Rational Assignment of Key Motifs for Function Guides in Silico Enzyme Identification

Overview

Journal Nat Chem Biol

Specialties Biochemistry
Biology
Chemistry

Date 2010 Sep 28

PMID 20871599

Citations 69

Authors

Matthias Hohne

Sebastian Schatzle

Helge Jochens

Karen Robins

Uwe T Bornscheuer

Affiliations

Soon will be listed here.

Abstract

Biocatalysis has emerged as a powerful alternative to traditional chemistry, especially for asymmetric synthesis. One key requirement during process development is the discovery of a biocatalyst with an appropriate enantiopreference and enantioselectivity, which can be achieved, for instance, by protein engineering or screening of metagenome libraries. We have developed an in silico strategy for a sequence-based prediction of substrate specificity and enantiopreference. First, we used rational protein design to predict key amino acid substitutions that indicate the desired activity. Then, we searched protein databases for proteins already carrying these mutations instead of constructing the corresponding mutants in the laboratory. This methodology exploits the fact that naturally evolved proteins have undergone selection over millions of years, which has resulted in highly optimized catalysts. Using this in silico approach, we have discovered 17 (R)-selective amine transaminases, which catalyzed the synthesis of several (R)-amines with excellent optical purity up to >99% enantiomeric excess.

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