Several studies have mentioned network modularity—that a network can easily be decomposed into subgraphs that are densely connected within and weakly connected between each other—as a factor affecting metabolic robustness. In this paper we measure the relation between network modularity and several aspects of robustness directly in a model system of metabolism.By using a model for generating chemical reaction systems where one can tune the network modularity, we find that robustness increases with modularity for changes in the concentrations of metabolites, whereas it decreas...
Many of the chemical reactions that take place within a living cell are irreversible. Due to evoluti...
Abstract. Many of the chemical reactions that take place within a living cell are irreversible. Due ...
We study a simplified, solvable model of a fully connected metabolic network with constrained quench...
Several studies have mentioned network modularity—that a network can easily ...
BACKGROUND: Several studies have mentioned network modularity-that a network can easily be decompose...
Selective robustness is a key feature of biochemical networks. It confers a fitness benefit to organ...
The thesis focus on the modularity of metabolic network and foremost on the architecture of regulato...
Biological networks exhibit intriguing topological properties such as small-worldness. In this paper...
Cells are very complex to analyze because they consist of many components that interact with each ot...
In recent work, attempts have been made to link the structure of biochemical networks to their compl...
Metabolic networks have gained broad attention in recent years as a result of their important roles ...
In recent work, attempts have been made to link the structure of biochemical networks to their compl...
Metabolic networks are composed of several functional modules, reproducing metabolic pathways and de...
Biological systems have evolved themselves to withstand against perturbations so that a characterist...
Robustness is a prominent feature of most biological systems. Most previous related studies have bee...
Many of the chemical reactions that take place within a living cell are irreversible. Due to evoluti...
Abstract. Many of the chemical reactions that take place within a living cell are irreversible. Due ...
We study a simplified, solvable model of a fully connected metabolic network with constrained quench...
Several studies have mentioned network modularity—that a network can easily ...
BACKGROUND: Several studies have mentioned network modularity-that a network can easily be decompose...
Selective robustness is a key feature of biochemical networks. It confers a fitness benefit to organ...
The thesis focus on the modularity of metabolic network and foremost on the architecture of regulato...
Biological networks exhibit intriguing topological properties such as small-worldness. In this paper...
Cells are very complex to analyze because they consist of many components that interact with each ot...
In recent work, attempts have been made to link the structure of biochemical networks to their compl...
Metabolic networks have gained broad attention in recent years as a result of their important roles ...
In recent work, attempts have been made to link the structure of biochemical networks to their compl...
Metabolic networks are composed of several functional modules, reproducing metabolic pathways and de...
Biological systems have evolved themselves to withstand against perturbations so that a characterist...
Robustness is a prominent feature of most biological systems. Most previous related studies have bee...
Many of the chemical reactions that take place within a living cell are irreversible. Due to evoluti...
Abstract. Many of the chemical reactions that take place within a living cell are irreversible. Due ...
We study a simplified, solvable model of a fully connected metabolic network with constrained quench...