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Boosting the kinetic efficiency of formate dehydrogenase by combining the effects of temperature, high pressure and co-solvent mixtures. | LitMetric

Boosting the kinetic efficiency of formate dehydrogenase by combining the effects of temperature, high pressure and co-solvent mixtures.

Colloids Surf B Biointerfaces

Laboratory of Thermodynamics, Department of Biochemical and Chemical Engineering, TU Dortmund University, Emil-Figge-Str. 70, 44227 Dortmund, Germany. Electronic address:

Published: December 2021

AI Article Synopsis

  • The study explores how using co-solvents and high pressure can enhance enzyme-catalyzed reactions efficiently, specifically focusing on formate dehydrogenase (FDH), which is important for biotechnology applications.
  • Researchers applied high-pressure stopped-flow methods and fast UV/Vis detection to measure kinetic parameters and found that increasing temperature and pressure significantly boosted the enzyme's kinetic efficiency.
  • The addition of certain co-solvents, notably trimethylamine-N-oxide and mixtures with dextran, not only improved the reaction efficiency but also positively affected the enzyme's stability, which was modeled using the PC-SAFT thermodynamic framework.

Article Abstract

The application of co-solvents and high pressure has been shown to be an efficient means to modify the kinetics of enzyme-catalyzed reactions without compromising enzyme stability, which is often limited by temperature modulation. In this work, the high-pressure stopped-flow methodology was applied in conjunction with fast UV/Vis detection to investigate kinetic parameters of formate dehydrogenase reaction (FDH), which is used in biotechnology for cofactor recycling systems. Complementary FTIR spectroscopic and differential scanning fluorimetric studies were performed to reveal pressure and temperature effects on the structure and stability of the FDH. In neat buffer solution, the kinetic efficiency increases by one order of magnitude by increasing the temperature from 25° to 45 °C and the pressure from ambient up to the kbar range. The addition of particular co-solvents further doubled the kinetic efficiency of the reaction, in particular the compatible osmolyte trimethylamine-N-oxide and its mixtures with the macromolecular crowding agent dextran. The thermodynamic model PC-SAFT was successfully applied within a simplified activity-based Michaelis-Menten framework to predict the effects of co-solvents on the kinetic efficiency by accounting for interactions involving substrate, co-solvent, water, and FDH. Especially mixtures of the co-solvents at high concentrations were beneficial for the kinetic efficiency and for the unfolding temperature.

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Source
http://dx.doi.org/10.1016/j.colsurfb.2021.112127DOI Listing

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