用于集成光镜和电镜的荧光信号保存与成像优化

Preservation of Fluorescence Signal and Imaging Optimization for Integrated Light and Electron Microscopy.

作者信息

Baatsen Pieter, Gabarre Sergio, Vints Katlijn, Wouters Rosanne, Vandael Dorien, Goodchild Rose, Munck Sebastian, Gounko Natalia V

机构信息

VIB-KU Leuven Center for Brain and Disease Research, Electron Microscopy Platform and VIB-Bioimaging Core, Leuven, Belgium.

KU Leuven Department of Neurosciences, Leuven Brain Institute, Leuven, Belgium.

出版信息

Front Cell Dev Biol. 2021 Dec 15;9:737621. doi: 10.3389/fcell.2021.737621. eCollection 2021.

DOI:10.3389/fcell.2021.737621

PMID:34977003

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8715528/

Abstract

Life science research often needs to define where molecules are located within the complex environment of a cell or tissue. Genetically encoded fluorescent proteins and or fluorescence affinity-labeling are the go-to methods. Although recent fluorescent microscopy methods can provide localization of fluorescent molecules with relatively high resolution, an ultrastructural context is missing. This is solved by imaging a region of interest with correlative light and electron microscopy (CLEM). We have adopted a protocol that preserves both genetically-encoded and antibody-derived fluorescent signals in resin-embedded cell and tissue samples and provides high-resolution electron microscopy imaging of the same thin section. This method is particularly suitable for dedicated CLEM instruments that combine fluorescence and electron microscopy optics. In addition, we optimized scanning EM imaging parameters for samples of varying thicknesses. These protocols will enable rapid acquisition of CLEM information from samples and can be adapted for three-dimensional EM.

摘要

生命科学研究常常需要确定分子在细胞或组织的复杂环境中的位置。基因编码荧光蛋白和/或荧光亲和标记是常用方法。尽管最近的荧光显微镜方法能够以相对较高的分辨率提供荧光分子的定位，但缺乏超微结构背景。通过相关光电子显微镜（CLEM）对感兴趣区域进行成像可解决此问题。我们采用了一种方案，该方案能在树脂包埋的细胞和组织样本中保留基因编码和抗体衍生的荧光信号，并对同一薄切片进行高分辨率电子显微镜成像。此方法特别适用于结合了荧光和电子显微镜光学元件的专用CLEM仪器。此外，我们针对不同厚度的样本优化了扫描电子显微镜成像参数。这些方案将能够从样本中快速获取CLEM信息，并且可适用于三维电子显微镜。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7d36/8715528/486e68069be5/fcell-09-737621-g001.jpg

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用于集成光镜和电镜的荧光信号保存与成像优化

Preservation of Fluorescence Signal and Imaging Optimization for Integrated Light and Electron Microscopy.

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