Marieke Oudelaar
@mariekeoudelaar.bsky.social
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Director at Max Planck Institute of Immunology and Epigenetics Department of Genome Biology
We are looking for someone to lead the new Facility for Protein Biochemistry & Biophysics at the MPI of Immunobiology and Epigenetics in Freiburg — please spread the word and apply if you are interested!
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10 days ago
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Elzo de Wit lab @ NKI
11 days ago
(1/10) The majority of human genetic variation is located in non-coding regions. The great challenge of the post-genomic era is to assign function to these variants. We reasoned that combining haplotyping with allele-specific multiomics can help pinpoint the functional ones:
rdcu.be/fgr5W
. A thread:
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Mapping functional non-coding variation in individual human genomes through haplotyping, multiomics, and deep learning
Nature Communications - How non-coding mutations in DNA contribute to phenotypes is a largely unresolved question. Here the authors integrate personal genomics and machine learning to identify...
https://rdcu.be/fgr5W
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Max Planck Institute of Immunobiology and Epigenetics
28 days ago
Last day to register! TriRhena Gene Regulation Club Meeting 📍 Location: MPI-IE, Freiburg 🇩🇪 📅 Date: June 29, 2026 | 2:00-18:00 PM 🆓 Participation is free of charge, advance registration is required. Register your abstracts for 20-minute research talk.
www.ie-freiburg.mpg.de/gene-regulat...
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Anders Sejr Hansen
24 days ago
(1/n) Very excited to share tri-lab collab (Mirny & Zechner) led by Harvey, Henrik & Jack: Q: How do enhancers & promoters interact in space (contact vs. action-at-a-distance) and time (stable vs. transient)? A: Transient E-P contact (~25-42 nm lasting ~10-20 sec):
www.biorxiv.org/content/10.6...
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Ana Pombo
24 days ago
bioRxiv alert! CoPhasing resolves haplotype-specific 3D chromatin structures from GAM data, revealing extensive structural heterogeneity between human homologous chromosomes and its interplay with histone modifications and gene expression! Thanks to all coauthors!
www.biorxiv.org/content/10.6...
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https://www.biorxiv.org/content/10.64898/2026.06.16.732681v1.full
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Vijay Ramani
29 days ago
JIT 4 summer, the latest preprint from our lab, brilliantly led by
@kaitezhang.bsky.social
w/ support from Collepardo lab (
@juliamaristany.bsky.social
/
@janhuemar.bsky.social
).
www.biorxiv.org/content/10.6...
describes a new single-molecule epigenomic method, & discoveries it enables ... (1/n)
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Single-molecule nucleosome spacing coordinates chromatin fiber interactions
Nucleosome spacing influences higher-order chromatin fiber organization in vitro but how this relates to cellular chromosome structure remains contentious. To address this, we developed Ligation Analy...
https://www.biorxiv.org/content/10.64898/2026.06.02.729033v1
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Svetlana Dodonova
28 days ago
Excited to share our new preprint! 🧬❄️ by brilliant
@mdreimann.bsky.social
and great collaborators! Using cryo-ET&EM, we reveal archaeal chromatin in a near-native state: variable-beads-on-a-string fibers shaped by growth phase and histone composition
#ArchaeaSky
www.biorxiv.org/content/10.6...
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Camille Berthelot
about 1 month ago
sPYce is now published in Nature Ecology and Evolution! sPYce is a method to integrate single-cell regulatory data across species, without requiring whole-genome alignments between species. More below ⬇️
www.nature.com/articles/s41...
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Alignment-free integration of single-nucleus ATAC-seq across species with sPYce - Nature Ecology & Evolution
This paper presents sPYce, a method that integrates single-nucleus ATAC-seq data across species, allowing for comparison of gene regulatory evolution across species.
https://www.nature.com/articles/s41559-026-03087-1
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Lennart Hilbert
about 1 month ago
Did you know that stem cells have unusually large transcription clusters, which disappear upon differentiation? Yes? You paid attention in 2018! In 2026, we show you that this process proceeds via massive, global shifts in transcriptional control.
advanced.onlinelibrary.wiley.com/doi/10.1002/...
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Charlène Boumendil (She/Her)
about 1 month ago
New version of our preprint, led by amazing PhD students, Zoé and Stefany: disordered-like physical properties of TPR mediated by its coiled coil (!) and negatively regulated by its disordered domain (!) triggers heterochromatin exclusion and a new permeability barrier at nuclear pore basket (!)
