Abstract
Optically active epoxides can be prepared by kinetic resolution of racemic mixtures using stereospecific epoxide hydrolases. To increase the bio-resolution efficiency of a sparingly water-soluble epoxide (glycidyl phenyl ether, GPE), we investigated the use of organic/aqueous two-phase system. Various conditions were systematically examined and optimized in shake flasks. Isooctane was found to be the most suitable solvent as the organic phase. The phase volume ratio ( ϕ o/w) and biocatalyst concentration were shown to be sensitive parameters affecting both the reaction rate and the enzyme enantiospecificity in the biphase system. An isooctane/aqueous system was developed to overcome the low solubility and instability of GPE in the aqueous phase, resulting in a significant improvement of enatiomeric ratio ( E-value) from 39.5 to 94.0 and an average productivity of 18.8 mg GPE/(h g) biocatalyst to 48.9 mg GPE/(h g) biocatalyst, respectively. Resolution of a 90.1 g/l solution of racemic glycidyl phenyl ether in isooctane phase was successfully carried out in a mechanically stirred reactor (120 ml), affording ( S)-glycidyl phenyl ether in high (100%) enantiomeric excess with a yield of 44.5%.
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