PRDM9 结合蛋白可组织热点核小体并限制 Holliday 连接体的迁移。

PRDM9 binding organizes hotspot nucleosomes and limits Holliday junction migration.

机构信息

Center for Genome Dynamics, The Jackson Laboratory, Bar Harbor, Maine 04609, USA;

出版信息

Genome Res. 2014 May;24(5):724-32. doi: 10.1101/gr.170167.113. Epub 2014 Mar 6.

DOI:10.1101/gr.170167.113

PMID:24604780

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4009602/

Abstract

In mammals, genetic recombination during meiosis is limited to a set of 1- to 2-kb regions termed hotspots. Their locations are predominantly determined by the zinc finger protein PRDM9, which binds to DNA in hotspots and subsequently uses its SET domain to locally trimethylate histone H3 at lysine 4 (H3K4me3). This sets the stage for double-strand break (DSB) formation and reciprocal exchange of DNA between chromatids, forming Holliday junctions. Here we report genome-wide analyses of PRDM9-dependent histone modifications using two inbred mouse strains differing only in their PRDM9 zinc finger domain. We show that PRDM9 binding actively reorganizes nucleosomes into a symmetrical pattern, creating an extended nucleosome-depleted region. These regions are centered by a consensus PRDM9 binding motif, whose location and identity was confirmed in vitro. We also show that DSBs are centered over the PRDM9 binding motif within the nucleosome-depleted region. Combining these results with data from genetic crosses, we find that crossing-over is restricted to the region marked by H3K4me3. We suggest that PRDM9-modified nucleosomes create a permissible environment that first directs the location of DSBs and then defines the boundaries of Holliday junction branch migration.

摘要

在哺乳动物中，减数分裂过程中的基因重组仅限于一组 1-2kb 的区域，称为热点。它们的位置主要由锌指蛋白 PRDM9 决定，PRDM9 结合到热点的 DNA 上，然后利用其 SET 结构域局部三甲基化组蛋白 H3 赖氨酸 4（H3K4me3）。这为双链断裂（DSB）的形成和染色单体之间的 DNA 相互交换，形成 Holliday 连接奠定了基础。在这里，我们使用两种仅在 PRDM9 锌指结构域不同的近交系小鼠品系，对 PRDM9 依赖性组蛋白修饰进行了全基因组分析。我们表明，PRDM9 结合主动将核小体重新组织成对称模式，形成扩展的核小体缺失区域。这些区域以 PRDM9 结合基序为中心，其位置和身份在体外得到了证实。我们还表明，DSB 位于核小体缺失区域内的 PRDM9 结合基序上。将这些结果与遗传杂交的数据相结合，我们发现交叉发生在 H3K4me3 标记的区域内。我们认为，PRDM9 修饰的核小体创造了一个允许的环境，首先指导 DSB 的位置，然后定义 Holliday 连接分支迁移的边界。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2851/4009602/7cf052505062/724fig1.jpg

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PRDM9 结合蛋白可组织热点核小体并限制 Holliday 连接体的迁移。

PRDM9 binding organizes hotspot nucleosomes and limits Holliday junction migration.

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