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RESEARCH PRODUCT
Calorimetric Behavior of Phosphatidylcholine/Phosphatidylethanolamine Bilayers is Compatible with the Superlattice Model
Kwan Hon ChengJorma A. VirtanenPentti Somerharjusubject
Models MolecularSuperlatticeLipid BilayersEnthalpyAnalytical chemistryThermodynamics02 engineering and technologyCalorimetryArticle03 medical and health scienceschemistry.chemical_compoundDifferential scanning calorimetryPhase (matter)PhosphatidylcholineMaterials ChemistryTransition TemperaturePhysical and Theoretical ChemistryLipid bilayer030304 developmental biologyPhysics::Biological Physics0303 health sciencesCalorimetry Differential ScanningChemistryPhosphatidylethanolaminesTransition temperature021001 nanoscience & nanotechnologySurfaces Coatings and FilmsPhosphatidylcholinesThermodynamics0210 nano-technologydescription
Differential scanning calorimetry was used to study the phase behavior of binary lipid bilayers consisting of phosphatidylcholine (PC) and phosphatidylethanolamine (PE) of varying acyl chain length. A two-state transition model was used to resolve the individual transition components, and the two-state transition enthalpy, the relative enthalpy, and the transition temperature of each component were plotted as a function of composition. Intriguingly, abrupt changes in these thermodynamic parameters were observed at or close to many "critical" X(PE) values predicted by the superlattice model proposing that phospholipids with different headgroups tend to adopt regular rather than random lateral distributions. Statistical analysis indicated that the agreement between the observed and predicted "critical" compositions is highly significant. Accordingly, these data provide strong evidence that the molecules in PC/PE bilayers tend to adopt regular, superlattice-like lateral arrangements, which could be involved in the regulation of the lipid compositions of biological membranes.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2012-02-06 | The Journal of Physical Chemistry B |