Pirro, Stacy


Publications
3

Candidatus<scp>Tisiphia</scp>’ is a widespread <scp>Rickettsiaceae</scp> symbiont in the mosquito Anopheles plumbeus (<scp>Diptera: Culicidae</scp>)

Citation
Davison et al. (2023). Environmental Microbiology
Names
“Tisiphia”
Abstract
AbstractSymbiotic bacteria can alter host biology by providing protection from natural enemies, or alter reproduction or vectoral competence. Symbiont‐linked control of vector‐borne disease in Anopheles has been hampered by a lack of symbioses that can establish stable vertical transmission in the host. Previous screening found the symbiont ‘Candidatus Tisiphia’ in Anopheles plumbeus, an aggressive biter and potential secondary vector of malaria parasites and West Nile virus. We screened samples

CandidatusTisiphia’ is a widespread Rickettsiaceae symbiont in the mosquitoAnopheles plumbeus(Diptera: Culicidae)

Citation
Davison et al. (2023).
Names
“Tisiphia”
Abstract
AbstractSymbiotic bacteria alter host biology in numerous ways, including the ability to reproduce or vector disease. Deployment of symbiont control of vector borne disease has focused onWolbachiainteractions withAedesand is hampered inAnophelesby a lack of compatible symbioses. Previous screening found the symbiont ‘Ca. Tisiphia’ inAnopheles plumbeus, an aggressive biter and potential secondary vector of malaria parasites and West Nile virus. We screenAn. plumbeussamples collected over a ten-ye

Genomic diversity across the Rickettsia and ‘Candidatus Megaira’ genera and proposal of genus status for the Torix group

Citation
Davison et al. (2022). Nature Communications 13 (1)
Names
Ca. Megaira “Tisiphia”
Abstract
AbstractMembers of the bacterial genusRickettsiawere originally identified as causative agents of vector-borne diseases in mammals. However, manyRickettsiaspecies are arthropod symbionts and close relatives of ‘CandidatusMegaira’, which are symbiotic associates of microeukaryotes. Here, we clarify the evolutionary relationships between these organisms by assembling 26 genomes ofRickettsiaspecies from understudied groups, including the Torix group, and two genomes of ‘Ca. Megaira’ from various in