Abstract: This work concerns the identification of the structure of a genetic network model from measurements of gene product concentrations and synthesis rates. In earlier work, for a wide family of network models, we developed a data preprocessing algorithm that is able to reject many hypotheses on the network structure by testing certain monotonicity properties of the models. Here we develop a geometric analysis of the method. Then, for a relevant subclass of genetic network models, we extend our approach to the combined testing of monotonicity and convexity-like properties associated with the network structures. Theoretical achievements as well as performance of the enhanced methods are illustrated by way of numerical results
Network representations of biological systems are widespread and reconstructing unknown networks fro...
Background: Determining the interaction topology of biological systems is a topic that currently at...
A common motif found in genetic networks is the formation of large complexes. One difficulty in mode...
International audienceThis work concerns the identification of the structure of a genetic network mo...
This work concerns the identification of the structure of a genetic network model from measurements ...
Modern experimental techniques for the quantitative, time-course measurement of protein concentratio...
We discuss the identification of genetic networks based on a class of boolean gene activation rules ...
International audienceWe consider the problem of learning dynamical models of genetic regulatory net...
Motivation: To resolve the high-dimensionality of the genetic network inference problem in the S-sys...
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...
Short Abstract — The underlying assumption of most gene regulation networks is that the driving proc...
The main theme of this thesis is modelling and analysis of biological networks. Measurement data fro...
BACKGROUND: The inference of gene regulatory networks (GRNs) from experimental observations is at th...
Network representations of biological systems are widespread and reconstructing unknown networks fro...
Background: Determining the interaction topology of biological systems is a topic that currently at...
A common motif found in genetic networks is the formation of large complexes. One difficulty in mode...
International audienceThis work concerns the identification of the structure of a genetic network mo...
This work concerns the identification of the structure of a genetic network model from measurements ...
Modern experimental techniques for the quantitative, time-course measurement of protein concentratio...
We discuss the identification of genetic networks based on a class of boolean gene activation rules ...
International audienceWe consider the problem of learning dynamical models of genetic regulatory net...
Motivation: To resolve the high-dimensionality of the genetic network inference problem in the S-sys...
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...
Short Abstract — The underlying assumption of most gene regulation networks is that the driving proc...
The main theme of this thesis is modelling and analysis of biological networks. Measurement data fro...
BACKGROUND: The inference of gene regulatory networks (GRNs) from experimental observations is at th...
Network representations of biological systems are widespread and reconstructing unknown networks fro...
Background: Determining the interaction topology of biological systems is a topic that currently at...
A common motif found in genetic networks is the formation of large complexes. One difficulty in mode...