Spatially isotropic four-dimensional imaging with dual-view plane illumination microscopy

Spatially isotropic four-dimensional imaging with dual-view plane illumination microscopy Optimal four-dimensional imaging requires high spatial resolution in all dimensions, high speed and minimal photobleaching and damage. We developed a dual-view, plane illumination microscope with improved spatiotemporal resolution by switching illumination and detection between two perpendicular objectives in an alternating duty cycle. Computationally fusing the resulting volumetric views provides an isotropic resolution of 330 nm. As the sample is stationary and only two views are required, we achieve an imaging speed of 200 images/s (i.e., 0.5 s for a 50-plane volume). Unlike spinning-disk confocal or Bessel beam methods, which illuminate the sample outside the focal plane, we maintain high spatiotemporal resolution over hundreds of volumes with negligible photobleaching. To illustrate the ability of our method to study biological systems that require high-speed volumetric visualization and/or low photobleaching, we describe microtubule tracking in live cells, nuclear imaging over 14 h during nematode embryogenesis and imaging of neural wiring during Caenorhabditis elegans brain development over 5 h. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Nature Biotechnology Nature Publishing Group (NPG)

Spatially isotropic four-dimensional imaging with dual-view plane illumination microscopy

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Publisher
Nature Publishing Group (NPG)
Copyright
Copyright © 2013 Nature Publishing Group, a division of Macmillan Publishers Limited. All Rights Reserved.
ISSN
1087-0156
eISSN
1546-1696
D.O.I.
10.1038/nbt.2713
Publisher site
See Article on Publisher Site

Abstract

Optimal four-dimensional imaging requires high spatial resolution in all dimensions, high speed and minimal photobleaching and damage. We developed a dual-view, plane illumination microscope with improved spatiotemporal resolution by switching illumination and detection between two perpendicular objectives in an alternating duty cycle. Computationally fusing the resulting volumetric views provides an isotropic resolution of 330 nm. As the sample is stationary and only two views are required, we achieve an imaging speed of 200 images/s (i.e., 0.5 s for a 50-plane volume). Unlike spinning-disk confocal or Bessel beam methods, which illuminate the sample outside the focal plane, we maintain high spatiotemporal resolution over hundreds of volumes with negligible photobleaching. To illustrate the ability of our method to study biological systems that require high-speed volumetric visualization and/or low photobleaching, we describe microtubule tracking in live cells, nuclear imaging over 14 h during nematode embryogenesis and imaging of neural wiring during Caenorhabditis elegans brain development over 5 h.

Journal

Nature BiotechnologyNature Publishing Group (NPG)

Published: Oct 13, 2013

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