Cryogenic superresolution correlative light and electron microscopy of vitreous sections.

Buyun Tian, Maoge Zhou, Fengping Feng, Xiaojun Xu, Pei Wang, Huiqin Luan, Wei Ji, Yanhong Xue, Tao Xu
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引用次数: 0

Abstract

Fluorescence microscopy and electron microscopy complement each other as the former provides labelling and localisation of specific molecules and target structures while the latter possesses excellent revolving power of fine structure in context. These two techniques can combine as correlative light and electron microscopy (CLEM) to reveal the organisation of materials within the cell. Frozen hydrated sections allow microscopic observations of cellular components in situ in a near-native state and are compatible with superresolution fluorescence microscopy and electron tomography if sufficient hardware and software support is available and a well-designed protocol is followed. The development of superresolution fluorescence microscopy greatly increases the precision of fluorescence annotation of electron tomograms. Here, we provide detailed instructions on how to perform cryogenic superresolution CLEM on vitreous sections. From fluorescence-labelled cells to high pressure freezing, cryo-ultramicrotomy, cryogenic single-molecule localisation microscopy, cryogenic electron tomography and image registration, electron tomograms with features of interest highlighted by superresolution fluorescence signals are expected to be obtained.

Abstract Image

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Abstract Image

玻璃体切片的低温超分辨相关光学和电子显微镜。
荧光显微镜和电子显微镜相辅相成,前者提供特定分子和靶结构的标记和定位,后者具有优异的精细结构在语境中的旋转能力。这两种技术可以结合为相关光学和电子显微镜(CLEM)来揭示细胞内物质的组织。冷冻水合切片允许在接近原生状态下对细胞成分进行原位显微镜观察,如果有足够的硬件和软件支持,并且遵循精心设计的协议,则可与超分辨率荧光显微镜和电子断层扫描兼容。超分辨荧光显微镜的发展大大提高了电子层析图荧光注释的精度。在这里,我们提供了关于如何在玻璃体切片上进行低温超分辨率CLEM的详细说明。从荧光标记细胞到高压冷冻、低温超显微、低温单分子定位显微镜、低温电子断层扫描和图像配准,预计将获得具有超分辨率荧光信号突出特征的电子断层扫描。
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
CiteScore
1.30
自引率
0.00%
发文量
117
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