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Disorder in coiled-coils orchestrate chromatin organization and define a new permeability barrier at the nuclear pore basket
Nuclear pore complexes are the only gateway between the nucleus and cytoplasm in eukaryotic cells during interphase. Specificity of transport is ensured by a size-dependent permeability barrier, which...
https://www.biorxiv.org/content/10.1101/2025.07.18.665545v2
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Mikhail Spivakov
about 1 month ago
Our story about the poising and connectivity of human developmental enhancers is out!
www.cell.com/cell-reports...
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Botany One
about 1 month ago
W3 Professorship for Plant Biotechnology // University of Freiburg
www.nature.com/naturecareer...
The position holder will lead a research program that combines excellent basic research with clear perspectives for biotechnological and societally relevant applications.
#BotanyJobs
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W3 Professorship for Plant Biotechnology - Freiburg im Breisgau, Baden-Württemberg (DE) job with University of Freiburg (Uni Freiburg) | 12859402
The future position holder will lead an internationally recognized research program that combines excellent basic research with clear perspectives for
https://www.nature.com/naturecareers/job/12859402/w3-professorship-for-plant-biotechnology/?LinkSource=PremiumListing
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Ferenc Mueller
about 2 months ago
Join is in Budapest in October! For the 6th time, all things epigenetics, gene and genome regulation and more. A fantastic opportunity to present, to talk to speakers and colleagues in a friendly, informal setting at a great location. Please note, travel grant deadline will expire soon.
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Seychelle Vos
about 2 months ago
⚡New preprint from the lab⚡: A key early checkpoint in gene expression is promoter proximal pausing of RNA polymerase II. For over 20 years, we as field have not been able to recreate pausing under realistic cellular conditions.
@robertovn.bsky.social
shows that ELOF1 is the missing piece.
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Rob Klose
about 2 months ago
Help please! We need to do some large(ish) cell culture inhibiting E-cadherin with a monoclonal antibody. Does anyone have the DECMA-1 hybridoma cell line so we could purify our own antibody? or a similar monoclonal that would do the job. Any help greatly appreciated, just DM me. Please repost!
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I am very grateful and excited about this opportunity! Big thank you to our fantastic team who have made this possible and to many supportive mentors 🙏
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about 2 months ago
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📣 Preprint alert! We developed a method to analyze concurrent interactions between multiple chromatin regions at single alleles at sub-nucleosome resolution (multi-way Micro-Capture-C, mwMCC) & used this to study structural synergy within super-enhancers. 1/14
www.biorxiv.org/content/10.6...
about 2 months ago
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Victoria Deneke
about 2 months ago
How do sperm and egg fuse? Surprisingly, we still don’t fully know… Our field has uncovered many pieces of the fertilization puzzle, but not how they fit together. We identify ✨ SPARK ✨ - a conserved sperm complex that couples sperm-egg binding to fusion.
tinyurl.com/34cm4xat
Read on! 🧵👇
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Igor Ulitsky
2 months ago
Now out
@natbiotech.nature.com
! Do lncRNAs commonly bind 1000s of genomic sites? Maybe they do, but the dozens of studies that report genomic binding maps of lncRNAs are deeply flawed, with probes binding suprious DNA sites rather than RNA-bound ones.
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Lucas Farnung
2 months ago
Excited that Della Syau's PhD work is now available as a NAR Breakthrough article:
academic.oup.com/nar/article/...
. Della's work clarifies how IWS1 engages the transcription elongation complex, stimulates transcription, and controls association of other factors such as RECQL5.
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Structure and function of IWS1 in transcription elongation
Abstract. Transcription elongation by RNA polymerase II is a tightly regulated process that requires coordinated interactions between transcription elongat
https://academic.oup.com/nar/article/54/9/gkag357/8677211
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Akis (Argyris) Papantonis
2 months ago
Our preprint on how variant U1 snRNAs control transcriptional and splicing homeostasis of hiPSCs is now officially out in
@natcomms.nature.com
and accessible via this link:
www.nature.com/articles/s41...
This has been the culmination of our work as part of the SPP1935 program funded by
@dfg.de
1/n
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Scaffidi Lab
2 months ago
Registration open. Top-notch lineup of speakers from Europe, the US and beyond, covering chromatin biology, genome maintenance, cancer plasticity and evolution, and metabolism
www.atoutcom.com/cancer-epige...
