<p>Biochemical reaction networks with a sufficiently large number of molecules may be represented as systems of differential equations. Many networks receive inputs that fluctuate continuously in time. These networks may never settle down to a static equilibrium and are of great interest both mathematically and biologically. Biological systems receive inputs that vary on multiple time scales. Hormonal and neural inputs vary on a scale of seconds or minutes; inputs from meals and circadian rhythms vary on a scale of hours or days; and long term environmental changes (such as diet, disease, and pollution) vary on a scale of years. In this thesis, we consider the limiting behavior of networks in which the input is on a different time scale ...
We consider stochastic descriptions of chemical reaction networks in which there are both fast and s...
In most natural sciences there is currently the insight that it is necessary to bridge gaps between ...
The study of dynamic functions of large-scale biological networks has intensified in recent years. A...
Biochemical reaction networks with a sufficiently large number of molecules may be represented as sy...
We investigate the propagation of random fluctuations through biochemical networks in which the numb...
ABSTRACT: Most chemical and biological processes can be viewed as reaction networks in which differe...
Complex networks of chemical reactions mediate many processes in cellular biology, such as gene expr...
Many biochemical reaction networks are inherently multiscale in time and in the counts of participat...
<div><p>Reaction networks are systems in which the populations of a finite number of species evolve ...
Many biological mechanisms can be understood as a complex interaction of chemical reactions. In orde...
Biochemical reaction networks often involve reactions that take place on different time scales, givi...
Stochasticity plays an essential role in the dynamics of biochemical systems. Stochastic behaviors o...
We analyse a class of chemical reaction networks under mass-action kinetics involving multiple time ...
International audienceWe analyze the concepts of distributed robustness and r-robustness proposed by...
Continuous-time stationary Markov jump processes among discrete sites are encountered in disparate b...
We consider stochastic descriptions of chemical reaction networks in which there are both fast and s...
In most natural sciences there is currently the insight that it is necessary to bridge gaps between ...
The study of dynamic functions of large-scale biological networks has intensified in recent years. A...
Biochemical reaction networks with a sufficiently large number of molecules may be represented as sy...
We investigate the propagation of random fluctuations through biochemical networks in which the numb...
ABSTRACT: Most chemical and biological processes can be viewed as reaction networks in which differe...
Complex networks of chemical reactions mediate many processes in cellular biology, such as gene expr...
Many biochemical reaction networks are inherently multiscale in time and in the counts of participat...
<div><p>Reaction networks are systems in which the populations of a finite number of species evolve ...
Many biological mechanisms can be understood as a complex interaction of chemical reactions. In orde...
Biochemical reaction networks often involve reactions that take place on different time scales, givi...
Stochasticity plays an essential role in the dynamics of biochemical systems. Stochastic behaviors o...
We analyse a class of chemical reaction networks under mass-action kinetics involving multiple time ...
International audienceWe analyze the concepts of distributed robustness and r-robustness proposed by...
Continuous-time stationary Markov jump processes among discrete sites are encountered in disparate b...
We consider stochastic descriptions of chemical reaction networks in which there are both fast and s...
In most natural sciences there is currently the insight that it is necessary to bridge gaps between ...
The study of dynamic functions of large-scale biological networks has intensified in recent years. A...