Tomorrow! www.varianteffect.org/seminar-seri...

🎙️ Next up Dec 2 in VESS! Thea Schulze (Lindorff-Larsen Lab): Predicting mutated protein abundance @tkschulze.bsky.social Taylor Mighell (Lehner Lab): Massive mutagenesis to understand GPCRs @taylor-mighell.bsky.social 🔗 More info at varianteffect.org/seminar-series @varianteffect.bsky.social

New online: A small molecule stabilizer rescues the surface expression of nearly all missense variants in a GPCR

GPCR-MAPS is now live! www.biorxiv.org/content/10.1... A new platform for high resolution functional mapping of GPCRs with massive mutagenesis. We identify the core activation network, residues involved in biased signaling, and generate >7,000 full dose response curves. With @benlehner.bsky.social

The genetic architecture of G-protein coupled receptor signaling https://www.biorxiv.org/content/10.1101/2025.05.30.656974v1

Another local hero! Up next at #VariantEffect25: @taylor-mighell.bsky.social from @benlehner.bsky.social lab presents: Two wrongs make a right: can GPCR antagonists rescue mutant receptors? 🧬🧪🔁

@taylor-mighell.bsky.social at #VariantEffect25

Introducing Human Domainome v1, the largest and most comprehensive library of human protein variants to date, which maps the effects of +500K mutations across 522 domains. The study by @benlehner.bsky.social and Toni Beltran is out now in @nature.com. Illustration by @queralttolosa.bsky.social.

Nice highlighting of @taylor-mighell.bsky.social's GPCR pharmacochaperone preprint by @dereklowe.bsky.social @science.org www.biorxiv.org/content/10.1...

Missense mutations are responsible for many heritable genetic disorders. Researchers led by @benlehner.bsky.social are carrying out large-scale experiments to understand why. Unstable proteins are emerging as a clear mechanism of action. Today in @elpais.com by @manuelansede.bsky.social.