Category:Uploaded with Open Access Media Importer
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For some of the files, their categorization has already been checked by a human, but the ones listed in the subcategory Uploaded with Open Access Media Importer and needing category review often have not. This includes some files without a description (typically because no description was given at the source, or the XML was not marked up properly). Your help with that is most welcome!
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Subcategories
This category has the following 12 subcategories, out of 12 total.
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Media in category "Uploaded with Open Access Media Importer"
The following 200 files are in this category, out of 35,757 total.
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-Adrenergic-Inhibition-of-Contractility-in-L6-Skeletal-Muscle-Cells-pone.0022304.s001.ogv 17 s, 320 × 240; 931 KB
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-Adrenergic-Inhibition-of-Contractility-in-L6-Skeletal-Muscle-Cells-pone.0022304.s002.ogv 17 s, 320 × 240; 877 KB
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-Catenin-Is-Critical-for-Cerebellar-Foliation-and-Lamination-pone.0064451.s001.ogv 14 s, 200 × 150; 919 KB
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-Hairpin-Mediated-Formation-of-Structurally-Distinct-Multimers-of-Neurotoxic-Prion-Peptides-pone.0087354.s022.ogv 2 min 0 s, 426 × 240; 10.41 MB
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1.0-T-open-configuration-magnetic-resonance-guided-microwave-ablation-of-pig-livers-in-real-time-srep13551-s1.ogv 1 min 3 s, 1,280 × 720; 40.26 MB
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2-Bromopalmitate-Reduces-Protein-Deacylation-by-Inhibition-of-Acyl-Protein-Thioesterase-Enzymatic-pone.0075232.s001.ogv 6.0 s, 4,096 × 1,512; 7.65 MB
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225γ-habit-planes-in-martensitic-steels-from-the-PTMC-to-a-continuous-model-srep40938-s1.ogv 5.0 s, 1,075 × 668; 703 KB
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2D-and-3D-Self-Assembling-Nanofiber-Hydrogels-for-Cardiomyocyte-Culture-285678.f1.ogv 38 s, 800 × 610; 9.87 MB
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3-D-neurohistology-of-transparent-tongue-in-health-and-injury-with-optical-clearing-Movie1.ogv 6.6 s, 768 × 768; 7.15 MB
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3-D-neurohistology-of-transparent-tongue-in-health-and-injury-with-optical-clearing-Movie2.ogv 26 s, 768 × 768; 26.03 MB
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3-D-neurohistology-of-transparent-tongue-in-health-and-injury-with-optical-clearing-Movie3.ogv 13 s, 1,024 × 1,024; 7.03 MB
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3-D-neurohistology-of-transparent-tongue-in-health-and-injury-with-optical-clearing-Movie4.ogv 6.4 s, 1,024 × 1,024; 5.65 MB
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3-D-neurohistology-of-transparent-tongue-in-health-and-injury-with-optical-clearing-Movie5.ogv 27 s, 768 × 768; 18.61 MB
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3-D-neurohistology-of-transparent-tongue-in-health-and-injury-with-optical-clearing-Movie6.ogv 13 s, 1,024 × 1,024; 11.59 MB
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3-D-neurohistology-of-transparent-tongue-in-health-and-injury-with-optical-clearing-Movie7.ogv 13 s, 1,024 × 1,024; 12.77 MB
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3-D-Ultrastructure-of-O.-tauri-Electron-Cryotomography-of-an-Entire-Eukaryotic-Cell-pone.0000749.s001.ogv 1 min 54 s, 262 × 240; 2.52 MB
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3-D-Worm-Tracker-for-Freely-Moving-C.-elegans-pone.0057484.s003.ogv 32 s, 1,046 × 506; 753 KB
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3-D-Worm-Tracker-for-Freely-Moving-C.-elegans-pone.0057484.s004.ogv 33 s, 800 × 600; 558 KB
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3-D-Worm-Tracker-for-Freely-Moving-C.-elegans-pone.0057484.s005.ogv 12 s, 436 × 188; 36 KB
