Fast Lipid Disorientation at the Onset of Membrane Fusion Revealed by Molecular Dynamics Simulations

Fast Lipid Disorientation at the Onset of Membrane Fusion Revealed by Molecular Dynamics Simulations

Membrane fusion is a key event in vesicular trafficking in every cell, and many fusion-related proteins have been identified. However, how the actual fusion event occurs has not been elucidated. By using molecular dynamics simulations we found that when even a small region of two membranes is closel...

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Veröffentlicht in:Biophysical journal 2001-07, Vol.81 (1), p.217-224
Hauptverfasser: Ohta-Iino, Satoko, Pasenkiewicz-Gierula, Marta, Takaoka, Yuji, Miyagawa, Hiroh, Kitamura, Kunihiro, Kusumi, Akihiro
Format: Artikel
Sprache:eng
Schlagworte:
Biology
Cell Membrane - chemistry
Cell Membrane - metabolism
Computer Simulation
Hydrocarbons - chemistry
Hydrocarbons - metabolism
Hydrogen Bonding
Lipids
Membrane Fusion
Membrane Lipids - metabolism
Membranes
Models, Molecular
Molecular Conformation
Molecules
Physics
Simulation
Static Electricity
Water - metabolism
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Zusammenfassung:Membrane fusion is a key event in vesicular trafficking in every cell, and many fusion-related proteins have been identified. However, how the actual fusion event occurs has not been elucidated. By using molecular dynamics simulations we found that when even a small region of two membranes is closely apposed such that only a limited number of water molecules remain in the apposed area (e.g., by a fusogenic protein and thermal membrane fluctuations), dramatic lipid disorientation results within 100 ps-2 ns, which might initiate membrane fusion. Up to 12% of phospholipid molecules in the apposing layers had their alkyl chains outside the hydrophobic region, lying almost parallel to the membrane surface or protruding out of the bilayer by 2 ns after two membranes were closely apposed.
ISSN:0006-3495
1542-0086
DOI:10.1016/S0006-3495(01)75693-7