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Casein kinase 1 and disordered clock proteins form functionally equivalent, phospho-based circadian modules in fungi and mammals

Daniela Marzoll, Fidel E. Serrano, Anton Shostak, Carolin Schunke, Axel Diernfellner, Michael Brunner

2022Proceedings of the National Academy of Sciences53 citationsDOIOpen Access PDF

Abstract

Significance Circadian clocks rely on negative feedback loops. The core circadian inhibitors, FRQ in Neurospora and PERs in animals, are progressively hyperphosphorylated, inactivated, and degraded. CK1 is essential for these clocks. Despite our knowledge of the role of CK1, it is not known how many other kinases are required and how multisite phosphorylation might contribute to circadian timekeeping. We show here that CK1 alone is sufficient to slowly phosphorylate low-affinity sites in FRQ or PER2. The reaction is nearly temperature compensated, and the phosphorylation state of FRQ or PER2 corresponds to the time elapsed since the start of the reaction. Thus, CK1 and FRQ or PER2 form equivalent modules that are in principle capable of measuring time on a circadian scale.

Topics & Concepts

Casein kinase 1NeurosporaCircadian clockCircadian rhythmBiologyPER2Period (music)Cell biologyBacterial circadian rhythmsKinasePhosphorylationCasein kinase 2BiochemistryGeneticsProtein kinase ACLOCKEndocrinologyNeurospora crassaCyclin-dependent kinase 2GeneAcousticsMutantPhysicsCircadian rhythm and melatoninLight effects on plantsGenetics, Aging, and Longevity in Model Organisms
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