Category:Videos of digestive system
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Media in category "Videos of digestive system"
The following 147 files are in this category, out of 147 total.
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A-Basal-Lithostrotian-Titanosaur-(Dinosauria-Sauropoda)-with-a-Complete-Skull-Implications-for-the-pone.0151661.s013.ogv 40 s, 1,920 × 1,080; 10.95 MB
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Adenovirus-Mediated-Efficient-Gene-Transfer-into-Cultured-Three-Dimensional-Organoids-pone.0093608.s002.ogv 9.0 s, 1,920 × 1,080; 440 KB
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An-Enteroendocrine-Cell-–-Enteric-Glia-Connection-Revealed-by-3D-Electron-Microscopy-pone.0089881.s008.ogv 1 min 3 s, 874 × 480; 14.48 MB
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Cell-Death-in-the-Epithelia-of-the-Intestine-and-Hepatopancreas-in-Neocaridina-heteropoda-pone.0147582.s005.ogv 30 s, 1,296 × 729; 35.03 MB
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Cell-Death-in-the-Epithelia-of-the-Intestine-and-Hepatopancreas-in-Neocaridina-heteropoda-pone.0147582.s006.ogv 21 s, 1,296 × 729; 25.83 MB
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Cell-Death-in-the-Epithelia-of-the-Intestine-and-Hepatopancreas-in-Neocaridina-heteropoda-pone.0147582.s008.ogv 9.9 s, 1,410 × 896; 10.49 MB
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Coordination-of-Cellular-Dynamics-Contributes-to-Tooth-Epithelium-Deformations-pone.0161336.s009.ogv 45 s, 960 × 720; 7.02 MB
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Coordination-of-Cellular-Dynamics-Contributes-to-Tooth-Epithelium-Deformations-pone.0161336.s010.ogv 50 s, 1,006 × 968; 12.7 MB
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Coordination-of-Cellular-Dynamics-Contributes-to-Tooth-Epithelium-Deformations-pone.0161336.s011.ogv 27 s, 1,354 × 540; 10.08 MB
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Coordination-of-Cellular-Dynamics-Contributes-to-Tooth-Epithelium-Deformations-pone.0161336.s012.ogv 20 s, 1,024 × 1,024; 2.78 MB
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Coordination-of-Cellular-Dynamics-Contributes-to-Tooth-Epithelium-Deformations-pone.0161336.s013.ogv 30 s, 715 × 720; 12.23 MB
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Dynamic-Modelling-of-Tooth-Deformation-Using-Occlusal-Kinematics-and-Finite-Element-Analysis-pone.0152663.s008.ogv 34 s, 1,920 × 1,080; 1.72 MB
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Dynamic-Modelling-of-Tooth-Deformation-Using-Occlusal-Kinematics-and-Finite-Element-Analysis-pone.0152663.s009.ogv 8.2 s, 1,920 × 1,080; 1.32 MB
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Dynamic-Modelling-of-Tooth-Deformation-Using-Occlusal-Kinematics-and-Finite-Element-Analysis-pone.0152663.s010.ogv 8.2 s, 1,920 × 1,080; 3.5 MB
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Entomophytophagy-(Sequential-Predatory-then-Phytophagous-Behaviour)-in-an-Indian-Braconid-pone.0156997.s001.ogv 1 min 15 s, 1,280 × 720; 44.53 MB
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Feeding-Behavior-of-Subadult-Sixgill-Sharks-(Hexanchus-griseus)-at-a-Bait-Station-pone.0156730.s002.ogv 1 min 58 s, 720 × 480; 25.44 MB
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Feeding-Behavior-of-Subadult-Sixgill-Sharks-(Hexanchus-griseus)-at-a-Bait-Station-pone.0156730.s003.ogv 33 s, 720 × 480; 13.07 MB
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Feeding-Behavior-of-Subadult-Sixgill-Sharks-(Hexanchus-griseus)-at-a-Bait-Station-pone.0156730.s004.ogv 50 s, 641 × 484; 21.87 MB
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Feeding-Behavior-of-Subadult-Sixgill-Sharks-(Hexanchus-griseus)-at-a-Bait-Station-pone.0156730.s005.ogv 1 min 0 s, 641 × 484; 21.57 MB
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Host-Gut-Motility-Promotes-Competitive-Exclusion-within-a-Model-Intestinal-Microbiota-pbio.1002517.s007.ogv 6.1 s, 2,034 × 855; 5.47 MB
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Host-Gut-Motility-Promotes-Competitive-Exclusion-within-a-Model-Intestinal-Microbiota-pbio.1002517.s008.ogv 11 s, 1,914 × 1,053; 1.89 MB
