The topology of undirected biological networks, such as protein-protein interaction networks, or genetic interaction networks, has been extensively explored in search of new biological knowledge. Graphlets, small connected non-isomorphic induced sub-graphs of an undirected network, have been particularly useful in computational network biology. Having in mind that a significant portion of biological networks, such as metabolic networks or transcriptional regulatory networks, are directed by nature, we define all up to four node directed graphlets and orbits and implement the directed graphlet and graphlet orbits counting algorithm. We generalise all existing graphlet based measures to the directed case, defining: relative directed graphle...
Large amounts of biological network data exist for many species. Analogous to sequence comparison, n...
Current understanding of how diseases are associated with each other is mainly based on the similari...
Molecular interactions are often represented as network models which have become the common language...
We are flooded with large-scale, dynamic, directed, networked data. Analyses requiring exact compari...
Background: Analysis of integrated genome-scale networks is a challenging problem due to heterogenei...
Over the past decade, the study of graphlets has emerged as a useful tool in the study of networks. ...
Abstract—The recent explosion in biological and other real-world network data has created the need f...
Theory of complex networks provides an intuitive setting for studying biological relationships at th...
Important biological information is encoded in the topology of biological networks. Comparative anal...
Motivation Laplacian matrices capture the global structure of networks and are widely used to stu...
In this paper, we present a survey of the use of graph theoretical techniques in Biology. In particu...
Motivation: Proteins are essential macromolecules of life and thus understanding their function is o...
MOTIVATION: Biological network comparison software largely relies on the concept of alignment where ...
Motivation: The network architecture of physical protein interactions is an important determinant fo...
While current protein interaction data provides a rich resource for molecular biology, it mostly lac...
Large amounts of biological network data exist for many species. Analogous to sequence comparison, n...
Current understanding of how diseases are associated with each other is mainly based on the similari...
Molecular interactions are often represented as network models which have become the common language...
We are flooded with large-scale, dynamic, directed, networked data. Analyses requiring exact compari...
Background: Analysis of integrated genome-scale networks is a challenging problem due to heterogenei...
Over the past decade, the study of graphlets has emerged as a useful tool in the study of networks. ...
Abstract—The recent explosion in biological and other real-world network data has created the need f...
Theory of complex networks provides an intuitive setting for studying biological relationships at th...
Important biological information is encoded in the topology of biological networks. Comparative anal...
Motivation Laplacian matrices capture the global structure of networks and are widely used to stu...
In this paper, we present a survey of the use of graph theoretical techniques in Biology. In particu...
Motivation: Proteins are essential macromolecules of life and thus understanding their function is o...
MOTIVATION: Biological network comparison software largely relies on the concept of alignment where ...
Motivation: The network architecture of physical protein interactions is an important determinant fo...
While current protein interaction data provides a rich resource for molecular biology, it mostly lac...
Large amounts of biological network data exist for many species. Analogous to sequence comparison, n...
Current understanding of how diseases are associated with each other is mainly based on the similari...
Molecular interactions are often represented as network models which have become the common language...