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The inner workings of an ancient biological clock

Mingxu Fang, Andy LiWang, Susan S. Golden, Carrie L. Partch

2024Trends in Biochemical Sciences13 citationsDOIOpen Access PDF

Abstract

Circadian clocks evolved in diverse organisms as an adaptation to the daily swings in ambient light and temperature that derive from Earth's rotation. These timing systems, based on intracellular molecular oscillations, synchronize organisms' behavior and physiology with the 24-h environmental rhythm. The cyanobacterial clock serves as a special model for understanding circadian rhythms because it can be fully reconstituted in vitro. This review summarizes recent advances that leverage new biochemical, biophysical, and mathematical approaches to shed light on the molecular mechanisms of cyanobacterial Kai proteins that support the clock, and their homologues in other bacteria. Many questions remain in circadian biology, and the tools developed for the Kai system will bring us closer to the answers.

Topics & Concepts

Circadian clockBiological clockCircadian rhythmBiologyAdaptation (eye)Molecular clockNeuroscienceChronobiologyBacterial circadian rhythmsComputational biologyEvolutionary biologyGeneticsGenePhylogeneticsCircadian rhythm and melatoninPhotoreceptor and optogenetics researchPhotosynthetic Processes and Mechanisms
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