Light-scattering from detergent-complexed biological macromolecules

Abstract

A theory is described for Rayleigh light-scattering from solutions of detergent-complexed macromolecules applicable to measurements carried out under conditions of Donnan equilibrium. The theory shows that when scattering measurements are made on detergent-solubilized macromolecules in the presence of detergent micelles the apparent MW is dependent on the extent of detergent binding and effective charge on the detergent-macromolecule complex, and the micellar charge and aggregation number. Equations are given for the apparent MW of the macromolecule under limiting conditions of high salt and low salt concentration. Low-angle laser-light-scattering measurements were made on lysozyme complexed with sodium n-dodecyl sulfate both in the absence and in the presence of detergent micelles. These experimentally obtained data were used in conjunction with the detergent-binding isotherm to test the theory at high ionic strength. Light-scattering measurements were also made on detergent-saturated complexes as a function of ionic strength and pH. The results are in reasonable accord with both the qualitative and the quantitative predictions of the theory.