2014
DOI: 10.1016/j.jtbi.2014.08.044
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Velocity response curves demonstrate the complexity of modeling entrainable clocks

Abstract: Circadian clocks are biological oscillators that regulate daily behaviors in organisms across the kingdoms of life. Their rhythms are generated by complex systems, generally involving interlocked regulatory feedback loops. These rhythms are entrained by the daily light/dark cycle, ensuring that the internal clock time is coordinated with the environment. Mathematical models play an important role in understanding how the components work together to function as a clock which can be entrained by light. For a clo… Show more

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Cited by 2 publications
(2 citation statements)
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“…This approach has led to methods based on the PRC and does not explicitly take into account the periodic nature of the forcing signal. The second paradigm assumes that entrainment occurs through continuous adjustments to the speed of the oscillator and involves a velocity response curve (VRC) (Beersma et al, 1999;Rand et al, 2004;Taylor et al, 2010Taylor et al, , 2014. The VRC characterizes regions in the circadian phase space where the speed of the oscillator increases or decreases as a function of a change of parameter-for example, light intensity.…”
Section: Comparison To Prior Workmentioning
confidence: 99%
“…This approach has led to methods based on the PRC and does not explicitly take into account the periodic nature of the forcing signal. The second paradigm assumes that entrainment occurs through continuous adjustments to the speed of the oscillator and involves a velocity response curve (VRC) (Beersma et al, 1999;Rand et al, 2004;Taylor et al, 2010Taylor et al, , 2014. The VRC characterizes regions in the circadian phase space where the speed of the oscillator increases or decreases as a function of a change of parameter-for example, light intensity.…”
Section: Comparison To Prior Workmentioning
confidence: 99%
“…These approaches include mechanistic and empirical process modeling [1119], robustness and sensitivity analysis [13, 2025], and optimal control [10, 2629]. This review highlights the role of systems engineering in developing an understanding of, and artificially exerting control over, the mammalian circadian system.…”
Section: Introductionmentioning
confidence: 99%