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ISBI
2008
IEEE
2008
IEEE
Improving single particle localization with an empirically calibrated Gaussian kernel
Accurate computational localization of single fluorescent particles is of interest to many biophysical studies and underlies recent approaches to high resolution microscopy using photoswitchable fluorophores. The position of individual particles is typically computed by least-squares fitting of a gaussian intensity profile to the image, whose band-width is either derived from an idealized theoretical model of the point spread function (PSF), or itself fitted to the image. However, the band-width best approximating the actual PSF may differ significantly from its theoretical value, while fitting it is expected to degrade localization accuracy. Here, instead, we measure the real PSF bandwidth using fluorescent beads as calibration probes, and use this new bandwidth in a Gaussian model fitting algorithm. We show on simulated and real images that this simple modification of the standard localization procedure results in significant improvement of the 3D accuracy in the nanometer range.
Real-time Traffic| Added | 20 Nov 2009 |
| Updated | 20 Nov 2009 |
| Type | Conference |
| Year | 2008 |
| Where | ISBI |
| Authors | Marcio de Moraes Marim, Bo Zhang, Jean-Christophe Olivo-Marin, Christophe Zimmer |
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