Electrical signals in olfactory transduction.

Olfactory transduction involves a G-protein-coupled second messenger system, which results in the odor-dependent production of cAMP. The direct activation of ion channels in the cilia membrane by cAMP is the final step in producing the slow depolarization that brings the membrane potential to threshold for spike generation. Because of the central role in the transduction cascade occupied by these channels considerable effort has been directed toward understanding their behavior at a molecular level. Alternative second messenger pathways have also been proposed in olfaction, but the physiological evidence for these is less well developed.