University of Michigan Life Sciences Institute, Ann Arbor 48109, USA.
J Struct Biol. 2019 Jan 1;205(1):22-29. doi: 10.1016/j.jsb.2018.11.012. Epub 2018 Nov 26.
Preferred particle orientation represents a recurring problem in single-particle cryogenic electron microcopy (cryo-EM). A specimen-independent approach through tilting has been attempted to increase particle orientation coverage, thus minimizing anisotropic three-dimensional (3D) reconstruction. However, focus gradient is a critical issue hindering tilt applications from being a general practice in single-particle cryo-EM. The present study describes a newly developed geometrically optimized approach, goCTF, to reliably determine the global focus gradient. A novel strategy of determining contrast transfer function (CTF) parameters from a sector of the signal preserved power spectrum is applied to increase reliability. Subsequently, per-particle based local focus refinement is conducted in an iterative manner to further improve the defocus accuracy. Novel diagnosis methods using a standard deviation defocus plot and goodness of fit heatmap have also been proposed to evaluate CTF fitting quality prior to 3D refinement. In a benchmark study, goCTF processed a published single-particle cryo-EM dataset for influenza hemagglutinin trimer collected at a 40-degree specimen tilt. The resulting 3D reconstruction map was improved from 4.1 Å to 3.7 Å resolution. The goCTF program is built on the open-source code of CTFFIND4, which adopts a consistent user interface for ease of use.
在单颗粒低温电子显微镜(cryo-EM)中,首选粒子取向是一个反复出现的问题。通过倾斜尝试了一种与标本无关的方法来增加粒子取向的覆盖范围,从而最小化各向异性的三维(3D)重建。然而,焦点梯度是阻碍倾斜应用成为单颗粒 cryo-EM 常规实践的一个关键问题。本研究描述了一种新开发的几何优化方法 goCTF,用于可靠地确定全局焦点梯度。应用一种从信号保留功率谱的扇区确定对比传递函数(CTF)参数的新策略来提高可靠性。随后,基于每个粒子的局部焦点细化以迭代方式进行,以进一步提高离焦精度。还提出了使用标准偏差离焦图和拟合度热图的新诊断方法,以便在进行 3D 细化之前评估 CTF 拟合质量。在基准研究中,goCTF 处理了在 40 度标本倾斜下收集的已发表的用于流感血凝素三聚体的单颗粒 cryo-EM 数据集。结果 3D 重建图的分辨率从 4.1Å 提高到 3.7Å。goCTF 程序建立在 CTFFIND4 的开源代码之上,采用一致的用户界面,易于使用。
