Mustafa Öztürk
@mstfozturk.bsky.social
PhD student at EPFL striving to decode the secret conversations between cells, because even cells need good communication to keep the tissue drama under control.
Reposted by Mustafa Öztürk
Organelles do NOT have a single uniform pH.
And if you think they must, because “protons diffuse fast,” this paper is for you.
A thread on why that assumption is wrong; and what we found instead. 🧵 1/n
And if you think they must, because “protons diffuse fast,” this paper is for you.
A thread on why that assumption is wrong; and what we found instead. 🧵 1/n
Organelles harbour pH gradients https://www.biorxiv.org/content/10.64898/2025.12.12.694065v1
December 17, 2025 at 12:46 AM
Organelles do NOT have a single uniform pH.
And if you think they must, because “protons diffuse fast,” this paper is for you.
A thread on why that assumption is wrong; and what we found instead. 🧵 1/n
And if you think they must, because “protons diffuse fast,” this paper is for you.
A thread on why that assumption is wrong; and what we found instead. 🧵 1/n
Reposted by Mustafa Öztürk
🚨We are recruiting two PhD students 🚨
1) Quantitative & dynamic analysis of limb-regenerative signaling centers w/ @osvaldo-chara.bsky.social 📶🧮💻
🔗https://www.phd.tuebingen.mpg.de/80704/Quantitative-and-dynamic-analysis-of-limb-regenerative-signaling-center-interactions
1) Quantitative & dynamic analysis of limb-regenerative signaling centers w/ @osvaldo-chara.bsky.social 📶🧮💻
🔗https://www.phd.tuebingen.mpg.de/80704/Quantitative-and-dynamic-analysis-of-limb-regenerative-signaling-center-interactions
December 17, 2025 at 7:53 AM
🚨We are recruiting two PhD students 🚨
1) Quantitative & dynamic analysis of limb-regenerative signaling centers w/ @osvaldo-chara.bsky.social 📶🧮💻
🔗https://www.phd.tuebingen.mpg.de/80704/Quantitative-and-dynamic-analysis-of-limb-regenerative-signaling-center-interactions
1) Quantitative & dynamic analysis of limb-regenerative signaling centers w/ @osvaldo-chara.bsky.social 📶🧮💻
🔗https://www.phd.tuebingen.mpg.de/80704/Quantitative-and-dynamic-analysis-of-limb-regenerative-signaling-center-interactions
Reposted by Mustafa Öztürk
Congratulations to @ehannezo.bsky.social and Maksym Serbyn! Both win an @erc.europa.eu Consolidator Grant of € 2 Mio. With it, they develop new theories – in biophysics to understand embryonic development and in quantum physics to advance quantum simulators.
👉 https://bit.ly/4rICmco
#ERCCoG
👉 https://bit.ly/4rICmco
#ERCCoG
December 9, 2025 at 11:00 AM
Congratulations to @ehannezo.bsky.social and Maksym Serbyn! Both win an @erc.europa.eu Consolidator Grant of € 2 Mio. With it, they develop new theories – in biophysics to understand embryonic development and in quantum physics to advance quantum simulators.
👉 https://bit.ly/4rICmco
#ERCCoG
👉 https://bit.ly/4rICmco
#ERCCoG
Reposted by Mustafa Öztürk
🎉 Our deconstructed, stem-cell–based approach to studying signaling centers and limb-development cell types is out! 🥳 So nice to see it in its final form after the preprint— and huge thanks to the community for all the enthusiasm and interest since then!
www.science.org/doi/10.1126/...
www.science.org/doi/10.1126/...
Specialized signaling centers direct cell fate and spatial organization in a mesodermal organoid model
Stem cell–derived mesodermal organoids reveal how signaling centers guide cell fate and tissue organization.
www.science.org
December 2, 2025 at 9:15 AM
🎉 Our deconstructed, stem-cell–based approach to studying signaling centers and limb-development cell types is out! 🥳 So nice to see it in its final form after the preprint— and huge thanks to the community for all the enthusiasm and interest since then!
www.science.org/doi/10.1126/...
www.science.org/doi/10.1126/...