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3-D-Worm-Tracker-for-Freely-Moving-C.-elegans-pone.0057484.s006.ogv 3.5 s, 779 × 802; 244 KB
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3-D-Worm-Tracker-for-Freely-Moving-C.-elegans-pone.0057484.s007.ogv 4.1 s, 779 × 802; 348 KB
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3-D-Worm-Tracker-for-Freely-Moving-C.-elegans-pone.0057484.s008.ogv 1 min 5 s, 390 × 402; 1.87 MB
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3-OST-7-Regulates-BMP-Dependent-Cardiac-Contraction-pbio.1001727.s013.ogv 4.5 s, 720 × 486; 446 KB
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3-OST-7-Regulates-BMP-Dependent-Cardiac-Contraction-pbio.1001727.s014.ogv 6.7 s, 720 × 486; 558 KB
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3-OST-7-Regulates-BMP-Dependent-Cardiac-Contraction-pbio.1001727.s015.ogv 3.3 s, 720 × 486; 334 KB
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3-OST-7-Regulates-BMP-Dependent-Cardiac-Contraction-pbio.1001727.s016.ogv 4.7 s, 720 × 486; 187 KB
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3-OST-7-Regulates-BMP-Dependent-Cardiac-Contraction-pbio.1001727.s017.ogv 4.5 s, 720 × 486; 334 KB
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3-OST-7-Regulates-BMP-Dependent-Cardiac-Contraction-pbio.1001727.s018.ogv 10 s, 720 × 486; 1.03 MB
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3-OST-7-Regulates-BMP-Dependent-Cardiac-Contraction-pbio.1001727.s019.ogv 16 s, 46 × 92; 244 KB
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3-OST-7-Regulates-BMP-Dependent-Cardiac-Contraction-pbio.1001727.s020.ogv 18 s, 128 × 128; 237 KB
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3D animation of reconstructed skull and atlas of Niassodon mfumukasi - pone.0080974.s002.ogv 24 s, 1,024 × 768; 21.53 MB
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3D rendering of micro-CT scan of Eupolybothrus cavernicolus Komerički & Stoev - biodiversity data journal-1-e1013-g021.ogv 1 min 39 s, 1,224 × 720; 25.56 MB
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3D-collagen-type-I-matrix-inhibits-the-antimigratory-effect-of-doxorubicin-1475-2867-10-26-S3.ogv 2.8 s, 487 × 316; 105 KB
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3D-collagen-type-I-matrix-inhibits-the-antimigratory-effect-of-doxorubicin-1475-2867-10-26-S4.ogv 2.8 s, 452 × 333; 140 KB
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3D-collagen-type-I-matrix-inhibits-the-antimigratory-effect-of-doxorubicin-1475-2867-10-26-S7.ogv 2.8 s, 459 × 263; 113 KB
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3D-collagen-type-I-matrix-inhibits-the-antimigratory-effect-of-doxorubicin-1475-2867-10-26-S8.ogv 2.8 s, 456 × 305; 127 KB
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3D-Holographic-Observatory-for-Long-term-Monitoring-of-Complex-Behaviors-in-Drosophila-srep33001-s1.ogv 14 s, 2,048 × 1,024; 2.66 MB
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3D-Holographic-Observatory-for-Long-term-Monitoring-of-Complex-Behaviors-in-Drosophila-srep33001-s2.ogv 12 s, 2,048 × 1,024; 2.19 MB
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3D-Holographic-Observatory-for-Long-term-Monitoring-of-Complex-Behaviors-in-Drosophila-srep33001-s3.ogv 25 s, 1,024 × 908; 821 KB
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3D-Image-Guided-Automatic-Pipette-Positioning-for-Single-Cell-Experiments-in-vivo-srep18426-s2.ogv 2 min 29 s, 1,920 × 1,080; 33.88 MB
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3D-interactive-tractography-informed-resting-state-fMRI-connectivity-Video1.ogv 3 min 41 s, 1,088 × 720; 35.01 MB
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3D-map-of-the-human-corneal-endothelial-cell-srep29047-s2.ogv 5.0 s, 1,000 × 1,000; 3.32 MB
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3D-mapping-of-elastic-modulus-using-shear-wave-optical-micro-elastography-srep35499-s2.ogv 15 s, 864 × 512; 3.73 MB
