Shared Nucleotide Composition Biases Among Species and Their Impact on Phylogenetic Reconstructions of the Drosophilidae

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Molecular Biology and Evolution 18:1464-1473 (2001)
© 2001 Society for Molecular Biology and Evolution

Shared Nucleotide Composition Biases Among Species and Their Impact on Phylogenetic Reconstructions of the Drosophilidae

Rosa Tarrío, Francisco Rodríguez-Trelles and Francisco J. Ayala

Department of Ecology and Evolutionary Biology, University of California at Irvine
Misión Biológica de Galicia (CSIC), Pontevedra, Spain
Instituto de Investigaciones Agrobiológicas de Galicia (CSIC), Santiago de Compostela, Spain

Compositional changes are a major feature of genome evolution.Overlooking nucleotide composition differences among sequencescan seriously mislead phylogenetic reconstructions. Large compositionalvariation exists among the members of the family Drosophilidae.Until now, however, base composition differences have been largelyneglected in the formulations of the nucleotide substitutionprocess used to reconstruct the phylogeny of this importantgroup of species. The present study adopts a maximum-likelihoodframework of phylogenetic inference in order to analyze fivenuclear gene regions and shows that (1) the pattern of compositionalvariation in the Drosophilidae does not match the phylogenyof the species; (2) accounting for the heterogeneous GC contentwith Galtier and Gouy's nucleotide substitution model leadsto a tree that differs in significant aspects from the treeinferred when the nucleotide composition differences are ignored,even though both phylogenetic hypotheses attain strong nodalsupport in the bootstrap analyses; and (3) the LogDet distancecorrection cannot completely overcome the distorting effectsof the compositional variation that exists among the speciesof the Drosophilidae. Our analyses confidently place the Chymomyzagenus as an outgroup closer than the genus Scaptodrosophilato the Drosophila genus and conclusively support the monophylyof the Sophophora subgenus.

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