Widespread Torix Rickettsia in New Zealand amphipods and the use of blocking primers to rescue host COI sequences

Park, Eunji; Poulin, Robert

doi:10.1038/s41598-020-73986-1

Cited by 12 publications

(21 citation statements)

References 72 publications

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“…(Order Rickettsiales, Family Rickettsiaceae ) are obligate intracellular α-proteobacteria of both ecological and medical interest. These bacteria live in close association with a diverse range of hosts including arthropods, mostly, and vertebrates, plants, algae, annelids, amoebae, ciliate and medusae (as primary hosts and vectors) 1 – 6 . Rickettsia spp.…”

Section: Introductionmentioning

confidence: 99%

Genomic evolution and adaptation of arthropod-associated Rickettsia

Karkouri

Ghigo

Raoult

et al. 2022

Sci Rep

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Rickettsia species are endosymbionts hosted by arthropods and are known to cause mild to fatal diseases in humans. Here, we analyse the evolution and diversity of 34 Rickettsia species using a pangenomic meta-analysis (80 genomes/41 plasmids). Phylogenomic trees showed that Rickettsia spp. diverged into two Spotted Fever groups, a Typhus group, a Canadensis group and a Bellii group, and may have inherited their plasmids from an ancestral plasmid that persisted in some strains or may have been lost by others. The results suggested that the ancestors of Rickettsia spp. might have infected Acari and/or Insecta and probably diverged by persisting inside and/or switching hosts. Pangenomic analysis revealed that the Rickettsia genus evolved through a strong interplay between genome degradation/reduction and/or expansion leading to possible distinct adaptive trajectories. The genus mainly shared evolutionary relationships with α-proteobacteria, and also with γ/β/δ-proteobacteria, cytophagia, actinobacteria, cyanobacteria, chlamydiia and viruses, suggesting lateral exchanges of several critical genes. These evolutionary processes have probably been orchestrated by an abundance of mobile genetic elements, especially in the Spotted Fever and Bellii groups. In this study, we provided a global evolutionary genomic view of the intracellular Rickettsia that may help our understanding of their diversity, adaptation and fitness.

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Section: Introductionmentioning

confidence: 99%

Genomic evolution and adaptation of arthropod-associated Rickettsia

Karkouri

Ghigo

Raoult

et al. 2022

Sci Rep

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“…These deposits derived from studies using mitochondrial DNA (mtDNA) barcoding for phylogeographic inference [ 30 ], or in barcoding-based species identification approaches [ 31 , 32 ]. Non-target amplification of Rickettsia COI using mitochondrial COI barcoding primers has been reported in spiders [ 31 , 32 ] and freshwater amphipods [ 30 , 33 ]. Furthermore, we have noted 2 cases in our laboratory where amplicons obtained for mtDNA barcoding of an arthropod have, on sequence analysis, revealed Rickettsia COI amplification (Belli group Rickettsia from Collembola, and Torix group Rickettsia from Cimex lectularius bedbugs).…”

Section: Introductionmentioning

confidence: 99%

Torix Rickettsia are widespread in arthropods and reflect a neglected symbiosis

et al. 2021

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Background Rickettsia are intracellular bacteria best known as the causative agents of human and animal diseases. Although these medically important Rickettsia are often transmitted via haematophagous arthropods, other Rickettsia, such as those in the Torix group, appear to reside exclusively in invertebrates and protists with no secondary vertebrate host. Importantly, little is known about the diversity or host range of Torix group Rickettsia. Results This study describes the serendipitous discovery of Rickettsia amplicons in the Barcode of Life Data System (BOLD), a sequence database specifically designed for the curation of mitochondrial DNA barcodes. Of 184,585 barcode sequences analysed, Rickettsia is observed in ∼0.41% of barcode submissions and is more likely to be found than Wolbachia (0.17%). The Torix group of Rickettsia are shown to account for 95% of all unintended amplifications from the genus. A further targeted PCR screen of 1,612 individuals from 169 terrestrial and aquatic invertebrate species identified mostly Torix strains and supports the “aquatic hot spot” hypothesis for Torix infection. Furthermore, the analysis of 1,341 SRA deposits indicates that Torix infections represent a significant proportion of all Rickettsia symbioses found in arthropod genome projects. Conclusions This study supports a previous hypothesis that suggests that Torix Rickettsia are overrepresented in aquatic insects. In addition, multiple methods reveal further putative hot spots of Torix Rickettsia infection, including in phloem-feeding bugs, parasitoid wasps, spiders, and vectors of disease. The unknown host effects and transmission strategies of these endosymbionts make these newly discovered associations important to inform future directions of investigation involving the understudied Torix Rickettsia.

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“…The Rickettsia was a sister group to all other Rickettsia described previously, and the clade were named “torix Rickettsia” (Kikuchi et al, 2002 ). Torix Rickettsia have since been found across multiple arthropod taxa and seem to be widespread and especially common in species associated with freshwater [e.g., Culicoides midges (Pilgrim et al, 2017 ), dytiscid water beetles (Küchler et al, 2009 ), Odonata (Thongprem et al, 2020a ), and Amphipoda (Park and Poulin, 2020 )], but have also been detected in some terrestrial arthropods, e.g., Araneidae (Goodacre et al, 2006 ), Siphonaptera (Song et al, 2018 ), and Hemiptera (Wang et al, 2020 ). Whilst we now understand symbioses between invertebrates and torix Rickettsia are common, much less is known of their biological significance.…”

Section: Introductionmentioning

confidence: 99%

Transmission, Tropism, and Biological Impacts of Torix Rickettsia in the Common Bed Bug Cimex lectularius (Hemiptera: Cimicidae)

et al. 2020

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The torix group of Rickettsia have been recorded from a wide assemblage of invertebrates, but details of transmission and biological impacts on the host have rarely been established. The common bed bug (Cimex lectularius) is a hemipteran insect which lives as an obligatory hematophagous pest of humans and is host to a primary Wolbachia symbiont and two facultative symbionts, a BEV-like symbiont, and a torix group Rickettsia. In this study, we first note the presence of a single Rickettsia strain in multiple laboratory bed bug isolates derived from Europe and Africa. Importantly, we discovered that the Rickettsia has segregated in two laboratory strains, providing infected and uninfected isogenic lines for study. Crosses with these lines established transmission was purely maternal. Fluorescence in-situ hybridization analysis indicates Rickettsia infection in oocytes, bacteriomes, and other somatic tissues. We found no evidence that Rickettsia infection was associated with sex ratio distortion activity, but Rickettsia infected individuals developed from first instar to adult more slowly. The impact of Rickettsia on fecundity and fertility resulted in infected females producing fewer fertile eggs. However, we could not find any evidence for cytoplasmic incompatibility associated with Rickettsia presence. These data imply the existence of an unknown benefit to C. lectularius carrying Rickettsia that awaits further research.

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Widespread Torix Rickettsia in New Zealand amphipods and the use of blocking primers to rescue host COI sequences

Cited by 12 publications

References 72 publications

Genomic evolution and adaptation of arthropod-associated Rickettsia

Genomic evolution and adaptation of arthropod-associated Rickettsia

Torix Rickettsia are widespread in arthropods and reflect a neglected symbiosis

Transmission, Tropism, and Biological Impacts of Torix Rickettsia in the Common Bed Bug Cimex lectularius (Hemiptera: Cimicidae)

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