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AFM study of the thermotropic behaviour of supported DPPC bilayers with and without the model peptide WALP23
Authors:Yarrow F  Kuipers B W M
Affiliation:aCondensed Matter and Interfaces, Debye Institute for Nanomaterials Science, Science Faculty, Utrecht University, P.O. Box 80000, 3508 TA, Utrecht, The Netherlands;bVan ‘t Hoff Laboratory for Physical and Colloid Chemistry, Debye Institute for Nanomaterials Science, Science Faculty, Utrecht University, P.O. Box 80051, 3508 TB, Utrecht, The Netherlands
Abstract:Temperature-controlled Atomic Force Microscopy (TC-AFM) in Contact Mode is used here to directly image the mechanisms by which melting and crystallization of supported, hydrated DPPC bilayers proceed in the presence and absence of the model peptide WALP23. Melting from the gel Lβ′ to the liquid-crystalline Lα phase starts at pre-existing line-type packing defects (grain boundaries) in absence of the peptide. The exact transition temperature is shown to be influenced by the magnitude of the force exerted by the AFM probe on the bilayer, but is higher than the main transition temperature of non-supported DPPC vesicles in all cases due to bilayer–substrate interactions. Cooling of the fluid Lα bilayer shows the formation of the line-type defects at the borders between different gel-phase regions that originate from different nuclei. The number of these defects depends directly on the rate of cooling through the transition, as predicted by classical nucleation theory.The presence of the transmembrane, synthetic model peptide WALP23 is known to give rise to heterogeneity in the bilayer as microdomains with a striped appearance are formed in the DPPC bilayer. This striated phase consists of alternating lines of lipids and peptide. It is shown here that melting starts with the peptide-associated lipids in the domains, whose melting temperature is lowered by 0.8–2.0 °C compared to the remaining, peptide-free parts of the bilayer. The stabilization of the fluid phase is ascribed to adaptations of the lipids to the shorter peptide. The lipids not associated with the peptide melt at the same temperature as those in the pure DPPC supported bilayer.
Keywords:AFM   Lipid bilayer   Model peptide   Striated phase   Main transition   Grain boundary
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