AI Article Synopsis
- Planar asymmetric lipid bilayers made from two types of lipids (phosphatidylethanolamine and phosphatidylglycerol) were studied on a gold electrode surface.
- Research utilized techniques like electrochemically controlled infrared spectroscopy and quartz crystal microbalance to observe structural changes in the bilayers due to electric potentials.
- The study found that the packing parameter of lipids influences their structural responses to electric fields, with specifics on hydrocarbon chain orientation and hydration, offering insights for biomimetic applications and understanding cell membrane processes.
Article Abstract
Planar asymmetric lipid bilayers composed of phosphatidylethanolamine and phosphatidylglycerol lipids are transferred onto a gold electrode surface. Lipids containing two saturated, one monounsaturated and two monounsaturated hydrocarbon chains compose the model membranes. Results of electrochemically controlled polarization modulation infrared reflection absorption spectroscopy and quartz crystal microbalance with energy dissipation studies reveal two different types of electric potential-dependent structural rearrangements in the bilayers. They are correlated with the geometry of the lipid molecule. Packing parameter correlates the cross-section area of the hydrophobic and hydrophilic parts of amphiphilic molecules. In bilayers composed of lipids with the packing parameter <1, the hydrocarbon chains are tilted with respect to the bilayer plane and the polar head groups are well hydrated. At a threshold potential an abrupt flow of water through the bilayer is connected with membrane dehydration and upward orientation of the chains. In bilayers composed of lipids with packing parameter ≥1, electric potentials have negligible effect on the membrane structure. A simple rule correlating the packing parameter with molecular scale changes occurring at electrified membranes has a large diagnostic implication for biomimetic studies and our understanding of molecular processes occurring in biological cell membranes.
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| http://dx.doi.org/10.1016/j.bioelechem.2019.107443 | DOI Listing |
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