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Lendert Gelens @lendertgelens.bsky.social · 4d

Thanks for the great visit! You can find more about our work here:

www.nature.com/articles/s41...

www.biorxiv.org/content/10.1...

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Lendert Gelens @lendertgelens.bsky.social · 12d

Had a fantastic day yesterday at the Collaboratorium. Thanks to Jordi @jgojalvo.bsky.social @dsb-lab.bsky.social for hosting me, to Bastien for organizing, and to Vikas @viktri08.bsky.social, Bastian, Eric @elatorre.bsky.social, Oriol and all for the stimulating discussions!

#BCNCollaboratorium

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Reposted by Lendert Gelens

Jan Rombouts @janrombouts.bsky.social · 20d

Please allow me to introduce... our new preprint 🎉 Together with Michael Zhao, Anna Erzberger and Alexander Aulehla, we investigate pattern formation due to aggregation in confined systems.

You can find it at arxiv.org/abs/2509.08533

@michaelzhao.bsky.social @erzbergerlab.bsky.social

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Lendert Gelens @lendertgelens.bsky.social · 20d

Looking forward to it!!

Barcelona Collaboratorium @barcelonacollaboratorium.com · 20d

On Thursday, Sept 25, we host Lendert Gelens (KU Leuven) for a seminar: "Beyond Arrhenius: How temperature scales biological time". He will show how biological timing changes across temperatures.
barcelonacollaboratorium.com
#seminar #KULeuven #EMBL #BCNCollaboratorium

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Reposted by Lendert Gelens

Zena Hadjivasiliou @zenahadjivasiliou.bsky.social · 22d

Fresh from the press💥 We asked what happens when you evolve gene regulatory networks computationally at scale. Do general principles of GRN evolution jump out? Is the process predictable? Read on to find out @prxlife.bsky.social @crick.ac.uk @ucl-ipls.bsky.social 👉 journals.aps.org/prxlife/abst...

Gene Network Organization, Mutation, and Selection Collectively Drive Developmental Pattern Evolvability and Predictability

The historical order in which mutations appear during evolution determine the evolutionary trajectory of gene regulatory networks and influence how developmental patterns change and diversify over tim...

journals.aps.org

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Reposted by Lendert Gelens

Stem Cell Podcast @stemcellpodcast.com · Jun 4

Drs. Borzo Gharibi, Silvia Santos, and a team at @crick.ac.uk generated an ESC-derived 3D model of the post-gastrulation #amnion.

📄 @cellpress.bsky.social - bit.ly/45bJs0c
🎤 bit.ly/4kE4eKf

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Lendert Gelens @lendertgelens.bsky.social · Sep 3

Oops, that first picture looks completely different than on my computer. Here it is again, this time without the background, hopefully better.

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Lendert Gelens @lendertgelens.bsky.social · Sep 3

I started these experiments in Jim Ferrell’s lab at Stanford over 10 years ago, so it’s special to see this finally out. Huge thanks to @janrombouts.bsky.social and Franco Tavella (from Qiong Yang’s lab, also a Ferrell alum) for pulling this project over the line!

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Lendert Gelens @lendertgelens.bsky.social · Sep 3

Experiments in Xenopus extracts confirmed that both mechanisms act in parallel: interphase and mitosis scale differently with temperature, and cyclin synthesis is especially sensitive. Together they explain the Arrhenius-like scaling at intermediate T and its breakdown at extremes, across species.

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Lendert Gelens @lendertgelens.bsky.social · Sep 3

The puzzle isn’t just why cycles look Arrhenius, but why and how they deviate.

Our modeling shows that mismatched temperature sensitivities of regulatory enzymes and biphasic cyclin synthesis act in parallel, creating systematic departures from simple scaling.

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Lendert Gelens @lendertgelens.bsky.social · Sep 3

🧵Why do early embryonic cell cycles speed up with temperature almost like simple chemical reactions, but not quite? 🌡️

Across frogs, fish, worms, and flies we found a shared scaling law, and uncovered why deviations from Arrhenius behavior emerge.

👉 doi.org/10.1038/s41467-025-62918-0

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Lendert Gelens @lendertgelens.bsky.social · Sep 2

Deep thanks to all co-authors and collaborators. Special shoutout to Liliana Piñeros (now a postdoc in the lab of co-author Rebecca Heald at UC Berkeley, doing fantastic new work!) and to @nikitaphysics.bsky.social in our group: you both really pulled this story together!

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Lendert Gelens @lendertgelens.bsky.social · Sep 2

This scaling echoes what embryos do naturally: at the midblastula transition (MBT), cycles slow as the N/C ratio rises and transcription begins. We find that cytoplasm–nucleus coupling can already slow the clock before genome activation, a complementary layer of timing control.

