静电相互作用对单油酸甘油酯/二油酰磷脂酸混合物膜立方相相稳定性的影响。
Effect of electrostatic interactions on phase stability of cubic phases of membranes of monoolein/dioleoylphosphatidic acid mixtures.
作者信息
Li S J, Yamashita Y, Yamazaki M
机构信息
Materials Science, Graduate School of Science and Engineering, Shizuoka University, Shizuoka 422-8529, Japan.
出版信息
Biophys J. 2001 Aug;81(2):983-93. doi: 10.1016/S0006-3495(01)75756-6.
To elucidate effects of electrostatic interactions resulting from surface charges on structures and phase stability of cubic phases of lipid membranes, membranes of 1-monoolein (MO) and dioleoylphosphatidic acid (DOPA) (DOPA/MO membrane) mixtures have been investigated by small-angle x-ray scattering method. As increasing DOPA concentration in the DOPA/MO membrane at 30 wt% lipid concentration, a phase transition from Q(224) to Q(229) phase occurred at 0.6 mol% DOPA, and at and above 25 mol% DOPA, DOPA/MO membranes were in the L(alpha) phase. As NaCl concentration in the bulk phase increased, for 10% DOPA/90% MO membrane in excess water, a Q(229) to Q(224) phase transition occurred at 60 mM NaCl, and then a Q(224) to H(II) phase transition occurred at 1.2 M NaCl. Similarly, for 30% DOPA/70% MO membrane in excess water, at low NaCl concentrations it was in the L(alpha) phase, but at and above 0.50 M NaCl it was in the Q(224) phase, and then at 0.65 M NaCl a Q(224) to H(II) phase transition occurred. These results indicate that the electrostatic interactions in the membrane interface make the Q(229) phase more stable than the Q(224) phase, and that, at larger electrostatic interactions, the L(alpha) phase is more stable than the cubic phases (Q(224) and Q(229)). We have found that the addition of tetradecane to the MO membrane induced a Q(224)-to-H(II) phase transition and also that to the 30% DOPA/70% MO membrane induced an L(alpha)-to-H(II) phase transition. By using these membranes, the effect of the electrostatic interactions resulting from the membrane surface charge (DOPA) on the spontaneous curvature of the monolayer membrane has been investigated. The increase in DOPA concentration in the DOPA/MO membrane reduced the absolute value of spontaneous curvature of the membrane. In the 30% DOPA/70% MO membrane, the absolute value of spontaneous curvature of the membrane increased with an increase in NaCl concentration. On the basis of these new results, the phase stability of DOPA/MO membranes can be reasonably explained by the spontaneous curvature of the monolayer membrane and a curvature elastic energy of the membrane.
为阐明表面电荷产生的静电相互作用对脂质膜立方相结构和相稳定性的影响,采用小角X射线散射法研究了1-单油酸甘油酯(MO)和二油酰磷脂酸(DOPA)(DOPA/MO膜)混合物的膜。在脂质浓度为30 wt%的DOPA/MO膜中,随着DOPA浓度的增加,在0.6 mol% DOPA时发生从Q(224)相到Q(229)相的相变,在25 mol%及以上的DOPA时,DOPA/MO膜处于L(α)相。随着本体相中NaCl浓度的增加,对于过量水中的10%DOPA/90%MO膜,在60 mM NaCl时发生从Q(229)相到Q(224)相的相变,然后在1.2 M NaCl时发生从Q(224)相到H(II)相的相变。同样,对于过量水中浓度为30%DOPA/70%MO的膜,在低NaCl浓度下它处于L(α)相,但在0.50 M NaCl及以上时它处于Q(224)相,然后在0.65 M NaCl时发生从Q(224)相到H(II)相的相变。这些结果表明,膜界面中的静电相互作用使Q(229)相比Q(224)相更稳定,并且在更大的静电相互作用下,L(α)相比立方相(Q(224)和Q(229))更稳定。我们发现,向MO膜中添加十四烷会诱导从Q(224)相到H(II)相的相变,向30%DOPA/70%MO膜中添加十四烷会诱导从L(α)相到H(II)相的相变。利用这些膜,研究了膜表面电荷(DOPA)产生的静电相互作用对单层膜自发曲率的影响。DOPA/MO膜中DOPA浓度增加降低了膜自发曲率的绝对值。在30%DOPA/70%MO膜中,膜自发曲率的绝对值随NaCl浓度的增加而增加。基于这些新结果,DOPA/MO膜的相稳定性可以通过单层膜的自发曲率和膜的曲率弹性能来合理解释。
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