Timothée Lionnet
@successprocess.bsky.social
faculty at NYU School of Medicine. We use advanced microscopy techniques to understand gene expression. Opinions my own. timotheelionnet.net
Reposted by Timothée Lionnet
Diving into the literature… I think it's the first time I see correlative live-cell/EM data after photobleaching - it shows how intense light can actually destroy microtubules rather than just bleach fluorescent tubulin along a neurite (from onlinelibrary.wiley.com/doi/10.1002/...)
November 10, 2025 at 10:26 AM
Diving into the literature… I think it's the first time I see correlative live-cell/EM data after photobleaching - it shows how intense light can actually destroy microtubules rather than just bleach fluorescent tubulin along a neurite (from onlinelibrary.wiley.com/doi/10.1002/...)
Reposted by Timothée Lionnet
Reposted by Timothée Lionnet
This is a most excellent read. Reducing Rosalind Franklin to simply a victim in the discovery of the DNA double helix inadvertently strips her of her very real contributions.
If you believe either that Franklin discovered the double helix, and / or Watson and Crick stole her data, ask yourself how you know this. Then take a read of this article.
If I see one more stupid Rosalind Franklin take I'm going to lose my mind. Thank god for @matthewcobb.bsky.social and @nccomfort.bsky.social. www.nature.com/articles/d41...
November 8, 2025 at 11:06 AM
This is a most excellent read. Reducing Rosalind Franklin to simply a victim in the discovery of the DNA double helix inadvertently strips her of her very real contributions.
Reposted by Timothée Lionnet
We’ve been heads down @ArcadiaScience for a bit but the @arenabioworks news this week caused me to dump thoughts. hard things are hard; don’t be such a fucking hater. Reflections on parallels w our own institutional experiment here seemay.substack.com/p/big-experi...
Big experiments are only big if they can fail
Some reflections on Arena Bioworks' unexpected wind down as a fellow institutional experimentalist
seemay.substack.com
November 6, 2025 at 4:20 PM
We’ve been heads down @ArcadiaScience for a bit but the @arenabioworks news this week caused me to dump thoughts. hard things are hard; don’t be such a fucking hater. Reflections on parallels w our own institutional experiment here seemay.substack.com/p/big-experi...
Reposted by Timothée Lionnet
How do GWAS and rare variant burden tests rank gene signals?
In new work @nature.com with @hakha.bsky.social, @jkpritch.bsky.social, and our wonderful coauthors we find that the key factors are what we call Specificity, Length, and Luck!
🧬🧪🧵
www.nature.com/articles/s41...
In new work @nature.com with @hakha.bsky.social, @jkpritch.bsky.social, and our wonderful coauthors we find that the key factors are what we call Specificity, Length, and Luck!
🧬🧪🧵
www.nature.com/articles/s41...
Specificity, length and luck drive gene rankings in association studies - Nature
Genetic association tests prioritize candidate genes based on different criteria.
www.nature.com
November 7, 2025 at 12:05 AM
How do GWAS and rare variant burden tests rank gene signals?
In new work @nature.com with @hakha.bsky.social, @jkpritch.bsky.social, and our wonderful coauthors we find that the key factors are what we call Specificity, Length, and Luck!
🧬🧪🧵
www.nature.com/articles/s41...
In new work @nature.com with @hakha.bsky.social, @jkpritch.bsky.social, and our wonderful coauthors we find that the key factors are what we call Specificity, Length, and Luck!
🧬🧪🧵
www.nature.com/articles/s41...
Reposted by Timothée Lionnet
Janelia is hosting a course on DL for bioimage analysis www.janelia.org/you-janelia/...
Deep Learning for Microscopy Image Analysis
Topics The following will be covered extensively during lectures, exercises, and project work: Image denoising and restoration (fully supervised and self-supervised) Image translation (e.g.,
www.janelia.org
November 6, 2025 at 5:02 PM
Janelia is hosting a course on DL for bioimage analysis www.janelia.org/you-janelia/...
Reposted by Timothée Lionnet
Having a lot of fun at #EMBOMobileGenome 😃
Perfect timing for our paper from the lab of @toddmacfarlan.bsky.social to be out @natcomms.nature.com!!
…and I’m currently on the job market looking for a new scientific home!
www.nature.com/articles/s41...
Perfect timing for our paper from the lab of @toddmacfarlan.bsky.social to be out @natcomms.nature.com!!
…and I’m currently on the job market looking for a new scientific home!
www.nature.com/articles/s41...
