Abstract

Kinetic resolution of racemates with lipases is the preferred method for producing bioactive compounds. One strategy for obtaining highly enantioselective lipases that are stable in the organic media that are often used in these reactions is to improve existing lipases by protein engineering. In this work, we engineered the lipase LipC12, which has good stability in organic media, but only moderate enantioselectivity. Molecular docking with LipC12 identified V261 as a key position influencing, first, enantioselectivity in the transesterification of (RS)-1-phenylethanol and, second, activity in the hydrolysis of p-nitrophenyl octanoate. Variants were then obtained by site-directed mutagenesis, expressed in Escherichia coli, and their performance in these reactions was evaluated. Enzymes immobilized on Immobead 150 were used in the transesterification while free enzyme was used in the hydrolysis reaction. It was not possible to increase the hydrolytic activity and enantioselectivity simultaneously: some variants had increased enantioselectivity but lower hydrolytic activity, and others had increased hydrolytic activity but lower enantioselectivity. The best result for enantioselectivity was obtained for LipC12V261Q, with an increase of the E-value (for (R)-1-phenylethanol) from 46 to 110, however, its hydrolytic activity decreased 4-fold in comparison to LipC12wt. The highest hydrolytic activity was obtained for LipC12V261F, with a value almost 6-fold higher than that of LipC12wt. This variant also had an inverted enantiopreference (i.e. for (S)-1-phenylethanol), but with a very low E-value of only 4.

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