Add to ORKGWe investigate the properties of large random conservative chemical reaction networks composed of elementary reactions endowed with either mass-action or saturating kinetics, assigning kinetic parameters in a thermodynamically-consistent manner. We find that such complex networks exhibit qualitatively similar behavior when fed with external nutrient flux. The nutrient is preferentially transformed into one specific chemical that is an intrinsic property of the network. We propose a self-consistent proto-cell toy model in which the preferentially synthesized chemical is a precursor for the cell membrane, and show that such proto-cells can exhibit sustainable homeostatic growth when fed with any nutrient diffusing through the membrane, provid...
Complex networks of chemical reactions mediate many processes in cellular biology, such as gene expr...
Reaction networks are useful for analyzing reaction systems occurring in chemistry, systems biology,...
Abstract The deficiency of a (bio)chemical reaction network can be conceptually interpreted as a mea...
We investigate the properties of large random conservative chemical reaction networks composed of el...
International audienceWe show that self-replication of a chemical system encapsulated within a membr...
Within a fully microscopic setting, we derive a variational principle for the non-equilibrium steady...
This paper further develops the connection between Chemical Reaction Network Theory (CRNT) and Bioch...
Within a fully microscopic setting, we derive a variational principle for the non-equilibrium steady...
We study a simplified, solvable model of a fully connected metabolic network with constrained quench...
<div><p>Within a fully microscopic setting, we derive a variational principle for the non-equilibriu...
International audienceWe consider a generic protocell model consisting of any conservative chemical ...
Cells are very complex to analyze because they consist of many components that interact with each ot...
International audienceThe present article discusses the possibility that catalysed chemical networks...
In analyzing and mathematical modeling of complex (bio)chemical reaction networks, formal methods th...
Can a micron sized sack of interacting molecules understand, and adapt to a constantly-fluctuating e...
Complex networks of chemical reactions mediate many processes in cellular biology, such as gene expr...
Reaction networks are useful for analyzing reaction systems occurring in chemistry, systems biology,...
Abstract The deficiency of a (bio)chemical reaction network can be conceptually interpreted as a mea...
We investigate the properties of large random conservative chemical reaction networks composed of el...
International audienceWe show that self-replication of a chemical system encapsulated within a membr...
Within a fully microscopic setting, we derive a variational principle for the non-equilibrium steady...
This paper further develops the connection between Chemical Reaction Network Theory (CRNT) and Bioch...
Within a fully microscopic setting, we derive a variational principle for the non-equilibrium steady...
We study a simplified, solvable model of a fully connected metabolic network with constrained quench...
<div><p>Within a fully microscopic setting, we derive a variational principle for the non-equilibriu...
International audienceWe consider a generic protocell model consisting of any conservative chemical ...
Cells are very complex to analyze because they consist of many components that interact with each ot...
International audienceThe present article discusses the possibility that catalysed chemical networks...
In analyzing and mathematical modeling of complex (bio)chemical reaction networks, formal methods th...
Can a micron sized sack of interacting molecules understand, and adapt to a constantly-fluctuating e...
Complex networks of chemical reactions mediate many processes in cellular biology, such as gene expr...
Reaction networks are useful for analyzing reaction systems occurring in chemistry, systems biology,...
Abstract The deficiency of a (bio)chemical reaction network can be conceptually interpreted as a mea...