生物化学
糖基化
糖基转移酶
化学
酶
基因家族
蛋白质工程
定向进化
基因
突变
生物
糖苷
残留物(化学)
类黄酮
活动站点
代谢工程
基因组
蛋白质家族
生物合成
对接(动物)
氨基酸
立体化学
亚细胞定位
药物发现
转录组
作者
Xun Xu,Ruiheng Tang,Lin He,Qidi Wei,Zhinan Mei,Yuanlong Liu
出处
期刊:Plant Journal
[Wiley]
日期:2026-02-01
卷期号:125 (4): e70739-e70739
摘要
Flavonoid glycosides and triterpenoid saponins are bioactive plant metabolites with broad applications in food, medicine, and agriculture. These compounds are typically synthesized through glycosylation catalyzed by uridine diphosphate-dependent glycosyltransferases (UGTs). In this study, phylogenetic analysis across multiple species revealed a lineage-specific expansion of the UGT73 family in legumes such as Entada phaseoloides and Glycine max. The genome of the medicinal legume E. phaseoloides was re-annotated using integrated Oxford Nanopore Technologies and Illumina transcriptomic data to identify target genes. Four expanded UGT73 family genes were selected and functionally characterized. UGT73AA6 specifically glycosylates flavonoids, while UGT73CG48 and UGT73CG49 catalyze glycosylation of both flavonoids and pentacyclic triterpenoids. UGT73CG49 exhibits higher catalytic activity for the glucosylation of flavonoids and pentacyclic triterpenes compared to its xylosylation activity. Structural modeling and molecular docking identified key active sites, and site-directed mutagenesis revealed Gly194 as a critical residue enhancing catalytic activity in UGT73CG49. This study provides new insights into the functional evolution and metabolic versatility of the UGT73 family in legumes. The identification and engineering of UGT73 genes from E. phaseoloides lay a foundation for future applications in biosynthetic pathway engineering and the industrial production of high-value glycosides.
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