Biological networks obtained by high-throughput profiling or human curation are typically noisy. For functional module identification, single network clustering algorithms may not yield accurate and robust results. In order to borrow information across multiple sources to alleviate such problems due to data quality, we propose a new joint network clustering algorithm ASModel in this paper. We construct an integrated network to combine network topological information based on protein-protein interaction (PPI) datasets and homological information introduced by constituent similarity between proteins across networks. A novel random walk strategy on the integrated network is developed for joint network clustering and an optimization problem is ...
Protein-protein interaction networks have been broadly studied in the last few years, in order to un...
Abstract Background Recent advancements in experimental biotechnology have produced large amounts of...
Background: A goal of systems biology is to analyze large-scale molecular networks including gene ex...
Biological networks obtained by high-throughput profiling or human curation are typically noisy. For...
Motivation: Protein-protein interaction (PPI) networks are powerful models to represent the pairwise...
Several approaches have been presented in the literature to cluster Protein-Protein Interaction (PPI...
AbstractMotivation: Protein–protein interaction (PPI) networks are powerful models to represent the ...
Abstract Background The accurate identification of protein complexes is important for the understand...
BACKGROUND:Cluster-based descriptions of biological networks have received much attention in recent ...
The goal of network clustering algorithms detect dense clusters in a network, and provide a first st...
Biologists are constantly looking for new knowledge about biological properties and processes. Bio-m...
Most proteins perform their biological functions while interacting as complexes. The detection of pr...
Abstract Background Genome scale data on protein inte...
BACKGROUND: A goal of systems biology is to analyze large-scale molecular networks including gene ex...
Background: Recently, large data sets of protein-protein interactions (PPI) which can be modeled as ...
Protein-protein interaction networks have been broadly studied in the last few years, in order to un...
Abstract Background Recent advancements in experimental biotechnology have produced large amounts of...
Background: A goal of systems biology is to analyze large-scale molecular networks including gene ex...
Biological networks obtained by high-throughput profiling or human curation are typically noisy. For...
Motivation: Protein-protein interaction (PPI) networks are powerful models to represent the pairwise...
Several approaches have been presented in the literature to cluster Protein-Protein Interaction (PPI...
AbstractMotivation: Protein–protein interaction (PPI) networks are powerful models to represent the ...
Abstract Background The accurate identification of protein complexes is important for the understand...
BACKGROUND:Cluster-based descriptions of biological networks have received much attention in recent ...
The goal of network clustering algorithms detect dense clusters in a network, and provide a first st...
Biologists are constantly looking for new knowledge about biological properties and processes. Bio-m...
Most proteins perform their biological functions while interacting as complexes. The detection of pr...
Abstract Background Genome scale data on protein inte...
BACKGROUND: A goal of systems biology is to analyze large-scale molecular networks including gene ex...
Background: Recently, large data sets of protein-protein interactions (PPI) which can be modeled as ...
Protein-protein interaction networks have been broadly studied in the last few years, in order to un...
Abstract Background Recent advancements in experimental biotechnology have produced large amounts of...
Background: A goal of systems biology is to analyze large-scale molecular networks including gene ex...