Literature DB >> 30270109

Automated Design of Efficient and Functionally Diverse Enzyme Repertoires.

Olga Khersonsky1, Rosalie Lipsh1, Ziv Avizemer1, Yacov Ashani1, Moshe Goldsmith1, Haim Leader1, Orly Dym2, Shelly Rogotner2, Devin L Trudeau1, Jaime Prilusky3, Pep Amengual-Rigo4, Victor Guallar5, Dan S Tawfik1, Sarel J Fleishman6.   

Abstract

Substantial improvements in enzyme activity demand multiple mutations at spatially proximal positions in the active site. Such mutations, however, often exhibit unpredictable epistatic (non-additive) effects on activity. Here we describe FuncLib, an automated method for designing multipoint mutations at enzyme active sites using phylogenetic analysis and Rosetta design calculations. We applied FuncLib to two unrelated enzymes, a phosphotriesterase and an acetyl-CoA synthetase. All designs were active, and most showed activity profiles that significantly differed from the wild-type and from one another. Several dozen designs with only 3-6 active-site mutations exhibited 10- to 4,000-fold higher efficiencies with a range of alternative substrates, including hydrolysis of the toxic organophosphate nerve agents soman and cyclosarin and synthesis of butyryl-CoA. FuncLib is implemented as a web server (http://FuncLib.weizmann.ac.il); it circumvents iterative, high-throughput experimental screens and opens the way to designing highly efficient and diverse catalytic repertoires.
Copyright © 2018 Elsevier Inc. All rights reserved.

Entities:  

Keywords:  FuncLib; PROSS; Rosetta; enzyme design; enzyme repertoires; epistatic mutations; nerve agents

Mesh:

Substances:

Year:  2018        PMID: 30270109      PMCID: PMC6193528          DOI: 10.1016/j.molcel.2018.08.033

Source DB:  PubMed          Journal:  Mol Cell        ISSN: 1097-2765            Impact factor:   17.970


  58 in total

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Authors:  C Roodveldt; D S Tawfik
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5.  High resolution X-ray structures of different metal-substituted forms of phosphotriesterase from Pseudomonas diminuta.

Authors:  M M Benning; H Shim; F M Raushel; H M Holden
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  29 in total

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9.  Stabilization of the SARS-CoV-2 receptor binding domain by protein core redesign and deep mutational scanning.

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