Acyltransferase activity is present in a variety of membranes species, including liver microsomes. The substrates of this enzyme are lysophosphatides and acyl CoA derivatives. We have found that the detergent effect of these substrates can be used to solubilize rat liver microsomes. If the solubilized fraction in incubated, the acyltransferase acylates the lysophosphatide and thereby degrades the detergent effect so that vesicular membranes re-form. Gel electrophoresis patterns show that the reconstituted membranes contain all of the major protein components of the original microsomes. A marker enzyme for liver microsomes, NADPH-cytochrome c reductase, was present in the reconstituted membranes at 70% of the specific activity in the original microsomes, and freeze-fracture electron microscopy showed intramembrane particles on all fracture faces. The system may provide a useful model for studies particles on all fracture faces. This system may provide a useful model for studies of certain membrane biogenesis reactions that utilize acyltransferase in vivo.

Fragmented sarcoplasmic reticulum (FSR) from rabbit muscle was examined by positive staining, negative staining, and freeze-etch electron microscopic techniques in the absence and presence of calcium transport conditions. The existence of 30–40 A particles covering the outer surface of FSR vesicles was confirmed by two different negative stains in unfixed, glutaraldehyde-fixed and osmium tetroxide-fixed material. Freeze-etch microscopy revealed a second type of particle, 80–90 A in diameter, on the fractured surfaces of FSR vesicles. Following calcium oxalate accumulation, negative and positive staining techniques provided evidence for large nodular deposits within FSR vesicles which probably correspond to calcium oxalate crystals and are responsible for increments in turbidity during calcium oxalate accumulation. The most probable configuration of FSR vesicles in solution is spherical. "Tadpole" or tubular configurations were not seen by freeze-etch microscopy, positive staining, or in prefixed negatively stained material.