vaporariorum and Ms. One hypothesis is that the exchange of Arsenophonus lineages between these two species occurred through their parasitoids, as previously described for Wolbachia in planthoppers KU55933 supplier [69], since T. vaporariorum and B. tabaci share some parasitoid species (such as Encarsia or Eretmocerus) and are usually found in sympatry. A second pathway of infection could be through their Cell Cycle inhibitor feeding habit via the plant, as both species are found in sympatry in the field and share the same host plant range. Such a method of symbiont acquisition
has been hypothesized for Rickettsia in B. tabaci [70]. Within the B. tabaci species complex, we found, for the first time for Arsenophonus, intergenic recombination events in two individuals belonging to the ASL genetic group. The parental-like sequences came from Q2, Q3 and ASL individuals. Although unexpected for intracellular bacteria, homologous recombination has been
described in some endosymbiotic bacteria [26, 27]. For example, Wolbachia showed extensive recombination within selleck chemical and across lineages resulting in chimeric genomes [27]; Darby et al. [25] also found evidence of genetic transfer from Wolbachia symbionts, and phage exchange with other gammaproteobacterial symbionts, suggesting that Arsenophonus is not a strict clonal bacterium, in agreement with the present study. These recombination events may have important implications for the bacteria, notably in terms of phenotypic effects and capacity of adaptation to new hosts, and thus for the bacterial-host association [8], and might prevent the debilitating Acyl CoA dehydrogenase effects of obligate intracellularity
(e.g., Muller’s rachet [71]). In the Wolbachia genome, intergenic and intragenic recombinations occur; we detected only intergenic recombination events between ftsK and the two other genes in Arsenophonus. Surprisingly, we detected indels inducing STOP codons in this gene. These indels, found in all individuals of the Q2 genetic group sampled in Israel, France, Spain, and Reunion, disables the end of the ftsK portion sequenced in this study. In bacteria, ftsK is part of an operon of 10 genes necessary for cell division [72]. However, a recent study has demonstrated that, in Escherichia coli, overexpression of one of the 10 genes of this operon (ftsN) is able to rescue cells in which ftsK has been deleted [73]. This gene, ftsN, is also present in the Arsenophonus genome [Genbank: CBA75818.1]. These data suggest that ftsK may be not suitable for a MLST approach and other conserved genes should be targeted instead. Future studies should focus on obtaining extensive data related to the specificity of Arsenophonus-Q2 interactions. It would be interesting to sample more Q2 individuals infected with Arsenophonus to determine the prevalence of this STOP codon in natural populations and its consequences for the bacteria. Conclusions In this study, we found that the diversity of Arsenophonus strains in B.
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