%0 Journal Article %1 saunders2007insights %A Saunders, C T %A Green, P %D 2007 %J Mol Biol Evol %K Markov_chain Markov_random_field context-dependent-mutation phylogenetics %N 12 %P 2632-2647 %R 10.1093/molbev/msm190 %T Insights from modeling protein evolution with context-dependent mutation and asymmetric amino acid selection %U http://www.ncbi.nlm.nih.gov/pubmed/17906001 %V 24 %X We develop an approximate maximum likelihood method to estimate flanking nucleotide context-dependent mutation rates and amino acid exchange-dependent selection in orthologous protein-coding sequences and use it to analyze genome-wide coding sequence alignments from mammals and yeast. Allowing context-dependent mutation provides a better fit to coding sequence data than simpler (context-independent or CpG "hotspot") models and significantly affects selection parameter estimates. Allowing asymmetric (nonreciprocal) selection on amino acid exchanges gives a better fit than simple dN/dS or symmetric selection models. Relative selection strength estimates from our models show good agreement with independent estimates derived from human disease-causing and engineered mutations. Selection strengths depend on local protein structure, showing expected biophysical trends in helical versus nonhelical regions and increased asymmetry on polar-hydrophobic exchanges with increased burial. The more stringent selection that has previously been observed for highly expressed proteins is primarily concentrated in buried regions, supporting the notion that such proteins are under stronger than average selection for stability. Our analyses indicate that a highly parameterized model of mutation and selection is computationally tractable and is a useful tool for exploring a variety of biological questions concerning protein and coding sequence evolution.

@article{saunders2007insights, abstract = {We develop an approximate maximum likelihood method to estimate flanking nucleotide context-dependent mutation rates and amino acid exchange-dependent selection in orthologous protein-coding sequences and use it to analyze genome-wide coding sequence alignments from mammals and yeast. Allowing context-dependent mutation provides a better fit to coding sequence data than simpler (context-independent or CpG "hotspot") models and significantly affects selection parameter estimates. Allowing asymmetric (nonreciprocal) selection on amino acid exchanges gives a better fit than simple dN/dS or symmetric selection models. Relative selection strength estimates from our models show good agreement with independent estimates derived from human disease-causing and engineered mutations. Selection strengths depend on local protein structure, showing expected biophysical trends in helical versus nonhelical regions and increased asymmetry on polar-hydrophobic exchanges with increased burial. The more stringent selection that has previously been observed for highly expressed proteins is primarily concentrated in buried regions, supporting the notion that such proteins are under stronger than average selection for stability. Our analyses indicate that a highly parameterized model of mutation and selection is computationally tractable and is a useful tool for exploring a variety of biological questions concerning protein and coding sequence evolution.}, added-at = {2013-05-11T05:51:20.000+0200}, author = {Saunders, C T and Green, P}, biburl = {https://www.bibsonomy.org/bibtex/21fd2cbccea89ae89768c385a3eafb846/peter.ralph}, doi = {10.1093/molbev/msm190}, interhash = {17051559b59466a6f9a40f9d79ec0d95}, intrahash = {1fd2cbccea89ae89768c385a3eafb846}, journal = {Mol Biol Evol}, keywords = {Markov_chain Markov_random_field context-dependent-mutation phylogenetics}, month = dec, number = 12, pages = {2632-2647}, pmid = {17906001}, timestamp = {2015-01-19T20:17:51.000+0100}, title = {Insights from modeling protein evolution with context-dependent mutation and asymmetric amino acid selection}, url = {http://www.ncbi.nlm.nih.gov/pubmed/17906001}, volume = 24, year = 2007 }