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File:Deep-and-high-resolution-three-dimensional-tracking-of-single-particles-using-nonlinear-and-ncomms8874-s6.ogv

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English: Supplementary Movie 5 Movie of main text Fig 4. An EGFR trajectory measured in an A431 Spheroid model at a depth of 50 μm within the spheroid. A ±5 μm slice at depth 50 μm was 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 350 seconds, movie playback rate is 15 times. The trajectory starts on the plasma membrane and a high speed (~2 μm s-1) directed motion is observed ~250 seconds into the trajectory. The total displacement during internalization is 1 μm. Trajectory is rainbow colored with blue denoting the beginning.
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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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Format Bitrate Download Status Encode time
VP9 720P 1.27 Mbps Completed 18:52, 23 August 2018 1 min 58 s
Streaming 720p (VP9) 1.27 Mbps Completed 23:51, 12 March 2024 1.0 s
VP9 480P 473 kbps Completed 18:51, 23 August 2018 50 s
Streaming 480p (VP9) 474 kbps Completed 06:07, 31 January 2024 2.0 s
VP9 360P 233 kbps Completed 18:50, 23 August 2018 34 s
Streaming 360p (VP9) 234 kbps Completed 09:02, 6 February 2024 1.0 s
VP9 240P 121 kbps Completed 18:50, 23 August 2018 26 s
Streaming 240p (VP9) 121 kbps Completed 15:11, 16 December 2023 0.0 s
WebM 360P 507 kbps Completed 13:20, 31 October 2016 45 s
Streaming 144p (MJPEG) 901 kbps Completed 02:38, 3 November 2023 2.0 s

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