Inlay

//

Post

Delighted to be part of this work from the Lopes lab identifying nucleoplasmic Lamin A/C as a key regulator of replication fork plasticity, acting via de novo heterochromatin and ADP-ribosylation to control RECQ1-mediated fork restart. Now in Nature Comm. 🎉Special efforts: @joannapaulson.bsky.social

6mo

rdcu.be

Nature Communications - Replication fork plasticity upon genotoxic stress is modulated by nuclear architectural components by elusive mechanisms. Here the authors implicate Lamin A/C – best...

Nucleoplasmic Lamin A/C controls replication fork restart upon stress by modulating local H3K9me3 and ADP-ribosylation levels

Nitika Taneja @TanejaLab

Thrilled to share our latest work - now available in full in Nature Communications - led in my lab by @vcherdy.bsky.social, with key collaborative contributions from @nitikataneja.bsky.social . rdcu.be/eVrxX

6mo

Nature Communications - Replication fork plasticity upon genotoxic stress is modulated by nuclear architectural components by elusive mechanisms. Here the authors implicate Lamin A/C – best...

rdcu.be

Nucleoplasmic Lamin A/C controls replication fork restart upon stress by modulating local H3K9me3 and ADP-ribosylation levels

Lopes_Lab