Litcius/Paper detail

Minimizing Molecular Misidentification in Imaging Low-Abundance Protein Interactions Using Spectroscopic Single-Molecule Localization Microscopy

Yang Zhang, Gaoxiang Wang, Peizhou Huang, Edison Sun, Junghun Kweon, Qianru Li, Zhe Ji, Leslie Ying, Hao F. Zhang

2022Analytical Chemistry11 citationsDOIOpen Access PDF

Abstract

Super-resolution microscopy can capture spatiotemporal organizations of protein interactions with resolution down to 10 nm; however, the analyses of more than two proteins involving low-abundance protein are challenging because spectral crosstalk and heterogeneities of individual fluorescent labels result in molecular misidentification. Here we developed a deep learning-based imaging analysis method for spectroscopic single-molecule localization microscopy to minimize molecular misidentification in three-color super-resolution imaging. We characterized the 3-fold reduction of molecular misidentification in the new imaging method using pure samples of different photoswitchable fluorophores and visualized three distinct subcellular proteins in U2-OS cell lines. We further validated the protein counts and interactions of TOMM20, DRP1, and SUMO1 in a well-studied biological process, Staurosporine-induced apoptosis, by comparing the imaging results with Western-blot analyses of different subcellular portions.

Topics & Concepts

ChemistryMicroscopyBiophysicsFluorescence microscopeResolution (logic)Molecular imagingWestern blotCrosstalkSuper-resolution microscopyStaurosporineFluorescenceBiochemistryOpticsArtificial intelligenceEnzymePhysicsBiologyIn vivoComputer scienceGeneBiotechnologyProtein kinase CAdvanced Fluorescence Microscopy TechniquesAdvanced Electron Microscopy Techniques and ApplicationsCell Image Analysis Techniques