Integration of Gene Ontology-based similarities for supporting analysis of protein–protein interaction networks

## Abstract Bead‐based interaction assays are excellently suited to study protein–protein interactions, as they require only minimal amounts of sample material. Miniaturized protein–protein interaction assays were designed to analyze Rho GTPase activation based on its interaction with Rho GDI or p2

Combined applications of affinity purification procedures and mass-spectrometric analyses (affinity mass spectrometry or affinity-directed mass spectrometry) have gained broad interest in various fields of biological sciences. We have extended these techniques to the purification and analysis of clo

## Abstract The integration of molecular networks with other types of data, such as changing levels of gene expression or protein‐structural features, can provide richer information about interactions than the simple node‐and‐edge representations commonly used in the network community. For example,

## Abstract The analysis of protein‐protein interactions is a key focus of proteomics efforts. The yeast two‐hybrid system (Y2H) has been the most commonly used method in genome‐wide searches for protein interaction partners. However, the throughput of the current yeast two‐hybrid array approach is