Publications by authors named "Dominique-Maurice Kehlenbeck"
Structural studies of integral membrane proteins (IMPs) are challenging as many of them require a lipid environment for full activity and stability. Reconstitution of IMPs into carrier systems such as nanodiscs or Salipro that mimic the native lipidic environment allow structural studies of membrane proteins in solution. The difficulty with this approach when applied to scattering techniques is the contribution of the carrier system to the scattering intensity and the subsequent challenging data analysis.
View Article and Find Full Text PDFThe ATP-binding cassette transporter MsbA is a lipid flippase, translocating lipid A, glycolipids, and lipopolysaccharides from the inner to the outer leaflet of the inner membrane of Gram-negative bacteria. It has been used as a model system for time-resolved structural studies as several MsbA structures in different states and reconstitution systems (detergent/nanodiscs/peptidiscs) are available. However, due to the limited resolution of the available structures, detailed structural information on the bound nucleotides has remained elusive.
View Article and Find Full Text PDFArticle Synopsis
- Detergents used for solubilizing integral membrane proteins (IMPs) can destabilize proteins and reduce their activity, presenting a challenge in membrane protein research.
- Alternative systems like lipid nanodiscs (NDs) and saposin-lipoprotein particles (Salipro) provide a more stable, native-like environment for studying these proteins.
- A study comparing NDs and Salipros using the ABC transporter MsbA showed both systems effectively maintain protein activity and stability, suggesting that different lipids should be tested for optimal results before structural analysis.