Structural analysis of an acetylcholine receptor from Torpedo californica leads to a three-dimensional model in which a "monomeric" receptor is shown to contain subunits arranged around a central ionophoretic channel, which in turn traverses the entire 110 A length of the molecule. The receptor extends approximately 15 A on the cytoplasmic side, 55 A on the synaptic side of the membrane. The alpha-bungarotoxin/agonist binding site is found to be approximately 55 A from the entrance to the central gated ion channel. A hypothesis for the mechanism of AcChR is presented which takes into account the structural and kinetic data, which is testable, and which serves as a focus for future studies on the agonist-induced structure change in AcChR.
We have learned the positions of the alpha-subunits around the AChR rosette and the location of the toxin on the synaptic crest. A charge/hydrophobic character map of the 40 A X 30 A receptor surface that binds alpha-bungarotoxin has been constructed. A beta-structure domain surrounds the agonist binding site on the alpha-subunits, as predicted by amphipathic Fourier sequence analysis. The ion channel may be constructed from five amphipathic helices, which insert into the bilayer as the alpha2 beta gamma delta subunits come together. They form a water-filled channel on one side and interface with hydrophobic helices in each subunit on the other.
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