Three-Dimensional Localization of an Individual Fluorescent Molecule with Angstrom Precision.
Taku FurubayashiKazuya MotohashiKeisuke WakaoTsuyoshi MatsudaIsao KiiTakamitsu HosoyaNobuhiro HayashiMahito SadaieFuyuki IshikawaMichio MatsushitaSatoru FujiyoshiPublished in: Journal of the American Chemical Society (2017)
Among imaging techniques, fluorescence microscopy is a unique method to noninvasively image individual molecules in whole cells. If the three-dimensional spatial precision is improved to the angstrom level, various molecular arrangements in the cell can be visualized on an individual basis. We have developed a cryogenic reflecting microscope with a numerical aperture of 0.99 and an imaging stability of 0.05 nm in standard deviation at a temperature of 1.8 K. The key optics to realize the cryogenic performances is the reflecting objective developed by our laboratory. With this cryogenic microscope, an individual fluorescent molecule (ATTO647N) at 1.8 K was localized with standard errors of 0.53 nm (x), 0.31 nm (y), and 0.90 nm (z) when 106 fluorescence photons from the molecule were accumulated in 5 min.
Keyphrases
- single molecule
- high resolution
- photodynamic therapy
- living cells
- quantum dots
- induced apoptosis
- label free
- single cell
- emergency department
- deep learning
- stem cells
- patient safety
- light emitting
- fluorescence imaging
- oxidative stress
- cell proliferation
- signaling pathway
- optical coherence tomography
- bone marrow
- quality improvement
- endoplasmic reticulum stress