Scott Coyle
@cellraiser.bsky.social
signaling systems and protein circuitry. reimagining what cells can be. fun posts only. Assistant Professor:
@uwbiochem | Postdoc: @stanford @prakashlab | Ph.D.:
@ucsf Wendell Lim @CDI_UCSF
@uwbiochem | Postdoc: @stanford @prakashlab | Ph.D.:
@ucsf Wendell Lim @CDI_UCSF
Pinned
Scott Coyle
@cellraiser.bsky.social
· Mar 4
Excited to share a new preprint! Wireless devices use FM modulation to transmit multiplexed noise-resistant data. Led by @born2raisecell.bsky.social, we create a biochemical analogue of this paradigm using genetically encoded oscillators (GEOs) for single-cell FM streaming tinyurl.com/nbs8rw42 🧵
Reposted by Scott Coyle
📢 Open faculty position – Origins of Life
We have an opening in our section at the University of Geneva! 🧬🚀
SPREAD THE WORD
Apply here: jobs.unige.ch/www/wd_porta...
We have an opening in our section at the University of Geneva! 🧬🚀
SPREAD THE WORD
Apply here: jobs.unige.ch/www/wd_porta...
a woman says " would you like to join us " with her eyes closed
ALT: a woman says " would you like to join us " with her eyes closed
media.tenor.com
January 16, 2026 at 5:49 PM
📢 Open faculty position – Origins of Life
We have an opening in our section at the University of Geneva! 🧬🚀
SPREAD THE WORD
Apply here: jobs.unige.ch/www/wd_porta...
We have an opening in our section at the University of Geneva! 🧬🚀
SPREAD THE WORD
Apply here: jobs.unige.ch/www/wd_porta...
Yet another fantastic study by my amazing colleague @jasonrcantor.bsky.social -- the spatiotemporal organization of glycolytic machinery / ATP production at play here is so interesting. Congrats to @thebiokimist.bsky.social and the team on a beautiful paper!
For ~century, we’ve asked: why do proliferating cells ferment glucose even when O2 is around? I’m thrilled to share our latest work @natmetabolism.nature.com, led by @thebiokimist.bsky.social. By leveraging conditional essentiality in HPLM, we propose a provocative new answer to this classic Q. 🧵
January 16, 2026 at 4:44 PM
Yet another fantastic study by my amazing colleague @jasonrcantor.bsky.social -- the spatiotemporal organization of glycolytic machinery / ATP production at play here is so interesting. Congrats to @thebiokimist.bsky.social and the team on a beautiful paper!
Reposted by Scott Coyle
For ~century, we’ve asked: why do proliferating cells ferment glucose even when O2 is around? I’m thrilled to share our latest work @natmetabolism.nature.com, led by @thebiokimist.bsky.social. By leveraging conditional essentiality in HPLM, we propose a provocative new answer to this classic Q. 🧵
January 16, 2026 at 4:27 PM
For ~century, we’ve asked: why do proliferating cells ferment glucose even when O2 is around? I’m thrilled to share our latest work @natmetabolism.nature.com, led by @thebiokimist.bsky.social. By leveraging conditional essentiality in HPLM, we propose a provocative new answer to this classic Q. 🧵
Reposted by Scott Coyle
Thrilled to share our latest study, led by @reikatei.bsky.social, in @natchembio.nature.com! We began by asking a simple question—how do cells know if they have too much of a lipid in a particular membrane, and how do they respond to rectify this imbalance?
www.nature.com/articles/s41...
More info 👇
www.nature.com/articles/s41...
More info 👇
Membrane editing with proximity labeling reveals regulators of lipid homeostasis - Nature Chemical Biology
Coupling an optogenetic lipid-modifying enzyme with proximity labeling reveals protein networks and mechanisms regulating lipid homeostasis in the membranes of target organelles.
www.nature.com
January 7, 2026 at 2:59 PM
Thrilled to share our latest study, led by @reikatei.bsky.social, in @natchembio.nature.com! We began by asking a simple question—how do cells know if they have too much of a lipid in a particular membrane, and how do they respond to rectify this imbalance?
www.nature.com/articles/s41...
More info 👇
www.nature.com/articles/s41...
More info 👇
Reposted by Scott Coyle
Thrilled that the lab's first @hhmijanelia.bsky.social project is up on bioRxiv! Story behind the story to follow. www.biorxiv.org/content/10.6...
