Circadian rhythm: A natural, robust, multi-scale control system

Francis J. Doyle; Rudiyanto Gunawan; Neda Bagheri; Henry Mirsky; Tsz Leung To

doi:10.1016/j.compchemeng.2006.05.029

Circadian rhythm: A natural, robust, multi-scale control system

Francis J. Doyle
, Rudiyanto Gunawan
, Neda Bagheri
, Henry Mirsky
, Tsz Leung To

Department of Chemical and Biological Engineering

University of California at Santa Barbara
Massachusetts Institute of Technology

Research output: Contribution to journal › Article › peer-review

21 Scopus citations

Abstract

The regulatory architecture responsible for robust maintenance of 24 h cycles is analyzed as a control system. At the gene regulatory level, it is shown that performance attributes, notably phase timing, are controlled in a robust manner. At the next level in the hierarchy, it is shown that synchrony is achieved in populations of neurons to enable clock precision. Finally, at the level of the organism, it is shown that an optimal control approach can be used to reset the clock using a light stimulus.

Original language	English
Pages (from-to)	1700-1711
Number of pages	12
Journal	Computers and Chemical Engineering
Volume	30
Issue number	10-12
DOIs	https://doi.org/10.1016/j.compchemeng.2006.05.029
State	Published - Sep 12 2006

Keywords

Circadian rhythm
Gene regulation
Robustness
Systems biology

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10.1016/j.compchemeng.2006.05.029

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abstract = "The regulatory architecture responsible for robust maintenance of 24 h cycles is analyzed as a control system. At the gene regulatory level, it is shown that performance attributes, notably phase timing, are controlled in a robust manner. At the next level in the hierarchy, it is shown that synchrony is achieved in populations of neurons to enable clock precision. Finally, at the level of the organism, it is shown that an optimal control approach can be used to reset the clock using a light stimulus.",

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AU - To, Tsz Leung

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AB - The regulatory architecture responsible for robust maintenance of 24 h cycles is analyzed as a control system. At the gene regulatory level, it is shown that performance attributes, notably phase timing, are controlled in a robust manner. At the next level in the hierarchy, it is shown that synchrony is achieved in populations of neurons to enable clock precision. Finally, at the level of the organism, it is shown that an optimal control approach can be used to reset the clock using a light stimulus.

KW - Circadian rhythm

KW - Gene regulation

KW - Robustness

KW - Systems biology

UR - https://www.scopus.com/pages/publications/33747894288

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JF - Computers and Chemical Engineering

IS - 10-12

ER -

Circadian rhythm: A natural, robust, multi-scale control system

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Keywords

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