| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 5370896 | Biophysical Chemistry | 2015 | 9 Pages |
â¢We explain the phenomenon of “concentration-scale dependent” transfer free energies.â¢The molarity-scale transfer free energy quantifies solute-solvent interactions.â¢Other transfer free energies include unwanted contributions due to volume changes.
The Gibbs free energy of transferring a solute at infinite dilution between two solvents quantifies differences in solute-solvent interactions - if the transfer takes place at constant molarity of the solute. Yet, many calculation formulae and measuring instructions that are commonly used to quantify solute-solvent interactions correspond to transfer processes in which not the molarity of the solute but its concentration measured in another concentration scale is constant. Here, we demonstrate that in this case, not only the change in solute-solvent interactions is quantified but also the entropic effect of a volume change during the transfer. Consequently, the “phenomenon” which is known as “concentration-scale dependence” of transfer free energies is simply explained by a volume-entropy effect. Our explanations are of high importance for the study of cosolvent effects on protein stability.
Graphical abstractDownload full-size image
