1. Lettrée cells were grown intraperitoneally in MF-1 mice. 2. Cells that were loaded with glycerol were swollen in 0.1 M-sucrose and disrupted by Dounce homogenization. 3. Early-passage Lettrée cells were more easily disrupted than late-passage cells by this method, and the former produced larger fragments of plasma membrane. 4. The membranes were fractionated initially in sucrose gradients (on the basis of sedimentation rate) in a BXIV zonal rotor. 5. Fractions from this gradient were further resolved in isopycnic sucrose gradients. 6. Plasma-membrane and endoplasmic-reticulum fractions were recovered in good yield and high purity.
1. Lettrée cells were grown intraperitoneally in MF-1 mice and labelled extrinsically by the 125I/lactoperoxidase technique. 2. The cells were swollen in 1 mM-NaHCO3 and disrupted in a Dounce homogenizer. 3. Crude fractions of endoplasmic reticulum, plasma membrane and mitochondria were separated from a post-nuclear supernatant by sedimentation-rate gradient centrifugation in a BXIV zonal rotor. 4. Further resolution of these membranes was carried out in isopycnic sucrose gradients. 5. Bands of material from the latter were subfractionated in gradients of metrizamide. Some very pure subfractions of plasma membrane and endoplasmic reticulum were obtained. In addition, one subfraction containing 125I and NADPH-cytochrome c reductase but no Na++K+-stimulated adenosine triphosphatase and another containing these two enzymes but no 125I were resolved.
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