File:3D-Quantitative-Imaging-of-Unprocessed-Live-Tissue-Reveals-Epithelial-Defense-against-Bacterial-pone.0024008.s009.ogv

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3D-Quantitative-Imaging-of-Unprocessed-Live-Tissue-Reveals-Epithelial-Defense-against-Bacterial-pone.0024008.s009.ogv (Ogg Theora video file, length 12 s, 512 × 492 pixels, 441 kbps, file size: 658 KB)

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English: The reflection method was used to enable visualization of both live and dead cells (red), while the autofluorescence method showed only live cells (detects cytoplasmic NAD(P)H of actively metabolizing cells) (magenta). The two channels were superimposed (fuchsia) to confirm that penetrated bacteria (green) in tissue-paper blotted MyD88 (−/−) mouse corneas were actually overlaid with cells, and that some overlying cells remained viable. Note the large number of bacteria at the interface between the epithelium and the stroma (appears red) at the level of the basal lamina barrier.
Date
Source Video S9 from Tam C, LeDue J, Mun J, Herzmark P, Robey E, Evans D, Fleiszig S (2011). "3D Quantitative Imaging of Unprocessed Live Tissue Reveals Epithelial Defense against Bacterial Adhesion and Subsequent Traversal Requires MyD88". PLOS ONE. DOI:10.1371/journal.pone.0024008. PMID 21901151. PMC: 3162028.
Author Tam C, LeDue J, Mun J, Herzmark P, Robey E, Evans D, Fleiszig S
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This file was published in a Public Library of Science journal. Their website states that the content of all PLOS journals is published under the Creative Commons Attribution 4.0 license (or its previous version depending on the publication date), unless indicated otherwise.
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Date/TimeThumbnailDimensionsUserComment
current23:03, 29 May 201312 s, 512 × 492 (658 KB)Open Access Media Importer Bot (talk | contribs)Automatically uploaded media file from Open Access source. Please report problems or suggestions here.

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Format Bitrate Download Status Encode time
VP9 480P 196 kbps Completed 17:08, 11 August 2018 8.0 s
VP9 360P 107 kbps Completed 17:08, 11 August 2018 7.0 s
VP9 240P 60 kbps Completed 17:08, 11 August 2018 5.0 s
WebM 360P 482 kbps Completed 23:04, 29 May 2013 11 s
QuickTime 144p (MJPEG) 528 kbps Completed 09:15, 9 October 2024 1.0 s

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