通过单纳米孔记录检测蛋白质的解折叠和长瞬态构象。

Unfolding of proteins and long transient conformations detected by single nanopore recording.

作者信息

Oukhaled G, Mathé J, Biance A-L, Bacri L, Betton J-M, Lairez D, Pelta J, Auvray L

机构信息

Laboratoire de Recherche sur les Polymères, équipe Matériaux Polymères aux Interfaces, CNRS-UMR 7581, Université d'Evry, 91025 Evry, France.

出版信息

Phys Rev Lett. 2007 Apr 13;98(15):158101. doi: 10.1103/PhysRevLett.98.158101. Epub 2007 Apr 9.

DOI:10.1103/PhysRevLett.98.158101

PMID:17501386

Abstract

We study the electrophoretic blockades due to entries of partially unfolded proteins into a nanopore as a function of the concentration of the denaturing agent. Short and long pore blockades are observed by electrical detection. Short blockades are due to the passage of completely unfolded proteins, their frequency increases as the concentration of the denaturing agent increases, following a sigmoidal denaturation curve. Long blockades reveal partially folded conformations. Their duration increases as the proteins are more folded. The observation of a Vogel-Fulcher law suggests a glassy behavior.

摘要

我们研究了部分展开的蛋白质进入纳米孔所导致的电泳阻断现象，该现象是变性剂浓度的函数。通过电学检测观察到了短时间和长时间的孔阻断。短时间阻断是由于完全展开的蛋白质通过所致，其频率随着变性剂浓度的增加而增加，遵循S形变性曲线。长时间阻断揭示了部分折叠的构象。随着蛋白质折叠程度越高，其持续时间增加。对Vogel-Fulcher定律的观察表明存在玻璃态行为。

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通过单纳米孔记录检测蛋白质的解折叠和长瞬态构象。

Unfolding of proteins and long transient conformations detected by single nanopore recording.

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