Böckmann R, Caflisch A (2005)
Publication Status: Published
Publication Type: Journal article, Original article
Publication year: 2005
Publisher: Elsevier (Cell Press) / Biophysical Society
Book Volume: 88
Pages Range: 3191-204
Volume: 88
Issue: 5
Journal Issue: 5
DOI: 10.1529/biophysj.105.060426
The structure and flexibility of the outer membrane protein X (OmpX) in a water-detergent solution and in pure water are investigated by molecular dynamics simulations on the 100-ns timescale and compared with NMR data. The simulations allow for an unbiased determination of the structure of detergent micelles and the protein-detergent mixed micelle. The short-chain lipid dihexanoylphosphatidylcholine, as a detergent, aggregates into pure micelles of approximately 18 molecules, or alternatively, it binds to the protein surface. The detergent binds in the form of a monolayer ring around the hydrophobic beta-barrel of OmpX rather than in a micellar-like oblate; approximately 40 dihexanoylphosphatidylcholine lipids are sufficient for an effective suppression of water from the surface of the beta-barrel region. The phospholipids bind also on the extracellular, protruding beta-sheet. Here, polar interactions between charged amino acids and phosphatidylcholine headgroups act as condensation seed for detergent micelle formation. The polar protein surface remains accessible to water molecules. In total, approximately 90-100 detergent molecules associate within the protein-detergent mixed micelle, in agreement with experimental estimates. The simulation results indicate that OmpX is not a water pore and support the proposed role of the protruding beta-sheet as a "fishing rod".
APA:
Böckmann, R., & Caflisch, A. (2005). Spontaneous formation of detergent micelles around the outer membrane protein OmpX. Biophysical Journal, 88(5), 3191-204. https://doi.org/10.1529/biophysj.105.060426
MLA:
Böckmann, Rainer, and Amedeo Caflisch. "Spontaneous formation of detergent micelles around the outer membrane protein OmpX." Biophysical Journal 88.5 (2005): 3191-204.
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