Reposted by Mustafa Öztürk
An 8-nm precise map in live cells, which revealed #actin aster formation by #myosin V-driven transport of #formin.
Happy to see this work now out! 😃
In collaboration with @kaksonen.bsky.social lab
#yeast #pombe #cell_fusion
@biology-unige.bsky.social
Happy to see this work now out! 😃
In collaboration with @kaksonen.bsky.social lab
#yeast #pombe #cell_fusion
@biology-unige.bsky.social
New work by @valthomas.bsky.social et al. in @sophiemartinlab.bsky.social provides a live, 8-nm precision map of the actin fusion focus for cell-cell fusion in S. #pombe. This reveals #actin aster formation by #myosin Myo52-driven transport of the formin Fus1 nucleator rupress.org/jcb/article/...
December 4, 2025 at 7:22 AM
An 8-nm precise map in live cells, which revealed #actin aster formation by #myosin V-driven transport of #formin.
Happy to see this work now out! 😃
In collaboration with @kaksonen.bsky.social lab
#yeast #pombe #cell_fusion
@biology-unige.bsky.social
Happy to see this work now out! 😃
In collaboration with @kaksonen.bsky.social lab
#yeast #pombe #cell_fusion
@biology-unige.bsky.social
Reposted by Mustafa Öztürk
New work by @valthomas.bsky.social et al. in @sophiemartinlab.bsky.social provides a live, 8-nm precision map of the actin fusion focus for cell-cell fusion in S. #pombe. This reveals #actin aster formation by #myosin Myo52-driven transport of the formin Fus1 nucleator rupress.org/jcb/article/...
December 3, 2025 at 5:02 PM
New work by @valthomas.bsky.social et al. in @sophiemartinlab.bsky.social provides a live, 8-nm precision map of the actin fusion focus for cell-cell fusion in S. #pombe. This reveals #actin aster formation by #myosin Myo52-driven transport of the formin Fus1 nucleator rupress.org/jcb/article/...
Reposted by Mustafa Öztürk
It’s time to talk about epithelial geometry and cancer. How can the architecture of an epithelium affect how tumors will grow and spread? In this thread, @jorgealmagro.bsky.social
November 23, 2025 at 8:01 AM
It’s time to talk about epithelial geometry and cancer. How can the architecture of an epithelium affect how tumors will grow and spread? In this thread, @jorgealmagro.bsky.social
Reposted by Mustafa Öztürk
Motivational video for #MigrationMovieMonday. A persistent 4T1 breast cancer cell squeezing itself through a tight constriction despite undergoing repetitive nuclear envelope rupture. Credit: Kristen Nedza @weillinstitute.bsky.social
November 25, 2025 at 1:36 AM
Motivational video for #MigrationMovieMonday. A persistent 4T1 breast cancer cell squeezing itself through a tight constriction despite undergoing repetitive nuclear envelope rupture. Credit: Kristen Nedza @weillinstitute.bsky.social
Reposted by Mustafa Öztürk
Greg Alushin (@alushinlab.bsky.social) is decoding how the body’s building blocks sense and respond to force, with implications for everything from cancer to developmental disorders. In this Q&A, he discusses where his work on the cytoskeleton could lead us:
How cells move and change shape--and why it matters for our health - News
Inside each of your cells, there's a microscopic scaffolding that helps determine what the cell looks like, how it moves, and how it responds to its surroundings. This internal structure, called the cytoskeleton, is constantly shifting and adjusting. It...
