Studies of excitable membranes. II. A comparison of specializations at neuromuscular junctions and nonjunctional sarcolemmas of mammalian fast and slow twitch muscle fibers
Autor: | John E. Rash, K R Porter, Mark H. Ellisman, L.A. Staehelin |
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Jazyk: | angličtina |
Rok vydání: | 1976 |
Předmět: |
Male
Synaptic cleft Neuromuscular Junction Synaptic Membranes Biology Synaptic vesicle Models Biological Neuromuscular junction Sarcolemma Postsynaptic potential medicine Animals Freeze Fracturing musculoskeletal neural and ocular physiology Muscles Cell Biology Anatomy Articles musculoskeletal system Axons Rats Slow-Twitch Muscle Fiber medicine.anatomical_structure Biophysics Synaptic Vesicles medicine.symptom High voltage electron microscopy tissues Muscle contraction |
Zdroj: | The Journal of Cell Biology |
ISSN: | 1540-8140 0021-9525 |
Popis: | Mammalian fast and slow twitch skeletal muscles are compared by freeze-fracture, thick and thin sectioning, and histochemical techniques using conventional and high voltage electron microscopy. Despite gross morphological differences in endplate structure visualized at relatively low magnifications in this sections, rat extensor digitorum longus (EDL) (fast twitch) and soleus (slow twitch) fibers cannot be distinguished on the basis of size, number, or distribution of molecular specializations of the pre- and postsynaptic junctional membranes exposed by freeze fracturing. Specializations in the cortex of the juxtaneuronal portions of the junctional folds are revealed by high voltage electron stereomicroscopy as a branching, ladder-like filamentous network associated with the putative acetylcholline receptor complexes. These filaments are considered to be involved in restricting the mobility of receptor proteins to the perineuronal aspects of the postynaptic membrane. Although the junctional membranes of both EDL and soleus appear similar, a differential specialization of the secondary synaptic cleft was noted. The extracellular matrix in the bottom of soleus clefts was observed as an ordered system of filamentous "combs," These filamentous arrays have not been detected in EDL junctions. Examination of the extrajunctional sarcolemmas of EDL and soleus reveal additional differences which may be correlated with variations in electrical and contractile properties. For example, particle aggregates termed "square arrays" previously described in the sarcolemmas of some fibers of the rat diaphragm were observed in large numbers in sarcolemmas of EDL fibers but were seldom encountered in soleus fibers. These gross compositional differences in the membranes are discussed in the light of functional differences between fiber types. |
Databáze: | OpenAIRE |
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