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Acidic domains differentially read histone H3 lysine 4 methylation status and are widely present in chromatin-associated proteins 被引量:1
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作者 Meng Wu Wei Wei +5 位作者 Jiwei Chen Rong Cong Tieliu Shi Jiwen Li Jiemin Wong James X.Du 《Science China(Life Sciences)》 SCIE CAS CSCD 2017年第2期138-151,共14页
Histone methylation is believed to provide binding sites for specific reader proteins, which translate histone code into biological function. Here we show that a family of acidic domain-containing proteins including n... Histone methylation is believed to provide binding sites for specific reader proteins, which translate histone code into biological function. Here we show that a family of acidic domain-containing proteins including nucleophosmin (NPM 1), pp32, SET/TAF 113, nucleolin (NCL) and upstream binding factor (UBF) are novel H3K4me2-binding proteins. These proteins exhibit a unique pattern of interaction with methylated H3K4, as their binding is stimulated by H3K4me2 and inhibited by H3K4mel and H3K4me3. These proteins contain one or more acidic domains consisting mainly of aspartic and/or glutamic residues that are necessary for preferential binding of H3K4me2. Furthermore, we demonstrate that the acidic domain with sufficient length alone is capable of binding H3K4me2 in vitro and in vivo. NPM1, NCL and UBF require their acidic domains for association with and transcriptional activation ofrDNA genes. Interestingly, by defining acidic domain as a sequence with at least 20 acidic residues in 50 continuous amino acids, we identified 655 acidic domain-containing protein coding genes in the human genome and Gene Ontology (GO) analysis showed that many of the acidic domain proteins have chromatin-related functions. Our data suggest that acidic domain is a novel histone binding motif that can differentially read the status of H3K4 methylation and is broadly present in chromatin-associated proteins. 展开更多
关键词 histone methylation h3k4mel H3K4me2 H3K4me3 acidic domain histone code TRANSCRIPTION CHROMATIN
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基于ChIP-qPCR技术研究益气养阴活血汤对短暂高糖致HK-2细胞持续表观遗传改变的影响 被引量:2
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作者 翁思颖 王磊 柴可夫 《中华中医药杂志》 CAS CSCD 北大核心 2018年第5期1988-1991,共4页
目的:探讨短暂高糖通过诱发肾小管上皮细胞(HK-2)细胞持续性染色质重塑导致细胞炎性损伤的作用机制及中药益气养阴活血汤(TD)的干预作用。方法:HK-2细胞分设低糖组、高糖组、短暂高糖组、短暂高糖+TD组,染色质免疫共沉淀(Ch IP)-q PCR法... 目的:探讨短暂高糖通过诱发肾小管上皮细胞(HK-2)细胞持续性染色质重塑导致细胞炎性损伤的作用机制及中药益气养阴活血汤(TD)的干预作用。方法:HK-2细胞分设低糖组、高糖组、短暂高糖组、短暂高糖+TD组,染色质免疫共沉淀(Ch IP)-q PCR法测NF-κB p65基因启动子区Set7表达及组蛋白H3第4位一甲基化(H3K4me1)水平,q PCR法测p65及NF-κB依赖性基因单核细胞趋化蛋白-1(MCP-1)、肿瘤坏死因子-α(TNF-α)、白细胞介素-10(IL-10)的m RNA水平,观察各组各因子水平差异。另通过慢病毒转染对Set7基因敲减,测敲减前后p65基因启动子区H3K4me1水平、p65、MCP-1、TNF-α、IL-10 m RNA表达。结果:高糖组、短暂高糖组p65基因启动子区Set7表达及组蛋H3K4me1水平、p65、MCP-1、TNF-α、IL-10 m RNA表达均高于低糖组(P<0.05),高糖组与短暂高糖组无明显差异。除IL-10外,短暂高糖+TD组的各m RNA水平均低于短暂高糖组(P<0.05);Set7敲减后4组H3K4me1、p65水平均无明显差异。结论:短暂高糖可通过大量招募Set7引起NF-κB p65启动子区H3K4me1水平持续增加,导致下游p65及NF-κB依赖性炎性因子持续高表达,TD则通过上述机制抑制染色质重塑持续高表达,减少短暂高糖后的长期细胞损伤,从而减轻高糖导致的肾损伤。 展开更多
关键词 益气养阴活血汤 糖尿病肾病 染色质免疫共沉淀-qPCR 组蛋白H3第4位-甲基化 Set7 肾小管上皮细胞
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