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Minor Loops in Major Folds: Enhancer–Promoter Looping Chromatin Restructuring and Their Association with Transcriptional Regulation and Disease

机译：主要褶皱中的小环：增强子-启动子环染色质重构及其与转录调控和疾病的关系

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The organization and folding of chromatin within the nucleus can determine the outcome of gene expression. Recent technological advancements have enabled us to study chromatin interactions in a genome-wide manner at high resolution. These studies have increased our understanding of the hierarchy and dynamics of chromatin domains that facilitate cognate enhancer–promoter looping, defining the transcriptional program of different cell types. In this review, we focus on vertebrate chromatin long-range interactions as they relate to transcriptional regulation. In addition, we describe how the alteration of boundaries that mark discrete regions in the genome with high interaction frequencies within them, called topological associated domains (TADs), could lead to various phenotypes, including human diseases, which we term as “TADopathies.”

机译：染色质在细胞核内的组织和折叠可以决定基因表达的结果。最近的技术进步使我们能够以高分辨率在全基因组范围内研究染色质相互作用。这些研究使我们对染色质结构域的层次结构和动力学有了更深入的了解，这些结构域促进了同源增强子-启动子循环，从而定义了不同细胞类型的转录程序。在这篇综述中，我们专注于脊椎动物染色质的远程相互作用，因为它们与转录调控有关。此外，我们描述了标记具有高交互频率的标记基因组中离散区域的边界（称为拓扑相关域（TAD））如何导致各种表型，包括人类疾病，我们称之为“ TADopathies”。

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期刊名称 PLoS Genetics
作者
Navneet Matharu; Nadav Ahituv;
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年(卷),期 2015(11),12
年度 2015
页码 e1005640
总页数 14
原文格式 PDF
正文语种
中图分类遗传学;
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专利

1. Minor Loops in Major Folds: Enhancer–Promoter Looping, Chromatin Restructuring, and Their Association with Transcriptional Regulation and Disease [J] . Navneet Matharu, Nadav Ahituv PLoS Genetics . 2015,第12期

机译：主要褶皱中的小环：增强子-启动子环，染色质重构及其与转录调控和疾病的关系
2. Allele-specific transcriptional regulation of IRF4 in melanocytes is mediated by chromatin looping of the intronic rs12203592 enhancer to the IRF4 promoter [J] . Visser Mijke, Palstra Robert-Jan, Kayser Manfred Human Molecular Genetics . 2015,第9期

机译：黑色素细胞中IRF4的等位基因特异性转录调控是由内含子rs12203592增强子与IRF4启动子的染色质环介导的
3. Toward predictive R-loop computational biology: genome-scale prediction of R-loops reveals their association with complex promoter structures, G-quadruplexes and transcriptionally active enhancers [J] . Kuznetsov Vladimir A., Bondarenko Vladyslav, Wongsurawat Thidathip, Nucleic Acids Research . 2018,第15期

机译：朝向预测性R环计算生物学：R-LOPS的基因组预测揭示了它们与复杂的启动子结构，G-Quadreples和转录活性增强剂的关系
4. Regulation of ABI3 Transcription via Cloning of DroughtResponsive Promoters in Arabidopsis Thaliana [C] . Z. Bhuiyan, J. Wind, I. Ezcurra AIChE Annual Meeting . 2014

机译：通过克隆拟南芥中的滴灌者启动子对ABI3转录的调节
5. Chromatin Remodeling Around Nucleosome Free Regions Represses Non-Coding RNA By DNA Looping and Transcription Factor Dependent Targeting of Isw2 [D] . Yadon, Adam Nicholas 2012

机译：核糖体游离区周围的染色质重塑通过Isw2的DNA循环和转录因子依赖性靶向抑制非编码RNA。
6. Toward predictive R-loop computational biology: genome-scale prediction of R-loops reveals their association with complex promoter structures G-quadruplexes and transcriptionally active enhancers [O] . Vladimir A Kuznetsov, Vladyslav Bondarenko, Thidathip Wongsurawat, 2018

机译：迈向预测性R环计算生物学：R环的基因组规模预测揭示了它们与复杂的启动子结构G-四链体和转录活性增强子的关联
7. Minor Loops in Major Folds: Enhancer-Promoter Looping, Chromatin Restructuring, and Their Association with Transcriptional Regulation and Disease. [O] . Navneet Matharu, Nadav Ahituv 2015

机译：主要褶皱中的次要循环：增强子 - 启动子循环，染色质重组及其与转录调节和疾病的关联。

Minor Loops in Major Folds: Enhancer–Promoter Looping Chromatin Restructuring and Their Association with Transcriptional Regulation and Disease

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