A preprint‼️that's bound to ruffle some 🪶 "Widespread DNA off-targeting confounds studies of RNA chromatin occupancy" led by our Micah Goldrich and Louis Delhaye from Pieter Mestdagh in Ghent. TL;DR we show that many of lncRNA chromatin occupancy obtained are flawed www.biorxiv.org/content/10.1...

📣 Paper alert! I am delighted that our paper exploring the impact of Neanderthal-derived variants on the activity of a disease-associated craniofacial enhancer has been published in Development today! journals.biologists.com/dev/article/...

How do SMC complexes load onto DNA to get ready for loop extrusion? @roisnehamelinf.bsky.social & co discovered that Wadjet, an SMC complex involved in bacterial DNA immunity, performs some impressive molecular gymnastics 🤸‍♂️🤸‍♂️🤸‍♂️. Check out the new paper: www.cell.com/molecular-ce...

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.

📣 New preprint! Stoked to share a fantastic collaboration with @campaslab.bsky.social! We discover a unique mammalian mechanism for body axis elongation using mouse and human gastruloids, and confirm central findings in mouse embryos. Check out the 🧵 👇 @mpi-cbg.de @poldresden.bsky.social

Lab’s first paper is out!! We show the first structures of #Asgard #chromatin by #cryo-EM 🧬❄️ Asgard histones form closed and open hypernucleosomes. Closed are conserved across #Archaea, while open resemble eukaryotic H3–H4 octasomes and are Asgard-specific. More here: www.cell.com/molecular-ce...

Happy to share our latest publication, in which we show that the arrangement of nucleosomes around CTCF sites contributes to higher-order organisation of chromatin into TADs: www.embopress.org/doi/full/10....

I’m a fair-weather poster on here to say the least. However, I'm pleased to present our latest paper. A great effort from all authors and an interesting insight into transcriptional regulation (we think!). www.cell.com/molecular-ce...

Our publication is out today!Big Thanks go to my amazing collaborators: @sedonamurphy.bsky.social for her imaging brilliance and @mattjones.bsky.social for his computational support.They both saw the potential in this project and helped me to explore what turned out to be an exciting discovery.

Check out our new work, led by talented @janhuemar.bsky.social, where we uncover that pioneer factor Oct4 remodels chromatin for DNA access not by opening it but by exploiting nucleosome breathing and forming clusters 🔥🔥🔥

In collaboration with Hue Sun Chan and @jonaswessen.bsky.social, we present a polymer theory for sequence-based prediction of selective partitioning of charged IDRs. This method correctly predicted the partitioning of IDRs for which we had no experimental data. www.nature.com/articles/s42...

The TArgeted Cohesin Loader (TACL) paper was just published. Happy that we were able to contribute to this really exciting project! If you want to learn how targeting cohesin to defined loci in the genome affects the local chromatin environment and transcription, look no further! rdcu.be/eLiT5

Ever wondered what drives enhancer-promoter specificity? Why would an enhancer activate one gene rather than another neighboring one? Check our latest preprint, led by @mmasoura.bsky.social, to find out! www.biorxiv.org/content/10.1...

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...

🚨 Paper alert: Using liver organoids and in vivo models, the Akhtar lab and first-author @mwiese.bsky.social revealed how the epigenetic regulator KANSL3 shapes transcriptional programs driving liver function and development. More in @lsajournal.org: www.life-science-alliance.org/content/8/12...

