Proteins interact in complex protein–protein interaction (PPI) networks whose topological properties—such as scale-free topology, hierarchical modularity, and dissortativity—have suggested models of network evolution. Currently preferred models invoke preferential attachment or gene duplication and divergence to produce networks whose topology matches that observed for real PPIs, thus supporting these as likely models for network evolution. Here, we show that the interaction density and homodimeric frequency are highly protein age–dependent in real PPI networks in a manner which does not agree with these canonical models. In light of these results, we propose an alternative stochastic model, which adds each protein sequentially to a growing...
The next step in the understanding of the genome organization, after the determination of complete s...
Here we present an in-depth analysis of the protein age patterns found in the edge and triangle subg...
Abstract Background Protein-protein interaction (PPI)...
Proteins interact in complex protein–protein interaction (PPI) networks whose topological properties...
We model the evolution of eukaryotic protein-protein interaction (PPI) networks. In our model, PPI n...
We model the evolution of eukaryotic protein-protein interaction (PPI) networks. In our model, PPI n...
Cellular functions are based on the complex interplay of proteins, therefore the structure and dynam...
Proteins participating in a protein-protein interaction network can be grouped into homology classes...
Structural features found in biomolecular networks that are absent in random networks produced by si...
Interest in the evolution of protein-protein and genetic interaction networks has been rising in rec...
Protein interacts with one another resulting in complex functions in living organisms. Like many oth...
The topology of the proteome map revealed by recent large-scale hybridization methods has shown that...
Liao, LiWu, Cathy H.With continuous efforts in identifying protein-protein interactions (PPIs) throu...
What proteins interacted in a long-extinct ancestor of yeast? How have different members of a protei...
We model the evolution of eukaryotic protein-protein interaction (PPI) networks. In our model, PPI n...
The next step in the understanding of the genome organization, after the determination of complete s...
Here we present an in-depth analysis of the protein age patterns found in the edge and triangle subg...
Abstract Background Protein-protein interaction (PPI)...
Proteins interact in complex protein–protein interaction (PPI) networks whose topological properties...
We model the evolution of eukaryotic protein-protein interaction (PPI) networks. In our model, PPI n...
We model the evolution of eukaryotic protein-protein interaction (PPI) networks. In our model, PPI n...
Cellular functions are based on the complex interplay of proteins, therefore the structure and dynam...
Proteins participating in a protein-protein interaction network can be grouped into homology classes...
Structural features found in biomolecular networks that are absent in random networks produced by si...
Interest in the evolution of protein-protein and genetic interaction networks has been rising in rec...
Protein interacts with one another resulting in complex functions in living organisms. Like many oth...
The topology of the proteome map revealed by recent large-scale hybridization methods has shown that...
Liao, LiWu, Cathy H.With continuous efforts in identifying protein-protein interactions (PPIs) throu...
What proteins interacted in a long-extinct ancestor of yeast? How have different members of a protei...
We model the evolution of eukaryotic protein-protein interaction (PPI) networks. In our model, PPI n...
The next step in the understanding of the genome organization, after the determination of complete s...
Here we present an in-depth analysis of the protein age patterns found in the edge and triangle subg...
Abstract Background Protein-protein interaction (PPI)...