Comparison of the profile structures of isolated and reconstituted sarcoplasmic reticulum membranes.

The profile structures of functional reconstituted sarcoplasmic reticulum (RSR) membranes were investigated as a function of the lipid/protein (L/P) ratio via x-ray diffraction studies of hydrated oriented multilayers of these membranes to a resolution of 10-15 A, and neutron diffraction studies on these multilayers to lower resolutions. Our results at this stage of investigation indicate that reconstitution of SR with variable amounts of Ca2+ pump protein for L/P ratios greater than 88 results in closed membraneous vesicles in which the Ca2+ pump protein is distributed asymmetrically in the membrane profile; a majority of the protein density is contained primarily in the extravesicular half of the membrane profile whereas a relatively lesser portion of the protein spans the hydrocarbon core of the RSR membranes. These RSR membranes are functionally similar and resemble isolated light sarcoplasmic reticulum in both profile structure and function at a comparable L/P ratio. Reconstitution with greater amounts of Ca2+ pump protein (e. g. L/P approximately 50-60) resulted in substantially less functional membranes with a dramatically thicker profile structure.