#morphogenesis

The Milinkovitch-Tzika lab

@lanevol.bsky.social

2 days ago

The mechanics of crocodile head scales patterning - YouTube

More about the research behind these models:
youtube.com/playlist?lis...

#DevelopmentalBiology #Biophysics #Morphogenesis #DPG

Benjamin Friedrich

@friedrich-group.bsky.social

1 week ago

Looking for a theory partner for an #HFSP project? #morphogenesis in cells and tissues, #chemotaxis, #cilia? Feel free to reach out! Deadline for letters of intent 26.03.2026.
physics-of-life.tu-dresden.de/team/pol-gro...

Barcelona Collaboratorium

@barcelonacollaboratorium.com

3 weeks ago

Thu 19 Feb 2026, 10:00: Collaboratorium Seminar Series: Jeremy Green (KCL) “Nematics and Dipoles in Embryonic Self-Organisation”, hosted by James Sharpe (EMBL BCN). #Morphogenesis

Turlier lab

@turlierlab.bsky.social

1 month ago

How does a ball of cells become an embryo? Genes matter—but physics (forces, geometry, topology) drives self-organization. Hervé Turlier's research vision on the physics of embryogenesis👇
shorturl.at/761x9

#Embryogenesis #Biophysics #Morphogenesis
@college-de-france.fr @cnrsbiologie.bsky.social

Sofia J. Araújo

@sofiajaraujo.bsky.social

2 months ago

This is a great article, but I would like to see stats by area/editor. Based on my experience and on that of many other colleagues working in #morphogenesis and #organogenesis, I do see many excellent papers that do not even get reviewed in @dev-journal.bsky.social and end up published elsewhere

PLOS Biology

@plosbiology.org

2 months ago

The image depicts P-cadherin levels at cell–cell junctions in a planar view of whole-mount preparation of embryonic mouse skin. The image was derived from confocal microscopy data and artistically enhanced for visual clarity. Image credit: Krithika Kalyanakrishnan and Alexandra Jetté

During embryogenesis, how do cells self-organize to support tissue-specific functions? @melanielaurin.bsky.social &co show that ARHGEF3 regulates #cadherin patterning & #placode polarization in early #HairFollicle development, influencing #morphogenesis @plosbiology.org 🧪 plos.io/450aBm5

PLOS Biology

@plosbiology.org

2 months ago

The image depicts P-cadherin levels at cell–cell junctions in a planar view of whole-mount preparation of embryonic mouse skin. The image was derived from confocal microscopy data and artistically enhanced for visual clarity. Image credit: Krithika Kalyanakrishnan and Alexandra Jetté

During embryogenesis, how do cells self-organize to support tissue-specific functions? @melanielaurin.bsky.social &co show that ARHGEF3 regulates #cadherin patterning & #placode polarization in early #HairFollicle development, influencing #morphogenesis @plosbiology.org 🧪 plos.io/450aBm5

PLOS Biology

@plosbiology.org

2 months ago

The image depicts P-cadherin levels at cell–cell junctions in a planar view of whole-mount preparation of embryonic mouse skin. The image was derived from confocal microscopy data and artistically enhanced for visual clarity. Image credit: Krithika Kalyanakrishnan and Alexandra Jetté

During embryogenesis, how do cells self-organize to support tissue-specific functions? @melanielaurin.bsky.social &co show that ARHGEF3 regulates #cadherin patterning & #placode polarization in early #HairFollicle development, influencing #morphogenesis @plosbiology.org 🧪 plos.io/450aBm5

Laboratory for Physical Biology, RIKEN

@labphb.bsky.social

2 months ago

【bioRxivプレプリント】Kalman-filter Force Inference（KFI）：上皮形態形成のタイムラプス・イメージングデータから、細胞の力（細胞間接着の張力と細胞圧）を動的にベイズ／カルマンフィルターの枠組みで推定します。https://doi.org/10.64898/2025.12.19.695339 #Mechanobiology #Morphogenesis

Laboratory for Physical Biology, RIKEN

@labphb.bsky.social

2 months ago

Kalman-filter Force Inference: an estimation framework for cellular forces from temporal evolution of epithelial morphogenesis Epithelial morphogenesis is orchestrated by cellular forces, such as cell junctional tension and cellular pressure. Therefore, elucidating the spatiotemporal distribution of these forces and their dyn...

New bioRxiv preprint: Kalman-filter Force Inference (KFI) estimates dynamic cellular forces (junction tensions and cell pressures) from time-lapse data of epithelial morphogenesis using a Bayesian/Kalman framework. doi.org/10.64898/202... #Mechanobiology #Morphogenesis

Journal of Cell Biology

@jcb.org

2 months ago

Perinuclear non-centrosomal #microtubules direct nuclei dispersion during epithelial #morphogenesis, say Rashmi Budhathoki et al. @blankenshiplab.bsky.social rupress.org/jcb/article/...

