Redesigning alcohol dehydrogenases/reductases for more efficient biosynthesis of enantiopure isomers
- PMID: 26320091
- DOI: 10.1016/j.biotechadv.2015.08.002
Redesigning alcohol dehydrogenases/reductases for more efficient biosynthesis of enantiopure isomers
Abstract
Alcohol dehydrogenases/reductases predominantly catalyze the asymmetric biosynthesis of optically pure stereoisomers because of their unique chiral constitutions. The enantioselectivities of alcohol dehydrogenases/reductases are substrate- and cofactor-dependent, and therefore they usually catalyze specific reactions with high enantioselectivity under physiological conditions; this may not be suitable for asymmetric biosynthesis with non-natural substrates or non-natural cofactors, and under nonphysiological conditions. It is therefore necessary to modify alcohol dehydrogenases/reductases using various redesigning tools such as directed evolution and rational design, and their combinations, as well as engineering enzyme modules for more efficient production of "non-natural" products. In this article, progress in these aspects of alcohol dehydrogenase/reductase design is reviewed, and future challenges are discussed.
Keywords: Alcohol dehydrogenase/reductase; Chiral biosynthesis; Combination methods; Directed evolution; Enantiopure isomer; Modular engineering; Rational design.
Copyright © 2015 Elsevier Inc. All rights reserved.
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