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Literature DB >> 18456830

Parameter inference for biochemical systems that undergo a Hopf bifurcation.

Paul D W Kirk¹, Tina Toni, Michael P H Stumpf.

Abstract

The increasingly widespread use of parametric mathematical models to describe biological systems means that the ability to infer model parameters is of great importance. In this study, we consider parameter inferability in nonlinear ordinary differential equation models that undergo a bifurcation, focusing on a simple but generic biochemical reaction model. We systematically investigate the shape of the likelihood function for the model's parameters, analyzing the changes that occur as the model undergoes a Hopf bifurcation. We demonstrate that there exists an intrinsic link between inference and the parameters' impact on the modeled system's dynamical stability, which we hope will motivate further research in this area.

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Year: 2008 PMID： 18456830 PMCID： PMC2440454 DOI： 10.1529/biophysj.107.126086

Source DB: PubMed Journal: Biophys J ISSN： 0006-3495 Impact factor: 4.033

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Parameter inference for biochemical systems that undergo a Hopf bifurcation.

1. Uses and abuses of mathematics in biology.

2. Growth-induced instability in metabolic networks.

3. Bifurcation analysis of a model of the budding yeast cell cycle.

4. From structure to dynamics of metabolic pathways: application to the plant mitochondrial TCA cycle.

1. Simulation-based model selection for dynamical systems in systems and population biology.

2. Bayesian design strategies for synthetic biology.

3. A framework for parameter estimation and model selection from experimental data in systems biology using approximate Bayesian computation.

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