Publication Stallinga, Rieger et al in 7-year highlights edition of the journal "Methods and Applications in Fluorescence"
For their seven year anniversary the journal "Methods and Applications in Fluorescence" issued a special edition "Highlights" with some of the excellent fluorescence research from the journal.
One of the selected articles is the publication of ImPhys researchers Sjoerd Stallinga and Bernd Rieger et al on on super-resolution microscopy.
Title: "Resolution improvement by 3D particle averaging in localization microscopy"
Abstract:
Inspired by recent developments in localization microscopy that applied averaging of identical particles in 2D for increasing the resolution even further, we discuss considerations for alignment (registration) methods for particles in general and for 3D in particular. We detail that traditional techniques for particle registration from cryo electron microscopy based on cross-correlation are not suitable, as the underlying image formation process is fundamentally different. We argue that only localizations, i.e. a set of coordinates with associated uncertainties, are recorded and not a continuous intensity distribution. We present a method that owes to this fact and that is inspired by the field of statistical pattern recognition. In particular we suggest to use an adapted version of the Bhattacharyya distance as a merit function for registration. We evaluate the method in simulations and demonstrate it on 3D super-resolution data of Alexa 647 labelled to the Nup133 protein in the nuclear pore complex of Hela cells. From the simulations we find suggestions that for successful registration the localization uncertainty must be smaller than the distance between labeling sites on a particle. These suggestions are supported by theoretical considerations concerning the attainable resolution in localization microscopy and its scaling behavior as a function of labeling density and localization precision.
PDF Highlights magazine.