학술논문
Nuclear pores as versatile reference standards for quantitative superresolution microscopy
Document Type
Report
Author
Source
Nature Methods. October 2019, Vol. 16 Issue 10, p1045, 9 p.
Subject
Language
English
ISSN
1548-7091
Abstract
Author(s): Jervis Vermal Thevathasan [sup.1] [sup.2] , Maurice Kahnwald [sup.1] , Konstanty Cieslinski [sup.1] , Philipp Hoess [sup.1] [sup.2] , Sudheer Kumar Peneti [sup.1] [sup.4] , Manuel Reitberger [sup.1] [sup.5] [...]
Quantitative fluorescence and superresolution microscopy are often limited by insufficient data quality or artifacts. In this context, it is essential to have biologically relevant control samples to benchmark and optimize the quality of microscopes, labels and imaging conditions. Here, we exploit the stereotypic arrangement of proteins in the nuclear pore complex as in situ reference structures to characterize the performance of a variety of microscopy modalities. We created four genome edited cell lines in which we endogenously labeled the nucleoporin Nup96 with mEGFP, SNAP-tag, HaloTag or the photoconvertible fluorescent protein mMaple. We demonstrate their use (1) as three-dimensional resolution standards for calibration and quality control, (2) to quantify absolute labeling efficiencies and (3) as precise reference standards for molecular counting. These cell lines will enable the broader community to assess the quality of their microscopes and labels, and to perform quantitative, absolute measurements. Cell lines in which Nup96 is endogenously tagged with mEGFP, SNAP-tag, HaloTag or mMaple serve as versatile reference samples, enabling 3D resolution calibration, assessment of labeling efficiency and precise molecular counting.
Quantitative fluorescence and superresolution microscopy are often limited by insufficient data quality or artifacts. In this context, it is essential to have biologically relevant control samples to benchmark and optimize the quality of microscopes, labels and imaging conditions. Here, we exploit the stereotypic arrangement of proteins in the nuclear pore complex as in situ reference structures to characterize the performance of a variety of microscopy modalities. We created four genome edited cell lines in which we endogenously labeled the nucleoporin Nup96 with mEGFP, SNAP-tag, HaloTag or the photoconvertible fluorescent protein mMaple. We demonstrate their use (1) as three-dimensional resolution standards for calibration and quality control, (2) to quantify absolute labeling efficiencies and (3) as precise reference standards for molecular counting. These cell lines will enable the broader community to assess the quality of their microscopes and labels, and to perform quantitative, absolute measurements. Cell lines in which Nup96 is endogenously tagged with mEGFP, SNAP-tag, HaloTag or mMaple serve as versatile reference samples, enabling 3D resolution calibration, assessment of labeling efficiency and precise molecular counting.