Phosphatidylcholine exchange between the boundary lipid and bilayer domains in cytochrome oxidase containing membranes

Abstract

A phospholipid spin label, 16-doxylphosphatidylcholine, is employed in a study of lipid-protein interactions in cytochrome oxidase containing membranes. Two methods are used to label the membranous cytochrome oxidase: dispersion in cholate with subsequent detergent removal, and fusion with vesicles of the pure phospholipid label in the absence of detergent. A fraction of the label is immobilized, which is calculated to fall in the range of 0.17-0.21 mg of phospholipid/mg of protein (0.15-0.19 after correction for lipids not extracted by chloroform-methanol). This narrow range of values is independent of methods of labeling, protein isolation and lipid depletion within experimental error. When labeling by fusion is utilized, the patches of pure phosphatidylcholine spin label diffuse in the plane of the bilayer, become diluted, and demonstrate exchange with bound phospholipid. These observations are evidence that boundary lipid, as reflected by the partitioning of the phosphatidylcholine label, is in equilibrium with adjacent bilayer regions and that it consists of a relatively constant amount of phospholipid associated with the hydrophobic portion of the protein.