4.7 Article

A highly divergent Wolbachia with a tiny genome in an insect-parasitic tylenchid nematode

Journal

Publisher

ROYAL SOC
DOI: 10.1098/rspb.2022.1518

Keywords

genome reduction; nematodes; parasitism; Spelobia; symbiosis; Wolbachia

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Wolbachia symbionts are successful host-associated microbes that infect arthropods and nematodes. This study discovered a highly divergent strain of Wolbachia in an insect-parasitic nematode, Howardula sp., which was not previously known to harbor Wolbachia. The genome of this Wolbachia strain is highly reduced and smaller than other known Wolbachia genomes, but it has retained genes related to haem biosynthesis.
Wolbachia symbionts are the most successful host-associated microbes on the planet, infecting arthropods and nematodes. Their role in nematodes is particularly enigmatic, with filarial nematode species either 100% infected and dependent on symbionts for reproduction and development, or not at all infected. We have discovered a highly divergent strain of Wolbachia in an insect-parasitic tylenchid nematode, Howardula sp., in a nematode clade that has not previously been known to harbour Wolbachia. While this nematode is 100% infected with Wolbachia, we did not detect it in related species. We sequenced the Howardula symbiont (wHow) genome and found that it is highly reduced, comprising only 550 kilobase pairs of DNA, approximately 35% smaller than the smallest Wolbachia nematode symbiont genomes. The wHow genome is a subset of all other Wolbachia genomes and has not acquired any new genetic information. While it has lost many genes, including genes involved in cell wall synthesis and cell division, it has retained the entire haem biosynthesis pathway, suggesting that haem supplementation is critical. wHow provides key insights into our understanding of what are the lower limits of Wolbachia cells, as well as the role of Wolbachia symbionts in the biology and convergent evolution of diverse parasitic nematodes.

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