J. Morton Boyd scite author profile

Organisms are adapted to the relentless cycles of day and night, because they evolved timekeeping systems called circadian clocks, which regulate biological activities with ~24-h rhythms. The clock of cyanobacteria is driven by a three-protein oscillator comprised of KaiA, KaiB, and KaiC, which together generate a circadian rhythm of KaiC phosphorylation. We show that KaiB flips between two distinct three-dimensional folds, and its rare transition to an active state provides a time delay that is required to match the timing of the oscillator to that of earth’s rotation. Once KaiB switches folds, it binds phosphorylated KaiC and captures KaiA, initiating a phase transition of the circadian cycle, and regulates components of the clock-output pathway, providing the link that joins the timekeeping and signaling functions of the oscillator.

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Asymmetric properties of the Chlamydomonas reinhardtii cytoskeleton direct rhodopsin photoreceptor localization

Mittelmeier

Boyd

Lamb

et al. 2011

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Thioredoxin-family protein EYE2 and Ser/Thr kinase EYE3 play interdependent roles in eyespot assembly

Boyd

Mittelmeier

Lamb

et al. 2011

MBoC

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Cross-talk and regulatory interactions between the essential response regulator RpaB and cyanobacterial circadian clock output

Espinosa

Boyd

Cantos

et al. 2015

Proc. Natl. Acad. Sci. U.S.A.

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The response regulator RpaB (regulator of phycobilisome associated B), part of an essential two-component system conserved in cyanobacteria that responds to multiple environmental signals, has recently been implicated in the control of cell dimensions and of circadian rhythms of gene expression in the model cyanobacterium Synechococcus elongatus PCC 7942. However, little is known of the molecular mechanisms that underlie RpaB functions. In this study we show that the regulation of phenotypes by RpaB is intimately connected with the activity of RpaA (regulator of phycobilisome associated A), the master regulator of circadian transcription patterns. RpaB affects RpaA activity both through control of gene expression, a function requiring an intact effector domain, and via altering RpaA phosphorylation, a function mediated through the N-terminal receiver domain of RpaB. Thus, both phosphorylation cross-talk and coregulation of target genes play a role in the genetic interactions between the RpaA and RpaB pathways. In addition, RpaB∼P levels appear critical for survival under light:dark cycles, conditions in which RpaB phosphorylation is environmentally driven independent of the circadian clock. We propose that the complex regulatory interactions between the essential and environmentally sensitive NblS-RpaB system and the SasA-RpaA clock output system integrate relevant extra-and intracellular signals to the circadian clock.signaling network | transcription regulation | chronobiology

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J. Morton Boyd

A protein fold switch joins the circadian oscillator to clock output in cyanobacteria

Asymmetric properties of the Chlamydomonas reinhardtii cytoskeleton direct rhodopsin photoreceptor localization

Thioredoxin-family protein EYE2 and Ser/Thr kinase EYE3 play interdependent roles in eyespot assembly

Cross-talk and regulatory interactions between the essential response regulator RpaB and cyanobacterial circadian clock output

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