Ultra-alta resolução de imagens em 3D de células inteiras

quarta-feira, agosto 17, 2016

Ultra-High Resolution 3D Imaging of Whole Cells

Fang Huang 14, George Sirinakis 14, Edward S. Allgeyer, Lena K. Schroeder, Whitney C. Duim, Emil B. Kromann, Thomy Phan, Felix E. Rivera-Molina, Jordan R. Myers, Irnov Irnov, Mark Lessard, Yongdeng Zhang, Mary Ann Handel, Christine Jacobs-Wagner, C. Patrick Lusk, James E. Rothman, Derek Toomre, Martin J. Booth, Joerg Bewersdorf

14Co-first author

Open Access


Open access funded by Wellcome Trust



Highlights

• Whole-cell 4Pi single-molecule switching nanoscopy allows 10- to 20-nm 3D resolution

• Refined hardware and new data analysis allow imaging of cells as thick as ∼10 μm

• Using structure-averaging, the 3D shape of a bacteriophage can be resolved

• Wide applicability across diverse research fields is demonstrated

Summary

Fluorescence nanoscopy, or super-resolution microscopy, has become an important tool in cell biological research. However, because of its usually inferior resolution in the depth direction (50–80 nm) and rapidly deteriorating resolution in thick samples, its practical biological application has been effectively limited to two dimensions and thin samples. Here, we present the development of whole-cell 4Pi single-molecule switching nanoscopy (W-4PiSMSN), an optical nanoscope that allows imaging of three-dimensional (3D) structures at 10- to 20-nm resolution throughout entire mammalian cells. We demonstrate the wide applicability of W-4PiSMSN across diverse research fields by imaging complex molecular architectures ranging from bacteriophages to nuclear pores, cilia, and synaptonemal complexes in large 3D cellular volumes.

Received: February 29, 2016; Received in revised form: May 2, 2016; Accepted: June 3, 2016; Published: July 7, 2016

© 2016 The Authors. Published by Elsevier Inc.

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