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

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

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/...

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...

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...

A high-affinity split-HaloTag for live-cell protein labeling. And much more. www.nature.com/articles/s41...

🔥 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...

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-...

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

✉️ 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

🧵 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...

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...

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/...

Ever wondered how a eukaryotic transcription factor finds its specific DNA motif in the vast genome? In this preprint, we directly measured the dynamics of this search process in living cells, revealing a cooperative mechanism mediated by disordered regions. 1/10 doi.org/10.64898/202...

Excited to share my PhD work! The question: How is genome organization established? Here, we developed a low-input Micro-C method, Pico-C, and used it to map chromatin architecture across early stages of fly development. Here’s a quick Blue-torial 🙂 (1/n) www.nature.com/articles/s41...

We are excited to be recruiting into 3 Associate Professorship's in @oxfordbiochemistry.bsky.social. Come join us as a colleague and benefit from our vibrant and multidisciplinary environment. Reach out to me if you have any questions. Please repost! (tinyurl.com/48deybuu) (tinyurl.com/4pdvjaft).

meetings.embo.org/event/26-rna3 To all 3' end (and RNA, in general) enthusiasts. I'm organising a great conference in Oxford 7th-11th Sept with @lapassmore.bsky.social and Christine Mayr. The lineup of speakers is brilliant! Registration closes 4th May. Please consider it!

Happy to share our new preprint on the mechanism of human tRNA 3' CCA maturation! This project was spearheaded by Bernhard Kuhle in my group, with contributions from many others and a great collaboration with the group of Peter Rehling (UMG). See highlights below! www.biorxiv.org/content/10.6...

Delighted to see this published: H3K115 acetylation is associated with fragile nucleosomes at CpG island promoters and active regulatory sites. Great work from all contributors; Yatendra Kumar, @illingworth-lab.bsky.social @eliasfriman.bsky.social @helink.bsky.social doi.org/10.7554/eLif...

🚨 Job Alert - Please share! 🙏 Interested in 3D gene regulation in development & evolution? 🤓🧬 💥 Our lab at @cabd-upo-csic.bsky.social is expanding! We’re recruiting: ✅ PhD students ✅ Postdocs 💻🧪 Experimental or computational backgrounds welcome 👇 Details below

Postdoc positions available in my lab in Aarhus, Denmark on 'Mammalian Nuclear RNA Production and Turnover Systems'. Please get in touch for further information or simply apply here: mbg.au.dk/en/news-and-...

Our work on the interplay between loop extrusion and chromatin mechanics is finally out in @physrevresearch.bsky.social . Congrats @hosseinsalari.bsky.social for the hard work ! 👏 journals.aps.org/prresearch/a...

🤩💪 Out now! 3D regulatory hubs in sex determination With @mamartirenom.bsky.social & Capel labs, led by @imotagom.bsky.social & @jrotwitguez.bsky.social 1️⃣ METALoci – explore #3DGenome 🧬 2️⃣ Non-coding region controlling Fgf9 🧩 3️⃣ Meis genes = new key players 🌟 👉 rdcu.be/e5sm2 1/n Bluetorial 👇

DNA replication globally disrupts the epigenome. But does this create a chromatin-access opportunity for TF binding to facilitate cell identity change? Now 𝐫𝐞𝐩𝐥𝐢-𝐀𝐓𝐀𝐂-𝐬𝐞𝐪 shows 𝘥𝘦 𝘯𝘰𝘷𝘰 chromatin opening & TF binding occurs specifically post-replication, in cellular differentiation & reprogramming!

Our most recent work on the “function and evolution” of #nuclear-speckles is now online at Cell @cp-cell.bsky.social doi.org/10.1016/j.ce... Read the thread👇 for the highlights of our findings.

1/New preprint just dropped! 🔥🔥 We investigate how the genome is destroyed in apoptotic cells in a way that prevents DNA fragments from spreading beyond the dying cell 🧬⚰ Done here at @imbavienna.bsky.social & in the super @rcollepardo.bsky.social & Rosen labs: www.biorxiv.org/content/10.6...

Diving into evolutionary biology! What is the origin of the most abundant class of insect transcription factors, ZAD-ZnFs? We suggest that they evolved from ancestral insulator-binding proteins that control 3D genome topology. www.science.org/doi/10.1126/...

Incredibly proud to share our new preprint, lead by the Incomparable Rithika Sankar. Here we temporally dissect the role of FACT in mES cells, finding that FACT loss drives progressive deterioration of chromatin architecture, leading to transcriptional collapse. www.biorxiv.org/content/10.6...

We wrote a piece on how easy it is to write gene regulatory sequences. - Turns out, it isn't that easy even though we know a lot about cis-regulation. huge credit to @carldeboer.bsky.social to seeing this through so our thoughts aren't lost. I promise, it's a worthwhile read!

Congratulations to *Dr.* Ngoc Cao @ngoccao.bsky.social on a fantastic PhD defence 🥳 Stay tuned to learn more about her insightful PhD research!

