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Literature DB >> 6320365

The molecular basis of neuronal excitability.

Abstract

Neurons process and transmit information in the form of electrical signals. Their electrical excitability is due to the presence of voltage-sensitive ion channels in the neuronal plasma membrane. In recent years, the voltage-sensitive sodium channel of mammalian brain has become the first of these important neuronal components to be studied at the molecular level. This article describes the distribution of sodium channels among the functional compartments of the neuron and reviews work leading to the identification, purification, and characterization of this membrane glycoprotein.

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Year: 1984 PMID： 6320365 DOI： 10.1126/science.6320365

Source DB: PubMed Journal: Science ISSN： 0036-8075 Impact factor: 47.728

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Cited

56 in total

The molecular basis of neuronal excitability.

Review 1. Regulation of ion channel expression in neural cells by hormones and growth factors.

2. Developmental expression of the novel voltage-gated sodium channel auxiliary subunit beta3, in rat CNS.

3. KCNE1 and KCNE2 inhibit forward trafficking of homomeric N-type voltage-gated potassium channels.

4. Regional and temporal expression of sodium channel messenger RNAs in the rat brain during development.

5. Single calcium channels in rat and guinea-pig hippocampal neurons.

Review 6. The chemical basis for electrical signaling.

Review 7. The purification of ion channels from excitable cells.

8. Phosphorylation of ion channels.

9. Specific modulation of sodium channels in mammalian nerve by monoclonal antibodies.

10. Two classes of channel-specific toxins from funnel web spider venom.