使用Bsoft处理和解释冷冻电镜数据的方案：视网膜黏附蛋白视网膜分裂蛋白的案例研究

Protocols for Processing and Interpreting cryoEM Data Using Bsoft: A Case Study of the Retinal Adhesion Protein, Retinoschisin.

作者信息

Heymann J Bernard

机构信息

Laboratory for Structural Biology Research, NIAMS, NIH, Bethesda, MD 20892, USA.

出版信息

Bio Protoc. 2020 Jan 20;10(2):e3491. doi: 10.21769/BioProtoc.3491.

DOI:10.21769/BioProtoc.3491

PMID:33654723

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7842593/

Abstract

The goal of cryoEM is to determine the structures of biomolecules from electron micrographs. In many cases the processing is straightforward and can be handled with routine protocols. In other cases, the properties and behavior of the specimen require adaptions to properly interpret the data. Here I describe the protocols for examining the higher order assemblies of the retinal adhesion protein, retinoschisin (RS1), using the Bsoft package. The protocols for micrograph preprocessing, 2D classification and 3D alignment and reconstruction follow the usual patterns for the majority of cryoEM specimens. The interpretation of the results is specific to the branched network of RS1 filaments. The 2D class averages are used to determine the relative positions of the RS1 molecules, thus defining the interacting interfaces in the network. The major interface of the linear filament is then further examined by reconstructing the "unit cell" and fitting the molecular models.

摘要

冷冻电镜的目标是从电子显微照片中确定生物分子的结构。在许多情况下，处理过程很简单，可以用常规方案处理。在其他情况下，样本的特性和行为需要进行调整，以便正确解释数据。在这里，我描述了使用Bsoft软件包检查视网膜黏附蛋白视网膜劈裂蛋白（RS1）高阶组装体的方案。显微照片预处理、二维分类以及三维对齐和重建的方案遵循大多数冷冻电镜样本的常见模式。结果的解释特定于RS1细丝的分支网络。二维类平均用于确定RS1分子的相对位置，从而定义网络中的相互作用界面。然后通过重建“晶胞”并拟合分子模型，进一步检查线性细丝的主要界面。

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