DNA 超螺旋的动力学。

Dynamics of DNA supercoils.

机构信息

Delft University of Technology, Department of Bionanoscience, Kavli Institute of Nanoscience, Lorentzweg 1, 2628CJ Delft, Netherlands.

出版信息

Science. 2012 Oct 5;338(6103):94-7. doi: 10.1126/science.1225810. Epub 2012 Sep 13.

DOI:10.1126/science.1225810

PMID:22983709

Abstract

DNA in cells exhibits a supercoiled state in which the double helix is additionally twisted to form extended intertwined loops called plectonemes. Although supercoiling is vital to many cellular processes, its dynamics remain elusive. In this work, we directly visualize the dynamics of individual plectonemes. We observe that multiple plectonemes can be present and that their number depends on applied stretching force and ionic strength. Plectonemes moved along DNA by diffusion or, unexpectedly, by a fast hopping process that facilitated very rapid (<20 milliseconds) long-range plectoneme displacement by nucleating a new plectoneme at a distant position. These observations directly reveal the dynamics of plectonemes and identify a mode of movement that allows long-distance reorganization of the conformation of the genome on a millisecond time scale.

摘要

细胞中的 DNA 呈现超螺旋状态，双链在此基础上进一步扭曲，形成称为正超螺旋的伸展交织环。尽管超螺旋对于许多细胞过程至关重要，但它的动力学仍然难以捉摸。在这项工作中，我们直接观察了单个正超螺旋的动力学。我们观察到可以存在多个正超螺旋，并且它们的数量取决于施加的拉伸力和离子强度。正超螺旋通过扩散或出乎意料的快速跳跃过程在 DNA 上移动，后者通过在远距离位置形成新的正超螺旋来促进非常快速（<20 毫秒）的长距离正超螺旋位移，从而促进了快速跳跃过程。这些观察结果直接揭示了正超螺旋的动力学，并确定了一种运动模式，该模式允许在毫秒时间尺度上对基因组的构象进行远距离重组。

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DNA 超螺旋的动力学。

Dynamics of DNA supercoils.

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