Biological processes are often performed by a group of proteins rather than by individual proteins, and proteins in a same biological group form a densely connected subgraph in a protein-protein interaction network. Therefore, finding a densely connected subgraph provides useful information to predict the function or protein complex of uncharacterized proteins in the highly connected subgraph. We have developed an efficient algorithm and program for finding cliques and near-cliques in a protein-protein interaction network. Analysis of the interaction network of yeast proteins using the algorithm demonstrates that 59% of the near-cliques identified by our algorithm have at least one function shared by all the proteins within a near-clique, a...
Motivation: Modern systems biology aims at understanding how the different molecular components of a...
Protein interaction networks have become a tool to study biological processes, either for predicting...
Molecular networks in cells are organized into functional modules, where genes in the same module in...
The ample availability and importance of large-scale protein-protein interaction (PPI) data demand a...
With ever increasing amount of available data on protein-protein interaction (PPI) networks, underst...
The functional characterization of all genes and their gene products is the main challenge of the po...
Most cellular processes are believed to be carried out by groups of highly interacting proteins call...
The functional characterization of all genes and their gene products is the main challenge of the po...
Abstract Background Recent advances in proteomics tec...
Modern systems biology aims at understanding how the different molecular components of a biological ...
MOTIVATION: Modern systems biology aims at understanding how the different molecular components of a...
International audienceBackgroundDeveloping reliable and efficient strategies allowing to infer a fun...
Protein-protein interaction (PPI) networks, providing a comprehensive landscape of protein interacti...
Determining protein function is one of the most challenging problems of the post-genomic era. The av...
Many proteins work together with others in groups called complexes in order to achieve a specific fu...
Motivation: Modern systems biology aims at understanding how the different molecular components of a...
Protein interaction networks have become a tool to study biological processes, either for predicting...
Molecular networks in cells are organized into functional modules, where genes in the same module in...
The ample availability and importance of large-scale protein-protein interaction (PPI) data demand a...
With ever increasing amount of available data on protein-protein interaction (PPI) networks, underst...
The functional characterization of all genes and their gene products is the main challenge of the po...
Most cellular processes are believed to be carried out by groups of highly interacting proteins call...
The functional characterization of all genes and their gene products is the main challenge of the po...
Abstract Background Recent advances in proteomics tec...
Modern systems biology aims at understanding how the different molecular components of a biological ...
MOTIVATION: Modern systems biology aims at understanding how the different molecular components of a...
International audienceBackgroundDeveloping reliable and efficient strategies allowing to infer a fun...
Protein-protein interaction (PPI) networks, providing a comprehensive landscape of protein interacti...
Determining protein function is one of the most challenging problems of the post-genomic era. The av...
Many proteins work together with others in groups called complexes in order to achieve a specific fu...
Motivation: Modern systems biology aims at understanding how the different molecular components of a...
Protein interaction networks have become a tool to study biological processes, either for predicting...
Molecular networks in cells are organized into functional modules, where genes in the same module in...