Abstract
Wolbachia is a widespread, intracellular symbiont of arthropods, able to induce reproductive distortions and antiviral protection in insects. Wolbachia can also be pathogenic, as is the case with wMelPop, a virulent variant of the endosymbiont of Drosophila melanogaster. An extensive genomic amplification of the 20kb region encompassing eight Wolbachia genes, called Octomom, is responsible for wMelPop virulence. The Octomom copy number in wMelPop can be highly variable between individual D. melanogaster flies, even when comparing siblings arising from a single female. Moreover, Octomom copy number can change rapidly between generations. These data suggest an intra-host variability in Octomom copy number between Wolbachia cells. Since wMelPop Wolbachia with different Octomom copy numbers grow at different rates, we hypothesized that selection could act on this intra-host variability. Here we tested if total Octomom copy number changes during the lifespan of individual Drosophila hosts, revealing selection for different Wolbachia populations. We performed a time course analysis of Octomom amplification in flies whose mothers were controlled for Octomom copy number. We show that despite the Octomom copy number being relatively stable it increases slightly throughout D. melanogaster adult life. This indicates that there is selection acting on the intra-host variation in the Octomom copy number over the lifespan of individual hosts. This within host selection for faster replicating bacterial symbionts may be in conflict with between host selection against highly pathogenic Wolbachia.
Highlights
Gene copy number variation is one of the mechanisms allowing rapid evolution across the tree of life [1,2,3]
If Wolbachia cells with higher Octomom copy number proliferate more, their frequency in the pool of Wolbachia within a host will increase over time, and the average Octomom copy number of the withinhost population increases over the host lifespan
We examined the stability of Octomom copy number over the adult life in single wMelPop-carrying D. melanogaster (Fig 1A)
Summary
Gene copy number variation is one of the mechanisms allowing rapid evolution across the tree of life [1,2,3]. The Octomom genomic region, which contains eight Wolbachia genes, is amplified in wMelPop, while it is present as a single copy in closely related non-pathogenic Wolbachia variants [10,11]. The high variation in Octomom copy numbers between individual flies can be observed in the progeny of single wMelPop-carrying females [5] This variation between siblings could be explained by Wolbachia variation within a female and differential symbiont assortment to the progeny. If Wolbachia cells with higher Octomom copy number proliferate more, their frequency in the pool of Wolbachia within a host will increase over time, and the average Octomom copy number of the withinhost population increases over the host lifespan We tested this hypothesis through a time course analysis of Octomom copy number in individual wMelPop flies originating from mothers with controlled Octomom copy number
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