调节两亲性肽的二级结构和自组装

Tuning secondary structure and self-assembly of amphiphilic peptides.

作者信息

Löwik Dennis W P M, Garcia-Hartjes Jaime, Meijer Joris T, van Hest Jan C M

出版信息

Langmuir. 2005 Jan 18;21(2):524-6. doi: 10.1021/la047578x.

Abstract

Self-assembly is one of nature's mechanisms by which higher order structures are obtained. Two of the main driving forces for self-assembly, hydrophobic interactions and hydrogen bonding, are both present within amphiphilic peptides. Here, it is demonstrated how the intricately interconnected folding and assembly behavior of an N-terminally acylated peptide, with the sequence GANPNAAG, has been tuned by varying its hydrophobic tail and thermal history. The change in interplay between hydrophobic forces and peptide folding allowed the occurrence of different types of aggregation, from soluble peptides with a random coil conformation to aggregated peptides arranged in a beta-sheet assembly, which form helically twisted bilayer ribbons.

摘要

自组装是自然界获得高阶结构的机制之一。两亲性肽中同时存在自组装的两个主要驱动力——疏水相互作用和氢键。在此，展示了如何通过改变其疏水尾段和热历史来调控具有GANPNAAG序列的N端酰化肽错综复杂的相互关联的折叠和组装行为。疏水力与肽折叠之间相互作用的变化使得出现了不同类型的聚集，从具有无规卷曲构象的可溶性肽到排列成β-折叠组装体的聚集肽，后者形成螺旋扭曲的双层带。

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调节两亲性肽的二级结构和自组装

Tuning secondary structure and self-assembly of amphiphilic peptides.

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