Happy to share the 2nd part of my PhD @natsmb.nature.com! Using CRISPR screens, we uncover the TF-RE wiring underlying Xist regulation. Since the preprint, we've added a titration of Xist, showing that XCI is directly dependent on Xist levels. Check the Bluetorial by @eddaschulz.bsky.social 👇

Histone acetylation - not always about transcriptional activation: H4K16ac safeguards the genome replication program by repressing premature replication of heterochromatin. Well done Marta Milan! tinyurl.com/yuy9m8t3

Some (+)ve news to lighten another heavy weekend: our latest preprint (c/o Mattiroli + Ramani labs) is up! www.biorxiv.org/content/10.1... A tour-de-force by 1st authors Bruna Eckhardt & @palindromephd.bsky.social, focusing on chromatin replication. RTs welcome; tweetorial in 3,2...(1/n)

The latest work from ours and @vram142.bsky.social lab is out! True teamwork to visualize nascent chromatin with strand resolution, using a fully reconstituted system. Very proud of superstar-PhD student Bruna, and @palindromephd.bsky.social. Learning so much from Vijay’s amazing technologies! RT

New work from my lab with the Brown lab on how genome folding changes during motor neuron maturation, and how this process goes awry in ALS motor neurons. Led by Dr. Ozgun Uyan. www.biorxiv.org/content/10.1...

Our reporter hopping scaled up to thousands of integrations in a single locus, to produce high-resolution functional maps, with plenty of interesting insights: www.science.org/doi/10.1126/...

Really excited to share our latest work led by @mattiaubertini.bsky.social and @nesslfy.bsky.social: we report that cohesin loop extrusion creates rare but long-lived encounters between genomic sequences which underlie efficient enhancer-promoter communication. www.biorxiv.org/content/10.1... A🧵👇

1/ 🧵 I am excited to share a new preprint from our group: Single-cell Dam&T-seq during mouse corticogenesis reveals how genome–lamina interactions regulate long neuronal genes. doi.org/10.1101/2025... #Neurodevelopment #Epigenetics @hubrechtinstitute.bsky.social @oncodeinstitute.bsky.social

❓Can a father’s environmental exposures before conception influence their offspring? We systematically tackled this - identifying effects of paternal age, environment and genetics on early embryos - as well as confounding influences www.embopress.org/doi/full/10....

Very proud of Kim to be featured by MIT Technology Review as one of this year's innovators under 35 for her pioneering work on mapping DNA repair in single cells! @oncodeinstitute.bsky.social @hubrechtinstitute.bsky.social

We are hiring-join us!

Excited to share another new preprint from our lab in which we developed a cluster-based phasing strategy using long read nano-NOMe-seq data to link distinct CTCF binding states—captured at the single molecule level—to the transcriptional status of genes: biorxiv.org/content/10.1...

The latest Annual Review of Genomics and Human Genetics is now online 🧬 Most read article so far is "Mechanisms of Enhancer-Mediated Gene Activation in the Context of the 3D Genome" @akispapantonis.bsky.social @mariekeoudelaar.bsky.social Check it out arevie.ws/47BZEJp Full TOC: arevie.ws/4plCaPe

We’re excited that our article on the ubiquitination of drug-like small molecules in cells has been selected as an Editorial Highlight in #NatureCommun! 🎉 Check it out here 👉 www.nature.com/ncomms/edito...

Final version of Bingbing Duan’s main thesis work is out now now in Nature Communications @natureportfolio.nature.com www.nature.com/articles/s41... I’m so pleased with this study that we’ve been working on for so long #epistasis #transcription #geneexpression 1/

Our collaborative paper with the Arndt lab is out today: doi.org/10.1093/nar/... (originally bioRxiv: www.biorxiv.org/content/10.1...). Here we asked the question of how CHD1 localizes to chromatin.

New preprint with @gfudenberg.bsky.social We find the rate of cohesin loop extrusion in cells is set by NIPBL dosage and tunes many aspects of chromosome folding. This provides a molecular basis for NIPBL haploinsufficiency in humans. 🧵👇 www.biorxiv.org/content/10.1...

New work from @beckof.bsky.social and our lab's collaboration, with @alengronne.bsky.social! Multifaceted influence of transcription on yeast chromosome folding... loop extrusion of course but also active promoters making loops, bypassing centromeres boundaries www.sciencedirect.com/science/arti...

