AbstractCellular functions are almost always the result of the coordinated action of several proteins, interacting in protein complexes, pathways or networks. Progress made in devising suitable tools for analysis of protein–protein interactions, have recently made it possible to chart interaction networks on a large-scale. The aim of this review is to provide a short overview of the most promising contributions of interaction networks to human biology, structural biology and human genetics
This is an Open Access article distributed under the terms of the Creative Commons Attribution Non-C...
peer reviewedNetwork analysis is an essential component of systems biology approaches toward underst...
AbstractProtein–protein interactions mediate essentially all biological processes. Despite the quali...
Cellular functions are almost always the result of the coordinated action of several proteins, inter...
AbstractCellular functions are almost always the result of the coordinated action of several protein...
The functional characterization of all genes and their gene products is the main challenge of the po...
The functional characterization of all genes and their gene products is the main challenge of the po...
Proteins very rarely act in isolation. Biomolecular interactions are central to all biological funct...
Analysis of protein-protein interaction networks is an increasingly popular means to infer biologica...
The functional characterization of all genes and their gene products is the main challenge of the po...
AbstractA system-level understanding of any biological process requires a map of the relationships a...
Studying protein interaction networks of all proteins in an organ-ism (“interactomes”) remains one o...
Proteins control and mediate many of the biological activities of cells through interacting with pro...
Proteins are biomolecular structures that build the microscopic working machinery of any living syst...
The goal of interaction proteomics that studies the protein-protein interactions of all expressed pr...
This is an Open Access article distributed under the terms of the Creative Commons Attribution Non-C...
peer reviewedNetwork analysis is an essential component of systems biology approaches toward underst...
AbstractProtein–protein interactions mediate essentially all biological processes. Despite the quali...
Cellular functions are almost always the result of the coordinated action of several proteins, inter...
AbstractCellular functions are almost always the result of the coordinated action of several protein...
The functional characterization of all genes and their gene products is the main challenge of the po...
The functional characterization of all genes and their gene products is the main challenge of the po...
Proteins very rarely act in isolation. Biomolecular interactions are central to all biological funct...
Analysis of protein-protein interaction networks is an increasingly popular means to infer biologica...
The functional characterization of all genes and their gene products is the main challenge of the po...
AbstractA system-level understanding of any biological process requires a map of the relationships a...
Studying protein interaction networks of all proteins in an organ-ism (“interactomes”) remains one o...
Proteins control and mediate many of the biological activities of cells through interacting with pro...
Proteins are biomolecular structures that build the microscopic working machinery of any living syst...
The goal of interaction proteomics that studies the protein-protein interactions of all expressed pr...
This is an Open Access article distributed under the terms of the Creative Commons Attribution Non-C...
peer reviewedNetwork analysis is an essential component of systems biology approaches toward underst...
AbstractProtein–protein interactions mediate essentially all biological processes. Despite the quali...