In recent work, attempts have been made to link the structure of biochemical networks to their complex dynamics. It was shown that structurally stable network motifs are enriched in such networks. In this work, we investigate to what extent these findings apply to metabolic networks. To this end, we extend a previously proposed method by changing the null model for determining motif enrichment, by using interaction types directly obtained from structural interaction matrices, by generating a distribution of partial derivatives of reaction rates and by simulating enzymatic regulation on metabolic networks. Our findings suggest that the conclusions drawn in previous work cannot be extended to metabolic networks, that is, structurally stable n...
License, which permits unrestricted use, distribution, and reproduction in any medium, provided the ...
Background: Different studies show evidence that several unicellular organisms display a cellular me...
A motif is a small, repeated pattern that is over-represented in a network compared to its abundance...
In recent work, attempts have been made to link the structure of biochemical networks to their compl...
In recent work, attempts have been made to link the structure of biochemical networks to their compl...
The network metaphor is currently one of the most common general paradigms in biological sciences: t...
The entry of science into the post genomic era has created a magnitude of available data for metabol...
<p>Complex networks have been successfully employed to represent different levels of biological syst...
23International audienceThere has been a renewed interest for metabolism in the computational biolog...
Processes in living cells are the result of interactions between biochemical compounds in highly com...
Conceptual understanding of complex cellular organization can be facilitated through a perspective b...
Bio-molecular systems consist of tens of thousands of molecular species of different chemical nature...
The dynamic behavior of metabolic networks is governed by numerous regulatory mechanisms, such as re...
Processes in living cells are the result of interactions between biochemical compounds in highly com...
changing states. This self-organized enzymatic configuration seems to be an intrinsic characteristi...
License, which permits unrestricted use, distribution, and reproduction in any medium, provided the ...
Background: Different studies show evidence that several unicellular organisms display a cellular me...
A motif is a small, repeated pattern that is over-represented in a network compared to its abundance...
In recent work, attempts have been made to link the structure of biochemical networks to their compl...
In recent work, attempts have been made to link the structure of biochemical networks to their compl...
The network metaphor is currently one of the most common general paradigms in biological sciences: t...
The entry of science into the post genomic era has created a magnitude of available data for metabol...
<p>Complex networks have been successfully employed to represent different levels of biological syst...
23International audienceThere has been a renewed interest for metabolism in the computational biolog...
Processes in living cells are the result of interactions between biochemical compounds in highly com...
Conceptual understanding of complex cellular organization can be facilitated through a perspective b...
Bio-molecular systems consist of tens of thousands of molecular species of different chemical nature...
The dynamic behavior of metabolic networks is governed by numerous regulatory mechanisms, such as re...
Processes in living cells are the result of interactions between biochemical compounds in highly com...
changing states. This self-organized enzymatic configuration seems to be an intrinsic characteristi...
License, which permits unrestricted use, distribution, and reproduction in any medium, provided the ...
Background: Different studies show evidence that several unicellular organisms display a cellular me...
A motif is a small, repeated pattern that is over-represented in a network compared to its abundance...