Efficient gene tree correction guided by genome evolution
Résumé
Gene trees inferred solely from multiple alignments of homologous sequences often contain weakly supported
and uncertain branches. Information for their full resolution may lie in the dependency between gene families
and their genomic context. Integrative methods, using species tree information in addition to sequence
information, have therefore been developed. They often rely on a computationally intensive tree space search
which forecloses an application to large genomic databases. We propose a new method, called ProfileNJ, that
takes a gene tree with statistical supports on its branches, and corrects its weakly supported parts by using a
combination of information from a species tree and a distance matrix. Its low running time enabled us to use
it on the whole Ensembl Compara database, for which we propose an alternative, arguably more plausible set
of gene trees. This allowed us to perform a genome-wide analysis of duplication and loss patterns on the
history of 63 eukaryote species, and predict ancestral gene content and order for all ancestors along the
phylogeny.
Domaines
Bio-informatique [q-bio.QM]Origine | Fichiers produits par l'(les) auteur(s) |
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