Vester's sensitivity model for genetic networks with time-discrete dynamics
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Date
2014
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Springer International Publishing
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Abstract
We propose a new method to explore the characteristics of genetic networks whose dynamics are described by a linear discrete dynamical model x(t+1) = Ax(t). The gene expression data x(t) is given for various time points and the matrix A of interactions among the genes is unknown. First we formulate and solve a parameter estimation problem by linear programming in order to obtain the entries of the matrix A. We then use ideas from Vester's Sensitivity Model, more precisely, the Impact Matrix, and the determination of the Systemic Roles, to understand the interactions among the genes and their role in the system. The method identifies prominent outliers, that is, the most active, reactive, buffering and critical genes in the network. Numerical examples for different datasets containing mRNA transcript levels during the cell cycle of budding yeast are presented
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Keywords
Linear Programming, Parameter Estimation, Discrete Dynamical System, Sensitivity Analysis, Genetic Networks, Operational Research, Systems Biology
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Citation
Moreno, L.A...et al. (2014). Vester's sensitivity model for genetic networks with time-discrete dynamics. Algorithms for Computational Biology, 8542, 35-46.
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Algorithms for Computational Biology
Volume
8542
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Start Page
35
End Page
46
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