Negatively charged phospholipids are an important component of biological membranes. The thermodynamic parameters governing self-assembly of anionic phospholipids are deduced here from isothermal titration calorimetry. Heats of demicellization were determined for dioctanoyl phosphatidylglycerol (PG) and phosphatidylserine (PS) at different ionic strengths, and for dioctanoyl phosphatidic acid at different pH values. The large heat capacity ( D C o P ~ 400 J.mol 1 K 1 for PG and PS), and zero enthalpy at a characteristic temperature near the physiological range ( T * ~ 300 K for PG and PS), demon- strate that the driving force for self-assembly is the hydrophobic effect. The pH and ionic-strength dependences indicate that the principal electrostatic contribution to self-assembly comes from the entropy associated with the electrostatic double layer, in agreement with theoretical predictions. These measurements help define the thermodynamic effects of anionic lipids on biomembrane stability.
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机译:带负电的磷脂是生物膜的重要组成部分。在此由等温滴定量热法推导控制阴离子磷脂自组装的热力学参数。确定了在不同离子强度下的二辛酰基磷脂酰甘油(PG)和磷脂酰丝氨酸(PS)的去离子化热,以及在不同pH值下的二辛酰基磷脂酰酸的消热作用。热容量大(PG和PS为DC o P〜400 J.mol 1 K 1),并且在接近生理范围的特征温度下为零焓(PG和PS为T *〜300 K),这表明自组装的驱动力是疏水作用。 pH和离子强度的依赖性表明,静电对自组装的主要贡献来自与静电双层有关的熵,这与理论预测相符。这些测量结果有助于确定阴离子脂质对生物膜稳定性的热力学效应。
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