Young KRAB-zinc finger gene clusters are highly dynamic incubators of ERV-driven genetic heterogeneity in mice - Nature Communications
KRAB-zinc finger proteins repress retrotransposons and rapidly evolve in mammals. Here, the authors show that ERV insertions drive the emergence and diversification of new KZFP genes in mice, revealin...
www.nature.com
November 6, 2025 at 9:40 AM
Having a lot of fun at #EMBOMobileGenome 😃
Perfect timing for our paper from the lab of @toddmacfarlan.bsky.social to be out @natcomms.nature.com!!
…and I’m currently on the job market looking for a new scientific home!
www.nature.com/articles/s41...
Perfect timing for our paper from the lab of @toddmacfarlan.bsky.social to be out @natcomms.nature.com!!
…and I’m currently on the job market looking for a new scientific home!
www.nature.com/articles/s41...
Reposted by Timothée Lionnet
Our latest paper has just been published in Cell!
doi.org/10.1016/j.ce...
We developed a new method called MCC ultra, which allows 3D chromatin structure to be visualised with a 1 base pair pixel size.
doi.org/10.1016/j.ce...
We developed a new method called MCC ultra, which allows 3D chromatin structure to be visualised with a 1 base pair pixel size.
November 5, 2025 at 5:20 PM
Our latest paper has just been published in Cell!
doi.org/10.1016/j.ce...
We developed a new method called MCC ultra, which allows 3D chromatin structure to be visualised with a 1 base pair pixel size.
doi.org/10.1016/j.ce...
We developed a new method called MCC ultra, which allows 3D chromatin structure to be visualised with a 1 base pair pixel size.
Reposted by Timothée Lionnet
Academics in Assyria in the 7th c BC complain that admin is preventing them from doing research and teaching
November 3, 2025 at 10:04 AM
Academics in Assyria in the 7th c BC complain that admin is preventing them from doing research and teaching
neither did I! this seems like a super important result
November 1, 2025 at 2:33 PM
neither did I! this seems like a super important result
Reposted by Timothée Lionnet
This is such an interesting paper. Why? Because the binding of transcription factor (TF) proteins to DNA governs how our genes are turned on/off/up/down, & so is the primary issue for how our genes work in development and how our cells respond to just about anything.🧵
www.nature.com/articles/s41...
www.nature.com/articles/s41...
Multiple overlapping binding sites determine transcription factor occupancy - Nature
A new method enables comprehensive screening and identification of low-affinity DNA binding sites for transcription factors, and reveals that nucleotides flanking high-affinity binding sites create ov...
www.nature.com
October 30, 2025 at 11:04 PM
This is such an interesting paper. Why? Because the binding of transcription factor (TF) proteins to DNA governs how our genes are turned on/off/up/down, & so is the primary issue for how our genes work in development and how our cells respond to just about anything.🧵
www.nature.com/articles/s41...
www.nature.com/articles/s41...
Reposted by Timothée Lionnet
@jhigginswriter.bsky.social wrote an article about my lab and our frog 🐸 at the Hutch! Thank you!
Dr. @yarimura.bsky.social brings frogs back to Fred Hutch after a long absence to study the structure of DNA-linked molecular complexes that change during the cell cycle and malfunction in cancer and other diseases. bit.ly/3J8S5Ae
Frogs help Fred Hutch find the shape of small things
Frogs have made significant contributions to Fred Hutch science over the years as a model organism that shares much of our biology, but they've been absent from the menagerie for about two decades. Dr...
bit.ly
October 29, 2025 at 6:29 AM
@jhigginswriter.bsky.social wrote an article about my lab and our frog 🐸 at the Hutch! Thank you!
Reposted by Timothée Lionnet
Our photoswitchable HaloTag is out in Angewandte Chemie @angewandtechemie.bsky.social ! We now also show that this system can be used to control emitter density in SMLM. Congrats to Franzi, Bego, and our amazing collaborators. Check it out: onlinelibrary.wiley.com/doi/full/10....
A Photoswitchable HaloTag for Spatiotemporal Control of Fluorescence in Living Cells
Photoswitchable fluorophores are critical for advanced bioimaging. Here, we develop a photoswitchable self-labeling HaloTag that can reversibly modulate the emission of a bound fluorogenic dye via a ....
onlinelibrary.wiley.com
October 25, 2025 at 8:56 AM
Our photoswitchable HaloTag is out in Angewandte Chemie @angewandtechemie.bsky.social ! We now also show that this system can be used to control emitter density in SMLM. Congrats to Franzi, Bego, and our amazing collaborators. Check it out: onlinelibrary.wiley.com/doi/full/10....
Reposted by Timothée Lionnet
Fed employee mood this weekend:
a man and a woman are standing next to each other in a living room and talking .
