Check out our new print that combines dense sequencing and phylodynamics to uncover a bunch of 😎 things about an understudied virus.

- Doesn't evolve for 10 months a year ✅
- Uses some mossies for maintenance, others for spread ✅
- Established in Northeast for ~300 years ✅

Evolutionary history of Jamestown Canyon virus disentangles complex multi-vector ecology Jamestown Canyon virus (JCV) is a re-emerging mosquito-borne virus of increasing concern in North America. It has been historically understudied, leading to significant gaps in our understanding of it...

🦟📄 New preprint! Our first large-scale phylodynamic study of Jamestown Canyon virus (JCV) reveals how mosquito ecology shapes the evolution, persistence, and spread of this understudied arbovirus in North America.

Read it here! www.biorxiv.org/content/10.6...

Variations in annual dengue intensities are explained by temperature anomalies

Our new work led by Abbey Porzucek, @rafalpx.bsky.social, @colincarlson.bsky.social, Dan Weinberger to develop a method to compare relative dengue intensity between years and countries.

www.medrxiv.org/content/10.6...

Implications of successive blood feeding on Wolbachia-mediated dengue virus inhibition in Aedes aegypti mosquitoes - Nature Communications Dengue virus transmission by Ae. aegypti mosquitoes poses a significant public health threat, necessitating innovative control strategies. Here, the authors demonstrate that, while successive blood feeding increases earlier dengue virus dissemination, the inhibitory effects of Wolbachia remain strong, highlighting Wolbachia’s potential to disrupt dengue transmission under natural feeding conditions.

Implications of successive blood feeding on #dengue virus inhibition by Wolbachia in Aedes aegypti mosquitoes

@entomososwin.bsky.social @mallerybreban.bsky.social @brackneylab.bsky.social @chantalvogels.bsky.social @yaleemd.bsky.social

Great to collaborate with @chantalvogels.bsky.social, Afeez Sodeinde and their team on this comprehensive work looking at dengue virus & Wolbachia interactions, making the case for considering DENV genetic diversity when implementing Wolbachia-based control interventions - key findings below! 🦠🦟

Key finding #5: Potential for dengue virus strain selection following Wolbachia interventions, with selection for few strains with a high average relative dissemination 📈

Key finding #4: Differential Wolbachia inhibition results in increased probability of dengue virus reemergence, particularly in high transmission intensity settings 💻

Key finding #3: Differential inhibition of the four dengue virus serotypes, with the least inhibition of many DENV-3 isolates in both Wolbachia strains 🧬

Key finding #2: Overall stronger inhibition by wMelM as compared to wAlbB 🦠

Key finding #1: High level of variability in dengue virus dissemination ranging from 0-100%, even in the absence of Wolbachia 🦟

We tested inhibition of 60 dengue virus isolates by two Wolbachia strains (wAlbB and wMelM) in Aedes aegypti mosquitoes. To explore the epidemiological implications of our findings, we used our experimental data to inform stochastic transmission models.

This project was a huge collaborative effort with @mallerybreban.bsky.social @ebourgikos.bsky.social Braiya Nolan, Nicole Feriancek @isabelott.bsky.social Julian Bakker @viralverity.bsky.social @perran.bsky.social Xinyue Gu @huangat.bsky.social @hsalje.bsky.social and @nathangrubaugh.bsky.social 💪

Heterogeneity in inhibition of genetically diverse dengue virus strains by Wolbachia The release of Aedes aegypti mosquitoes transinfected with the virus-inhibiting Wolbachia bacterium has the potential to reduce the burden caused by dengue virus (DENV). However, the robustness of thi...

📢New preprint on the impact of dengue virus genetic diversity on inhibition by Wolbachia 🦟🦠🧬

Project led by Afeez Sodeinde, @emiliefinch.bsky.social, and @keli5734.bsky.social! ✨

Key findings in thread below 👇

www.biorxiv.org/content/10.1...

🎉✨👏 Welcome to a new academic year in the Department of Epidemiology of Microbial Diseases at the Yale School of Public Health! We’re excited to continue learning, collaborating, and advancing public health together.

Expression of endogenous Anopheles gambiae microRNAs using an Anopheles gambiae densovirus (AgDNV) intronic expression system - Parasites & Vectors Background Anopheles gambiae densovirus (AgDNV) is a highly species-specific parvovirus that reaches high titers in adult Anopheles gambiae mosquitoes with few transcriptomic effects and minimal signi...

Very happy to have @entomososwin.bsky.social's thesis work finally published! Becky has been having an incredible month!

parasitesandvectors.biomedcentral.com/articles/10....

Innovation That Matters: Episode 4 – Yale School of Public Health YouTube video by Yale University

At Yale School of Public Health, research starts with people.