#Drosophila #Cytoskeleton #Development #Organelles

Maik Bischoff

@maikbischoff.bsky.social

2 months ago

🚨 PhD Position Available 🚨
I’m recruiting a PhD student to join my lab at the Multiscale Imaging Centre (MIC), Münster, Germany.

www.bischofflab.com/jobs

Fully funded ✅
#Cellbio #Morphogenesis #Microscopy
#Drosophila #PhD
(Details Below)

Original Posting:
stellen.uni-muenster.de/jobposting/d...

@xinlee0.bsky.social

3 months ago

Rotational migration in human pancreatic ductal organoids depends on actin and myosin activity Communications Biology - Pancreatic ductal organoids serve as a primary human model to study rotational migration — a process driven by myosin-dependent contractility, actin polymerization,...

We're excited to introduce a new, physiologically relevant human pancreatic ductal organoid for studying collective cell rotational migration: Check out the persistent rotation we observed via live imaging. #CellBiology #Organoids #Morphogenesis
rdcu.be/eTnqf

SFB 1348

@sfb1348.bsky.social

3 months ago

A warm welcome to @maikbischoff.bsky.social to
@sfb1348.bsky.social @uni-muenster.de ! Can´t wait to see your work on tissue morphogenesis and chirality in #Drosophila. Keeping an eye out for the PhD opening — excited to see the lab take off! 🙌🪰 #cellbio #morphogenesis

Maik Bischoff

@maikbischoff.bsky.social

3 months ago

Super proud to be part of SFB1348 — and excited to share that I now officially have my own lab in Münster! 🎉🪰

We’ll study #cellbio & #morphogenesis, focusing on organ sculpting and #chirality in #Drosophila.

I’ll soon hire my first #PhD student — feel free to reach out!

#juniorPI #Science #devbio

Paulina Strzyz

@paulinastrzyz.bsky.social

4 months ago

Extracellular Matrix Viscoelasticity Regulates Mammary Branching Morphogenesis This study shows that mammary branching morphogenesis is regulated by extracellular matrix (ECM) stress relaxation. Slow stress-relaxing matrices promote branching through focal adhesion signaling, c...

New work in #AdvancedScience Extracellular Matrix Viscoelasticity Regulates Mammary Branching Morphogenesis @ucsantabarbara.bsky.social #Morphogenesis #ECM #Biomaterials #TissueEngineering #CellBiology #Mechanobiology Read full OA article shorturl.at/RxQIh

Emanuele Scacchi

@morphospace.bsky.social

4 months ago

I’ll be presenting my latest work on self-organizing gene regulatory networks and how they shape leaf morphogenesis in WG/GLIMPRINT Virtual Seminars on Multiscale Modeling.

Grateful to the IMOBio team for the kind invitation.
iu.zoom.us/meeting/regi...
#RNA #Turing #morphogenesis #leaf #plants

Biology Open

@biologyopen.bsky.social

4 months ago

The development of a honeybee embryo after egg laying in a light sheet microscope.

With mRNA-based labelling and light sheet fluorescence imaging in Perfluorodecalin, Oksana Netschitailo and colleagues reveal the dynamics of extra-embryonic membrane formation in honeybee embryos. doi.org/10.1242/bio....

#LiveImaging #Insects #Morphogenesis

Rahul Kumar

@rahulswt7.bsky.social

4 months ago

Inspirational quote: As crystalline structures form through iterative dissolution, what solvents of self must you apply t...

As crystalline structures form through iterative dissolution, what solvents of self must you apply to reveal your most resilient geometry?

#Morphogenesis #SelfDissolution #EmergentGrowth

Journal of Cell Biology

@jcb.org

4 months ago

Coro1A and TRIM67 collaborate in netrin-dependent neuronal #morphogenesis, say Chris Ho @chrisho.bsky.social, Stephanie Gupton @stephgupton.bsky.social and colleagues @unclineberger.bsky.social: rupress.org/jcb/article/...

@coronin.bsky.social
#Cytoskeleton #Neuroscience #Development #Migration

preLights

@prelights.bsky.social

4 months ago

Condensation of Sidekick at tricellular junctions organizes mechanical forces for cell-cell adhesion remodeling - preLights Formation and biophysical properties of Sidekick condensates are important for its function.

Formation and biophysical properties of Sidekick condensates are important for its function. #preprint #morphogenesis

First preLights post from Fatima Rafiq which includes an author response from Hiroyuki Uechi 📝

#preLight ⬇️👀
prelights.biologists.com/highlights/c...

