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Assessment of enzyme active site positioning and tests of catalytic mechanisms through X-ray–derived conformational ensembles

Filip Yabukarski, J.T. Biel, Margaux M. Pinney, Tzanko Doukov, Alexander S. Powers, James S. Fraser, Daniel Herschlag

2020Proceedings of the National Academy of Sciences90 citationsDOIOpen Access PDF

Abstract

ketosteroid isomerase (KSI), and we obtained conformational ensembles for this and a homologous KSI from multiple PDB crystal structures. Ensemble analyses indicated limited change through KSI's reaction cycle. Active site positioning was on the 1- to 1.5-Å scale, and was not exceptional compared to noncatalytic groups. The KSI ensembles provided evidence against catalytic proposals invoking oxyanion hole geometric discrimination between the ground state and transition state or highly precise general base positioning. Instead, increasing or decreasing positioning of KSI's general base reduced catalysis, suggesting optimized Ångstrom-scale conformational heterogeneity that allows KSI to efficiently catalyze multiple reaction steps. Ensemble analyses of surrounding groups for WT and mutant KSIs provided insights into the forces and interactions that allow and limit active-site motions. Most generally, this ensemble perspective extends traditional structure-function relationships, providing the basis for a new era of "ensemble-function" interrogation of enzymes.

Topics & Concepts

EnzymeActive siteKetosteroidChemistryEnzyme catalysisConformational ensemblesFunction (biology)Catalytic cycleFlexibility (engineering)Conformational changeProtein structureIsomeraseStereochemistryBiochemistryBiologyMathematicsEvolutionary biologyStatisticsProtein Structure and DynamicsEnzyme Structure and FunctionPhotosynthetic Processes and Mechanisms