Memory from variability: Heritable short-term cellular memory emerges from stochastic biochemical reaction networks
Cells exhibit a mysterious form of selective heritable short-term memory, influencing outcomes as diverse as cell fate decisions in embryos and environmental responses in cancer cells and bacteria. He...
www.biorxiv.org
January 2, 2026 at 8:54 PM
Thrilled that the lab's first @hhmijanelia.bsky.social project is up on bioRxiv! Story behind the story to follow. www.biorxiv.org/content/10.6...
Reposted by Scott Coyle
New preprint! We found that the flavin-dependent halogenase RebH catalyzes sequence-tolerant Trp bromination in peptides 🧪https://www.biorxiv.org/content/10.64898/2025.12.17.694899v1
December 21, 2025 at 3:58 AM
New preprint! We found that the flavin-dependent halogenase RebH catalyzes sequence-tolerant Trp bromination in peptides 🧪https://www.biorxiv.org/content/10.64898/2025.12.17.694899v1
New in ACS SynBio: led by Dennis Bolshakov, we used the awesome power of yeast to define how expression levels, noise, and sequence program the dynamics of synthetic protein waves, allowing us to genetically encode new cellular timescales stable over generations!
pubs.acs.org/doi/full/10....
pubs.acs.org/doi/full/10....
December 17, 2025 at 3:24 PM
New in ACS SynBio: led by Dennis Bolshakov, we used the awesome power of yeast to define how expression levels, noise, and sequence program the dynamics of synthetic protein waves, allowing us to genetically encode new cellular timescales stable over generations!
pubs.acs.org/doi/full/10....
pubs.acs.org/doi/full/10....
Reposted by Scott Coyle
🚨New preprint(1/2)! We show that RTK fusion oncoproteins broadly suppress EGFR signaling. How? Sequestration of adapters as the shared principle.
Led by superb PhD student Carol Gao.
www.biorxiv.org/content/10.1...
Implications for drug tolerance/resistance, and includes one big surprise🫧.👇
Led by superb PhD student Carol Gao.
www.biorxiv.org/content/10.1...
Implications for drug tolerance/resistance, and includes one big surprise🫧.👇
December 16, 2025 at 12:05 PM
🚨New preprint(1/2)! We show that RTK fusion oncoproteins broadly suppress EGFR signaling. How? Sequestration of adapters as the shared principle.
Led by superb PhD student Carol Gao.
www.biorxiv.org/content/10.1...
Implications for drug tolerance/resistance, and includes one big surprise🫧.👇
Led by superb PhD student Carol Gao.
www.biorxiv.org/content/10.1...
Implications for drug tolerance/resistance, and includes one big surprise🫧.👇
Reposted by Scott Coyle
Just got word that we are a go for the Bacterial Cell Biology and Development GRS and GRC at Southern New Hampshire University!
GRS will be on June 5-6, 2027
GRC will be from June 6-11, 2027
Block off your calendars Prokaryotic Cell Biologists!
More details to come! Please repost!
GRS will be on June 5-6, 2027
GRC will be from June 6-11, 2027
Block off your calendars Prokaryotic Cell Biologists!
More details to come! Please repost!
December 12, 2025 at 2:58 PM
Just got word that we are a go for the Bacterial Cell Biology and Development GRS and GRC at Southern New Hampshire University!
GRS will be on June 5-6, 2027
GRC will be from June 6-11, 2027
Block off your calendars Prokaryotic Cell Biologists!
More details to come! Please repost!
GRS will be on June 5-6, 2027
GRC will be from June 6-11, 2027
Block off your calendars Prokaryotic Cell Biologists!
More details to come! Please repost!
Reposted by Scott Coyle
#Cellbio2025 come see the latest from the lab, including on opto/thermogenetics, condensates, RTK fusions, stress granules, biosensors of clustering. Talks and posters today and tomorrow!
December 8, 2025 at 12:12 PM
#Cellbio2025 come see the latest from the lab, including on opto/thermogenetics, condensates, RTK fusions, stress granules, biosensors of clustering. Talks and posters today and tomorrow!
