Ensemble‐averaged variational transition state theory with optimized multidimensional tunneling for enzyme kinetics and other condensed‐phase reactions - Concepedia

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Ensemble‐averaged variational transition state theory with optimized multidimensional tunneling for enzyme kinetics and other condensed‐phase reactions

128

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129

References

2004

Year

Donald G. Truhlar, Jiali Gao, Mireia Garcia‐Viloca, Cristóbal Alhambra, J. C. Corchado, M. Luz Sánchez, Tina D. Poulsen

International Journal of Quantum Chemistry

Free EnergyEngineeringProton-coupled Electron TransferHydride Transfer ReactionsComputational ChemistryChemistryEnergy MinimizationMolecular DynamicsEnzyme KineticsMolecular ThermodynamicsReaction IntermediateMolecular SimulationMolecular KineticsEnsemble AveragingOther Condensed‐phase ReactionsComputational BiochemistryBiophysicsBiochemistryQuantum ChemistryEnergyNon-equilibrium ProcessBiomolecular EngineeringReaction EngineeringNatural SciencesProton TransferReaction ProcessChemical KineticsOptimized Multidimensional Tunneling

Abstract

Abstract This paper provides an overview of a new method developed to include quantum mechanical effects and free energy sampling in calculations of reaction rates in enzymes. The paper includes an overview of variational transition state theory with optimized multidimensional tunneling for simple gas‐phase reactions and then shows how this is extended to incorporate free energy effects and to include protein motions in the reaction coordinate by ensemble averaging. Finally we summarize recent comparisons to experiment for primary and secondary kinetic isotope effects for proton and hydride transfer reactions catalyzed by enzymes. © 2004 Wiley Periodicals, Inc. Int J Quantum Chem, 2004

References

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