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
I am excited to share our new preprint on the CAGE complex, a mysterious hollow protein complex that I first saw years ago while surveying Tetrahymena ciliary lysate www.biorxiv.org/content/10.1... #cilia #protistsonsky 🧬🧪
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 🧵
Assembly, architecture and functional roles of microbial surface layers
Review article published in @natrevmicro.nature.com with @bupbuse.bsky.social, Andriko von Kügelgen and @vikramalva.bsky.social.
S-layers are everywhere!
www.nature.com/articles/s41...
This is super impressive and interesting #TeamTomo work by @carter-lab.bsky.social. Congrats everyone!! 🧪 🧶🧬
Wilfling Lab
Caitie McCafferty
#TeamTomo visualizes amazing (green 💚♻️) proteasome crystals in yeast. This project was a long time coming -- I remember talking to Cordula about it back when I was a postdoc in Martinsried. Some really cool and surprising findings here. Nice to see it out, and congrats to all the authors! 🧪 🔬
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 🧪 🧶🧬 🔬
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 🧪🧶🧬🔬
Across scales from cells🦠 to atoms⚛️ – We reveal how anaerobic #bacteria break down very stable aromatic compounds found e.g. in oil spills 🛢️ #Bioremediation #TeamTomo 🧪 🧶🧬 🔬
Awesome collab with Lena, Matthias, @schullerjm.bsky.social @rnfr2d2.bsky.social @tomaspascoa.bsky.social @tamb-o.bsky.social
Time for a thread!🧵 How different is the molecular organization of thylakoids in “higher” plants🌱? To find out, we teamed up with @profmattjohnson.bsky.social to dive into spinach chloroplasts with #CryoET ❄️🔬. Curious? ..Read on!
#TeamTomo #PlantScience 🧪 🧶🧬 🌾
elifesciences.org/articles/105...
1/🧵
Florent Waltz
Tanmay Bharat
Ben Engel
Ben Engel
Ben Engel
Ben Engel
Ben Engel
Ben Engel
Video
Video
Surface layers (S-layers) are ubiquitous protein assemblies that coat prokaryotic cells, with their functional roles increasingly coming into focus. In this Review, Isbilir and colleagues discuss rece...
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...
Video
✨Excited that the main project of my PhD is now available as a pre-print on #bioRxiv
Here, we used #CryoET to visualise mitochondrial proteostatic stress and together with SPA #CryoEM shed light into the functional cycle of the Hsp60:10 chaperone system. #TeamTomo
🔗 www.biorxiv.org/content/10.1...
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
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...
Carter Lab
Our colleagues Vinith Kishore and Valentin Debarnot from the @ivandokmanic.bsky.social lab have come up with an amazing deep learning tool for denoising and filling the missing wedge in #cryoET data. I'm pleased to introduce Icecream🍧
Max Planck Institute of Biochemistry
Kenneth Ehses
Tomas Pascoa
Ricardo D. Righetto
Cryo-electron tomography (cryo-ET) visualizes 3D cellular architecture in near-native states. Recent deep-learning methods (CryoCARE, IsoNet, DeepDeWedge, CryoLithe) improve denoising and artifact cor...
