Laurent Formery
@laurentformery.bsky.social
Group leader at @obs-banyuls.fr starting January 2026
Interested in body plan and life cycle evolution
Love EvoDevo, weird animals, geek stuff | 🏳️🌈
▶️ https://www.echinox.org/
Interested in body plan and life cycle evolution
Love EvoDevo, weird animals, geek stuff | 🏳️🌈
▶️ https://www.echinox.org/
Sea cucumbers are beautiful! 🥒
This image shows the skeleton of a baby sea cucumber. Very happy that it got awarded by #NikonSmallWorld 😊
👇 Check the preprint by @PranavVyas and @prakashlab.bsky.social if you want to learn more about skeleton development in these animals:
shorturl.at/J3g1h
This image shows the skeleton of a baby sea cucumber. Very happy that it got awarded by #NikonSmallWorld 😊
👇 Check the preprint by @PranavVyas and @prakashlab.bsky.social if you want to learn more about skeleton development in these animals:
shorturl.at/J3g1h
October 16, 2025 at 3:29 PM
Sea cucumbers are beautiful! 🥒
This image shows the skeleton of a baby sea cucumber. Very happy that it got awarded by #NikonSmallWorld 😊
👇 Check the preprint by @PranavVyas and @prakashlab.bsky.social if you want to learn more about skeleton development in these animals:
shorturl.at/J3g1h
This image shows the skeleton of a baby sea cucumber. Very happy that it got awarded by #NikonSmallWorld 😊
👇 Check the preprint by @PranavVyas and @prakashlab.bsky.social if you want to learn more about skeleton development in these animals:
shorturl.at/J3g1h
Reposted by Laurent Formery
✴️Sea urchins have illuminated fertilization 🧫, early cleavage divisions 🔬, and gene regulation in embryonic patterning 🧬. A classic marine model that shaped our understanding of cell fate and axis formation. 📸 Image by Laurent Formery #ModelMonday #DevBio
October 14, 2025 at 3:23 AM
✴️Sea urchins have illuminated fertilization 🧫, early cleavage divisions 🔬, and gene regulation in embryonic patterning 🧬. A classic marine model that shaped our understanding of cell fate and axis formation. 📸 Image by Laurent Formery #ModelMonday #DevBio
Reposted by Laurent Formery
🚨 My lab is hiring at all levels!
Interested in animal origins & evolutionary cell biology?
I'm recruiting a postdoc, PhD students & a research assistant to study the molecular evolution of cell adhesion using marine invertebrates + comparative genomics.
🔗: clarkelab.com/join/
Please repost!
Interested in animal origins & evolutionary cell biology?
I'm recruiting a postdoc, PhD students & a research assistant to study the molecular evolution of cell adhesion using marine invertebrates + comparative genomics.
🔗: clarkelab.com/join/
Please repost!
October 8, 2025 at 5:49 PM
🚨 My lab is hiring at all levels!
Interested in animal origins & evolutionary cell biology?
I'm recruiting a postdoc, PhD students & a research assistant to study the molecular evolution of cell adhesion using marine invertebrates + comparative genomics.
🔗: clarkelab.com/join/
Please repost!
Interested in animal origins & evolutionary cell biology?
I'm recruiting a postdoc, PhD students & a research assistant to study the molecular evolution of cell adhesion using marine invertebrates + comparative genomics.
🔗: clarkelab.com/join/
Please repost!
Sea urchin metamorphosis is maybe one of the most radical event in developmental biology. In just about an hour, these little pluteus larvae completely reorganize their entire body plan.
Very happy that this video got awarded an honorable mention by #NikonSmallWorld 😃
Very happy that this video got awarded an honorable mention by #NikonSmallWorld 😃
September 26, 2025 at 12:56 AM
Sea urchin metamorphosis is maybe one of the most radical event in developmental biology. In just about an hour, these little pluteus larvae completely reorganize their entire body plan.
Very happy that this video got awarded an honorable mention by #NikonSmallWorld 😃
Very happy that this video got awarded an honorable mention by #NikonSmallWorld 😃
I am very happy to announce that the Echinox Lab will open in the BIOM unit at @obs-banyuls.fr in January 2026!! 🥳
We will use several echinoderm species to study animal body plan evolution.
