Generalizing rate heterogeneity across sites in statistical phylogenetics

Author:

Heaps Sarah E1,Nye Tom MW1,Boys Richard J1,Williams Tom A2,Cherlin Svetlana3,Embley T Martin4

Affiliation:

1. School of Mathematics, Statistics and Physics, Newcastle University, Newcastle upon Tyne, UK.

2. School of Biological Sciences, University of Bristol, Bristol, UK.

3. Institute of Genetic Medicine, Newcastle University, Newcastle upon Tyne, UK.

4. Institute for Cell and Molecular Biosciences, Newcastle University, Newcastle upon Tyne, UK.

Abstract

Phylogenetics uses alignments of molecular sequence data to learn about evolutionary trees relating species. Along branches, sequence evolution is modelled using a continuous-time Markov process characterized by an instantaneous rate matrix. Early models assumed the same rate matrix governed substitutions at all sites of the alignment, ignoring variation in evolutionary pressures. Substantial improvements in phylogenetic inference and model fit were achieved by augmenting these models with multiplicative random effects that describe the result of variation in selective constraints and allow sites to evolve at different rates which linearly scale a baseline rate matrix. Motivated by this pioneering work, we consider an extension using a quadratic, rather than linear, transformation. The resulting models allow for variation in the selective coefficients of different types of point mutation at a site in addition to variation in selective constraints. We derive properties of the extended models. For certain non-stationary processes, the extension gives a model that allows variation in sequence composition, both across sites and taxa. We adopt a Bayesian approach, describe an MCMC algorithm for posterior inference and provide software. Our quadratic models are applied to alignments spanning the tree of life and compared with site-homogeneous and linear models.

Publisher

SAGE Publications

Subject

Statistics, Probability and Uncertainty,Statistics and Probability

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