蛋白质如何在DNA上寻找其特定位点：DNA构象的作用。

How proteins search for their specific sites on DNA: the role of DNA conformation.

作者信息

Hu Tao, Grosberg A Yu, Shklovskii B I

机构信息

Department of Physics, and William I. Fine Theoretical Physics Institute, University of Minnesota, Minneapolis, USA.

出版信息

Biophys J. 2006 Apr 15;90(8):2731-44. doi: 10.1529/biophysj.105.078162. Epub 2006 Feb 3.

DOI:10.1529/biophysj.105.078162

PMID:16461402

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1414577/

Abstract

It is known since the early days of molecular biology that proteins locate their specific targets on DNA up to two orders-of-magnitude faster than the Smoluchowski three-dimensional diffusion rate. An accepted explanation of this fact is that proteins are nonspecifically adsorbed on DNA, and sliding along DNA provides for the faster one-dimensional search. Surprisingly, the role of DNA conformation was never considered in this context. In this article, we explicitly address the relative role of three-dimensional diffusion and one-dimensional sliding along coiled or globular DNA and the possibility of correlated readsorption of desorbed proteins. We have identified a wealth of new different scaling regimes. We also found the maximal possible acceleration of the reaction due to sliding. We found that the maximum on the rate-versus-ionic strength curve is asymmetric, and that sliding can lead not only to acceleration, but also in some regimes to dramatic deceleration of the reaction.

摘要

自分子生物学早期就已知道，蛋白质在DNA上定位其特定靶点的速度比斯莫卢霍夫斯基三维扩散速率快达两个数量级。对此现象的一种公认解释是，蛋白质非特异性吸附在DNA上，沿DNA滑动实现了更快的一维搜索。令人惊讶的是，在这种情况下从未考虑过DNA构象的作用。在本文中，我们明确探讨了三维扩散和沿卷曲或球状DNA的一维滑动的相对作用，以及解吸蛋白质的相关再吸附可能性。我们确定了大量新的不同标度区域。我们还发现了由于滑动导致的反应最大可能加速。我们发现速率与离子强度曲线的最大值是不对称的，并且滑动不仅可以导致加速，在某些情况下还会导致反应急剧减速。

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