCCGGAGACGTCATGAAAAAGGACTGCACCGATCTCATCCGTCGGATCGCGCTCCTTATCCATCTAGCGGAGGAGATCGTAAACTTCAAGGGCGGCGACAATCTCAAGGAATTGAATGAGTCTGCTTGTTGTTCTTCTTCCTCTACTTTGGATTGCCTTTCAGAAGTGGCCGGAGCCATTCAGGCGGCGAAGCGCCTTCTTTACGCCGCTTTGACTTTCTCTGGAAACGACGACGCTCCTGCGACCTCGCCTGACGGAGCTACCAAAAAATTGGTTCTCCAATTTCAGAACGTGACAAACAGTTTGGAAAATGCACTCGCAAATCTGCCATACGACCACTTTTGCATCTCAGATGAAGTTCAGGAACAGGTTGATTTGGTTAGAGCTCAGTTGAGGAGAGCAGCAAAGAAGTATGAGTCTATGTGTGAACTTGCAGACAAGAAGCTTCATTCTCGAGGTTCTGTAAAATGGAGGGTCAACAGTGATGTTAAGAACATGAGTAGTGGTGATGATGAAGCTGCAGAGCTGCAGCATCTTCCCCGAAACCGTGACGATTGGATCAGTTTTGATTTGGCAGAGCTGAAGAACTCTGATTCATGTTTGGATGAGTGTTCAAGTGTTGCTCATTCTGATATGGAAGATGTTATAGCCAGCAAGAGCCAGGATGAGGTTGGGAAGTCTGATGAAGTTGTGATTCCTGAGAACTTCTTATGCCCCATATCCCTTGAATTGATGACAGATCCTGTCATCGTCTCGACGGGACAGACATATGAGAGATCGAACATACAGAGATGGATAGACAGTGGAAACACAACTTGTCCAAAAACTCAGGAGCAGCTCCAGGCTCTGATCCTCACTCCAAATTTTCTGATGAAACAACTGATATCTGAATGGTGTCAAGAACACAATGTCAAGTTAGAGGAAGGATTAACCAACCGGAAACTTAGGAAGTACAGATCATTGGAAGATGATCGCCGAAGGACTATGCCCATCAAAACTTTGGTTCGACAACTTTCTTTCGGGTCGATTCAGGAGCAGAAGGCAGCTGTGACCGAGATCCGAAAGCTATCGAAAAGCAGCTCAGATCACAGAGCTGAAATAGCAGAAGCAGGAGCAATCCCACACCTGGTTAACCTTTTAACTTCAGAAGATGTTCTAACCCAAGAGCATGCAATTACTTGCATTCTCAACCTTTCACTTCATGAACAAAACAAGAGACTTGTTATGCTTTCTGGTGCAGTTTCTTACATTTCCAAAGTCCTCAAAGTTGGGAGCATGGAAGGGAGAGAGTCTGCTGCTGCAACGATTTACAGCTTGTCGTTAGCCGATGAGAACAAGGCGATAATTGGGGCTTCGGGCGTGATCCCCGACCTGTTGGAAATTCTCGAGATCGGGAGCATGAGAGGGAAGAAAGATGCTGCAAGAGCCCTGTTGAATTTGTGTACGTACCAAGGGAACAAGGGCAGGGCTGTGAAGGCTGGGATTGTCAAACCATTGTTGAAAATGCTCTCAGATTCAAATGGCTCCATGGTTGATGAAGCTCTGTATATAATTTCGGTTCTTTGTGGCTATCCGGAGGCGAAGGCTGCGATGGCGAACGCAAACTTTCTGCTCGTTTTGACCGACGTTCTGAAGACGGGGTCGTCTCGCAACAAGGAAAATGCAGCTGCAGTTCTACTTGCCTTGTGCAAGGGAGATTTGGAGAAGCTTGCATGGTTAAGCAGGCTCGGCGTGGTGATACCGTTGATGAGACTTGCCGAGAACGGCACGGAGAGAGCGAGGCGGAAGGCTAGTTCATTGTTGGAGCAACTCCGAAAATCATGA

Coding sequence (CDS)

