Category:Videos of computer simulations
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Media in category "Videos of computer simulations"
The following 200 files are in this category, out of 342 total.
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3D-Multi-Cell-Simulation-of-Tumor-Growth-and-Angiogenesis-pone.0007190.s002.ogv 40 s, 300 × 300; 8.51 MB
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3D-Multi-Cell-Simulation-of-Tumor-Growth-and-Angiogenesis-pone.0007190.s003.ogv 40 s, 270 × 270; 7.73 MB
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3D-replicon-distributions-arise-from-stochastic-initiation-and-domino-like-DNA-replication-ncomms11207-s2.ogv 32 s, 1,000 × 750; 40.24 MB
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3D-replicon-distributions-arise-from-stochastic-initiation-and-domino-like-DNA-replication-ncomms11207-s4.ogv 32 s, 1,000 × 750; 49.31 MB
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3DQuasi6Pi.ogv 8.0 s, 360 × 391; 1.5 MB
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A replica exchange molecular dynamics simulation of the folding of.webm 1 min 40 s, 3,872 × 2,142; 47.25 MB
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A-3D-self-organizing-multicellular-epidermis-model-of-barrier-formation-and-hydration-with-srep43472-s2.ogv 28 s, 1,110 × 678; 28.46 MB
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A-3D-self-organizing-multicellular-epidermis-model-of-barrier-formation-and-hydration-with-srep43472-s3.ogv 28 s, 1,110 × 678; 27.99 MB
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A-3D-self-organizing-multicellular-epidermis-model-of-barrier-formation-and-hydration-with-srep43472-s4.ogv 28 s, 1,110 × 678; 29.32 MB
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A-Branching-Process-to-Characterize-the-Dynamics-of-Stem-Cell-Differentiation-srep13265-s2.ogv 1 min 40 s, 364 × 720; 1.95 MB
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A-Branching-Process-to-Characterize-the-Dynamics-of-Stem-Cell-Differentiation-srep13265-s3.ogv 1 min 32 s, 364 × 720; 1.88 MB
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A-Cell-Based-Model-for-Quorum-Sensing-in-Heterogeneous-Bacterial-Colonies-pcbi.1000819.s009.ogv 40 s, 640 × 480; 5.54 MB
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A-Cell-Based-Model-for-Quorum-Sensing-in-Heterogeneous-Bacterial-Colonies-pcbi.1000819.s010.ogv 20 s, 640 × 480; 368 KB
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A-Cell-Based-Model-for-Quorum-Sensing-in-Heterogeneous-Bacterial-Colonies-pcbi.1000819.s011.ogv 20 s, 640 × 480; 1.16 MB
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A-Cell-Based-Model-for-Quorum-Sensing-in-Heterogeneous-Bacterial-Colonies-pcbi.1000819.s012.ogv 20 s, 640 × 480; 1.01 MB
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A-Cell-Based-Model-for-Quorum-Sensing-in-Heterogeneous-Bacterial-Colonies-pcbi.1000819.s013.ogv 20 s, 640 × 480; 918 KB
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A-Cell-Based-Model-for-Quorum-Sensing-in-Heterogeneous-Bacterial-Colonies-pcbi.1000819.s014.ogv 20 s, 640 × 480; 783 KB
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A-Cell-Based-Model-for-Quorum-Sensing-in-Heterogeneous-Bacterial-Colonies-pcbi.1000819.s015.ogv 20 s, 640 × 480; 1.28 MB
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A-Cellular-Automata-Based-Mathematical-Model-for-Thymocyte-Development-pone.0008233.s001.ogv 1 min 52 s, 316 × 392; 8.8 MB
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A-Cellular-Automata-Based-Mathematical-Model-for-Thymocyte-Development-pone.0008233.s002.ogv 1 min 52 s, 316 × 392; 6.04 MB
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A-Cellular-Automata-Based-Mathematical-Model-for-Thymocyte-Development-pone.0008233.s003.ogv 1 min 52 s, 316 × 392; 10.33 MB
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A-Computational-Clonal-Analysis-of-the-Developing-Mouse-Limb-Bud-pcbi.1001071.s009.ogv 18 s, 854 × 722; 16.25 MB
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A-Computational-Clonal-Analysis-of-the-Developing-Mouse-Limb-Bud-pcbi.1001071.s010.ogv 18 s, 917 × 719; 8.64 MB
