H4K16 乙酰化在建立酵母沉默染色质中的双重作用。

A dual role of H4K16 acetylation in the establishment of yeast silent chromatin.

机构信息

Friedrich Miescher Institute for Biomedical Research, Basel, Switzerland.

出版信息

EMBO J. 2011 Jun 10;30(13):2610-21. doi: 10.1038/emboj.2011.170.

DOI:10.1038/emboj.2011.170

PMID:21666601

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3155304/

Abstract

Discrete regions of the eukaryotic genome assume heritable chromatin structure that is refractory to transcription. In budding yeast, silent chromatin is characterized by the binding of the Silent Information Regulatory (Sir) proteins to unmodified nucleosomes. Using an in vitro reconstitution assay, which allows us to load Sir proteins onto arrays of regularly spaced nucleosomes, we have examined the impact of specific histone modifications on Sir protein binding and linker DNA accessibility. Two typical marks for active chromatin, H3K79(me) and H4K16(ac) decrease the affinity of Sir3 for chromatin, yet only H4K16(ac) affects chromatin structure, as measured by nuclease accessibility. Surprisingly, we found that the Sir2-4 subcomplex, unlike Sir3, has higher affinity for chromatin carrying H4K16(ac). NAD-dependent deacetylation of H4K16(ac) promotes binding of the SIR holocomplex but not of the Sir2-4 heterodimer. This function of H4K16(ac) cannot be substituted by H3K56(ac). We conclude that acetylated H4K16 has a dual role in silencing: it recruits Sir2-4 and repels Sir3. Moreover, the deacetylation of H4K16(ac) by Sir2 actively promotes the high-affinity binding of the SIR holocomplex.

摘要

真核基因组的离散区域呈现出可遗传的染色质结构，这种结构对转录具有抗性。在 budding yeast 中，沉默染色质的特征是沉默信息调节（Sir）蛋白与未修饰核小体结合。我们使用体外重组测定法，该方法允许我们将 Sir 蛋白加载到规则间隔核小体的阵列上，研究了特定组蛋白修饰对 Sir 蛋白结合和连接 DNA 可及性的影响。两种典型的活性染色质标记物 H3K79(me)和 H4K16(ac)降低了 Sir3 对染色质的亲和力，但只有 H4K16(ac)影响染色质结构，如核酶可及性所测量的。令人惊讶的是，我们发现 Sir2-4 亚复合物与 Sir3 不同，对携带 H4K16(ac)的染色质具有更高的亲和力。NAD 依赖性 H4K16(ac)去乙酰化促进 SIR 全复合物的结合，但不促进 Sir2-4 异二聚体的结合。H4K16(ac)的这种功能不能被 H3K56(ac)取代。我们得出结论，乙酰化的 H4K16 在沉默中具有双重作用：它募集 Sir2-4 并排斥 Sir3。此外，Sir2 对 H4K16(ac)的去乙酰化积极促进 SIR 全复合物的高亲和力结合。

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