Operationalized releases ofwAlbBWolbachiainAedes aegyptilead to sharp decreases in dengue incidence dependent onWolbachiafrequency

Hoffmann, Ary A.; Wasi Ahmad, Nazni; Wan, Ming Keong; Cheong, Yoon Ling; Ahmad, Noor Afizah; Golding, Nick; Tierney, Nicholas; Jelip, Jenarun; Wilson Putit, Perada; Mokhtar, Norhayati; Singh Sandhu, Sukhvinder; Lau, Sai Ming; Khairuddin, Khadijah; Denim, Kamilan; Mohd Rosli, Norazman; Shahar, Hanipah; Omar, Topek; Ridhuan Ghazali, Muhammad Kamarul; Mohd Zabari, Nur Zatil Aqmar; Abdul Karim, Mohd Arif; Saidin, Mohamad Irwan; Mohd Nasir, Muhammad Nizam; Aris, Tahir; Sinkins, Steven P

doi:10.1101/2023.11.08.23298240

Cited by 1 publication

(1 citation statement)

References 27 publications

(48 reference statements)

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“…More broadly, environmental effects on symbiont phenotypic penetrance may have important implications in both managed and natural ecosystems. Wolbachia is already in use in vector management in several areas of the globe, with mixed results (Hoffmann et al 2011, Dos Santos et al 2022, Hoffmann et al 2024. Symbiont thermal tolerance is one factor that appears to limit the success of this technique in some regions (Ross et al 2020(Ross et al , 2023.…”

Section: Warmer Rearing Temperatures Strongly Decreased CI Induction Bymentioning

confidence: 99%

Warm temperature inhibits cytoplasmic incompatibility induced by endosymbiotic Rickettsiella in a spider host

Proctor,

Mackevicius-Dubickaja,

Gottlieb

et al. 2024

Preprint

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Bacterial endosymbionts manipulate reproduction in arthropods to increase prevalence in the host population. One such manipulation is cytoplasmic incompatibility (CI), wherein the bacteria sabotage sperm in infected males to reduce hatch rate when mated with uninfected females, but zygotes are "rescued" when that male mates with an infected female. In the spider Mermessus fradeorum (Linyphiidae), Rickettsiella symbionts cause variable levels of CI. We hypothesized that temperature affects CI strength and rescue in M. fradeorum, potentially mediated by bacterial titer. We reared Rickettsiella-infected spiders in two temperature conditions (26C vs 20C) and tested CI induction in males and CI rescue in females. In incompatible crosses between infected males and uninfected females, hatch rate from warm males was doubled (Mean +/- S.E. = 0.687 +/- 0.052) relative to cool males (0.348 +/- 0.046), indicating that CI induction is weaker in warm males. In rescue crosses between infected females and infected males, female rearing temperature had a marginal effect on CI rescue, but hatch rate remained high for both warm (0.960 +/- 0.023) and cool females (0.994 +/- 0.004). Bacterial titer as measured by qPCR was lower in warm than cool spiders, particularly in females, suggesting that bacterial titer may play a role in causing the temperature-mediated changes in CI.

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Section: Warmer Rearing Temperatures Strongly Decreased CI Induction Bymentioning

confidence: 99%

Warm temperature inhibits cytoplasmic incompatibility induced by endosymbiotic Rickettsiella in a spider host

Proctor,

Mackevicius-Dubickaja,

Gottlieb

et al. 2024

Preprint

View full text Add to dashboard Cite

show abstract

Operationalized releases ofwAlbBWolbachiainAedes aegyptilead to sharp decreases in dengue incidence dependent onWolbachiafrequency

Cited by 1 publication

References 27 publications

Warm temperature inhibits cytoplasmic incompatibility induced by endosymbiotic Rickettsiella in a spider host

Warm temperature inhibits cytoplasmic incompatibility induced by endosymbiotic Rickettsiella in a spider host

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