Abstract Background In addition to component-based comparative approaches, network alignments provide the means to study conserved network topology such as common pathways and more complex network motifs. Yet, unlike in classical sequence alignment, the comparison of networks becomes computationally more challenging, as most meaningful assumptions instantly lead to NP-hard problems. Most previous algorithmic work on network alignments is heuristic in nature. Results We introduce the graph-based maximum structural matching formulation for pairwise global network alignment. We relate the formulation to previous work and prove NP-hardness of the problem. Based on the new formulation we build upon recent results in computational structural biol...
Motivation: The global alignment of protein interaction networks is a widely studied problem. It is ...
International audience—Due to the rapid progress of biological networks for modeling biological syst...
Motivation: As biological inquiry produces ever more network data, such as protein-protein interacti...
Data on molecular interactions is increasing at a tremendous pace, while the development of solid me...
Abstract. Data on molecular interactions is increasing at a tremendous pace, while the development o...
In this paper we present a novel geometric method for the problem of global pairwise alignment of pr...
Important biological information is encoded in the topology of biological networks. Comparative anal...
An efficient and reliable network alignment serves to find the mapping with maximum similarity betwe...
In this article we discuss the problem of graph alignment, which has been longly referred to for the...
Abstract. We describe an algorithm, IsoRank, for global alignment of two protein-protein interaction...
Motivation: The global alignment of protein interaction networks is a widely studied problem. It is ...
Preprint versionInternational audienceMOTIVATION: Aligning protein-protein interaction (PPI) network...
Given multiple PPI networks from different species, the global PPI network alignment problem is that...
Abstract Background Aligning protein-protein interaction (PPI) networks is very important to discove...
Background: With increased experimental availability and accuracy of bio-molecular networks, tools f...
Motivation: The global alignment of protein interaction networks is a widely studied problem. It is ...
International audience—Due to the rapid progress of biological networks for modeling biological syst...
Motivation: As biological inquiry produces ever more network data, such as protein-protein interacti...
Data on molecular interactions is increasing at a tremendous pace, while the development of solid me...
Abstract. Data on molecular interactions is increasing at a tremendous pace, while the development o...
In this paper we present a novel geometric method for the problem of global pairwise alignment of pr...
Important biological information is encoded in the topology of biological networks. Comparative anal...
An efficient and reliable network alignment serves to find the mapping with maximum similarity betwe...
In this article we discuss the problem of graph alignment, which has been longly referred to for the...
Abstract. We describe an algorithm, IsoRank, for global alignment of two protein-protein interaction...
Motivation: The global alignment of protein interaction networks is a widely studied problem. It is ...
Preprint versionInternational audienceMOTIVATION: Aligning protein-protein interaction (PPI) network...
Given multiple PPI networks from different species, the global PPI network alignment problem is that...
Abstract Background Aligning protein-protein interaction (PPI) networks is very important to discove...
Background: With increased experimental availability and accuracy of bio-molecular networks, tools f...
Motivation: The global alignment of protein interaction networks is a widely studied problem. It is ...
International audience—Due to the rapid progress of biological networks for modeling biological syst...
Motivation: As biological inquiry produces ever more network data, such as protein-protein interacti...