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Ion channel of acetylcholine receptor reconstructed from images of postsynaptic membranes

Abstract

The nicotinic acetylcholine receptor belongs to a class of molecules that respond transiently to chemical stimuli by opening a water-filled channel through the cell membrane for cations to diffuse. This channel lies along the central axis delineated by a ring of five homologous, membrane-spanning subunits1,2 and thus has properties, such as conductance and ion selectivity, which depend on the profile created by the encircling subunits. Insight has been gained recently about the amino-acid residues implicated directly in the ion transport3–7, and some information about the subunit configuration around the channel has come from electron micros-copy studies of postsynaptic membranes crystallized in the form of flattened tubular vesicles8–11. The resolution along the axis of the channel has, however, been limited by the restricted range of views obtainable. Here we report the structure of the channel at 17 Å resolution, determined by three-dimensional image recon-struction from tubular vesicles having receptors organized in helical arrays across their surfaces. The helical symmetry is preserved by suspending the tubes in thin films of ice, and the receptors in such tubes can be seen from all angles, allowing the channel to be revealed clearly in relation to the lipid bilayer and the peripheral protein for the first time.

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Toyoshima, C., Unwin, N. Ion channel of acetylcholine receptor reconstructed from images of postsynaptic membranes. Nature 336, 247–250 (1988). https://doi.org/10.1038/336247a0

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