A consistent experimental and modeling approach to light-scattering studies of protein-protein interactions in solution

The osmotic second virial coefficient, B-2, obtained by light scattering from protein solutions has two principal components: the Donnan contribution and a contribution due to protein-protein interactions in the limit of infinite dilution. The Donnan contribution accounts for electroneutrality in a multicomponent solution of ( poly) electrolytes. The importance of distinguishing this ideal contribution to B-2 is emphasized, thereby allowing us to model the interaction part of B-2 by molecular computations. The model for protein-protein interactions that we use here extends earlier work (Neal et al., 1998) by accounting for long-range electrostatic interactions and the specific hydration of the protein by strongly associated water molecules. Our model predictions are compared with measurements of B-2 for lysozyme at 25 degrees C over pH from 5.0 to 9.0, and 7-60 mM ionic strength. We find that B-2 is positive at all solution conditions and decreases with increasing ionic strength, as expected, whereas the interaction part of B-2 is negative at all conditions and becomes progressively less negative with increasing ionic strength. Although long-range electrostatic interactions dominate this contribution, particularly at low ionic strength, short-range electrostatic/dispersion interactions with specific hydration are essential for an accurate description of B-2 derived from experiment.