Liquid-disordered/liquid-ordered two-phase coexistence regions in hydrated bilayers have been investigated for sphingomyelins (SMs) of three different origins: egg, brain, and milk with the pulsed-field gradient NMR technique for lateral diffusion measurement. It is found that the three SMs have the same diffusional behavior in bilayers of SM alone, but in the multicomponent systems of dioleoylphosphatidylcholine/SM/cholesterol, the ability to form domains differs for the three SMs. The two-phase area is more extended for egg SM than for brain SM, and no two-phase coexistence is found for milk SM. The differences in behavior are correlated with the homogeneity of the SM hydrocarbon chain compositions, in which egg SM has the most homogeneous and milk SM has the most heterogeneous composition. The results indicate that a crucial element in the domain-forming process is the formation of highly packed bilayers of SM and cholesterol rather than specific interactions between SM and cholesterol.
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机译:水合双层中的液体无序/液体有序两相共存区域已通过脉冲场梯度NMR技术用于横向扩散测量,研究了三种不同来源的鞘磷脂(SM):蛋,脑和牛奶。发现三种SM在单独的SM双层中具有相同的扩散行为,但是在二油酰基磷脂酰胆碱/ SM /胆固醇的多组分系统中,三种SM形成域的能力不同。蛋SM的两相区域比脑SM的区域更大,并且牛奶SM没有发现两相共存。行为上的差异与SM烃链组成的均质性相关,其中鸡蛋SM的均质性最高,牛奶SM的异质性最高。结果表明,结构域形成过程中的关键因素是SM和胆固醇的高度堆积双层的形成,而不是SM和胆固醇之间的特定相互作用。
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