Stefan Mordalski scite author profile

Generic residue numbers facilitate comparisons of e.g. mutational effects, ligand interactions, and structural motifs. The class A GPCR residue numbering by Ballesteros and Weinstein has more than 1100 citations, and the recent crystal structures for class B, C and F now call for community consensus in residue numbering within and across these classes. Furthermore, the structural era has uncovered helix bulges and constrictions that offset the generic residue numbers. The use of generic residue numbers depends on convenient access by pharmacologists, chemists and structural biologists. We review the generic residue numbering schemes for each GPCR class, as well as a complementary structure-based scheme, provide illustrative case stories and GPCRDB web tools to number any receptor sequence or structure.

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GPCRdb in 2018: adding GPCR structure models and ligands

Pándy-Szekeres

et al. 2017

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G protein-coupled receptors are the most abundant mediators of both human signalling processes and therapeutic effects. Herein, we report GPCRome-wide homology models of unprecedented quality, and roughly 150 000 GPCR ligands with data on biological activities and commercial availability. Based on the strategy of ‘Less model – more Xtal’, each model exploits both a main template and alternative local templates. This achieved higher similarity to new structures than any of the existing resources, and refined crystal structures with missing or distorted regions. Models are provided for inactive, intermediate and active states—except for classes C and F that so far only have inactive templates. The ligand database has separate browsers for: (i) target selection by receptor, family or class, (ii) ligand filtering based on cross-experiment activities (min, max and mean) or chemical properties, (iii) ligand source data and (iv) commercial availability. SMILES structures and activity spreadsheets can be downloaded for further processing. Furthermore, three recent landmark publications on GPCR drugs, G protein selectivity and genetic variants have been accompanied with resources that now let readers view and analyse the findings themselves in GPCRdb. Altogether, this update will enable scientific investigation for the wider GPCR community. GPCRdb is available at http://www.gpcrdb.org.

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Stefan Mordalski

Generic GPCR residue numbers – aligning topology maps while minding the gaps

GPCRdb in 2018: adding GPCR structure models and ligands

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