QM/MM study of the reaction mechanism of sulfite oxidase

Autor:	Octav Caldararu, Kerstin Starke, Marie Céline Van Severen, Daniela Cioloboc, Ulf Ryde, Ebbe Nordlander, Ricardo A. Mata, Milica Feldt
Jazyk:	angličtina
Rok vydání:	2018
Předmět:	Models Molecular Reaction mechanism Coenzymes chemistry.chemical_element lcsh:Medicine Molecular Dynamics Simulation 010402 general chemistry 01 natural sciences Article QM/MM chemistry.chemical_compound Sulfite Sulfite oxidase 0103 physical sciences Metalloproteins Animals Sulfites lcsh:Science Mechanical Phenomena Molybdenum Multidisciplinary 010304 chemical physics Chemistry Pteridines Sulfite Oxidase lcsh:R Molybdopterin Substrate (chemistry) Hydrogen Bonding Sulfur 0104 chemical sciences Crystallography Quantum Theory lcsh:Q Chickens Molybdenum Cofactors
Zdroj:	Scientific Reports, Vol 8, Iss 1, Pp 1-15 (2018) Scientific Reports
ISSN:	2045-2322
DOI:	10.1038/s41598-018-22751-6
Popis:	Sulfite oxidase is a mononuclear molybdenum enzyme that oxidises sulfite to sulfate in many organisms, including man. Three different reaction mechanisms have been suggested, based on experimental and computational studies. Here, we study all three with combined quantum mechanical (QM) and molecular mechanical (QM/MM) methods, including calculations with large basis sets, very large QM regions (803 atoms) and QM/MM free-energy perturbations. Our results show that the enzyme is set up to follow a mechanism in which the sulfur atom of the sulfite substrate reacts directly with the equatorial oxo ligand of the Mo ion, forming a Mo-bound sulfate product, which dissociates in the second step. The first step is rate limiting, with a barrier of 39–49 kJ/mol. The low barrier is obtained by an intricate hydrogen-bond network around the substrate, which is preserved during the reaction. This network favours the deprotonated substrate and disfavours the other two reaction mechanisms. We have studied the reaction with both an oxidised and a reduced form of the molybdopterin ligand and quantum-refinement calculations indicate that it is in the normal reduced tetrahydro form in this protein.
Databáze:	OpenAIRE
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