🚨#LLPS: New trick for an old membrane protein!
Homo- and hetero-condensates of a native membrane protein in E. coli tagged with PopTag
🔬🦠
LacY-PopTag is functional and localizes at cell poles or mobile foci in a curvature-dependent manner
🔗https://t.co/1SmP3ZSUUX
Check out our new paper🎉
https://t.co/H1DAosQkvc
Mechanosensitive Flipper-TR from @matile_group can be used for #SMLM in model membranes:
✨Single-molecule tracking of Flipper-TR in lipid bilayers with varying fluidity
✨Super-resolution imaging of both Lo and Ld GUVs
I'm thrilled to share our preprint on the phenotypic drug susceptibility test for Mycobacterium bovis BCG.
One-day phenotypic drug susceptibility testing for Mycobacterium tuberculosis variant bovis BCG using single-cell imaging and a deep neural network https://t.co/6g30dRK0GP
We explored the mechanisms behind slower diffusion of cytosolic proteins at the cell poles of E. coli using SMdM microscopy
Polyribosomes❌
mRNA❓
Protein aggregates, cell aging✅
Happy to be the part of Linnik @LenOvosch et al. team!
@MembraneEnzymo1
https://t.co/DykJDkavuy
What are the limiting factors of protein diffusion in bacteria periplasm and what influences it?
We used single-protein displacement measurements and extensive computer simulations to give some answers on these question.
https://t.co/E3dCZSqs1R
Done in @MembraneEnzymo1 group
Our new @PLOSCompBiol paper revealing effect of bacterial cell aging on protein mobility using combination of single-protein diffusion mapping 🔬 and computer simulations 🖥️
https://t.co/Daft7NirAi
Done in @MembraneEnzymo1 group of @univgroningen
#EBSA2023 provided an opportunity to visit the Blue and Gold Nobel Hall, so that next time we know where to go to celebrate the receipt of the Nobel Prize ha-ha
@pricelesska@LenOvosch