Co-solvent Effects on Reaction Rate and Reaction Equilibrium of an Enzymatic Peptide Hydrolysis

A Wangler, R Canales, C Held, T Q Luong, R Winter, D H Zaitsau, S P Verevkin, G Sadowski

Phys Chem Chem Phys. 2018 Apr 25;20(16):11317-11326.

PMID: 29637955

Abstract:

This work presents an approach that expresses the Michaelis constant KaM and the equilibrium constant Kth of an enzymatic peptide hydrolysis based on thermodynamic activities instead of concentrations. This provides KaM and Kth values that are independent of any co-solvent. To this end, the hydrolysis reaction of N-succinyl-l-phenylalanine-p-nitroanilide catalysed by the enzyme α-chymotrypsin was studied in pure buffer and in the presence of the co-solvents dimethyl sulfoxide, trimethylamine-N-oxide, urea, and two salts. A strong influence of the co-solvents on the measured Michaelis constant (KM) and equilibrium constant (Kx) was observed, which was found to be caused by molecular interactions expressed as activity coefficients. Substrate and product activity coefficients were used to calculate the activity-based values KaM and Kth for the co-solvent free reaction. Based on these constants, the co-solvent effect on KM and Kx was predicted in almost quantitative agreement with the experimental data. The approach presented here does not only reveal the importance of understanding the thermodynamic non-ideality of reactions taking place in biological solutions and in many technological applications, it also provides a framework for interpreting and quantifying the multifaceted co-solvent effects on enzyme-catalysed reactions that are known and have been observed experimentally for a long time.

Chemicals Related in the Paper:

Catalog Number	Product Name	Structure	CAS Number	Price
AP2440622	N-Succinyl-L-phenylalanine-p-nitroanilide		2440-62-2	Price