一个质粒模型系统表明,果蝇剂量补偿依赖于组蛋白H4赖氨酸16位点的整体乙酰化,并且不受常见转录延伸染色质标记缺失的影响。
A plasmid model system shows that Drosophila dosage compensation depends on the global acetylation of histone H4 at lysine 16 and is not affected by depletion of common transcription elongation chromatin marks.
作者信息
Yokoyama Ruth, Pannuti Antonio, Ling Huiping, Smith Edwin R, Lucchesi John C
机构信息
Department of Biology, Emory University, Atlanta, Georgia 30322, USA.
出版信息
Mol Cell Biol. 2007 Nov;27(22):7865-70. doi: 10.1128/MCB.00397-07. Epub 2007 Sep 17.
Abstract
Dosage compensation refers to the equalization of most X-linked gene products between males, which have one X chromosome and a single dose of X-linked genes, and females, which have two X's and two doses of such genes. We developed a plasmid-based model of dosage compensation that allows new experimental approaches for the study of this regulatory mechanism. In Drosophila melanogaster, an enhanced rate of transcription of the X chromosome in males is dependent upon the presence of histone H4 acetylated at lysine 16. This chromatin mark occurs throughout active transcriptional units, leading us to the conclusion that the enhanced level of transcription is achieved through an enhanced rate of RNA polymerase elongation. We used the plasmid model to demonstrate that enhancement in the level of transcription does not depend on other histone marks and factors that have been associated with the process of elongation, thereby highlighting the special role played by histone H4 acetylated at lysine 16 in this process.
摘要
剂量补偿是指在只有一条X染色体和单剂量X连锁基因的雄性个体与有两条X染色体和双剂量此类基因的雌性个体之间,使大多数X连锁基因产物实现均等化。我们开发了一种基于质粒的剂量补偿模型,该模型为研究这种调控机制提供了新的实验方法。在黑腹果蝇中,雄性个体X染色体转录速率的提高依赖于赖氨酸16位乙酰化的组蛋白H4的存在。这种染色质标记出现在整个活跃转录单元中,这使我们得出结论,转录水平的提高是通过RNA聚合酶延伸速率的提高来实现的。我们使用该质粒模型证明,转录水平的提高不依赖于与延伸过程相关的其他组蛋白标记和因子,从而突出了赖氨酸16位乙酰化的组蛋白H4在此过程中所起的特殊作用。
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A plasmid model system shows that Drosophila dosage compensation depends on the global acetylation of histone H4 at lysine 16 and is not affected by depletion of common transcription elongation chromatin marks.一个质粒模型系统表明,果蝇剂量补偿依赖于组蛋白H4赖氨酸16位点的整体乙酰化,并且不受常见转录延伸染色质标记缺失的影响。
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本文引用的文献
1
The RNA polymerase II kinase Ctk1 regulates positioning of a 5' histone methylation boundary along genes.RNA聚合酶II激酶Ctk1调控着5'组蛋白甲基化边界沿基因的定位。
Mol Cell Biol. 2007 Jan;27(2):721-31. doi: 10.1128/MCB.01628-06. Epub 2006 Nov 6.
2
MES-4: an autosome-associated histone methyltransferase that participates in silencing the X chromosomes in the C. elegans germ line.MES-4:一种与常染色体相关的组蛋白甲基转移酶,参与秀丽隐杆线虫生殖系中X染色体的沉默。
Development. 2006 Oct;133(19):3907-17. doi: 10.1242/dev.02584.
3
Breaking barriers to transcription elongation.突破转录延伸的障碍。
Nat Rev Mol Cell Biol. 2006 Aug;7(8):557-67. doi: 10.1038/nrm1981.
4
High-resolution ChIP-chip analysis reveals that the Drosophila MSL complex selectively identifies active genes on the male X chromosome.高分辨率染色质免疫沉淀芯片分析表明,果蝇MSL复合物可选择性地识别雄性X染色体上的活性基因。
Genes Dev. 2006 Apr 1;20(7):848-57. doi: 10.1101/gad.1400206. Epub 2006 Mar 17.
5
Chromosome-wide gene-specific targeting of the Drosophila dosage compensation complex.果蝇剂量补偿复合体的全染色体基因特异性靶向作用。
Genes Dev. 2006 Apr 1;20(7):858-70. doi: 10.1101/gad.1399406. Epub 2006 Mar 17.
6
Histone H4-K16 acetylation controls chromatin structure and protein interactions.组蛋白H4赖氨酸16位乙酰化调控染色质结构和蛋白质相互作用。
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