Autor: |
Samna Soumana O; Centre de Biophysique Moleculaire, UPR 4301, CNRS, rue Charles Sadron, 45071 Orleans Cedex 02, France., Aller P, Garnier N, Genest M |
Jazyk: |
angličtina |
Zdroj: |
Journal of biomolecular structure & dynamics [J Biomol Struct Dyn] 2005 Aug; Vol. 23 (1), pp. 91-100. |
DOI: |
10.1080/07391102.2005.10507050 |
Abstrakt: |
Polar mutations in transmembrane alpha helices may alter the structural details of the hydrophobic sequences and control intermolecular contacts. We have performed molecular dynamics simulations on the transmembrane domain of the proto-oncogenic and the oncogenic forms of the Neu receptor in a fluid DMPC bilayer to test whether the Glu mutation which replaces the Val residue at position 664 may alter the helical structure and its insertion in the membrane. The simulations show that the wild and the mutant forms of the transmembrane domain have a different behavior in the bilayer. The native transmembrane sequence is found to be more flexible than in the presence of the Glu mutation, characterized by a tendency to pi deformation to accommodate the helix length to the membrane thickness. The mutant form of this domain does not evidence helical deformation in the present simulation. Hydrophobic matching is achieved both by a larger helix tilt and a vertical shift of the helix towards the membrane interface, favoring the accessibility of the Glu side chain to the membrane environment. A rapid exchange of hydrogen bond interactions with the surrounding water molecules and the lipid headgroups is observed. The difference in the behavior between the two peptides in a membrane environment was also observed experimentally. Both simulation and experimental results agree with the hypothesis that water may act as an intermediate for the formation of cross links between the facing Glu side chains stabilizing the dimer. |
Databáze: |
MEDLINE |
Externí odkaz: |
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