Postsynaptic membranes in the electric tissue of Narcine: II. A freeze-fracture study of nicotinic receptor molecules.

The ventral, postsynaptic membranes of the electroplaques of Narcine were found to containe intramembranous particles similar in location, packing density (about 5700/micron 2), transmembrane position and end appearance to nicotinic acetylcholine receptor-channel molecules. In fixed tissue the particles were limited to the cytoplasmic lamina, while in unfixed tissue an equivalent number were found symmetrically in both laminae. Four populations of particle diameters were observed in each unfixed lamina, even though other morphological evidence indicates the presence of large number of molecules of uniform structure, and biochemical studies of isolated postsynaptic membranes indicate that at least 70% of the membrane protein is receptor-channel protein. Intramembranous particles in dorsal, non-innervated electroplaque membranes, presumably representing Na+, K+-associated ATPase and other channel proteins, were found to have similar characteristics to particles in ventral membranes. Receptor-channel molecules cannot, therefore, be distinguished from other intrinsic membrane proteins by freeze-replication alone.