Abstract
SummaryCircadian clocks integrate light and temperature input to remain synchronized with the day/night cycle. Although light input to the clock is well studied, the molecular mechanisms by which circadian clocks respond to temperature remain poorly understood. We found that temperature phase shifts Drosophila circadian clocks through degradation of the pacemaker protein TIM. This degradation is mechanistically distinct from photic CRY-dependent TIM degradation. Thermal TIM degradation is triggered by cytosolic calcium increase and CALMODULIN binding to TIM and is mediated by the atypical calpain protease SOL. This thermal input pathway and CRY-dependent light input thus converge on TIM, providing a molecular mechanism for the integration of circadian light and temperature inputs. Mammals use body temperature cycles to keep peripheral clocks synchronized with their brain pacemaker. Interestingly, downregulating the mammalian SOL homolog SOLH blocks thermal mPER2 degradation and phase shifts. Thus, we propose that circadian thermosensation in insects and mammals share common principles.
Highlights
R of circadian light and temperature inputs
Circadian rhythms result from endogenous biological clocks In Drosophila, NOCTE functions in peripheral thermo- and mefound in most organisms, which enable them to adapt to and chano-sensors to synchronize brain predict daily changes in their environment to increase their circadian rhythms with temperature cycles
We found that a 4- or 6-hr temperature pulse (TP) from 20C to 30C at ZT18 advanced the phase of the clock as measured with TIM-LUC or BG-LUC (Figures 1E and 1F) or locomotor behavior (Figures 1G and S1E)
Summary
E Circadian clocks integrate light and temperature input to remain synchronized with the day/night cycle. Circadian rhythms result from endogenous biological clocks In Drosophila, NOCTE functions in peripheral thermo- and mefound in most organisms, which enable them to adapt to and chano-sensors (the chordotonal organs) to synchronize brain predict daily changes in their environment to increase their circadian rhythms with temperature cycles They drive a wide range of behaviors and physiological 2009).
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
