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Computational Evidence for a Water-Assisted Proton-Transfer Mechanism in Uronate Isomerase from <i>Bacillus Halodurans</i> (Bh0493)

Wijitra Jitonnom, Julianna Oláh, Ulf Ryde, Jitrayut Jitonnom

2025The Journal of Physical Chemistry B7 citationsDOI

Abstract

Uronate isomerase (EC 5.3.1.12; URI) catalyzes uronate sugar interconversion, a key step in bacterial metabolism, yet its reaction mechanism remains poorly understood. This study delineates the detailed mechanism for the isomerization of d -glucuronate to d -fructuronate catalyzed by a Zn 2+ -dependent URI enzyme (from Bacillus halodurans ). Using quantum mechanical (QM) cluster calculations, three mechanistic pathways were evaluated, all involving Asp355 as the catalytic base but differing in the proton-shuttle mechanism. The most favorable mechanism features C5 deprotonation of the substrate, followed by a water-mediated 1,2-proton transfer via a stabilized cis -enediol intermediate, with the C2–C5 intramolecular transfer as the rate-determining step. The calculated activation barrier (17.3 kcal mol – 1 ) aligns well with experimental data. Alternative pathways involving Tyr50 or a Tyr48–water relay were found to be less favorable due to higher net barriers (26–36 kcal mol – 1 ). A comparative analysis of d -glucuronate and d -galacturonate revealed that although both proceed through similar steps, d -glucuronate has ∼2 kcal mol – 1 lower overall barrier due to enhanced stabilization of late-stage intermediates. These findings clarify the roles of solvent and active-site residues in URI catalysis and contribute to a broader understanding of proton-transfer mechanisms in Zn 2+ -dependent enzymes across the amidohydrolase superfamily.

Topics & Concepts

ChemistryIsomeraseStereochemistryIsomerizationMechanism (biology)EnzymeIntramolecular forceDeprotonationCatalysisBiochemistryAmidohydrolaseActive siteEnzyme catalysisBiophysicsReaction mechanismEnzyme activatorDNASemisynthesisDiet, Metabolism, and DiseaseIon Transport and Channel RegulationCarbohydrate Chemistry and Synthesis