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A-Computational-Clonal-Analysis-of-the-Developing-Mouse-Limb-Bud-pcbi.1001071.s011.ogv 25 s, 925 × 720; 1.48 MB
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A-Computational-Framework-for-Ultrastructural-Mapping-of-Neural-Circuitry-pbio.1000074.sv001.ogv 9.0 s, 800 × 800; 5.45 MB
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A-Computational-Framework-for-Ultrastructural-Mapping-of-Neural-Circuitry-pbio.1000074.sv002.ogv 19 s, 600 × 322; 2.22 MB
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A-Computational-Framework-for-Ultrastructural-Mapping-of-Neural-Circuitry-pbio.1000074.sv003.ogv 34 s, 466 × 500; 27.98 MB
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A-Developmental-Model-for-Branching-Morphogenesis-of-Lake-Cress-Compound-Leaf-pone.0111615.s001.ogv 9.4 s, 950 × 300; 164 KB
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A-Developmental-Model-for-Branching-Morphogenesis-of-Lake-Cress-Compound-Leaf-pone.0111615.s002.ogv 9.2 s, 360 × 306; 494 KB
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A-Developmental-Model-for-Branching-Morphogenesis-of-Lake-Cress-Compound-Leaf-pone.0111615.s003.ogv 9.9 s, 897 × 300; 128 KB
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A-Division-in-PIN-Mediated-Auxin-Patterning-during-Organ-Initiation-in-Grasses-pcbi.1003447.s017.ogv 15 s, 480 × 480; 1.05 MB
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A-Division-in-PIN-Mediated-Auxin-Patterning-during-Organ-Initiation-in-Grasses-pcbi.1003447.s018.ogv 1 min 35 s, 156 × 480; 779 KB
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A-Division-in-PIN-Mediated-Auxin-Patterning-during-Organ-Initiation-in-Grasses-pcbi.1003447.s019.ogv 1 min 35 s, 640 × 416; 1.91 MB
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A-Division-in-PIN-Mediated-Auxin-Patterning-during-Organ-Initiation-in-Grasses-pcbi.1003447.s020.ogv 2 min 9 s, 640 × 490; 4.84 MB
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A-Generative-Statistical-Algorithm-for-Automatic-Detection-of-Complex-Postures-pcbi.1004517.s007.ogv 59 s, 1,176 × 290; 3.29 MB
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A-hexapod-walker-using-a-heterarchical-architecture-for-action-selection-Movie5.ogv 28 s, 1,280 × 720; 2.63 MB
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A-Mathematical-Model-for-EphEphrin-Directed-Segregation-of-Intermingled-Cells-pone.0111803.s003.ogv 1 min 12 s, 640 × 480; 19.37 MB
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A-Mathematical-Model-for-EphEphrin-Directed-Segregation-of-Intermingled-Cells-pone.0111803.s004.ogv 1 min 36 s, 640 × 480; 59.23 MB
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A-Mathematical-Model-for-Neutrophil-Gradient-Sensing-and-Polarization-pcbi.0030036.sv001.ogv 0.0 s, 432 × 336; 2.28 MB
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A-Mathematical-Model-for-Neutrophil-Gradient-Sensing-and-Polarization-pcbi.0030036.sv002.ogv 5.6 s, 432 × 336; 1.09 MB
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A-Mechanism-for-Value-Sensitive-Decision-Making-pone.0073216.s008.ogv 17 s, 768 × 768; 3.3 MB
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A-Mechanism-for-Value-Sensitive-Decision-Making-pone.0073216.s009.ogv 17 s, 768 × 768; 3 MB
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A-Mechanism-for-Value-Sensitive-Decision-Making-pone.0073216.s010.ogv 17 s, 768 × 768; 2.45 MB
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A-Mechanism-for-Value-Sensitive-Decision-Making-pone.0073216.s011.ogv 50 s, 1,440 × 618; 2.16 MB
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A-Model-for-Integrating-Elementary-Neural-Functions-into-Delayed-Response-Behavior-pcbi.0020025.sv001.ogv 1 min 6 s, 320 × 240; 410 KB
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A-Model-for-Integrating-Elementary-Neural-Functions-into-Delayed-Response-Behavior-pcbi.0020025.sv002.ogv 1 min 6 s, 320 × 240; 404 KB
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A-novel-approach-to-locomotion-learning-Actor-Critic-architecture-using-central-pattern-generators-Movie1.ogv 1 min 9 s, 640 × 480; 4.05 MB
