Abstract
AbstractSafflower (Carthamus tinctoriusL.) flowers are used as a traditional Chinese medicine for a long history. Flavonoids are the main bioactive components in safflower flowers, and most of them exist in the form of flavonoid glycosides. Only few glycosyltransferases have been identified in safflower. To reveal the uridine diphosphate glycosyltransferase (UGT) involved in flavonoid glycosides biosynthesis in safflower, a metabolomics and transcriptome analysis was performed by using the flowers under different light qualities treatments. Three differentially expressedUGTgenes were screened, and their expressions were significantly related with concentrations of 9 flavonoidO-glycosides. Safflower corolla protoplasts were further used to confirm flavonoidO-glycosylation ability of UGT candidates. The astragalin (kaempferol 3-O-glucoside) content was only significantly increased when CtUGT3 was overexpressed in protoplasts. The biochemical properties and kinetic parameters of CtUGT3 were determined. CtUGT3 also showed flavonoid 3-OH and 7-OH glycosylation activitiesin vitro. Molecular modeling and site-directed mutagenesis revealed that E384 and S276 were critical catalytic residues for the 3-OH glycosylation of CtUGT3. These results demonstrate that CtUGT3 has a flavonoid 3-OH glycosylation function and is involved in the biosynthesis of astragalin in safflower. This study provides insights into the catalytic mechanisms of flavonoidO-glycosyltransferases, and makes a reference for flavonoid biosynthesis genes research in medicinal plants.
Publisher
Cold Spring Harbor Laboratory