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Lendert Gelens @lendertgelens.bsky.social · Sep 2

Our model backs this up: instead of a single cytoplasmic cell cycle oscillator, the system becomes two coupled oscillators — nucleus and cytoplasm — dynamically linked through import/export. This nuclear–cytoplasmic coupling slows the cycle as the nucleus grows.

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Lendert Gelens @lendertgelens.bsky.social · Sep 2

🧵Does the nucleus set the cell cycle clock? 🕒

In frog egg extract “mini-cells” we see that as nuclei grow, cycles slow down. The period scales with the nuclear-to-cytoplasmic ratio, across Xenopus species, and even when DNA replication or transcription are blocked.

👉 doi.org/10.1016/j.cu...

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Reposted by Lendert Gelens

Jan Rombouts @janrombouts.bsky.social · Aug 29

Many years in the making but now finally online! What determines the temperature scaling and thermal limits of cell cycle duration in embryos? We tackled the question using a combination of dynamical systems analysis and experimental measurements in embryos and in cycling Xenopus extracts.

A plot showing the duration of the early embryonic cell cycle of 5 different species as a function of temperature. Higher temperatures mean faster cycles, up to an optimum, beyond which the cycles slow down and eventually stop.

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Lendert Gelens @lendertgelens.bsky.social · Jun 18

Fantastic, very cool!!

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Lendert Gelens @lendertgelens.bsky.social · Jun 3

BOOM💥Martina was on fire at the recent #Biologists100 meeting on Liverpool, sharing her research on cell cycle oscillations. #proudPI

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Reposted by Lendert Gelens

Simone Reber @simonereber.bsky.social · May 19

✨We are looking for a PhD student interested in physical cell bio, imaging 🔬, biochemistry, #Xenopus 🐸 & #microtubules ✨

Join us @mpiib-berlin.mpg.de!

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Reposted by Lendert Gelens

James Briscoe @jamesbriscoe.bsky.social · May 15

Beautiful work from @santoslab.bsky.social

A 3D model of human amnion from hESCs

These recapitulate amniotic sac development, revealing GATA3 as key amniogenesis driver & autoregulatory BMP/Wnt feedback loops

And check out the size of them in the video

www.cell.com/cell/fulltex...

Post-gastrulation amnioids as a stem cell-derived model of human extra-embryonic development

An embryonic stem cell-based 3D model that accurately recapitulates the size, morphology, and functional features of the human amnion at 4 weeks, termed the post-gastrulation amnioid (PGA), is develop...

www.cell.com

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Reposted by Lendert Gelens

EMBL Events @events.embl.org · May 9

We can't believe #EESTCBio is over! 😱

Thank you to the organisers, speakers, and participants for creating such a vibrant space for critical thinking. It was a joy to see you exchange ideas, challenge assumptions, and explore new perspectives 💡

We hope to see you again at the next edition! 👋

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Reposted by Lendert Gelens

the Node @the-node.bsky.social · Feb 20

3️⃣"Physics of the Early Embryonic Divisions Workshop – Microtubules, energy and cell fate decisions in early embryogenesis" by @olgaafonso.bsky.social, @shuzokato.bsky.social & Helena Cantwell

thenode.biologists.com/physics-of-t...

Thank you to everyone who wrote these reports!

(3/3🧵)

Physics of the Early Embryonic Divisions Workshop – Microtubules, energy and cell fate decisions in early embryogenesis - the Node

Text written by Olga Afonso, Helena Cantwell, and Shuzo Kato This is one of three reports about the "Physics of the Early Embryonic Divisions" Workshop,

thenode.biologists.com

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Reposted by Lendert Gelens

the Node @the-node.bsky.social · Feb 20

2️⃣ "Physics of the Early Embryonic Cell Divisions: Feedbacks, Flows and Information" by Claudio Hernández-López and @singh29aditya.bsky.social

thenode.biologists.com/physics-of-t...

(2/3🧵)

Physics of the Early Embryonic Cell Divisions: Feedbacks, Flows and Information - the Node

By Claudio Hernández-López and Aditya Singh Rajput This is one of three reports about the "Physics of the Early Embryonic Divisions" Workshop, organised

thenode.biologists.com

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Reposted by Lendert Gelens

the Node @the-node.bsky.social · Feb 20

Last year, 30 developmental biologists and biophysicists got together for the 'Physics of the Early Embryonic Cell Divisions' Workshop. Find out what happened (1/3🧵)

1️⃣Building Bridges Between Biology and Physics by @irene-yuting-li.bsky.social @isaacsiuwong.bsky.social & @lena-schindler.bsky.social

Building Bridges Between Biology and Physics: Insights from a Workshop on Early Embryonic Cell Divisions - the Node

Written by Irene Li, Magdalena Schindler and Isaac Wong This is one of three reports about the "Physics of the Early Embryonic Divisions" Workshop,

thenode.biologists.com

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Lendert Gelens @lendertgelens.bsky.social · Mar 26

Excellent question: 40 1-foot ducks, clearly! ;)