What determines the sharpness of cell fate boundaries in gradient-based patterning?
We quantified #transition #zone #widths (TZW) across seven progenitor domain boundaries spanning the entire dorsal-ventral axis of the developing #mouse #neural #tube.
Preprint: doi.org/10.64898/202...
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New paper alert!🤩Super proud that our story led by superstar postdocs @liujinghui.bsky.social and @nerlielisa.bsky.social is finally out! We found how electrical signals are key for promoting organ regenerative growth!!! A thread 🧵https://www.science.org/doi/10.1126/sciadv.aec0687
Since November, @mpi-cbg.de has a new research group for “Mechanisms of translational control during embryogenesis,” led by cell and molecular biologist @madalenamrp.bsky.social. Madalena will focus on RNA biology in the context of development. Welcome! 🎉 www.mpi-cbg.de/news-outreac...
Our research on snake skin color patterning is featured in The Scientist! 🐍🎨
Athanasia Tzika explains how comparative genomics and CRISPR-Cas9 revealed the key role of specific genes in establishing corn snake skin color patterns.
🔗 www.the-scientist.com/how-do-snake...
Congrats to Nadja and the @tessmarraiblelabs.bsky.social. Check out their cool new work (featuring a small sketch I made)!
It was a lot of fun! Thanks for coming
Many thanks to the PhD students and postdocs at D-BSSE in Basel for hosting me in their seminar series — and to the PIs at the Biozentrum, University of Basel, for inspiring conversations. @bsse.ethz.ch @biozentrum.unibas.ch
🚨 Join us TODAY for two really exciting talks on the emergence of the fractal bronchial tree and tortoise/ crocodile head scale patterning!🚨
@rorylcooper.bsky.social
@maltemederacke.bsky.social
🚨 Join us tomorrow for two really exciting talks on the emergence of the fractal bronchial tree and tortoise/ crocodile head scale patterning!🚨 @rorylcooper.bsky.social @maltemederacke.bsky.social
Very happy to share our latest work extending iterative immunofluorescence to in toto imaging of early zebrafish embryos (3D-4i), integrated with a 3D-dedicated image analysis pipeline! 🐟🔬📊
Huge kudos to Max Hess for this PhD milestone! 💪
@lucaspelkmans.bsky.social shorturl.at/cO0u7
Let's zoom in!
I’ll be speaking about the mechanical development of crocodile and tortoise head scales next Wednesday at 4pm for the @tlmcambridge.bsky.social seminar series. Subscribe to the mailing list to hear more about my work, and that of @maltemederacke.bsky.social!
lists.cam.ac.uk/sympa/subscr...
New preprint from the lab! We discovered a transient fluidization in the basal region of human forebrains by tracking microdroplets in cerebral organoids.This “basal fluidization”, absent in gorilla and mouse, may contribute to greater surface expansion in human forebrains
1/
doi.org/10.1101/2025...
There are certainly worse crimes, but there really should be some sort of law against creating new image file formats
Out now: Simulating Organogenesis in #COMSOL: Tissue Patterning with Directed Cell Migration
We provide a detailed walkthrough of how to implement #DCM partial integro-differential equation models - enabling accessible simulations of tissue patterning and morphogenesis.
arxiv.org/pdf/2509.08930
Hello Bluesky: Long time listener, first time poster! Excited to share the first publication of my Ph.D. work studying the development of appendage shapes in @plosbiology.org! The zebrafish caudal fin is quite distinctive, and we examine the timing and mechanisms of how its shape might come to be!
Our paper "Morphogen gradients can convey position and time in growing tissues" is now out in Newton @cp-newton.bsky.social
Quite fitting to see this novel idea that morphogen gradients not only encode position, but can also time & synchronise development over long distances out in a new journal.
Hot off the press!!! Proudly presenting our lab's new review on how do cells communicate to control organ size :) We focus specially on dynamic connections that operate at different timescales to regulate organ growth and morphogenesis. #devbio #SizeandShape www.sciencedirect.com/science/arti...
If you are interested how cell movement can generate beautiful patterns: check out out new preprint!
Are you a C++ expert and interested in making 3D cell-based tissue simulations with #SimuCell3D ever more powerful? Please apply and join us as #Master student, #PhD student or #Post-Doc!!
jobs.ethz.ch/job/view/JOP...
jobs.ethz.ch/job/view/JOP...
x.com/DagmarIber/s...
The last part of @paulknabl.bsky.social 's PhD is now available at www.biorxiv.org/content/10.1...
Paul showed that BMP signaling is active in the diffuse nervous system of the sea anemone Nematostella and the box jellyfish Tripedalia. Moreover, suppression of BMP signaling in Nematostella leads...
Sea anemone development challenges long-held views on the evolution of germ layer and body axis formation
A study by researchers at the Uni Vienna published in @naturecomms.bsky.social has uncovered a surprising difference in how β-catenin functions in sea anemones compared to other animals. #evosky
Our atlas of BMP signaling activity in adult Nematostella is finally out! Fantastic, meticulous work and beautiful illustrations by @paulknabl.bsky.social
Thanks, @fwf-at.bsky.social for funding our work!
bmcbiol.biomedcentral.com/articles/10....
Static morphogen scaling enables proportional growth in tissue growth model inspired by axolotl limb regeneration https://www.biorxiv.org/content/10.1101/2025.02.14.638295v1
The evolution of shape diversity through the lens of physics—explored in our new paper! A fruitful collaboration between our lab @EMBL, Salbreux’s lab @unige & others, led by @BailleulRichar1—now independent at @ENS_ULM—& Nicolas Cuny. bit.ly/3WRqdEa
Pleased to share our latest review "Coordination of nephrogenesis with branching of the urinary collecting system, the vasculature and the nervous system"
authors.elsevier.com/a/1kXJ6Fzn7S...
Latest from the lab!
I've been seeking the ultimate modulator that regulates the tempo of multiple developmental processes simultaneously, and metabolism has been an attractive candidate for such a global tempo modulator.
However, I was wrong. 1/
www.nature.com/articles/s41...
We present a simple yet comprehensive model integrating multiple mechanical forces to guide lung development.
These principles operate during both development and disease, providing a dynamic framework to understand and predict lung remodeling processes.
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The emergence of the fractal bronchial tree https://www.biorxiv.org/content/10.1101/2025.01.13.632436v1
Big parts of my PhD work is now out on bioRxiv!!
We look at how biophysical parameters shape the fractal lung during development and disease.
Go check it out:
www.biorxiv.org/content/10.1...
How does an #embryo build an energy-efficient #fractal #lung in time for the first breath at birth? 🫁
Discover the mechanical forces shaping the bronchial tree in our latest preprint: #LungDevelopment #Mechanobiology
doi.org/10.1101/2025...
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