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Host-Gut-Motility-Promotes-Competitive-Exclusion-within-a-Model-Intestinal-Microbiota-pbio.1002517.s009.ogv 30 s, 1,984 × 1,144; 6.79 MB
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Host-Gut-Motility-Promotes-Competitive-Exclusion-within-a-Model-Intestinal-Microbiota-pbio.1002517.s010.ogv 5.0 s, 1,000 × 427; 822 KB
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Host-Gut-Motility-Promotes-Competitive-Exclusion-within-a-Model-Intestinal-Microbiota-pbio.1002517.s011.ogv 30 s, 4,602 × 1,434; 24.18 MB
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Host-Gut-Motility-Promotes-Competitive-Exclusion-within-a-Model-Intestinal-Microbiota-pbio.1002517.s012.ogv 6.6 s, 3,820 × 792; 4.19 MB
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Host-Gut-Motility-Promotes-Competitive-Exclusion-within-a-Model-Intestinal-Microbiota-pbio.1002517.s013.ogv 30 s, 1,409 × 619; 14.69 MB
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Host-Gut-Motility-Promotes-Competitive-Exclusion-within-a-Model-Intestinal-Microbiota-pbio.1002517.s014.ogv 2.2 s, 2,271 × 375; 1.21 MB
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Host-Gut-Motility-Promotes-Competitive-Exclusion-within-a-Model-Intestinal-Microbiota-pbio.1002517.s015.ogv 30 s, 2,271 × 375; 14.03 MB
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In-Amnio-MRI-of-Mouse-Embryos-pone.0109143.s002.ogv 24 s, 720 × 576; 3.73 MB
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In-Amnio-MRI-of-Mouse-Embryos-pone.0109143.s003.ogv 24 s, 720 × 576; 3.08 MB
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In-Amnio-MRI-of-Mouse-Embryos-pone.0109143.s004.ogv 24 s, 720 × 576; 3.95 MB
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Invagination-of-Ectodermal-Placodes-Is-Driven-by-Cell-Intercalation-Mediated-Contraction-of-the-pbio.1002405.s009.ogv 3.9 s, 1,290 × 1,690; 4.26 MB
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K+-Channel-Inhibition-Differentially-Regulates-Migration-of-Intestinal-Epithelial-Cells-in-Inflamed-pone.0147736.s006.ogv 2 min 29 s, 1,920 × 1,080; 65.72 MB
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Methansünder Kuh.webm 2 min 50 s, 1,920 × 1,080; 190.61 MB
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Morphogenesis-of-the-C.-elegans-Intestine-Involves-Axon-Guidance-Genes-pgen.1005950.s006.ogv 0.0 s, 720 × 336; 25 KB
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Morphogenesis-of-the-C.-elegans-Intestine-Involves-Axon-Guidance-Genes-pgen.1005950.s007.ogv 8.5 s, 480 × 320; 100 KB
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Morphogenesis-of-the-C.-elegans-Intestine-Involves-Axon-Guidance-Genes-pgen.1005950.s008.ogv 9.5 s, 480 × 351; 114 KB
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Morphogenesis-of-the-C.-elegans-Intestine-Involves-Axon-Guidance-Genes-pgen.1005950.s009.ogv 12 s, 478 × 372; 522 KB
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Morphogenesis-of-the-C.-elegans-Intestine-Involves-Axon-Guidance-Genes-pgen.1005950.s010.ogv 11 s, 590 × 324; 402 KB
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Motility-and-Chemotaxis-Mediate-the-Preferential-Colonization-of-Gastric-Injury-Sites-by-ppat.1004275.s011.ogv 5.0 s, 2,090 × 1,091; 2.13 MB
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Neurogenic-and-Myogenic-Properties-of-Pan-Colonic-Motor-Patterns-and-Their-Spatiotemporal-pone.0060474.s001.ogv 2 min 40 s, 640 × 480; 1.97 MB
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Neurogenic-and-Myogenic-Properties-of-Pan-Colonic-Motor-Patterns-and-Their-Spatiotemporal-pone.0060474.s004.ogv 2 min 20 s, 640 × 480; 1.77 MB
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Regulation-of-Heat-Exchange-across-the-Hornbill-Beak-Functional-Similarities-with-Toucans-pone.0154768.s006.ogv 1 min 31 s, 564 × 360; 4.22 MB
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Role-of-Periostin-in-Adhesion-and-Migration-of-Bone-Remodeling-Cells-pone.0147837.s005.ogv 8.6 s, 320 × 240; 309 KB
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Role-of-Periostin-in-Adhesion-and-Migration-of-Bone-Remodeling-Cells-pone.0147837.s006.ogv 8.4 s, 320 × 240; 1.74 MB
