利用DNA g -四重体靶向可逆光开关的基因表达光学控制

IF 19.2 1区化学 Q1 CHEMISTRY, MULTIDISCIPLINARY

Nature chemistry Pub Date : 2025-04-03 DOI:10.1038/s41557-025-01792-1

Xiaoyun Zhang, Somdutta Dhir, Larry Melidis, Yuqi Chen, Zutao Yu, Angela Simeone, Jochen Spiegel, Santosh Adhikari, Shankar Balasubramanian

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引用次数: 0

摘要

转录调控是一个协调多种细胞活动的动态过程，利用小分子干扰基因表达推动了我们对基本调控机制的理解。然而，小分子通常缺乏在高度非侵入性、受控环境下所需的时空精度。在这里，我们提出了一种细胞可渗透的小分子DNA g -四重体（G4）粘合剂的开发，称为G4开关，可以通过可见光可逆地打开和关闭。我们在体外对G4结合的光介导控制进行了生物物理表征，随后对G4开关在染色质中的G4靶点进行了细胞基因组定位，以确认G4在细胞背景下的选择性、光依赖性结合。通过在活细胞中部署g4开关，我们展示了对一组g4基因表达和g4相关细胞增殖的时空控制。我们的研究展示了一种化学工具和方法，可以直接在细胞的分子水平上询问关键生物过程的动力学。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Optical control of gene expression using a DNA G-quadruplex targeting reversible photoswitch

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Optical control of gene expression using a DNA G-quadruplex targeting reversible photoswitch

Transcriptional regulation is a dynamic process that coordinates diverse cellular activities, and the use of small molecules to perturb gene expression has propelled our understanding of the fundamental regulatory mechanisms. However, small molecules typically lack the spatiotemporal precision required in highly non-invasive, controlled settings. Here we present the development of a cell-permeable small-molecule DNA G-quadruplex (G4) binder, termed G4switch, that can be reversibly toggled on and off by visible light. We have biophysically characterized the light-mediated control of G4 binding in vitro, followed by cellular, genomic mapping of G4switch to G4 targets in chromatin to confirm G4-selective, light-dependent binding in a cellular context. By deploying G4switch in living cells, we show spatiotemporal control over the expression of a set of G4-containing genes and G4-associated cell proliferation. Our studies demonstrate a chemical tool and approach to interrogate the dynamics of key biological processes directly at the molecular level in cells.

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来源期刊

Nature chemistry 化学-化学综合

CiteScore

29.60

自引率

1.40%

发文量

226

审稿时长

1.7 months

期刊介绍： Nature Chemistry is a monthly journal that publishes groundbreaking and significant research in all areas of chemistry. It covers traditional subjects such as analytical, inorganic, organic, and physical chemistry, as well as a wide range of other topics including catalysis, computational and theoretical chemistry, and environmental chemistry. The journal also features interdisciplinary research at the interface of chemistry with biology, materials science, nanotechnology, and physics. Manuscripts detailing such multidisciplinary work are encouraged, as long as the central theme pertains to chemistry. Aside from primary research, Nature Chemistry publishes review articles, news and views, research highlights from other journals, commentaries, book reviews, correspondence, and analysis of the broader chemical landscape. It also addresses crucial issues related to education, funding, policy, intellectual property, and the societal impact of chemistry. Nature Chemistry is dedicated to ensuring the highest standards of original research through a fair and rigorous review process. It offers authors maximum visibility for their papers, access to a broad readership, exceptional copy editing and production standards, rapid publication, and independence from academic societies and other vested interests. Overall, Nature Chemistry aims to be the authoritative voice of the global chemical community.