Model For Stretching And Unfolding The Giant Multidomain Muscle Protein Using Single-molecule Force Spectroscopy

Douglas B. Staple; Stephen H. Payne; Andrew L. C. Reddin; Hans Juergen Kreuzer

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Model For Stretching And Unfolding The Giant Multidomain Muscle Protein Using Single-molecule Force Spectroscopy

机译：单分子力谱法拉伸和展开巨型多域肌肉蛋白的模型

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Single-molecule manipulation has allowed the forced unfolding of multidomain proteins. Here we outline a theory that not only explains these experiments but also points out a number of difficulties in their interpretation and makes suggestions for further experiments. For titin we reproduce force-extension curves, the dependence of break force on pulling speed, and break-force distributions and also validate two common experimental views: Unfolding titin Ig domains can be explained as stepwise increases in contour length, and increasing force peaks in native Ig sequences represent a hierarchy of bond strengths. Our theory is valid for essentially any molecule that can be unfolded in atomic force microscopy; as a further example, we present force-extension curves for the unfolding of RNA hairpins.

机译：单分子操纵已允许多域蛋白的强制展开。在这里，我们概述了一个理论，该理论不仅解释了这些实验，而且指出了解释它们的许多困难，并为进一步的实验提供了建议。对于titin，我们再现了力的延伸曲线，断裂力对拉速的依赖性以及断裂力的分布，并且还验证了两个常见的实验观点：titin Ig结构域的展开可以解释为轮廓长度的逐步增加，以及峰强度的增加。天然的Ig序列代表键强度的层次结构。我们的理论基本上适用于在原子力显微镜下可以展开的任何分子。作为进一步的例子，我们给出了RNA发夹的展开的力-延伸曲线。

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《Physical review letters》 |2008年第24期|311-314|共4页
作者
Douglas B. Staple; Stephen H. Payne; Andrew L. C. Reddin; Hans Juergen Kreuzer;
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single molecule manipulation of proteins and other biological molecules; transition state theory and statistical theories of rate constants; stm and afm manipulations of a single molecule;

机译：蛋白质和其他生物分子的单分子操纵;转化率理论和速率常数的统计理论;单分子的stm和afm操纵;

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1. Single-molecule force spectroscopy reveals a stepwise unfolding of Caenorhabditis elegans giant protein kinase domains. [J] . Greene DN, Garcia T, Sutton RB, Biophysical Journal . 2008,第3期

机译：单分子力谱揭示秀丽隐杆线虫的巨大蛋白激酶域的逐步展开。
2. The structural principles of multidomain organization of the giant polypeptide chain of the muscle titin protein: SAXS/WAXS studies during the stretching of oriented titin fibres [J] . Vazina AA, Lanina NF, Alexeev DG, Journal of Structural Biology . 2006,第2期

机译：肌纤蛋白蛋白巨型多肽链多域组织的结构原理：拉伸定向纤蛋白纤维期间的SAXS / WAXS研究
3. May the Force Be With You: Unfolding Lipid-Protein Interactions By Single-Molecule Force Spectroscopy [J] . Dowhan William, Vitrac Heidi, Bogdanov Mikhail Structure . 2015,第4期

机译：愿力与你同在：单分子力谱法揭示脂蛋白相互作用
4. Probing protein-protein interaction forces using single-molecule force spectroscopy [C] . Li, Mi, Liu, Lianqing, Xi, Ning, Nanotechnology (IEEE-NANO), 2011 11th IEEE Conference on . 2011

机译：使用单分子力谱探测蛋白质-蛋白质相互作用力
5. The (Un)Folding of Multidomain Proteins Through the Lens of Single-molecule Force-spectroscopy and Computer Simulation. [D] . Scholl, Zackary N. 2016

机译：通过单分子力谱和计算机模拟的透镜对多域蛋白的（非）折叠。
6. Single-Molecule Force Spectroscopy Reveals a Stepwise Unfolding of Caenorhabditis elegans Giant Protein Kinase Domains [O] . Dina N. Greene, Tzintzuni Garcia, R. Bryan Sutton, 2008

机译：单分子力光谱揭示了秀丽隐杆线虫巨型蛋白激酶域的逐步展开。
7. Single-Molecule Force Spectroscopy Reveals a Stepwise Unfolding of Caenorhabditis elegans Giant Protein Kinase Domains [O] . Greene, Dina N., Garcia, Tzintzuni, Sutton, R. Bryan, 2008

机译：单分子力光谱揭示了秀丽隐杆线虫巨型蛋白激酶域的逐步展开。

Model For Stretching And Unfolding The Giant Multidomain Muscle Protein Using Single-molecule Force Spectroscopy

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