对酵母染色质组装因子1的分子结构和组蛋白H3-H4沉积机制的深入了解。

Insights into the molecular architecture and histone H3-H4 deposition mechanism of yeast Chromatin assembly factor 1.

作者信息

Sauer Paul Victor, Timm Jennifer, Liu Danni, Sitbon David, Boeri-Erba Elisabetta, Velours Christophe, Mücke Norbert, Langowski Jörg, Ochsenbein Françoise, Almouzni Geneviève, Panne Daniel

机构信息

European Molecular Biology Laboratory, Grenoble, France.

CEA, DRF, SB2SM, Laboratoire de Biologie Structurale et Radiobiologie, Gif-sur-Yvette, France.

出版信息

Elife. 2017 Mar 18;6:e23474. doi: 10.7554/eLife.23474.

DOI:10.7554/eLife.23474

PMID:28315525

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5404918/

Abstract

How the very first step in nucleosome assembly, deposition of histone H3-H4 as tetramers or dimers on DNA, is accomplished remains largely unclear. Here, we report that yeast chromatin assembly factor 1 (CAF1), a conserved histone chaperone complex that deposits H3-H4 during DNA replication, binds a single H3-H4 heterodimer in solution. We identify a new DNA-binding domain in the large Cac1 subunit of CAF1, which is required for high-affinity DNA binding by the CAF1 three-subunit complex, and which is distinct from the previously described C-terminal winged-helix domain. CAF1 binds preferentially to DNA molecules longer than 40 bp, and two CAF1-H3-H4 complexes concertedly associate with DNA molecules of this size, resulting in deposition of H3-H4 tetramers. While DNA binding is not essential for H3-H4 tetrasome deposition in vitro, it is required for efficient DNA synthesis-coupled nucleosome assembly. Mutant histones with impaired H3-H4 tetramerization interactions fail to release from CAF1, indicating that DNA deposition of H3-H4 tetramers by CAF1 requires a hierarchical cooperation between DNA binding, H3-H4 deposition and histone tetramerization.

摘要

核小体组装的第一步，即组蛋白H3-H4以四聚体或二聚体形式沉积在DNA上，具体是如何完成的，目前仍不清楚。在此，我们报告称，酵母染色质组装因子1（CAF1），一种在DNA复制过程中负责沉积H3-H4的保守组蛋白伴侣复合物，在溶液中能结合单个H3-H4异二聚体。我们在CAF1的大亚基Cac1中鉴定出一个新的DNA结合结构域，它是CAF1三聚体复合物实现高亲和力DNA结合所必需的，且与先前描述的C端翼状螺旋结构域不同。CAF1优先结合长度超过40 bp的DNA分子，两个CAF1-H3-H4复合物协同与这种大小的DNA分子结合，从而导致H3-H4四聚体的沉积。虽然在体外，DNA结合对于H3-H4四联体沉积并非必需，但它是高效的DNA合成偶联核小体组装所必需的。H3-H4四聚化相互作用受损的突变组蛋白无法从CAF1上释放，这表明CAF1介导的H3-H4四聚体的DNA沉积需要DNA结合、H3-H4沉积和组蛋白四聚化之间的分级协作。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/80c6/5404918/77d99e23c50b/elife-23474-fig1.jpg

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对酵母染色质组装因子1的分子结构和组蛋白H3-H4沉积机制的深入了解。

Insights into the molecular architecture and histone H3-H4 deposition mechanism of yeast Chromatin assembly factor 1.

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