EGFR, on the other hand, was imaged using a 1-plex approach. As a result, the EGF appears more intense in this figure than EGFR, even though the actual molecular ratio may not be skewed. Hope that answered your question! 2/2
09.05.2025 16:59 โ ๐ 1 ๐ 0 ๐ฌ 1 ๐ 0
Excellent question, Sahar!
The reason you're seeing more pink signal from EGF compared to the cyan EGFR signal is due to the imaging methods used in this figure. Specifically, we performed a 3-plex RESI experiment to label EGF. 1/2
09.05.2025 16:59 โ ๐ 1 ๐ 0 ๐ฌ 1 ๐ 0
Big shoutout to co-first authors, Isabelle Pachmayr and Larissa Heinze, for their incredible work and dedication. This work would not have been possible without Levent Bas, @lumasullo.bsky.social, Jisoo Kwon, Ana Perovic, Brenda Schulman, and Ralf Jungmann, as well as the
@jungmannlab.bsky.social!
10.04.2025 11:40 โ ๐ 2 ๐ 1 ๐ฌ 0 ๐ 0
The resolution of the newly developed RESI method allows us to quantify the clustering of EGF within the internalizations. This clustering is crucial for understanding how EGF initiates signaling pathways that regulate cell growth. 5/5
10.04.2025 11:40 โ ๐ 1 ๐ 1 ๐ฌ 1 ๐ 0
We could also observe EGF-EGFR clusters in 3D, capturing the internalization process of the ligand-receptor pair โ down to a few nanometers! 4/5
10.04.2025 11:40 โ ๐ 1 ๐ 0 ๐ฌ 2 ๐ 0
Using this tag, we could visualize EGF-EGFR interactions in 2D, observing distinct clustering behavior of EGFR on the cell membrane. Additionally, we could identify EGFR dimers as well as the co-localization of EGFR and EGF. 3/5
10.04.2025 11:40 โ ๐ 2 ๐ 0 ๐ฌ 1 ๐ 0
We can study these tiny interactions by visualizing single molecules with DNA-PAINT. To image EGF, we tagged the ligand with a small peptide tag called ALFA-tag. 2/5
10.04.2025 11:40 โ ๐ 1 ๐ 0 ๐ฌ 1 ๐ 0
When ligands land on a cellโs surface, they interact with receptors, sparking a signal that travels to the cellโs control center: the nucleus. One key pair is the Epidermal Growth Factor Receptor (EGFR) and its ligand EGF. They play a crucial role in both cell growth and cancer. 1/5
10.04.2025 11:40 โ ๐ 2 ๐ 0 ๐ฌ 1 ๐ 0
IMAGING LIGAND-RECEPTOR INTERACTIONS AT SINGLE-PROTEIN RESOLUTION WITH DNA-PAINT๐ฌ
Ever wonder how cells "talk"? It starts when ligands bind to receptors on cell surfaces. We have cracked the challenge of imaging small ligands on cell surfaces. #DNAPAINT #celltalk ๐ฌ
doi.org/10.1002/smtd...
10.04.2025 11:40 โ ๐ 20 ๐ 6 ๐ฌ 2 ๐ 2
Postdoc working on RNA Nanotech & MD simulations @uniheidelberg.bsky.social & MPIP. GROMACS wrangler, oxDNA developer, @molpigs.bsky.social podcast host, and all around weird lil guy.
Has been known to post about music and neat bugs found in the woods.
Scientist
Immunology, Membranes, Lipids, Microscopes, Open Science
Still seeking M. Ulder for joint author paper.
Microscopes โ
cats โ
combining the two โ
Lab --> https://www.kcl.ac.uk/research/culley-group
Molecular Transport in Cell Biology and Nanotechnology - Research group of Stefan Diez at B CUBE, TU Dresden and MPI-CBG Dresden
Membrane cytoskeleton, specifically septins. Nanobodies, superresolution. Developing microscopy assays for cell biology. We love complicated experiments! Opinions my own as scientist, parent, citizen.
Develops single-molecule imaging tools to gain detailed information about cellular nanoscale structures, dynamics, and molecular mechanisms.
https://gustavssonlab.rice.edu
Max Planck Institute investigating how animals acquire, store, apply and pass on knowledge about their environment.
Tinnefeld lab @lmumuenchen.bsky.social ๐งฌ
We systematically elucidate the mechanisms underlying cell division and nuclear organisation and develop advanced imaging technologies
@EMBL.org
Science beyond disciplines โ pioneering research in genome biology, immunology, virology & oncology www.genzentrum.lmu.de
Official account of the Gene Center Munich, a central scientific institution @lmumuenchen.bsky.social
Impressum: tinyurl.com/59k5d95t
Professor. Institute for Molecular Science, NINS, Japan. Molecular Motors.
Lab: https://groups.ims.ac.jp/organization/iino_g/index.html
Google Scholar: https://scholar.google.jp/citations?hl=en&user=_4_iGHcAAAAJ
YouTube: https://www.youtube.com/@IINOG_IMS
Department of #MachineLearning and #SystemsBiology @MPI_Biochem, directed by Karsten Borgwardt
R&D Scientist at ZEISS Group | PhD in Physics | Spearheading Development of Innovative Optics & Photonics Solutions
Website: http://ulrikeboehm.org
Physicist from ๐ฆ๐ท interested in single molecule localization microscopy. HFSP fellow at Simoncelli's lab at UCL, London. (She/her)
graduate student @torontometu ๐จ๐ฆ
cell biology, EGFR regulation, single particle tracking
Researcher at the University of Gรถttingen, Germany. Microscopist, Method developer: super-resolution imaging, SMLM, DNA-PAINT, FLIM, Multiplexing, Microfluidics.
Cell biology lab at Goethe University Frankfurt. Exploring subcellular architecture with super-resolution fluorescence microscopy. Focused on how organelles coordinate lipid and energy metabolism.
www.stephan-lab.de
