Florian Schueder

Big news: I’m joining @EPFL_en as Tenure-Track Assistant Professor of Life Science Engineering! Can’t wait to push super-resolution microscopy & spatial omics even further and build new collaborations in Lausanne. 🚀 #EPFL #SuperResolution #Microscopy #SpatialOmics #DNAPAINT

🔬🧬 New in @NatureComms: Nanoscale 3D DNA tracing in non‑denatured cells maps the #3Dgenome at nm‑resolution and reveals Cohesin‑dependent dynamic loops! 🚀 #OpenAccess  nature.com/articles/s4146… EllenbergLab @JungmannLab #Genomics #SuperResolution

Really excited to share this Perspective from John Danial covering how technology is moving the field of fluorescence microscopy toward structural biology. nature.com/articles/s4159…

The Stocker Lab’s @juanitamlg and colleagues discovered a new and highly interesting iron uptake mechanism in bacteria. biorxiv.org/content/10.110…

I am very excited and deeply honored that our most recent work on #FLASHPAINT was highlighted as one of the methods to watch by @naturemethods' @rita_strack in the context of ‘spatial proteomics’ as Nature Methods' Method of the Year 2024.

BREAKING NEWS The Royal Swedish Academy of Sciences has decided to award the 2024 #NobelPrize in Chemistry with one half to David Baker “for computational protein design” and the other half jointly to Demis Hassabis and John M. Jumper “for protein structure prediction.”

BREAKING NEWS The 2024 #NobelPrize in Physiology or Medicine has been awarded to Victor Ambros and Gary Ruvkun for the discovery of microRNA and its role in post-transcriptional gene regulation.

.@BerrakUgur1 et al @PDClab @YaleCellBio @YaleNeuro characterize the bridge-like lipid transfer protein VPS13B & report its localization btwn #Golgi cisternae & its impact on Golgi complex reformation after BFA-induced dispersion. hubs.la/Q02Rm3lt0 @FSchueder @MLeonzino

Please check out our (@PDClab @bewersdorflab) latest work on determining the location of the lipid transfer protein VPS13B within the Golgi complex. We use 7-color #FLASHPAINT imaging to locate VPS13B within the Golgi complex. @JCellBiol @YaleMed doi.org/10.1083/jcb.20…

The future of microscopy is "smart" and software tools like 'navigate' from Kevin Dean and colleagues for controlling light-sheet microscopes will be a critically important part of that! nature.com/articles/s4159…

Last week we had our LSA8 in Berlin! It was an intense week with lots of self-reflection, exchange, and activities - summarized in our signature poster! Our fellows spent these days getting to know each other while questioning and discussing their own understanding of leadership.

PhD position in Mechanobiology in Marseille! Are you excited to study how mechanical forces impact the transcription of muscle nuclei as well as muscle metabolism? Join us at our fantastic campus in Marseille. thenode.biologists.com/jobs/phd-posit… @Fly_EDS @IBDMmarseille @CNRSbiologie #muscle

Imaging techniques keep getting more exciting! 🤩 @FSchueder, @JoergBewersdorf & team present their newly developed FLASH-PAINT 🖌️ #microscopy technique! FLASH-PAINT enables highly multiplexed super-resolution imaging. @bewersdorflab @CellCellPress | bit.ly/44bvEjJ

Research Highlight by Nina Vogt: FLASH-PAINT from @bewersdorflab and SUM-PAINT from @JungmannLab allow fast and highly multiplexed super-resolution imaging for omics-style studies of cellular complexity at the level of proteins. nature.com/articles/s4159…

Interested in super-resolution microscopy or DNA-PAINT? Dive into our chapter on 'In Situ Imaging of Proteins Using DNA-PAINT Super-Resolution Microscopy'—perfect for beginners! #DNAPAINT link.springer.com/protocol/10.10…

Yale School of Medicine scientists have devised a novel way to view the inner workings of individual cells that is faster and cheaper than existing techniques — and offers much more detail. #Yale medicine.yale.edu/news-article/a…

Revolutionary FLASH-PAINT microscopy developed by @JoergBewersdorf 's lab at Yale reveals an unparalleled view of countless cellular molecules, transforming our understanding of intricate cellular dynamics: medicine.yale.edu/news-article/a…

A @YaleCellBio research team says its new #microscopy technique, FLASH-PAINT, allows scientists to track many #molecules within a #cell at once in super-resolution. Authors say FLASH-PAINT is 100x faster than current techniques at a fraction of the #cost: brnw.ch/21wIPzo