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Robust, tunable biological oscillations from interlinked positive and negative feedback loops.


ABSTRACT: A simple negative feedback loop of interacting genes or proteins has the potential to generate sustained oscillations. However, many biological oscillators also have a positive feedback loop, raising the question of what advantages the extra loop imparts. Through computational studies, we show that it is generally difficult to adjust a negative feedback oscillator's frequency without compromising its amplitude, whereas with positive-plus-negative feedback, one can achieve a widely tunable frequency and near-constant amplitude. This tunability makes the latter design suitable for biological rhythms like heartbeats and cell cycles that need to provide a constant output over a range of frequencies. Positive-plus-negative oscillators also appear to be more robust and easier to evolve, rationalizing why they are found in contexts where an adjustable frequency is unimportant.

SUBMITTER: Tsai TY 

PROVIDER: S-EPMC2728800 | biostudies-literature | 2008 Jul

REPOSITORIES: biostudies-literature

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Robust, tunable biological oscillations from interlinked positive and negative feedback loops.

Tsai Tony Yu-Chen TY   Choi Yoon Sup YS   Ma Wenzhe W   Pomerening Joseph R JR   Tang Chao C   Ferrell James E JE  

Science (New York, N.Y.) 20080701 5885


A simple negative feedback loop of interacting genes or proteins has the potential to generate sustained oscillations. However, many biological oscillators also have a positive feedback loop, raising the question of what advantages the extra loop imparts. Through computational studies, we show that it is generally difficult to adjust a negative feedback oscillator's frequency without compromising its amplitude, whereas with positive-plus-negative feedback, one can achieve a widely tunable freque  ...[more]

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