Understanding the cellular behavior from a systems perspective requires the identification of functional and physical interactions among diverse molecular entities in a cell (i.e. DNA/RNA, proteins and metabolites). Powerful and scalable technologies enabled the generation of genome-wide datasets that describe cellular systems by capturing the interactions of their building blocks under different environmental stimuli. The most straightforward way to represent such datasets is by means of molecular networks of which nodes correspond to molecular entities and edges to the interactions amongst those entities. In this review we give an overview of the different functional and physical interaction networks in bacteria that have been or potentia...
Combinations of 'omics' investigations (i.e, transcriptomic, proteomic, metabolomic and/or fluxomic)...
We are often able to describe what happens at almost all biological length scales, from the molecula...
Cellular functions are almost always the result of the coordinated action of several proteins, inter...
Molecular entities present in a cell (mRNA, proteins, metabolites, ...) do not act in isolation, but...
Understanding the cellular behavior from a systems perspective requires the identification of functi...
Large amounts of detailed biological data have been generated over the past few decades. Much of the...
In the current omics era, innovative high-throughput technologies allow measuring temporal and condi...
The genome-scale cellular network has become a necessary tool in the systematic analysis of microbes...
Distinct cellular functions are executed by separate groups of proteins, organized into complexes or...
Escherichia coli serves as an excellent model for the study of fundamental cellular processes such a...
Large-scale molecular interaction data sets have the potential to provide a comprehensive, system-wi...
Bacteria inhabit diverse environmental niches and employ various functional repertoires encoded in t...
Large-scale molecular interaction data sets have the potential to provide a comprehensive, system-wi...
The omics revolution has introduced new challenges when studying interesting phenotypes. High throug...
Gaining insight into phenotypes requires the identification of the underlying processes and pathways...
Combinations of 'omics' investigations (i.e, transcriptomic, proteomic, metabolomic and/or fluxomic)...
We are often able to describe what happens at almost all biological length scales, from the molecula...
Cellular functions are almost always the result of the coordinated action of several proteins, inter...
Molecular entities present in a cell (mRNA, proteins, metabolites, ...) do not act in isolation, but...
Understanding the cellular behavior from a systems perspective requires the identification of functi...
Large amounts of detailed biological data have been generated over the past few decades. Much of the...
In the current omics era, innovative high-throughput technologies allow measuring temporal and condi...
The genome-scale cellular network has become a necessary tool in the systematic analysis of microbes...
Distinct cellular functions are executed by separate groups of proteins, organized into complexes or...
Escherichia coli serves as an excellent model for the study of fundamental cellular processes such a...
Large-scale molecular interaction data sets have the potential to provide a comprehensive, system-wi...
Bacteria inhabit diverse environmental niches and employ various functional repertoires encoded in t...
Large-scale molecular interaction data sets have the potential to provide a comprehensive, system-wi...
The omics revolution has introduced new challenges when studying interesting phenotypes. High throug...
Gaining insight into phenotypes requires the identification of the underlying processes and pathways...
Combinations of 'omics' investigations (i.e, transcriptomic, proteomic, metabolomic and/or fluxomic)...
We are often able to describe what happens at almost all biological length scales, from the molecula...
Cellular functions are almost always the result of the coordinated action of several proteins, inter...