光学纳米显微镜中的图像分辨率测量。

Measuring image resolution in optical nanoscopy.

机构信息

Quantitative Imaging Group, Delft University of Technology, Delft, The Netherlands.

出版信息

Nat Methods. 2013 Jun;10(6):557-62. doi: 10.1038/nmeth.2448. Epub 2013 Apr 28.

DOI:10.1038/nmeth.2448

PMID:23624665

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4149789/

Abstract

Resolution in optical nanoscopy (or super-resolution microscopy) depends on the localization uncertainty and density of single fluorescent labels and on the sample's spatial structure. Currently there is no integral, practical resolution measure that accounts for all factors. We introduce a measure based on Fourier ring correlation (FRC) that can be computed directly from an image. We demonstrate its validity and benefits on two-dimensional (2D) and 3D localization microscopy images of tubulin and actin filaments. Our FRC resolution method makes it possible to compare achieved resolutions in images taken with different nanoscopy methods, to optimize and rank different emitter localization and labeling strategies, to define a stopping criterion for data acquisition, to describe image anisotropy and heterogeneity, and even to estimate the average number of localizations per emitter. Our findings challenge the current focus on obtaining the best localization precision, showing instead how the best image resolution can be achieved as fast as possible.

摘要

光学纳米显微镜（或超分辨率显微镜）的分辨率取决于单个荧光标记的定位不确定性和密度，以及样品的空间结构。目前还没有一种综合的、实用的分辨率度量标准来考虑所有因素。我们引入了一种基于傅里叶环相关（FRC）的度量标准，可以直接从图像中计算出来。我们在微管蛋白和肌动蛋白丝的二维（2D）和三维（3D）定位显微镜图像上验证了其有效性和优势。我们的 FRC 分辨率方法使得可以比较使用不同纳米显微镜方法获得的图像的分辨率，优化和排序不同的发射器定位和标记策略，为数据采集定义一个停止标准，描述图像各向异性和非均匀性，甚至可以估计每个发射器的平均定位次数。我们的研究结果挑战了目前对获得最佳定位精度的关注，而是展示了如何尽快获得最佳图像分辨率。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9b95/4149789/1b225a108869/nihms615954f1.jpg

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