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New Molecule Marker Enables ‘Unprecedented’ Study of Mitochondria

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NAGOYA, Japan, Oct. 23, 2019 — A team at Nagoya University’s Institute of Transformative Bio-Molecules has developed a marker molecule that bypasses the problem of photobleaching in STED microscopy. It’s allowing an unprecedented view of live mitochondria, which could help researchers better understand, diagnose, and potentially cure human mitochondrial disease. The new marker molecule — MitoPB Yellow — is absorbed by the inner membrane of mitochondria, which includes the cristae (fold-like structures), and has demonstrated a long lifetime under a STED beam. According to the researchers,...Read full article

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    Published: October 2019
    Glossary
    nanopositioning
    Nanopositioning refers to the precise and controlled movement or manipulation of objects or components at the nanometer scale. This technology enables the positioning of objects with extremely high accuracy and resolution, typically in the range of nanometers or even sub-nanometer levels. Nanopositioning systems are employed in various scientific, industrial, and research applications where ultra-precise positioning is required. Key features and aspects of nanopositioning include: Small...
    superresolution
    Superresolution refers to the enhancement or improvement of the spatial resolution beyond the conventional limits imposed by the diffraction of light. In the context of imaging, it is a set of techniques and algorithms that aim to achieve higher resolution images than what is traditionally possible using standard imaging systems. In conventional optical microscopy, the resolution is limited by the diffraction of light, a phenomenon described by Ernst Abbe's diffraction limit. This limit sets a...
    sted microscopy
    STED microscopy, or stimulated emission depletion microscopy, is a superresolution imaging technique in fluorescence microscopy that surpasses the diffraction limit, enabling the visualization of structures at the nanoscale level. This technique was developed to overcome the limitations imposed by the diffraction of light, which traditionally hindered the resolution of optical microscopy to a few hundred nanometers. Key features and principles of STED microscopy: Superresolution: STED...
    Research & TechnologyeducationAsia-PacificNagoya UniversityLight SourcesMicroscopyNanopositioningOpticsImagingsuperresolutionSTED microscopyfluorescence probemedicalBiophotonicslive cell imaging

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