The analysis of extant sequences shows that molecular evolution has been heterogeneous through time and among lineages. However, for a given sequence alignment, it is often difficult to uncover what factors caused this heterogeneity. In fact, identi-fying and characterizing heterogeneous patterns of molecular evolution along a phylogenetic tree is very challenging, for lack of appropriate methods. Users either have to a priori define groups of branches along which they believe molecular evolution has been similar or have to allow each branch to have its own pattern of molecular evolution. The first approach assumes prior knowledge that is seldom available, and the second requires estimating an unreasonably large number of parameters. Here w...
Molecular sequence data that have evolved under the influence of heterotachous evolutionary processe...
Molecular phylogenetic studies of homologous sequences of nucleotides often assume that the underlyi...
Molecular evolutionary biology allows us to look into the past by analyzing sequences of amino acids...
International audienceThe analysis of extant sequences shows that molecular evolution has been heter...
Over the past two decades, comparative sequence analysis using codon-substitution models has been ho...
Most, if not all, of the sites in a sequence do not evolve according to the same pattern; this is be...
Evolution leaves heterogeneous patterns of nucleotide variation across the genome, with different lo...
Molecular phylogenetics is a powerful tool for inferring both the process and pattern of evolution f...
Molecular phylogenetic studies of homologous sequences of nucleotides often assume that the underlyi...
Abstract.—Molecular phylogenetics is a powerful tool for inferring both the process and pattern of e...
Abstract.—Molecular phylogenetics is a powerful tool for inferring both the process and pattern of e...
We describe a general likelihood-based 'mixture model' for inferring phylogenetic trees from gene-se...
We describe a general likelihood-based 'mixture model' for inferring phylogenetic trees from gene-se...
Molecular sequence data that have evolved under the influence of heterotachous evolutionary processe...
Molecular phylogenetic studies of homologous sequences of nucleotides often assume that the underlyi...
Molecular evolutionary biology allows us to look into the past by analyzing sequences of amino acids...
International audienceThe analysis of extant sequences shows that molecular evolution has been heter...
Over the past two decades, comparative sequence analysis using codon-substitution models has been ho...
Most, if not all, of the sites in a sequence do not evolve according to the same pattern; this is be...
Evolution leaves heterogeneous patterns of nucleotide variation across the genome, with different lo...
Molecular phylogenetics is a powerful tool for inferring both the process and pattern of evolution f...
Molecular phylogenetic studies of homologous sequences of nucleotides often assume that the underlyi...
Abstract.—Molecular phylogenetics is a powerful tool for inferring both the process and pattern of e...
Abstract.—Molecular phylogenetics is a powerful tool for inferring both the process and pattern of e...
We describe a general likelihood-based 'mixture model' for inferring phylogenetic trees from gene-se...
We describe a general likelihood-based 'mixture model' for inferring phylogenetic trees from gene-se...
Molecular sequence data that have evolved under the influence of heterotachous evolutionary processe...
Molecular phylogenetic studies of homologous sequences of nucleotides often assume that the underlyi...
Molecular evolutionary biology allows us to look into the past by analyzing sequences of amino acids...