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Published in Science: "MINFLUX dissects the unimpeded walking of kinesin-1" by Jan O. Wolff, Lukas Scheiderer, Tobias Engelhardt, Johann Engelhardt, Jessica Matthias and Stefan W. Hell. science.org/doi/10.1126/sc… Science Magazine Max Planck Institute for Medical Research #MINFLUX #Fluorescence #Microscopy

A noninvasive imaging technique can track the motion of single biomolecules in live cells. Learn more in Science ⬇️ 📄: scim.ag/22g 📄: scim.ag/22k #SciencePerspective: scim.ag/22j

📣New article about the updated version of the #fluorescence #MINFLUX #microscope 🔬. This #cuttingedge technology allows for detailed observations of the tiny movements of individual proteins like never before 👉 bit.ly/3JSgd6d #microscopy #science #research

A noninvasive imaging technique can track the motion of single biomolecules in live cells. Learn more in Science ⬇️ 📄: scim.ag/24q 📄: scim.ag/24r #SciencePerspective: scim.ag/24s

“But it (#MINFLUX) was also well suited, for the first time, for tracking single #fluorophores with simultaneous #nanometer and millisecond precision.” Yes, this is true😀 #abberior #science #microscopy pubs.aip.org/physicstoday/a…

Powerful microscope captures motor proteins in unprecedented detail nature.com/articles/d4158…

Fretting over #FRET distances 😥?  #MINFLUX can be the answer 😃💡! See our paper by S. Sahl et al: biorxiv.org/content/10.110…

Intra-molecular resolution. With focused visible light: biorxiv.org/content/10.110… MPI for Multidisciplinary Sciences Max Planck Institute for Medical Research #MINFLUX #FRET #Fluorescence #Superresolution #Microscopy

#abberior #MINFLUX microscope measures distances with Ångström precision 👉

The Stefan Hell Labs family at #SMLMS2023 — 🍩's past and present united! Chromatin labeling and imaging, R. Gerasimaite, Ilaria Testa Lynn Ostersehlt Vicidomini Lab Francisco Balzarotti, I.Jansen, Richard Lincoln, Ph.D. Elisa D'Este, J.O.Wirth, S.J.Sahl, Mark Bates Bewersdorf Lab Missing:Johann G. Danzl & S.Schnorrenberg

MINFLUX is hot on the heels of kinesin in cells biorxiv.org/content/10.110…

In our newest work from Stefan Hell Labs at Max Planck Institute for Medical Research M. Remmel and Jessica Matthias showcase PaX dyes for quantitative and live-cell @MINFLUX nanoscopy. We also report a new dye, PaX595, for dual color 561 MINFLUX imaging based on spectral classification. doi.org/10.1002/smtd.2…

🥳Huge congrats to our very own Katarina Chapman and Philip Matthias on being selected to join the 73rd Lindau Nobel Laureate Meeting Lindau Nobel Laureate Meetings as Young Scientists! Stefan Hell Labs Max Planck Society

A team led by Steffen Sahl & Stefan W. Hell MPI for Multidisciplinary Sciences and Max Planck Institute for Medical Research has succeeded in measuring distances within biomolecules using the #MINFLUX microscopy method, down to 1 nanometer and with Ångström precision. Read more in our press release: mpinat.mpg.de/4816514/pr_2419

Published in Science Magazine: "Direct optical measurement of intramolecular distances with angstrom precision" (Sahl et al.) science.org/doi/10.1126/sc… MPI for Multidisciplinary Sciences Max Planck Institute for Medical Research #Optics #Imaging #Microscopy #MINFLUX #Fluorescence

An extremely precise reason why #MINFLUX changes the game:

#MINFLUX detects two arrangements of a protein subunit dimer by directly resolving fluorescent markers at and below FRET-range distances. MINFLUX #imaging has gone inTRA-molecular! Learn more at science.org/doi/10.1126/sc… and mpinat.mpg.de/4816514/pr_2419 @mpinat Max Planck Institute for Medical Research #Optics #

Yes, as expected, Kinesin-3 KIF1A predominantly adopts a two-heads-bound state, both at saturating and limiting ATP concentrations. This contrasts with Kinesin-1 KIF5B and provides a mechanistic explanation for KIF1A's superprocessivity. Check out the details in our latest

Check out our new preprint from Matteo Mazzocca Domenic Narducci Simon Grosse-Holz Jessica Matthias profiling chromatin dynamics across 7 orders of magnitude in time using MINFLUX providing insights into first passage times for distal genomic interactions: biorxiv.org/content/10.110…

(1/13) Thread on Matteo Mazzocca Domenic Narducci Simon Grosse-Holz Jessica Matthias new preprint Q: how does chromatin move? Using MINFLUX, SPT & SRLCI, we track chromatin dynamics across 7 orders of magnitude in time to provide some answers biorxiv.org/content/10.110…