International audiencePhylogenetic codon models are routinely used to characterize selective regimes in coding sequences. Their parametric design, however, is still a matter of debate, in particular concerning the question of how to account for differing nucleotide frequencies and substitution rates. This problem relates to the fact that nucleotide composition in protein-coding sequences is the result of the interactions between mutation and selection. In particular, because of the structure of the genetic code, the nucleotide composition differs between the three coding positions, with the third position showing a more extreme composition. Yet, phylogenetic codon models do not correctly capture this phenomenon and instead predict that the ...
We develop an evolutionary model, inspired from Yang and Nielsen [1], that takes into account evo-lu...
The original publication is available at www.ploscompbiol.orgCodon models of evolution have facilita...
The genetic code is degenerate-most amino acids can be encoded by from two to as many as six differe...
International audiencePhylogenetic codon models are routinely used to characterize selective regimes...
Frequencies of synonymous codons are typically non-uniform, despite the fact that such codons corres...
Synonymous codon usage can be influenced by mutations and/or selection, e.g., for speed of protein t...
There are numerous sources of variation in the rate of synonymous substitutions inside genes, such a...
A mechanistic codon substitution model, in which each codon substitution rate is proportional to the...
A mechanistic codon substitution model, in which each codon substitution rate is proportional to the...
There are two main forces that affect usage of synonymous codons: directional mutational pressure an...
International audienceDetecting selection on codon usage (CU) is a difficult task, since CU can be s...
This paper discusses an improvement in a Stochastic Evolutionary Model of Protein Production Rate (S...
Abstract Background An excess of nonsynonymous substitutions, over neutrality, is considered evidenc...
International audienceModern methods to detecting adaptive evolution from interspecific protein-codi...
Background: An excess of nonsynonymous substitutions, over neutrality, is considered evidence of po...
We develop an evolutionary model, inspired from Yang and Nielsen [1], that takes into account evo-lu...
The original publication is available at www.ploscompbiol.orgCodon models of evolution have facilita...
The genetic code is degenerate-most amino acids can be encoded by from two to as many as six differe...
International audiencePhylogenetic codon models are routinely used to characterize selective regimes...
Frequencies of synonymous codons are typically non-uniform, despite the fact that such codons corres...
Synonymous codon usage can be influenced by mutations and/or selection, e.g., for speed of protein t...
There are numerous sources of variation in the rate of synonymous substitutions inside genes, such a...
A mechanistic codon substitution model, in which each codon substitution rate is proportional to the...
A mechanistic codon substitution model, in which each codon substitution rate is proportional to the...
There are two main forces that affect usage of synonymous codons: directional mutational pressure an...
International audienceDetecting selection on codon usage (CU) is a difficult task, since CU can be s...
This paper discusses an improvement in a Stochastic Evolutionary Model of Protein Production Rate (S...
Abstract Background An excess of nonsynonymous substitutions, over neutrality, is considered evidenc...
International audienceModern methods to detecting adaptive evolution from interspecific protein-codi...
Background: An excess of nonsynonymous substitutions, over neutrality, is considered evidence of po...
We develop an evolutionary model, inspired from Yang and Nielsen [1], that takes into account evo-lu...
The original publication is available at www.ploscompbiol.orgCodon models of evolution have facilita...
The genetic code is degenerate-most amino acids can be encoded by from two to as many as six differe...