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Structural basis of the day-night transition in a bacterial circadian clock

Science (2017) 355(6330) 1174-1180
DOI: 10.1126/science.aag2516
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Abstract

Circadian clocks are ubiquitous timing systems that induce rhythms of biological activities in synchrony with night and day. In cyanobacteria, timing is generated by a posttranslational clock consisting of KaiA, KaiB, and KaiC proteins and a set of output signaling proteins, SasA and CikA, which transduce this rhythm to control gene expression. Here, we describe crystal and nuclear magnetic resonance structures of KaiB-KaiC, KaiA-KaiB-KaiC, and CikA-KaiB complexes. They reveal how the metamorphic properties of KaiB, a protein that adopts two distinct folds, and the post-adenosine triphosphate hydrolysis state of KaiC create a hub around which nighttime signaling events revolve, including inactivation of KaiA and reciprocal regulation of the mutually antagonistic signaling proteins, SasA and CikA.

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CITATION STYLE

APA

Tseng, R., Goularte, N. F., Chavan, A., Luu, J., Cohen, S. E., Chang, Y. G., … Partch, C. L. (2017). Structural basis of the day-night transition in a bacterial circadian clock. Science, 355(6330), 1174–1180. https://doi.org/10.1126/science.aag2516

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