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1.
The relationship of the postsynaptic 43K protein to acetylcholine receptors in receptor clusters isolated from cultured rat myotubes 总被引:17,自引:14,他引:3 下载免费PDF全文
We have examined the relationship of acetylcholine receptors (AChR) to the Mr 43,000 receptor-associated protein (43K) in the AChR clusters of cultured rat myotubes. Indirect immunofluorescence revealed that the 43K protein was concentrated at the AChR domains of the receptor clusters in intact rat myotubes, in myotube fragments, and in clusters that had been purified approximately 100-fold by extraction with saponin. The association of the 43K protein with clustered AChR was not affected by buffers of high or low ionic strength, by alkaline pHs up to 10, or by chymotrypsin at 10 micrograms/ml. However, the 43K protein was removed from clusters with lithium diiodosalicylate or at alkaline pH (greater than 10). Upon extraction of 43K, several changes were observed in the AChR population. Receptors redistributed in the plane of the muscle membrane in alkali-extracted samples. The number of binding sites accessible to an anti-AChR monoclonal antibody directed against cytoplasmic epitopes (88B) doubled. Receptors became more susceptible to digestion by chymotrypsin, which destroyed the binding sites for the 88B antibody only after 43K was extracted. These results suggest that in isolated AChR clusters the 43K protein covers part of the cytoplasmic domain of AChR and may contribute to the unique distribution of this membrane protein. 相似文献
2.
Localization of the alpha 1 and alpha 2 subunits of the dihydropyridine receptor and ankyrin in skeletal muscle triads 总被引:8,自引:0,他引:8
We have studied the subcellular distribution of the alpha 1 and alpha 2 subunits of the dihydropyridine (DHP) receptor and ankyrin in rat skeletal muscle with immunofluorescence and immunogold labeling techniques. All three proteins were concentrated in the triad junction formed between the T-tubules and sarcoplasmic reticulum. The alpha 1 and alpha 2 subunits of the DHP receptor were colocalized in the junctional T-tubule membrane, supporting their proposed association in a functional complex and the possible participation of the alpha 2 subunit in excitation-contraction coupling. Ankyrin label in the triad showed a distribution different from that of the DHP receptor subunits. In addition, ankyrin was found in longitudinally oriented structures outside the triad. Thus, ankyrin might be involved in organizing the triad and in immobilizing integral membrane proteins in T-tubules and the sarcoplasmic reticulum. 相似文献
3.
Determination of the tissue distributions and relative concentrations of the postsynaptic 43-kDa protein and the acetylcholine receptor in Torpedo 总被引:16,自引:0,他引:16
A protein of Mr 43,000 (43-kDa protein) occurs on the postsynaptic membrane in close association with the acetylcholine receptor and comprises a major part of the postsynaptic cytoskeletal apparatus. We have devised an immunological assay for the 43-kDa protein to determine if it is confined to receptor-specific sites or if it, like general cytoskeletal proteins, has a more widespread tissue distribution. The assay utilizes monoclonal antibodies (Mab) to the 43-kDa protein that recognize two spatially separate epitopes. One Mab, attached to the well of a microtiter plate, binds the antigen which is then available to bind the biotin-derivatized second Mab. Bound second antibody is detected with either avidin-alkaline phosphatase or a more elaborate system using avidin, rabbit anti-avidin, and anti-rabbit IgG-alkaline phosphatase conjugate. A similar assay was developed for the receptor. The 43-kDa protein and the receptor are found in electric organ and, in 500-fold lower concentrations, in skeletal muscle but are not detectable in heart, liver, pancreas, or brain. In electric organ, the receptor and the 43-kDa protein are present in approximately equimolar concentrations. These results indicate that the 43-kDa protein is not a general membrane-associated cytoskeletal element and that its occurrence, and possibly also its function, is related to the acetylcholine receptor. 相似文献
4.
Hardies SC; Martin SL; Voliva CF; Hutchison CA d; Edgell MH 《Molecular biology and evolution》1986,3(2):109-125
5.
