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  • Title: Identification and extraction of proteins that compose the triad junction of skeletal muscle.
    Author: Caswell AH, Brunschwig JP.
    Journal: J Cell Biol; 1984 Sep; 99(3):929-39. PubMed ID: 6470045.
    Abstract:
    Treatment of both transverse tubules and terminal cisternae with a combination of Triton X-100 and hypertonic K cacodylate causes dissolution of nonjunctional proteins and selective retention of membrane fragments which are capable of junction formation. Treatment of vesicles with Triton X-100 and either KCl or K gluconate causes complete dissolution of all components. Therefore K cacodylate exerts a specific preservative action on the junctional material. The membrane fragment from treatment of transverse tubules with Triton X-100 + cacodylate contains a protein of Mr = 80,000 in SDS gel electrophoresis as the predominant protein while lipid composition is enriched in cholesterol. The membrane fragment retains in electron microscopy the trilaminar appearance of the intact vesicles. Freeze fracture of transverse tubule fragments reveals a high density of low-profile, intercalated particles, which frequently form strings or occasional small arrays. The fragments from Triton X-100 plus cacodylate treatment of terminal cisternae include the protein of Mr = 80,000 as well as the spanning protein of the triad, calsequestrin, and some minor proteins. The fragments are almost devoid of lipid and display an amorphous morphology suggesting membrane disruption. The ability of the transverse tubular fragment, which contains predominantly the Mr = 80,000 protein, to form junctions with terminal cisternae fragments suggests that it plays a role in anchoring the membrane to the junctional processes of the triad. The junctional proteins may be solubilized in a combination of nonionic detergent and hypertonic NaCl. Subsequent molecular sieve chromatography gives an enriched preparation of the spanning protein. This protein has subunits of Mr = 300,000, 270,000 and 140,000 and migrates in the gel as a protein of Mr = 1.2 X 10(6) indicating a polymeric structure.
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