The Histone Variant H2A.W Defines Heterochromatin and Promotes Chromatin Condensation in Arabidopsis

Ramesh Yelagandula; Hume Stroud; Sarah Holec; Keda Zhou; Suhua Feng; Xuehua Zhong; Uma M. Muthurajan; Xin Nie; Tomokazu Kawashima; Martin Groth; Karolin Luger; Steven E. Jacobsen; Frédéric Berger

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The Histone Variant H2A.W Defines Heterochromatin and Promotes Chromatin Condensation in Arabidopsis

机译：组蛋白变体H2A.W定义了异染色质并促进拟南芥中的染色质凝结

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Histone variants play crucial roles in gene expression, genome integrity, and chromosome segregation. We report that the four H2A variants in Arabidopsis define different genomic features, contributing to overall genomic organization. The histone variant H2A.W marks heterochromatin specifically and acts in synergy with heterochromatic marks H3K9me2 and DNA methylation to maintain transposon silencing. In vitro, H2A.W enhances chromatin condensation by promoting fiber-to-fiber interactions via its conserved C-terminal motif. In vivo, H2A.W is required for heterochromatin condensation, demonstrating that H2A.W plays critical roles in heterochromatin organization. Similarities in conserved motifs between H2A.W and another H2A variant in metazoans suggest that plants and animals share common mechanisms for heterochromatin condensation.

机译：组蛋白变体在基因表达，基因组完整性和染色体分离中起关键作用。我们报告说，拟南芥中的四个H2A变体定义了不同的基因组特征，有助于整体基因组的组织。组蛋白变体H2A.W专门标记异染色质，并与异色标记H3K9me2和DNA甲基化协同作用以维持转座子沉默。在体外，H2A.W通过其保守的C端基序促进纤维间相互作用，从而增强了染色质的缩合。在体内，H2A.W是异染色质缩合所必需的，这表明H2A.W在异染色质组织中起关键作用。 H2A.W和后生动物中另一个H2A变体之间保守基序的相似性表明，动植物共有异染色质缩合的共同机制。

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《Cell》 |2014年第1期|共12页
作者
Ramesh Yelagandula; Hume Stroud; Sarah Holec; Keda Zhou; Suhua Feng; Xuehua Zhong; Uma M. Muthurajan; Xin Nie; Tomokazu Kawashima; Martin Groth; Karolin Luger; Steven E. Jacobsen; Frédéric Berger;
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正文语种 eng
中图分类细胞生物学;
关键词
Histone; Variant; Heterochromatin;

机译：组蛋白;变体;异染色质;

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1. The Histone Variant H2A.W Defines Heterochromatin and Promotes Chromatin Condensation in Arabidopsis [J] . Ramesh Yelagandula, Hume Stroud, Sarah Holec, Cell . 2014,第1期

机译：组蛋白变体H2A.W定义了异染色质并促进拟南芥中的染色质凝结
2. Developmentally Regulated Linker Histone H1c Promotes Heterochromatin Condensation and Mediates Structural Integrity of Rod Photoreceptors in Mouse Retina [J] . Evgenya Y. Popova, Sergei Grigoryev, Yuhong Fan, The Journal of biological chemistry . 2013,第24期

机译：发育调节的接头组蛋白H1C促进异铬胺缩合并在小鼠视网膜中介导杆光感受器的结构完整性
3. Class I Histone Deacetylase Thd1p Promotes Global Chromatin Condensation in Tetrahymena thermophila [J] . Kathryn Parker, Julia Maxson, Alissa Mooney, Eukaryotic cell . 2007,第10期

机译：I类组蛋白去乙酰化酶Thd1p促进嗜热四膜虫的整体染色质浓缩
4. The role of histone H1 in chromatin condensation and transcriptional repression [C] . NATO advanced research workshop on structural biology and functional genomics . 1999

机译：组蛋白H1在染色质缩合和转录抑制中的作用
5. Linker histone and core histone N-termini contributions to chromatin structure and condensation using a reconstituted model system. [D] . Carruthers, Lenny Michael. 2001

机译：使用重组模型系统，接头组蛋白和核心组蛋白N末端有助于染色质结构和缩合。
6. The Histone Variant H2A.W Defines Heterochromatin and Promotes Chromatin Condensation in Arabidopsis [O] . Ramesh Yelagandula, Hume Stroud, Sarah Holec, -1

机译：组蛋白变体H2A.W定义了异染色质并促进拟南芥中的染色质凝聚
7. The Histone Variant H2A.W Defines Heterochromatin and Promotes Chromatin Condensation in Arabidopsis [O] . Yelagandula Ramesh, Stroud Hume, Holec Sarah, 2014

机译：组蛋白变体H2A.W定义了异染色质并促进拟南芥中的染色质凝结

The Histone Variant H2A.W Defines Heterochromatin and Promotes Chromatin Condensation in Arabidopsis

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