Although a role for the ryanodine receptor (RyR) in Ca2+ signaling in smooth muscle has been inferred, direct information on the biochemical and functional properties of the receptor has been largely lacking. Studies were thus carried out to purify and characterize the RyR in stomach smooth muscle cells from the toad Bufo marinus. Intracellular Ca2+ measurements with the Ca(2+)-sensitive fluorescent indicator fura-2 under voltage clamp indicated the presence of a caffeine- and ryanodine-sensitive internal store for Ca2+ in these cells. The (CHAPS)-solubilized, [3H]ryanodine-labeled RyR of toad smooth muscle was partially purified from microsomal membranes by rate density centrifugation as a 30-S protein complex. SDS/PAGE indicated the comigration of a high molecular weight polypeptide with the peak attributed to 30-S RyR, which had a mobility similar to the cardiac RyR and on immunoblots cross-reacted with a monoclonal antibody to the canine cardiac RyR. Following planar lipid bilayer reconstitution of 30-S stomach muscle RyR fractions, single-channel currents (830 pS with 250 mM K+ as the permeant ion) were observed that were activated by Ca2+ and modified by ryanodine. In vesicle-45Ca2+ efflux measurements, the toad channel was activated to a greater extent at 100-1000 microM than 1-10 microM Ca2+. These results suggest that toad stomach muscle contains a ryanodine-sensitive Ca2+ release channel with properties similar but not identical to those of the mammalian skeletal and cardiac Ca(2+)-release channels.