File:Protrusive-Push-versus-Enveloping-Embrace-Computational-Model-of-Phagocytosis-Predicts-Key-pcbi.1001068.s001.ogv

Summary

Description
English: Finite-element computer simulation of phagocytosis of a zymosan particle by a human neutrophil. The zymosan particle is modeled as a rigid sphere (diameter of 3.2 µm, shown in orange). The coloring of the cell interior (legend shown at the left) reflects the relative density of the cytoskeletal actin network. The counter at the upper right gives the elapsed time in seconds.
Date
Source Video S1 from Herant M, Lee C, Dembo M, Heinrich V (2011). "Protrusive Push versus Enveloping Embrace: Computational Model of Phagocytosis Predicts Key Regulatory Role of Cytoskeletal Membrane Anchors". PLOS Computational Biology. DOI:10.1371/journal.pcbi.1001068. PMID 21298079. PMC: 3029235.
Author Herant M, Lee C, Dembo M, Heinrich V
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Category:CC-BY-2.5#Protrusive-Push-versus-Enveloping-Embrace-Computational-Model-of-Phagocytosis-Predicts-Key-pcbi.1001068.s001.ogv
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Category:Immune response Category:Innate immunity Category:Interdisciplinary physics Category:Computer simulations Category:Intracellular membranes Category:Media from PLOS Computational Biology Category:Uploaded with Open Access Media Importer Category:Videos from open-access scholarly articles Category:Uploaded with Open Access Media Importer and needing category review Category:Ogv videos Category:Video display resolution 540 x 360
Category:CC-BY-2.5 Category:Computer simulations Category:Immune response Category:Innate immunity Category:Interdisciplinary physics Category:Intracellular membranes Category:Media from PLOS Computational Biology Category:Ogv videos Category:Uploaded with Open Access Media Importer Category:Uploaded with Open Access Media Importer and needing category review Category:Video display resolution 540 x 360 Category:Videos from open-access scholarly articles