Hans schoofs
@hansschoofs.bsky.social
Post-doc at NKI-AVL - van Rheenen group - Two photon enthusiast- Vascular biologist-
This work would not have been possible without our many collaborators who provided reagents, lines and much needed support! @ruibenedito.bsky.social, M. Jeansson, @brittae.bsky.social, D. Vestweber, K. Gängel, O. Friedrich, J. van Buul, P. Saharinen, R. Smith and M. Majda and many others!
March 20, 2025 at 2:05 PM
This work would not have been possible without our many collaborators who provided reagents, lines and much needed support! @ruibenedito.bsky.social, M. Jeansson, @brittae.bsky.social, D. Vestweber, K. Gängel, O. Friedrich, J. van Buul, P. Saharinen, R. Smith and M. Majda and many others!
Intravital imaging of actin using a newly generated inducible R26-LSL-Lifeact-GFP line revealed that actin dynamics likely drive the remodeling of LEC lobes and overlaps, while microtubules contibute to core cellular stability.
March 20, 2025 at 2:05 PM
Intravital imaging of actin using a newly generated inducible R26-LSL-Lifeact-GFP line revealed that actin dynamics likely drive the remodeling of LEC lobes and overlaps, while microtubules contibute to core cellular stability.
The oak-leaf cell shape of capillary LECs has been described centuries ago. However using the R26-iMb line developed by @ruibenedito.bsky.social enabled us to illuminate individual cells and their overlaps. This analysis showed that overlaps shrink in response to increased fluid volume.
March 20, 2025 at 2:05 PM
The oak-leaf cell shape of capillary LECs has been described centuries ago. However using the R26-iMb line developed by @ruibenedito.bsky.social enabled us to illuminate individual cells and their overlaps. This analysis showed that overlaps shrink in response to increased fluid volume.