In this Thesis we consider the optimization of information transmission as a viable design principle for biochemical networks. We apply this principle to a simple model regulatory circuit, given by an input and a delayed output that switch randomly between two states in continuous time. First we maximize the transmitted information in the network at a given output delay, when the system has no external constraints and it is in steady state or can optimize its initial condition. We find that optimal network topologies correspond to common biological circuits linked to stress response and that circuits functioning out of steady state may exploit absorbing states to be more informative than in steady state. We then take into account that bio...
Molecular noise restricts the ability of an individual cell to resolve input signals of different st...
Gene networks can often be interpreted as computational circuits. This article investigates the comp...
Genetic regulatory networks are biochemical reaction systems, consisting of a network of interacting...
In this Thesis we consider the optimization of information transmission as a viable design principle...
Many biological regulatory systems respond with a physiological delay when processing signals. A sim...
We quantify the influence of the topology of a transcriptional regulatory network on its ability to ...
We quantify the influence of the topology of a transcriptional regulatory network on its ability to ...
The functionalities of every living organism are wired in the biochemical interactions among protein...
Across diverse biological systems—ranging from neural networks to intracellular signaling and geneti...
Sensing and responding to the environment are two essential functions that all biological organisms ...
Intracellular transmission of information via chemical and transcriptional networks is thwarted by a...
Intra- and inter-cellular information processing constitutes a defining characteristic of living sys...
Genetic regulatory networks enable cells to respond to changes in internal and external conditions b...
Cells are often considered input-output devices that maximize the transmission of information by con...
Biochemical reaction networks involve many chemical species and are inherently stochastic and comple...
Molecular noise restricts the ability of an individual cell to resolve input signals of different st...
Gene networks can often be interpreted as computational circuits. This article investigates the comp...
Genetic regulatory networks are biochemical reaction systems, consisting of a network of interacting...
In this Thesis we consider the optimization of information transmission as a viable design principle...
Many biological regulatory systems respond with a physiological delay when processing signals. A sim...
We quantify the influence of the topology of a transcriptional regulatory network on its ability to ...
We quantify the influence of the topology of a transcriptional regulatory network on its ability to ...
The functionalities of every living organism are wired in the biochemical interactions among protein...
Across diverse biological systems—ranging from neural networks to intracellular signaling and geneti...
Sensing and responding to the environment are two essential functions that all biological organisms ...
Intracellular transmission of information via chemical and transcriptional networks is thwarted by a...
Intra- and inter-cellular information processing constitutes a defining characteristic of living sys...
Genetic regulatory networks enable cells to respond to changes in internal and external conditions b...
Cells are often considered input-output devices that maximize the transmission of information by con...
Biochemical reaction networks involve many chemical species and are inherently stochastic and comple...
Molecular noise restricts the ability of an individual cell to resolve input signals of different st...
Gene networks can often be interpreted as computational circuits. This article investigates the comp...
Genetic regulatory networks are biochemical reaction systems, consisting of a network of interacting...