Cultivating the Ancestors… in Motion
What electron microscope images hint at, but can only be seen in videos: how 'Asgard' archaea move.
Bacteria with archaella, who would have thought that this existed. Happy to share that it does 🎉and we just published it today in @natmicrobiol.nature.com 🎉🥳. Congrats to everyone involved! 🦠
1/ Excited to share our latest work on gene transfer agents (GTAs) in Caulobacter crescentus, led by Emma Banks in collaboration with Pavol Bardy and Mai Nguyen from York!!! See a brief thread below.
shorturl.at/o6S1w
The Archaeacast! Yes, a podcast about #archaea!
by Priyanka Chatterjee, @cjhines.bsky.social, Alex Phillips, Theopi Rados & guests!
Sixth episode: Archaea and Us: Heroes or Villains?
rss.com/podcasts/arc...
@archaeapowerhour.bsky.social @archaeabio.bsky.social
#microsky
What electron microscope images hint at, but can only be seen in videos: how 'Asgard' archaea move.
Bacteria have evolved a wide array of immune systems to detect and defend against external threats including mobile genetic elements (MGEs) such as bacteriophages, plasmids, and transposons. MGEs are ...
Manuscript/resource alert #microsky 🦠 My lab offers the community a collection of 30 E. coli (CloneFISH) cultures, each carrying a plasmid for the heterologous expression of a (near) full-length 16S rRNA gene from one of 30 lineages of archaea, including 19 yet uncultured ones.
Welcome to ArchaeaCast! In our sixth episode, our hosts Priyanka Chatterjee and Dr. Connor Hines discuss the archaea that are very close to home–the ones that can live in and on us! In the second part...
See also the associated paper by Marcelo Torres, Fangping Wan & Cesar de la Fuente-Nunez
@delafuentelab.bsky.social
www.nature.com/articles/s41...
STCmicrobeblog
Shamphavi Sivabalasarma
Joining the race to the bottom has never been cooler...
www.biorxiv.org/node/4580343...
www.biorxiv.org/content/10.1...
Tung Le
Geo Santiago-Martínez
Roland Hatzenpichler
Use of artificial intelligence to mine proteomes of archaea led to the discovery of archaeasins, antimicrobials that kill drug-resistant bacteria in laboratory and animal models, offering a promising source of future antibiotics.
Defining the minimal genetic requirements for cellular life remains a fundamental question in biology. Genomic exploration continually reveals novel microbial lineages, often exhibiting extreme genome...
www.biorxiv.org
Happy to share that our story on the bacterial archaellum was published today in @natmicrobiol.nature.com
www.nature.com/articles/s41...
Congrats to the authors: @sshamphavi.bsky.social @loumollat.bsky.social @mariejoest.bsky.social Najwa Taib and @sgribaldo.bsky.social
Nature Microbiology
Tobias Warnecke
On our new episode of Archaeacast, Priyanka and I cover the Archaea we carry with us every day. Followed by a brilliant interview w/ @chmoei.bsky.social discussing a correlation between Archaeal populations and BMI, the absence of pathogenic Archaea, & more!
#SciSky #AcademicSky #Microbiology #Life
Bona fide gene clusters for archaella are widespread across a bacterial phylum and encode functional motility machinery.
Welcome to ArchaeaCast! In our sixth episode, our hosts Priyanka Chatterjee and Dr. Connor Hines discuss the archaea that are very close to home–the ones that can live in and on us! In the second part...
Would you expect that Bacteria use an archaellum for swimming? We didn't, but we found that some Chloroflexota do! Find the story here: www.biorxiv.org/content/10.1...
A little thread below 1/n
Connor Hines
Motility in Archaea is driven by a nanomachinery called the archaellum. So far, archaella have been exclusively described for the archaeal domain; however, a recent study reported the presence of arch...
