Deep sequencing of 16<i>Ixodes ricinus</i>ticks unveils insights into their interactions with endosymbionts

Lesiczka, Paulina M.; Azagi, Tal; Krawczyk, Aleksandra I.; Scott, William T.; Dirks, Ron P.; Šimo, Ladislav; Dobler, Gerhard; Nijsse, Bart; Schaap, Peter J.; Sprong, Hein; Koehorst, Jasper J.

doi:10.1101/2024.04.22.590557

2024

DOI: 10.1101/2024.04.22.590557

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Deep sequencing of 16Ixodes ricinusticks unveils insights into their interactions with endosymbionts

Paulina M. Lesiczka,

Tal Azagi,

Aleksandra I. Krawczyk

et al.

Abstract: Background: Ixodes ricinus ticks act as vectors for numerous pathogens that present substantial health threats. Additionally, they harbor vertically transmitted symbionts, some of which have been linked to diseases. The difficulty of isolating and cultivating these symbionts has has hampered our understanding of their biological role, their potential to cause disease, and their modes of transmission. To expand our understanding on the tick symbiont Midichloria mitochondrii and on Rickettsia helvetica, which ha… Show more

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Comparative genomics ofRickettsiellabacteria reveal variable metabolic traits involved in symbiotic interactions with arthropods

Floriano,

El-Filali,

Amoros

et al. 2024

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Members of the Rickettsiella genus (Legionellales) are emerging as widespread bacteria associated with insects, arachnids, and crustaceans. While some Rickettsiella strains are highly virulent entomopathogens, others are maternally inherited endosymbionts that manipulate arthropod phenotypes, including the induction of defensive symbiosis and cytoplasmic incompatibility. However, the genomic diversity of Rickettsiella remains largely unexplored, and their genetic potential to induce complex phenotypes in arthropods is only partially understood. In this study, we sequenced five novel Rickettsiella genomes isolated from three tick species. Through comparative genomics, we observed that Rickettsiella members share similar metabolic capabilities, and collectively lack virulence genes from pathogenic Legionellales. Additional analysis of Rickettsiella genomes revealed significant variability in metabolic properties related to endosymbiosis. Specifically, their capacity to biosynthesize certain B vitamins and heme varies, suggesting a functional role of some Rickettsiella strains in the nutrition of their arthropod hosts. Some Rickettsiella genomes harbour homologs of Wolbachia cif genes, encoding for the effectors of cytoplasmic incompatibility, suggesting that Rickettsiella may use a similar molecular mechanism similar to manipulate the reproduction of their arthropod hosts. Phylogenomics further revealed that tick-borne Rickettsiella exhibit distinct evolutionary origins within the genus, indicating that Rickettsiella have undergone repeated horizontal transfers between ticks and other arthropods.

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Comparative genomics ofRickettsiellabacteria reveal variable metabolic traits involved in symbiotic interactions with arthropods

Floriano,

El-Filali,

Amoros

et al. 2024

Preprint

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Deep sequencing of 16Ixodes ricinusticks unveils insights into their interactions with endosymbionts

Cited by 1 publication

References 122 publications

Comparative genomics ofRickettsiellabacteria reveal variable metabolic traits involved in symbiotic interactions with arthropods

Comparative genomics ofRickettsiellabacteria reveal variable metabolic traits involved in symbiotic interactions with arthropods

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