Delighted & excited to share our latest preprint on non-canonical enhancers in human pluripotent stem cells, the result of a fantastic and fun collaboration with @guenesdoganlab.bsky.social:
www.biorxiv.org/content/10.1...
🧵 below
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....
Pretty surreal to see my artwork on the cover of Nature Genetics! Big congrats to @julianeg.bsky.social, @stemundi.bsky.social and the others, and thank you Juliane for letting me help bring your research to life visually.
www.nature.com/ng/volumes/5...
Calling all aspiring Postdocs! One extra week to apply to join our exciting HFSP-funded project to uncover how chromatin moves to function.
Deadline July 15th.
www.mdc-berlin.de/career/jobs/...
Finally out! 🥳 Our paper showing how a transposable element (TE) insertion can cause developmental phenotypes is now published @natgenet.nature.com 🧬🦠🐁
Below is a brief description of the major findings. Check the full version of the paper for more details: www.nature.com/articles/s41588-025-02248-5
Another paper bluetorial! Today: how does the spatial location of genes influence their function? (1/n) www.nature.com/articles/s41...
We're thrilled to continue our deep dive into how chromatin mechanics govern how our genomes function with our A-team @andersshansen.bsky.social @Davide Michieletto, and @Sandra Tenreiro.
A huge thanks to the @dfg.de and @hfspo.bsky.social for supporting us.
Stay tuned! PhDs/Postdocs coming soon!
Stefan Schoenfelder
Jop Kind
Anna A Monaco
How to find Evolutionary Conserved Enhancers in 2025? 🐣-🐭
Check out our paper - fresh off the press!!!
We find widespread functional conservation of enhancers in absence of sequence homology
Including: a bioinformatic tool to map sequence-diverged enhancers!
rdcu.be/enVDN
github.com/tobiaszehnde...
@drmrobson.bsky.social has won two grants from @dfg.de & @hfspo.bsky.social totaling over €2 million. He and his lab now work to decode the mechanics of #chromatin, hoping to finally define its physical state and better understand how it governs gene regulation
www.mdc-berlin.de/news/news/mi...
How do non-coding variants in enhancers lead to disease? Happy to share our recent work, led by @ewholling.bsky.social, in which we discovered that poised chromatin sensitizes enhancers to aberrant activation by non-coding mutations, contributing to disease. www.biorxiv.org/content/10.1... 1/
Mike Robson
Mike Robson
Juliane Glaser
Abby Buchwalter
Daniel Ibrahim
Max Delbrück Center
Evgeny Kvon
Marin et al. report the role of lamin proteins and the lamin B receptor (LBR) in chromatin positioning at the nuclear periphery. Knockout of all lamins and LBR in mouse embryonic stem cells leads to h...
Activation of an LTR retrotransposon inserted upstream of the Fgf8 gene produces viral-like particles in the mouse developing limb, triggering apoptosis and causing limb malformation. This phenotype c...
Nature Genetics - Combining functional genomic data from mouse and chicken with a synteny-based strategy identifies positionally conserved cis-regulatory elements in the absence of direct sequence...
Kefalopoulou, Rullens et al. develop Dam&ChIC to assay chromatin state at two different time points in the same cell. The method was used to study the reorganization of LADs during cell division a...
Enhancers are key gene regulatory elements that ensure the precise spatiotemporal execution of developmental gene expression programmes. However recent findings indicate that approaches to identify en...
Chromatin ist nicht unbeweglich. Es handelt sich um ein hochdynamisches Material, dessen 3D-Struktur zentrale genomische Prozesse – von der Transkription bis zur DNA-Reparatur – steuert. Doch wie verh...
@drmrobson.bsky.social has won two grants from @dfg.de & @hfspo.bsky.social totaling over €2 million. He and his lab now work to decode the mechanics of #chromatin, hoping to finally define its physical state and better understand how it governs gene regulation
www.mdc-berlin.de/news/news/mi...
Max Delbrück Center
Postdoc🚨!
Come join our HFSP team to uncover how chromatin moves in cells and what this means for genome function! Great opportunity to combine single-cell genomics, live imaging and polymer physics in the unique mammalian retina with @andersshansen.bsky.social, Davide Michieletto & Sandra Tenreiro
Mike Robson
Chromatin ist nicht unbeweglich. Es handelt sich um ein hochdynamisches Material, dessen 3D-Struktur zentrale genomische Prozesse – von der Transkription bis zur DNA-Reparatur – steuert. Doch wie verhält sich Chromatin als Material – als Flüssigkeit, Feststoff oder viskoelastisches Gel –, um diese Funktionen in lebenden Zellen auszuführen? Ohne eine Antwort auf diese Frage können wir nicht vollständig verstehen, wie Chromatin bei Krankheiten gestört wird.
