Comparative Genomics Reveals Factors Associated with Phenotypic Expression of Wolbachia
Permanent link
https://hdl.handle.net/10037/23609Date
2021-05-18Type
Journal articleTidsskriftartikkel
Peer reviewed
Abstract
Wolbachia is a widespread, vertically transmitted bacterial endosymbiont known for manipulating arthropod reproduction. Its most
common form of reproductive manipulation is cytoplasmic incompatibility (CI), observed when a modification in the male sperm
leads to embryonic lethality unless a compatible rescue factor is present in the female egg. CI attracts scientific attention due to its
implications for host speciation and in the use of Wolbachia for controlling vector-borne diseases. However, our understanding of CI
is complicated by the complexity of the phenotype, whose expression depends on both symbiont and host factors. In the present
study, we perform a comparative analysis of nine complete Wolbachia genomes with known CI properties in the same genetic host
background, Drosophila simulans STC. We describe genetic differences between closely related strains and uncover evidence that
phages and other mobile elements contribute to the rapid evolution of both genomes and phenotypes of Wolbachia. Additionally,
we identify both known and novel genes associated with the modification and rescue functions of CI. We combine our observations
with published phenotypic information and discuss how variability in cif genes, novel CI-associated genes, andWolbachia titer might
contributetopoorlyunderstoodaspectsofCIsuchasstrengthandbidirectionalincompatibility.WespeculatethathightiterCIstrains
could be better at invading new hosts already infected with a CI Wolbachia, due to a higher rescue potential, and suggest that titer
might thus be a relevant parameter to consider for future strategies using CI Wolbachia in biological control.
Publisher
Oxford University PressCitation
Baião, Janice JJ, Galinou, Klasson L. Comparative Genomics Reveals Factors Associated with Phenotypic Expression of Wolbachia. Genome Biology and Evolution (GBE). 2021Metadata
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