Molecular and circuit mechanisms mediating circadian clock output in the Drosophila brain

A central question in the circadian biology field concerns the mechanisms that translate ~24‐hr oscillations of the molecular clock into overt rhythms. Drosophila melanogaster is a powerful system that provided the first understanding of how molecular clocks are generated and is now illuminating the neural basis of circadian behavior. The identity of ~150 clock neurons in the Drosophila brain and their roles in shaping circadian rhythms of locomotor activity have been described before. This review summarizes mechanisms that transmit time‐of‐day signals from the clock, within the clock network as well as downstream of it. We also discuss the identification of functional multisynaptic circuits between clock neurons and output neurons that regulate locomotor activity. Circadian pacemaking is a result of individually rhythmic clock neurons synchronized across a circuit. In the circadian system of Drosophila melanogaster, rhythmic neuronal activity also propagates downstream of the central clock neurons, s‐LNvs, to output circuits that regulate behavioral rhythms.