用SANS、氘化和分子操作探测生物混合胶体中的自组装。

R P Hjelm, P Thiyagarajan, A Hoffman, C Schteingart, H Alkan-Onyuksel
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引用次数: 3

摘要

采用小角中子散射法研究了胆盐与磷脂酰胆碱、胆盐与单油酸混合胶体中颗粒的形态和分子排列。两种类型的系统显示出相同的一般特征。颗粒形态高度依赖于总脂质浓度。在最高浓度下,颗粒为球形混合胶束,总尺寸为50A。随着浓度的降低,混合胶束拉长,变成棒状,直径约为50A。棒材呈放射状核壳结构,其中磷脂酰胆碱或单油脂肪尾部呈放射状排列形成核,头基团指向外形成壳。胆盐位于壳和核之间的界面,亲水性部分向外作为壳的一部分。随着稀释,杆状细胞的长度增加,变得更加分散。在足够低的浓度下,混合胶束转变成单层的双层囊泡。这些结果对胆汁的生理功能和控制胆汁颗粒在肝管和小肠中的自我组装的规则有了深入的了解。
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Probing self assembly in biological mixed colloids by SANS, deuteration, and molecular manipulation.

Small-angle neutron scattering was used to obtain information on the form and molecular arrangement of particles in mixed colloids of bile salts with phosphatidylcholine, and bile salts with monoolein. Both types of systems showed the same general characteristics. The particle form was highly dependent on total lipid concentration. At the highest concentrations the particles were globular mixed micelles with an overall size of 50A. As the concentration was reduced the mixed micelles elongated, becoming rodlike with diameter about 50A. The rods had a radial core-shell structure in which the phosphatidylcholine or monoolein fatty tails were arranged radially to form the core with the headgroups pointing outward to form the shell. The bile salts were at the interface between the shell and core with the hydrophilic parts facing outward as part of the shell. The lengths of the rods increased and became more polydispersed with dilution. At sufficiently low concentrations the mixed micelles transformed into single bilayer vesicles. These results give insight on the physiological function of bile and on the rules governing the self assembly of bile particles in the hepatic duct and the small intestine.

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