4.6 Article

Accounting for Solvent Accessibility and Secondary Structure in Protein Phylogenetics Is Clearly Beneficial

Journal

SYSTEMATIC BIOLOGY
Volume 59, Issue 3, Pages 277-287

Publisher

OXFORD UNIV PRESS
DOI: 10.1093/sysbio/syq002

Keywords

Amino-acid substitutions; maximum likelihood; partition models; replacement rate matrices; structural annotation of proteins; topological impact

Funding

  1. ANR BioSys

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Amino acid substitution models are essential to most methods to infer phylogenies from protein data. These models represent the ways in which proteins evolve and substitutions accumulate along the course of time. It is widely accepted that the substitution processes vary depending on the structural configuration of the protein residues. However, this information is very rarely used in phylogenetic studies, though the 3-dimensional structure of dozens of thousands of proteins has been elucidated. Here, we reinvestigate the question in order to fill this gap. We use an improved estimation methodology and a very large database comprising 1471 nonredundant globular protein alignments with structural annotations to estimate new amino acid substitution models accounting for the secondary structure and solvent accessibility of the residues. These models incorporate a confidence coefficient that is estimated from the data and reflects the reliability and usefulness of structural annotations in the analyzed sequences. Our results with 300 independent test alignments show an impressive likelihood gain compared with standard models such as JTT or WAG. Moreover, the use of these models induces significant topological changes in the inferred trees, which should be of primary interest to phylogeneticists. Our data, models, and software are available for download from http://atgc.lirmm.fr/phyml-structure/.

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