Network motifs play an important role in the structural analysis of biological networks. Identification of such network motifs leads to many important applications such as understanding the modularity and the large-scale structure of biological networks, classification of networks into super-families, and protein function annotation. However, identification of large network motifs is a challenging task as it involves the graph isomorphism problem. Although this problem has been studied extensively in the literature using different computational approaches, still there is a lot of scope for improvement. Motivated by the challenges involved in this field, an efficient and scalable network motif finding algorithm using a dynamic expansion tree...
Background: One of the most important projects in the post-genome-era is the systemic identification...
Biological motifs are defined as overly recurring sub-patterns in biological systems. Sequence motif...
Finding motifs in biological, social, technological, and other types of networks has become a widesp...
Network motifs are statistically overrepresented sub-structures (sub-graphs) in a network, and have ...
Background: Molecular level of biological data can be constructed into system level of data as biolo...
The study of protein interactions from the networks point of view has yielded new insights into syst...
Background Complex networks are studied across many fields of science and are particularly important...
Biological motifs are defined as overly recurring sub-patterns in biological systems. Sequence motif...
Motifs have been recognized as basic network blocks and are found to be quite powerful in modeling c...
The rapid accumulation of biological network data is creating an urgent need for computational metho...
Network motif algorithms have been a topic of research mainly after the 2002-seminal paper from Milo...
Network motifs are overly represented as topological patterns that occur more often in a given netwo...
Network motif discovery is the problem of finding subgraphs of a network that occur more frequently ...
Abstract—Recent advances in high throughput experiments and annotations via published literature hav...
All networks, including biological networks, computer networks, social networks and more can be repr...
Background: One of the most important projects in the post-genome-era is the systemic identification...
Biological motifs are defined as overly recurring sub-patterns in biological systems. Sequence motif...
Finding motifs in biological, social, technological, and other types of networks has become a widesp...
Network motifs are statistically overrepresented sub-structures (sub-graphs) in a network, and have ...
Background: Molecular level of biological data can be constructed into system level of data as biolo...
The study of protein interactions from the networks point of view has yielded new insights into syst...
Background Complex networks are studied across many fields of science and are particularly important...
Biological motifs are defined as overly recurring sub-patterns in biological systems. Sequence motif...
Motifs have been recognized as basic network blocks and are found to be quite powerful in modeling c...
The rapid accumulation of biological network data is creating an urgent need for computational metho...
Network motif algorithms have been a topic of research mainly after the 2002-seminal paper from Milo...
Network motifs are overly represented as topological patterns that occur more often in a given netwo...
Network motif discovery is the problem of finding subgraphs of a network that occur more frequently ...
Abstract—Recent advances in high throughput experiments and annotations via published literature hav...
All networks, including biological networks, computer networks, social networks and more can be repr...
Background: One of the most important projects in the post-genome-era is the systemic identification...
Biological motifs are defined as overly recurring sub-patterns in biological systems. Sequence motif...
Finding motifs in biological, social, technological, and other types of networks has become a widesp...