荧光标记的人类RAD51揭示了多个成核位点以及沿着单个DNA分子紧密相连的细丝片段。

Fluorescent human RAD51 reveals multiple nucleation sites and filament segments tightly associated along a single DNA molecule.

作者信息

Modesti Mauro, Ristic Dejan, van der Heijden Thijn, Dekker Cees, van Mameren Joost, Peterman Erwin J G, Wuite Gijs J L, Kanaar Roland, Wyman Claire

机构信息

Department of Cell Biology & Genetics, Erasmus Medical Center, PO Box 2040, 3000 CA Rotterdam, The Netherlands.

出版信息

Structure. 2007 May;15(5):599-609. doi: 10.1016/j.str.2007.04.003.

DOI:10.1016/j.str.2007.04.003

PMID:17502105

Abstract

The DNA strand-exchange reactions defining homologous recombination involve transient, nonuniform allosteric interactions between recombinase proteins and their DNA substrates. To study these mechanistic aspects of homologous recombination, we produced functional fluorescent human RAD51 recombinase and visualized recombinase interactions with single DNA molecules in both static and dynamic conditions. We observe that RAD51 nucleates filament formation at multiple sites on double-stranded DNA. This avid nucleation results in multiple RAD51 filament segments along a DNA molecule. Analysis of fluorescent filament patch size and filament kinks from scanning force microscopy (SFM) images indicate nucleation occurs minimally once every 500 bp. Filament segments did not rearrange along DNA, indicating tight association of the ATP-bound protein. The kinetics of filament disassembly was defined by activating ATP hydrolysis and following individual filaments in real time.

摘要

定义同源重组的DNA链交换反应涉及重组酶蛋白与其DNA底物之间短暂、非均匀的变构相互作用。为了研究同源重组的这些机制方面，我们制备了功能性荧光人类RAD51重组酶，并在静态和动态条件下观察了重组酶与单个DNA分子的相互作用。我们观察到RAD51在双链DNA的多个位点上形成细丝。这种强烈的成核作用导致沿着DNA分子出现多个RAD51细丝片段。通过扫描力显微镜（SFM）图像对荧光细丝斑块大小和细丝扭结的分析表明，每500个碱基对至少发生一次成核。细丝片段不会沿着DNA重新排列，这表明ATP结合蛋白紧密结合。通过激活ATP水解并实时跟踪单个细丝来确定细丝解聚的动力学。

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荧光标记的人类RAD51揭示了多个成核位点以及沿着单个DNA分子紧密相连的细丝片段。

Fluorescent human RAD51 reveals multiple nucleation sites and filament segments tightly associated along a single DNA molecule.

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