Structure of solvent affects enantioselectivity of lipase-catalyzed transesterification

Lipase-catalyzed transesterifications of cis-and Iran.+4-methylcyclohexanols with vinyl acetate in various organic solvents have been studied, and the cffcct of' solvent on activity and stereoselectivity of lipase has been investigated. Initial rate of the reaction increases with the increase in hyd

The effect of the acyl group of acylating agents on the enantioselectivity in the lipasecatalyzed transesterifications of racemie 2-[(N,N-dimethylearbamoyl)methyl]-3-eyelopenten-l-ol in diisopropyl ether was found 1o be significant. The enantioselectivity was enhanced markedly by changing the aeylat

The present research introduces the highly (S)-selective (E>>100) acylation at the secondary ring nitrogen of methyl pipecolinate as a novel resolution method with Candida antarctica lipase A. Catalysis by lipase B leads to reactions at the methyl ester function of the substrate in an almost non-ena

Lipases from Candida antarctica, Pseudomonas cepacia and Rhizomucor miehei were tested in the resolution of seven racemic substrates belonging to the (RS)-2-bromo tolyl acetate ester category, but differing either in the position of the methyl substituent on the acyl part of the aromatic ring, or in