Journal of Cell Biology

@jcb.org

5 months ago

Patterning in motion: Cell interfaces guide mesenchymal collective migration and #morphogenesis. A new perspective from @maikbischoff.bsky.social & @mayorlab.bsky.social rupress.org/jcb/article/...

#CellBio #CellMigration #Development #Science

Mike Levin

@drmichaellevin.bsky.social

5 months ago

Field-mediated bioelectric basis of morphogenetic prepatterning The endogenous electric field of a simplified bioelectric network model of an embryo facilitates the autonomous formation of voltage patterns. Transient exogenous electric fields can leverage this pro...

New paper: Santosh Manicka
www.cell.com/cell-reports...

"Field-mediated bioelectric basis of morphogenetic prepatterning"

#morphogenesis #bioelectricity #fields

🧪

Barriga Lab

@eliasbarrigalab.bsky.social

5 months ago

Finally, our work reveals a hidden mechanical state of regeneration where tissue stiffening instruct cells to transit into regenerative states...

Far from perfect but always looking forward to hearing from you #Regeneration #Mechanobiology #Piezo1 #Yap1 #Xenopus #FrogPower #Morphogenesis

Rockefeller University Press

@rupress.org

5 months ago

New perspective in @jcb.org by @maikbischoff.bsky.social & @mayorlab.bsky.social about how mesenchymal cells use contact-dependent rules to generate swarm-like behaviors, patterns & organ forms. rupress.org/jcb/article/...

#CellBio #CellMigration #Morphogenesis #Development #Science

Journal of Cell Biology

@jcb.org

5 months ago

New perspective by @maikbischoff.bsky.social & @mayorlab.bsky.social about how mesenchymal cells use contact-dependent rules to generate swarm-like behaviors, patterns & organ forms. rupress.org/jcb/article/...

#CellBio #CellMigration #Morphogenesis #Development #Science

PLOS Biology

@plosbiology.org

6 months ago

Schematic of how Vangl2 regulates cellular organization in both local and distant compartments through a vinculin-dependent mechanism. Left: Wildtype. Right: Localized Vangl2 deletion. The deletion of Vangl2 in either the greater epithelial ridge (GER) or the organ of Corti results in defects in cellular organization, such as the misorientation of hair cells and GER cells. These defects occur in the local and distant compartments, the latter via a vinculin-dependent process termed “compartment coupling”.

#Morphogens cooperate to guide development of the #cochlea. This Primer explores a @plosbiology.org study showing how #PlanarCellPolarity of individual cells is integrated across distinct regional compartments to ensure proper organ #morphogenesis. Paper: plos.io/4nmD8IW Primer: plos.io/3IjPkLR

PLOS Biology

@plosbiology.org

6 months ago

Schematic of how Vangl2 regulates cellular organization in both local and distant compartments through a vinculin-dependent mechanism. Left: Wildtype. Right: Localized Vangl2 deletion. The deletion of Vangl2 in either the greater epithelial ridge (GER) or the organ of Corti results in defects in cellular organization, such as the misorientation of hair cells and GER cells. These defects occur in the local and distant compartments, the latter via a vinculin-dependent process termed “compartment coupling”.

#Morphogens cooperate to guide development of the #cochlea. This Primer explores a @plosbiology.org study showing how #PlanarCellPolarity of individual cells is integrated across distinct regional compartments to ensure proper organ #morphogenesis. Paper: plos.io/4nmD8IW Primer: plos.io/3IjPkLR

PLOS Biology

@plosbiology.org

6 months ago

Schematic of how Vangl2 regulates cellular organization in both local and distant compartments through a vinculin-dependent mechanism. Left: Wildtype. Right: Localized Vangl2 deletion. The deletion of Vangl2 in either the greater epithelial ridge (GER) or the organ of Corti results in defects in cellular organization, such as the misorientation of hair cells and GER cells. These defects occur in the local and distant compartments, the latter via a vinculin-dependent process termed “compartment coupling”.

#Morphogens cooperate to guide development of the #cochlea. This Primer explores a @plosbiology.org study showing how #PlanarCellPolarity of individual cells is integrated across distinct regional compartments to ensure proper organ #morphogenesis. Paper: plos.io/4nmD8IW Primer: plos.io/3IjPkLR

Oca sapiens

@ocasapiens.bsky.social

6 months ago

#morphogenesis
#embryonicdevelopment
#mechanicalforces

Nice thread - and OA paper - on how Nature's *bricolage solves a problem for fruit flies' embryos.

*François Jacob's term for making do with constraints and byproducts at hand, like Gould & Lewontin's Spandrels of San Marco.