Network robustness is an important principle in biology and engineering. Previous studies of global networks have identified both redundancy and sparseness as topological properties used by robust networks. By focusing on molecular subnetworks, or modules, we show that module topology is tightly linked to the level of environmental variability (noise) the module expects to encounter. Modules internal to the cell that are less exposed to environmental noise are more connected and less robust than external modules. A similar design principle is used by several other biological networks. We propose a simple change to the evolutionary gene duplication model which gives rise to the rich range of module topologies observed within real networks. W...
Gene Regulatory Networks (GRNs) are biological networks that have been widely studied for their abil...
Biomolecular networks have to perform their functions robustly. A robust function may have prefe...
Robust stabilization and environmental disturbance attenuation are ubiquitous systematic properties ...
<div><p>The topology of cellular circuits (the who-interacts-with-whom) is key to understand their r...
<div><p>Design and implementation of robust network modules is essential for construction of complex...
Design and implementation of robust network modules is essential for construction of complex biologi...
Biological networks have evolved to be highly functional within uncertain environments while remaini...
With the advent of Internet of Things (IoT), sensor networks are being utilized widely for data coll...
Design and implementation of robust network modules is essential for construction of com-plex biolog...
Robustness, and the ability to function and thrive amid changing and unfavorable environments, is a ...
Biological systems have evolved themselves to withstand against perturbations so that a characterist...
Statistical properties of large ensembles of networks, all designed to have the same functions of si...
We investigate how scale-free (SF) and Erdős–Rényi (ER) topologies affect the interplay between evol...
Biological networks have evolved to be highly functional within uncertain environments while remaini...
We investigate how scale-free (SF) and Erdos-Renyi (ER) topologies affect the interplay between evol...
Gene Regulatory Networks (GRNs) are biological networks that have been widely studied for their abil...
Biomolecular networks have to perform their functions robustly. A robust function may have prefe...
Robust stabilization and environmental disturbance attenuation are ubiquitous systematic properties ...
<div><p>The topology of cellular circuits (the who-interacts-with-whom) is key to understand their r...
<div><p>Design and implementation of robust network modules is essential for construction of complex...
Design and implementation of robust network modules is essential for construction of complex biologi...
Biological networks have evolved to be highly functional within uncertain environments while remaini...
With the advent of Internet of Things (IoT), sensor networks are being utilized widely for data coll...
Design and implementation of robust network modules is essential for construction of com-plex biolog...
Robustness, and the ability to function and thrive amid changing and unfavorable environments, is a ...
Biological systems have evolved themselves to withstand against perturbations so that a characterist...
Statistical properties of large ensembles of networks, all designed to have the same functions of si...
We investigate how scale-free (SF) and Erdős–Rényi (ER) topologies affect the interplay between evol...
Biological networks have evolved to be highly functional within uncertain environments while remaini...
We investigate how scale-free (SF) and Erdos-Renyi (ER) topologies affect the interplay between evol...
Gene Regulatory Networks (GRNs) are biological networks that have been widely studied for their abil...
Biomolecular networks have to perform their functions robustly. A robust function may have prefe...
Robust stabilization and environmental disturbance attenuation are ubiquitous systematic properties ...