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Structure and energy-linked activities in reconstituted bacteriorhodopsin--yeast ATPase proteoliposomes.
Authors:I J Ryrie  C Critchley  J E Tillberg
Affiliation:Bioenergetics Unit, Research School of Biological Sciences, Australian National University, Canberra, Australian Capital Territory, 2601, Australia
Abstract:Bacteriorhodopsin-F1·F0 (mitochondrial oligomycin-sensitive ATPase complex) proteoliposomes have poor proton pumping and photophosphorylation activities when reconstituted by cholate dialysis. A considerable proportion of the bacteriorhodopsin is not incorporated by cholate dialysis, the particles being too large to be combined into liposomes. Much better reconstitution is achieved where the purple membranes are first fragmented by sonication. Optimal incorporation occurs where bacteriorhodopsin and the phospholipids are sonicated together, suggesting that some perturbation of the liposomes is necessary for successful integration. Since F1·F0 is denatured by sonication a two-step reconstitution procedure has been developed wherein bacteriorhodopsin is first incorporated by sonication, then F1·F0 by cholate dialysis. The vesicles have high phosphorylation rates and also catalyze postillumination [32P]ATP formation where pyridine is present during first stage illumination.F1·F0 can also be incorporated into sonicated bacteriorhodopsin vesicles by “direct incorporation.” This depends on the presence of negatively charged amphiphiles such as cholate or phosphatidylserine in the membranes, and is stimulated by divalent metal cations. Optimum conditions for the various reconstitution procedures are described.
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