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• Articles by L. Herbette
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Abstract

The ATP-induced Ca2+ accumulation efficiency and rates of Ca2+ uptake of the reconstituted sarcoplasmic reticulum (RSR) model membrane system were measured over an extended range of lipid-to-protein (L/P) molar ratios and were compared to those of isolated light sarcoplasmic reticulum (LSR). Highly purified sarcoplasmic reticulum (SR), dissociated in the presence of deoxycholate, was reconstituted for several L/P ratios, according to the same procedure, forming closed membranes vesicles composed of greater than 95% Ca2+ pump protein and SR lipids which were capable of ATP-induced Ca2+ accumulation in the absence of oxalate or other Ca2+ precipitating agents. This suggests that dissociation of SR and reconstitution to form RSR does not significantly affect the ability of the Ca2+ pump protein incorporated into the SR lipid bilayer to establish Ca2+ gradients. Electron micrographs of fixed and stained dispersions of RSR revealed a structural organization of the membrane that was dependent upon the L/P molar ratio. RSR with L/P greater than 88 were composed of closed vesicles whose membranes stained asymmetrically, similar to that observed for LSR. Closed vesicles of RSR with L/P less than 88 were composed of membrane that stained symmetrically. In addition, reconstituted SR preparations with well-defined L/P molar ratios greater than 88 possess a functional behavior similar to that of LSR (in the absence of oxalate, energy efficiencies are 60–70% and apparent initial uptake rates are 80% that of isolated LSR controls); RSR preparations with L/P less than 88 are characterized by significantly depressed values of the energy efficiencies and apparent initial uptake rates especially at low L/P ratios. Thus, we are the first to report a reconstituted SR model membrane system capable of attaining rates of Ca2+ uptake comparable to isolated LSR controls at comparable L/P ratios in the absence of oxalate or other Ca2+ precipitating agents.