25 research outputs found
A pharmacological organization of G protein–coupled receptors
Get PDFProtein classification typically uses structural, sequence, or functional similarity. Here we introduce an orthogonal method that organizes proteins by ligand similarity, focusing here on the class A G protein-coupled receptor (GPCR) protein family. Comparing a ligand-based dendogram to a sequence-based one, we sought examples of GPCRs that were distantly linked by sequence but neighbors by ligand similarity. Experimental testing of compounds predicted to link three of these new pairs confirmed the predicted association, with potencies ranging from the low-nanomolar to low-micromolar. We then identified hundreds of non-GPCRs closely related to GPCRs by ligand similarity, including the CXCR2 chemokine receptor to Casein kinase I, the cannabinoid receptors to epoxide hydrolase 2, and the α2 adrenergic receptor to phospholipase D. These, too, were confirmed experimentally. Ligand similarities among these targets may reflect a chemical integration in the time domain of molecular signaling
Structure–activity relationship investigation of triazole-based kappa opioid receptor agonists
No full textDiscovery of sultam-containing small-molecule disruptors of the huntingtin–calmodulin protein–protein interaction
No full textOnline or off-line victimisation and psychological well-being: a comparison of sexual-minority and heterosexual youth
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Disparities in Adverse Childhood Experiences among Sexual Minority and Heterosexual Adults: Results from a Multi-State Probability-Based Sample
No full textRelationship Between Increases in Pancreatic Enzymes and Cerebral Events in Children After Traumatic Brain Injury
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