AI Article Synopsis
- Large molecular machines play a key role in regulating circadian rhythms by controlling transcriptional activity and rhythmic behavior.
- Recent studies have revealed complex interactions among proteins involved in the circadian clock, highlighting a feedback loop that involves multiple steps like activator recruitment and the formation of repressive complexes.
- A deep understanding of circadian biology relies on exploring the molecular and atomic details of these processes, with a focus on shared protein interfaces that are crucial for maintaining rhythmicity and timing.
Article Abstract
Large molecular machines regulate daily cycles of transcriptional activity and help generate rhythmic behavior. In recent years, structural and biochemical analyses have elucidated a number of principles guiding the interactions of proteins that form the basis of circadian timing. In its simplest form, the circadian clock is composed of a transcription/translation feedback loop. However, this description elides a complicated process of activator recruitment, chromatin decompaction, recruitment of coactivators, expression of repressors, formation of a repressive complex, repression of the activators, and ultimately degradation of the repressors and reinitiation of the cycle. Understanding the core principles underlying the clock requires careful examination of molecular and even atomic level details of these processes. Here, we review major structural and biochemical findings in circadian biology and make the argument that shared protein interfaces within the clockwork are critical for both the generation of rhythmicity and timing of the clock.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC6502704 | PMC |
| http://dx.doi.org/10.1111/ejn.14254 | DOI Listing |
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