Critical temperatures and a critical chain length in saturated diacylphosphatidylcholines: calorimetric, ultrasonic and Monte Carlo simulation study of chain-melting/ordering in aqueous lipid dispersions |
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Authors: | Kharakoz Dmitry P Panchelyuga Maria S Tiktopulo Elizaveta I Shlyapnikova Elena A |
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Affiliation: | aInstitute of Theoretical and Experimental Biophysics of RAS, Pushchino, Russia bInstitute of Protein Research of RAS, Pushchino, Russia |
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Abstract: | Chain-ordering/melting transition in a series of saturated diacylphosphatidylcholines (PCs) in aqueous dispersions have been studied experimentally (calorimetric and ultrasonic techniques) and theoretically (an Ising-like lattice model). The shape of the calorimetric curves was compared with the theoretical data and interpreted in terms of the lateral interactions and critical temperatures determined for each lipid studied. A critical chain length has been found (between 16 and 17 C-atoms per chain) which subdivides PCs into two classes with different phase behavior. In shorter lipids, the transition takes place above their critical temperatures meaning that this is an intrinsically continuous transition. In longer lipids, the transition occurs below the critical temperatures of the lipids, meaning that the transition is intrinsically discontinuous (first-order). This conclusion was supported independently by the ultrasonic relaxation sensitive to density fluctuations. Interestingly, it is this length that is the most abundant among the saturated chains in biological membranes. |
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Keywords: | Lipid membranes Lecithins Main transition Critical behavior Pretransitional phenomena Small-scale fluctuations Membrane physiology Adiabatic calorimetry Ultrasonic interferometry Ising model Monte Carlo simulation |
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