(1/n) DNA-PAINT imaging inside the nucleus at single antibody resolution using TIRF? Ultrathin sectioning makes it happen! Grateful to share my postdoctoral work introducing “tomographic & kinetically-enhanced DNA-PAINT” or in brief: tkPAINT. Out in @pnas.org! doi.org/10.1073/pnas... 👇🧵

🚨New preprint from the lab🚨 🧬 What keeps certain chromatin domains anchored at the nuclear periphery? Our new genome-wide HiDRO screen uncovers a key role for RNA-binding protein hnRNPK. www.biorxiv.org/content/10.1...

Another paper bluetorial! Today: how does the spatial location of genes influence their function? (1/n) www.nature.com/articles/s41...

#Preprint alert! 📣 We are thrilled to share the work led by Lara Zorro-Shahidian and Lucio di Filippo, in which we show that #MLL2 controls gene expression in both #ESC and upon #differentiation by facilitating the #enhancer like activity of #LINE1 elements www.biorxiv.org/cgi/content/...

Excited to see this published with additional data following our preprint a while back. Cool combination (in our biased view) of controlled TF expression and machine learning to decode chromatin sensitivity. www.sciencedirect.com/science/arti....

Excited to share the latest work from the lab led by @eharo84.bsky.social, in which we have used synthetic biology to explore the mechanisms by which different types of long-range enhancers ensure robust and precise developmental gene expression www.biorxiv.org/content/10.1...

So happy to see the illustration of our work featured on the cover of @natgenet.nature.com 😍 It represents digits desintegrating into viral like particles. Thank you so much @annaamonaco.bsky.social for making this design!

How do enhancer-gene contacts relate to transcription activation? In mouse embryonic stem cells, a combo of STED, oligoFISH & RNA FISH shows that 3% of Dppa3 alleles transcribe. For these, enhancers and promoters come closer (panel E). Stumberger ... Leonhardt & Harz www.biorxiv.org/content/10.1...

How bats developed their wings? 🦇 Turns out they reutilize existing gene programs 🔧 Find out more in our paper @natecoevo.nature.com in collaboration with @fany-real.bsky.social and @stemundi.bsky.social labs www.nature.com/articles/s41...

Excited to share our latest work! We found transcription factor SPT6 and phosphorylated Pol II CTD help recruit U1 snRNP to elongating Pol II, allowing efficient co-transcriptional splicing. Glad to be featured in the Editors’ Highlights! www.nature.com/articles/s41... #splicing #cryoEM

I am very excited to share our latest work where we describe a new method to profile genome-wide chromatin transitions over time in single cells. Great collaborative effort with the van Oudenaarden group @hubrechtinstitute.bsky.social @oncodeinstitute.bsky.social www.nature.com/articles/s41....

preprint alert: www.biorxiv.org/content/10.1...

Our paper describing the Range Extender element which is required and sufficient for long-range enhancer activation at the Shh locus is now available at @nature.com. Congrats to @gracebower.bsky.social who led the study. Below is a brief summary of the main findings www.nature.com/articles/s41... 1/

We wrote a review on Transposable Elements (TEs) and almost all aspects of TE silencing and their roles in biological processes & disease. www.nature.com/articles/s41...

(1/n) Excited to present the latest work from the de Wit lab, where we identify and characterise loop extrusion-mediated fountains in mammalian genomes using acute depletion of 3D genome regulators: doi.org/10.1093/nar/.... A Bluetorial🧵:

Online Now: Regulation of somatic hypermutation by higher-order chromatin structure Online now:

Here's a new very exciting paper from our #CDlab: www.cell.com/cell-reports... In an exemplary in vitro/in vivo study, 1st authors ‪@btanalikwu.bsky.social‬ & Alice Deshayes showed that dense linear protein arrays (e.g. telomeres) do stop loop-extruding SMCs! Great collaboration with Marcand lab.