Isolation and Characterization of the Sarcoplasmic Reticulum of Skeletal Muscle

The sarcoplasmic reticulum (SR) of rabbit skeletal muscle was studied after isolation of a vesicle fraction and of vesicular subfractions by means of differential and density gradient centrifugations. The different fractions were examined electron microscopically by negative and positive staining; t...

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Published inThe Journal of cell biology Vol. 55; no. 2; pp. 471 - 488
Main Authors Heuson-Stiennon, Jeanine-Anne, Wanson, Jean-Claude, Drochmans, Pierre
Format Journal Article
LanguageEnglish
Published United States Rockefeller University Press 01.11.1972
The Rockefeller University Press
Subjects
Animals
Calcium
Calcium - metabolism
Cell biology
Cell Fractionation
Cell membranes
Cells
Centrifugation
Centrifugation, Density Gradient
Electron Transport Complex IV - analysis
Homogenization
Methods
Microscopy, Electron
Muscle Proteins - analysis
Muscles - analysis
Muscles - cytology
P branes
Phospholipids
Phospholipids - analysis
Rabbits
Sarcoplasmic reticulum
Sarcoplasmic Reticulum - analysis
Sarcoplasmic Reticulum - metabolism
Skeletal muscle
Staining and Labeling
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Summary:The sarcoplasmic reticulum (SR) of rabbit skeletal muscle was studied after isolation of a vesicle fraction and of vesicular subfractions by means of differential and density gradient centrifugations. The different fractions were examined electron microscopically by negative and positive staining; their content in protein and phospholipid and their ability to bind Ca++ were determined. After homogenization, differential centrifugation yielded a "sarcovesicular fraction" (SVF) which was mainly composed of numerous vesicles of different types mixed with fibrous proteins and mitochondrial fragments. This SVF contained 2% of the protein and 25% of the phospholipid of the initial tissue extract. It had a high Ca++ binding activity that was preserved for several days by storage in the presence of oxalate. After centrifugations of the SVF on sucrose density gradients, two vesicular subfractions were obtained which were characterized by different sedimentation rates, isopycnic banding, morphology, and composition in protein and phospholipid. (a) The low-density subfraction (ρ 1.10-1.12) contained a heterogeneous population of membranous structures: thick- and thin-walled vesicles, tubular formations, triads, and plasma membranes. Its content in protein and phospholipid was very low. (b) The high-density subfraction (ρ 1.13-1.17) was a very pure subfraction composed only of thin-walled vesicles. Its content in phospholipid was high and the ratio of phospholipid-phosphorus to protein was about 20. The calcium-binding activity found in the total SVF was recovered only in this latter homogeneous subfraction. The origin of these two subfractions from the SR is discussed.
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Dr. Heuson-Stiennon's present address is the Laboratoire de Microscopie Electronique, Faculté de Médecine, Université Libre de Bruxelles, Bruxelles, Belgium.
ISSN:0021-9525
1540-8140
DOI:10.1083/jcb.55.2.471