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A Long-Branch Attraction Artifact Reveals an Adaptive Radiation in Pseudomonas

2011; Oxford University Press; Volume: 28; Issue: 10 Linguagem: Inglês

10.1093/molbev/msr099

1537-1719

Josselin Bodilis, Sandrine Nsigue Meilo, Pierre Cornélis, Paul de Vos, Sylvie Barray,

Bacterial Genetics and Biotechnology

A significant proportion of protein-encoding gene phylogenies in bacteria is inconsistent with the species phylogeny. It was usually argued that such inconsistencies resulted from lateral transfers. Here, by further studying the phylogeny of the oprF gene encoding the major surface protein in the bacterial Pseudomonas genus, we found that the incongruent tree topology observed results from a long-branch attraction (LBA) artifact and not from lateral transfers. LBA in the oprF phylogeny could be explained by the faster evolution in a lineage adapted to the rhizosphere, highlighting an unexpected adaptive radiation. We argue that analysis of such artifacts in other inconsistent bacterial phylogenies could be a valuable tool in molecular ecology to highlight cryptic adaptive radiations in microorganisms.