Regulatory circuits are found at the basis of all non-trivial dynamical properties of biological networks. More specifically, positive circuits are involved in the generation of multiple differentiated states, whereas negative circuits can generate cyclic or homeostatic behaviours. These notions are briefly reviewed, from initial biological formulations to mathematical formalisations, further encompassing their application to the design of synthetic regulatory systems. Finally, current challenges for the analysis of increasingly complex regulatory networks are indicated, as well as prospects for our understanding of development and evolution
An important contribution of systems biology is the insight that biological systems depend on the fu...
The dynamic regulation of metabolic pathways is based on changes in external signals and endogenous ...
Studies on the biological role of feedback circuits were initially centered on systems with sigmoid ...
Regulatory circuits are found at the basis of all non-trivial dynamical properties of biological net...
In this paper, we review the qualitative tools developed by our group for the analysis of regulatory...
International audienceIt is acknowledged that the presence of positive or negative circuits in regul...
A useful approach to complex regulatory networks consists of modeling their elements and interaction...
We start our analysis from historical but too seldom quoted papers by Delbruck, Noveck and Weiner, C...
International audienceThe biological and dynamical importance of feedback circuits in regulatory gra...
Abstract. We study rules proposed by the biologist R. Thomas relating the structure of a concurrent ...
In the course of his work on the analysis of genetic regulatory networks represented by signed direc...
Organized systems such as living organisms or cells require that the level of crucial elements someh...
This paper proposes a study of biological regulatory networks based on a multi-level strategy. Given...
A biological regulatory network can be modeled as a discrete function f that contains all available ...
Biological phenomena differ significantly from physical phenomena. At the heart of this distinction ...
An important contribution of systems biology is the insight that biological systems depend on the fu...
The dynamic regulation of metabolic pathways is based on changes in external signals and endogenous ...
Studies on the biological role of feedback circuits were initially centered on systems with sigmoid ...
Regulatory circuits are found at the basis of all non-trivial dynamical properties of biological net...
In this paper, we review the qualitative tools developed by our group for the analysis of regulatory...
International audienceIt is acknowledged that the presence of positive or negative circuits in regul...
A useful approach to complex regulatory networks consists of modeling their elements and interaction...
We start our analysis from historical but too seldom quoted papers by Delbruck, Noveck and Weiner, C...
International audienceThe biological and dynamical importance of feedback circuits in regulatory gra...
Abstract. We study rules proposed by the biologist R. Thomas relating the structure of a concurrent ...
In the course of his work on the analysis of genetic regulatory networks represented by signed direc...
Organized systems such as living organisms or cells require that the level of crucial elements someh...
This paper proposes a study of biological regulatory networks based on a multi-level strategy. Given...
A biological regulatory network can be modeled as a discrete function f that contains all available ...
Biological phenomena differ significantly from physical phenomena. At the heart of this distinction ...
An important contribution of systems biology is the insight that biological systems depend on the fu...
The dynamic regulation of metabolic pathways is based on changes in external signals and endogenous ...
Studies on the biological role of feedback circuits were initially centered on systems with sigmoid ...