🔽 Check our brand new lab website if you want to learn more about our future research
www.echinox.org
We will use several echinoderm species to study animal body plan evolution.
🔽 Check our brand new lab website if you want to learn more about our future research
www.echinox.org
September 10, 2025 at 8:48 PM
I am very happy to announce that the Echinox Lab will open in the BIOM unit at @obs-banyuls.fr in January 2026!! 🥳
We will use several echinoderm species to study animal body plan evolution.
🔽 Check our brand new lab website if you want to learn more about our future research
www.echinox.org
We will use several echinoderm species to study animal body plan evolution.
🔽 Check our brand new lab website if you want to learn more about our future research
www.echinox.org
I am honored and beyond happy to share that I have been awarded an @inserm.fr #ATIP-Avenir fellowship to start my own lab to study body plan evolution in #echinoderms 🤩
Stay tuned for more exciting updates coming soon!!
Stay tuned for more exciting updates coming soon!!
June 26, 2025 at 12:40 PM
I am honored and beyond happy to share that I have been awarded an @inserm.fr #ATIP-Avenir fellowship to start my own lab to study body plan evolution in #echinoderms 🤩
Stay tuned for more exciting updates coming soon!!
Stay tuned for more exciting updates coming soon!!
My first steps into paleontology!! 😀
Big thanks to @imranrahman.bsky.social for having me on this cool project to look at some fascinating echinoderm fossils ⭐
Big thanks to @imranrahman.bsky.social for having me on this cool project to look at some fascinating echinoderm fossils ⭐
Delighted to share our paper in @currentbiology.bsky.social iology.bsky.social with a palaeo-evo-devo perspective on the evolution of symmetry in echinoderms. Led by Steffi Woodgate with Frankie Dunn, @echinerd.bsky.social, @laurentformery.bsky.social & Sam Zamora
www.cell.com/current-biol...-5
www.cell.com/current-biol...-5
A new Cambrian stem-group echinoderm reveals the evolution of the anteroposterior axis
Woodgate et al. describe a new bilaterally symmetrical echinoderm, Atlascystis acantha,
from the Cambrian of Morocco. Comparisons of plate growth with other echinoderms reveal
that Atlascystis possess...
www.cell.com
June 26, 2025 at 9:38 AM
My first steps into paleontology!! 😀
Big thanks to @imranrahman.bsky.social for having me on this cool project to look at some fascinating echinoderm fossils ⭐
Big thanks to @imranrahman.bsky.social for having me on this cool project to look at some fascinating echinoderm fossils ⭐
Our brittle star patterning study is now out at EvoDevo! 🥳
doi.org/10.1186/s132...
@lowelab.bsky.social
doi.org/10.1186/s132...
@lowelab.bsky.social
May 31, 2025 at 8:30 PM
Our brittle star patterning study is now out at EvoDevo! 🥳
doi.org/10.1186/s132...
@lowelab.bsky.social
doi.org/10.1186/s132...
@lowelab.bsky.social
Birdwatching from my desk at Hopkins Marine Station (instead of working on my paper's revisions 🥹 🥲)
#DoomscrollingBreak
#DoomscrollingBreak
April 16, 2025 at 10:57 PM
Birdwatching from my desk at Hopkins Marine Station (instead of working on my paper's revisions 🥹 🥲)
#DoomscrollingBreak
#DoomscrollingBreak
If you like snowflakes, check our new preprint about axial patterning in brittle stars ⭐
We looked at the expression of anteroposterior patterning genes in Amphipholis squamata juveniles, and compared it with existing data from other classes
www.biorxiv.org/content/10.1...
@lowelab.bsky.social
We looked at the expression of anteroposterior patterning genes in Amphipholis squamata juveniles, and compared it with existing data from other classes
www.biorxiv.org/content/10.1...
@lowelab.bsky.social
February 17, 2025 at 5:32 PM
If you like snowflakes, check our new preprint about axial patterning in brittle stars ⭐
We looked at the expression of anteroposterior patterning genes in Amphipholis squamata juveniles, and compared it with existing data from other classes
www.biorxiv.org/content/10.1...
@lowelab.bsky.social
We looked at the expression of anteroposterior patterning genes in Amphipholis squamata juveniles, and compared it with existing data from other classes
www.biorxiv.org/content/10.1...