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A-Reaction-Diffusion-Model-of-ROS-Induced-ROS-Release-in-a-Mitochondrial-Network-pcbi.1000657.s004.ogv 1.9 s, 324 × 120; 1.32 MB
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A-Reaction-Diffusion-Model-of-ROS-Induced-ROS-Release-in-a-Mitochondrial-Network-pcbi.1000657.s005.ogv 1.6 s, 316 × 134; 1.11 MB
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A-Reaction-Diffusion-Model-of-ROS-Induced-ROS-Release-in-a-Mitochondrial-Network-pcbi.1000657.s006.ogv 1 min 38 s, 472 × 136; 13.17 MB
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A-simple-rule-for-quadrupedal-gait-generation-determined-by-leg-loading-feedback-a-modeling-study-srep08169-s1.ogv 1 min 10 s, 854 × 480; 10.43 MB
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A-simple-rule-for-quadrupedal-gait-generation-determined-by-leg-loading-feedback-a-modeling-study-srep08169-s2.ogv 2 min 21 s, 854 × 480; 18.33 MB
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A-Spatio-Temporal-Model-of-Notch-Signalling-in-the-Zebrafish-Segmentation-Clock-Conditions-for-pone.0016980.s002.ogv 1 min 0 s, 640 × 480; 673 KB
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A-Spatio-Temporal-Model-of-Notch-Signalling-in-the-Zebrafish-Segmentation-Clock-Conditions-for-pone.0016980.s003.ogv 1 min 0 s, 640 × 480; 1.59 MB
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A-Spatio-Temporal-Model-of-Notch-Signalling-in-the-Zebrafish-Segmentation-Clock-Conditions-for-pone.0016980.s004.ogv 1 min 0 s, 640 × 480; 983 KB
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A-Spatio-Temporal-Model-of-Notch-Signalling-in-the-Zebrafish-Segmentation-Clock-Conditions-for-pone.0016980.s005.ogv 1 min 0 s, 640 × 480; 2.48 MB
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A-Study-of-Early-Afterdepolarizations-in-a-Model-for-Human-Ventricular-Tissue-pone.0084595.s003.ogv 50 s, 1,000 × 1,000; 9.53 MB
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A-Study-of-Early-Afterdepolarizations-in-a-Model-for-Human-Ventricular-Tissue-pone.0084595.s004.ogv 50 s, 1,000 × 1,000; 11.97 MB
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A-Study-of-Early-Afterdepolarizations-in-a-Model-for-Human-Ventricular-Tissue-pone.0084595.s005.ogv 50 s, 1,000 × 1,000; 5.61 MB
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A-Study-of-Early-Afterdepolarizations-in-a-Model-for-Human-Ventricular-Tissue-pone.0084595.s006.ogv 50 s, 1,024 × 330; 8.24 MB
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A-Study-of-Early-Afterdepolarizations-in-a-Model-for-Human-Ventricular-Tissue-pone.0084595.s007.ogv 50 s, 1,024 × 330; 9.13 MB
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A-Study-of-Early-Afterdepolarizations-in-a-Model-for-Human-Ventricular-Tissue-pone.0084595.s008.ogv 50 s, 1,024 × 330; 3.75 MB
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A-Virtual-Look-at-Epstein–Barr-Virus-Infection-Biological-Interpretations-ppat.0030137.sv001.ogv 3 min 1 s, 600 × 400; 95.39 MB
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A-Virtual-Look-at-Epstein–Barr-Virus-Infection-Biological-Interpretations-ppat.0030137.sv002.ogv 2 min 42 s, 640 × 480; 28.29 MB
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A-Web-Based-Computerized-Adaptive-Testing-(CAT)-to-Assess-Patient-Perception-in-Hospitalization-jmir v13i3e61 app3.ogv 2 min 37 s, 640 × 480; 17.81 MB
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Activated-Membrane-Patches-Guide-Chemotactic-Cell-Motility-pcbi.1002044.s007.ogv 7.1 s, 435 × 343; 162 KB
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Activated-Membrane-Patches-Guide-Chemotactic-Cell-Motility-pcbi.1002044.s008.ogv 7.1 s, 435 × 343; 142 KB
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Activated-Membrane-Patches-Guide-Chemotactic-Cell-Motility-pcbi.1002044.s009.ogv 22 s, 389 × 734; 492 KB
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Activated-Membrane-Patches-Guide-Chemotactic-Cell-Motility-pcbi.1002044.s010.ogv 22 s, 389 × 734; 521 KB
