🔬 This gives us a more streamlined interferometric microscopy setup that expands accessibility of interferometric SMLM for more labs!
📢 Check out the full paper here:
✨https://t.co/1vg381dcZf
(4/4)
We've developed Vortex Interference Localization Microscopy (VILM) – a new interferometric super-resolution method that streamlines 4Pi single-molecule imaging using a much simpler setup! 🔬
🧵👇 (1/4) #Microscopy#SuperResolution#SMLM#Bioimaging
VILM is inspired by STED (vortex phase plates) and PSF engineering (helical PSF). We show that in a 4Pi-setup, a pair of vortex phase masks can generate a rotating bilobed PSF, allowing direct 3D localization in a single-shot (3/4)
"Alternative molecular mechanisms for force transmission at adherens junctions via β-catenin-vinculin interaction" Nice paper from Cristina Bertocchi and Andrea Ravasio at @ucatolica and @MBIsg https://t.co/JYCEEWO3mR @LivUniISMIB
Exciting breakthrough! 🎉 Thrilled to announce the publication of our research on TiO2 Nanopatterning & Optimal Ligand Presentation in Adv Mater! @AdvSciNews @MBIsg 🧪🔬 #CellBiology#NanoEngineering
https://t.co/VLukokNEt2
Delayed getting to this due to vacation - but very happy to announce our new publication with colleagues @YalePharm@YaleCellBio. Thankful to anonymous reviewers for useful comments, to @MJ_Humphries for clear editorial guidance and @JCellBiol for a positive publishing experience
Congratulations to this year's #LaskerAward winner! Take a look at our (very well-timed!) Review on #integrin|-mediated cell adhesion, written by @CalderwoodLab and @KanchanawongLab and published just this week 👇🏼
FREE #sharedit 🔗https://t.co/lU1hQ6Ruh2
Congratulations to long-time ASCB members Richard Hynes @MIT and Timothy Springer @BostonChildrens , who with Erkki Ruoslahti, received the 2022 Albert Lasker Basic Medical Research Award @LaskerFDN for discoveries concerning integrins!
https://t.co/z55VY8SyJe
Congratulations Richard O. Hynes, Erkki Ruoslahti, and Timothy A. Springer, 2022 #LaskerAward winners! — “for discoveries concerning the #integrins—key mediators of cell-matrix and cell-cell adhesion in physiology and disease”.
@MIT@sbpdiscovery@harvardmed#Lasker2022