Accurate size-based protein localization from cryo-ET tomograms

IF 3.5 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY Journal of Structural Biology: X Pub Date : 2024-06-26 DOI:10.1016/j.yjsbx.2024.100104
Weisheng Jin , Ye Zhou , Alberto Bartesaghi
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Abstract

Cryo-electron tomography (cryo-ET) combined with sub-tomogram averaging (STA) allows the determination of protein structures imaged within the native context of the cell at near-atomic resolution. Particle picking is an essential step in the cryo-ET/STA image analysis pipeline that consists in locating the position of proteins within crowded cellular tomograms so that they can be aligned and averaged in 3D to improve resolution. While extensive work in 2D particle picking has been done in the context of single-particle cryo-EM, comparatively fewer strategies have been proposed to pick particles from 3D tomograms, in part due to the challenges associated with working with noisy 3D volumes affected by the missing wedge. While strategies based on 3D template-matching and deep learning are commonly used, these methods are computationally expensive and require either an external template or manual labelling which can bias the results and limit their applicability. Here, we propose a size-based method to pick particles from tomograms that is fast, accurate, and does not require external templates or user provided labels. We compare the performance of our approach against a commonly used algorithm based on deep learning, crYOLO, and show that our method: i) has higher detection accuracy, ii) does not require user input for labeling or time-consuming training, and iii) runs efficiently on non-specialized CPU hardware. We demonstrate the effectiveness of our approach by automatically detecting particles from tomograms representing different types of samples and using these particles to determine the high-resolution structures of ribosomes imaged in vitro and in situ.

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从低温电子断层扫描图中准确定位蛋白质大小
低温电子断层扫描(cryo-ET)与子断层平均(STA)相结合,可以确定在细胞原生环境中以接近原子分辨率成像的蛋白质结构。粒子拾取是低温电子显微镜/STA 图像分析流水线中的一个重要步骤,它包括在拥挤的细胞断层图中定位蛋白质的位置,以便对它们进行三维对齐和平均,从而提高分辨率。虽然在单颗粒冷冻电子显微镜下进行了大量的二维颗粒拾取工作,但提出的从三维断层图中拾取颗粒的策略相对较少,部分原因是在处理受缺失楔形影响的噪声三维体积时面临挑战。虽然基于三维模板匹配和深度学习的策略很常用,但这些方法的计算成本很高,而且需要外部模板或人工标注,会使结果产生偏差,限制了其适用性。在这里,我们提出了一种基于尺寸的方法来从断层图中拾取粒子,这种方法快速、准确,而且不需要外部模板或用户提供的标签。我们将我们的方法与常用的基于深度学习的算法 crYOLO 进行了性能比较,结果表明我们的方法:i) 检测准确率更高;ii) 不需要用户输入标签或耗时的训练;iii) 可在非专用 CPU 硬件上高效运行。我们从代表不同类型样本的断层图中自动检测颗粒,并利用这些颗粒确定体外和原位成像核糖体的高分辨率结构,从而证明了我们方法的有效性。
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来源期刊
Journal of Structural Biology: X
Journal of Structural Biology: X Biochemistry, Genetics and Molecular Biology-Structural Biology
CiteScore
6.50
自引率
0.00%
发文量
20
审稿时长
62 days
期刊最新文献
Corrigendum to “Minimizing ice contamination during specimen preparation for cryo-soft X-ray tomography and cryo-electron tomography” [J. Struct. Biol.: X 10(2024) 100113] Editorial by Natalie Reznikov [for Buss et al., “Hierarchical organization of bone in three dimensions: A twist of twists” (2022)] Structural analysis of the stable form of fibroblast growth factor 2 – FGF2-STAB Localization of albumin with correlative super resolution light- and electron microscopy in the kidney Minimizing ice contamination during specimen preparation for cryo-soft X-ray tomography and cryo-electron tomography
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