Category:Model Protista
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Protista as model organisms
Media in category "Model Protista"
The following 115 files are in this category, out of 115 total.
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Cell-Fate-Regulation-Governed-by-a-Repurposed-Bacterial-Histidine-Kinase-pbio.1001979.s019.ogv 11 s, 640 × 480; 2.3 MB
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Cell-Fate-Regulation-Governed-by-a-Repurposed-Bacterial-Histidine-Kinase-pbio.1001979.s020.ogv 5.3 s, 640 × 480; 892 KB
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Dynamic-Organization-of-SecA-and-SecY-Secretion-Complexes-in-the-B.-subtilis-Membrane-pone.0157899.s010.ogv 1 min 59 s, 120 × 17; 1.08 MB
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Efficient-Multiple-Object-Tracking-Using-Mutually-Repulsive-Active-Membranes-pone.0065769.s001.ogv 13 min 28 s, 256 × 256; 14.06 MB
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Efficient-Multiple-Object-Tracking-Using-Mutually-Repulsive-Active-Membranes-pone.0065769.s002.ogv 3 min 54 s, 400 × 400; 19.06 MB
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Efficient-Multiple-Object-Tracking-Using-Mutually-Repulsive-Active-Membranes-pone.0065769.s003.ogv 27 s, 512 × 512; 35.32 MB
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Efficient-Multiple-Object-Tracking-Using-Mutually-Repulsive-Active-Membranes-pone.0065769.s004.ogv 27 s, 512 × 512; 2.48 MB
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Filament-Depolymerization-Can-Explain-Chromosome-Pulling-during-Bacterial-Mitosis-pcbi.1002145.s009.ogv 54 s, 1,036 × 690; 20.84 MB
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Filament-Depolymerization-Can-Explain-Chromosome-Pulling-during-Bacterial-Mitosis-pcbi.1002145.s010.ogv 22 s, 1,036 × 690; 10.5 MB
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Filament-Depolymerization-Can-Explain-Chromosome-Pulling-during-Bacterial-Mitosis-pcbi.1002145.s011.ogv 32 s, 1,036 × 690; 11.71 MB
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Genetic-Analysis-of-Collective-Motility-of-Paenibacillus-sp.-NAIST15-1-pgen.1006387.s014.ogv 20 s, 640 × 480; 472 KB
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Heritable-Change-Caused-by-Transient-Transcription-Errors-pgen.1003595.s007.ogv 18 s, 960 × 370; 665 KB
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High-Speed-Imaging-of-Amoeboid-Movements-Using-Light-Sheet-Microscopy-pone.0050846.s003.ogv 3.0 s, 600 × 400; 346 KB
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High-Speed-Imaging-of-Amoeboid-Movements-Using-Light-Sheet-Microscopy-pone.0050846.s004.ogv 6.0 s, 336 × 256; 833 KB
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High-Speed-Imaging-of-Amoeboid-Movements-Using-Light-Sheet-Microscopy-pone.0050846.s005.ogv 5.2 s, 384 × 288; 352 KB
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High-Speed-Imaging-of-Amoeboid-Movements-Using-Light-Sheet-Microscopy-pone.0050846.s006.ogv 2.9 s, 336 × 256; 591 KB
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High-Speed-Imaging-of-Amoeboid-Movements-Using-Light-Sheet-Microscopy-pone.0050846.s007.ogv 4.3 s, 336 × 256; 1.21 MB
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High-Speed-Imaging-of-Amoeboid-Movements-Using-Light-Sheet-Microscopy-pone.0050846.s008.ogv 12 s, 800 × 600; 1.19 MB
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Impact-of-Microscopic-Motility-on-the-Swimming-Behavior-of-Parasites-Straighter-Trypanosomes-are-pcbi.1002058.s003.ogv 1 min 20 s, 320 × 240; 3.78 MB
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Impact-of-Microscopic-Motility-on-the-Swimming-Behavior-of-Parasites-Straighter-Trypanosomes-are-pcbi.1002058.s004.ogv 1 min 40 s, 320 × 240; 2.54 MB
