Real-time single-molecule imaging of transcriptional regulatory networks in living cells

IF 39.1 1区生物学 Q1 GENETICS & HEREDITY

Nature Reviews Genetics Pub Date : 2024-01-09 DOI:10.1038/s41576-023-00684-9

Dong-Woo Hwang, Anna Maekiniemi, Robert H. Singer, Hanae Sato

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Abstract

Gene regulatory networks drive the specific transcriptional programmes responsible for the diversification of cell types during the development of multicellular organisms. Although our knowledge of the genes involved in these dynamic networks has expanded rapidly, our understanding of how transcription is spatiotemporally regulated at the molecular level over a wide range of timescales in the small volume of the nucleus remains limited. Over the past few decades, advances in the field of single-molecule fluorescence imaging have enabled real-time behaviours of individual transcriptional components to be measured in living cells and organisms. These efforts are now shedding light on the dynamic mechanisms of transcription, revealing not only the temporal rules but also the spatial coordination of underlying molecular interactions during various biological events. In this Review, Hwang and co-authors outline single-molecule fluorescence imaging techniques that can be used in living cells to visualize individual molecules involved in the spatiotemporal regulation of gene expression. This Review also delves into the biological insights gained through these methodologies.

Abstract Image

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活细胞中转录调控网络的实时单分子成像。

在多细胞生物体的发育过程中，基因调控网络驱动着细胞类型多样化的特定转录程序。虽然我们对参与这些动态网络的基因的了解迅速增加，但我们对转录如何在细胞核的狭小体积内以广泛的时间尺度在分子水平上进行时空调控的了解仍然有限。过去几十年来，单分子荧光成像领域的进步使我们能够在活细胞和生物体内测量单个转录成分的实时行为。这些努力现在正在揭示转录的动态机制，不仅揭示了时间规则，还揭示了各种生物事件中潜在分子相互作用的空间协调。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Nature Reviews Genetics 生物-遗传学

CiteScore

57.40

自引率

0.50%

发文量

113

审稿时长

6-12 weeks

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