文献类型：期刊文献

英文题名：Characterization of UGT71, a major glycosyltransferase family for triterpenoids, flavonoids and phytohormones-biosynthetic in plants

作者：Yang, Yang[1,2] Wang, Jia[1,2] Han, Fuchuan[1,2] Zhang, Jiantao[1,2] Gao, Ming[1,2] Zhao, Yunxiao[1,2] Chen, Yicun[1,2] Wang, Yangdong[1,2]

第一作者：Yang, Yang

通信作者：Chen, YC[1];Wang, YD[1];Chen, YC[2];Wang, YD[2]

机构：[1]Chinese Acad Forestry, State Key Lab Tree Genet & Breeding, Beijing 100091, Peoples R China;[2]Chinese Acad Forestry, Res Inst Subtrop Forestry, Hangzhou 311400, Zhejiang, Peoples R China

年份：2024

卷号：4

外文期刊名：FORESTRY RESEARCH

收录：Scopus(收录号：2-s2.0-85208647041);WOS:【ESCI(收录号:WOS:001379987700002)】；

基金：Acknowledgments This work was supported by the National Natural Science Foundation of China (31971685) and the Ten Thousand People Plan of Science and Technology Innovation Leading Talent of Zhejiang, China (Grant No. 2022R52028) awarded to Yicun Chen.

语种：英文

摘要：UGT catalyzes the transfer of glycosyl molecules from donors to acceptors, and the glycosylation catalyzed by them is a modification reaction essential for plant cell growth, development, and metabolic homeostasis. Members of this class of enzymes are found in all areas of life and are involved in the biosynthesis of an extensive range of glycosides. This review aims to screen and collate relevant properties of the UGT71 family in plants and their functions in plant secondary metabolites. Firstly, we conducted a retrospective analysis of information about plant UGTs, before focusing on UGT71s through glycosylation of secondary metabolites (triterpenoids, flavonoids) and glycosylation of phytohormones (ABA, SA). Consequently, they play a pivotal role in plant defence, hormone regulation, and the biosynthesis of secondary metabolites, thereby enabling plants to adapt to changing environments. Further investigation revealed that UGTs (UGT71s) can enhance the adaptive and resistant potential of plants in the context of today's deteriorating growing conditions due to climate change impacts caused by global warming. Nevertheless, further in-depth studies on the intricate interactions among UGTs in plants are required to fully exploit the potential of UGTs in protecting plants against stress.