A petascale automated imaging pipeline for mapping neuronal circuits with high-throughput transmission electron microscopy
Electron microscopy (EM) is the gold standard for biological ultrastructure but acquisition speed is slow, making it unsuitable for large volumes. Here the authors present a parallel imaging pipeline for continuous autonomous imaging with six transmission EMs to image 1 mm3 of mouse cortex in less t...
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Nature Portfolio
2020
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oai:doaj.org-article:1636c301c307427c8f6136be5b12c53a2021-12-02T18:51:23ZA petascale automated imaging pipeline for mapping neuronal circuits with high-throughput transmission electron microscopy10.1038/s41467-020-18659-32041-1723https://doaj.org/article/1636c301c307427c8f6136be5b12c53a2020-10-01T00:00:00Zhttps://doi.org/10.1038/s41467-020-18659-3https://doaj.org/toc/2041-1723Electron microscopy (EM) is the gold standard for biological ultrastructure but acquisition speed is slow, making it unsuitable for large volumes. Here the authors present a parallel imaging pipeline for continuous autonomous imaging with six transmission EMs to image 1 mm3 of mouse cortex in less than 6 months.Wenjing YinDerrick BrittainJay BorsethMarie E. ScottDerric WilliamsJedediah PerkinsChristopher S. OwnMatthew MurfittRussel M. TorresDaniel KapnerGayathri MahalingamAdam BleckertDaniel CastelliDavid ReidWei-Chung Allen LeeBrett J. GrahamMarc TakenoDaniel J. BumbargerColin FarrellR. Clay ReidNuno Macarico da CostaNature PortfolioarticleScienceQENNature Communications, Vol 11, Iss 1, Pp 1-12 (2020) |
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Science Q Wenjing Yin Derrick Brittain Jay Borseth Marie E. Scott Derric Williams Jedediah Perkins Christopher S. Own Matthew Murfitt Russel M. Torres Daniel Kapner Gayathri Mahalingam Adam Bleckert Daniel Castelli David Reid Wei-Chung Allen Lee Brett J. Graham Marc Takeno Daniel J. Bumbarger Colin Farrell R. Clay Reid Nuno Macarico da Costa A petascale automated imaging pipeline for mapping neuronal circuits with high-throughput transmission electron microscopy |
description |
Electron microscopy (EM) is the gold standard for biological ultrastructure but acquisition speed is slow, making it unsuitable for large volumes. Here the authors present a parallel imaging pipeline for continuous autonomous imaging with six transmission EMs to image 1 mm3 of mouse cortex in less than 6 months. |
format |
article |
author |
Wenjing Yin Derrick Brittain Jay Borseth Marie E. Scott Derric Williams Jedediah Perkins Christopher S. Own Matthew Murfitt Russel M. Torres Daniel Kapner Gayathri Mahalingam Adam Bleckert Daniel Castelli David Reid Wei-Chung Allen Lee Brett J. Graham Marc Takeno Daniel J. Bumbarger Colin Farrell R. Clay Reid Nuno Macarico da Costa |
author_facet |
Wenjing Yin Derrick Brittain Jay Borseth Marie E. Scott Derric Williams Jedediah Perkins Christopher S. Own Matthew Murfitt Russel M. Torres Daniel Kapner Gayathri Mahalingam Adam Bleckert Daniel Castelli David Reid Wei-Chung Allen Lee Brett J. Graham Marc Takeno Daniel J. Bumbarger Colin Farrell R. Clay Reid Nuno Macarico da Costa |
author_sort |
Wenjing Yin |
title |
A petascale automated imaging pipeline for mapping neuronal circuits with high-throughput transmission electron microscopy |
title_short |
A petascale automated imaging pipeline for mapping neuronal circuits with high-throughput transmission electron microscopy |
title_full |
A petascale automated imaging pipeline for mapping neuronal circuits with high-throughput transmission electron microscopy |
title_fullStr |
A petascale automated imaging pipeline for mapping neuronal circuits with high-throughput transmission electron microscopy |
title_full_unstemmed |
A petascale automated imaging pipeline for mapping neuronal circuits with high-throughput transmission electron microscopy |
title_sort |
petascale automated imaging pipeline for mapping neuronal circuits with high-throughput transmission electron microscopy |
publisher |
Nature Portfolio |
publishDate |
2020 |
url |
https://doaj.org/article/1636c301c307427c8f6136be5b12c53a |
work_keys_str_mv |
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