File:Glioblastoma-A-Pathogenic-Crosstalk-between-Tumor-Cells-and-Pericytes-pone.0101402.s012.ogv
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Glioblastoma-A-Pathogenic-Crosstalk-between-Tumor-Cells-and-Pericytes-pone.0101402.s012.ogv (Ogg Theora video file, length 16 s, 542 × 290 pixels, 271 kbps, file size: 521 KB)
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[edit]DescriptionGlioblastoma-A-Pathogenic-Crosstalk-between-Tumor-Cells-and-Pericytes-pone.0101402.s012.ogv |
English: Flectopodia mediate large-scale vessel re-arrangement. 4D-reconstruction of a two-photon video, showing GFP-actin U373 cell-flectopodia (green) with beaded actin (white arrows) inducing a vessel re-arrangement (red, DiI; white arrowheads, bent vascular structures). GFP-actin transfected cells are also labeled with CMTMR (red). Another GFP-actin-cell (yellow arrow) co-operates in translocating modified vessel segments. Yellow arrowheads, actin beads in the initial cytoplasmic bridge (initial blue arrows); red arrows, fusion of the first cell-flectopodia; magenta arrow, coalescence between the pre-existing flectopodia and the leading edge of the second cell; final blue arrows, cytoplasmic bridge with reverse flow of actin beads after merging of the two cell extensions. Δtime: 6 minutes; time, 6 hours and 18 min; rate: 4 fps (frames per second). |
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Source | Movie S1 from Caspani E, Crossley P, Redondo-Garcia C, Martinez S (2014). "Glioblastoma: A Pathogenic Crosstalk between Tumor Cells and Pericytes". PLOS ONE. DOI:10.1371/journal.pone.0101402. PMID 25032689. PMC: 4102477. | ||
Author | Caspani E, Crossley P, Redondo-Garcia C, Martinez S | ||
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This file is licensed under the Creative Commons Attribution 4.0 International license.
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Date/Time | Thumbnail | Dimensions | User | Comment | |
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current | 01:36, 24 July 2014 | 16 s, 542 × 290 (521 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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Author | Caspani E, Crossley P, Redondo-Garcia C, Martinez S |
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Usage terms | http://creativecommons.org/licenses/by/4.0/ |
Image title | Flectopodia mediate large-scale vessel re-arrangement. 4D-reconstruction of a two-photon video, showing GFP-actin U373 cell-flectopodia (green) with beaded actin (white arrows) inducing a vessel re-arrangement (red, DiI; white arrowheads, bent vascular structures). GFP-actin transfected cells are also labeled with CMTMR (red). Another GFP-actin-cell (yellow arrow) co-operates in translocating modified vessel segments. Yellow arrowheads, actin beads in the initial cytoplasmic bridge (initial blue arrows); red arrows, fusion of the first cell-flectopodia; magenta arrow, coalescence between the pre-existing flectopodia and the leading edge of the second cell; final blue arrows, cytoplasmic bridge with reverse flow of actin beads after merging of the two cell extensions. Δtime: 6 minutes; time, 6 hours and 18 min; rate: 4 fps (frames per second). |
Software used | Xiph.Org libtheora 1.1 20090822 (Thusnelda) |
Date and time of digitizing | 2014 |