A theory of chemical reactions in biomolecules in solution: Generalized Langevin mode analysis (GLMA)

Autor: Fumio Hirata
Rok vydání: 2023
Předmět:
Zdroj: The Journal of Chemical Physics. 158:144108
ISSN: 1089-7690
0021-9606
DOI: 10.1063/5.0143849
Popis: The generalized Langevin mode analysis (GLMA) is applied to chemical reactions in biomolecules in solution. The theory sees a chemical reaction in solution as a barrier crossing process, similar to the Marcus theory. The barrier is defined as the crossing point of two free-energy surfaces which are attributed to the reactant and product of the reaction. It is assumed that the both free-energy surfaces are quadratic or harmonic. The assumption is based on the Kim-Hirata theory of structural fluctuation of protein, which proves that the fluctuation around an equilibrium structure is quadratic with respect to the structure or atomic coordinates. The quadratic surface is a composite of many harmonic functions with different modes or frequencies. The height of the activation barrier will be dependent on the mode or frequency, less the frequency, lower the barrier. So, it is essential to decouple the fluctuational mode into a hierarchical order. GLMA is impeccable for this purpose. It is essential for a theoretical study of chemical reactions to chose a reaction coordinate along which the reaction proceeds. We suppose that the mode whose center of coordinate and/or the frequency changes most before and after the reaction is the one relevant to the chemical reaction, and choose the coordinate as the reaction coordinate. The rate of reaction along the reaction coordinate is , which is similar to the Marcus expression for the electron transfer reaction. In the equation, is the activation barrier defined by , where and denote the free energies at equilibrium , and the crossing point , respectively, both on the free energy surface of the reactant.
Comment: 21 pages, 4 figures, 50 references
Databáze: OpenAIRE
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