A Model of Horizontal Gene Transfer and the Bacterial Phylogeny Problem

doi:10.1080/10635150701546231

Systematic Biology 2007 56(4):633-642; doi:10.1080/10635150701546231

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A Model of Horizontal Gene Transfer and the Bacterial Phylogeny Problem

Nicolas Galtier

Institut des Sciences de l'Evolution (UM2–CNRS), Université Montpellier 2 Place E. Bataillon, CC64, 34095, Montpellier, France E-mail: galtier{at}univ-montp2.fr

Edited by Mike Steel: Associate Editor

Abstract

How much horizontal gene transfer (HGT) between species influencesbacterial phylogenomics is a controversial issue. This debate,however, lacks any quantitative assessment of the impact ofHGT on phylogenies and of the ability of tree-building methodsto cope with such events. I introduce a Markov model of genomeevolution with HGT, accounting for the constraints on time—anHGT event can only occur between concomitantly living species.This model is used to simulate multigene sequence data setswith or without HGT. The consequences of HGT on phylogenomicinference are analyzed and compared to other well-known phylogeneticartefacts. It is found that supertree methods are quite robustto HGT, keeping high levels of performance even when gene treesare largely incongruent with each other. Gene tree incongruenceper se is not indicative of HGT. HGT, however, removes the (otherwiseobserved) positive relationship between sequence length andgene tree congruence to the estimated species tree. Surprisingly,when applied to a bacterial and a eukaryotic multigene dataset, this criterion rejects the HGT hypothesis for the former,but not the latter data set.

Keywords: Bacteria; eucarya; horizontal gene transfer; Markov models; phylogenomics; tree congruence

Received October 11, 2006; Revised December 29, 2006; Accepted May 1, 2007
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