Neuron
Volume 14, Issue 4, April 1995, Pages 865-870
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Article
A single site on the ϵ subunit is responsible for the change in ACh receptor channel conductance during skeletal muscle development

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Abstract

Four critically positioned amino acids on each of the αβ, δ and γ sunits of the Torpedo nicotinic acetylcholine receptor are determinants of channel conductance. Our results show that the γ and ϵ subunits of Xenopus muscle receptors are identical at all four positions, despite the fact that α2βδϵ receptors have a 50% greater conductance than α2βδγ receptors. Instead, the functional difference is conferred by a single charged residue that lies extracellular to all four positions, corresponding to a location in the Torpedo receptor previously shown to have no influence on conductance. Substitution of a positively charged lysine residue in γ by the neutral methionine in ϵ at this extracellular position is responsible for the increased conductance during maturation of the amphibian neuromuscular junction.

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