Figure demonstrating how the ordering of temperatures through time determines whether an ectothermic population experiencing those temperatures will go extinct

Thrilled to share that my first dissertation chapter is now published at Ecology! dx.doi.org/10.1002/ecy....

We embed TPCs into population dynamics to show how changing temperatures' ordering — not just its distribution — increases extinction risk (i.e. heatwaves matter!)

@esajournals.bsky.social

The Social Lives of Viruses is coming to Vancouver, Canada, from 4th-8th August 2026!

This is a free meeting dedicated to all aspects of virus-virus interactions & evolution.

To apply: socialviruses.zoology.ubc.ca

@sociovirology.bsky.social #socialviruses #evosky #lovevirology #virosky

In the lab, antibiotics can make integrated viruses (prophages) pop out of bacterial genomes. In this (short!) preprint, we asked a simple question: how much does this happen outside the lab, in the human gut?

TLDR: Not much overall, in specific bacterial species.
🧵

www.biorxiv.org/content/10.6...

Capturing dynamic phage–pathogen coevolution by clinical surveillance - Nature The acquisition of a parasitic anti-phage mobile genetic element, PLE11, showing potent anti-phage activity against cocirculating ICP1, and the subsequent evolution of ICP1 to escape this defense, are...

Capturing dynamic phage–pathogen coevolution by clinical surveillance

"we capture the acquisition of a parasitic anti-phage mobile genetic element, PLE11, that initiated a selective sweep coinciding with the largest cholera outbreak in recent records. "

www.nature.com/articles/s41...

Deltaviruses spread through a viral Trojan Horse Hepatitis D-like satellite viruses, known as deltaviruses, have been recently discovered in a wide range of animals. These viruses are thought to expr…

The Trojan Horse is real, and it’s microscopic! 🐴🦠
Our paper is out today in @cellcellpress.bsky.social!
We discovered that deltaviruses physically hide INSIDE helper viruses to sneak into new cells. And to prove it, we had to image them from every angle. 🧵👇

www.sciencedirect.com/science/arti...

Next one in a storm of preprints from our lab's amazing scientists.. Recent-ex-postdoc, #newPI @cathyhernandez.bsky.social studied thermal ecology of marine bacteria isolated near New Haven. Turns out, response of this bacterium to temperatures is shaped by prophages!

#phagesky #microsky

Moving forward, I'm excited to keep exploring questions about host-prophage-environment interactions in non-model systems in my new lab @sc.edu. If you are (or know of) a trainee interested in this area, please reach out!

Overall, we found that variation in the thermal ecology of our environmental isolates was explained by variation in prophage infection, and that evolutionary rescue at high temperature occurred through modifications to prophage dynamics.

A figure depicting (a) methods for generating high temperature mutants (HTMs), (b) thermal performance of HTMs relative to the WT strain, (c) spontaneously produced phage titers, (d) mutations found in HTMs

Finally, we hypothesized that this prophage-mediated constraint would impact host adaptation to high temperature. When we selected for mutants with an expanded upper thermal limit, we found that all had reduced prophage activity (and an intergenic prophage mutation was partly responsible!)

A figure depicting (a) comparison of the prophage integration site in two bacterial genomes, as well as the genome of an uninfected strain, (b) spontaneous phage titers in these strains, (c) thermal performance curves for bacterial populations of these strains, (d) relative reduction in performance due to phage infection

To then understand the causal impacts of this phage on host thermal performance, we infected a susceptible conspecific strain and found that performance was reduced across all temperatures. Performance in the novel lysogen was then indistinguishable from the naturally infected strain!

There are many follow up questions to explore about the effects of temperature on the underlying parameters that give rise to these dynamics, but quantification of decay rates suggested that phage production may only occur early at lower temperature, but throughout incubation at higher temperature.

A figure showing (a) bacterial population growth curves across temperature, (b) a thermal performance curve derived from area under the growth curves in panel a, (c) culture-based population dynamics of host and phage at two temperatures, (d) the PFU:CFU ratio across time and temperatures from panel c

We then characterized the effects of temperature on bacterial population dynamics, finding that increased temperatures led to reduced yield and population crashes. Unexpectedly, phage population dynamics revealed that this phage was active across our tested thermal range.

A paneled figure showing (a) a dilution series of spontaneously produced phage plaques, (b) a TEM image of a non-tailed phage, (c) a viral phylogenetic tree, (d) comparison of genes across phages, (e) IMEX-like feature of a novel phage

To explore this, we first isolated a marine bacterium carrying a highly active non-tailed prophage related to the model lipid-containing phage PM2. We speculate that our phage may rely on host enzymes for integration and excision (an "IMEX"), distinct from lambda-like prophages.

Interspecific interactions can influence how organisms respond to environmental factors like temperature, and given the temperature-dependence of several prophage systems, we wondered how these viruses could impact host thermal responses.

Excited to share a preprint of work from my postdoc with @paulturnerlab.bsky.social exploring how prophages can impact host thermal ecology and evolution. www.biorxiv.org/content/10.6...

