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RESEARCH PRODUCT
A Novel Strategy to Study Electrostatic Effects in Chemical Reactions: Differences between the Role of Solvent and the Active Site of Chalcone Isomerase in a Michael Addition
Iñaki TuñónSergio MartíJ. Javier Ruiz-perníaVicent Molinersubject
Chalcone isomeraseChalconebiologyChemistryActive siteNanotechnologyChemical reactionComputer Science ApplicationsEnzyme catalysischemistry.chemical_compoundComputational chemistrybiology.proteinMichael reactionMoleculePhysical and Theoretical ChemistryFlavanonedescription
The electrostatic behavior of active site residues in enzyme catalysis is quite different from that of water molecules in solution. To highlight the electrostatic differences between both environments, we propose a QM/MM strategy to study the role of the environment in chemical reactions. The novelty of the present communication is that free energy surfaces are generated by means of two distinguished reaction coordinates: a solute coordinate and the electrostatic potential created by the environment. This is applied to analyze the origin of catalysis in the transformation of a chalcone into a flavanone, a Michael addition that requires the desolvation of the nucleophile.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2015-11-24 | Journal of Chemical Theory and Computation |