Better explicating the strengths and shortcomings of these models will help refine projections and improve transparency in the years ahead.
Image credit: Witsawat.S.
Edited* by Dave Higdon, Los Alamos National Laboratory, and accepted by the Editorial Board March 24, 2011 (received for review October 22, 2010)
Abstract
We present a novel and simple method to numerically calculate Fisher information matrices for stochastic chemical kinetics models. The linear noise approximation is used to derive model equations and a likelihood function that leads to an efficient computational algorithm. Our approach reduces the problem of calculating the Fisher information matrix to solving a set of ordinary differential equations. This is the first method to compute Fisher information for stochastic chemical kinetics models without the need for Monte Carlo simulations. This methodology is then used to study sensitivity, robustness, and parameter identifiability in stochastic chemical kinetics models. We show that significant differences exist between stochastic and deterministic models as well as between stochastic models with time-series and time-point measurements. We demonstrate that these discrepancies arise from the variability in molecule numbers, correlations between species, and temporal correlations and show how this approach can be used in the analysis and design of experiments probing stochastic processes at the cellular level. The algorithm has been implemented as a Matlab package and is available from the authors upon request.
Footnotes
- 1To whom correspondence may be addressed. E-mail: m.komorowski{at}imperial.ac.uk or m.stumpf{at}imperial.ac.uk.
Author contributions: M.K., D.A.R., and M.P.H.S. designed research; M.K. and M.J.C. performed research; M.K. and M.P.H..S. analyzed data; and M.K. and M.P.H.S. wrote the paper.
The authors declare no conflict of interest.
This article is a PNAS Direct Submission. D.H. is a guest editor invited by the Editorial Board.
This article contains supporting information online at www.pnas.org/lookup/suppl/doi:10.1073/pnas.1015814108/-/DCSupplemental.
Sensitivity, robustness, and identifiability in stochastic chemical kinetics models
Article Classifications
- Biological Sciences
- Biophysics and Computational Biology
- Physical Sciences
- Applied Mathematics
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