一种类弹性蛋白寡肽的折叠与解折叠：“逆温度转变”、再入现象及氢键动力学

Folding and unfolding of an elastinlike oligopeptide: "inverse temperature transition," reentrance, and hydrogen-bond dynamics.

作者信息

Schreiner Eduard, Nicolini Chiara, Ludolph Björn, Ravindra Revanur, Otte Nikolaj, Kohlmeyer Axel, Rousseau Roger, Winter Roland, Marx Dominik

机构信息

Lehrstuhl für Theoretische Chemie, Ruhr-Universität Bochum, 44780 Bochum, Germany.

出版信息

Phys Rev Lett. 2004 Apr 9;92(14):148101. doi: 10.1103/PhysRevLett.92.148101. Epub 2004 Apr 7.

DOI:10.1103/PhysRevLett.92.148101

PMID:15089575

Abstract

The temperature-dependent behavior of a solvated oligopeptide, GVG(VPGVG), is investigated. Spectroscopic measurements, thermodynamic measurements, and molecular dynamics simulations find that this elastinlike octapeptide behaves as a two-state system that undergoes an "inverse temperature" folding transition and reentrant unfolding close to the boiling point of water. A molecular picture of these processes is presented, emphasizing changes in the dynamics of hydrogen bonding at the protein/water interface and peptide backbone librational entropy.

摘要

研究了溶剂化寡肽GVG(VPGVG)的温度依赖性行为。光谱测量、热力学测量和分子动力学模拟发现，这种类弹性蛋白八肽表现为一个双态系统，经历“逆温度”折叠转变，并在接近水的沸点时发生再入展开。本文给出了这些过程的分子图像，强调了蛋白质/水界面氢键动力学和肽主链扭转熵的变化。

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一种类弹性蛋白寡肽的折叠与解折叠：“逆温度转变”、再入现象及氢键动力学

Folding and unfolding of an elastinlike oligopeptide: "inverse temperature transition," reentrance, and hydrogen-bond dynamics.

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一种类弹性蛋白寡肽的折叠与解折叠：“逆温度转变”、再入现象及氢键动力学

Folding and unfolding of an elastinlike oligopeptide: "inverse temperature transition," reentrance, and hydrogen-bond dynamics.

作者信息

机构信息

出版信息

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