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Role-of-Periostin-in-Adhesion-and-Migration-of-Bone-Remodeling-Cells-pone.0147837.s007.ogv 8.5 s, 640 × 480; 1.63 MB
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Serotonin-Augments-Gut-Pacemaker-Activity-via-5-HT3-Receptors-pone.0024928.s005.ogv 4.9 s, 640 × 480; 64 KB
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Serotonin-Augments-Gut-Pacemaker-Activity-via-5-HT3-Receptors-pone.0024928.s006.ogv 4.9 s, 640 × 480; 347 KB
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Serotonin-Augments-Gut-Pacemaker-Activity-via-5-HT3-Receptors-pone.0024928.s007.ogv 6.4 s, 640 × 480; 182 KB
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Serotonin-Augments-Gut-Pacemaker-Activity-via-5-HT3-Receptors-pone.0024928.s008.ogv 6.4 s, 640 × 480; 210 KB
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Statistical-Analysis-of-Interactive-Surgical-Planning-Using-Shape-Descriptors-in-Mandibular-pone.0161524.s001.ogv 1 min 10 s, 704 × 640; 6.56 MB
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Stomatal-Dimorphism-of-Neodiplogaster-acaloleptae-(Diplogastromorpha-Diplogastridae)-pone.0155715.s003.ogv 25 s, 1,280 × 720; 8.32 MB
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Stomatal-Dimorphism-of-Neodiplogaster-acaloleptae-(Diplogastromorpha-Diplogastridae)-pone.0155715.s004.ogv 23 s, 1,280 × 720; 3.18 MB
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Stomatal-Dimorphism-of-Neodiplogaster-acaloleptae-(Diplogastromorpha-Diplogastridae)-pone.0155715.s005.ogv 1 min 0 s, 854 × 480; 7.39 MB
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The-Dermis-as-a-Delivery-Site-of-Trypanosoma-brucei-for-Tsetse-Flies-ppat.1005744.s006.ogv 3.3 s, 263 × 256; 39 KB
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Tick-Borne-Encephalitis-Virus-Replication-Intracellular-Trafficking-and-Pathogenicity-in-Human-pone.0096957.s005.ogv 6.4 s, 1,076 × 1,024; 9.51 MB
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Tick-Borne-Encephalitis-Virus-Replication-Intracellular-Trafficking-and-Pathogenicity-in-Human-pone.0096957.s006.ogv 6.4 s, 2,060 × 2,048; 33.77 MB
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Tick-Borne-Encephalitis-Virus-Replication-Intracellular-Trafficking-and-Pathogenicity-in-Human-pone.0096957.s007.ogv 6.4 s, 1,028 × 1,024; 14.42 MB
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Two-New-Mylagaulid-Rodents-from-the-Early-Miocene-of-China-pone.0159445.s001.ogv 13 s, 644 × 854; 1.12 MB
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Two-New-Mylagaulid-Rodents-from-the-Early-Miocene-of-China-pone.0159445.s002.ogv 13 s, 932 × 546; 941 KB
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Two-New-Mylagaulid-Rodents-from-the-Early-Miocene-of-China-pone.0159445.s003.ogv 14 s, 734 × 788; 2.62 MB
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Two-New-Mylagaulid-Rodents-from-the-Early-Miocene-of-China-pone.0159445.s004.ogv 13 s, 616 × 926; 1.17 MB
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Two-New-Mylagaulid-Rodents-from-the-Early-Miocene-of-China-pone.0159445.s005.ogv 13 s, 974 × 628; 1.05 MB
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Two-New-Mylagaulid-Rodents-from-the-Early-Miocene-of-China-pone.0159445.s006.ogv 15 s, 792 × 980; 3.42 MB
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Two-New-Mylagaulid-Rodents-from-the-Early-Miocene-of-China-pone.0159445.s007.ogv 13 s, 498 × 804; 1,016 KB
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Two-New-Mylagaulid-Rodents-from-the-Early-Miocene-of-China-pone.0159445.s008.ogv 13 s, 862 × 488; 833 KB
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Two-New-Mylagaulid-Rodents-from-the-Early-Miocene-of-China-pone.0159445.s009.ogv 18 s, 840 × 832; 4.04 MB
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Two-New-Mylagaulid-Rodents-from-the-Early-Miocene-of-China-pone.0159445.s010.ogv 13 s, 604 × 830; 1.24 MB
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Two-New-Mylagaulid-Rodents-from-the-Early-Miocene-of-China-pone.0159445.s011.ogv 13 s, 828 × 644; 1.16 MB
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Two-New-Mylagaulid-Rodents-from-the-Early-Miocene-of-China-pone.0159445.s012.ogv 15 s, 720 × 978; 3.52 MB
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