Statistical properties of large ensembles of networks, all designed to have the same functions of signal processing, but robust against different kinds of perturbations, are analyzed. We find that robustness against noise and random local damage plays a dominant role in determining motif distributions of networks and may underlie their classification into network superfamilies
Robust stabilization and environmental disturbance attenuation are ubiquitous systematic properties ...
Can artificially designed networks reach the levels of robustness against local damage which are com...
In the evolutionary process, the random transmission and mutation of genes provide biological divers...
Statistical properties of large ensembles of networks, all designed to have the same functions of si...
A simple flow network model of biological signal transduction is investigated. Networks with prescri...
A simple flow network model of biological signal transduction is investigated. Networks with prescri...
Complex biological networks are responsible for many fundamental processes in living organisms, incl...
Complex biological networks are responsible for many fundamental processes in living organisms, incl...
A simple flow network model of biological signal transduction is investigated. Networks with prescri...
<div><p>The topology of cellular circuits (the who-interacts-with-whom) is key to understand their r...
Network robustness is an important principle in biology and engineering. Previous studies of global ...
<div><p>Biological networks, such as those describing gene regulation, signal transduction, and neur...
We analyze the perturbation of the expression levels of thousandsof genes when one of them is knocke...
The survival of cells and organisms requires proper responses to environmental signals. These respon...
[Background]: Networks are popular and powerful tools to describe and model biological processes. Ma...
Robust stabilization and environmental disturbance attenuation are ubiquitous systematic properties ...
Can artificially designed networks reach the levels of robustness against local damage which are com...
In the evolutionary process, the random transmission and mutation of genes provide biological divers...
Statistical properties of large ensembles of networks, all designed to have the same functions of si...
A simple flow network model of biological signal transduction is investigated. Networks with prescri...
A simple flow network model of biological signal transduction is investigated. Networks with prescri...
Complex biological networks are responsible for many fundamental processes in living organisms, incl...
Complex biological networks are responsible for many fundamental processes in living organisms, incl...
A simple flow network model of biological signal transduction is investigated. Networks with prescri...
<div><p>The topology of cellular circuits (the who-interacts-with-whom) is key to understand their r...
Network robustness is an important principle in biology and engineering. Previous studies of global ...
<div><p>Biological networks, such as those describing gene regulation, signal transduction, and neur...
We analyze the perturbation of the expression levels of thousandsof genes when one of them is knocke...
The survival of cells and organisms requires proper responses to environmental signals. These respon...
[Background]: Networks are popular and powerful tools to describe and model biological processes. Ma...
Robust stabilization and environmental disturbance attenuation are ubiquitous systematic properties ...
Can artificially designed networks reach the levels of robustness against local damage which are com...
In the evolutionary process, the random transmission and mutation of genes provide biological divers...