ALT: a man and a woman are standing next to each other in a living room and talking .
media.tenor.com
October 25, 2025 at 1:17 PM
Fed employee mood this weekend:
Reposted by Timothée Lionnet
For your enjoyment (by @jagarikin)
October 25, 2025 at 11:58 AM
For your enjoyment (by @jagarikin)
Reposted by Timothée Lionnet
How can we see the cells that make up a living organism? Membrane-localising tags can drive fluorescent proteins to the cell's outer membrane, making their outlines visible. But the tags don't work well in all organisms. How do you find one for your species of interest? 🧵
Check our latest preprint
Check our latest preprint
A toolkit for testing membrane-localising tags across species
Transgenic markers and tools have revolutionised how we study cells and developing organisms. Some of the elements needed to construct those tools are universally applicable (e.g. fluorescent proteins...
www.biorxiv.org
October 23, 2025 at 8:16 AM
How can we see the cells that make up a living organism? Membrane-localising tags can drive fluorescent proteins to the cell's outer membrane, making their outlines visible. But the tags don't work well in all organisms. How do you find one for your species of interest? 🧵
Check our latest preprint
Check our latest preprint
Reposted by Timothée Lionnet
Predicting protein-protein interactions.
They '...systematically screened 200 million human protein pairs and predicted 17,849 interactions with anexpected precision of 90%, of which 3,631 interactions were not identified in previous experimental screens.'
www.science.org/doi/epdf/10....
They '...systematically screened 200 million human protein pairs and predicted 17,849 interactions with anexpected precision of 90%, of which 3,631 interactions were not identified in previous experimental screens.'
www.science.org/doi/epdf/10....
Predicting protein-protein interactions in the human proteome
Protein-protein interactions (PPI) are essential for biological function. Coevolutionary analysis and deep learning (DL) based protein structure prediction have enabled comprehensive PPI identificatio...
www.science.org
September 30, 2025 at 2:45 PM
Predicting protein-protein interactions.
They '...systematically screened 200 million human protein pairs and predicted 17,849 interactions with anexpected precision of 90%, of which 3,631 interactions were not identified in previous experimental screens.'
www.science.org/doi/epdf/10....
They '...systematically screened 200 million human protein pairs and predicted 17,849 interactions with anexpected precision of 90%, of which 3,631 interactions were not identified in previous experimental screens.'
www.science.org/doi/epdf/10....
Reposted by Timothée Lionnet
🚨 🚨 🚨 New preprint alert!!! 🚨 🚨 🚨
In the past, we have learnt that Oct4 can induce nucleosome breathing on the mono-nucleosome level.
But what happens when you have a fibre of multiple nucleosomes?
www.biorxiv.org/content/10.1...
@rcollepardo.bsky.social @juliamaristany.bsky.social
In the past, we have learnt that Oct4 can induce nucleosome breathing on the mono-nucleosome level.
But what happens when you have a fibre of multiple nucleosomes?
www.biorxiv.org/content/10.1...
@rcollepardo.bsky.social @juliamaristany.bsky.social
October 21, 2025 at 9:59 AM
🚨 🚨 🚨 New preprint alert!!! 🚨 🚨 🚨
In the past, we have learnt that Oct4 can induce nucleosome breathing on the mono-nucleosome level.
But what happens when you have a fibre of multiple nucleosomes?
www.biorxiv.org/content/10.1...
@rcollepardo.bsky.social @juliamaristany.bsky.social
In the past, we have learnt that Oct4 can induce nucleosome breathing on the mono-nucleosome level.
But what happens when you have a fibre of multiple nucleosomes?
www.biorxiv.org/content/10.1...
@rcollepardo.bsky.social @juliamaristany.bsky.social
Reposted by Timothée Lionnet
My new lab at the @molgen.mpg.de will be following up on some of the nuclear organization aspects of ecDNA so please do reach out if this is of interest :)
October 21, 2025 at 9:43 AM
My new lab at the @molgen.mpg.de will be following up on some of the nuclear organization aspects of ecDNA so please do reach out if this is of interest :)
Reposted by Timothée Lionnet
Here, we show that the unique regulatory landscape of ecDNA enables an ancient LINE to resurrect and act as an enhancer of Myc. This was so fun with @katerinakraft.bsky.social and @mattjones.bsky.social and others. www.nature.com/articles/s41...
Enhancer activation from transposable elements in extrachromosomal DNA - Nature Cell Biology
Kraft, Murphy, Jones et al. identify extrachromosomal DNA (ecDNA)-interacting elements (EIEs) enriched for transposable elements within ecDNA in colorectal cancer cells. They show that EIE 14 integrat...
www.nature.com
October 21, 2025 at 9:43 AM
Here, we show that the unique regulatory landscape of ecDNA enables an ancient LINE to resurrect and act as an enhancer of Myc. This was so fun with @katerinakraft.bsky.social and @mattjones.bsky.social and others. www.nature.com/articles/s41...
