3D 变异性分析：从单颗粒冷冻电镜中解析连续的柔韧性和离散的异质性。

3D variability analysis: Resolving continuous flexibility and discrete heterogeneity from single particle cryo-EM.

机构信息

Department of Computer Sciences, University of Toronto M5S 3G4, Canada; Vector Institute, 710-661 University Ave., Toronto M5G 1M1, Canada; Structura Biotechnology Inc., 129-100 College Ave., Toronto M5G 1L5, Canada.

Department of Computer Sciences, University of Toronto M5S 3G4, Canada; Vector Institute, 710-661 University Ave., Toronto M5G 1M1, Canada.

出版信息

J Struct Biol. 2021 Jun;213(2):107702. doi: 10.1016/j.jsb.2021.107702. Epub 2021 Feb 11.

DOI:10.1016/j.jsb.2021.107702

PMID:33582281

Abstract

Single particle cryo-EM excels in determining static structures of protein molecules, but existing 3D reconstruction methods have been ineffective in modelling flexible proteins. We introduce 3D variability analysis (3DVA), an algorithm that fits a linear subspace model of conformational change to cryo-EM data at high resolution. 3DVA enables the resolution and visualization of detailed molecular motions of both large and small proteins, revealing new biological insight from single particle cryo-EM data. Experimental results demonstrate the ability of 3DVA to resolve multiple flexible motions of α-helices in the sub-50 kDa transmembrane domain of a GPCR complex, bending modes of a sodium ion channel, five types of symmetric and symmetry-breaking flexibility in a proteasome, large motions in a spliceosome complex, and discrete conformational states of a ribosome assembly. 3DVA is implemented in the cryoSPARC software package.

摘要

单颗粒 cryo-EM 在确定蛋白质分子的静态结构方面表现出色，但现有的 3D 重建方法在建模柔性蛋白质方面效果不佳。我们引入了 3D 变异性分析（3DVA），这是一种算法，可以将构象变化的线性子空间模型拟合到高分辨率的 cryo-EM 数据。3DVA 能够解析和可视化大蛋白和小蛋白的详细分子运动，从单颗粒 cryo-EM 数据中揭示新的生物学见解。实验结果表明，3DVA 能够解析 GPCR 复合物中亚 50 kDa 跨膜域中 α 螺旋的多种柔性运动、钠离子通道的弯曲模式、蛋白酶体中 5 种对称和非对称柔性、剪接体复合物中的大运动以及核糖体组装的离散构象状态。3DVA 已在 cryoSPARC 软件包中实现。

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3D 变异性分析：从单颗粒冷冻电镜中解析连续的柔韧性和离散的异质性。

3D variability analysis: Resolving continuous flexibility and discrete heterogeneity from single particle cryo-EM.

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