Gene sequences can undergo accelerated nucleotide changes and rapid diversification. The rapid sequence changes can then potentially lead to phylogenetic incongruence. Recently, Bodilis et al. (2011) observed artificial phylogenetic incongruence using the Pseudomonas surface protein gene oprF, and hypothesized that it was the result of a long-branch attraction artifact ultimately caused by adaptive radiation. In this study, an alternative hypothesis, namely fine-scale recombination, was tested on the same dataset The results reveal that regions in oprF are of different evolutionary origins, and the mosaic gene structure resulted in confounding phylogenetic signals. These findings demonstrate that unrecognized fine-scale recombination can confound the phylogenetic interpretation and emphasize the limitation of using whole genes as the unit of phylogenetic analysis.

• 出版日期2013-4-15