Reciprocal Coupling of Circadian Clocks in the Compound Eye and Optic Lobe in the Cricket .

The circadian system comprises multiple clocks, including central and peripheral clocks. The central clock generally governs peripheral clocks to synchronize circadian rhythms throughout the animal body. However, whether the peripheral clock influences the central clock is unclear. This issue can be addressed through a system comprising a peripheral clock (compound eye clock [CE clock]) and central clock (the optic lobe [OL] clock) in the cricket . We previously found that the compound eye regulates the free-running period () and the stability of locomotor rhythms driven by the OL clock, as measured by the daily deviation of °C. However, the role of the CE clock in this regulation remains unexplored. In this study, we investigated the importance of the CE clock in this regulation using RNA interference (RNAi) of the () gene localized to the compound eye (). The abolished the compound eye rhythms of the electroretinogram (ERG) amplitude and clock gene expression but the locomotor rhythm driven by the OL clock was maintained. The locomotor rhythm of the tested crickets showed a significantly longer and greater daily variation of than those of control crickets treated with ds. The variation of was comparable with that of crickets with the optic nerve severed. The was considerably longer but was comparable with that of crickets with the optic nerve severed. These results suggest that the CE clock regulates the OL clock to maintain and stabilize .