Abstract
A molecular interpretation for the chain length dependent thermotropic behavior of saturated symmetric-chain phosphatidylcholine bilayers is proposed. It is suggested that the bilayer interface region and conformationally inequivalent terminal ends of the fatty acyl chains perturb the packing associations of the rest of the hydrocarbon chains in the gel phase of the bilayer. These perturbing effects, which are seen to increase with decreasing acyl chain length, have been quantitatively defined by a perturbation parameter, P. The thermodynamic parameters of the thermal phase transition of these phosphatidylcholines are found to be linearly correlated to P and these linear relationships can be used to predict the minimum number of carbon atoms in the acyl chain necessary in order for a bilayer phase transition to occur.
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Mason, J.T., Huang, CH. Chain length dependent thermodynamics of saturated symmetric-chain phosphatidylcholine bilayers. Lipids 16, 604–608 (1981). https://doi.org/10.1007/BF02534907
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DOI: https://doi.org/10.1007/BF02534907