File:Flux-Based-Transport-Enhancement-as-a-Plausible-Unifying-Mechanism-for-Auxin-Transport-in-Meristem-pcbi.1000207.s003.ogv
Flux-Based-Transport-Enhancement-as-a-Plausible-Unifying-Mechanism-for-Auxin-Transport-in-Meristem-pcbi.1000207.s003.ogv (Ogg Theora video file, length 10 s, 800 × 596 pixels, 161 kbps, file size: 198 KB)
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Summary
[edit]Movie presents the dynamics of Figure 2A . (0.31 MB AVI) i.e. Auxin canalization in a 1-dimensional cellular system.
Conditions: 20 linearly aligned cells. Boundary cells are acting as sinks; hence they evacuate or degrade auxin.
At the start of the simulation the cells do not contain auxin. Then the simulation runs until a stable state emerges. The blue and red lines correspond to PIN concentrations at the right and left side of the membranes respectively. The two systems differ only by the way auxin is removed: in (A) we assume that the removal in the sink cells is very efficient whereas in (B) the removal efficiency is limited. This difference leads us to two different stationary patterns in which the auxin gradients are opposite and the sink cells are minima of auxin (A) or maxima (B).
DescriptionFlux-Based-Transport-Enhancement-as-a-Plausible-Unifying-Mechanism-for-Auxin-Transport-in-Meristem-pcbi.1000207.s003.ogv |
English: Movie presents the dynamics of Figure 2B . (0.37 MB AVI)
i.e. Auxin canalization in a 1-dimensional cellular system. Conditions: 20 linearly aligned cells. Boundary cells are acting as sinks; hence they evacuate or degrade auxin. At the start of the simulation the cells do not contain auxin. Then the simulation runs until a stable state emerges. The blue and red lines correspond to PIN concentrations at the right and left side of the membranes respectively. The two systems differ only by the way auxin is removed: in (A) we assume that the removal in the sink cells is very efficient whereas here (Fig2B) the removal efficiency is limited. This difference leads us to two different stationary patterns in which the auxin gradients are opposite and the sink cells are minima of auxin (A) or maxima (B). |
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Date | |||
Source | Video S2 from Stoma S, Lucas M, Chopard J, Schaedel M, Traas J, Godin C. "Flux-Based Transport Enhancement as a Plausible Unifying Mechanism for Auxin Transport in Meristem Development". PLOS Computational Biology. DOI:10.1371/journal.pcbi.1000207. PMID 18974825. PMC: 2565506. | ||
Author | Stoma S, Lucas M, Chopard J, Schaedel M, Traas J, Godin C | ||
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Date/Time | Thumbnail | Dimensions | User | Comment | |
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current | 04:01, 26 September 2012 | 10 s, 800 × 596 (198 KB) | Open Access Media Importer Bot (talk | contribs) | Uploaded with the Open Access Media Importer. (test edit) botrequest |
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Short title | Video S2 |
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Author | Stoma S, Lucas M, Chopard J, Schaedel M, Traas J, Godin C, Papin J |
Usage terms | http://creativecommons.org/licenses/by/3.0/ |
Image title | Movie presents the dynamics of Figure 2B . (0.37 MB AVI) |
Software used | Xiph.Org libtheora 1.1 20090822 (Thusnelda) |
Date and time of digitizing | 2008-10-31 |