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Elphege Nora Lab at UCSF
2 months ago
Why can't we explain enhancer action despite 2 decades of chromosome conformation technologies? 😬
Our new study
spearheaded by Leonid Mirny's group points to a flaw in our assumptions, and to a solution from physical principles By
@timothyfoldes.bsky.social
💻&
@karissalhansen.bsky.social
🧪 🧵👇
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Jörg Enderlein
2 months ago
Excited to share our latest work in @ScienceAdvances! 🔬 We’ve developed "dynaMIET"—a new spectroscopy technique that finally allows us to simultaneously measure 3D membrane dynamics in live cells with nanometer precision.
www.science.org/doi/10.1126/...
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Quantifying 3D live-cell membrane dynamics using dynamic metal-induced energy transfer spectroscopy (dynaMIET)
dynaMIET enables simultaneous measurement of lateral diffusion and vertical membrane fluctuations in live cells.
https://www.science.org/doi/10.1126/sciadv.aed9613
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Karsten Rippe
2 months ago
1/ Some cancers can proliferate without telomerase. They recombine and extend their telomeres inside ALT-associated PML bodies (APBs).
@emmakoeleman.bsky.social
@dkfz.bsky.social
mapped where proteins and single-stranded telomeric repeats sit in APBs:
doi.org/10.64898/202...
🧵
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Lorenz Lab
2 months ago
Over the past 5 years, 50 structures of full-length HECT-type ligase constructs have been deposited in the PDB. What have we learned from these studies, and what key questions remain open? Check out our new review on this exciting and fast-moving field:
www.jbc.org/article/S002...
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HECT-type ubiquitin ligases: Emerging principles in the era of full-length structures
Ubiquitin coordinates a complex network of cellular pathways through covalent modification of substrates. Specificity in substrate recognition and modification choice is largely conferred by ubiquitin...
https://www.jbc.org/article/S0021-9258(26)00310-8/fulltext
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Julio Abril Garrido
2 months ago
Excited to share a preprint which is currently under revision! Together with the amazing
@ymzhan.bsky.social
in
@patrick-cramer.maxplanck.de
lab, we describe that the +1 nucleosome actively regulates the transition from transcription initiation to elongation
www.biorxiv.org/content/10.6...
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Maxim Greenberg
3 months ago
This a very important, and extremely well-executed study from Ralph Grand’s group
@uniheidelberg.bsky.social
. Congrats to all the authors!
www.biorxiv.org/content/10.6...
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Anders Sejr Hansen
2 months ago
(1/n) Super excited to share that our preprint is out today in
@natsmb.nature.com
with a new name "Integrated MINFLUX tracking reveals two distinct chromatin dynamics classes across cell types" and more than 2x more data:
www.nature.com/articles/s41...
See also MIT News
news.mit.edu/2026/how-chr...
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Schubeler Lab
2 months ago
Excited to share our new study on CpG islands (CGIs) regulation by transcription factors (TFs)! CGIs drive most transcription initiation with unclear regulation. We find that chromatin-opening TFs are key players—following a surprisingly simple rule. 🧵
www.biorxiv.org/content/10.6...
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https://www.biorxiv.org/content/10.64898/2026.05.04.722487v1
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Vijay Ramani
2 months ago
Delighted to share our lab's latest (w/ inimitable
@genophoria.bsky.social
) in final form at
@nature.com
. Enormous lift by Sean Wang,
@palindromephd.bsky.social
&
@martyyang.bsky.social
to address extensive & constructive reviewer comments & see this through. (1/n)
www.nature.com/articles/s41...
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Pervasive and programmed nucleosome distortion on single chromatin fibres - Nature
An analytical pipeline called Iteratively Defined Lengths of Inaccessibility (IDLI) maps the genome-wide occupancy of a range of nucleosome types and shows that most nucleosomes exhibit programmed ‘di...
https://www.nature.com/articles/s41586-026-10418-6
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Claudia Keller Valsecchi
2 months ago
Two new papers 📖 from our lab 1️⃣ What is epigenetics (and why X inactivation is?)
rdcu.be/fhzSz
and 2️⃣ A Baculovirus-based tool to express any gene of interest with high efficiency in Anopheles cells
rdcu.be/fhzTy
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The epigenetic nature of X chromosome inactivation
Nature Reviews Genetics - In this Journal Club, Claudia Keller Valsecchi recalls two seminal studies by Csankovszki et al. and by Wutz and Jaenisch that defined X-chromosome inactivation as an...
https://rdcu.be/fhzSz
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Wendy Bickmore
2 months ago
Although cohesin-sensitive, long-range enhancer activation is equivalent in nature to proximal activation. Cooperativity can arise from different levels of activation inputs operating on a non-linear response function.
