Shape and size of bovine rhodopsin: A small-angle X-ray scattering study of a rhodopsin-detergent complex

Abstract

Rhodopsin is extracted from rod outer segments of retinas with dodecyldimethylamine oxide (DDAO), a non-ionie detergent. The rhodopsin-DDAO complex is characterized by binding experiments, gel filtration, sedimentation, densimetry; its homogeneity, chemical composition, weight and partial specific volume are determined. The complex turns out to be a reasonably monodisperse association of one rhodopsin and 156 DDAO molecules. The rhodopsin-DDAO complex and the detergent micelles are studied by small-angle X-ray scattering techniques using a water/sucrose solvent of variable density. The experiments are performed on an absolute scale; mainly the value and curvature of the scattering curves at zero angle are exploited. The structure of the complex and of the micelles is shown to be independent of sucrose. Under these conditions the final result of the X-ray scattering study of each type of particle is the numerical value of a set of five parameters: molecular weight, volume and radius of gyration of the volume occupied by the particles, average electron density and second moment of the electron density fluctuations inside the particles. It is also shown that in the complex the centres of gravity of rhodopsin and of the detergent moiety are very near to each other. The analysis of these parameters leads to the determination of the size and shape of the detergent micelles and to an estimate of the size and shape of the volumes occupied by protein and by detergent in the complex. We find rhodopsin to be a very elongated molecule (maximum diameter ~95 Å) which spans a flat detergent micelle. These results suggest that in the rod outer segment discs the rhodopsin molecules span the membranes, that the rhodopsin molecules of the two opposite membranes of each disc come near to each other and that a high fraction of the intra-disc space is occupied by rhodopsin.