6533b7d5fe1ef96bd1265196

RESEARCH PRODUCT

Heavy enzymes—experimental and computational insights in enzyme dynamics

J. Javier Ruiz-perníaKatarzyna ŚWiderekKatarzyna ŚWiderekIñaki TuñónVicent Moliner

subject

Field (physics)StereochemistryChemistryDynamics (mechanics)Computational BiologyBiochemistryEnzymesAnalytical ChemistryMolecular WeightKineticsTransition state theoryChemical physicsBiocatalysisHumans

description

The role of protein motions in the chemical step of enzyme-catalyzed reactions is the subject of an open debate in the scientific literature. The systematic use of isotopically substituted enzymes has been revealed as a useful tool to quantify the role of these motions. According to the Born-Oppenheimer approximation, changing the mass of the protein does not change the forces acting on the system but alters the frequencies of the protein motions, which in turn can affect the rate constant. Experimental and theoretical studies carried out in this field are presented in this article and discussed in the framework of Transition State Theory.

yearjournalcountryeditionlanguage
2014-01-31Current Opinion in Chemical Biology
https://doi.org/10.1016/j.cbpa.2014.03.005