Live-cell imaging of chromatin contacts opens a new window into chromatin dynamics.

IF 4.2 2区生物学 Q1 GENETICS & HEREDITY Epigenetics & Chromatin Pub Date : 2023-06-23 DOI:10.1186/s13072-023-00503-9

Jente van Staalduinen, Thomas van Staveren, Frank Grosveld, Kerstin S Wendt

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Abstract

Our understanding of the organization of the chromatin fiber within the cell nucleus has made great progress in the last few years. High-resolution techniques based on next-generation sequencing as well as optical imaging that can investigate chromatin conformations down to the single cell level have revealed that chromatin structure is highly heterogeneous at the level of the individual allele. While TAD boundaries and enhancer-promoter pairs emerge as hotspots of 3D proximity, the spatiotemporal dynamics of these different types of chromatin contacts remain largely unexplored. Investigation of chromatin contacts in live single cells is necessary to close this knowledge gap and further enhance the current models of 3D genome organization and enhancer-promoter communication. In this review, we first discuss the potential of single locus labeling to study architectural and enhancer-promoter contacts and provide an overview of the available single locus labeling techniques such as FROS, TALE, CRISPR-dCas9 and ANCHOR, and discuss the latest developments and applications of these systems.

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染色质接触的活细胞成像为染色质动力学打开了一扇新的窗口。

在过去的几年里，我们对细胞核内染色质纤维组织的理解取得了巨大进展。基于下一代测序和光学成像的高分辨率技术可以研究单细胞水平下的染色质构象，这些技术表明，染色质结构在单个等位基因水平上是高度异质的。虽然TAD边界和增强子-启动子对成为3D接近的热点，但这些不同类型的染色质接触的时空动力学在很大程度上仍未被探索。研究活单细胞中的染色质接触对于缩小这一知识差距并进一步增强当前的3D基因组组织和增强子-启动子通讯模型是必要的。在这篇综述中，我们首先讨论了单位点标记在研究结构和增强子-启动子接触方面的潜力，并概述了可用的单位点标记技术，如FROS、TALE、CRISPR-dCas9和ANCHOR，并讨论了这些系统的最新发展和应用。

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来源期刊

Epigenetics & Chromatin GENETICS & HEREDITY-

CiteScore

7.00

自引率

0.00%

发文量

审稿时长

1 months

期刊介绍： Epigenetics & Chromatin is a peer-reviewed, open access, online journal that publishes research, and reviews, providing novel insights into epigenetic inheritance and chromatin-based interactions. The journal aims to understand how gene and chromosomal elements are regulated and their activities maintained during processes such as cell division, differentiation and environmental alteration.