Fast, long-term, super-resolution imaging with Hessian structured illumination microscopy

Huang, Xiaoshuai; Fan, Junchao; Li, Liuju; Liu, Haosen; Wu, Runlong; Wu, Yi; Wei, Lisi; Mao, Heng; Lal, Amit; Xi, Peng; Li-qiang, Tang; Zhang, Yunfeng; Liu, Yanmei; Tan, Shan; Chen, Liangyi

doi:10.1038/nbt.4115

Cited by 466 publications

(453 citation statements)

References 44 publications

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“…Highly mobile and dynamic in living cells, mitochondria are the energy‐generating organelles of cells, the disorder of which is associated with various diseases, including Alzheimer's, Parkinson's, and cancer . Recently developed super‐resolution fluorescence microscopies such as stimulated emission deletion (STED), structured illumination microscopy (SIM), and stochastic optical reconstruction microscopy (STORM), as well as other single‐molecule super‐resolution imaging techniques, are enhanced new tools for investigating the dynamics of subcellular structures, including mitochondria. At the same time, they have also added to the requirements of fluorescent dyes, which need especially low cytotoxicity and high photostability to make imaging living cells possible.…”

Section: Introductionmentioning

confidence: 99%

Super‐Resolution Tracking of Mitochondrial Dynamics with An Iridium(III) Luminophore

Chen

Jin

Shao

et al. 2018

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Combining luminescent transition metal complex with super‐resolution microscopy is an excellent strategy for the long‐term visualization of the dynamics of subcellular structures in living cells. However, it remains unclear whether iridium(III) complexes are applicable for a particular type of super‐resolution technique, structured illumination microscopy (SIM), to image subcellular structures. Herein, an iridium(III) dye, to track mitochondrial dynamics in living cells under SIM is described. The dye demonstrates excellent specificity and photostability and satisfactory cell permeability. While using SIM to image mitochondria, an ≈80 nm resolution is achieved that allows the clear observation of the structure of mitochondrial cristae. The dye is used to monitor and quantify mitochondrial dynamics relative to lysosomes, including fusion involved in mitophagy, and newly discovered mitochondria–lysosome contact (MLC) under different conditions. The MLC remains intact and fusion vanishes when five receptors, p62, NDP52, OPTN, NBR1, and TAX1BP1, are knocked out, suggesting that these two processes are independent.

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Section: Introductionmentioning

confidence: 99%

Super‐Resolution Tracking of Mitochondrial Dynamics with An Iridium(III) Luminophore

Chen

Jin

Shao

et al. 2018

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“…For example, Huang et al. () proposed a deconvolution algorithm—Hessian matrixes—to improve the temporal resolution of structured illumination microscopy, showing great potentials for analyzing food microstructure, microbial contamination, and small molecular residues.…”

Section: Challenges and Future Trendsmentioning

confidence: 99%

“…Many algorithms developed and used in analyzing medical images should be adopted for their applications in dealing with food-related spectral images (Litjens et al, 2017). For example, Huang et al (2018) proposed a deconvolution algorithm-Hessian matrixes-to improve the temporal resolution of structured illumination microscopy, showing great potentials for analyzing food microstructure, microbial contamination, and small molecular residues.…”

Section: Challenges and Future Trendsmentioning

confidence: 99%

Principles of Hyperspectral Microscope Imaging Techniques and Their Applications in Food Quality and Safety Detection: A Review

Sun

2019

Comp Rev Food Sci Food Safe

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Hyperspectral imaging (HSI) techniques play an important role in the food industry for providing rapid, nondestructive, and chemical‐free detection method, whereas a microscope can provide detailed information about the microstructure of a food item. As an emerging imaging spectroscopy technique, hyperspectral microscope imaging (HMI) technique combines the advantages of HSI with microscopic imaging and has been gradually applied in the food industry. This review introduces the principles of different kinds of HMI techniques, such as fluorescence HMI, visible/near‐infrared HMI, Raman HMI, and infrared HMI. Moreover, detailed applications of HMI techniques are summarized, including evaluation of structures of nutrients, and detection of microorganisms and residues. On the other hand, some challenges and future trends in the applications of these techniques are also discussed. It is concluded that by integrating HSI with microscopy, HMI can not only provide both spectral and spatial information about food substances but also provide their chemical information at the molecular or cellular level. Therefore, HMI techniques have great potentials in nondestructive evaluation of structures of nutrients, and detection of microorganisms and residues for the food industry.

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“…Careful attention to this mantra is especially important when performing livecell imaging (Cole, 2014). While fixed samples are less susceptible to photon damage, care still needs to be exercised to avoid photobleaching (Huang et al, 2018). More often than not, today's experiments will require some level of multiplexing.…”

Section: Imagingmentioning

confidence: 99%

Toxicology in the Super‐Resolution Era

Cole

2019

CP Toxicology

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Light microscopy has played a central role in science for the past couple of hundred years and will continue to do so. Multiple super‐resolution microscopy techniques have been in the headlines for smashing what for more than 100+ years was believed to be the limits of optical microscopy. This resolution improvement enables the visualization of molecular structures and processes on the nano scale. While certain scientific questions in toxicology can benefit from modalities within the super‐resolution suite, due diligence is required for efficiency and to achieve optimal results. For a given hypothesis being tested, there are biophysical issues that need to be considered before heading down the super‐resolution road. All commercially available super‐resolution modalities, along with cautions and tips, will be discussed. © 2019 by John Wiley & Sons, Inc.

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Fast, long-term, super-resolution imaging with Hessian structured illumination microscopy

Cited by 466 publications

References 44 publications

Super‐Resolution Tracking of Mitochondrial Dynamics with An Iridium(III) Luminophore

Super‐Resolution Tracking of Mitochondrial Dynamics with An Iridium(III) Luminophore

Principles of Hyperspectral Microscope Imaging Techniques and Their Applications in Food Quality and Safety Detection: A Review

Toxicology in the Super‐Resolution Era

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