Helix bioinformatics


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	Teaching activities

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	Evolution of species and gene families

	Spatial organization of genomic information

	Syntaxic and functionnal genome annotation

	Proteomics

	Modeling and simulation of genetic regulatory networks

	Information extraction from texts


	Evolution of gene and gene families

	Spatial organization of genomic information

	Syntaxic and functionnal genome annotation

	Proteomics

	Modeling and simulation of genetic regulatory networks

	Information extraction from text


	Publications by year

	Publications by author

	Export


	The GenoStar integrated bioinformatics platform for exploratory genomics

	GEB: GenoExpertBacteria

	GNA: Genetic Network Analyzer

	PepLine: high throughput proteomics

	Herbs: checking the consistency of proteome annotations

	ISee: In Silico biology e-learning environment

	BOX: XML specifications of genomic data

	AROM: entity-relationship knowledge modeling


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Publications

Piecewise-linear models of genetic regulatory networks: Equilibria and their stability


		INRIA RR-5353, 2004

R. Casey, H. de Jong, J.-L. Gouzé

A formalism based on piecewise-linear (PL) differential equations, originally due to Glass and Kauffman, has been shown to be well-suited to modelling genetic regulatory networks. However, the discontinuous vector field inherent in the PL models raises some mathematical problems in defining solutions on the surfaces of discontinuity. To overcome these difficulties we use the approach of Filippov, which extends the vector field to a differential inclusion. We study the stability of equilibria (called singular equilibrium sets) that lie on the surfaces of discontinuity. We prove several theorems that characterize the stability of these singular equilibria directly from the state transition graph, which is a qualitative representation of the dynamics of the system. We also formulate a stronger conjecture on the stability of these singular equilibrium sets.

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