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Enhancement of axial resolution in fluorescence microscopy by standing-wave excitation

Naturevolume 366pages4448 (1993) | Download Citation

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Abstract

THE use of fluorescence microscopy for investigating the three-dimensional structure of cells and tissue is of growing importance in cell biology, biophysics and biomedicine. Three-dimensional data are obtained by recording a series of images of the specimen as it is stepped through the focal plane of the microscope1–3. Whether by direct imaging or by confocal scanning4,5, diffraction effects and noise generally limit axial resolution to about 0.5 μm. Here we describe a fluorescence microscope in which axial resolution is increased to better than 0.05 μm by using the principle of standing-wave excitation of fluorescence. Standing waves formed by interference in laser illumination create an excitation field with closely spaced nodes and antinodes, allowing optical sectioning of the specimen at very high resolution. We use this technique to obtain images of actin fibres and filaments in fixed cells, actin single filaments in vitro and myosin II in a living cell.

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Author notes

  1. Frederick Lanni: To whom correspondence should be addressed.

Affiliations

  1. Center for Light Microscope Imaging and Biotechnology, and Departments of Biological Sciences and Physics, Carnegie Mellon University, 4400 Fifth Avenue, Pittsburgh, Pennsylvania, 15213, USA

    • Brent Bailey
    • , Daniel L. Farkas
    • , D. Lansing Taylor
    •  & Frederick Lanni

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https://doi.org/10.1038/366044a0

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