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Activated-Membrane-Patches-Guide-Chemotactic-Cell-Motility-pcbi.1002044.s011.ogv 27 s, 389 × 734; 507 KB
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Adhesion-Failures-Determine-the-Pattern-of-Choroidal-Neovascularization-in-the-Eye-A-Computer-pcbi.1002440.s017.ogv 1 min 1 s, 637 × 616; 7.11 MB
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Adhesion-Failures-Determine-the-Pattern-of-Choroidal-Neovascularization-in-the-Eye-A-Computer-pcbi.1002440.s018.ogv 1 min 1 s, 588 × 568; 6.38 MB
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Adhesion-Failures-Determine-the-Pattern-of-Choroidal-Neovascularization-in-the-Eye-A-Computer-pcbi.1002440.s020.ogv 1 min 1 s, 588 × 568; 6.55 MB
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Adhesion-Failures-Determine-the-Pattern-of-Choroidal-Neovascularization-in-the-Eye-A-Computer-pcbi.1002440.s021.ogv 1 min 1 s, 637 × 616; 7.29 MB
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Adhesion-Failures-Determine-the-Pattern-of-Choroidal-Neovascularization-in-the-Eye-A-Computer-pcbi.1002440.s022.ogv 1 min 1 s, 637 × 616; 7.16 MB
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Algorithmic-Self-Assembly-of-DNA-Sierpinski-Triangles-pbio.0020424.sv001.ogv 20 s, 576 × 432; 15.23 MB
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An-Agent-Based-Model-of-Signal-Transduction-in-Bacterial-Chemotaxis-pone.0009454.s003.ogv 3 min 16 s, 640 × 480; 11.88 MB
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An-Emerging-Allee-Effect-Is-Critical-for-Tumor-Initiation-and-Persistence-pcbi.1004366.s003.ogv 36 s, 180 × 180; 591 KB
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An-Emerging-Allee-Effect-Is-Critical-for-Tumor-Initiation-and-Persistence-pcbi.1004366.s004.ogv 36 s, 180 × 180; 1.38 MB
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An-Open-Source-Simulation-Model-for-Soil-and-Sediment-Bioturbation-pone.0028028.s005.ogv 12 s, 848 × 480; 285 KB
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An-optogenetic-system-for-interrogating-the-temporal-dynamics-of-Akt-srep14589-s2.ogv 6.7 s, 148 × 138; 510 KB
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An-optogenetic-system-for-interrogating-the-temporal-dynamics-of-Akt-srep14589-s3.ogv 5.0 s, 144 × 132; 404 KB
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An-optogenetic-system-for-interrogating-the-temporal-dynamics-of-Akt-srep14589-s4.ogv 5.4 s, 210 × 436; 585 KB
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An-optogenetic-system-for-interrogating-the-temporal-dynamics-of-Akt-srep14589-s5.ogv 8.1 s, 236 × 300; 539 KB
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An-optogenetic-system-for-interrogating-the-temporal-dynamics-of-Akt-srep14589-s6.ogv 4.5 s, 166 × 322; 562 KB
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Automated-Design-of-Complex-Dynamic-Systems-pone.0086696.s001.ogv 6.0 s, 458 × 422; 828 KB
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Automated-Design-of-Complex-Dynamic-Systems-pone.0086696.s002.ogv 6.0 s, 462 × 422; 1.14 MB
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Automated-Design-of-Complex-Dynamic-Systems-pone.0086696.s003.ogv 6.0 s, 404 × 370; 1.14 MB
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Automated-Design-of-Complex-Dynamic-Systems-pone.0086696.s004.ogv 6.7 s, 404 × 370; 1.17 MB
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Axonal-Velocity-Distributions-in-Neural-Field-Equations-pcbi.1000653.s001.ogv 33 s, 128 × 128; 1.8 MB
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Bacterial-Colony-from-Two-Dimensional-Division-to-Three-Dimensional-Development-pone.0048098.s007.ogv 6.8 s, 1,344 × 1,024; 578 KB
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Barriers-to-Diffusion-in-Dendrites-and-Estimation-of-Calcium-Spread-Following-Synaptic-Inputs-pcbi.1002182.s001.ogv 12 s, 3,200 × 2,400; 20.35 MB
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Biological-models-pcbi.1002071.s002.ogv 3.2 s, 692 × 678; 211 KB
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Biological-models-pcbi.1002071.s006.ogv 2.5 s, 842 × 828; 834 KB
