生物
计算生物学
基因组
适应(眼睛)
原核生物
功能多样性
进化生物学
遗传多样性
多元化(营销策略)
系统发育学
基因组学
代谢途径
保守序列
植物代谢
遗传学
酶
代谢工程
克莱德
拟南芥
作者
Michael J. Stephenson,Charlotte Owen,James Reed,Anne Osbourn
标识
DOI:10.1038/s41589-025-02034-8
摘要
The differential cyclization and rearrangement of 2,3-oxidosqualene controlled by oxidosqualene cyclases (OSCs) represents one of the most complex single enzyme transformations in nature and gives rise to a vast array of triterpenoid diversity in the plant kingdom. Here we systematically mine 599 plant genomes representing 387 species and investigate OSC diversity across different plant lineages. From the OSC sequences identified, 20 were selected for functional evaluation. Through analysis of these enzymes, we discover product profiles within clades previously believed to be functionally conserved and OSCs producing triterpenes for which no enzymatic source was known. We also discover OSCs with product profiles that yield mechanistic insights into the control of specific reaction pathways. Our study reveals lineage-specific blooms of OSC subgroups suggestive of adaptation to different environmental niches, opens up previously inaccessible chemistry and provides a framework for systematic investigations of metabolic diversification and underlying enzymatic mechanisms in the plant kingdom.
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