New research led by the University of Minnesota Medical School demonstrates that molecules acting as "molecular bumpers" and "molecular glues" can rewire G protein-coupled receptor (GPCR) signaling, ...

New research led by the University of Minnesota Medical School demonstrates that molecules acting as "molecular bumpers" and "molecular glues" can rewire G protein-coupled receptor (GPCR) signaling, ...

Recent years have seen major advances in understanding the structure-function relationships of G protein-coupled receptors (GPCRs). This large superfamily of transmembrane receptors comprises over 800 ...

A group of researchers has identified the cause of a 'short-circuit' in cellular pathways, a discovery that sheds new light on the genesis of a number of human diseases and could lead to development ...

A number of membrane proteins that are present on the cell membrane control external and internal material transportation, cell protection and signal transmission. The diversity of functions of ...

About one-third of all drugs approved by the Food and Drug Administration target the largest family of cell membrane receptors called G protein-coupled receptors (GPCRs). Subscribe to our newsletter ...

Johns Hopkins Medicine researchers say they have evidence to potentially overturn a prevailing belief in a type of important signaling within cells. The mainstream idea is that a single protein ...

Being abundant primary producers, single-celled eukaryotic diatoms and dinoflagellates dominate marine food webs and significantly impact the ecology of the oceans. These organisms face competition ...

Growth factors trigger G proteins (in green) to disengage from GPCRs and change localization within cells. At right: A ribbon diagram of the G protein structure shows the position of all phosphoevents ...