www.rockefeller.edu
October 24, 2025 at 7:13 PM
Greg Alushin (@alushinlab.bsky.social) is decoding how the body’s building blocks sense and respond to force, with implications for everything from cancer to developmental disorders. In this Q&A, he discusses where his work on the cytoskeleton could lead us:
Reposted by Mustafa Öztürk
🧵1/14 Preprint thread! Can we predict a cell’s fate based on its dynamics? 🔮 Our new study unveils a framework for watching development unfold in real-time, revealing how a cell's shape and movement encode info about its future fate. 🔬📄 Preprint: tinyurl.com/4shf8v4x
September 22, 2025 at 9:37 AM
🧵1/14 Preprint thread! Can we predict a cell’s fate based on its dynamics? 🔮 Our new study unveils a framework for watching development unfold in real-time, revealing how a cell's shape and movement encode info about its future fate. 🔬📄 Preprint: tinyurl.com/4shf8v4x
Reposted by Mustafa Öztürk
Scientists have used low-error genome-sequencing methods in normal tissues from large cohorts of individuals to scan for mutations that set the stage for cancer
go.nature.com/42vakWS
go.nature.com/42vakWS
Ultra-sensitive DNA sequencing maps mutations that precede cancer
Scientists have used low-error genome-sequencing methods in normal tissues from large cohorts of individuals to scan for mutations that set the stage for cancer.
go.nature.com
October 8, 2025 at 5:27 PM
Scientists have used low-error genome-sequencing methods in normal tissues from large cohorts of individuals to scan for mutations that set the stage for cancer
go.nature.com/42vakWS
go.nature.com/42vakWS
Reposted by Mustafa Öztürk
New paper alert! We report in @cp-cellmetabolism.bsky.social how serine regulates stem cell fate in physiology and upon wounding.
Good work, Jesse and collabs!
www.cell.com/cell-metabol...
Good work, Jesse and collabs!
www.cell.com/cell-metabol...
The integrated stress response fine-tunes stem cell fate decisions upon serine deprivation and tissue injury
Novak et al. discover that dietary serine impacts whether hair follicle stem cells
(HFSCs) prioritize hair growth or skin repair after injury. HFSCs gauge metabolic
stress using the ISR and accelerate...
www.cell.com
June 12, 2025 at 3:38 PM
New paper alert! We report in @cp-cellmetabolism.bsky.social how serine regulates stem cell fate in physiology and upon wounding.
Good work, Jesse and collabs!
www.cell.com/cell-metabol...
Good work, Jesse and collabs!
www.cell.com/cell-metabol...
Reposted by Mustafa Öztürk
90% of you probably don’t need to read this.
But maybe some of you are curious & 10% will feel seen. Or a little less alone. This isn’t about seeking sympathy.
It’s about sharing something hard to say out loud;
partly to heal, partly in case someone needs to hear it too. (1/3)
tinyurl.com/DudinO
But maybe some of you are curious & 10% will feel seen. Or a little less alone. This isn’t about seeking sympathy.
It’s about sharing something hard to say out loud;
partly to heal, partly in case someone needs to hear it too. (1/3)
tinyurl.com/DudinO
Omaya Dudin
Interview with Omaya Dudin, who uses Ichthyosporea as models to study how and why
unicellular organisms evolved multicellularity at the University of Geneva.
www.cell.com
June 10, 2025 at 9:41 AM
90% of you probably don’t need to read this.
But maybe some of you are curious & 10% will feel seen. Or a little less alone. This isn’t about seeking sympathy.
It’s about sharing something hard to say out loud;
partly to heal, partly in case someone needs to hear it too. (1/3)
tinyurl.com/DudinO
But maybe some of you are curious & 10% will feel seen. Or a little less alone. This isn’t about seeking sympathy.
It’s about sharing something hard to say out loud;
partly to heal, partly in case someone needs to hear it too. (1/3)
tinyurl.com/DudinO
Reposted by Mustafa Öztürk
🎉 Kicking off the festive season with our first lab outing, celebrating two incredible months together! 🥂✨ Excited for the journey ahead ❤️
December 7, 2024 at 3:49 PM
🎉 Kicking off the festive season with our first lab outing, celebrating two incredible months together! 🥂✨ Excited for the journey ahead ❤️
“Omnis cellula e cellula”
—Rudolf Virchow, 1855
—Rudolf Virchow, 1855
May 11, 2025 at 12:52 PM
“Omnis cellula e cellula”
—Rudolf Virchow, 1855
—Rudolf Virchow, 1855