From AI and youth mental health to national medical billing reform, this is public health with national reach. bit.ly/3J1ekY7

@meganranney.bsky.social @chantalvogels.bsky.social

Implications of successive blood feeding on Wolbachia-mediated dengue virus inhibition in Aedes aegypti mosquitoes Nature Communications - Dengue virus transmission by Ae. aegypti mosquitoes poses a significant public health threat, necessitating innovative control strategies. Here, the authors demonstrate...

Thrilled to be a part of this study on Wolbachia and multiple blood feeding. Now published!

rdcu.be/eyqaG

Our first Wolbachia paper now published in Nature Communications! 🦟 Check out Becky's thread! 👇

Excited to share our paper on viral load dynamics of West Nile virus in mosquitoes! Key findings:

1. Variation in pooled Ct values from mosquito traps reflect underlying biological and epidemiological mechanisms.
2. WNV prevalence estimates are improved by using Cts rather than +ve/-ve pool status.

Mosquito immune cells enhance dengue and Zika virus infection in Aedes aegypti Nature Communications - Infection of mosquito immune cells by dengue and Zika virus enhances the spread of virus infection to mosquito tissues, such as the salivary glands, to promote virus...

Despite all the shit going on, we have to celebrate our victories. New publication with @entomososwin.bsky.social and @vectorimmunity.bsky.social showing that hemocytes play a central role in disseminating flaviviruses to secondary tissues potentially functioning as a Trojan Horse(TBD)
rdcu.be/euj4g

What @edmhill.bsky.social said!!!👇

Post Doctoral Research Associate in Wolbachia Biology | Liverpool School of Tropical Medicine Ready to make a difference in vector biology research? We are looking for a dedicated and enthusiastic researcher to join an exciting BBSRC-funded project exploring the fascinating interactions betwee...

Come and join the @mossi-lab.bsky.social group! We have a postdoc position available on Wolbachia and Anopheles interactions.

app.vacancy-filler.co.uk/salescrm/Car...

🥳📢 Student Spotlight Alert!

Afeez Sodeinde, a PhD student in the Vogels and Grubaugh Labs, studies how dengue evolves and how Wolbachia impacts the virus. His work shows that we need tailored vector control strategies, not one-size-fits-all.

👉 Learn more here: medicine.yale.edu/news-article...

🥳📢 Student Spotlight Alert!

Meet Nicole Feriancek, a PhD student in the Vogels and Grubaugh Labs, sequencing over 3,000 West Nile virus samples in Connecticut. Her work tracks how the virus spreads and evolves across the state.

👉 Learn more here: medicine.yale.edu/news-article...

Ambitious project to develop low-cost genome sequencing for pathogens known and unknown - University of Birmingham Project will build on research that helped diagnostic labs to adopt sequencing capacity for COVID-19 and permit characterisation of future infectious threats

Absolutely thrilled to announce the launch of ARTIC2 - a £5.5M 5 year project funded by @wellcometrust.bsky.social to build on the ARTIC approach of low-cost, globally accessible genome sequencing for surveillance of outbreaks, epidemics and endemic diseases: www.birmingham.ac.uk/news/2025/am...

Mosquito larvae saying "Join Us!"

The Sorrells Lab is hiring a recent college graduate interested in neurobiology of mosquitoes! The position is ideal for someone interested in gaining skills for graduate school. Apply here: apply.interfolio.com/164849

Effect of chikungunya, Mayaro and Una virus coinfection on vector competence of Aedes aegypti mosquitoes The mosquito-borne alphaviruses chikungunya (CHIKV), Mayaro (MAYV) and the lesser known Una (UNAV) are currently co-circulating in Latin America, shar…

🦟 "Effect of #chikungunya, #Mayaro and #Una #virus coinfection on #vector competence of #Aedes aegypti #mosquitoes" by Tessa Visser, @chantalvogels.bsky.social et al.
www.sciencedirect.com/science/arti...

In Connecticut -

NIH FUNDING:
$770M

JOBS SUPPORTED:
6609

ECONOMIC ACTIVITY SUPPORTED:
$1.68B

Great collaboration with: Braiya Nolan, Afeez Sodeinde, @isabelott.bsky.social, @perran.bsky.social, Xinyue Gu, @nathangrubaugh.bsky.social, Alex Perkins, and @brackneylab.bsky.social 🙌

Implications of successive blood feeding on Wolbachia-mediated dengue virus inhibition in Aedes aegypti mosquitoes Dengue virus (DENV) is a mosquito-borne virus that poses a continued and increasing threat to public health. A promising strategy to mitigate the burden of DENV is introgression of the virus-inhibitin...

📢New preprint! We studied the impact of successive feeding on inhibition of dengue virus by Wolbachia

Key finding: mosquito feeding behavior matters, but Wolbachia remains effective🦟🦠

Study led by @entomososwin.bsky.social and Mallery Breban

www.biorxiv.org/content/10.1...