Alfonso Santos Lopez

🧵 New preprint! Our 4-lab team evolved Streptococcus pneumoniae in antibiotic-treated mice of varying immune states and discovered something surprising: bacteria rarely evolved resistance. Instead, they found a different way to survive — by rewiring RNA turnover.
🔗 www.biorxiv.org/content/10.6...

Plasmid mutation rates scale with copy number | PNAS Plasmids are extrachromosomal DNA molecules that spread by horizontal transfer and shape bacterial evolution. Plasmids are typically present at mul...

New paper out in PNAS!!! 🎉

Do more plasmid copies mean faster evolution?

🧵 Dive into the story

www.pnas.org/doi/10.1073/...

New paper out in @pnas.org, and it made the cover! 👁️

We represent plasmids as circles and mutations as dots, resembling an eye, because in this paper we literally 𝑤𝑎𝑡𝑐ℎ plasmids evolve.

‼️Check Paula’s 🧵 and the paper👇

𝗣𝗹𝗮𝘀𝗺𝗶𝗱 𝗺𝘂𝘁𝗮𝘁𝗶𝗼𝗻 𝗿𝗮𝘁𝗲𝘀 𝘀𝗰𝗮𝗹𝗲 𝘄𝗶𝘁𝗵 𝗰𝗼𝗽𝘆 𝗻𝘂𝗺𝗯𝗲𝗿
www.pnas.org/doi/10.1073/...

Emerging advances in prokaryotic transposition: TnPedia as a promising tool TnPedia provides a curated framework for understanding prokaryotic transposable elements (TEs), including general and historical information and basic concepts, while integrating mechanistic insights,...

Emerging advances in prokaryotic transposition: TnPedia as a promising tool www.cell.com/trends/micro... #jcampubs

Bacteria chromosomes contain Genomic Islands that provide virulence, antibiotic resistance, MGE-defence,... They transfer between cells, but the mechanism of most remains elusive.

Here we explore the conjugative capacity of these mysterious Genomic Islands.

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

New preprint from the lab!

Stress-Induced Cooperation Promotes Tolerance in Resource-Limited Auxotrophic Microbial Consortia.

Great and long journey with great collaborators.

We’re very happy to share the results from the last chapter of my PhD, now out as a preprint on bioRxiv
www.biorxiv.org/content/bior...

Microbial Evolution: Impacts on Human Health Call for Papers A defining characteristic of infectious diseases is that they evolve. The consequences of this evolution are among the most pressing medical issues facing humanity, including emerging pandemics, antibiotic resistance, and the success or failure of vaccines. Pathogen evolution profoundly influences virulence, transmission, and responses to a broad array of human interventions. While the evolutionary dynamics of pathogens have historically been challenging to study, large-scale genomic sequencing, novel computational tools, and experimental methods are rapidly changing the field. We encourage submissions on the broad topic of the evolution of infectious diseases. This Special Issue aims to feature research that blends evolutionary approaches to understanding pathogen heterogeneity and ongoing genetic change in clinical samples and models of human infection. It also seeks to highlight opportunities to design treatment and prevention strategies that remain effective in the face of ongoing pathogen evolution. Submission – open until January 31, 2027 Guest editors Robert Woods, MD PhD, University of Michigan Camilo Barbosa, PhD, University of Michigan Silvie Huijben, PhD, Arizona State University

🚨Call for papers🚨
Microbial Evolution: Impacts on Human Health
in the society journal Evolution, Medicine, and Public Health

Guest Editors: Bob Woods, Silvie Huijben & Camilo Barbosa
EIC: me

This will be great, please submit and share!
academic.oup.com/emph/pages/m...

New preprint from my lab (with Arya Kaul, @fernpizza.bsky.social, and @brinda.eu), in which we explore new genes hitchhiking on the beneficial deletion that fused them together, and find them in the LTEE, M. Tb/bovis, and across the bacterial tree of life

🚨🚨🚨

We're looking for a research tech to work on alt splicing, pancreatic islets and diabetes. The goal is to set a high-throughput platform to investigate the role of alternative exons in beta cell biology!

Interested in joining our lab at @melisupf.bsky.social? 👇

www.upf.edu/documents/d/...

Environment-dependent evolution drives divergent adaptive strategies and parasite dynamics in a minimal community Prophages, phage genomes integrated into bacterial chromosomes, are widespread, yet, the extent to which these resident parasites contribute to host fitness and shape evolutionary trajectories, partic...

Preprint alert📢! 
Ever wondered how much bacterial parasites influence evolutionary outcomes of their host?
➡️ We co-evolved two bacterial strains in conditions in which the costs and benefits of prophage carriage varied

Here is what we found. 
www.biorxiv.org/content/10.6...

#MicroSky #PhageSky
🧵

Phage–bacteria dynamics: The tragedy of the commons at hyperspeed A recent study found that apparently stable coexistence between a clinically important pathogen, Pseudomonas aeruginosa, and its integrated prophages can break down, setting off an evolutionary cycle ...

It was great to write a brief commentary with @sociovirology.bsky.social on @nanamikubota.bsky.social and @vscooper.micropopbio.org's recent discovery of cheat-driven cycles in Pseudomonas (www.cell.com/current-biol... - amazing example of the tragedy of the commons!

🧪 #socialviruses #evosky

What is the best strategy to win any contest?

Eliminate your opponents of course.

Recently, my friend @fernpizza.bsky.social showed how plasmids compete intracellularly (check out his paper published in Science today!). With @baym.lol, we now know they can fight.

