M. R. Ruiz scite author profile

The circadian oscillator, an internal time-keeping device found in most organisms, enables timely regulation of daily biological activities by maintaining synchrony with the external environment. The mechanistic basis underlying the adjustment of circadian rhythms to changing external conditions, however, has yet to be clearly elucidated. We explored the mechanism of action of nicotinamide in Arabidopsis thaliana , a metabolite that lengthens the period of circadian rhythms, to understand the regulation of circadian period. To identify the key mechanisms involved in the circadian response to nicotinamide, we developed a systematic and practical modeling framework based on the identification and comparison of gene regulatory dynamics. Our mathematical predictions, confirmed by experimentation, identified key transcriptional regulatory mechanisms of circadian period and uncovered the role of blue light in the response of the circadian oscillator to nicotinamide. We suggest that our methodology could be adapted to predict mechanisms of drug action in complex biological systems.

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BIG Regulates Dynamic Adjustment of Circadian Period in Arabidopsis thaliana

Hearn

Ruiz

Abdul-Awal

et al. 2018

Plant Physiol.

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Circadian clocks drive rhythms with a period near 24 h, but the molecular basis of the regulation of the period of the circadian clockis poorly understood. We previously demonstrated that metabolites affect the free-running period of the circadian oscillator of Arabidopsis (), with endogenous sugars acting as an accelerator and exogenous nicotinamide acting as a brake. Changes in circadian oscillator period are thought to adjust the timing of biological activities through the process of entrainment, in which the circadian oscillator becomes synchronized to rhythmic signals such as light and dark cycles as well as changes in internal metabolism. To identify the molecular components associated with the dynamic adjustment of circadian period, we performed a forward genetic screen. We identified Arabidopsis mutants that were either period insensitive to nicotinamide () or period oversensitive to nicotinamide (). We mapped to, a gene of unknown molecular function that was shown previously to play a role in light signaling. We found that has an early entrained phase, suggesting that the dynamic alteration of circadian period contributes to the correct timing of biological events. Our data provide insight into how the dynamic period adjustment of circadian oscillators contributes to establishing a correct phase relationship with the environment and show that BIG is involved in this process.

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Daily patterns of locomotor activity in a Lycosid spider

Ortega

Ruiz

Fernández-Montraveta

1992

Journal of Interdisiplinary Cycle Research

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An Increment in Unilateral Carotid Blood Flow Produces Cerebral Aneurysms in Rats

Roda

Álvarez

Garcı́a-Villalón

et al. 1988

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M. R. Ruiz

Dynamical differential expression (DyDE) reveals the period control mechanisms of the Arabidopsis circadian oscillator

BIG Regulates Dynamic Adjustment of Circadian Period in Arabidopsis thaliana

Daily patterns of locomotor activity in a Lycosid spider

An Increment in Unilateral Carotid Blood Flow Produces Cerebral Aneurysms in Rats

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