Despite intense work, incorporating constraints on protein native structures into the mathematical models of molecular evolution remains difficult, because most models and programs assume that protein sites evolve independently, whereas protein stability is maintained by interactions between sites. Here, we address this problem by developing a new mean-field substitution model that generates independent site-specific amino acid distributions with constraints on the sta-bility of the native state against both unfolding and misfolding. The model depends on a background distribution of amino acids and one selection parameter that we fix maximizing the likelihood of the observed protein sequence. The analytic solution of the model shows that th...
Motivation: Maximum likelihood-based methods to estimate site by site substitution rate variability ...
Substitutions between chemically distant amino acids are known to occur less frequently than those b...
In protein evolution, due to functional and biophysical constraints, the rates of amino acid substit...
Despite intense work, incorporating constraints on protein native structures into the mathematical m...
The current knowledge about how protein structures influence sequence evolution is rarely incorporat...
The selection among substitution models of molecular evolution constitutes an essential step in phyl...
Abstract Background Since thermodynamic stability is a global property of proteins that has to be co...
BACKGROUND: Since thermodynamic stability is a global property of proteins that has to be conserved ...
Abstract Background Widely used substitution models for proteins, such as the Jones-Taylor-Thornton ...
The number of amino acids that occupy a given protein site during evolution reflects the selective c...
Proteins play a vital role in almost every process of life, and this diversity has been achieved by ...
Substitution models of evolution are required for diverse evolutionary analyses including phylogenet...
Motivation: Models of molecular evolution aim at describing the evolutionary processes at the molecu...
The computational reconstruction of ancestral proteins provides information on past biological event...
Abstract.—Amino acid substitution models are essential to most methods to infer phylogenies from pro...
Motivation: Maximum likelihood-based methods to estimate site by site substitution rate variability ...
Substitutions between chemically distant amino acids are known to occur less frequently than those b...
In protein evolution, due to functional and biophysical constraints, the rates of amino acid substit...
Despite intense work, incorporating constraints on protein native structures into the mathematical m...
The current knowledge about how protein structures influence sequence evolution is rarely incorporat...
The selection among substitution models of molecular evolution constitutes an essential step in phyl...
Abstract Background Since thermodynamic stability is a global property of proteins that has to be co...
BACKGROUND: Since thermodynamic stability is a global property of proteins that has to be conserved ...
Abstract Background Widely used substitution models for proteins, such as the Jones-Taylor-Thornton ...
The number of amino acids that occupy a given protein site during evolution reflects the selective c...
Proteins play a vital role in almost every process of life, and this diversity has been achieved by ...
Substitution models of evolution are required for diverse evolutionary analyses including phylogenet...
Motivation: Models of molecular evolution aim at describing the evolutionary processes at the molecu...
The computational reconstruction of ancestral proteins provides information on past biological event...
Abstract.—Amino acid substitution models are essential to most methods to infer phylogenies from pro...
Motivation: Maximum likelihood-based methods to estimate site by site substitution rate variability ...
Substitutions between chemically distant amino acids are known to occur less frequently than those b...
In protein evolution, due to functional and biophysical constraints, the rates of amino acid substit...