Abstract Functional module identification in biological networks may provide new insights into the complex interactions among biomolecules for a better understanding of cellular functional organization. Most of existing functional module identification methods are based on the optimization of network modularity and cluster networks into groups of nodes within which there are a higher-than-expectation number of edges. However, module identification simply based on this topological criterion may not discover certain kinds of biologically meaningful modules within which nodes are sparsely connected but have similar interaction patterns with the rest of the network. In order to unearth more biologically meaningful functional modules, we propose...
Motivation: Modern systems biology aims at understanding how the different molecular components of a...
Abstract — Many biological systems can be modeled as networks. Hence, network analysis is of increas...
Computational prediction of functionally related groups of genes (functional modules) from large-sca...
Background: Module detection algorithms relying on modularity maximization suffer from an inherent r...
Recent studies have suggested that molecular interaction networks within cells could be decomposed i...
Abstract Background The sparse connectivity of protein-protein interaction data sets makes identific...
Motivation: With the exponential growth of expression and protein-protein interaction (PPI) data, th...
Abstract Background Most computational algorithms mainly focus on detecting highly connected subgrap...
Graph clustering algorithms are widely used in the analysis of biological networks. Extracting funct...
Protein Function Module (PFM) identification in Protein-Protein Interaction Networks (PPINs) is one ...
Mapping the complete set of protein and gene interactions in the human cell has been a goal of the b...
Modern systems biology aims at understanding how the different molecular components of a biological ...
The increasing availability of biological networks (proteinprotein interaction graphs, metabolic and...
Systems biology offers a holistic perspective where individual proteins are viewed as elements in a ...
<div><p>Graph clustering algorithms are widely used in the analysis of biological networks. Extracti...
Motivation: Modern systems biology aims at understanding how the different molecular components of a...
Abstract — Many biological systems can be modeled as networks. Hence, network analysis is of increas...
Computational prediction of functionally related groups of genes (functional modules) from large-sca...
Background: Module detection algorithms relying on modularity maximization suffer from an inherent r...
Recent studies have suggested that molecular interaction networks within cells could be decomposed i...
Abstract Background The sparse connectivity of protein-protein interaction data sets makes identific...
Motivation: With the exponential growth of expression and protein-protein interaction (PPI) data, th...
Abstract Background Most computational algorithms mainly focus on detecting highly connected subgrap...
Graph clustering algorithms are widely used in the analysis of biological networks. Extracting funct...
Protein Function Module (PFM) identification in Protein-Protein Interaction Networks (PPINs) is one ...
Mapping the complete set of protein and gene interactions in the human cell has been a goal of the b...
Modern systems biology aims at understanding how the different molecular components of a biological ...
The increasing availability of biological networks (proteinprotein interaction graphs, metabolic and...
Systems biology offers a holistic perspective where individual proteins are viewed as elements in a ...
<div><p>Graph clustering algorithms are widely used in the analysis of biological networks. Extracti...
Motivation: Modern systems biology aims at understanding how the different molecular components of a...
Abstract — Many biological systems can be modeled as networks. Hence, network analysis is of increas...
Computational prediction of functionally related groups of genes (functional modules) from large-sca...