Congrats to @noahhoupt.bsky.social for this massive effort (1000 generation!) evolution experiment demonstrating the importance of organism-derived environmental modifications in shaping adaptive evolution. A great example of how bacterial evolution only makes sense in the light of phage :)

Meta-virus resource (MetaVR): expanding the frontiers of viral diversity with 24 million uncultivated virus genomes Abstract. Viruses are ubiquitous in all environments and impact host metabolism, evolution, and ecology, although our knowledge of their biodiversity is st

🦠🧪🧬🚨 New paper and database alert: the new IMG/VR release is now MetaVR ! We have a new website - meta-virome.org - with quick search capabilities for the >24M viruses, >12M vOTUs, and >42M protein clusters (including >790k with predicted structures !). academic.oup.com/nar/advance-...

Isolation, engineering and ecology of temperate phages from the human gut - Nature Human host-associated cellular products may act as induction agents for bacteriophages.

Very excited to share the latest work from our lab, which was published today in Nature!
nature.com/articles/s41...

PhD graduate and now post-doc Sofia Dahlman, along with co-senior author Sam Forster from The Hudson and other researchers from our lab and others.

Ecological constraints foster both extreme viral-host lineage stability and mobile element diversity in a marine community Phages are typically viewed as very rapidly evolving biological entities. Little is known, however, about whether and how phages can establish long-term genetic stability. We addressed this eco-evolut...

Phages evolve fast, or do they?
In oysters, some stay identical for years.
With >1,200 phages & 600 Vibrio genomes, we reveal long-term stability and new mobile elements.
Proud of this collaborative work across our teams (Roscoff-UdeM and @epcrocha.bsky.social www.biorxiv.org/cgi/content/...

Is a healthy microbiome one that is rich in phages? 🦠 Excited to share our paper out in Lancet Microbe with @bkoskella.bsky.social & @dholtappels.bsky.social where we test whether virome diversity can be used a broad signature of microbiome health 📈

Thanks Mike 😊😊

Thanks Noah 😭😭

A group of people celebrating with drinks outside of a bar in New Haven, Connecticut.

A group of people with the Yale mascot Handsome Dan in front of a coffee truck.

A photo of a professor and two trainees standing behind a table of two pies at a going away celebration.

So many people to thank, but I am particularly grateful to my mentors @bkoskella.bsky.social and @paulturnerlab.bsky.social for their support over many years. I am so so sad to be leaving the wonderfully supportive Turner lab, but excited to start a new chapter.

I am recruiting graduate students (MS and/or PhD) for the upcoming fall semester (more info here: tinyurl.com/35p6hfx7), and will soon be hiring a research associate/technician (details TBD).

We will be studying the effects of environmental factors on non-model marine phage-host interactions, with a particular interest in the causes and consequences of context-dependent prophage dynamics. If you are interested in tackling these questions, please reach out!

A graphic advertising phage ecology and evolution research at the University of South Carolina, showing a central image of a tide pool flanked by a photo of an agar plate containing diverse microbes and a TEM image of a virus particle.

Very happy to share that I will be starting as an Assistant Professor in the department of Biological Sciences at the University of South Carolina in January! My group will be working on environmental phage ecology and evolution, and I am recruiting for the upcoming year (more info below).

The social lives of viruses | Asher Leeks | TEDxNewEngland YouTube video by TEDx Talks

I gave a talk last year at TEDxNewEngland aimed at introducing the idea of viral sociality to a general audience, including implications for evolution & virology. Video now available online below.

#socialviruses #evosky #virosky 🧪

A call for caution in the biological interpretation of viral auxiliary metabolic genes - Nature Microbiology This Perspective discusses virus-encoded auxiliary metabolic genes and provides a framework for the biological interpretation of these genes.

New paper alert! We suggest caution in the analyses of viral auxiliary metabolic genes and propose a new overarching term - 'auxiliary viral genes' (AVGs) to describe different types of such genes. @simrouxvirus.bsky.social #phagesky #Microsky www.nature.com/articles/s41...

Microbial communities demonstrate robustness in stressful environments due to predictable composition shifts Environmental stress reduces species growth rates, but its impact on the function of microbial communities is less clear. Here, we experimentally demonstrate that increasing salinity stress shifts com...

Have you ever wondered what increasing environmental stress will do to microbial communities?

In our new preprint, @martinadalbello.bsky.social, Jeff Gore and I studied the impact of salinity on microbial community composition and function. 🧵 (1/5)
www.biorxiv.org/content/10.1...

STEPS To It Announcing a new program, called STEPS, to simulate the dynamics of evolving microbial populations.

Excited to share new #program, STEPS, which can simulate #dynamics of the E. coli Long-Term Evolution Experiment (#LTEE) or other microbes in serial transfer regime.

telliamedrevisited.wordpress.com/2025/08/12/s...

STEPS developed by @devinmlake.bsky.social, Zachary Matson, Minako Izutsu, and me.