Self-supervised denoising for multimodal structured illumination microscopy enables long-term super-resolution live-cell imaging

IF 15.7 Q1 OPTICS
Xingye Chen, Chang Qiao, Tao Jiang, Jiahao Liu, Quan Meng, Yunmin Zeng, Haoyu Chen, Hui Qiao, Dong Li, Jiamin Wu
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引用次数: 0

Abstract

Detection noise significantly degrades the quality of structured illumination microscopy (SIM) images, especially under low-light conditions. Although supervised learning based denoising methods have shown prominent advances in eliminating the noise-induced artifacts, the requirement of a large amount of high-quality training data severely limits their applications. Here we developed a pixel-realignment-based self-supervised denoising framework for SIM (PRS-SIM) that trains an SIM image denoiser with only noisy data and substantially removes the reconstruction artifacts. We demonstrated that PRS-SIM generates artifact-free images with 20-fold less fluorescence than ordinary imaging conditions while achieving comparable super-resolution capability to the ground truth (GT). Moreover, we developed an easy-to-use plugin that enables both training and implementation of PRS-SIM for multimodal SIM platforms including 2D/3D and linear/nonlinear SIM. With PRS-SIM, we achieved long-term super-resolution live-cell imaging of various vulnerable bioprocesses, revealing the clustered distribution of Clathrin-coated pits and detailed interaction dynamics of multiple organelles and the cytoskeleton.
用于多模态结构照明显微镜的自监督去噪技术可实现长期超分辨率活细胞成像
检测噪声会大大降低结构照明显微镜(SIM)图像的质量,尤其是在弱光条件下。虽然基于监督学习的去噪方法在消除噪声引起的伪影方面取得了显著进展,但对大量高质量训练数据的要求严重限制了这些方法的应用。在此,我们为 SIM 开发了基于像素重配的自监督去噪框架(PRS-SIM),该框架仅使用噪声数据训练 SIM 图像去噪器,并能大幅消除重建伪影。我们证明,PRS-SIM 生成的无伪影图像比普通成像条件下的荧光减少了 20 倍,同时实现了与地面实况(GT)相当的超分辨率能力。此外,我们还开发了一种简单易用的插件,可为多模态 SIM 平台(包括二维/三维和线性/非线性 SIM)提供 PRS-SIM 的训练和实施。利用 PRS-SIM,我们实现了对各种脆弱生物过程的长期超分辨率活细胞成像,揭示了 Clathrin 涂层凹坑的集群分布以及多种细胞器和细胞骨架的详细相互作用动态。
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来源期刊
CiteScore
25.70
自引率
0.00%
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0
审稿时长
13 weeks
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