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Computing Galled Networks from Real Data

Daniel Huson 1 Regula Rupp 1 Vincent Berry 2 Philippe Gambette 3, * Christophe Paul 3 
* Auteur correspondant
2 MAB - Méthodes et Algorithmes pour la Bioinformatique
LIRMM - Laboratoire d'Informatique de Robotique et de Microélectronique de Montpellier
3 ALGCO - Algorithmes, Graphes et Combinatoire
LIRMM - Laboratoire d'Informatique de Robotique et de Microélectronique de Montpellier
Abstract : Developing methods for computing phylogenetic networks from biological data is an important problem posed by molecular evolution and much work is currently being undertaken in this area. Although promising approaches exist, there are no tools available that biologists could easily and routinely use to compute rooted phylogenetic networks on real datasets containing tens or hundreds of taxa. Biologists are interested in clades, that is, groups of monophyletic taxa, and these are usually represented by clusters in a rooted phylogenetic tree. The problem of computing an optimal rooted phylogenetic network from a set of clusters, is hard, in general. Indeed, even the problem of just determining whether a given network contains a given cluster is hard. Hence, some researchers have focused on topologically restricted classes of networks, such as galled trees and level-k networks, that are more tractable, but have the practical draw-back that a given set of clusters will usually not possess such a representation. In this paper we argue that galled networks (a generalization of galled trees) provide a good trade-off between level of generality and tractability. Any set of clusters can be represented by some galled network and the question whether a cluster is contained in such a network is easy to solve. Although the computation of an optimal galled network involves solving instances of two different NPcomplete problems, in practice our algorithm solves this problem exactly on large datasets containing hundreds of taxa and many reticulations in seconds, as illustrated by a dataset containing 279 prokaryotes. We provide a fast, robust and easy-to-use implementation of this work in version 2.0 of our tree-handling software Dendroscope.
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Soumis le : samedi 20 juin 2009 - 15:23:08
Dernière modification le : mardi 6 septembre 2022 - 16:56:01
Archivage à long terme le : : mercredi 22 septembre 2010 - 12:45:54


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Daniel Huson, Regula Rupp, Vincent Berry, Philippe Gambette, Christophe Paul. Computing Galled Networks from Real Data. Bioinformatics, Oxford University Press (OUP), 2009, 25 (12), pp.i85-i93. ⟨10.1093/bioinformatics/btp217⟩. ⟨lirmm-00368545v2⟩



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