The Case for Kinases:A Phosphorylation Driven Model for Circadian Temperature Compensation

Circadian rhythms, [~]24-hour biological cycles, enable organisms to anticipate rhythmic environmental cycles so they can assign proper day and night functions that align with those cycles. Circadian rhythms are defined by their ability to be reset by external cues, their capacity to continue to oscillate in the absence of those cues, and their capacity to maintain the rate of the clock across a range of ambient temperatures, a property known as temperature compensation. In the Neurospora clock, the White Collar Complex (WCC) drives expression of FRQ which nucleates a complex including FRH and CK1a that phosphorylates and thereby represses WCC activity. Work to date has suggested that kinase