File:Deep-and-high-resolution-three-dimensional-tracking-of-single-particles-using-nonlinear-and-ncomms8874-s7.ogv

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English: Supplementary Movie 6 Movie of Supplementary Fig. 14. An EGFR trajectory measured in an A431 Spheroid model at a depth of 90 μm within the spheroid. This trajectory demonstrates slow transport modes and interaction with the nucleus. A ±5 μm slice taken with LSM, the spheroid outer plasma membrane is displayed in red iso-surface form while the nuclei are displayed as blue iso-surfaces. The total image size is 51×51 μm2. A single EGF molecule is tracked for 600 seconds, movie playback rate is 25 times. The trajectory starts on or near the plasma membrane and has most likely already been internalized. Over the course of 10 minutes the molecule moves slowly (~0.17 μm s-1) towards a nucleus with total displacement of 3.5 μm. The trajectory appears to follow the contour of the nuclear iso-surface image.
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Source Video file from Perillo E, Liu Y, Huynh K, Liu C, Chou C, Hung M, Yeh H, Dunn A (2015). "Deep and high-resolution three-dimensional tracking of single particles using nonlinear and multiplexed illumination". Nature Communications. DOI:10.1038/ncomms8874. PMID 26219252. PMC: 4532916.
Author Perillo E, Liu Y, Huynh K, Liu C, Chou C, Hung M, Yeh H, Dunn A
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current13:23, 31 October 201645 s, 1,024 × 768 (36.76 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 720P 2.09 Mbps Completed 18:52, 23 August 2018 2 min 21 s
VP9 480P 873 kbps Completed 18:51, 23 August 2018 1 min 15 s
VP9 360P 403 kbps Completed 18:51, 23 August 2018 45 s
VP9 240P 203 kbps Completed 18:51, 23 August 2018 34 s
WebM 360P 503 kbps Completed 13:24, 31 October 2016 55 s
QuickTime 144p (MJPEG) 998 kbps Completed 01:09, 22 October 2024 2.0 s

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