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Impact-of-Microscopic-Motility-on-the-Swimming-Behavior-of-Parasites-Straighter-Trypanosomes-are-pcbi.1002058.s005.ogv 1 min 40 s, 160 × 120; 521 KB
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Innate-Non-Specific-Cell-Substratum-Adhesion-pone.0042033.s001.ogv 14 s, 550 × 406; 1.44 MB
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Innate-Non-Specific-Cell-Substratum-Adhesion-pone.0042033.s002.ogv 12 s, 484 × 356; 1.26 MB
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Low-Cost-3D-Printers-Enable-High-Quality-and-Automated-Sample-Preparation-and-Molecular-Detection-pone.0158502.s006.ogv 1 min 35 s, 1,920 × 1,080; 28.95 MB
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Modeling-E.-coli-Tumbles-by-Rotational-Diffusion.-Implications-for-Chemotaxis-pone.0035412.s001.ogv 8.8 s, 272 × 236; 738 KB
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Myxococcus-xanthus-Gliding-Motors-Are-Elastically-Coupled-to-the-Substrate-as-Predicted-by-the-pcbi.1003619.s009.ogv 5.1 s, 1,000 × 1,000; 617 KB
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Myxococcus-xanthus-Gliding-Motors-Are-Elastically-Coupled-to-the-Substrate-as-Predicted-by-the-pcbi.1003619.s010.ogv 5.1 s, 1,000 × 1,000; 318 KB
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Prey-Capture-and-Phagocytosis-in-the-Choanoflagellate-Salpingoeca-rosetta-pone.0095577.s003.ogv 46 s, 320 × 608; 7.47 MB
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Prey-Capture-and-Phagocytosis-in-the-Choanoflagellate-Salpingoeca-rosetta-pone.0095577.s004.ogv 10 s, 192 × 288; 107 KB
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Prey-Capture-and-Phagocytosis-in-the-Choanoflagellate-Salpingoeca-rosetta-pone.0095577.s005.ogv 7.2 s, 800 × 352; 2.45 MB
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PROKARYOTIC INITIATION AND ELONGATIONM.jpg 526 × 696; 44 KB
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Role-of-PKD2-in-Rheotaxis-in-Dictyostelium-pone.0088682.s003.ogv 5.0 s, 248 × 148; 163 KB
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Role-of-PKD2-in-Rheotaxis-in-Dictyostelium-pone.0088682.s004.ogv 5.0 s, 248 × 148; 204 KB
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Role-of-PKD2-in-Rheotaxis-in-Dictyostelium-pone.0088682.s005.ogv 5.0 s, 248 × 148; 73 KB
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Role-of-PKD2-in-Rheotaxis-in-Dictyostelium-pone.0088682.s006.ogv 5.0 s, 248 × 148; 87 KB
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Thaxter-Myxobacteria-1.jpg 1,921 × 3,161; 1.31 MB
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Thaxter-Myxobacteria-2.jpg 1,921 × 3,161; 1.51 MB
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Thaxter-Myxobacteria-3.jpg 1,921 × 3,161; 1.55 MB
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Thaxter-Myxobacteria-4.jpg 1,921 × 3,161; 1.73 MB
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The-C-Terminal-SynMuvDdDUF926-Domain-Regulates-the-Function-of-the-N-Terminal-Domain-of-DdNKAP-pone.0168617.s011.ogv 15 s, 1,360 × 1,024; 14.63 MB
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The-C-Terminal-SynMuvDdDUF926-Domain-Regulates-the-Function-of-the-N-Terminal-Domain-of-DdNKAP-pone.0168617.s012.ogv 13 s, 1,360 × 1,024; 10.08 MB
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The-C-Terminal-SynMuvDdDUF926-Domain-Regulates-the-Function-of-the-N-Terminal-Domain-of-DdNKAP-pone.0168617.s013.ogv 16 s, 1,360 × 1,024; 25.22 MB
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When-Phase-Contrast-Fails-ChainTracer-and-NucTracer-Two-ImageJ-Methods-for-Semi-Automated-Single-pone.0151267.s003.ogv 5 min 4 s, 922 × 576; 11.47 MB