We propose a biologically motivated quantity, twinness, to evaluate local similarity between nodes in a network. The twinness of a pair of nodes is the number of connected, labeled subgraphs of size n in which the two nodes possess identical neighbours. The graph animal algorithm is used to estimate twinness for each pair of nodes (for subgraph sizes n=4 to n=12) in four different protein interaction networks (PINs). These include an Escherichia coli PIN and three Saccharomyces cerevisiae PINs -- each obtained using state-of-the-art high throughput methods. In almost all cases, the average twinness of node pairs is vastly higher than expected from a null model obtained by switching links. For all n, we observe a difference in the ratio of t...
The availability of large scale protein interaction networks for several species has motivated many ...
[[abstract]]We employed the random graph theory approach to analyze the protein-protein interacting ...
Motivation: Proteins are essential macromolecules of life and thus understanding their function is o...
The astonishing progress of molecular biology, engineering and computer science has resulted in matu...
Proteins, the main motors of the cell, are in charge of performing a diverse array of biological fun...
The successful determination of reliable protein interaction networks (PINs) in several species in t...
The yeast protein-protein interaction network has been shown to have distinct topological features s...
Biologists are constantly looking for new knowledge about biological properties and processes. Bio-m...
<div><p>The yeast protein-protein interaction network has been shown to have distinct topological fe...
BACKGROUND: Phylogenies capture the evolutionary ancestry linking extant species. Correlations and s...
Protein interaction networks (PINs) are mathematical representations of interactions between protein...
Recent developments in molecular biology have resulted in experimental data that entails the relatio...
[[abstract]]We employ the random graph theory approach to analyze the protein?protein interaction da...
<div><p>Protein interaction networks are a promising type of data for studying complex biological sy...
Abstract. With ever increasing amount of available data on protein-protein interaction (PPI) network...
The availability of large scale protein interaction networks for several species has motivated many ...
[[abstract]]We employed the random graph theory approach to analyze the protein-protein interacting ...
Motivation: Proteins are essential macromolecules of life and thus understanding their function is o...
The astonishing progress of molecular biology, engineering and computer science has resulted in matu...
Proteins, the main motors of the cell, are in charge of performing a diverse array of biological fun...
The successful determination of reliable protein interaction networks (PINs) in several species in t...
The yeast protein-protein interaction network has been shown to have distinct topological features s...
Biologists are constantly looking for new knowledge about biological properties and processes. Bio-m...
<div><p>The yeast protein-protein interaction network has been shown to have distinct topological fe...
BACKGROUND: Phylogenies capture the evolutionary ancestry linking extant species. Correlations and s...
Protein interaction networks (PINs) are mathematical representations of interactions between protein...
Recent developments in molecular biology have resulted in experimental data that entails the relatio...
[[abstract]]We employ the random graph theory approach to analyze the protein?protein interaction da...
<div><p>Protein interaction networks are a promising type of data for studying complex biological sy...
Abstract. With ever increasing amount of available data on protein-protein interaction (PPI) network...
The availability of large scale protein interaction networks for several species has motivated many ...
[[abstract]]We employed the random graph theory approach to analyze the protein-protein interacting ...
Motivation: Proteins are essential macromolecules of life and thus understanding their function is o...