Litcius/Paper detail

The Advances and Challenges in Enzymatic <i>C</i>-glycosylation of Flavonoids in Plants

Hui-Yao Gao, Yan Liu, Fei-Fan Tan, Liwen Zhu, Kai‐Zhi Jia, Ya‐Jie Tang

2022Current Pharmaceutical Design30 citationsDOI

Abstract

Flavonoid glycosides play determinant roles in plants and have considerable potential for applications in medicine and biotechnology. Glycosyltransferases transfer a sugar moiety from uridine diphosphateactivated sugar molecules to an acceptor flavonoid via C-O and C-C linkages. Compared with O-glycosyl flavonoids, C-glycosyl flavonoids are more stable, resistant to glycosidase or acid hydrolysis, exhibit better pharmacological properties, and have received more attention. In this study, we discuss the mining of C-glycosyl flavones and the corresponding C-glycosyltransferases and evaluate the differences in structure and catalytic mechanisms between C-glycosyltransferase and O-glycosyltransferase. We conclude that promiscuity and specificity are key determinants for general flavonoid C-glycosyltransferase engineering and summarize the C-glycosyltransferase engineering strategy. A thorough understanding of the properties, catalytic mechanisms, and engineering of C-glycosyltransferases will be critical for future biotechnological applications in areas such as the production of desired C-glycosyl flavonoids for nutritional or medicinal use.

Topics & Concepts

GlycosyltransferaseGlycosylGlycosylationFlavonoidBiochemistryChemistryUridine diphosphateGlycosideEnzymeStereochemistryAntioxidantPlant Gene Expression AnalysisMicrobial Metabolites in Food BiotechnologyPlant biochemistry and biosynthesis