Shoh M. Asano, Ruixuan Gao, Asmamaw T. Wassie, Paul W. Tillberg, Fei Chen, Edward S. Boyden
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引用次数: 120
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Abstract
Expansion microscopy (ExM) is a recently developed technique that enables nanoscale-resolution imaging of preserved cells and tissues on conventional diffraction-limited microscopes via isotropic physical expansion of the specimens before imaging. In ExM, biomolecules and/or fluorescent labels in the specimen are linked to a dense, expandable polymer matrix synthesized evenly throughout the specimen, which undergoes 3-dimensional expansion by ∼4.5 fold linearly when immersed in water. Since our first report, versions of ExM optimized for visualization of proteins, RNA, and other biomolecules have emerged. Here we describe best-practice, step-by-step ExM protocols for performing analysis of proteins (protein retention ExM, or proExM) as well as RNAs (expansion fluorescence in situ hybridization, or ExFISH), using chemicals and hardware found in a typical biology lab. Furthermore, a detailed protocol for handling and mounting expanded samples and for imaging them with confocal and light-sheet microscopes is provided. © 2020 The Authors.
扩增显微镜:细胞和组织中蛋白质和RNA成像的规程
扩展显微镜(ExM)是一项最近发展起来的技术,通过在成像前对标本进行各向同性物理膨胀,可以在常规衍射限制显微镜上对保存的细胞和组织进行纳米级分辨率成像。在ExM中,样品中的生物分子和/或荧光标记与整个样品均匀合成的致密可膨胀聚合物基质相连接,当浸入水中时,该聚合物基质会线性地进行三维膨胀~ 4.5倍。自我们的第一份报告以来,针对蛋白质、RNA和其他生物分子的可视化优化的ExM版本已经出现。在这里,我们描述了最佳实践,一步一步的ExM协议,用于执行蛋白质(蛋白质保留ExM,或proExM)以及rna(扩增荧光原位杂交,或ExFISH)的分析,使用在典型的生物实验室中发现的化学品和硬件。此外,还提供了处理和安装扩展样品以及用共聚焦显微镜和光片显微镜对其成像的详细协议。©2020作者。
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