Reposted by Scott Coyle
Come work with us! We are looking for a postdoc in #philbio or #philphysics to work on an interdisciplinary project that adopts the lens of self-organization & active matter to explore the boundary between living & nonliving systems www.kuleuven.be/personeel/jo... #academicsky #philjobs #HPS #evosky
December 8, 2025 at 11:21 AM
Come work with us! We are looking for a postdoc in #philbio or #philphysics to work on an interdisciplinary project that adopts the lens of self-organization & active matter to explore the boundary between living & nonliving systems www.kuleuven.be/personeel/jo... #academicsky #philjobs #HPS #evosky
Reposted by Scott Coyle
Cells can hunt prey, solve mazes, and learn from past experience. Does this mean they can think, at some level? Find out more at our upcoming session on "Cell Behavior and Cognition" at the ASCB/EMBO #cellbio2025 meeting, Saturday 1-3 pm rm 115.
December 5, 2025 at 2:36 PM
Cells can hunt prey, solve mazes, and learn from past experience. Does this mean they can think, at some level? Find out more at our upcoming session on "Cell Behavior and Cognition" at the ASCB/EMBO #cellbio2025 meeting, Saturday 1-3 pm rm 115.
Thanks Claudia ! Full credit to Maggie for making the story so epic in scope. Also: will you be at ASCB this year? Hope to see you again some time soon
December 3, 2025 at 7:31 PM
Thanks Claudia ! Full credit to Maggie for making the story so epic in scope. Also: will you be at ASCB this year? Hope to see you again some time soon
Reposted by Scott Coyle
So happy to announce our new preprint, “A geothermal amoeba sets a new upper temperature limit for eukaryotes.” We cultured a novel amoeba from Lassen Volcanic NP (CA, USA) that divides at 63°C (145°F) 🔥 - a new record for euk growth!
#protistsonsky 🧵
#protistsonsky 🧵
November 25, 2025 at 8:41 PM
So happy to announce our new preprint, “A geothermal amoeba sets a new upper temperature limit for eukaryotes.” We cultured a novel amoeba from Lassen Volcanic NP (CA, USA) that divides at 63°C (145°F) 🔥 - a new record for euk growth!
#protistsonsky 🧵
#protistsonsky 🧵
Reposted by Scott Coyle
Our new preprint describes Plasmodium NEK4 as a key regulator coupling meiotic initiation and morphogenesis—a critical step for malaria transmission. This involves MTOC-driven nuclear movement strikingly analogous to "horsetail" movement in fission yeast.
www.biorxiv.org/content/10.1...
www.biorxiv.org/content/10.1...
November 24, 2025 at 4:08 PM
Our new preprint describes Plasmodium NEK4 as a key regulator coupling meiotic initiation and morphogenesis—a critical step for malaria transmission. This involves MTOC-driven nuclear movement strikingly analogous to "horsetail" movement in fission yeast.
www.biorxiv.org/content/10.1...
www.biorxiv.org/content/10.1...
Reposted by Scott Coyle
Wow! Remarkably complete story on the logic of phenotypic plasticity in a predatory protist - congrats @cellraiser.bsky.social et al!
How do cells adapt morphology to function? In a 🔥 preprint by @zjmaggiexu.bsky.social , with @dudinlab.bsky.social and @amyweeks.bsky.social , we identify a self-organizing single-cell morphology circuit that optimizes the feeding trap structure of the suctorian P. collini. 🧵 tinyurl.com/4k8nv926
November 18, 2025 at 8:52 PM
Wow! Remarkably complete story on the logic of phenotypic plasticity in a predatory protist - congrats @cellraiser.bsky.social et al!
Thanks Ben! You've set a high bar for protist excellence that continues to inspire and motivate our thinking :)
November 18, 2025 at 5:24 PM
Thanks Ben! You've set a high bar for protist excellence that continues to inspire and motivate our thinking :)
Reposted by Scott Coyle
Thrilled to share our work on the 🔥 single-celled predator Podophrya collini, which rewires its cell morphology to hunt more efficiently. Huge thanks to our amazing team—Amy, Lauren, Omaya, Marine, Mari, and especially Scott—for making this shine! ✨
How do cells adapt morphology to function? In a 🔥 preprint by @zjmaggiexu.bsky.social , with @dudinlab.bsky.social and @amyweeks.bsky.social , we identify a self-organizing single-cell morphology circuit that optimizes the feeding trap structure of the suctorian P. collini. 🧵 tinyurl.com/4k8nv926
November 18, 2025 at 5:12 PM
Thrilled to share our work on the 🔥 single-celled predator Podophrya collini, which rewires its cell morphology to hunt more efficiently. Huge thanks to our amazing team—Amy, Lauren, Omaya, Marine, Mari, and especially Scott—for making this shine! ✨
My jaw is still recovering tbh 😂 reconstructive surgery scheduled for next week
November 18, 2025 at 5:22 PM
My jaw is still recovering tbh 😂 reconstructive surgery scheduled for next week
Reposted by Scott Coyle
Very happy to see this out there ! Amazing work by @zjmaggiexu.bsky.social @amyweeks.bsky.social & @cellraiser.bsky.social!
