用单分子技术观察到的二硫键还原的力依赖化学动力学。

Force-dependent chemical kinetics of disulfide bond reduction observed with single-molecule techniques.

作者信息

Wiita Arun P, Ainavarapu Sri Rama Koti, Huang Hector H, Fernandez Julio M

机构信息

Department of Biological Sciences and Graduate Program in Neurobiology and Behavior, Columbia University, New York, NY 10027, USA.

出版信息

Proc Natl Acad Sci U S A. 2006 May 9;103(19):7222-7. doi: 10.1073/pnas.0511035103. Epub 2006 Apr 27.

DOI:10.1073/pnas.0511035103

PMID:16645035

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1464324/

Abstract

The mechanism by which mechanical force regulates the kinetics of a chemical reaction is unknown. Here, we use single-molecule force-clamp spectroscopy and protein engineering to study the effect of force on the kinetics of thiol/disulfide exchange. Reduction of disulfide bonds through the thiol/disulfide exchange chemical reaction is crucial in regulating protein function and is known to occur in mechanically stressed proteins. We apply a constant stretching force to single engineered disulfide bonds and measure their rate of reduction by DTT. Although the reduction rate is linearly dependent on the concentration of DTT, it is exponentially dependent on the applied force, increasing 10-fold over a 300-pN range. This result predicts that the disulfide bond lengthens by 0.34 A at the transition state of the thiol/disulfide exchange reaction. Our work at the single bond level directly demonstrates that thiol/disulfide exchange in proteins is a force-dependent chemical reaction. Our findings suggest that mechanical force plays a role in disulfide reduction in vivo, a property that has never been explored by traditional biochemistry. Furthermore, our work also indicates that the kinetics of any chemical reaction that results in bond lengthening will be force-dependent.

摘要

机械力调节化学反应动力学的机制尚不清楚。在此，我们使用单分子力钳光谱法和蛋白质工程来研究力对硫醇/二硫键交换动力学的影响。通过硫醇/二硫键交换化学反应还原二硫键对于调节蛋白质功能至关重要，并且已知在机械应力作用的蛋白质中会发生。我们对单个工程化二硫键施加恒定的拉伸力，并测量其被二硫苏糖醇（DTT）还原的速率。尽管还原速率与DTT浓度呈线性相关，但它与所施加的力呈指数相关，在300皮牛的范围内增加了10倍。这一结果预测，在硫醇/二硫键交换反应的过渡态，二硫键会延长0.34埃。我们在单键水平上的工作直接证明了蛋白质中的硫醇/二硫键交换是一种力依赖的化学反应。我们的发现表明，机械力在体内二硫键还原过程中发挥作用，这一特性从未被传统生物化学研究过。此外，我们的工作还表明，任何导致键延长的化学反应的动力学都将是力依赖的。

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