组蛋白 H3 赖氨酸 9 甲基转移酶 DIM-5 改变染色质的频率并抑制光激活基因的表达。

The histone H3 lysine 9 methyltransferase DIM-5 modifies chromatin at frequency and represses light-activated gene expression.

机构信息

Department of Animal Sciences, Rutgers, The State University of New Jersey, School of Environmental and Biological Sciences, New Brunswick, New Jersey 08901.

Department of Animal Sciences, Rutgers, The State University of New Jersey, School of Environmental and Biological Sciences, New Brunswick, New Jersey 08901

出版信息

G3 (Bethesda). 2014 Nov 25;5(1):93-101. doi: 10.1534/g3.114.015446.

DOI:10.1534/g3.114.015446

PMID:25429045

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4291474/

Abstract

The transcriptional program controlling the circadian rhythm requires coordinated regulation of chromatin. Characterization of the chromodomain helicase DNA-binding enzyme CHD1 revealed DNA methylation in the promoter of the central clock gene frequency (frq) in Neurospora crassa. In this report, we show that the DNA methylation at frq is not only dependent on the DNA methyltransferase DIM-2 but also on the H3K9 methyltransferase DIM-5 and HP1. Histone H3 lysine 9 trimethylation (H3K9me3) occurs at frq and is most prominent 30 min after light-activated expression. Strains lacking dim-5 have an increase in light-induced transcription, and more White Collar-2 is found associated with the frq promoter. Consistent with the notion that DNA methylation assists in establishing the proper circadian phase, loss of H3K9 methylation results in a phase advance suggesting it delays the onset of frq expression. The dim-5 deletion strain displays an increase in circadian-regulated conidia formation on race tubes and there is a synthetic genetic interaction between dim-5 and ras-1(bd). These results indicate DIM-5 has a regulatory role in muting circadian output. Overall, the data support a model where facultative heterochromatic at frq serves to establish the appropriate phase, mute the light response, and repress circadian output.

摘要

控制生物钟的转录程序需要协调染色质的调节。对染色质解旋酶 DNA 结合酶 CHD1 的特征描述揭示了粗糙脉孢菌（Neurospora crassa）中中央时钟基因频率（frq）启动子的 DNA 甲基化。在本报告中，我们表明，frq 处的 DNA 甲基化不仅依赖于 DNA 甲基转移酶 DIM-2，还依赖于 H3K9 甲基转移酶 DIM-5 和 HP1。组蛋白 H3 赖氨酸 9 三甲基化（H3K9me3）发生在 frq 处，并且在光激活表达后 30 分钟最为明显。缺乏 dim-5 的菌株会增加光诱导的转录，并且与 frq 启动子相关的 White Collar-2 更多。与 DNA 甲基化有助于建立适当的生物钟相位的观点一致，H3K9 甲基化的缺失会导致相位提前，表明它会延迟 frq 表达的开始。dim-5 缺失株在Race 管上显示出更多的生物钟调节分生孢子形成，并且 dim-5 和 ras-1(bd) 之间存在合成遗传相互作用。这些结果表明 DIM-5 在沉默生物钟输出方面具有调节作用。总体而言，数据支持这样一种模型，即在 frq 处的兼性异染色质有助于建立适当的相位、沉默光反应并抑制生物钟输出。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1565/4291474/6e416fbe3cfe/93f1.jpg

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组蛋白 H3 赖氨酸 9 甲基转移酶 DIM-5 改变染色质的频率并抑制光激活基因的表达。

The histone H3 lysine 9 methyltransferase DIM-5 modifies chromatin at frequency and represses light-activated gene expression.

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