Intracrine FFA4 signaling controls lipolysis at lipid droplets - Nature Chemical Biology An ‘intracrine’ signaling mechanism is proposed whereby a G-protein-coupled receptor (free fatty acid receptor 4) senses locally released fatty acids on intracellular membranes associated with lipid d...

A new paper proposes an ‘intracrine’ signaling mechanism whereby a G protein-coupled receptor (FFA4) senses locally released fatty acids on intracellular membranes associated with lipid droplets to efficiently regulate lipolysis in adipocytes

www.nature.com/articles/s41...

Exciting discussion at our Community Event "The Future of AI-driven Microscopy and Image Analysis" in Birmingham! Many thanks to all participants and Jason Swedlow for an inspiring opening talk! @unibirmingham.bsky.social @wellcometrust.bsky.social
#microscopy #AI #opendata #drugdiscovery #GPCR

Thank you! 🙂

Advanced Imaging Specialist - Department of Metabolism and Systems Science - 105479 - Grade 7 We are seeking a highly motivated Advanced Imaging Specialist to join our vibrant, multidisciplinary team at the Advanced Imaging Facility of the Centre of Membrane Proteins and Receptors (COMPARE), U...

Apply by 30th April! edzz.fa.em3.oraclecloud.com/hcmUI/Candid...

Our COMPARE #Advanced #Microscopy #Facility at the University of Birmingham is hiring! Great opportunity to join our vibrant team and lead our state-of-the-art facility! #Bioimaging

Hello world! 🙂