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Global Analysis of Dynamical Decision-Making Models through Local Computation around the Hidden Saddle

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  • Laura Trotta
  • Eric Bullinger
  • Rodolphe Sepulchre

Abstract

Bistable dynamical switches are frequently encountered in mathematical modeling of biological systems because binary decisions are at the core of many cellular processes. Bistable switches present two stable steady-states, each of them corresponding to a distinct decision. In response to a transient signal, the system can flip back and forth between these two stable steady-states, switching between both decisions. Understanding which parameters and states affect this switch between stable states may shed light on the mechanisms underlying the decision-making process. Yet, answering such a question involves analyzing the global dynamical (i.e., transient) behavior of a nonlinear, possibly high dimensional model. In this paper, we show how a local analysis at a particular equilibrium point of bistable systems is highly relevant to understand the global properties of the switching system. The local analysis is performed at the saddle point, an often disregarded equilibrium point of bistable models but which is shown to be a key ruler of the decision-making process. Results are illustrated on three previously published models of biological switches: two models of apoptosis, the programmed cell death and one model of long-term potentiation, a phenomenon underlying synaptic plasticity.

Suggested Citation

  • Laura Trotta & Eric Bullinger & Rodolphe Sepulchre, 2012. "Global Analysis of Dynamical Decision-Making Models through Local Computation around the Hidden Saddle," PLOS ONE, Public Library of Science, vol. 7(3), pages 1-11, March.
    • Handle: RePEc:plo:pone00:0033110
    DOI: 10.1371/journal.pone.0033110
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    References listed on IDEAS

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    1. Stefan Legewie & Nils Blüthgen & Hanspeter Herzel, 2006. "Mathematical Modeling Identifies Inhibitors of Apoptosis as Mediators of Positive Feedback and Bistability," PLOS Computational Biology, Public Library of Science, vol. 2(9), pages 1-13, September.
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