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Showing 1–9 of 9 results
Advanced filters: Author: Stefan Stoldt Clear advanced filters

  • Stoldt, Maass, and colleagues present a study where smFISH is combined with STED and MINFLUX microscopy to map mitochondrial mRNA at nanometre resolution, enabling the exploration of the structural folding and distribution of mRNAs within mitochondria.

    • Stefan Stoldt
    • Frederike Maass
    • Stefan Jakobs
    ResearchOpen Access
    Nature Communications
    Volume: 16, P: 1-11

  • Using super-resolution microscopy and cryo-electron microscopy, Stoldt et al. show that mitochondrial transcript translation and OXPHOS complex assembly are spatially partitioned within the mitochondrial membrane.

    • Stefan Stoldt
    • Dirk Wenzel
    • Stefan Jakobs
    Research
    Nature Cell Biology
    Volume: 20, P: 528-534

  • A stimulated-emission-depletion-based fluorescence localization and super-resolution microscopy concept that is capable of attaining a spatial resolution down at the size scale of the fluorophores themselves and a localization precision of 1–3 nm in standard deviation is reported.

    • Michael Weber
    • Marcel Leutenegger
    • Stefan W. Hell
    ResearchOpen Access
    Nature Photonics
    Volume: 15, P: 361-366

  • Stimulated emission depletion (STED) microscopy allows images to be captured at a subdiffraction resolution. Here optimal transport colocalization is proposed for analyzing macromolecule distributions in high-resolution STED images.

    • Carla Tameling
    • Stefan Stoldt
    • Axel Munk
    Research
    Nature Computational Science
    Volume: 1, P: 199-211

  • The TOM and TIM23 complexes facilitate the transport of nuclear-encoded proteins into the mitochondrial matrix. Here, the authors use a stalled client protein to purify the translocation supercomplex and gain insight into the TOM-TIM23 interface and the mechanism of protein handover from the TOM to the TIM23 complex.

    • Ridhima Gomkale
    • Andreas Linden
    • Peter Rehling
    ResearchOpen Access
    Nature Communications
    Volume: 12, P: 1-17

  • A fluorescence microscope relying entirely on focused light allows the generation of spherical focal fluorescence spots much smaller than the wavelength of light. This development, termed isoSTED, overcomes the resolution limitation imposed by the diffraction of light and permits three-dimensional nanoscale imaging inside cells with common fluorophores.

    • Roman Schmidt
    • Christian A Wurm
    • Stefan W Hell
    Research
    Nature Methods
    Volume: 5, P: 539-544