epitope mapping within an internal region of Na+ CP type Iα of human origin
recommended for detection of sodium channel type Iα of mouse, rat and human origin by WB, IP, IF and ELISA; also reactive with additional species, including bovine
Na+ CP type Ia Background Information Voltage-gated sodium channels are selective ion channels that regulate the permeability of sodium ions in excitable cells. During the propagation of an action potential, sodium channels allow an influx of sodium ions, which rapidly depolarize the cell. The three glycoproteins that comprise the voltage-gated sodium channel proteins include a pore-forming å subunit, a noncovalently associated ∫1 subunit and a disulfide-linked ∫2 subunit. The two ∫ subunits regulate the level of channel expression, modulate gating and function as cell adhesion molecules for cellular aggregation and cytoskeleton interaction. The å subunits of sodium channels type I and III are predominantly expressed in neuronal cell bodies and proximal processes, while type IIå subunits are more abundant along axons. The ∫1 subunit of sodium channel type I is expressed in brain, skeletal and cardiac muscle. In the brain, ∫1 and ∫2 are highly expressed in Purkinje cells, and ∫1 is also expressed in the pyramidal cells of the deep cerebellar nuclei. Impaired voltage-gated sodium channels lead to a number of diseases including myotonia.
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Na+ CP type Iα (C-18)
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Na+ CP type Iα (C-18): sc-16031. Western blot analysis of Na+ CP type Iα expression in mouse brain tissue extract.
