Three-dimensional total-internal reflection fluorescence nanoscopy with nanometric axial resolution by photometric localization of single molecules
Achieving high axial resolution is challenging in single-molecule localization microscopy. Here, the authors present a photometric method to decode the axial position of single molecules in a total internal reflection fluorescence microscope without hardware modification, and show nearly isotropic n...
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Nature Portfolio
2021
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oai:doaj.org-article:6ad498979d8b41b29e474f3f28d8f0962021-12-02T14:19:18ZThree-dimensional total-internal reflection fluorescence nanoscopy with nanometric axial resolution by photometric localization of single molecules10.1038/s41467-020-20863-02041-1723https://doaj.org/article/6ad498979d8b41b29e474f3f28d8f0962021-01-01T00:00:00Zhttps://doi.org/10.1038/s41467-020-20863-0https://doaj.org/toc/2041-1723Achieving high axial resolution is challenging in single-molecule localization microscopy. Here, the authors present a photometric method to decode the axial position of single molecules in a total internal reflection fluorescence microscope without hardware modification, and show nearly isotropic nanometric resolution.Alan M. SzalaiBruno SiarryJerónimo LukinDavid J. WilliamsonNicolás UnsainAlfredo CáceresMauricio Pilo-PaisGuillermo AcunaDamián RefojoDylan M. OwenSabrina SimoncelliFernando D. StefaniNature PortfolioarticleScienceQENNature Communications, Vol 12, Iss 1, Pp 1-13 (2021) |
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EN |
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Science Q |
spellingShingle |
Science Q Alan M. Szalai Bruno Siarry Jerónimo Lukin David J. Williamson Nicolás Unsain Alfredo Cáceres Mauricio Pilo-Pais Guillermo Acuna Damián Refojo Dylan M. Owen Sabrina Simoncelli Fernando D. Stefani Three-dimensional total-internal reflection fluorescence nanoscopy with nanometric axial resolution by photometric localization of single molecules |
description |
Achieving high axial resolution is challenging in single-molecule localization microscopy. Here, the authors present a photometric method to decode the axial position of single molecules in a total internal reflection fluorescence microscope without hardware modification, and show nearly isotropic nanometric resolution. |
format |
article |
author |
Alan M. Szalai Bruno Siarry Jerónimo Lukin David J. Williamson Nicolás Unsain Alfredo Cáceres Mauricio Pilo-Pais Guillermo Acuna Damián Refojo Dylan M. Owen Sabrina Simoncelli Fernando D. Stefani |
author_facet |
Alan M. Szalai Bruno Siarry Jerónimo Lukin David J. Williamson Nicolás Unsain Alfredo Cáceres Mauricio Pilo-Pais Guillermo Acuna Damián Refojo Dylan M. Owen Sabrina Simoncelli Fernando D. Stefani |
author_sort |
Alan M. Szalai |
title |
Three-dimensional total-internal reflection fluorescence nanoscopy with nanometric axial resolution by photometric localization of single molecules |
title_short |
Three-dimensional total-internal reflection fluorescence nanoscopy with nanometric axial resolution by photometric localization of single molecules |
title_full |
Three-dimensional total-internal reflection fluorescence nanoscopy with nanometric axial resolution by photometric localization of single molecules |
title_fullStr |
Three-dimensional total-internal reflection fluorescence nanoscopy with nanometric axial resolution by photometric localization of single molecules |
title_full_unstemmed |
Three-dimensional total-internal reflection fluorescence nanoscopy with nanometric axial resolution by photometric localization of single molecules |
title_sort |
three-dimensional total-internal reflection fluorescence nanoscopy with nanometric axial resolution by photometric localization of single molecules |
publisher |
Nature Portfolio |
publishDate |
2021 |
url |
https://doaj.org/article/6ad498979d8b41b29e474f3f28d8f096 |
work_keys_str_mv |
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