异染色质的结构与功能。

Heterochromatin structure and function.

作者信息

Dillon Niall

机构信息

Gene Regulation and Chromatin Group, MRC Clinical Sciences Centre, Faculty of Medicine, Imperial College, Hammersmith Campus, Du Cane Road, London W12 ONN, UK.

出版信息

Biol Cell. 2004 Oct;96(8):631-7. doi: 10.1016/j.biolcel.2004.06.003.

DOI:10.1016/j.biolcel.2004.06.003

PMID:15519697

Abstract

Although heterochromatin has long been used as a model for studying chromatin condensation and heritable gene silencing, it is only relatively recently that detailed information has become available on the mechanisms that underlie its structure. Current evidence suggests that these operate on at least three different levels. A regular nucleosome array may facilitate packaging of the chromatin into a highly condensed configuration. Methylation of histone H3 lysine 9 and lysine 27 generates heterochromatin marks that are recognised through binding of heterochromatin proteins such as HP1. Finally, very recent studies using genetic and biochemical approaches have indicated that the RNAi machinery plays an important role in the formation of heterochromatin.

摘要

尽管异染色质长期以来一直被用作研究染色质浓缩和可遗传基因沉默的模型，但直到最近，关于其结构基础的机制才获得详细信息。目前的证据表明，这些机制至少在三个不同层面上发挥作用。规则的核小体阵列可能有助于将染色质包装成高度浓缩的结构。组蛋白H3赖氨酸9和赖氨酸27的甲基化产生异染色质标记，这些标记通过异染色质蛋白（如HP1）的结合而被识别。最后，最近使用遗传和生化方法进行的研究表明，RNAi机制在异染色质的形成中起重要作用。

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异染色质的结构与功能。

Heterochromatin structure and function.

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