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

Intracellular competition shapes plasmid population dynamics From populations of multicellular organisms to selfish genetic elements, conflicts between levels of biological organization are central to evolution. Plasmids are extrachromosomal, self-replicating g...

Hot off the press! Our latest paper led by @fernpizza.bsky.social, understanding how plasmids evolve inside cells. These small, self-replicating DNA circles live inside bacteria and carry antibiotic resistance genes, but also compete with one another to replicate. 1/
www.science.org/doi/10.1126/...

Multi-layered ecological interactions determine growth of clinical antibiotic-resistant strains within human microbiomes Nature Communications - The role of ecological factors in modulating the spread of antibiotic-resistance bacteria in the gut remains unclear. Here, the authors use anaerobic microcosms to study the...

🚨 Excited to share our new paper is out! 🎉
We show how interactions within gut microbiomes allow certain antibiotic-resistant E. coli strains to persist even without antibiotics, helping explain how resistance is maintained in the human gut.

Now published in @natcomms.nature.com rdcu.be/eOf63

Non-conjugative plasmids limit their mobility to persist in nature Sabnis et al. explain why non-conjugative plasmids move at a low rate in nature. While increased mobility can easily evolve by incorporating phage DNA into plasmids, this is disadvantageous because it...

Do plasmids really move around that much? Well, maybe not always

Thrilled to have contributed to this story with two of my favourite microbiologists: @jrpenades.bsky.social & @sanmillan.bsky.social

This great work was led by Akshay Sabnis & @wfigueroac3.bsky.social

www.cell.com/cell-reports...

Non-conjugative plasmids limit their mobility to persist in nature Sabnis et al. explain why non-conjugative plasmids move at a low rate in nature. While increased mobility can easily evolve by incorporating phage DNA into plasmids, this is disadvantageous because it...

New paper with my (amazing) friend and mentor @jrpenades.bsky.social
Really looking forward to see what plasmid aficionados think of this one!!
With @asantoslopez.bsky.social @wfigueroac3.bsky.social Akshay Sabins and others
www.cell.com/cell-reports...

Non-conjugative plasmids limit their mobility to persist in nature Sabnis et al. explain why non-conjugative plasmids move at a low rate in nature. While increased mobility can easily evolve by incorporating phage DNA into plasmids, this is disadvantageous because it...

✨New paper from @jrpenades.bsky.social and @sanmillan.bsky.social labs. We found that non-conjugative plasmids 🧬 tend to have low mobility to promote functional diversity ⚔️💊 in bacterial communities🦠🦠.
Brilliant work by Akshay, @asantoslopez.bsky.social and others.

www.cell.com/cell-reports...

Predoctoral contract - Centro de Biología Molecular Severo Ochoa Contract for the doctoral thesis project: «Development of a new diagnostic method for SIBO».   Call We are looking for a student to join our research team (https://rebrand.ly/druanogallego) at the Sev...

📢¡Oferta de trabajo en el CBM!
El grupo de David Ruano ofrece un contrato predoctoral para desarrollar un nuevo método diagnóstico del SIBO (Small Intestinal Bacterial Overgrowth).
Plazo hasta el 30 oct.
Info👇
www.cbm.uam.es/index.php/jo...

🚨🚨🚨
Two super well-funded PhD grants from our MSCA Doctoral Network @evomg-dn.bsky.social at our lab at @melisupf.bsky.social, @crg.eu and the @evomg-bcn.bsky.social Program.

If you're excited about evolution, genomics and biomedical research, this is your DN! 😃

Further info: www.evomg-dn.eu and 👇

Session 3 (Thr 09/10 in the afternoon) was dedicated to Microbes, microbiome and antibiotic resistance.

Nuestro compañero Álvaro San Millán (@sanmillan.bsky.social), investigador en el #CNB_CSIC ha recibido el Premio María Moliner, que reconoce la labor de quienes se inician en la dirección de tesis doctorales, destacando su compromiso en el acompañamiento del talento emergente.

¡Enhorabuena!👏

Resistance mutation supply modulates the benefit of CRISPR immunity against virulent phages Only a fraction of bacterial genomes encode CRISPR-Cas systems but the selective causes of this variation are unexplained. How naturally virulent bacteriophages (phages) select for CRISPR immunity has...

New preprint!

Ever wondered why only a fraction of genomes encode CRISPR immunity? 🧬 🦠

Turns out CRISPR is rarely beneficial against virulent phages, being most beneficial against those for which resistance mutations are rare!

An epic effort by Rosanna Wright

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

Pre- and postantibiotic epoch: The historical spread of antimicrobial resistance Plasmids are now the primary vectors of antimicrobial resistance, but our understanding of how human industrialisation of antibiotics influenced their evolution is limited by a paucity of data predati...

Imagine we could travel back in time ⏪⌛️to explore the world of bacterial pathogens before humans discovered and industrialised antibiotics

We just did that to study the history of #AMR spread @science.org
doi.org/10.1126/scie...

If you like time travel & biology, this 🧵is for you👇

I love this paper. Congrats!!

Published in Current Biology! P. aeruginosa can use its filamentous phage to inhibit competitors but high phage production is susceptible to cheater miniphage invasion. Subsequent phage tragedy of the commons can lower bacteria and phage fitness. Link: authors.elsevier.com/c/1lt5I3QW8S...

View from the lab now. Did I mention that we are recruiting faculty microbiologists?

www.linkedin.com/posts/vaughn...

This is awesome! Congrats!

Delighted to see our paper studying the evolution of plasmids over the last 100 years, now out! Years of work by Adrian Cazares, also Nick Thomson @sangerinstitute.bsky.social - this version much improved over the preprint. Final version should be open access, apols.
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