PhD position: Quantitative Imaging & Cell Mechanics, studying how mechanics and cell dynamics shape early mammalian embryos. Interdisciplinary project (physics, dev. biology, ML) in Oslo. Deadline: 10 April 2026. See poster/QR for details. www.jobbnorge.no/en/available...
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We’re hiring a Postdoctoral Fellow for an exciting new research project on Hidradenitis Suppurativa.
Apply now and please pass this on to anyone who might be interested!
www.finn.no/job/ad/44835...
Really excited to share our new paper in @nature.com! We uncovered how a physical instability of the cytoplasm coupled with the cell cycle drives cytoplasmic partitioning in early embryos #zebrafish #drosophila. Read more in this🧵 www.nature.com/articles/s41... 🤩
@poldresden.bsky.social @mpi-cbg.de
Our review article is now available in Annual Review of Condensed Matter Physics: “Full-Integer Topological Defects in Polar Active Matter.” @luizaangheluta.bsky.social @emmalaang.bsky.social doi.org/10.1146/annu...
Microfluidic pumping with active nematics! Self-organized and self-sustained. No external pumps.
@pnas.org @ub.edu
www.pnas.org/doi/10.1073/...
#ActiveMatter #Microfluidics #SoftMatter
Is it the "against the stream-cell" that is moving, or the other ones?
fusilli bacteria?
New preprint! 🚨 We uncover a slow adaptation to stretch that links star-bundling of keratin filaments with nuclear escape from its keratin cage. Led by @tomgolde.bsky.social 🙌
@IBECBarcelona
www.biorxiv.org/content/10.1...
Collective cell motion has many forms, but rotation is the coolest of them all.
I'm @onenimesa.bsky.social , and in this short🧵, I'll highlight some instances of global tissue rotation like this one from @BauschLab
Lab’s latest: (mouse) mums grow their guts during pregnancy and lactation: www.cell.com/cell/fulltex...
New preprint out! We show how cellular nematic order can be harnessed to program tissue-wide force fields and guide 3D shape transformations.
The tissue morphogenesis logic, now engineered into living, programmable materials.
www.biorxiv.org/content/10.1...
#ActiveMatter #TissueEngineering
Please don't throw more garbage into the ocean!
FINALLY out in #Science Advances! 🎉
3 years of hard work, a fantastic team — and I’m proud to be first and co-corresponding author!
It's about Plexin signaling driving collective cell migration & organ sculpting. Check out the videos 😀
www.science.org/doi/10.1126/...
#DevBio #CellBio #Microscopy
What do we see when looking at cells under the microscope? 👉Some are bigger than others, some are elongated and align with the neighbors & others seem to move. Cool, right? But wouldn't it be cooler to quantify these observations?
I'm @juliaeckert.bsky.social. Let's explore some analysis software!
Development of a transgenic zebrafish embryo. Credit to Dr. Mario Mendieta-Serrano. #ZebrafishZunday 🧪
Happy #FluorescenceFriday!
The tip of the cantilever consists of a fluorescent bead that contacts the epiblast. Because we know the force necessary to bend the cantilever, we can perform mechanical assays by driving the bead across the embryo and measure in real time the force applied to the tissue.
🚨📣 New preprint alert!
Excited to share my new postdoc work on direct force and mechanical properties measurements in live embryos!
A great team effort with A. Chamolly (theory), under the supervision of F. Corson and @jeromegros.bsky.social
📄 www.biorxiv.org/content/10.1...
#devbio #mechanics
Collective cell migration is fascinating!
Some tissues behave like fluids (motile), others like solids (jammed).
Check out some papers exploring this topic in this thread.
"Exactly! Epithelia aren't just one thing. They can behave as fluids or solids and exhibit either nematic or polar order. Thank you @epimechfc.bsky.social for highlighting this!"
Trichoplax adhaerens is one of the simplest and most enigmatic animals on earth. Its body shows incredible fluidity, changing shape within minutes. In a recent visit by Andrea Pasini we had the chance to host and observe these amazing animals live.
[movie accelerated 3x; animal 0.5 to 1 mm in size]
B. Aigouy et al., Cell flow reorients the axis of planar polarity in the wing epithelium of Drosophila. Cell (2010). #EpithelialMechanics buff.ly/vH41dfH
New in Nature Physics! In a great collaboration with @junlab.bsky.social and my students Henrik Weyer & @lwuerthner.bsky.social, we show how Min proteins in E. coli self-organize into robust, efficient patterns ensuring accurate cell division across conditions.
📄 www.nature.com/articles/s41...
It's #MicroscopyMonday, so let's take a peek into the 🔬
This movie was taken by Shinya Inuoe, who built the polarizing microscope that allowed scientists to see mitotic spindle fibers live for the first time.
Dr. Inuoe premiered his research at MBL.
How can organs regenerate fast? Bioelectricity helps -- by coupling sub-second electrical injury signals to regenerative proliferation.
First preprint from my potsdoc :D with @liujinghui.bsky.social @ritamateus.bsky.social @mpi-cbg.de and collaborators @mpipks.bsky.social @csbdresden.bsky.social
This paper was inspired by Amélie Chardac's studies on flocking colloidal particles:
journals.aps.org/prx/abstract...
It's pure Physics!
Flocking and active solid behavior of epithelial cells in our new study in @pnas.org
Great work of Y. Shen, J. O'Byrne and
@andreasschoenit.bsky.social and collaboration with A. Maitra and R. Voituriez!
| PNAS www.pnas.org/doi/10.1073/...
New paper on a field theory for coupling nematic ordering of the actin filaments with tissue elasticity.
arxiv.org/abs/2504.10689
Our new review on topological defects 🌀 in polar active matter is out on arXiv! Co-authored by Luiza Angheluta, Anna Lång, @emmalaang.bsky.social, and @stigoveboe.bsky.social. #ActiveMatter #TopologicalDefects #CollectiveBehavior
arxiv.org/abs/2504.03284
Congratulations to Zihui, Sano-san, and the team on this interesting work! They found that +1 topological defects attract neural progenitors—an observation that seems at odds with expectations for an extensile active nematic. www.nature.com/articles/s41...
