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Abstract
Single-molecule localization microscopy resolves objects below the diffraction limit of light via sparse, stochastic detection of target molecules. Single molecules appear as clustered detection events after image reconstruction. However, identification of clusters of localizations is often complicated by the spatial proximity of target molecules and by background noise. Clustering results of existing algorithms often depend on user-generated training data or user-selected parameters, which can lead to unintentional clustering errors. Here we suggest an unbiased algorithm (FINDER) based on adaptive global parameter selection and demonstrate that the algorithm is robust to noise inclusion and target molecule density. We benchmarked FINDER against the most common density based clustering algorithms in test scenarios based on experimental datasets. We show that FINDER can keep the number of false positive inclusions low while also maintaining a low number of false negative detections in densely populated regions.
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Details
1 University of Bonn Medical Center, Institute of Experimental Epileptology and Cognition Research, Bonn, Germany (GRID:grid.15090.3d) (ISNI:0000 0000 8786 803X)
2 University of Bonn Medical Center, Institute of Experimental Epileptology and Cognition Research, Bonn, Germany (GRID:grid.15090.3d) (ISNI:0000 0000 8786 803X); Max Planck Institute for Brain Research, Theory of Neural Dynamics Group, Frankfurt, Germany (GRID:grid.419505.c) (ISNI:0000 0004 0491 3878)
3 Max Planck Institute for Brain Research, Department of Synaptic Plasticity, Frankfurt, Germany (GRID:grid.419505.c) (ISNI:0000 0004 0491 3878)
4 Goethe-University Frankfurt, Institute of Physical and Theoretical Chemistry, Frankfurt, Germany (GRID:grid.7839.5) (ISNI:0000 0004 1936 9721)
5 University of Bonn Medical Center, Institute of Experimental Epileptology and Cognition Research, Bonn, Germany (GRID:grid.15090.3d) (ISNI:0000 0000 8786 803X); University Medical Center of the Johannes Gutenberg-University Mainz, Institute for Physiological Chemistry, Mainz, Germany (GRID:grid.410607.4); Max Planck Institute for Brain Research, Theory of Neural Dynamics Group, Frankfurt, Germany (GRID:grid.419505.c) (ISNI:0000 0004 0491 3878)