染色质中的三色单分子定位显微镜

Nicolas Acosta, Ruyi Gong, Yuanzhe Su, Jane Frederick, Karla Medina, Wing Shun Li, Kiana Mohammadian, Luay Almassalha, Vadim Backman
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引用次数: 0

摘要

超分辨率显微镜彻底改变了我们观察传统光学显微镜衍射极限以下结构的能力,尤其适用于研究染色质等复杂的生物目标。染色质呈现出分层组织结构,在从纳米到微米的不同长度尺度上存在结构区和结构域。单分子定位显微镜(SMLM)方法,如 STORM,由于能够锁定决定染色质组织的表观遗传标记,因此对研究核小体以上水平的染色质至关重要。染色质的多标记成像对于揭示其结构的复杂性非常必要。然而,高密度的核环境会影响抗体的结合亲和力、扩散性和非特异性相互作用,从而给这些工作带来挑战。优化缓冲液条件、荧光团稳定性和抗体特异性对获得有效的抗体共轭物至关重要。在这里,我们展示了一种顺序免疫标记方案,它能在致密的核环境中可靠地进行三标记研究。该方案将多重定位数据集与稳健的分析算法相结合,利用来自一个靶点的定位数据作为种子点,进行距离、密度和多标记联合亲和力测量,以探索所有三个靶点的复杂组织。应用这种多复性算法分析距离和联合密度发现,异染色质和真染色质并不是不同的区域,但转录和真染色质的定位与异染色质簇的外围耦合。这项工作是对高密度核环境进行分子成像的关键一步,因为多标记能力可提高染色质等复杂的多成分系统的研究精度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Three-color single-molecule localization microscopy in chromatin
Super-resolution microscopy has revolutionized our ability to visualize structures below the diffraction limit of conventional optical microscopy and is particularly useful for investigating complex biological targets like chromatin. Chromatin exhibits a hierarchical organization with structural compartments and domains at different length scales, from nanometers to micrometers. Single molecule localization microscopy (SMLM) methods, such as STORM, are essential for studying chromatin at the supra-nucleosome level due to their ability to target epigenetic marks that determine chromatin organization. Multi-label imaging of chromatin is necessary to unpack its structural complexity. However, these efforts are challenged by the high-density nuclear environment, which can affect antibody binding affinities, diffusivity and non-specific interactions. Optimizing buffer conditions, fluorophore stability, and antibody specificity is crucial for achieving effective antibody conjugates. Here, we demonstrate a sequential immunolabeling protocol that reliably enables three-label studies within the dense nuclear environment. This protocol couples multiplexed localization datasets with a robust analysis algorithm, which utilizes localizations from one target as seed points for distance, density and multi-label joint affinity measurements to explore complex organization of all three targets. Applying this multi-plexed algorithm to analyze distance and joint density reveals that heterochromatin and euchromatin are not-distinct territories, but that localization of transcription and euchromatin couple with the periphery of heterochromatic clusters. This work is a crucial step in molecular imaging of the dense nuclear environment as multi-label capacity enables for investigation of complex multi-component systems like chromatin with enhanced accuracy.
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