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Biol Direct. 2008 Dec 4;3:49. doi: 10.1186/1745-6150-3-49.

Activating and inhibiting connections in biological network dynamics.

Author information

1
Department of Physics, University of Colorado, 390 UCB, Boulder, CO 80309, USA. daniel.mcdonald@colorado.edu

Abstract

BACKGROUND:

Many studies of biochemical networks have analyzed network topology. Such work has suggested that specific types of network wiring may increase network robustness and therefore confer a selective advantage. However, knowledge of network topology does not allow one to predict network dynamical behavior--for example, whether deleting a protein from a signaling network would maintain the network's dynamical behavior, or induce oscillations or chaos.

RESULTS:

Here we report that the balance between activating and inhibiting connections is important in determining whether network dynamics reach steady state or oscillate. We use a simple dynamical model of a network of interacting genes or proteins. Using the model, we study random networks, networks selected for robust dynamics, and examples of biological network topologies. The fraction of activating connections influences whether the network dynamics reach steady state or oscillate.

CONCLUSION:

The activating fraction may predispose a network to oscillate or reach steady state, and neutral evolution or selection of this parameter may affect the behavior of biological networks. This principle may unify the dynamics of a wide range of cellular networks.

REVIEWERS:

Reviewed by Sergei Maslov, Eugene Koonin, and Yu (Brandon) Xia (nominated by Mark Gerstein). For the full reviews, please go to the Reviewers' comments section.

PMID:
19055800
PMCID:
PMC2651858
DOI:
10.1186/1745-6150-3-49
[Indexed for MEDLINE]
Free PMC Article

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