We discuss the identification of genetic networks based on a class of boolean gene activation rules known as hierarchically canalizing functions. We introduce a class of kinetic models for the concentration of the proteins in the network built on a family of canalizing functions that has been shown to capture the vast majority of the known interaction networks. The simultaneous identification of the structure and of the parameters of the model from experimental data is ad dressed based on a mixed integer parametrization of the model class. The resulting regression problem is solved numerically via standard branch-and-bound techniques. The performance of the method is tested on simulated data generated by a simple model of Escherichia coli n...
Motivation: Identification of regulatory networks is typically based on deterministic models of gene...
Abstract — Recent advances of experimental techniques in bi-ology have led to the production of enor...
We propose a new method to explore the characteristics of genetic networks whose dynamics are descri...
We discuss the identification of genetic networks based on a class of boolean gene activation rules ...
Modern experimental techniques for the quantitative, time-course measurement of protein concentratio...
We present a method for the structural identification of genetic regulatory networks (GRNs), based o...
In this paper we consider piecewise affine models of genetic regulatory networks proposed by Glass a...
International audienceWe present a method for the structural identification of genetic regulatory ne...
Abstract: This work concerns the identification of the structure of a genetic network model from mea...
Abstract. In this study we will focus on piecewise linear state space models for gene-protein intera...
Background\ud Reverse engineering gene networks and identifying regulatory interactions are integral...
This work concerns the identification of the structure of a genetic network model from measurements ...
Abstract: A new approach for modelling the dynamics of gene expression from time series microarray d...
Abstract. We propose a new method to explore the characteristics of genetic networks whose dynamics ...
AbstractAnalysis of the interactions between genes by systematic gene disruptions and gene overexpre...
Motivation: Identification of regulatory networks is typically based on deterministic models of gene...
Abstract — Recent advances of experimental techniques in bi-ology have led to the production of enor...
We propose a new method to explore the characteristics of genetic networks whose dynamics are descri...
We discuss the identification of genetic networks based on a class of boolean gene activation rules ...
Modern experimental techniques for the quantitative, time-course measurement of protein concentratio...
We present a method for the structural identification of genetic regulatory networks (GRNs), based o...
In this paper we consider piecewise affine models of genetic regulatory networks proposed by Glass a...
International audienceWe present a method for the structural identification of genetic regulatory ne...
Abstract: This work concerns the identification of the structure of a genetic network model from mea...
Abstract. In this study we will focus on piecewise linear state space models for gene-protein intera...
Background\ud Reverse engineering gene networks and identifying regulatory interactions are integral...
This work concerns the identification of the structure of a genetic network model from measurements ...
Abstract: A new approach for modelling the dynamics of gene expression from time series microarray d...
Abstract. We propose a new method to explore the characteristics of genetic networks whose dynamics ...
AbstractAnalysis of the interactions between genes by systematic gene disruptions and gene overexpre...
Motivation: Identification of regulatory networks is typically based on deterministic models of gene...
Abstract — Recent advances of experimental techniques in bi-ology have led to the production of enor...
We propose a new method to explore the characteristics of genetic networks whose dynamics are descri...