IMPROvER: the Integral Membrane Protein Stability Selector.

Identifying stabilising variants of membrane protein targets is often required for structure determination. Our new computational pipeline, the Integral Membrane Protein Stability Selector (IMPROvER) provides a rational approach to variant selection by employing three independent approaches: deep-sequence, model-based and data-driven. In silico tests using known stability data, and in vitro tests using three membrane protein targets with 7, 11 and 16 transmembrane helices provided measures of success.

Membrane Protein Expression in Insect Cells Using the Baculovirus Expression Vector System.

Integral membrane proteins have a critical role in fundamental biological processes; they are major drug targets and therefore of high research interest. Recombinant protein production is the first step in the protein tool generation for biochemical and biophysical studies. Here, we provide simplified protocols that facilitate the generation of high-quality virus and initial expression analysis for integral membrane protein targets utilizing the baculovirus-mediated expression system in insect cells.

Structural basis of species-selective antagonist binding to the succinate receptor.

The tricarboxylic acid cycle intermediate succinate is involved in metabolic processes and plays a crucial role in the homeostasis of mitochondrial reactive oxygen species. The receptor responsible for succinate signalling, SUCNR1 (also known as GPR91), is a member of the G-protein-coupled-receptor family and links succinate signalling to renin-induced hypertension, retinal angiogenesis and inflammation. Because SUCNR1 senses succinate as an immunological danger signal-which has relevance for diseases including ulcerative colitis, liver fibrosis, diabetes and rheumatoid arthritis-it is of interest as a therapeutic target.