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The hitchhiker's guide to Europe: the infection dynamics of an ongoing Wolbachia invasion and mitochondrial selective sweep in Rhagoletis cerasi
Author(s) -
Schuler Hannes,
Köppler Kirsten,
DaxböckHorvath Sabine,
Rasool Bilal,
Krumböck Susanne,
Schwarz Dietmar,
Hoffmeister Thomas S.,
SchlickSteiner Birgit C.,
Steiner Florian M.,
Telschow Arndt,
Stauffer Christian,
Arthofer Wolfgang,
Riegler Markus
Publication year - 2016
Publication title -
molecular ecology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.619
H-Index - 225
eISSN - 1365-294X
pISSN - 0962-1083
DOI - 10.1111/mec.13571
Subject(s) - biology , wolbachia , cytoplasmic incompatibility , haplotype , horizontal transmission , host (biology) , mitochondrial dna , transmission (telecommunications) , genetics , zoology , evolutionary biology , ecology , genotype , gene , virus , engineering , electrical engineering
Wolbachia is a maternally inherited and ubiquitous endosymbiont of insects. It can hijack host reproduction by manipulations such as cytoplasmic incompatibility ( CI ) to enhance vertical transmission. Horizontal transmission of Wolbachia can also result in the colonization of new mitochondrial lineages. In this study, we present a 15‐year‐long survey of Wolbachia in the cherry fruit fly Rhagoletis cerasi across Europe and the spatiotemporal distribution of two prevalent strains, w Cer1 and w Cer2, and associated mitochondrial haplotypes in Germany. Across most of Europe, populations consisted of either 100% singly ( w Cer1) infected individuals with haplotype HT 1, or 100% doubly ( w Cer1&2) infected individuals with haplotype HT 2, differentiated only by a single nucleotide polymorphism. In central Germany, singly infected populations were surrounded by transitional populations, consisting of both singly and doubly infected individuals, sandwiched between populations fixed for w Cer1&2. Populations with fixed infection status showed perfect association of infection and mitochondria, suggesting a recent CI ‐driven selective sweep of w Cer2 linked with HT 2. Spatial analysis revealed a range expansion for w Cer2 and a large transition zone in which w Cer2 splashes appeared to coalesce into doubly infected populations. Unexpectedly, the transition zone contained a large proportion (22%) of w Cer1&2 individuals with HT 1, suggesting frequent intraspecific horizontal transmission. However, this horizontal transmission did not break the strict association between infection types and haplotypes in populations outside the transition zone, suggesting that this horizontally acquired Wolbachia infection may be transient. Our study provides new insights into the rarely studied Wolbachia invasion dynamics in field populations.

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