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核小体促进自身的侵入。

Nucleosomes facilitate their own invasion.

作者信息

Li Gu, Widom Jonathan

机构信息

Department of Biochemistry, Molecular Biology and Cell Biology, Northwestern University, Evanston, Illinois 60208-3500, USA.

出版信息

Nat Struct Mol Biol. 2004 Aug;11(8):763-9. doi: 10.1038/nsmb801. Epub 2004 Jul 18.

Abstract

DNA wrapped in nucleosomes is sterically occluded, creating obstacles for polymerase, regulatory, remodeling, repair and recombination complexes, which require access to the wrapped DNA. How such complexes recognize and gain access to their DNA target sites is not known. Here we report the direct detection of a dynamic equilibrium conformational transition in nucleosomes that greatly increases the distance between the end of the nucleosomal DNA and the histone core. We quantified the equilibrium constant for this transition under physiological conditions. As predicted by these findings, addition of LexA protein to nucleosomes containing the LexA target site drives this conformational equilibrium toward the unwrapped, accessible state, simultaneously allowing stable LexA binding. This inherent property of nucleosomes allows any protein, whether an energy-dependent machine or a passive binder, to gain access even to buried stretches of nucleosomal DNA.

摘要

包裹在核小体中的DNA在空间上被封闭,这给聚合酶、调控、重塑、修复和重组复合物造成了障碍,而这些复合物需要接触被包裹的DNA。这些复合物如何识别并接触到它们的DNA靶位点尚不清楚。在这里,我们报告了对核小体中动态平衡构象转变的直接检测,这种转变大大增加了核小体DNA末端与组蛋白核心之间的距离。我们在生理条件下对这种转变的平衡常数进行了量化。正如这些发现所预测的那样,将LexA蛋白添加到含有LexA靶位点的核小体中,会使这种构象平衡朝着未包裹的、可接触的状态移动,同时允许LexA稳定结合。核小体的这种固有特性使任何蛋白质,无论是能量依赖型机器还是被动结合剂,都能够接触到核小体DNA中被掩埋的片段。

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