2011
DOI: 10.1534/genetics.111.128025
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The Relationship Between Relative Solvent Accessibility and Evolutionary Rate in Protein Evolution

Abstract: Recent work with Saccharomyces cerevisiae shows a linear relationship between the evolutionary rate of sites and the relative solvent accessibility (RSA) of the corresponding residues in the folded protein. Here, we aim to develop a mathematical model that can reproduce this linear relationship. We first demonstrate that two models that both seem reasonable choices (a simple model in which selection strength correlates with RSA and a more complex model based on RSA-dependent amino acid distributions) fail to r… Show more

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Cited by 128 publications
(154 citation statements)
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“…We ensured that each simulation reflected evolutionary heterogeneity seen in real proteins by deriving simulation parameterizations from two different empirical data sources. The first simulation data set derived codon fitness parameters from site-specific amino acid frequencies in structurally curated natural amino-acid alignments (Ramsey et al 2011). We obtained site-specific fitness parameters for the second simulation data set using Mutation-Selection Model Performance .…”
Section: Simulation and Inference Approachmentioning
confidence: 99%
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“…We ensured that each simulation reflected evolutionary heterogeneity seen in real proteins by deriving simulation parameterizations from two different empirical data sources. The first simulation data set derived codon fitness parameters from site-specific amino acid frequencies in structurally curated natural amino-acid alignments (Ramsey et al 2011). We obtained site-specific fitness parameters for the second simulation data set using Mutation-Selection Model Performance .…”
Section: Simulation and Inference Approachmentioning
confidence: 99%
“…First, we used a set of structurally curated natural amino-acid alignments, with each sequence homologous to a given PDB structure, compiled by Ramsey et al (2011). For each of those alignments that contained at least 150 taxa, we calculated each site's amino acid frequencies, which we converted to codon frequencies under the assumption that all synonymous codons for a given amino acid had the same frequency.…”
Section: Generation Of Simulated Datamentioning
confidence: 99%
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“…The yeast-proteins data set was taken from Ramsey et al (2011) and comprised 38 protein structures homologous to an open reading frame in Saccharomyces cerevisiae. For each of those structures, we had at least 50 homologous natural sequences, also taken from Ramsey et al (2011). The protein-domain data set was taken from Ollikainen and Kortemme (2013) and comprised 40 protein domains.…”
Section: Data Setsmentioning
confidence: 99%
“…In particular, hydrophobic residues tend to be more frequent in the core and polar residues tend to be more frequent on the surface. Further, sites in the core of a protein tend to be more conserved and to evolve slower than surface sites (Mirny and Shakhnovich, 1999;Goldman et al, 1998;Bustamante et al, 2000;Conant and Stadler, 2009;Franzosa and Xia, 2009;Ramsey et al, 2011;Scherrer et al, 2012;Meyer and Wilke, 2012). Presumably, sites in the core tend to be conserved because mutations at these sites are more likely to destablize the protein fold, due to steric clashes (Chothia and Finkelstein, 1990).…”
Section: Introductionmentioning
confidence: 99%