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Biological-models-pcbi.1002071.s007.ogv 13 s, 842 × 828; 471 KB
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Biological-models-pcbi.1002071.s008.ogv 13 s, 842 × 828; 469 KB
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Bright-emission-from-a-random-Raman-laser-ncomms5356-s1.ogv 11 s, 2,000 × 990; 5.43 MB
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BSim-An-Agent-Based-Tool-for-Modeling-Bacterial-Populations-in-Systems-and-Synthetic-Biology-pone.0042790.s011.ogv 1 min 17 s, 800 × 600; 1.38 MB
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Bystander-Responses-to-a-Violent-Incident-in-an-Immersive-Virtual-Environment-pone.0052766.s007.ogv 4 min 21 s, 480 × 360; 24.42 MB
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Calcium-Signals-Driven-by-Single-Channel-Noise-pcbi.1000870.s002.ogv 6.4 s, 260 × 260; 882 KB
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Cascading-Failures-in-Spatially-Embedded-Random-Networks-pone.0084563.s003.ogv 11 s, 1,024 × 1,024; 306 KB
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Cascading-Failures-in-Spatially-Embedded-Random-Networks-pone.0084563.s004.ogv 12 s, 1,024 × 1,024; 341 KB
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Cascading-Failures-in-Spatially-Embedded-Random-Networks-pone.0084563.s005.ogv 12 s, 1,024 × 1,024; 323 KB
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Cascading-Failures-in-Spatially-Embedded-Random-Networks-pone.0084563.s006.ogv 10 s, 1,024 × 1,024; 307 KB
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Cell-movement-pbio.1001256.s006.ogv 15 s, 375 × 525; 308 KB
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Cell-movement-pbio.1001256.s007.ogv 2.7 s, 734 × 512; 356 KB
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Cell-movement-pbio.1001256.s008.ogv 4.7 s, 734 × 512; 659 KB
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Cell-movement-pbio.1001256.s009.ogv 10 s, 720 × 492; 2.37 MB
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Cell-Shape-Dynamics-From-Waves-to-Migration-pcbi.1002392.s007.ogv 22 s, 183 × 184; 1.2 MB
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Cell-Shape-Dynamics-From-Waves-to-Migration-pcbi.1002392.s008.ogv 22 s, 184 × 184; 802 KB
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Cell-Shape-Dynamics-From-Waves-to-Migration-pcbi.1002392.s009.ogv 40 s, 179 × 180; 1.69 MB
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Cell-Shape-Dynamics-From-Waves-to-Migration-pcbi.1002392.s010.ogv 13 s, 347 × 346; 2.72 MB
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Cell-Shape-Dynamics-From-Waves-to-Migration-pcbi.1002392.s011.ogv 15 s, 512 × 512; 4.44 MB
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Cell-Shape-Dynamics-From-Waves-to-Migration-pcbi.1002392.s012.ogv 9.5 s, 323 × 325; 371 KB
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Cell-Shape-Dynamics-From-Waves-to-Migration-pcbi.1002392.s013.ogv 43 s, 131 × 131; 3.82 MB
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Cell-Shape-Dynamics-From-Waves-to-Migration-pcbi.1002392.s014.ogv 45 s, 132 × 133; 1.45 MB
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Cell-Shape-Dynamics-From-Waves-to-Migration-pcbi.1002392.s015.ogv 22 s, 349 × 349; 2.36 MB
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Cell-Shape-Dynamics-From-Waves-to-Migration-pcbi.1002392.s016.ogv 22 s, 336 × 341; 2.06 MB
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Cellular-Growth-Arrest-and-Persistence-from-Enzyme-Saturation-pcbi.1004825.s012.ogv 35 s, 800 × 600; 5.5 MB
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Cellular-Growth-Arrest-and-Persistence-from-Enzyme-Saturation-pcbi.1004825.s013.ogv 15 s, 800 × 600; 865 KB
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Cellular-Growth-Arrest-and-Persistence-from-Enzyme-Saturation-pcbi.1004825.s014.ogv 34 s, 800 × 600; 2.66 MB
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Cellular-Growth-Arrest-and-Persistence-from-Enzyme-Saturation-pcbi.1004825.s015.ogv 31 s, 800 × 600; 2.95 MB
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