@eliasfriman.bsky.social
@uoe-igc.bsky.social
www.biorxiv.org/content/10.6...
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Elphege Nora Lab at UCSF
3 months ago
📖 The final version of our paper is out in press Cohesin cofactor dosage sets the rate of loop extrusion, rendering genome folding tunable yet vulnerable to genetic disruption
authors.elsevier.com/a/1m%7EU03vV...
or
www.cell.com/molecular-ce...
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Romain Koszul
3 months ago
Happy to share our review of the past, recent, and future applications of synthetic genomics in studying the 3D functional organization of chromosomes, a set of approaches that are gaining momentum!
www.sciencedirect.com/science/arti...
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Synthetic chromosomes for 3D functional genomics: from principles to AI-guided design
The role of genome 3D organization for fundamental chromatin processes, such as long-range promoter-activator regulatory interactions, remains ambiguo…
https://www.sciencedirect.com/science/article/pii/S0959437X26000389
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Elzo de Wit lab @ NKI
3 months ago
New paper in Genes & Dev: we dissected how Sox2 — a key pluripotency TF — is regulated by a distal enhancer cluster (SCR) 100 kb away. The results challenge simple models of cohesin-mediated loop extrusion of gene regulation.
genesdev.cshlp.org/content/earl...
🧵
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Cohesin-mediated loop extrusion and enhancer-associated factors additively contribute to Sox2 looping with its distal enhancer
A biweekly scientific journal publishing high-quality research in molecular biology and genetics, cancer biology, biochemistry, and related fields
https://genesdev.cshlp.org/content/early/2026/04/13/gad.353296.125
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Niklas Kempynck
3 months ago
CREsted is finally out! You can find the article, together with a summarizing Research Briefing, in thread. 🦎
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Max Planck Institute of Immunobiology and Epigenetics
4 months ago
The 8th Epigenetics Meeting is coming — Dec 2–4, 2026, Max Planck Freiburg. 27 top speakers. Chromatin biology, epigenetic regulation, and real conversations. And you☝️!? Registration is open. Don't wait. 👇 🔗
events.ie-freiburg.mpg.de
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Rob Klose
4 months ago
Just a quick reminder that the first of these Associate Professorships have a closing date for applications of April the 8th. Get your application in now! Please repost
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Hiroshi Ochiai
5 months ago
1/3 New bioRxiv preprint from the lab: “Minute-scale coupling of chromatin marks and transcriptional bursts”. Led by Xiohui Gao & Chaebeen Ko. bioRxiv :
www.biorxiv.org/cgi/content/...
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Ana Tufegdzic Vidakovic
4 months ago
We are looking for a postdoc to join us on the quest for understanding RNA Pol II destruction machines! If you are curious why more than 80% of Pol II are removed from genes, check out the post below:
www.nature.com/naturecareer...
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Postdoctoral Scientist | PNAC | Dr Ana Tufegdzic Vidakovic | LMB 2142 - Cambridge, Cambridgeshire (GB) job with MRC Laboratory of Molecular Biology (LMB) | 12857096
Postdoctoral Scientist Salary £42,694 per annum pro rata Fixed term for 3 years MRC Laboratory of Molecular Biology, Cambridge, UK Applications are...
https://www.nature.com/naturecareers/job/12857096/postdoctoral-scientist-pnac-dr-ana-tufegdzic-vidakovic-lmb-2142/
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Kelly Nguyen
4 months ago
Proud to share the yeast telomerase structure, led by the talented
@hongmiaohu.bsky.social
in collaboration with the Wellinger and Chartrand labs. Discovered 37 years ago and took us nearly 7 years but totally worth the wait 😍.
www.science.org/doi/10.1126/...
www.youtube.com/watch?v=gFE4...
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Kai Johnsson
4 months ago
A high-affinity split-HaloTag for live-cell protein labeling. And much more.
www.nature.com/articles/s41...
