利用涡旋点扩散函数进行同时定位和 3D 定位显微镜。

Simultaneous orientation and 3D localization microscopy with a Vortex point spread function.

机构信息

Department of Imaging Physics, Delft University of Technology, Delft, The Netherlands.

Department of Bionanoscience, Kavli Institute of Nanoscience, Delft University of Technology, Delft, The Netherlands.

出版信息

Nat Commun. 2021 Oct 11;12(1):5934. doi: 10.1038/s41467-021-26228-5.

DOI:10.1038/s41467-021-26228-5

PMID:34635658

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8505439/

Abstract

Estimating the orientation and 3D position of rotationally constrained emitters with localization microscopy typically requires polarization splitting or a large engineered Point Spread Function (PSF). Here we utilize a compact modified PSF for single molecule emitter imaging to estimate simultaneously the 3D position, dipole orientation, and degree of rotational constraint from a single 2D image. We use an affordable and commonly available phase plate, normally used for STED microscopy in the excitation light path, to alter the PSF in the emission light path. This resulting Vortex PSF does not require polarization splitting and has a compact PSF size, making it easy to implement and combine with localization microscopy techniques. In addition to a vectorial PSF fitting routine we calibrate for field-dependent aberrations which enables orientation and position estimation within 30% of the Cramér-Rao bound limit over a 66 μm field of view. We demonstrate this technique on reorienting single molecules adhered to the cover slip, λ-DNA with DNA intercalators using binding-activated localization microscopy, and we reveal periodicity on intertwined structures on supercoiled DNA.

摘要

利用定位显微镜估计旋转约束发射器的方向和 3D 位置通常需要偏振分光或大的工程点扩散函数 (PSF)。在这里，我们利用一个紧凑的改进 PSF 进行单分子发射器成像，以便从单个 2D 图像中同时估计 3D 位置、偶极子方向和旋转约束程度。我们使用一种价格合理且普遍可用的相差板，通常用于激发光路径中的 STED 显微镜，来改变发射光路径中的 PSF。这种产生的涡旋 PSF 不需要偏振分光，并且具有紧凑的 PSF 尺寸，易于实现并与定位显微镜技术结合。除了矢量 PSF 拟合程序外，我们还针对场相关像差进行了校准，这使得在 66 μm 的视场范围内能够在 30%的克拉美罗界限内进行方向和位置估计。我们在重新定向附着在盖玻片上的单个分子、使用结合激活定位显微镜的 λ-DNA 及其 DNA 嵌入剂以及揭示超螺旋 DNA 上交织结构的周期性方面展示了这种技术。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a705/8505439/a6446f6bcb55/41467_2021_26228_Fig1_HTML.jpg

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利用涡旋点扩散函数进行同时定位和 3D 定位显微镜。

Simultaneous orientation and 3D localization microscopy with a Vortex point spread function.

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