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Epoxide hydrolysis as a model system for understanding flux through a branched reaction scheme.


ABSTRACT: The epoxide hydrolase StEH1 catalyzes the hydrolysis of trans-methylstyrene oxide to 1-phenyl-propane-1,2-diol. The (S,S)-epoxide is exclusively transformed into the (1R,2S)-diol, while hydrolysis of the (R,R)-epoxide results in a mixture of product enantiomers. In order to understand the differences in the stereoconfigurations of the products, the reactions were studied kinetically during both the pre-steady-state and steady-state phases. A number of closely related StEH1 variants were analyzed in parallel, and the results were rationalized by structure-activity analysis using the available crystal structures of all tested enzyme variants. Finally, empirical valence-bond simulations were performed in order to provide additional insight into the observed kinetic behaviour and ratios of the diol product enantiomers. These combined data allow us to present a model for the flux through the catalyzed reactions. With the (R,R)-epoxide, ring opening may occur at either C atom and with similar energy barriers for hydrolysis, resulting in a mixture of diol enantiomer products. However, with the (S,S)-epoxide, although either epoxide C atom may react to form the covalent enzyme intermediate, only the pro-(R,S) alkylenzyme is amenable to subsequent hydrolysis. Previously contradictory observations from kinetics experiments as well as product ratios can therefore now be explained for this biocatalytically relevant enzyme.

SUBMITTER: Janfalk Carlsson A 

PROVIDER: S-EPMC5929373 | biostudies-literature | 2018 May

REPOSITORIES: biostudies-literature

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Epoxide hydrolysis as a model system for understanding flux through a branched reaction scheme.

Janfalk Carlsson Åsa Å   Bauer Paul P   Dobritzsch Doreen D   Kamerlin Shina C L SCL   Widersten Mikael M  

IUCrJ 20180322 Pt 3


The epoxide hydrolase StEH1 catalyzes the hydrolysis of <i>trans</i>-methylstyrene oxide to 1-phenyl-propane-1,2-diol. The (<i>S</i>,<i>S</i>)-epoxide is exclusively transformed into the (1<i>R</i>,2<i>S</i>)-diol, while hydrolysis of the (<i>R</i>,<i>R</i>)-epoxide results in a mixture of product enantiomers. In order to understand the differences in the stereoconfigurations of the products, the reactions were studied kinetically during both the pre-steady-state and steady-state phases. A numbe  ...[more]

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