Molecular mapping in DNA-PAINT via modified Gaussian Mixture Modeling
Rafal Kowalewski, Susanne C. M. Reinhardt, Isabelle Pachmayr, Shuhan Xu, Luciano A. Masullo, Ralf Jungmann

TL;DR
A new algorithm called G5M improves DNA-PAINT imaging by accurately mapping molecular positions at high resolution.
Contribution
G5M introduces a modified Gaussian Mixture Modeling approach that outperforms existing methods in DNA-PAINT molecular mapping.
Findings
G5M achieves a 27-fold higher recovery rate at the Rayleigh limit in simulations.
G5M detects higher-order CD20 oligomers and nuclear pore complex structures in experiments.
G5M reduces false positives to less than 0.1% in molecular resolution imaging.
Abstract
Super-resolution fluorescence microscopy, and specifically DNA-PAINT, provides localization precision down to ~2 nm enabling molecular-resolution imaging. To produce molecular maps of single biomolecules, their positions must be inferred from localizations stemming from single fluorescent molecules. Current clustering methods fail to exploit the full potential of the imaging method. Here, we introduce G5M, a modified Gaussian Mixture Modeling algorithm tailored to DNA-PAINT data. By incorporating prior knowledge of localization precision, spatial constraints, and DNA hybridization kinetics, G5M accurately infers true molecular positions while avoiding overfitting. In realistic simulations of dimers, G5M resolves molecules at the Rayleigh limit with a 27-fold higher recovery rate than current methods and <0.1% false positives. Applied to experimental datasets, G5M recovers full nuclear…
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Taxonomy
TopicsAdvanced Fluorescence Microscopy Techniques · Cell Image Analysis Techniques · Single-cell and spatial transcriptomics
