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Regulatory Module FtMYB5/6–FtGBF1–<i>FtUFGT163</i> Promotes Rutin Biosynthesis in Tartary Buckwheat

Haixia Zhao, Mufan Hu, Yue Fang, Yingjun Yao, Jiali Zhao, Yuanbin Mao, Tao Wang, Huala Wu, Chenglei Li, Hongyou Li, Qi Wu

2024Journal of Agricultural and Food Chemistry13 citationsDOI

Abstract

Tartary buckwheat is highly valued for its abundant rutin (quercetin 3- O -rutinoside). As a flavonoid glycoside, rutin is synthesized with the crucial involvement of UDP-dependent glycosyltransferases (UGTs). However, the functions and transcriptional regulation of the UGT-encoded genes remain poorly understood. This study identified a key gene, FtUFGT163, potentially encoding flavonol 3- O -glucoside (1 → 6) rhamnosyltransferase in Tartary buckwheat through omics analysis and molecular docking methods. The recombinant FtUFGT163 expressed in Escherichia coli demonstrated the capacity to glycosylate isoquercetin into rutin. Overexpression of FtUFGT163 significantly enhanced the rutin content in Tartary buckwheat. Further investigation identified a novel bZIP transcription factor, FtGBF1, that enhances FtUFGT163 expression by binding to the G-box element within its promoter, thereby augmenting rutin biosynthesis. Additional molecular biology experiments indicated that the specific positive regulator of rutin, FtMYB5/6, could directly activate the FtGBF1 promoter. Collectively, this study elucidates a novel regulatory module, termed “FtMYB5/6–FtGBF1– FtUFGT163 ”, which effectively coordinates the biosynthesis of rutin in Tartary buckwheat, offering insights into the genetic enhancement of nutraceutical components in crops.

Topics & Concepts

RutinBiosynthesisChemistryFood scienceBiochemistryGeneAntioxidantSeed and Plant BiochemistryMicrobial Metabolites in Food BiotechnologyPlant Molecular Biology Research
Regulatory Module FtMYB5/6–FtGBF1–<i>FtUFGT163</i> Promotes Rutin Biosynthesis in Tartary Buckwheat | Litcius