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An Unusual Terpene Cyclization Mechanism Involving a Carbon–Carbon Bond Rearrangement |
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| Authors: | Dr Ayuko Meguro Yudai Motoyoshi Kazuya Teramoto Shota Ueda Yusuke Totsuka Yumi Ando Dr Takeo Tomita Dr Seung‐Young Kim Dr Tomoyuki Kimura Dr Masayuki Igarashi Dr Ryuichi Sawa Prof?Dr Tetsuro Shinada Prof?Dr Makoto Nishiyama Prof?Dr Tomohisa Kuzuyama |
| Institution: | 1. Biotechnology Research Center, The University of Tokyo, 1‐1‐1 Yayoi, Bunkyo‐ku, Tokyo 113‐8657 (Japan);2. Department of Material Science, Graduate School of Science, Osaka City University, Sugimoto, Sumiyoshi‐ku, Osaka 558‐8585 (Japan);3. Institute of Microbial Chemistry, Tokyo, 3‐14‐23 Kamiosaki, Shinagawa‐ku, Tokyo 141‐0021 (Japan) |
| Abstract: | Terpene cyclization reactions are fascinating owing to the precise control of connectivity and stereochemistry during the catalytic process. Cyclooctat‐9‐en‐7‐ol synthase (CotB2) synthesizes an unusual 5‐8‐5 fused‐ring structure with six chiral centers from the universal diterpene precursor, the achiral C20 geranylgeranyl diphosphate substrate. An unusual new mechanism for the exquisite CotB2‐catalyzed cyclization that involves a carbon–carbon backbone rearrangement and three long‐range hydride shifts is proposed, based on a powerful combination of in vivo studies using uniformly 13C‐labeled glucose and in vitro reactions of regiospecifically deuterium‐substituted geranylgeranyl diphosphate substrates. This study shows that CotB2 elegantly demonstrates the synthetic virtuosity and stereochemical control that evolution has conferred on terpene synthases. |
| Keywords: | biosynthesis enzyme catalysis reaction mechanism terpenes |