Molecular Evolution and Phylogenetic Utility of Wolbachia ftsZ and wsp Gene Sequences with Special Reference to the Origin of Male-Killing

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Molecular Biology and Evolution 17:584-600 (2000)
© 2000 Society for Molecular Biology and Evolution

Regular Articles

Molecular Evolution and Phylogenetic Utility of Wolbachia ftsZ and wsp Gene Sequences with Special Reference to the Origin of Male-Killing

J. Hinrich G. v. d. Schulenburg¹^,^,*, Gregory D. D. Hurst, Ties M. E. Huigens, Marnix M. M. van Meer ${ddagger}$ , Francis M. Jiggins^* and Michael E. N. Majerus^*

*Department of Genetics, University of Cambridge, Cambridge, England; and
${dagger}$ Department of Biology, University College London, London, England; and
${ddagger}$ Department of Plant Science, Laboratory of Entomology, Wageningen Agricultural University, Wageningen, the Netherlands

Abstract

A detailed assessment of the evolution and phylogenetic utilityof two genes, ftsZ and wsp, was used to investigate the originof male-killing Wolbachia, previously isolated from the ladybirdAdalia bipunctata and the butterfly Acraea encedon. The analysisincluded almost all available sequences of B-group Wolbachiaand two outgroup taxa and showed that (1) the two gene regionsdiffer in phylogenetic utility, (2) sequence variation is herecorrelated with phylogenetic information content, (3) both genesshow significant rate heterogeneity between lineages, (4) increasedsubstitution rates are associated with homoplasy in the data,(5) wsp sequences of some taxa appear to be subject to positiveselection, and (6) only a limited number of clades can be inferredwith confidence due to either lack of phylogenetic informationor the presence of homoplasy. With respect to the evolutionof male-killing, the two genes nevertheless seemed to provideunbiased information. However, they consistently produce contradictoryresults. Current data therefore do not permit clarificationof the origin of this behavior. In addition, A. bipunctata wasfound to be a host to two recently diverged strains of male-killingWolbachia that showed increased substitution rates for bothgenes. Moreover, the wsp gene, which codes for an outer membraneprotein, was found to be subject to positive selection in thesetaxa. These findings were postulated to be the product of highselection pressures due to antagonistic host-symbiont interactionsin this ladybird species. In conclusion, our study demonstratesthat the results of a detailed phylogenetic analysis, includingcharacterization of the limitations of such an approach, canserve as a valuable basis for an understanding of the evolutionof Wolbachia bacteria. Moreover, particular features of geneevolution, such as elevated substitution rates or the presenceof positive selection, may provide information about the dynamicsof Wolbachia-host associations.

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