Rules for optimization of biocatalysis in organic solvents

Abstract

General rules for the optimization of different biocatalytic systems in various types of media containing organic solvents are derived by combining data from the literature, and the logarithm of the partition coefficient, log P, as a quantitative measure of solvent polarity. (1) Biocatalysis in organic solvents is low in polar solvents having a log P < 2, is moderate in solvents having a log P between 2 and 4, and is high in a polar solvents having a log P > 4. It was found that this correlation between polarity and activity parallels the ability of organic solvents to distort the essential water layer that stabilizes the biocatalysts. (2) Further optimization of biocatalysis in organic solvents is achieved when the polarity of the microenvironment of the biocatalyst (log P_i) and the continuous organic phase (log P_cph) is tuned to the polarities of both the substrate (log P_s) and the product (log P_p) according to the following rules: |log P_i − log P_s| and |log P_cph − log P_p| should be minimal and |log P_cph − log P_s| and |log P_i − log P_p| should be maximal, with the exception that in the case of substrate inhibition log P_i, should be optimized with respect to log P_s In addition to these simple optimization rules, the future developments of biocatalysis in organic solvents are discussed.