Enzymatic catalysis in non-aqueous solvents.
- Author:
Lili WANG
1
;
Yijun CHEN
Author Information
1. Laboratory of Chemical Biology, School of Life Science and Technology, China Pharmaceutical University, Nanjing 210009, China.
- Publication Type:Journal Article
- MeSH:
Animals;
Biocatalysis;
Enzymes;
genetics;
metabolism;
Enzymes, Immobilized;
Humans;
Mutagenesis, Site-Directed;
Solvents
- From:
Chinese Journal of Biotechnology
2009;25(12):1789-1794
- CountryChina
- Language:Chinese
-
Abstract:
It is well known that non-aqueous enzymatic catalysis has emerged as an important area of enzyme engineering with the advantages of higher substrate solubility, increased stereoselectivity, modified substrate specificity and suppression of unwanted water-dependent side reactions. As a result, non-aqueous enzymatic catalysis has been applied in the biocatalytic synthesis of important pharmaceuticals and nutriceuticals. With the advancement of non-aqueous enzymatic catalysis in recent years, the efforts have been centered on the discovery and modification of solvent-tolerant biocatalysts for non-aqueous environments. Additionally, with the inevitable trends of green chemistry and sustainable development, green solvents have been utilized for increased number of enzymatic reactions to replace conventional organic solvents. In this review, modification, immobilization and mutagenesis of various enzymes for non-aqueous catalysis are discussed. Recent progress of non-aqueous enzymatic catalysis in solvent-free environments, reverse micelles, supercritical liquid and ionic liquid are also presented. In particular, while direct evolution, high-throughput screening and site-directed mutagenesis are combined as powerful tools for protein engineering, vapor/solid/ice water mixture, sticky solid-state liquid crystal and high density salt suspension are the future directions for solvent engineering in order to broaden the utility and elevate the efficiency of non-aqueous enzymatic catalysis.
