The influence of cholesterol on molecular motion in egg lecithin bilayers--a variable-frequency electron spin resonance study of a cholestane spin probe

Electron spin resonance spectra at 9.5, 24. and 35 GHz were obtained for a cholestane spin probe in oriented multibilayers of egg lecithin of varying cholesterol content. In agreement with earlier studies, cholesterol induced a higher degree of spectral anisotropy in the multibilayers—the variation of the hyperfine separations with cholesterol content was in agreement with the model of Lapper et al. (Can. J. Biochem.50, 969 (1972)) where the amplitude of anisotropic probe motion decreased with increasing cholesterol content. Analysis of the electron spin resonance line shapes was done using the relatively simple modified Bloch equation approach, and correlation times for anisotropic probe motion were extracted from the spectra at three frequencies. The data demonstrate that increasing cholesterol content results in a decreased rate of anisotropic motion of the probe, providing further insight into the molecular mechanism of the condensing effect of cholesterol.