1/ Excited to share our preprint! 🥳
Degradation of aromatic compounds, including BTEX pollutants, requires highly endergonic aromatic ring reduction. Using #cryoEM and in situ #cryoET, we show how BCRII couples electron bifurcation modules in one giant redox machine
www.biorxiv.org/content/10.6...
In a followup with @longzhou88.bsky.social and Yue Liu we move from molecular mechanism to membrane architecture. A giant ETC-ATP synthase assembly containing 10 ATP synthases and 6 respiratory complexes builds long-range periodic OXPHOS arrays on native cristae langtaosha.org.cn/lts/en/prepr... 1/4
I am excited to share our most recent work collaborating with @centriolelab.bsky.social and @stearnslab.bsky.social to look at the ciliary base of mammalian multiciliated cells w/ cryo-ET, XL/MS, and U-ExM www.biorxiv.org/content/10.6...
Excited to share our work on the structure and function of cytoplasmic lattices within mouse embryos. A collaborative effort with @niakanlab.bsky.social and work led by @kashishsingh.bsky.social and @inaharasimov.bsky.social . It is now out on BioRxiv: www.biorxiv.org/content/10.6...
Congratulations to Dr. Julia Mahamid on receiving the 2026 Gottfried Wilhelm Leibniz Prize! 🎉
Her pioneering work in cryo-ET is reshaping our understanding of how molecular architecture drives cellular processes and disease.
#teamtomo #LeibnizPrize #StructuralBiology #LifeSciences #Innovation
This is a proud and exciting moment for me. Manon continues to redefine our understanding of pyrenoid biology, as she pushes the frontiers of #TeamTomo straight into the natural world around us 🌍🌊🌾🔬
Her new group at @gmivienna.bsky.social will explore fresh and impactful questions. Check it out! 🧪👩🔬
A consortium of group leaders from IMP, IMBA (Vienna BioCenter) and ISTA has been awarded an FWF Emerging Fields grant to study how germ cells safeguard and pass on genetic information across generations.
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...
Check out this beautiful study, spearheaded by Kenny @denkenny.bsky.social, on mitochondrial remodeling. Some of the prettiest organelle segmentations I have seen 😍😍😍
www.science.org/doi/10.1126/...
Thanks Max 🫶🏽 Although, I'm not sure that's true in a world where Chlamydomonas-segmentations exist!
Mammalian cells form hibernating disomes akin to those in bacterial cells - but connected via ribosomal RNA
www.science.org/doi/10.1126/...
co-first with: @andschwarz.bsky.social
with: @lea-dietrich.bsky.social, @sgiando.bsky.social, @erin-schuman.bsky.social and many more
🧵 0/6
#MolBio 🧪
We are in EMBO J. See DNA and non-octameric nucleosome-like particles in situ
link.springer.com/article/10.1...
Long in the making, but happy to present the Chlamydomonas chlororibosome!
Cryo-ET🔬reveals a large new domain on the small subunit, built from multiple extensions in conserved ribosomal proteins.
bioRxiv 📖: shorturl.at/q44tG
This suggests greater chlororibosome diversity than expected!
1/n 🧵
How does molecular valency shape condensate assembly and function? We used the CO2-fixing organelle in algae—the pyrenoid—to find out… 🧵
Preprint here!:
www.biorxiv.org/content/10.6...
@cellarchlab.com @phaips.vd.st @biologyatyork.bsky.social
#Rubisco #PhaseSeparation #Condensates #Pyrenoid
Formation & function of #MembranelessOrganelles! #CryoET structures of #proteasome storage granules inside cells!
Read our paper @cp-cell.bsky.social!
❕Publication: doi.org/10.1016/j.ce...
❕Press Release: www.biochem.mpg.de/en/pressroom
@uoftmedicine.bsky.social
@erc.europa.eu #UPSmeetMet
Proteostatic stress triggers cristae remodeling and aggregate formation within mitochondria.
CRN Teams Harper & Alessi used cryo-electron tomography to show how PINK1-activating stress disrupts mitochondrial structure, revealing protein aggregation, cristae loss, and key changes linked to #Parkinsons 🧬
🔗 Read the full #preprint: bit.ly/49N4mmW
✏️ @denkenny.bsky.social
I am super happy to share this paper in its final form. We used FIB milling to "dig in to" cell lines and mouse brains infected with tick-borne flaviviruses, followed by cryo-ET to study the virus replication. It's open access, so have a look!
#virology #teamtomo
www.nature.com/articles/s41...
We are excited to share our new preprint which is now available to read on biorXiv: doi.org/10.64898/202... 🎉🎉🎉
LLOMe has long been used to study lysosomal damage, yet how it works has remained a mystery.
Using cryo-electron tomography, we show it forms amyloid structures inside lysosomes that mechanically rupture membranes – revealing a new paradigm for lysosomal failure.
🔗 doi.org/10.64898/202...
#CryoET
Really excellent work by the bluesky-less Marie and Sara +coauthors in our lab @embl.org! Check it out for cool combinations of light microscopy and #cryoET, and if you're interested in how yeasts reorganize structurally in response to stressors. #teamtomo
Final version is out! Our large-scale cryo-ET dataset 🔬 of Chlamydomonas reinhardtii 🦠 is now published in @cp-molcell.bsky.social
Huge collaborative effort! So glad to see the community already using it to develop new resources & tools.
Check it out here: shorturl.at/z4i4c
#CryoEM #CryoET
It’s out! Using cryo-ET in Dicty cells, we take a fresh in situ look at vaults. Surprisingly, we uncover vaults associated with ER and NE membranes, and find that many vaults enclose ribosomes in defined orientations, opening new avenues to their cellular function! www.biorxiv.org/lookup/conte...
Holy cow the Zhou lab at UCLA is cooking with Isonet 2 - www.biorxiv.org/content/10.6...
Averaging-free direct visualization of ribosome translational state! #teamtomo #cryoet
CryoET of microbes inside an animal organ? Yes it’s possible! Check out our new preprint showing how we did it! What an amazing collaboration with amazing scientists who made this possible!
Very cool to see our Umeå colleague and fellow structural virologist raking in a major grant. Congrats @maxrenner.bsky.social !
www.umu.se/en/news/umea...
Our new preprint is out 🥳🥳🥳
Henipaviruses, like Nipah and Hendra, package their genomes inside helical shells built by thousands of nucleoproteins. These nucleocapsids are essential to protect the viral RNA, but how do they ever let the polymerase in to read the sequence?
👇
Hey #TeamTomo …would you like to try some 🍦ICECREAM!? Our @unibas.ch colleagues over at the @ivandokmanic.bsky.social lab have developed a stunningly effective tool to de-noise and de-wedge your tomograms. The contrast and details will give you brain freeze! 🍨❄️🤯
Please try, we need feedback 🧪🧶🧬🔬
Figure 1 from the preprint
Check out our preprint! With new molecular mechanisms, 140 subtomogram averages, and ~600 annotated cells under different conditions, we @embl.org were able to describe bacterial populations with in-cell #cryoET. And there’s a surprise at the end 🕵️
www.biorxiv.org/content/10.1...
#teamtomo
What happens when the cell's powerhouse gets stressed out? 💪🥵 Great visualization in this #Mitochondria #TeamTomo study! Congrats @denkenny.bsky.social @ruferbus.bsky.social & crew 🧪 🧶🧬 🔬
Thanks Max!!!
