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Single-frame deep-learning super-resolution microscopy for intracellular dynamics imaging

Rong Chen, Xiao Tang, Yuxuan Zhao, Zeyu Shen, Meng Zhang, Yusheng Shen, Tiantian Li, Casper H.Y. Chung, Li-Juan Zhang, Ji Wang, Binbin Cui, Peng Fei, Yusong Guo, Shengwang Du, Shuhuai Yao

2023Nature Communications105 citationsDOIOpen Access PDF

Abstract

Single-molecule localization microscopy (SMLM) can be used to resolve subcellular structures and achieve a tenfold improvement in spatial resolution compared to that obtained by conventional fluorescence microscopy. However, the separation of single-molecule fluorescence events that requires thousands of frames dramatically increases the image acquisition time and phototoxicity, impeding the observation of instantaneous intracellular dynamics. Here we develop a deep-learning based single-frame super-resolution microscopy (SFSRM) method which utilizes a subpixel edge map and a multicomponent optimization strategy to guide the neural network to reconstruct a super-resolution image from a single frame of a diffraction-limited image. Under a tolerable signal density and an affordable signal-to-noise ratio, SFSRM enables high-fidelity live-cell imaging with spatiotemporal resolutions of 30 nm and 10 ms, allowing for prolonged monitoring of subcellular dynamics such as interplays between mitochondria and endoplasmic reticulum, the vesicle transport along microtubules, and the endosome fusion and fission. Moreover, its adaptability to different microscopes and spectra makes it a useful tool for various imaging systems.

Topics & Concepts

MicroscopySuperresolutionDynamics (music)Frame (networking)Computer scienceSuper-resolution microscopyArtificial intelligenceResolution (logic)Deep learningComputer visionPhysicsOpticsImage (mathematics)Scanning confocal electron microscopyTelecommunicationsAcousticsAdvanced Fluorescence Microscopy TechniquesCell Image Analysis TechniquesOptical Coherence Tomography Applications
Single-frame deep-learning super-resolution microscopy for intracellular dynamics imaging | Litcius