链霉亲和素晶体作为纳米结构支撑物和 cryo-EM 数据收集的图像校准参考。

Streptavidin crystals as nanostructured supports and image-calibration references for cryo-EM data collection.

机构信息

Department of Cellular and Molecular Physiology, Yale University, 333 Cedar Street, New Haven, CT 06520, USA.

出版信息

J Struct Biol. 2008 Nov;164(2):190-8. doi: 10.1016/j.jsb.2008.07.008. Epub 2008 Aug 5.

DOI:10.1016/j.jsb.2008.07.008

PMID:18707004

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3547683/

Abstract

For cryo-EM structural studies, we seek to image membrane proteins as single particles embedded in proteoliposomes. One technical difficulty has been the low density of liposomes that can be trapped in the approximately 100nm ice layer that spans holes in the perforated carbon support film of EM grids. Inspired by the use of two-dimensional (2D) streptavidin crystals as an affinity surface for biotinylated DNA (Crucifix et al., 2004), we propose to use the crystals to tether liposomes doped with biotinylated lipids. The 2D crystal image also serves as a calibration of the image formation process, providing an absolute conversion from electrostatic potentials in the specimen to the EM image intensity, and serving as a quality control of acquired cryo-EM images. We were able to grow streptavidin crystals covering more than 90% of the holes in an EM grid, and which remained stable even under negative stain. The liposome density in the resulting cryo-EM sample was uniform and high due to the high-affinity binding of biotin to streptavidin. Using computational methods, the 2D crystal background can be removed from images without noticeable effect on image properties.

摘要

对于冷冻电子显微镜（cryo-EM）结构研究，我们试图将嵌入在脂蛋白体中的膜蛋白作为单个颗粒进行成像。一个技术难点是，在跨越 EM 网格穿孔碳支持膜孔的大约 100nm 厚的冰层中，能够捕获的脂蛋白体密度较低。受二维（2D）链霉亲和素晶体作为生物素化 DNA 的亲和表面的启发（Crucifix 等人，2004），我们提议使用这些晶体来固定掺杂有生物素化脂质的脂蛋白体。2D 晶体图像还可作为图像形成过程的校准，提供从标本中的静电势到 EM 图像强度的绝对转换，并作为获得的 cryo-EM 图像的质量控制。我们能够在 EM 网格的超过 90%的孔上生长覆盖链霉亲和素晶体，并且即使在负染色下也保持稳定。由于生物素与链霉亲和素的高亲和力结合，所得 cryo-EM 样品中的脂蛋白体密度均匀且较高。通过计算方法，可以从图像中去除 2D 晶体背景，而对图像属性几乎没有影响。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3dc1/3547683/a0be9fe45984/nihms77954f1.jpg

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