Autocatalytic networks, in particular the glycolytic pathway, constitute an important part of the cell metabolism. Changes in the concentration of metabolites and catalyzing enzymes during the lifetime of the cell can lead to perturbations from its nominal operating condition. We investigate the effects of such perturbations on stability properties, e.g., the extent of regions of attraction, of a particular family of autocatalytic network models. Numerical experiments demonstrate that systems that are robust with respect to perturbations in the parameter space have an easily "verifiable" (in terms of proof complexity) region of attraction properties. Motivated by the computational complexity of optimization-based formulations, we take a com...
International audienceBiochemical networks are used in computational biology, to model the static an...
Background: A classical problem in metabolic design is to maximize the production of desired compoun...
Cells are very complex to analyze because they consist of many components that interact with each ot...
Autocatalytic pathways are a necessary part of core metabolism. Every cell consumes external food/r...
Metabolic pathways in cells convert external food and resources into useful cell components and ener...
This paper develops some basic principles to study autocatalytic networks and exploit their structur...
Self-sustaining autocatalytic networks play a central role in living systems, from metabolism at the...
Biochemical networks consist of highly interconnected dynamic systems of chemical reaction represent...
Complex molecular biological processes such as transcription and translation, signal transduction, p...
This paper contributes to extending the validity of Lyapunov function PDEs whose solution is conject...
occurrence of self-sustaining sets of molecules to be a genericproperty of random reaction networks....
A new system-theoretic approach for studying the stability and control of chemical reaction networks...
Abstract Complex molecular biological processes such as transcription and translation, signal transd...
AbstractAs technological advances allow a better identification of cellular networks, large-scale mo...
Both engineering and evolution are constrained by trade-offs between efficiency and robustness, but ...
International audienceBiochemical networks are used in computational biology, to model the static an...
Background: A classical problem in metabolic design is to maximize the production of desired compoun...
Cells are very complex to analyze because they consist of many components that interact with each ot...
Autocatalytic pathways are a necessary part of core metabolism. Every cell consumes external food/r...
Metabolic pathways in cells convert external food and resources into useful cell components and ener...
This paper develops some basic principles to study autocatalytic networks and exploit their structur...
Self-sustaining autocatalytic networks play a central role in living systems, from metabolism at the...
Biochemical networks consist of highly interconnected dynamic systems of chemical reaction represent...
Complex molecular biological processes such as transcription and translation, signal transduction, p...
This paper contributes to extending the validity of Lyapunov function PDEs whose solution is conject...
occurrence of self-sustaining sets of molecules to be a genericproperty of random reaction networks....
A new system-theoretic approach for studying the stability and control of chemical reaction networks...
Abstract Complex molecular biological processes such as transcription and translation, signal transd...
AbstractAs technological advances allow a better identification of cellular networks, large-scale mo...
Both engineering and evolution are constrained by trade-offs between efficiency and robustness, but ...
International audienceBiochemical networks are used in computational biology, to model the static an...
Background: A classical problem in metabolic design is to maximize the production of desired compoun...
Cells are very complex to analyze because they consist of many components that interact with each ot...