Reposted by Timothée Lionnet
We (@sobuelow.bsky.social) developed AF-CALVADOS to integrate AlphaFold and CALVADOS to simulate flexible multidomain proteins at scale
See preprint for:
— Ensembles of >12000 full-length human proteins
— Analysis of IDRs in >1500 TFs
📜 doi.org/10.1101/2025...
💾 github.com/KULL-Centre/...
See preprint for:
— Ensembles of >12000 full-length human proteins
— Analysis of IDRs in >1500 TFs
📜 doi.org/10.1101/2025...
💾 github.com/KULL-Centre/...
October 20, 2025 at 11:26 AM
We (@sobuelow.bsky.social) developed AF-CALVADOS to integrate AlphaFold and CALVADOS to simulate flexible multidomain proteins at scale
See preprint for:
— Ensembles of >12000 full-length human proteins
— Analysis of IDRs in >1500 TFs
📜 doi.org/10.1101/2025...
💾 github.com/KULL-Centre/...
See preprint for:
— Ensembles of >12000 full-length human proteins
— Analysis of IDRs in >1500 TFs
📜 doi.org/10.1101/2025...
💾 github.com/KULL-Centre/...
Reposted by Timothée Lionnet
Come join us in Geneva for everything epigenetics and gene regulation. It will be a great meeting! Please repost!
www.keystonesymposia.org/conferences/...
www.keystonesymposia.org/conferences/...
Epigenetics and Gene Regulation in Health and Disease: Linking Basic Mechanisms with Therapeutic Opportunities | Keystone Symposia
Join us at the Keystone Symposia on Epigenetics and Gene Regulation in Health and Disease: Linking Basic Mechanisms with Therapeutic Opportunities, March 2026, in Geneva, with field leaders!
www.keystonesymposia.org
October 17, 2025 at 2:36 PM
Come join us in Geneva for everything epigenetics and gene regulation. It will be a great meeting! Please repost!
www.keystonesymposia.org/conferences/...
www.keystonesymposia.org/conferences/...
Reposted by Timothée Lionnet
What is a promoter? And how does it work?
We very happy to share our latest work trying to understand enhancer-promoter compatibility.
I am very excited about the results of @blanka-majchrzycka.bsky.social, which changed the way I think about promoters
www.biorxiv.org/content/10.1...
We very happy to share our latest work trying to understand enhancer-promoter compatibility.
I am very excited about the results of @blanka-majchrzycka.bsky.social, which changed the way I think about promoters
www.biorxiv.org/content/10.1...
Enhancer-promoter compatibility is mediated by the promoter-proximal region
Gene promoters induce transcription in response to distal enhancers. How enhancers specifically activate their target promoter while bypassing other promoters remains unclear. Here, we find that the p...
www.biorxiv.org
October 16, 2025 at 3:06 PM
What is a promoter? And how does it work?
We very happy to share our latest work trying to understand enhancer-promoter compatibility.
I am very excited about the results of @blanka-majchrzycka.bsky.social, which changed the way I think about promoters
www.biorxiv.org/content/10.1...
We very happy to share our latest work trying to understand enhancer-promoter compatibility.
I am very excited about the results of @blanka-majchrzycka.bsky.social, which changed the way I think about promoters
www.biorxiv.org/content/10.1...
Reposted by Timothée Lionnet
How does a “universal” transcription factor evolve to do species-specific jobs?
Our new preprint reveals how divergence in TBP’s domains shapes transcriptional specialization across eukaryotes.
Read it here 👉
www.biorxiv.org/content/10.1...
#MolecularEvolution #Transcription
Our new preprint reveals how divergence in TBP’s domains shapes transcriptional specialization across eukaryotes.
Read it here 👉
www.biorxiv.org/content/10.1...
#MolecularEvolution #Transcription
Molecular determinants underlying functional divergence of TBP homologs
The TATA-box binding protein (TBP) is a highly conserved basal transcription factor and a core component of the pre-initiation complex (PIC) for all three eukaryotic RNA polymerases (RNA Pols). Despit...
www.biorxiv.org
October 7, 2025 at 7:43 PM
How does a “universal” transcription factor evolve to do species-specific jobs?
Our new preprint reveals how divergence in TBP’s domains shapes transcriptional specialization across eukaryotes.
Read it here 👉
www.biorxiv.org/content/10.1...
#MolecularEvolution #Transcription
Our new preprint reveals how divergence in TBP’s domains shapes transcriptional specialization across eukaryotes.
Read it here 👉
www.biorxiv.org/content/10.1...
#MolecularEvolution #Transcription
Reposted by Timothée Lionnet
👀
Identification of human RNA Polymerase II interactors at early stages of transcription. https://www.biorxiv.org/content/10.1101/2025.10.08.681243v1
October 9, 2025 at 4:50 AM
👀