@lowelab.bsky.social
Time to recycle this xmas brittle star HCR ⭐
Happy holidays all!! ❄️🎁🎄
Stay tuned for some more brittle star data coming soon 😎
#fluorescence #microscopy #HCR #holidays #imaging
Happy holidays all!! ❄️🎁🎄
Stay tuned for some more brittle star data coming soon 😎
#fluorescence #microscopy #HCR #holidays #imaging
December 24, 2024 at 2:59 PM
Time to recycle this xmas brittle star HCR ⭐
Happy holidays all!! ❄️🎁🎄
Stay tuned for some more brittle star data coming soon 😎
#fluorescence #microscopy #HCR #holidays #imaging
Happy holidays all!! ❄️🎁🎄
Stay tuned for some more brittle star data coming soon 😎
#fluorescence #microscopy #HCR #holidays #imaging
Calcein staining showing the skeleton on the aboral side of a juvenile sea star (Patiria miniata)
Everything looks better with a rainbow LUT 🌈😊
#microscopy #echinoderms #fluorescence
Everything looks better with a rainbow LUT 🌈😊
#microscopy #echinoderms #fluorescence
November 23, 2024 at 8:58 PM
Calcein staining showing the skeleton on the aboral side of a juvenile sea star (Patiria miniata)
Everything looks better with a rainbow LUT 🌈😊
#microscopy #echinoderms #fluorescence
Everything looks better with a rainbow LUT 🌈😊
#microscopy #echinoderms #fluorescence
Shamelessly taking advantage of the bluesky migration to share again some of my favorite echinoderm pics 😀🤩
🔽 Acetylated tubulin (nerves and cilia) and phalloidin (muscles) stains in a juvenile sea urchin (Paracentrotus lividus) just after metamorphosis ⭐
🔽 Acetylated tubulin (nerves and cilia) and phalloidin (muscles) stains in a juvenile sea urchin (Paracentrotus lividus) just after metamorphosis ⭐
November 17, 2024 at 6:40 PM
Shamelessly taking advantage of the bluesky migration to share again some of my favorite echinoderm pics 😀🤩
🔽 Acetylated tubulin (nerves and cilia) and phalloidin (muscles) stains in a juvenile sea urchin (Paracentrotus lividus) just after metamorphosis ⭐
🔽 Acetylated tubulin (nerves and cilia) and phalloidin (muscles) stains in a juvenile sea urchin (Paracentrotus lividus) just after metamorphosis ⭐
So happy to see this picture of the nervous system in a transparent Henricia sea star selected as an image of distinction by @NikonSmallWorld !! 😎
It was imaged using the see-star clearing protocol developped with @Nat Clarke
⬇️Check the paper here:
link.springer.com/article/10.1...
It was imaged using the see-star clearing protocol developped with @Nat Clarke
⬇️Check the paper here:
link.springer.com/article/10.1...
October 17, 2024 at 6:29 PM
So happy to see this picture of the nervous system in a transparent Henricia sea star selected as an image of distinction by @NikonSmallWorld !! 😎
It was imaged using the see-star clearing protocol developped with @Nat Clarke
⬇️Check the paper here:
link.springer.com/article/10.1...
It was imaged using the see-star clearing protocol developped with @Nat Clarke
⬇️Check the paper here:
link.springer.com/article/10.1...
Our study investigating the hidden molecular anatomy of sea stars is now published!! 🥳🥳🥳
We looked at a long standing zoological problem: how to compare the pentaradial symmetry of echinoderms with the bilateral symmetry of their relatives?
Check what we found here 🔽
www.nature.com/articles/s41...
We looked at a long standing zoological problem: how to compare the pentaradial symmetry of echinoderms with the bilateral symmetry of their relatives?
Check what we found here 🔽
www.nature.com/articles/s41...
November 1, 2023 at 5:13 PM
Our study investigating the hidden molecular anatomy of sea stars is now published!! 🥳🥳🥳
We looked at a long standing zoological problem: how to compare the pentaradial symmetry of echinoderms with the bilateral symmetry of their relatives?
Check what we found here 🔽
www.nature.com/articles/s41...
We looked at a long standing zoological problem: how to compare the pentaradial symmetry of echinoderms with the bilateral symmetry of their relatives?
Check what we found here 🔽
www.nature.com/articles/s41...
Hello free world :)
October 22, 2023 at 5:01 PM
Hello free world :)