2006
DOI: 10.1002/bies.20511
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Coupled positive and negative feedback circuits form an essential building block of cellular signaling pathways

Abstract: Cellular circuits have positive and negative feedback loops that allow them to respond properly to noisy external stimuli. It is intriguing that such feedback loops exist in many cases in a particular form of coupled positive and negative feedback loops with different time delays. As a result of our mathematical simulations and investigations into various experimental evidences, we found that such coupled feedback circuits can rapidly turn on a reaction to a proper stimulus, robustly maintain its status, and i… Show more

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Cited by 77 publications
(70 citation statements)
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References 35 publications
(48 reference statements)
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“…State-diagram for the mathematical model of the skin conductance response (SCR): y'''+a·y''+b·y'+c·y=m·u(t); y=SCR ubiquitous regulatory motif performing sensitive robustness in biological systems (Zhang et al, 2007). The foremost activated positive feedback rapidly induces the "on" state transition of the signaling system, the delayed positive feedback robustly maintains this "on" state, while the negative feedback reinstates the system in the original "off" state, prevents excessive response due to multiple positive feedback loops, and suppresses noise effects (Kim et al, 2006;Pfeuty & Kaneko, 2009) …”
Section: Positive and Negative Feedback Loops Drive The Scr To Pleasamentioning
confidence: 99%
“…State-diagram for the mathematical model of the skin conductance response (SCR): y'''+a·y''+b·y'+c·y=m·u(t); y=SCR ubiquitous regulatory motif performing sensitive robustness in biological systems (Zhang et al, 2007). The foremost activated positive feedback rapidly induces the "on" state transition of the signaling system, the delayed positive feedback robustly maintains this "on" state, while the negative feedback reinstates the system in the original "off" state, prevents excessive response due to multiple positive feedback loops, and suppresses noise effects (Kim et al, 2006;Pfeuty & Kaneko, 2009) …”
Section: Positive and Negative Feedback Loops Drive The Scr To Pleasamentioning
confidence: 99%
“…From a networks perspective, feedback has been demonstrated to play an important role in control of biological processes, including virulence (Brandman et al 2005;Freeman 2000;Kim et al 2007;Mitrophanov and Groisman 2008;Saini and Rao 2010;Shin et al 2006;Thomas et al 1995). In this direction, our work adds to the number of behaviors known to be exhibited by living cells using feedback in networks.…”
Section: Discussionmentioning
confidence: 89%
“…The circuits resist deleterious network noise while activating the proper reaction to an external stimulus (Kim et al, 2007). Intriguingly, both architectures are present in CREB signaling.…”
Section: Criticality: An Adaptive Molecular Regimementioning
confidence: 99%