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Mutability‐Landscape‐Guided Engineering of <scp>l</scp>‐Threonine Aldolase Revealing the Prelog Rule in Mediating Diastereoselectivity of C−C Bond Formation

Wenlong Zheng, Zhongji Pu, Lanxin Xiao, Gang Xu, Lirong Yang, Haoran Yu, Jianping Wu

2022Angewandte Chemie International Edition56 citationsDOI

Abstract

Abstract l ‐threonine aldolase (LTA) catalyzes C−C bond synthesis with moderate diastereoselectivity. In this study, with LTA from Cellulosilyticum sp ( Cp LTA) as an object, a mutability landscape was first constructed by performing saturation mutagenesis at substrate access tunnel amino acids. The combinatorial active‐site saturation test/iterative saturation mutation (CAST/ISM) strategy was then used to tune diastereoselectivity. As a result, the diastereoselectivity of mutant H305L/Y8H/V143R was improved from 37.2 % syn to 99.4 % syn . Furthermore, the diastereoselectivity of mutant H305Y/Y8I/W307E was inverted to 97.2 % anti . Based on insight provided by molecular dynamics simulations and coevolution analysis, the Prelog rule was employed to illustrate the diastereoselectivity regulation mechanism of LTA, holding that the asymmetric formation of the C−C bond was caused by electrons attacking the carbonyl carbon atom of the substrate aldehyde from the re or si face. The study would be useful to expand LTA applications and guide engineering of other C−C bond‐forming enzymes.

Topics & Concepts

Aldolase ASaturated mutagenesisStereochemistryChemistryMutantMutagenesisMolecular dynamicsProtein engineeringBiochemistryComputational chemistryEnzymeGeneEnzyme Catalysis and ImmobilizationAmino Acid Enzymes and MetabolismMicrobial Metabolic Engineering and Bioproduction
Mutability‐Landscape‐Guided Engineering of <scp>l</scp>‐Threonine Aldolase Revealing the Prelog Rule in Mediating Diastereoselectivity of C−C Bond Formation | Litcius