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4
Mutations in the Rice Gene, Encoding a CHD3 Family Chromatin Remodeler, Induce Narrow and Rolled Leaves with Increased Cuticular Wax.基因中的突变,该基因编码一个 CHD3 家族染色质重塑酶,导致叶片变窄、卷曲,角质层蜡质增加。
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5
Wheat CHD3 protein TaCHR729 regulates the cuticular wax biosynthesis required for stimulating germination of Blumeria graminis f.sp. tritici.小麦 CHD3 蛋白 TaCHR729 调控角质层蜡生物合成以刺激小麦白粉菌萌发。
J Exp Bot. 2019 Jan 7;70(2):701-713. doi: 10.1093/jxb/ery377.
6
The Chromatin Remodelers PKL and PIE1 Act in an Epigenetic Pathway That Determines H3K27me3 Homeostasis in Arabidopsis.染色质重塑因子 PKL 和 PIE1 在一个表观遗传途径中发挥作用,该途径决定了拟南芥中 H3K27me3 的动态平衡。
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The Rice Rolled Fine Striped (RFS) CHD3/Mi-2 Chromatin Remodeling Factor Epigenetically Regulates Genes Involved in Oxidative Stress Responses During Leaf Development.水稻细条纹(RFS)CHD3/Mi-2染色质重塑因子在叶片发育过程中对参与氧化应激反应的基因进行表观遗传调控。
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Rice nucleosome patterns undergo remodeling coincident with stress-induced gene expression.稻米核小体模式与应激诱导的基因表达同时发生重塑。
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CHD3 and CHD4 form distinct NuRD complexes with different yet overlapping functionality.CHD3和CHD4形成具有不同但重叠功能的不同核小体重塑去乙酰化酶复合物。
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Genome-wide chromatin mapping with size resolution reveals a dynamic sub-nucleosomal landscape in Arabidopsis.具有大小分辨率的全基因组染色质图谱揭示了拟南芥中动态的亚核小体景观。
PLoS Genet. 2017 Sep 13;13(9):e1006988. doi: 10.1371/journal.pgen.1006988. eCollection 2017 Sep.

一个染色质螺旋酶-DNA 结合因子在染色质修饰和基因调控中发挥作用。

A Chromodomain-Helicase-DNA-Binding Factor Functions in Chromatin Modification and Gene Regulation.

机构信息

National Key Laboratory of Crop Genetic Improvement, Huazhong Agricultural University, 430070 Wuhan, China.

National Key Laboratory of Crop Genetic Improvement, Huazhong Agricultural University, 430070 Wuhan, China

出版信息

Plant Physiol. 2020 Jul;183(3):1035-1046. doi: 10.1104/pp.20.00453. Epub 2020 May 21.

DOI:10.1104/pp.20.00453
PMID:32439720
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7333708/
Abstract

Proteins in the Chromodomain-Helicase/ATPase-DNA-binding domain (CHD) family are divided into three groups. The function of group I CHD proteins in nucleosome positioning is well established, while that of group II members (represented by CHD3/Mi2) remains unclear. Using high-throughput approaches, we investigated the function of the group II rice () CHD protein CHR729 in nucleosome positioning, gene expression, histone methylation, and binding. Our data revealed that the mutation led to increased nucleosome occupancy in the rice genome and altered the expression and histone H3K4me3 modification of many, mainly underexpressed, genes. Further analysis showed that the mutation affected both the deposition and depletion of H3K4me3 in distinct chromatin regions, with concomitant changes in H3K27me3 modification. Genetic and genomic analyses revealed that CHR729 and JMJ703, an H3K4 demethylase, had agonistic, antagonistic, and independent functions in modulating H3K4me3 and the expression of subsets of genes. In addition, CHR729 binding was enriched in H3K4me3-marked genic and H3K27me3-marked intergenic regions. The results indicate that CHR729 has distinct functions in regulating H3K4me3 and H3K27me3 modifications and gene expression at different chromatin domains and provide insight into chromatin regulation of bivalent genes marked by both H3K4me3 and H3K27me3.

摘要

染色质螺旋酶-ATP 酶-DNA 结合域(CHD)家族的蛋白分为三组。I 组 CHD 蛋白在核小体定位中的功能已得到充分证实,而 II 组成员(以 CHD3/Mi2 为代表)的功能仍不清楚。我们使用高通量方法研究了 II 组水稻()CHD 蛋白 CHR729 在核小体定位、基因表达、组蛋白甲基化和结合中的功能。我们的数据表明,突变导致水稻基因组中核小体占有率增加,并改变了许多基因的表达和组蛋白 H3K4me3 修饰,这些基因主要是表达下调的基因。进一步的分析表明,突变影响了不同染色质区域中 H3K4me3 的沉积和耗竭,同时 H3K27me3 修饰也发生了变化。遗传和基因组分析表明,CHR729 和 JMJ703(一种 H3K4 去甲基酶)在调节 H3K4me3 和亚群基因的表达方面具有协同、拮抗和独立的功能。此外,CHR729 结合在 H3K4me3 标记的基因和 H3K27me3 标记的基因间区富集。结果表明,CHR729 在不同染色质区域调节 H3K4me3 和 H3K27me3 修饰和基因表达方面具有独特的功能,并为 H3K4me3 和 H3K27me3 标记的二价基因的染色质调控提供了深入的了解。