Very excited to share my postdoc research in the @jesserdixon.bsky.social lab at @salkinstitute.bsky.social, out online at @natgenet.nature.com today! www.nature.com/articles/s41... We investigated the function of the cohesin accessory protein NIPBL, making two particularly interesting findings:

Our paper is now out in Nature: “Ancient co-option of LTR retrotransposons as yeast centromeres” www.nature.com/articles/s41... A short thread on how retrotransposons helped give rise to yeast point centromeres. 1/14

Excited to share @suminkim.bsky.social and @mileshuseyin.bsky.social 's new Current Opinion review on how Polycomb complexes mediate 3D genome interactions including mechanistic models and potential roles in gene regulation: www.sciencedirect.com/science/arti...

🧪🧬New preprint We present cryo-EM structures of reconstituted CTCF–nucleosome complexes, showing CTCF dimerization drives nucleosome oligomerization into defined higher-order assemblies. Disrupting CTCF–CTCF interfaces in mESCs reduces looping and impairs differentiation. tinyurl.com/CTCF-nucleos...

This is a fascinating paper that reveals defined and clear mechanism for a phenomenon that for some seemed unbelievable- the up regulation of genes paralogous to those with specific types of inactivating mutations. This is called transcriptional adaptation 1/ www.science.org/doi/10.1126/...

I am excited to share a new review @cp-molcell.bsky.social written in collaboration with @tanjamittag.bsky.social , Mikayla Eppert, and Ambuja Navalkar where we review the current evidence for and against the role of density transitions in regulating transcription www.cell.com/molecular-ce...

One week left to apply for the postdoc position at MRC-LMB in Cambridge. Join our team for an exciting project on transcription-coupled splicing to understand human gene regulation 🧬 Feel free to get in touch directly #postdoc #cryoEM #biochemistry

Our new preprint on SMCHD1! We’ve shown SMCHD1’s ATPase activity is critical for function in vivo, and excitingly a new DNA binding domain neighbouring the ATPase domain activates the enzymatic function, which is important for normal chromatin binding. urldefense.com/v3/__https:/...

New paper in the Journal of Human Immunity! We report complete and partial forms of X-linked MCTS1 deficiency in patients with mycobacterial disease -- four new families from Iran, Oman, China, and the USA. doi.org/10.70962/jhi...

How is Condensin II activated during mitosis? 🧬 @damlatetiker.bsky.social Samejima et al. uncover how Condensin II autoinhibition is relieved by the mitotic activator M18BP1, and reveal that M18BP1 also forms a composite DNA anchor with the NCAPG2–NCAPH2 subcomplex to stabilize DNA loops in vitro.

I am excited to share the first paper from the Saldivar lab! A special thank you to all who contributed. Precise control of transcription condensates across S phase balances linker histone expression with DNA replication, ensuring genome stability: Molecular Cell www.cell.com/molecular-ce...

Terrific paper on a new chromosomal compartment where extensive loop extrusion isolates domains from other such domains

Preprint alert! 🥸 Yajie Zhu (PhD graduate) and Mariano Barbieri (postdoc, @spp2202.bsky.social Accelerator award) produced a package that will classify loops in your #3Dgenomics data based on (whichever) epigenomic data you have available. Keep reading... 1/n www.biorxiv.org/content/10.6...

Preprint alert: Jiangyuan Liu developed a new workflow for chromatin loop calling across Hi-C datasets, e.g., during differentiation. Most loops are shared between datasets/cell states. Important work for all interested in chromatin loops and how to identify them! www.biorxiv.org/content/10.6...

⚠️ The final work of two former PhD students Till @tschwammle.bsky.social and Verena @verenamutzel.bsky.social is out! ➡️⬅️ They dissect how memory can arise from antisense transcription using mathematical modelling 💻, genomics 🧬 and synthetic biology ⚒️! link.springer.com/article/10.1...

🔔 New paper alert 🔔 www.nature.com/articles/s41... Some regions in the genome replicate early and some late, but the why and how remain poorly understood. DNA replication and 3D genome organization appear linked, raising the question if one may regulate the other? (1/n)

Human eggs must segregate their chromosomes with exquisite precision — yet errors rise with maternal age, causing miscarriage & infertility. Our new article on @biorxivpreprint.bsky.social shows why chromosome cohesion fails in aging eggs & how to improve it. www.biorxiv.org/content/10.6... (1/10)

What happens when you suddenly remove half of an essential enzyme from cells? 🤔 We watched in real-time as cells deploy multiple backup strategies to buffer against changes in RNA Pol II abundance. Our lab's new preprint 👇 bit.ly/4pyPgax

Excited to share our new Nature study! 🧬 We (sidrituruci.bsky.social et al) discovered that CFAP20 helps clear stalled RNAPII, preventing harmful clashes with DNA replication machinery. This protects cells from R-loops and genome instability. Full paper: www.nature.com/articles/s41...

Now out: The new ENCODE registry of candidate cis-regulatory elements (🐭/👶) Major consortium effort, led by @moorejille.bsky.social - stay tuned for her "meme-torial" www.nature.com/articles/s41... @berkeleylab.lbl.gov @biosci.lbl.gov