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A high-affinity split-HaloTag for live-cell protein labeling
Nature Communications - Lin and colleagues present high-affinity split-HaloTag pairs for protein tagging and multiplexed labelling. This versatile system allows protein visualisation with diverse...
https://www.nature.com/articles/s41467-026-71032-8.epdf?sharing_token=SwhuERz3x4x2PtMpZqm37NRgN0jAjWel9jnR3ZoTv0NXCWvaKYk-Xuv2MiEQauHVVSmwrm7JkH9-xVP0jtLIGprbOnnbhq4EY96uHN8z7403Rcd4G5Nl05giDgwf3hq5Fjl0jf7e8f_4EjinQx-8kLaQuydUy4n0PtwFaPbr_PQ%3D
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4 months ago
🔥 How does CTCF shape enhancer–promoter communication? In our new preprint, we systematically test how the position and orientation of CTCF binding sites (CBSs) influence gene regulation at the mouse Sox2 locus. 🧪 full paper can be found here:
www.biorxiv.org/content/10.6...
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https://www.biorxiv.org/content/10.64898/2026.03.16.711995v1
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Suyang Zhang
4 months ago
Our lab
@mrclmb.ac.uk
in Cambridge is seeking a passionate PhD student to explore transcription-coupled splicing! Join our team for an exciting project to understand human gene regulation 🧬 Feel free to get in touch directly
#PhD
#cryoEM
#biochemistry
mrclmb.ac.uk/careers-and-...
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Arnaud Krebs
4 months ago
Want to know how histone marks regulate your favorite gene? Go single molecule with ChromSMF: integrated measure of chromatin accessibility and histone marks + DNA methylation, TF footprints and genotype for free! Very proud of
@mpalamin.bsky.social
!
@embl.org
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Darío Lupiáñez
4 months ago
✉️ Research Briefing by
@mamartirenom.bsky.social
and I on our recent study, where we employ a new method, METALoci, to explore the 3D regulatory landscape of sex determination. 👏Thanks to
@mcgambetta.bsky.social
&
@dimitristypas.bsky.social
for their insights. 👉 Full manuscript:
rdcu.be/e5sm2
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Elzo de Wit lab @ NKI
4 months ago
🧵 CTCF is essential for embryonic development, but why has remained unclear. By combining gastruloids with a temporal degron system, we uncovered a surprising dual function — and it changes how we think about CTCF's role in development. 1/8
www.biorxiv.org/content/10.6...
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A dual role for CTCF in development
CTCF is an essential DNA binding protein whose absence leads to embryonic lethality. CTCF is primarily known for its role in 3D genome organization where its N-terminal domain interacts with cohesin to anchor chromatin loops. How CTCF facilitates proper embryonic development remains unclear, necessitating temporal control to resolve its stage-specific functions. By combining gastruloids, an in vitro model of embryonic development, with a degron system to rapidly deplete CTCF at defined timepoints, we show that early CTCF depletion impairs early gastruloid morphogenesis. Surprisingly, ATAC-seq and time-resolved RNA-seq revealed that differentiation was unaffected. CTCF binding is strongly enriched at promoters of downregulated genes. Re-expression of a CTCF variant with an N-terminal truncation, incapable of looping, was sufficient to rescue the expression of CTCF-promoter bound genes and the defects in morphogenesis. However, extended culture (up to 168 hours) of gastruloids reconstituted with N-terminal truncated CTCF led to their collapse. Our work shows that CTCF has a dual function in early mammalian development: at early stages CTCF regulates developmentally important genes through promoter binding, while at later stages its looping function is required for correct development. ### Competing Interest Statement The authors have declared no competing interest. European Research Council, https://ror.org/0472cxd90, 637587, 865459 Dutch Research Council, https://ror.org/04jsz6e67, 016.161.316, VI.C.222.049 Dutch Cancer Society, https://ror.org/0368jnd28, N/A
https://www.biorxiv.org/content/10.64898/2026.03.17.712290v1
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Bas van Steensel lab (NKI)
4 months ago
New preprint from our lab... We applied our hopping technology to relocate CTCF binding sites to thousands of alternative positions in the Sox2 locus:
www.biorxiv.org/content/10.6...
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https://www.biorxiv.org/content/10.64898/2026.03.16.711995v1
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Netherlands Cancer Institute
5 months ago
We;re hiring Junior Group Leaders! 🔬✨ We’re looking for researchers in immunology, chemical biology, AI in biology, or protein design to launch their own independent groups in our collaborative, international environment.
www.nki.nl/news-events/...
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