Structural Analyses of Short-Chain Prenyltransferases Identify an Evolutionarily Conserved GFPPS Clade in Brassicaceae Plants

生物 十字花科 萜类 焦磷酸盐 预酸化 拟南芥 焦磷酸香叶基香叶基 ATP合酶 拟南芥 基因 焦磷酸法尼酯 生物合成 焦磷酸异戊烯酯 生物化学 植物 突变体
作者
Chengyuan Wang,Qingwen Chen,Dongjie Fan,Jianxu Li,Guodong Wang,Peng Zhang
出处
期刊:Molecular Plant [Elsevier BV]
卷期号:9 (2): 195-204 被引量:58
标识
DOI:10.1016/j.molp.2015.10.010
摘要

Terpenoids are the largest and most diverse class of plant-specialized metabolites, which function in diverse physiological processes during plant development. In the biosynthesis of plant terpenoids, short-chain prenyltransferases (SC-PTs), together with terpene synthases (TPSs), play critical roles in determining terpenoid diversity. SC-PTs biosynthesize prenyl pyrophosphates with different chain lengths, and these compounds are the direct precursors of terpenoids. Arabidopsis thaliana possesses a subgroup of SC-PTs whose functions are not clearly known. In this study, we focus on 10 geranylgeranyl pyrophosphate synthase-like [GGPPSL] proteins, which are commonly thought to produce GGPP [C20]. We found that a subset of members of the Arabidopsis GGPPSL gene family have undergone neo-functionalization: GGPPSL6, 7, 9, and 10 mainly have geranylfarnesyl pyrophosphate synthase activity (C25; renamed AtGFPPS1, 2, 3, and 4), and GGPPSL8 produces even longer chain prenyl pyrophosphate (≥ C30; renamed polyprenyl pyrophosphate synthase 2, AtPPPS2). By solving the crystal structures of AtGFPPS2, AtPPPS2, and AtGGPPS11, we reveal the product chain-length determination mechanism of SC-PTs and interpret it as a "three floors" model. Using this model, we identified a novel GFPPS clade distributed in Brassicaceae plants and found that the GFPPS gene typically occurs in tandem with a gene encoding a TPS, forming a GFPPS-TPS gene cluster.

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