Three-dimensional reconstruction of single particles from random and nonrandom tilt series.

M Radermacher
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引用次数: 464

Abstract

To overcome the radiation damage-induced limitations to the resolution of three-dimensional reconstructions from electron microscopic tilt series, novel reconstruction schemes have been developed that require only a single exposure of the specimen. The tilt series collected with these methods have random projection directions. First, three-dimensional reconstruction techniques are described that are applicable to data obtained from tilt series with regular tilt geometry, followed by the extensions of these techniques to permit analysis of projection series with randomly spaced tilts. The main emphasis is placed on the weighted back-projection methods, which have recently been extended so as to be applicable to random tilt series. Besides a description of the algorithms, the complete procedure for a three-dimensional reconstruction from a single-exposure, random conical tilt series is explained, including the determination of the azimuthal angles, the alignment scheme for conical tilt series, the dependence of the achievable resolution on the number of projections for regular conical and single-axis geometries, and the method to calculate the actual resolution of two-dimensional image averages and of three-dimensional reconstructions using the phase residual and Fourier ring correlation criteria. Examples are given of biological specimens to which these three-dimensional reconstruction methods have been applied.

随机和非随机倾斜序列中单粒子的三维重建。
为了克服辐射损伤对电子显微镜倾斜序列三维重建分辨率的限制,已经开发出只需要单次暴露样品的新型重建方案。这些方法收集的倾斜序列具有随机的投影方向。首先,描述了适用于从具有规则倾斜几何的倾斜序列中获得的数据的三维重建技术,然后扩展了这些技术,以允许分析具有随机间距倾斜的投影序列。主要重点放在加权反投影方法上,该方法最近得到了扩展,以便适用于随机倾斜序列。除了对算法的描述外,还解释了从单次曝光随机圆锥倾斜序列进行三维重建的完整过程,包括方位角的确定,圆锥倾斜序列的对齐方案,可实现的分辨率对规则圆锥和单轴几何形状的投影数量的依赖。以及利用相位残差和傅立叶环相关准则计算二维图像平均和三维重建的实际分辨率的方法。给出了应用这些三维重建方法的生物标本的实例。
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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