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Design and optimization of enzymatic activity in a de novo β‐barrel scaffold

Yakov Kipnis, Anissa Ouald Chaib, Anastassia A. Vorobieva, Guangyang Cai, Gabriella Reggiano, Benjamin Basanta, Eshan Kumar, Peer R. E. Mittl, Donald Hilvert, David Baker

2022Protein Science26 citationsDOIOpen Access PDF

Abstract

While native scaffolds offer a large diversity of shapes and topologies for enzyme engineering, their often unpredictable behavior in response to sequence modification makes de novo generated scaffolds an exciting alternative. Here we explore the customization of the backbone and sequence of a de novo designed eight stranded β-barrel protein to create catalysts for a retro-aldolase model reaction. We show that active and specific catalysts can be designed in this fold and use directed evolution to further optimize activity and stereoselectivity. Our results support previous suggestions that different folds have different inherent amenability to evolution and this property could account, in part, for the distribution of natural enzymes among different folds.

Topics & Concepts

Directed evolutionProtein engineeringScaffoldAldolase ABarrel (horology)EnzymeSequence (biology)Protein designChemistrySynthetic biologyComputational biologyCombinatorial chemistryComputer scienceMaterials scienceStereochemistryBiochemistryProtein structureBiologyDatabaseComposite materialMutantGeneChemical Synthesis and AnalysisProtein Structure and DynamicsEnzyme Catalysis and Immobilization
Design and optimization of enzymatic activity in a de novo β‐barrel scaffold | Litcius