We model the evolution of eukaryotic protein-protein interaction (PPI) networks. In our model, PPI networks evolve by two known biological mechanisms: (1) Gene duplication, which is followed by rapid diversification of duplicate interactions. (2) Neofunctionalization, in which a mutation leads to a new interaction with some other protein. Since many interactions are due to simple surface compatibility, we hypothesize there is an increased likelihood of interacting with other proteins in the target protein’s neighborhood. We find good agreement of the model on 10 different network properties compared to high-confidence experimental PPI networks in yeast, fruit flies, and humans. Key findings are: (1) PPI networks evolve modular structures, w...
Individual proteins, and small collections of proteins, have been extensively studied for at least t...
Abstract Background Protein-protein interaction (PPI)...
In this thesis we propose some new approaches to the study of complex networks, and apply them to mu...
<div><p>We model the evolution of eukaryotic protein-protein interaction (PPI) networks. In our mode...
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...
The protein-protein interaction (PPI) network offers a conceptual framework for better understanding...
Interest in the evolution of protein-protein and genetic interaction networks has been rising in rec...
<div><p>Interest in the evolution of protein-protein and genetic interaction networks has been risin...
Proteins interact in complex protein–protein interaction (PPI) networks whose topological properties...
Prediction of protein-protein interaction (PPI) remains a central task in systems biology. With more...
Liao, LiWu, Cathy H.With continuous efforts in identifying protein-protein interactions (PPIs) throu...
Progress in uncovering the protein interaction networks of several species has led to questions of w...
Thesis (Ph.D.)--Boston UniversityHow cellular elements coordinate their function is a fundamental qu...
Individual proteins, and small collections of proteins, have been extensively studied for at least t...
Abstract Background Protein-protein interaction (PPI)...
In this thesis we propose some new approaches to the study of complex networks, and apply them to mu...
<div><p>We model the evolution of eukaryotic protein-protein interaction (PPI) networks. In our mode...
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...
The protein-protein interaction (PPI) network offers a conceptual framework for better understanding...
Interest in the evolution of protein-protein and genetic interaction networks has been rising in rec...
<div><p>Interest in the evolution of protein-protein and genetic interaction networks has been risin...
Proteins interact in complex protein–protein interaction (PPI) networks whose topological properties...
Prediction of protein-protein interaction (PPI) remains a central task in systems biology. With more...
Liao, LiWu, Cathy H.With continuous efforts in identifying protein-protein interactions (PPIs) throu...
Progress in uncovering the protein interaction networks of several species has led to questions of w...
Thesis (Ph.D.)--Boston UniversityHow cellular elements coordinate their function is a fundamental qu...
Individual proteins, and small collections of proteins, have been extensively studied for at least t...
Abstract Background Protein-protein interaction (PPI)...
In this thesis we propose some new approaches to the study of complex networks, and apply them to mu...