File:Insulin-and-TOR-signal-in-parallel-through-FOXO-and-S6K-to-promote-epithelial-wound-healing-ncomms12972-s2.ogv

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Original file (Ogg Theora video file, length 31 s, 2,500 × 808 pixels, 3.53 Mbps, file size: 13.04 MB)

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English: Supplementary Movie 1 Epidermal wound closure and formation of actomyosin cable. (A) Multi-cell wound in the dorsal epidermis of Drosophila L3 larva expressing Src-GFP (green) and DsRed2-Nuc (red) to mark cell membranes and nuclei in the epidermis (e22c-Gal4, UAS-Src-GFP, UAS-DsRed2-Nuc/+). (B, C) Formation and contraction of an actomyosin cable during wound healing. DE-Cad-GFP marks the adherens junctions (green) and Sqh-mCherry MyoII (red; shown separately in C). Both markers were expressed under their endogenous promoters (endo:DE-Cad-GFP, endo:Sqh-mCherry). Each frame is a merge of 57 planes spaced 0.28 μm apart. Scale bars: 16 μm
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Source Video file from Kakanj P, Moussian B, Grönke S, Bustos V, Eming S, Partridge L, Leptin M (2016). "Insulin and TOR signal in parallel through FOXO and S6K to promote epithelial wound healing". Nature Communications. DOI:10.1038/ncomms12972. PMID 27713427. PMC: 5059774.
Author Kakanj P, Moussian B, Grönke S, Bustos V, Eming S, Partridge L, Leptin M
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Date/TimeThumbnailDimensionsUserComment
current17:39, 29 October 201631 s, 2,500 × 808 (13.04 MB)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 1080P 1.32 Mbps Completed 21:15, 29 August 2018 1 min 2 s
VP9 720P 576 kbps Completed 21:14, 29 August 2018 36 s
VP9 480P 291 kbps Completed 21:14, 29 August 2018 29 s
VP9 360P 148 kbps Completed 21:14, 29 August 2018 21 s
VP9 240P 83 kbps Completed 21:14, 29 August 2018 17 s
WebM 360P 503 kbps Completed 17:42, 29 October 2016 46 s
QuickTime 144p (MJPEG) 700 kbps Completed 00:28, 7 November 2024 2.0 s

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