Robert M. Coates scite author profile

The x-ray crystal structure of dimeric (؉)-bornyl diphosphate synthase, a metal-requiring monoterpene cyclase from Salvia officinalis, is reported at 2.0-Å resolution. Each monomer contains two ␣-helical domains: the C-terminal domain catalyzes the cyclization of geranyl diphosphate, orienting and stabilizing multiple reactive carbocation intermediates; the N-terminal domain has no clearly defined function, although its N terminus caps the active site in the C-terminal domain during catalysis. Structures of complexes with aza analogues of substrate and carbocation intermediates, as well as complexes with pyrophosphate and bornyl diphosphate, provide ''snapshots'' of the terpene cyclization cascade.

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Taxadiene synthase structure and evolution of modular architecture in terpene biosynthesis

Koksal

Jin

Coates

et al. 2010

Nature

293

326

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With more than 55,000 members identified to date in all forms of life, the family of terpene or terpenoid natural products represents the epitome of molecular biodiversity. A particularly eminent member of this family is the polycyclic diterpenoid Taxol (paclitaxel), which promotes tubulin polymerization1 and exhibits remarkable efficacy in cancer chemotherapy2. The first committed step of Taxol biosynthesis in the Pacific yew (Taxus brevifolia)3 is the cyclization of the linear isoprenoid substrate geranylgeranyl diphosphate (GGPP) to form taxa-4(5),11(12)diene4, which is catalyzed by taxadiene synthase5. The full-length form of this diterpene cyclase contains 862-residues, but an ~80-residue N-terminal transit sequence is cleaved upon maturation in plastids6. We now report the X-ray crystal structure of a truncation variant lacking the transit sequence and an additional 27 residues at the N-terminus, henceforth designated TXS. Specifically, we have determined structures of TXS complexed with 13-aza-13,14-dihydrocopalyl diphosphate (ACP, 1.82 Å resolution) and 2-fluorogeranylgeranyl diphosphate (FGP, 2.25 Å resolution). The TXS structure is the first of a diterpene cyclase and reveals a modular assembly of three α-helical domains. The C-terminal catalytic domain is a class I terpenoid cyclase, which binds and activates substrate GGPP with a three-metal ion cluster. Surprisingly, the N-terminal domain and a third "insertion" domain together adopt the fold of a vestigial class II terpenoid cyclase. A class II cyclase activates the isoprenoid substrate by protonation instead of ionization, and the TXS structure reveals a definitive connection between the two distinct cyclase classes in the evolution of terpenoid biosynthesis.

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Redirection of cytosolic or plastidic isoprenoid precursors elevates terpene production in plants

et al. 2006

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Terpenes constitute a distinct class of natural products that attract insects, defend against phytopathogenic microbes and combat human diseases. However, like most natural products, they are usually made by plants and microbes in small amounts and as complex mixtures. Chemical synthesis is often costly and inefficient, and may not yield enantiomerically pure terpenes, whereas large-scale microbial production requires expensive feedstocks. We engineered high-level terpene production in tobacco plants by diverting carbon flow from cytosolic or plastidic isopentenyl diphosphate through overexpression in either compartment of an avian farnesyl diphosphate synthase and an appropriate terpene synthase. Isotopic labeling studies suggest little, if any, metabolite exchange between these two subcellular compartments. The strategy increased synthesis of the sesquiterpenes patchoulol and amorpha-4,11-diene more than 1,000-fold, as well as the monoterpene limonene 10-30 fold, and seems equally suited to generating higher levels of other terpenes for research, industrial production or therapeutic applications.

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Robert M. Coates

Bornyl diphosphate synthase: Structure and strategy for carbocation manipulation by a terpenoid cyclase

Taxadiene synthase structure and evolution of modular architecture in terpene biosynthesis

Redirection of cytosolic or plastidic isoprenoid precursors elevates terpene production in plants

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