酵母组蛋白H3与ASF1相互作用的结构：对伴侣机制、物种特异性相互作用及表观遗传学的影响

Structure of the yeast histone H3-ASF1 interaction: implications for chaperone mechanism, species-specific interactions, and epigenetics.

作者信息

Antczak Andrew J, Tsubota Toshiaki, Kaufman Paul D, Berger James M

机构信息

Department of Molecular and Cell Biology, University of California, Berkeley, California 94720, USA.

出版信息

BMC Struct Biol. 2006 Dec 13;6:26. doi: 10.1186/1472-6807-6-26.

DOI:10.1186/1472-6807-6-26

PMID:17166288

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1762009/

Abstract

BACKGROUND

The histone H3/H4 chaperone Asf1 (anti-silencing function 1) is required for the establishment and maintenance of proper chromatin structure, as well as for genome stability in eukaryotes. Asf1 participates in both DNA replication-coupled (RC) and replication-independent (RI) histone deposition reactions in vitro and interacts with complexes responsible for both pathways in vivo. Asf1 is known to directly bind histone H3, however, high-resolution structural information about the geometry of this interaction was previously unknown.

RESULTS

Here we report the structure of a histone/histone chaperone interaction. We have solved the 2.2 A crystal structure of the conserved N-terminal immunoglobulin fold domain of yeast Asf1 (residues 2-155) bound to the C-terminal helix of yeast histone H3 (residues 121-134). The structure defines a histone-binding patch on Asf1 consisting of both conserved and yeast-specific residues; mutation of these residues abrogates H3/H4 binding affinity. The geometry of the interaction indicates that Asf1 binds to histones H3/H4 in a manner that likely blocks sterically the H3/H3 interface of the nucleosomal four-helix bundle.

CONCLUSION

These data clarify how Asf1 regulates histone stoichiometry to modulate epigenetic inheritance. The structure further suggests a physical model in which Asf1 contributes to interpretation of a "histone H3 barcode" for sorting H3 isoforms into different deposition pathways.

摘要

背景

组蛋白H3/H4伴侣蛋白Asf1（抗沉默功能1）对于真核生物中正确染色质结构的建立和维持以及基因组稳定性而言是必需的。Asf1在体外参与DNA复制偶联（RC）和复制非依赖性（RI）组蛋白沉积反应，并在体内与负责这两种途径的复合物相互作用。已知Asf1可直接结合组蛋白H3，然而，此前关于这种相互作用几何结构的高分辨率结构信息并不清楚。

结果

在此我们报道了一种组蛋白/组蛋白伴侣蛋白相互作用的结构。我们解析了与酵母组蛋白H3（第121 - 134位氨基酸残基）的C端螺旋结合的酵母Asf1保守N端免疫球蛋白折叠结构域（第2 - 155位氨基酸残基）的2.2 Å晶体结构。该结构确定了Asf1上一个由保守残基和酵母特异性残基组成的组蛋白结合位点；这些残基的突变消除了H3/H4结合亲和力。相互作用的几何结构表明，Asf1以可能在空间上阻断核小体四螺旋束的H3/H3界面的方式与组蛋白H3/H4结合。

结论

这些数据阐明了Asf1如何调节组蛋白化学计量以调控表观遗传遗传。该结构进一步提出了一个物理模型，其中Asf1有助于解读“组蛋白H3条形码”，以便将H3异构体分类到不同的沉积途径中。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ef63/1762009/6d69dfe972c8/1472-6807-6-26-1.jpg

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Structure of the yeast histone H3-ASF1 interaction: implications for chaperone mechanism, species-specific interactions, and epigenetics.酵母组蛋白H3与ASF1相互作用的结构：对伴侣机制、物种特异性相互作用及表观遗传学的影响

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酵母组蛋白H3与ASF1相互作用的结构：对伴侣机制、物种特异性相互作用及表观遗传学的影响

Structure of the yeast histone H3-ASF1 interaction: implications for chaperone mechanism, species-specific interactions, and epigenetics.

作者信息

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSION

背景

结果

结论

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