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document
Chakrova, N. (author), Rieger, B. (author), Stallinga, S. (author)
We present a versatile fluorescence microscope, built by complementing a conventional fluorescence microscope with a digital micro-mirror device (DMD) in the illumination path. Arbitrary patterns can be created on the DMD and projected onto the sample. This patterned illumination can be used to improve lateral and axial resolution over the...
conference paper 2015
document
Nieuwenhuizen, R.P.J. (author), Nahidiazar, L. (author), Manders, E.M.M. (author), Jalink, K. (author), Stallinga, S. (author), Rieger, B. (author)
Co-localization analysis is a widely used tool to seek evidence for functional interactions between molecules in different color channels in microscopic images. Here we extend the basic co-localization analysis by including the orientations of the structures on which the molecules reside. We refer to the combination of co-localization of...
journal article 2015
document
Nieuwenhuizen, R.P.J. (author), Bates, M. (author), Szymborska, A. (author), Lidke, K.A. (author), Rieger, B. (author), Stallinga, S. (author)
Quantification in localization microscopy with reversibly switchable fluorophores is severely hampered by the unknown number of switching cycles a fluorophore undergoes and the unknown stoichiometry of fluorophores on a marker such as an antibody. We overcome this problem by measuring the average number of localizations per fluorophore, or...
journal article 2015
document
Voortman, L.M. (author), Stallinga, S. (author), Schoenmakers, R.H.M. (author), Van Vliet, L.J. (author), Rieger, B. (author)
Today, the resolution in phase-contrast cryo-electron tomography is for a significant part limited by the contrast transfer function (CTF) of the microscope. The CTF is a function of defocus and thus varies spatially as a result of the tilting of the specimen and the finite specimen thickness. Models that include spatial dependencies have not...
journal article 2011
document
Stallinga, S. (author), Rieger, B. (author)
The Gaussian function is simple and easy to implement as Point Spread Function (PSF) model for fitting the position of fluorescent emitters in localization microscopy. Despite its attractiveness the appropriateness of the Gaussian is questionable as it is not based on the laws of optics. Here we study the effect of emission dipole orientation in...
journal article 2010
document
Nieuwenhuizen, R.P.J. (author), Nahidiazar, L. (author), Manders, E.M.M. (author), Jalink, K. (author), Stallinga, S. (author), Rieger, B. (author)
Co-localization analysis is a widely used tool to seek evidence for functional interactions between molecules in different color channels in microscopic images. Here we extend the basic co-localization analysis by including the orientations of the structures on which the molecules reside. We refer to the combination of co-localization of...
journal article 2015
document
Broeken, J. (author), Rieger, B. (author), Stallinga, S. (author)
We propose a method for simultaneously measuring the position and emission color of single fluorescent emitters based on the use of a large pitch diffraction grating in the emission light path. The grating produces satellite spots adjacent to the main spot; the relative distance between the spots is a measure for the emission wavelength. We...
journal article 2014
document
Nieuwenhuizen, R.P.J. (author), Bates, M. (author), Szymborska, A. (author), Lidke, K.A. (author), Rieger, B. (author), Stallinga, S. (author)
journal article 2015
document
Stallinga, S. (author), Rieger, B. (author)
We introduce a method for determining the position and orientation of fixed dipole emitters based on a combination of polarimetry and spot shape detection. A key element is an effective Point Spread Function model based on Hermite functions. The model offers a good description of the shape variations with dipole orientation and polarization...
journal article 2012
document
Rieger, B. (author), Stallinga, S. (author)
Standard fluorescent light microscopy is rapidly approaching resolutions of a few nanometers when computationally combining information from hundreds of identical structures. We have developed algorithms to combine this information taking into account the specifics of fluorescent imaging.
journal article 2017
document
Heydarian, H. (author), Schueder, Florian (author), Strauss, Maximilian T. (author), van Werkhoven, Ben (author), Fazel, Mohamadreza (author), Lidke, K.A. (author), Jungmann, Ralf (author), Stallinga, S. (author), Rieger, B. (author)
Methods that fuse multiple localization microscopy images of a single structure can improve signal-to-noise ratio and resolution, but they generally suffer from template bias or sensitivity to registration errors. We present a template-free particle-fusion approach based on an all-to-all registration that provides robustness against...
journal article 2018
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