Study of the stability and unfolding mechanism of BBA1 by molecular dynamics simulations at different temperatures.

机译：通过不同温度下的分子动力学模拟研究BBA1的稳定性和展开机理。

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BBA1 is a designed protein that has only 23 residues. It is the smallest protein without disulfide bridges that has a well-defined tertiary structure in solution. We have performed unfolding molecular dynamics simulations on BBA1 and some of its mutants at 300, 330, 360, and 400 K to study their kinetic stability as well as the unfolding mechanism of BBA1. It was shown that the unfolding simulations can provide insights into the forces that stabilize the protein. Packing, hydrophobic interactions, and a salt bridge between Asp12 and Lys16 were found to be important to the protein's stability. The unfolding of BBA1 goes through two major steps: (1) disruption of the hydrophobic core and (2) unfolding of the helix. The beta-hairpin remains stable in the unfolding because of the high stability of the type II' turn connecting the two beta-strands.

机译：BBA1是仅23个残基的设计蛋白质。它是最小的无二硫键的蛋白质，在溶液中具有明确的三级结构。我们已经对BBA1及其某些突变体在300、330、360和400 K上进行了展开分子动力学模拟，以研究其动力学稳定性以及BBA1的展开机理。结果表明，展开的模拟可以提供有关稳定蛋白质的力的见解。发现堆积，疏水性相互作用以及Asp12和Lys16之间的盐桥对蛋白质的稳定性很重要。 BBA1的展开经历两个主要步骤：（1）疏水核心的破坏和（2）螺旋的展开。由于连接两个β链的II型转角的高度稳定性，β-发夹在展开时保持稳定。

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期刊名称 Protein Science : A Publication of the Protein Society
作者
L. Wang; Y. Duan; R. Shortle; B. Imperiali; P. A. Kollman;
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作者单位

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年(卷),期 1999(8),6
年度 1999
页码 1292–1304
总页数 13
原文格式 PDF
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中图分类分子生物学;
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1. Study of the stability and unfolding mechanism of BBA1 by molecular dynamics simulations at different temperatures. [J] . Wang L, Duan Y, Shortle R, Protein Science: A Publication of the Protein Society . 1999,第6期

机译：通过在不同温度下的分子动力学模拟研究BBA1的稳定性和展开机理。
2. Mechanism of unfolding and relative stabilities of G-quadruplex and I-motif noncanonical DNA structures analyzed in biased molecular dynamics simulations [J] . Panczyk Tomasz, Wojton Patrycja, Wolski Pawel Biophysical Chemistry: An International Journal Devoted to the Physical Chemistry of Biological Phenomena . 2019,第期

机译：在偏置分子动力学模拟中分析的G-Quadruplex和I-MOTIF非混合DNA结构的展开和相对稳定性的机制
3. Stability and Unfolding Mechanism of the N-terminal beta-Hairpin from [2Fe-2s] Ferredoxin I by Molecular Dynamics Simulations [J] . Hsuan-Liang Liu, Yuan-Ming Lin Journal of the Chinese Chemical Society. . 2003,第4期

机译：[2Fe-2s]铁氧还蛋白I的N末端β-发夹的稳定性和展开机理的分子动力学模拟
4. Using dynamic force spectroscopy, protein engineering, structural studies and molecular dynamics simulations to investigate the effect of force on a protein unfolding landscape. [C] . Jane Clarke Meeting,Division of Polymeric Material: Science and Engineering American Chemical Society . 2004

机译：采用动态力光谱，蛋白质工程，结构研究和分子动力学模拟，调查力对蛋白质展开景观的影响。
5. Understanding the unfolding mechanism and origins of extreme cooperativity in alpha-lytic protease through molecular dynamics unfolding simulations. [D] . Salimi, Neema L. 2009

机译：通过分子动力学展开模拟了解α-分解蛋白酶的展开机理和极端协同作用的起源。
6. Prediction of Protein Relative Enthalpic Stability from Molecular Dynamics Simulations of the Folded and Unfolded States [O] . Voichita M. Dadarlat, Lev A. Gorenstein, Carol Beth Post 2012

机译：从折叠和展开状态的分子动力学模拟预测蛋白质相对焓的稳定性。
7. Study of the stability and unfolding mechanism of BBA1 by molecular dynamics simulations at different temperatures. [O] . Wang, L., Duan, Y., Shortle, R., 1999

机译：通过不同温度下的分子动力学模拟研究BBA1的稳定性和展开机理。

Study of the stability and unfolding mechanism of BBA1 by molecular dynamics simulations at different temperatures.

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