International audienceIn recent years, codon substitution models based on the mutation–selection principle have been extended for the purpose of detecting signatures of adaptive evolution in protein-coding genes. However, the approaches used to date have either focused on detecting global signals of adaptive regimes—across the entire gene—or on contexts where experimentally derived, site-specific amino acid fitness profiles are available. Here, we present a Bayesian site-heterogeneous mutation–selection framework for site-specific detection of adaptive substitution regimes given a protein-coding DNA alignment. We offer implementations, briefly present simulation results, and apply the approach on a few real data sets. Our analyses suggest t...
Fitness landscapes map the relationship between genotypes and fitness. However, most fitness landsca...
Fitness landscapes map the relationship between genotypes and fitness. However, most fitness landsca...
International audienceIn evolutionary genomics, researchers have taken an interest in identifying su...
International audienceIn recent years, codon substitution models based on the mutation–selection pri...
Codon substitution models have traditionally attempted to uncover signatures of adaptation within pr...
International audienceModern methods to detecting adaptive evolution from interspecific protein-codi...
International audienceMotivation: In recent years, there has been an increasing interest in the pote...
Abstract Background Phylogenetic codon models are often used to characterize the selective regimes a...
Abstract Background Recovering the historical patterns of selection acting on a protein coding seque...
Identifying the footprints of selection in coding sequences can inform about the importance and func...
Abstract Background In recent years, increasing attention has been placed on the development of phyl...
Positive selection or adaptive evolution is thought to be responsible, at least some of the time, fo...
We develop an approximate maximum likelihood method to estimate flanking nucleotide context-dependen...
International audienceAdaptation in protein-coding sequences can be detected from multiple sequence ...
Abstract Background Sites of p...
Fitness landscapes map the relationship between genotypes and fitness. However, most fitness landsca...
Fitness landscapes map the relationship between genotypes and fitness. However, most fitness landsca...
International audienceIn evolutionary genomics, researchers have taken an interest in identifying su...
International audienceIn recent years, codon substitution models based on the mutation–selection pri...
Codon substitution models have traditionally attempted to uncover signatures of adaptation within pr...
International audienceModern methods to detecting adaptive evolution from interspecific protein-codi...
International audienceMotivation: In recent years, there has been an increasing interest in the pote...
Abstract Background Phylogenetic codon models are often used to characterize the selective regimes a...
Abstract Background Recovering the historical patterns of selection acting on a protein coding seque...
Identifying the footprints of selection in coding sequences can inform about the importance and func...
Abstract Background In recent years, increasing attention has been placed on the development of phyl...
Positive selection or adaptive evolution is thought to be responsible, at least some of the time, fo...
We develop an approximate maximum likelihood method to estimate flanking nucleotide context-dependen...
International audienceAdaptation in protein-coding sequences can be detected from multiple sequence ...
Abstract Background Sites of p...
Fitness landscapes map the relationship between genotypes and fitness. However, most fitness landsca...
Fitness landscapes map the relationship between genotypes and fitness. However, most fitness landsca...
International audienceIn evolutionary genomics, researchers have taken an interest in identifying su...