All #ProtistsOnSky are amazing, but when I bumbed into @zjmaggiexu.bsky.social & her poster 2y ago at a #GRC conference, I got the urge to attempt #ExpnasionMicroscopy!
n/1
All #ProtistsOnSky are amazing, but when I bumbed into @zjmaggiexu.bsky.social & her poster 2y ago at a #GRC conference, I got the urge to attempt #ExpnasionMicroscopy!
n/1
How do cells adapt morphology to function? In a 🔥 preprint by @zjmaggiexu.bsky.social , with @dudinlab.bsky.social and @amyweeks.bsky.social , we identify a self-organizing single-cell morphology circuit that optimizes the feeding trap structure of the suctorian P. collini. 🧵 tinyurl.com/4k8nv926
November 18, 2025 at 5:19 PM
Very happy to see this out there ! Amazing work by @zjmaggiexu.bsky.social @amyweeks.bsky.social & @cellraiser.bsky.social!
All #ProtistsOnSky are amazing, but when I bumbed into @zjmaggiexu.bsky.social & her poster 2y ago at a #GRC conference, I got the urge to attempt #ExpnasionMicroscopy!
n/1
All #ProtistsOnSky are amazing, but when I bumbed into @zjmaggiexu.bsky.social & her poster 2y ago at a #GRC conference, I got the urge to attempt #ExpnasionMicroscopy!
n/1
Finally – there are many mysteries to still resolve for these cells. From dramatic metamorphic capabilities🤯 to prey preference and detection mechanisms 🕵️. For anyone interested in collaborating or getting their hands on these cells, these fantastic beasts culture well and we’re happy to share!
November 18, 2025 at 4:15 PM
Finally – there are many mysteries to still resolve for these cells. From dramatic metamorphic capabilities🤯 to prey preference and detection mechanisms 🕵️. For anyone interested in collaborating or getting their hands on these cells, these fantastic beasts culture well and we’re happy to share!
We couldn’t have taken this study to the next level without Omaya and Marine from team @dudinlab.bsky.social and Amy and Lauren from team @amyweeks.bsky.social . Together their talents brought the additional molecular and structural clarity we needed to model this circuit’s behavior fully.
November 18, 2025 at 4:15 PM
We couldn’t have taken this study to the next level without Omaya and Marine from team @dudinlab.bsky.social and Amy and Lauren from team @amyweeks.bsky.social . Together their talents brought the additional molecular and structural clarity we needed to model this circuit’s behavior fully.
This work shines because of @zjmaggiexu.bsky.social passion for these cells. She built it all—the cultures, transcriptomes, analyses, modeling and collaborations—from scratch. I can’t begin to express how brilliant and hard-working a scientist she is (and she's 👀 for postdocs!). So proud of her 🥲
November 18, 2025 at 4:15 PM
This work shines because of @zjmaggiexu.bsky.social passion for these cells. She built it all—the cultures, transcriptomes, analyses, modeling and collaborations—from scratch. I can’t begin to express how brilliant and hard-working a scientist she is (and she's 👀 for postdocs!). So proud of her 🥲
More broadly, this circuit’s architecture provides a general control logic for organizing number and size of natural and engineered sub-cellular structures. Morphological circuits like this one can be viewed as building blocks for cell structure, analogous to network motifs and circuit topologies.
November 18, 2025 at 4:15 PM
More broadly, this circuit’s architecture provides a general control logic for organizing number and size of natural and engineered sub-cellular structures. Morphological circuits like this one can be viewed as building blocks for cell structure, analogous to network motifs and circuit topologies.
While our model was built to describe P. collini’s trap scaling, we found that the trap geometries of other suctorian species from different niches could be modeled as re-parameterizations or extensions of this same core control logic!
November 18, 2025 at 4:15 PM
While our model was built to describe P. collini’s trap scaling, we found that the trap geometries of other suctorian species from different niches could be modeled as re-parameterizations or extensions of this same core control logic!