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1.
Primary structure and expression of a sodium channel characteristic of denervated and immature rat skeletal muscle 总被引:30,自引:0,他引:30
The alpha subunit of a voltage-sensitive sodium channel characteristic of denervated rat skeletal muscle was cloned and characterized. The cDNA encodes a 2018 amino acid protein (SkM2) that is homologous to other recently cloned sodium channels, including a tetrodotoxin (TTX)-sensitive sodium channel from rat skeletal muscle (SkM1). The SkM2 protein is no more homologous to SkM1 than to the rat brain sodium channels and differs notably from SkM1 in having a longer cytoplasmic loop joining domains 1 and 2. Steady-state mRNA levels for SkM1 and SkM2 are regulated differently during development and following denervation: the SkM2 mRNA level is highest in early development, when TTX-insensitive channels predominate, but declines rapidly with age as SkM1 mRNA increases; SkM2 mRNA is not detectable in normally innervated adult skeletal muscle but increases greater than 100-fold after denervation; rat cardiac muscle has abundant SkM2 mRNA but no detectable SkM1 message. These findings suggest that SkM2 is a TTX-insensitive sodium channel expressed in both skeletal and cardiac muscle. 相似文献
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Immunoaffinity isolation of Na+ channels from rat skeletal muscle. Analysis of subunits 总被引:4,自引:0,他引:4
Polyclonal antiserum and monoclonal antibodies raised against the sodium channel from rat skeletal muscle sarcolemma have been immobilized on Sepharose and used to immunoaffinity purify this channel directly from skeletal muscle without the intervening purification of surface membranes. These antibodies isolate a approximately 260-kDa protein from whole muscle, although each purifies predominantly a 150-kDa component when isolated sarcolemmal membranes are used as starting material. A 45-kDa band is also found in the material purified from sarcolemma but not that obtained from whole muscle. In addition, these immunoaffinity columns isolate a 38-kDa band from both whole muscle and sarcolemma that copurifies with the 260-kDa protein. In some preparations this component appears as two closely spaced bands of 37 and 39 kDa. These small subunits coelute with the 260-kDa subunit when thiocyanate gradients are used to displace protein bound to the immunoaffinity columns and behave as integral components of the sodium channel. Estimates of stoichiometry were made for the large and small subunits of the muscle channel protein. After correction for labeling efficiency, values consistent with a ratio of one 260-kDa subunit to one 38-kDa subunit were obtained. We conclude that the rat skeletal muscle sodium channel contains a large alpha subunit of approximately 260 kDa that is sensitive to proteolytic nicking during the isolation of sarcolemmal membranes. In addition, at least one 38-kDa beta subunit is associated with each alpha subunit in the native channel. 相似文献
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Alfred L. George Jr. Geeta S. Iyer Robert Kleinfield Roland G. Kallen Robert L. Barchi 《Genomics》1993,15(3)
Voltage-dependent sodium channels are essential for normal membrane excitability and contractility in adult skeletal muscle. The gene encoding the principal sodium channel α-subunit isoform in human skeletal muscle (SCN4A) has recently been shown to harbor point mutations in certain hereditary forms of periodic paralysis. We have carried out an analysis of the detailed structure of this gene including delineation of intron-exon boundaries by genomic DNA cloning and sequence analysis. The complete coding region of SCN4A is found in 32.5 kb of genomic DNA and consists of 24 exons (54 to > 2.2 kb) and 23 introns (97 bp-4.85 kb). The exon organization of the gene shows no relationship to the predicted functional domains of the channel protein and splice junctions interrupt many of the transmembrane segments. The genomic organization of sodium channels may have been partially conserved during evolution as evidenced by the observation that 10 of the 24 splice junctions in SCN4A are positioned in homologous locations in a putative sodium channel gene in Drosophila (para). The information presented here should be extremely useful both for further identifying sodium channel mutations and for gaining a better understanding of sodium channel evolution. 相似文献
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