The double-helix microscope super-resolves extended biological structures by localizing single blinking molecules in three dimensions with nanoscale precision.
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ABSTRACT: The double-helix point spread function microscope encodes the axial (z) position information of single emitters in wide-field (x,y) images, thus enabling localization in three dimensions (3D) inside extended volumes. We experimentally determine the statistical localization precision σ of this approach using single emitters in a cell under typical background conditions, demonstrating σ < 20 nm laterally and <30 nm axially for N ≈ 1180 photons per localization. Combined with light-induced blinking of single-molecule labels, we present proof-of-concept imaging beyond the optical diffraction limit of microtubule network structures in fixed mammalian cells over a large axial range in three dimensions.
SUBMITTER: Lee HL
PROVIDER: S-EPMC3338582 | biostudies-other | 2012 Apr
REPOSITORIES: biostudies-other
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