Kuo-Hsun Teng scite author profile

Terpenes (isoprenoids), derived from isoprenyl pyrophosphates, are versatile natural compounds that act as metabolism mediators, plant volatiles, and ecological communicators. Divergent evolution of homomeric prenyltransferases (PTSs) has allowed PTSs to optimize their active-site pockets to achieve catalytic fidelity and diversity. Little is known about heteromeric PTSs, particularly the mechanisms regulating formation of specific products. Here, we report the crystal structure of the (LSU·SSU) 2 -type (LSU/SSU = large/small subunit) heterotetrameric geranyl pyrophosphate synthase (GPPS) from mint (Mentha piperita). The LSU and SSU of mint GPPS are responsible for catalysis and regulation, respectively, and this SSU lacks the essential catalytic amino acid residues found in LSU and other PTSs. Whereas no activity was detected for individually expressed LSU or SSU, the intact (LSU·SSU) 2 tetramer produced not only C 10 -GPP at the beginning of the reaction but also C 20 -GGPP (geranylgeranyl pyrophosphate) at longer reaction times. The activity for synthesizing C 10 -GPP and C 20 -GGPP, but not C 15 -farnesyl pyrophosphate, reflects a conserved active-site structure of the LSU and the closely related mustard (Sinapis alba) homodimeric GGPPS. Furthermore, using a genetic complementation system, we showed that no C 20 -GGPP is produced by the mint GPPS in vivo. Presumably through protein-protein interactions, the SSU remodels the active-site cavity of LSU for synthesizing C 10 -GPP, the precursor of volatile C 10 -monoterpenes.

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Structures, mechanisms and inhibitors of undecaprenyl diphosphate synthase: A cis-prenyltransferase for bacterial peptidoglycan biosynthesis

Teng

Liang

2012

Bioorganic Chemistry

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Fluorescent substrate analog for monitoring chain elongation by undecaprenyl pyrophosphate synthase in real time

Teng

Chen

Kuo

et al. 2011

Analytical Biochemistry

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Undecaprenyl diphosphate synthase, acis-prenyltransferase synthesizing lipid carrier for bacterial cell wall biosynthesis

Teng

Liang

2012

Molecular Membrane Biology

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A group of prenyltransferases produce linear lipids by catalyzing consecutive condensation reactions of farnesyl diphosphate (FPP) with specific numbers of isopentenyl diphosphate (IPP), a common building block of isoprenoid compounds. Depending on the stereochemistry of the double bonds formed during IPP condensation, these prenyltransferases are categorized as cis- and trans-types. Undecaprenyl diphosphate synthase (UPPS) that catalyzes chain elongation of FPP by consecutive condensation reactions with eight IPP, to form C₅₅ lipid carrier for bacterial cell wall biosynthesis, serves as a model for understanding cis-prenyltransferases. In this review, the current knowledge in UPPS kinetics, mechanisms, structures, and inhibitors is summarized.

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Kuo-Hsun Teng

Structure of a Heterotetrameric Geranyl Pyrophosphate Synthase from Mint (Mentha piperita) Reveals Intersubunit Regulation

Structures, mechanisms and inhibitors of undecaprenyl diphosphate synthase: A cis-prenyltransferase for bacterial peptidoglycan biosynthesis

Fluorescent substrate analog for monitoring chain elongation by undecaprenyl pyrophosphate synthase in real time

Undecaprenyl diphosphate synthase, acis-prenyltransferase synthesizing lipid carrier for bacterial cell wall biosynthesis

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