Hui S W, Sen A
Department of Biophysics, Roswell Park Memorial Institute, Buffalo, NY 14263.
Proc Natl Acad Sci U S A. 1989 Aug;86(15):5825-9. doi: 10.1073/pnas.86.15.5825.
The self assembly of phospholipid molecules in the bilayer form was considered in terms of equivalent molecular shapes representing intermolecular forces. The equivalent size of each phospholipid headgroup was approximated by the net atomic volume plus the volume of the associated water molecules, which was derived from water/hydrocarbon partitioning experiments. The equivalent lengths of unsaturated acyl chains were derived from the retention time data from chromatographic measurements. The spontaneous curvature of various phospholipid monolayers was calculated from their equivalent molecular shapes, and the energy required to flatten them to the bilayer plane was calculated, using the known bending modulus. With increasing bending energy, the mixtures showed increasing susceptibility to phospholipase A2, facilitated lipid transfer rate by phospholipid exchange proteins, permeability to carboxyfluorescein, incorporation of human erythrocyte proteins, and calcium transport by Ca-ATPase from sarcoplasmic reticulum in reconstituted vesicles. When the calculation was applied to known lipid compositions of nine cellular membranes, the protein/lipid ratio and phospholipid/cholesterol ratio were found to have a positive and a negative correlation, respectively, with the latent bending energy of the phospholipids. The energy expense in conforming to a bilayer phase may be an important physical parameter regarding the activity and the biogenesis of membranes.
从代表分子间力的等效分子形状角度考虑了磷脂分子在双层形式中的自组装。每个磷脂头部基团的等效大小通过净原子体积加上相关水分子的体积来近似,这是从水/烃分配实验中得出的。不饱和酰基链的等效长度是从色谱测量的保留时间数据中得出的。根据各种磷脂单层的等效分子形状计算其自发曲率,并使用已知的弯曲模量计算将它们扁平至双层平面所需的能量。随着弯曲能量的增加,混合物对磷脂酶A2的敏感性增加,磷脂交换蛋白促进脂质转移的速率增加,对羧基荧光素的渗透性增加,人红细胞蛋白的掺入增加,以及重组囊泡中肌浆网Ca-ATP酶的钙转运增加。当将该计算应用于九种细胞膜的已知脂质组成时,发现蛋白质/脂质比和磷脂/胆固醇比分别与磷脂的潜在弯曲能量呈正相关和负相关。符合双层相的能量消耗可能是关于膜的活性和生物发生的一个重要物理参数。