Bayesian Estimation of Concordance among Gene Trees

doi:10.1093/molbev/msl170

MBE Advance Access originally published online on November 9, 2006
Molecular Biology and Evolution 2007 24(2):412-426; doi:10.1093/molbev/msl170

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© The Author 2006. Published by Oxford University Press on behalf of the Society for Molecular Biology and Evolution. All rights reserved. For permissions, please e-mail: journals.permissions@oxfordjournals.org

Research Articles

Bayesian Estimation of Concordance among Gene Trees

Cécile Ané^*^,, Bret Larget^*^,, David A. Baum, Stacey D. Smith and Antonis Rokas

^* Department of Statistics, University of Wisonsin
Department of Botany, University of Wisonsin
Department of Biology, Duke University
Microbial Sequencing Center, The Broad Institute of MIT and Harvard

E-mail: ane{at}wisc.edu.

Accepted for publication November 3, 2006.

Multigene sequence data have great potential for elucidatingimportant and interesting evolutionary processes, but statisticalmethods for extracting information from such data remain limited.Although various biological processes may cause different genesto have different genealogical histories (and hence differenttree topologies), we also may expect that the number of distincttopologies among a set of genes is relatively small comparedwith the number of possible topologies. Therefore evidence aboutthe tree topology for one gene should influence our inferencesof the tree topology on a different gene, but to what extent?In this paper, we present a new approach for modeling and estimatingconcordance among a set of gene trees given aligned molecularsequence data. Our approach introduces a one-parameter probabilitydistribution to describe the prior distribution of concordanceamong gene trees. We describe a novel 2-stage Markov chain MonteCarlo (MCMC) method that first obtains independent Bayesianposterior probability distributions for individual genes usingstandard methods. These posterior distributions are then usedas input for a second MCMC procedure that estimates a posteriordistribution of gene-to-tree maps (GTMs). The posterior distributionof GTMs can then be summarized to provide revised posteriorprobability distributions for each gene (taking account of concordance)and to allow estimation of the proportion of the sampled genesfor which any given clade is true (the sample-wide concordancefactor). Further, under the assumption that the sampled genesare drawn randomly from a genome of known size, we show howone can obtain an estimate, with credibility intervals, on theproportion of the entire genome for which a clade is true (thegenome-wide concordance factor). We demonstrate the method ona set of 106 genes from 8 yeast species.

Key Words: gene genealogy • concordance • Bayesian phylogenetics • total evidence • consensus methods • Dirichlet process

Edward Holmes, Associate Editor

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