Searched for:
(1 - 4 of 4)
document
Winterbach, W. (author), Van Mieghem, P. (author), Reinders, M. (author), Wang, H. (author), De Ridder, D. (author)
Molecular interactions are often represented as network models which have become the common language of many areas of biology. Graphs serve as convenient mathematical representations of network models and have themselves become objects of study. Their topology has been intensively researched over the last decade after evidence was found that...
journal article 2013
document
Winterbach, W. (author), De Ridder, D. (author), Wang, H.J. (author), Reinders, M. (author), Van Mieghem, P. (author)
conference paper 2012
document
Winterbach, W. (author), Wang, H. (author), Reinders, M. (author), Van Mieghem, P. (author), De Ridder, D. (author)
conference paper 2010
document
Winterbach, W. (author), Wang, H. (author), Reinders, M. (author), Van Mieghem, P. (author), De Ridder, D. (author)
Biological networks exhibit intriguing topological properties such as small-worldness. In this paper, we investigate whether the topology of a metabolic network is related to its robustness. We do so by perturbing a metabolic system in silico, one reaction at a time and studying the correlations between growth, as predicted by flux balance...
conference paper 2010
Searched for:
(1 - 4 of 4)