Distinct cellular functions are executed by separate groups of proteins, organized into complexes or functional modules, which are ultimately interconnected in cell-wide protein networks. Understanding the structures and operational modes of these networks is one of the next great challenges in biology, and microorganisms are at the forefront of research in this field. In this Review, we present our current understanding of bacterial protein networks, their general properties and the tools that are used for systematically mapping and characterizing them. We then discuss two well-studied examples, the chemotaxis network and the cell cycle network in Escherichia coli, to illustrate how network architecture promotes function
We have generated a protein-protein interaction network in Bacillus subtilis focused on several esse...
<p>In this work we take advantage of the health of knowledge we have about the gene regulation of ba...
In this thesis, proteins are considered in two ways: (i) as entities requiring functional classifica...
Escherichia coli serves as an excellent model for the study of fundamental cellular processes such a...
Understanding the cellular behavior from a systems perspective requires the identification of functi...
Molecular entities present in a cell (mRNA, proteins, metabolites, ...) do not act in isolation, but...
It is increasingly becoming clear in the post-genomic era that proteins in a cell do not work in iso...
Comparable processes in different species often involve homologous genes. One question is whether th...
Network motifs are significantly overrepresented subgraphs that have been proposed as building block...
Large amounts of detailed biological data have been generated over the past few decades. Much of the...
Cellular biochemical networks have to function in a noisy environment using imperfect components. In...
Bacteria inhabit diverse environmental niches and employ various functional repertoires encoded in t...
Much of biology emerges from networks of interactions. Even in a single bacterium such as Escherichi...
The chemotaxis signalling network of Escherichia coli is a paradigm for signal transduction and sens...
Spatial organization of signalling is not an exclusive property of eukaryotic cells. Despite the fac...
We have generated a protein-protein interaction network in Bacillus subtilis focused on several esse...
<p>In this work we take advantage of the health of knowledge we have about the gene regulation of ba...
In this thesis, proteins are considered in two ways: (i) as entities requiring functional classifica...
Escherichia coli serves as an excellent model for the study of fundamental cellular processes such a...
Understanding the cellular behavior from a systems perspective requires the identification of functi...
Molecular entities present in a cell (mRNA, proteins, metabolites, ...) do not act in isolation, but...
It is increasingly becoming clear in the post-genomic era that proteins in a cell do not work in iso...
Comparable processes in different species often involve homologous genes. One question is whether th...
Network motifs are significantly overrepresented subgraphs that have been proposed as building block...
Large amounts of detailed biological data have been generated over the past few decades. Much of the...
Cellular biochemical networks have to function in a noisy environment using imperfect components. In...
Bacteria inhabit diverse environmental niches and employ various functional repertoires encoded in t...
Much of biology emerges from networks of interactions. Even in a single bacterium such as Escherichi...
The chemotaxis signalling network of Escherichia coli is a paradigm for signal transduction and sens...
Spatial organization of signalling is not an exclusive property of eukaryotic cells. Despite the fac...
We have generated a protein-protein interaction network in Bacillus subtilis focused on several esse...
<p>In this work we take advantage of the health of knowledge we have about the gene regulation of ba...
In this thesis, proteins are considered in two ways: (i) as entities requiring functional classifica...