ATGAGCAGGGAAGTCGTCGGCGACGGCCGGCGTACCTCAGAGCTGCTACTTCTTGACCTCGTACGTGACTTTGTTCTGATGTCAGGGAAGTCCATCGCCGGCGCCGGAGACGTCATGAAAAAGGACTGCACCGATCTCATCCGTCGGATCGCGCTCCTTATCCATCTAGCGGAGGAGATCGTAAACTTCAAGGGCGGCGACAATCTCAAGGAATTGAATGAGTCTGCTTGTTGTTCTTCTTCCTCTACTTTGGATTGCCTTTCAGAAGTGGCCGGAGCCATTCAGGCGGCGAAGCGCCTTCTTTACGCCGCTTTGACTTTCTCTGGAAACGACGACGCTCCTGCGACCTCGCCTGACGGAGCTACCAAAAAATTGGTTCTCCAATTTCAGAACGTGACAAACAGTTTGGAAAATGCACTCGCAAATCTGCCATACGACCACTTTTGCATCTCAGATGAAGTTCAGGAACAGGTTGATTTGGTTAGAGCTCAGTTGAGGAGAGCAGCAAAGAAGTATGAGTCTATGTGTGAACTTGCAGACAAGAAGCTTCATTCTCGAGGTTCTGTAAAATGGAGGGTCAACAGTGATGTTAAGAACATGAGTAGTGGTGATGATGAAGCTGCAGAGCTGCAGCATCTTCCCCGAAACCGTGACGATTGGATCAGTTTTGATTTGGCAGAGCTGAAGAACTCTGATTCATGTTTGGATGAGTGTTCAAGTGTTGCTCATTCTGATATGGAAGATGTTATAGCCAGCAAGAGCCAGGATGAGGTTGGGAAGTCTGATGAAGTTGTGATTCCTGAGAACTTCTTATGCCCCATATCCCTTGAATTGATGACAGATCCTGTCATCGTCTCGACGGGACAGACATATGAGAGATCGAACATACAGAGATGGATAGACAGTGGAAACACAACTTGTCCAAAAACTCAGGAGCAGCTCCAGGCTCTGATCCTCACTCCAAATTTTCTGATGAAACAACTGATATCTGAATGGTGTCAAGAACACAATGTCAAGTTAGAGGAAGGATTAACCAACCGGAAACTTAGGAAGTACAGATCATTGGAAGATGATCGCCGAAGGACTATGCCCATCAAAACTTTGGTTCGACAACTTTCTTTCGGGTCGATTCAGGAGCAGAAGGCAGCTGTGACCGAGATCCGAAAGCTATCGAAAAGCAGCTCAGATCACAGAGCTGAAATAGCAGAAGCAGGAGCAATCCCACACCTGGTTAACCTTTTAACTTCAGAAGATGTTCTAACCCAAGAGCATGCAATTACTTGCATTCTCAACCTTTCACTTCATGAACAAAACAAGAGACTTGTTATGCTTTCTGGTGCAGTTTCTTACATTTCCAAAGTCCTCAAAGTTGGGAGCATGGAAGGGAGAGAGTCTGCTGCTGCAACGATTTACAGCTTGTCGTTAGCCGATGAGAACAAGGCGATAATTGGGGCTTCGGGCGTGATCCCCGACCTGTTGGAAATTCTCGAGATCGGGAGCATGAGAGGGAAGAAAGATGCTGCAAGAGCCCTGTTGAATTTGTGTACGTACCAAGGGAACAAGGGCAGGGCTGTGAAGGCTGGGATTGTCAAACCATTGTTGAAAATGCTCTCAGATTCAAATGGCTCCATGGTTGATGAAGCTCTGTATATAATTTCGGTTCTTTGTGGCTATCCGGAGGCGAAGGCTGCGATGGCGAACGCAAACTTTCTGCTCGTTTTGACCGACGTTCTGAAGACGGGGTCGTCTCGCAACAAGGAAAATGCAGCTGCAGTTCTACTTGCCTTGTGCAAGGGAGATTTGGAGAAGCTTGCATGGTTAAGCAGGCTCGGCGTGGTGATACCGTTGATGAGACTTGCCGAGAACGGCACGGAGAGAGCGAGGCGGAAGGCTAGTTCATTGTTGGAGCAACTCCGAAAATCATGA

Protein sequence

MSREVVGDGRRTSELLLLDLVRDFVLMSGKSIAGAGDVMKKDCTDLIRRIALLIHLAEEIVNFKGGDNLKELNESACCSSSSTLDCLSEVAGAIQAAKRLLYAALTFSGNDDAPATSPDGATKKLVLQFQNVTNSLENALANLPYDHFCISDEVQEQVDLVRAQLRRAAKKYESMCELADKKLHSRGSVKWRVNSDVKNMSSGDDEAAELQHLPRNRDDWISFDLAELKNSDSCLDECSSVAHSDMEDVIASKSQDEVGKSDEVVIPENFLCPISLELMTDPVIVSTGQTYERSNIQRWIDSGNTTCPKTQEQLQALILTPNFLMKQLISEWCQEHNVKLEEGLTNRKLRKYRSLEDDRRRTMPIKTLVRQLSFGSIQEQKAAVTEIRKLSKSSSDHRAEIAEAGAIPHLVNLLTSEDVLTQEHAITCILNLSLHEQNKRLVMLSGAVSYISKVLKVGSMEGRESAAATIYSLSLADENKAIIGASGVIPDLLEILEIGSMRGKKDAARALLNLCTYQGNKGRAVKAGIVKPLLKMLSDSNGSMVDEALYIISVLCGYPEAKAAMANANFLLVLTDVLKTGSSRNKENAAAVLLALCKGDLEKLAWLSRLGVVIPLMRLAENGTERARRKASSLLEQLRKS