自组装膜结构的静电控制

Electrostatic control of structure in self-assembled membranes.

作者信息

Bitton Ronit, Chow Lesley W, Zha R Helen, Velichko Yuri S, Pashuck E Thomas, Stupp Samuel I

机构信息

Institute for BioNanotechnology in Medicine, Northwestern University, Chicago, IL, 60611, USA.

出版信息

Small. 2014 Feb 12;10(3):500-5. doi: 10.1002/smll.201300254. Epub 2013 Sep 11.

DOI:10.1002/smll.201300254

PMID:24022896

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4096135/

Abstract

Self-assembling peptide amphiphiles (PAs) can form hierarchically ordered membranes when brought in contact with aqueous polyelectrolytes of the opposite charge by rapidly creating a diffusion barrier composed of filamentous nanostructures parallel to the plane of the incipient membrane. Following this event, osmotic forces and charge complexation template nanofiber growth perpendicular to the plane of the membrane in a dynamic self-assembly process. In this work, we show that this hierarchical structure requires massive interfacial aggregation of PA molecules, suggesting the importance of rapid diffusion barrier formation. Strong PA aggregation is induced here through the use of heparin-binding PAs with heparin and also with polyelectrolytes of varying charge density. Small angle X-ray scattering shows that in the case of weak PA-polyelectrolyte interaction, membranes formed display a cubic phase ordering on the nanoscale that likely results from clusters of PA nanostructures surrounded by polyelectrolyte chains.

摘要

自组装肽两亲分子（PAs）与带相反电荷的水性聚电解质接触时，可通过迅速形成由平行于初始膜平面的丝状纳米结构组成的扩散屏障，形成分级有序的膜。在此之后，渗透压和电荷络合在动态自组装过程中引导纳米纤维垂直于膜平面生长。在这项工作中，我们表明这种分级结构需要PA分子大量的界面聚集，这表明快速形成扩散屏障的重要性。在这里，通过使用与肝素以及不同电荷密度的聚电解质结合的肝素结合型PAs，诱导了强烈的PA聚集。小角X射线散射表明，在PA-聚电解质相互作用较弱的情况下，形成的膜在纳米尺度上呈现立方相有序排列，这可能是由被聚电解质链包围的PA纳米结构簇导致的。

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