Phylogenomics of the reproductive parasite Wolbachia pipientis wMel: a streamlined genome overrun by mobile genetic elements.

Abstract

The complete sequence of the 1,267,782 bp genome of Wolbachia pipientis wMel, an obligate intracellular bacteria of Drosophila melanogaster, has been determined. Wolbachia, which are found in a variety of invertebrate species, are of great interest due to their diverse interactions with different hosts, which range from many forms of reproductive parasitism to mutualistic symbioses. Analysis of the wMel genome, in particular phylogenomic comparisons with other intracellular bacteria, has revealed many insights into the biology and evolution of wMel and Wolbachia in general. For example, the wMel genome is unique among sequenced obligate intracellular species in both being highly streamlined and containing very high levels of repetitive DNA and mobile DNA elements. This observation, coupled with multiple evolutionary reconstructions, suggests that natural selection is somewhat inefficient in wMel, most likely owing to the occurrence of repeated population bottlenecks. Genome analysis predicts many metabolic differences with the closely related Rickettsia species, including the presence of intact glycolysis and purine synthesis, which may compensate for an inability to obtain ATP directly from its host, as Rickettsia can. Other discoveries include the apparent inability of wMel to synthesize lipopolysaccharide and the presence of the most genes encoding proteins with ankyrin repeat domains of any prokaryotic genome yet sequenced. Despite the ability of wMel to infect the germline of its host, we find no evidence for either recent lateral gene transfer between wMel and D. melanogaster or older transfers between Wolbachia and any host. Evolutionary analysis further supports the hypothesis that mitochondria share a common ancestor with the alpha-Proteobacteria, but shows little support for the grouping of mitochondria with species in the order Rickettsiales. With the availability of the complete genomes of both species and excellent genetic tools for the host, the wMel-D. melanogaster symbiosis is now an ideal system for studying the biology and evolution of Wolbachia infections.

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July 1, 2010
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Postgenomic

by Merry and ElioOrganelles were endosymbionts that either made good or were enslaved, depending on your point of view. Either way, some of their genes now reside in the nuclear genome of their eukaryote host. We also know that there are some bacterial endosymbionts

http://schaechter.asmblog.org/schaechter/2008/11/jumping-genes-wolbachia...

Phylogenomics of the reproductive parasite Wolbachia pipientis wMel: a streamlined genome overrun by mobile genetic elements. Wu M (2004) PLoS Biol.
Horizontal gene transfer in eukaryotic evolution. Keeling PJ (2008) Nat Rev Genet.
Genome fragment of Wolbachia endosymbiont transferred to X chromosome of host insect. Kondo N (2002) Proc Natl Acad Sci U S A.
Widespread lateral gene transfer from intracellular bacteria to multicellular eukaryotes. Hotopp JC (2007) Science.
Phylogenetic relationships of the Wolbachia of nematodes and arthropods. Fenn K (2006) PLoS Pathog.

November 10, 2008
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Postgenomic

Just saw this very cool paper in PLoS Biology on Wolbachia that appear to have converted from parasites to mutualists. Wolbachia are among my favorite organisms. They are intracellular bacteria that have been found to infect a wide diversity of invertebrate

http://phylogenomics.blogspot.com/2007/04/from-bad-to-good-how-parasite-...

From parasite to mutualist: rapid evolution of Wolbachia in natural populations of Drosophila. Weeks AR (2007) PLoS Biol.
Phylogenomics of the reproductive parasite Wolbachia pipientis wMel: a streamlined genome overrun by mobile genetic elements. Wu M (2004) PLoS Biol.

April 19, 2007
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