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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Autores principales: 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
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Publicado: Nature Portfolio 2021
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Acceso en línea:https://doaj.org/article/6ad498979d8b41b29e474f3f28d8f096
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spelling 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)
institution DOAJ
collection DOAJ
language EN
topic 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
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