Extracellular Neurospora laccase (p-diphenol:oxygen oxidoreductase; EC 1.10.3.2) has been purified to apparent homogeneity by classical purification techniques. The enzyme, which consists of mainly one form, has a molecular weight of 64,800 and contains 11% carbohydrate. The ultraviolet, visible, and electron paramagnetic resonance spectra indicate that both type I and type II copper are present, as described for the Polyporus versicolor enzyme. With the exception of phloroglucinol, only para- and ortho-diphenols serve as effective substrates for the enzyme. Like the extracellular form, intracellular laccase is a glycoprotein as shown by its ability to bind to Concanavalin A Sepharose. Other studies, including gel filtration and ion-exchange chromatography, revealed no differences between the intracellular and extracellular enzymes, suggesting that intracellular laccase is destined for excretion by the cell. 相似文献
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7.
Localization of dystrophin relative to acetylcholine receptor domains in electric tissue and adult and cultured skeletal muscle 总被引:1,自引:12,他引:1 下载免费PDF全文
R Sealock M H Butler N R Kramarcy K X Gao A A Murnane K Douville S C Froehner 《The Journal of cell biology》1991,113(5):1133-1144
Two high-affinity mAbs were prepared against Torpedo dystrophin, an electric organ protein that is closely similar to human dystrophin, the gene product of the Duchenne muscular dystrophy locus. The antibodies were used to localize dystrophin relative to acetylcholine receptors (AChR) in electric organ and in skeletal muscle, and to show identity between Torpedo dystrophin and the previously described 270/300-kD Torpedo postsynaptic protein. Dystrophin was found in both AChR-rich and AChR-poor regions of the innervated face of the electroplaque. Immunogold experiments showed that AChR and dystrophin were closely intermingled in the AChR domains. In contrast, dystrophin appeared to be absent from many or all AChR-rich domains of the rat neuromuscular junction and of AChR clusters in cultured muscle (Xenopus laevis). It was present, however, in the immediately surrounding membrane (deep regions of the junctional folds, membrane domains interdigitating with and surrounding AChR domains within clusters). These results suggest that dystrophin may have a role in organization of AChR in electric tissue. Dystrophin is not, however, an obligatory component of AChR domains in muscle and, at the neuromuscular junction, its roles may be more related to organization of the junctional folds. 相似文献
8.
Nancy F. Cruz Kelly K. Ball Stanley C. Froehner Marvin E. Adams Gerald A. Dienel 《Journal of neurochemistry》2013,125(2):247-259
α‐Syntrophin is a component of the dystrophin scaffold‐protein complex that serves as an adaptor for recruitment of key proteins to the cytoplasmic side of plasma membranes. α‐Syntrophin knockout (KO) causes loss of the polarized localization of aquaporin4 (AQP4) at astrocytic endfeet and interferes with water and K+ homeostasis. During brain activation, release of ions and metabolites from endfeet is anticipated to increase perivascular fluid osmolarity, AQP4‐mediated osmotic water flow from endfeet, and metabolite washout from brain. This study tests the hypothesis that reduced levels of endfoot AQP4 increase retention of [14C]metabolites during sensory stimulation. Conscious KO and wild‐type mice were pulse‐labeled with [6‐14C] glucose during unilateral acoustic stimulation or bilateral acoustic plus whisker stimulation, and label retention was assayed by computer‐assisted brain imaging or analysis of [14C]metabolites in extracts, respectively. High‐resolution autoradiographic assays detected a 17% side‐to‐side difference (p < 0.05) in inferior colliculus of KO mice, not wild‐type mice. However, there were no labeling differences between KO and wild‐type mice for five major HPLC fractions from four dissected regions, presumably because of insufficient anatomical resolution. The results suggest a role for AQP4‐mediated water flow in support of washout of metabolites, and underscore the need for greater understanding of astrocytic water and metabolite fluxes. 相似文献
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