File:Trypanosome-Motion-Represents-an-Adaptation-to-the-Crowded-Environment-of-the-Vertebrate-Bloodstream-ppat.1003023.s005.ogv

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English: (A; B) High-speed fluorescence microscopic videos of surface-labeled trypanosomes. The flagellum can readily be traced in relation to the moving cell body, clearly revealing a rotational movement, as the flagellum periodically appears on one side of the body and disappears on the other side. (C) The trace of the fluorescently labeled cell shown in Fig. 3B is a projection view of this high-speed fluorescence data set. (D) Overlay of the time-lapse data and the projection view reveal rotational type of trypanosome motion. The diameter and the amplitude of the path are presented. (E) The relationship of the amplitude of the swimming path to the dimension of red blood cells is illustrated by the schematic illustration, in which the erythrocytes are drawn to scale. Note that the average distance of blood cells is below 5 µm.
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Source Video S4 from Heddergott N, Krüger T, Babu S, Wei A, Stellamanns E, Uppaluri S, Pfohl T, Stark H, Engstler M (2012). "Trypanosome Motion Represents an Adaptation to the Crowded Environment of the Vertebrate Bloodstream". PLOS Pathogens. DOI:10.1371/journal.ppat.1003023. PMID 23166495. PMC: 3499580.
Author Heddergott N, Krüger T, Babu S, Wei A, Stellamanns E, Uppaluri S, Pfohl T, Stark H, Engstler M
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current15:52, 3 December 201212 s, 1,728 × 1,080 (2.89 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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