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3D-mapping-of-elastic-modulus-using-shear-wave-optical-micro-elastography-srep35499-s3.ogv 15 s, 864 × 512; 3.31 MB
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3D-mapping-of-elastic-modulus-using-shear-wave-optical-micro-elastography-srep35499-s4.ogv 15 s, 560 × 420; 2.93 MB
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3D-mapping-of-elastic-modulus-using-shear-wave-optical-micro-elastography-srep35499-s5.ogv 10 s, 512 × 512; 281 KB
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3D-Mass-Spectrometry-Imaging-Reveals-a-Very-Heterogeneous-Drug-Distribution-in-Tumors-srep37027-s1.ogv 39 s, 852 × 579; 17.37 MB
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3D-Mass-Spectrometry-Imaging-Reveals-a-Very-Heterogeneous-Drug-Distribution-in-Tumors-srep37027-s2.ogv 39 s, 852 × 579; 13.85 MB
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3D-Microfluidic-model-for-evaluating-immunotherapy-efficacy-by-tracking-dendritic-cell-behaviour-41598 2017 1013 MOESM2 ESM.ogv 1 min 17 s, 720 × 576; 53.78 MB
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3D-Microfluidic-model-for-evaluating-immunotherapy-efficacy-by-tracking-dendritic-cell-behaviour-41598 2017 1013 MOESM3 ESM.ogv 1 min 17 s, 720 × 576; 56.02 MB
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3D-microtumors-in-vitro-supported-by-perfused-vascular-networks-srep31589-s2.ogv 2 min 8 s, 1,360 × 1,024; 27.53 MB
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3D-microtumors-in-vitro-supported-by-perfused-vascular-networks-srep31589-s3.ogv 13 s, 852 × 488; 1.18 MB
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3D-Morphology-Ultrastructure-and-Development-of-Ceratomyxa-puntazzi-Stages-First-Insights-into-the-pone.0032679.s001.ogv 1 min 27 s, 768 × 576; 4.35 MB
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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-Printable-Graphene-Composite-srep11181-s2.ogv 56 s, 320 × 240; 2.45 MB
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3D-Printed-Microwell-Arrays-for-Ciona-Microinjection-and-Timelapse-Imaging-pone.0082307.s002.ogv 23 s, 360 × 240; 8.73 MB
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3D-Printed-Microwell-Arrays-for-Ciona-Microinjection-and-Timelapse-Imaging-pone.0082307.s003.ogv 1 min 56 s, 480 × 270; 3.45 MB
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3D-Printed-Microwell-Arrays-for-Ciona-Microinjection-and-Timelapse-Imaging-pone.0082307.s004.ogv 51 s, 490 × 446; 854 KB
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3D-Printed-Multimaterial-Microfluidic-Valve-pone.0160624.s007.ogv 17 s, 1,920 × 1,080; 2.27 MB
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3D-printed-self-driven-thumb-sized-motors-for-in-situ-underwater-pollutant-remediation-srep41169-s1.ogv 2 min 16 s, 320 × 240; 866 KB
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3D-printed-self-driven-thumb-sized-motors-for-in-situ-underwater-pollutant-remediation-srep41169-s3.ogv 1 min 14 s, 640 × 480; 3.14 MB
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3D-Reconstruction-of-VZV-Infected-Cell-Nuclei-and-PML-Nuclear-Cages-by-Serial-Section-Array-ppat.1002740.s004.ogv 2.6 s, 1,058 × 1,070; 4.58 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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3D-Structural-Fluctuation-of-IgG1-Antibody-Revealed-by-Individual-Particle-Electron-Tomography-srep09803-s2.ogv 2 min 59 s, 512 × 490; 55.34 MB
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3D-Time-lapse-Imaging-and-Quantification-of-Mitochondrial-Dynamics-srep43275-s1.ogv 17 s, 430 × 430; 4.32 MB
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3D-Time-lapse-Imaging-and-Quantification-of-Mitochondrial-Dynamics-srep43275-s2.ogv 17 s, 430 × 175; 2.26 MB
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3D-Time-lapse-Imaging-and-Quantification-of-Mitochondrial-Dynamics-srep43275-s3.ogv 17 s, 430 × 175; 2.36 MB
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3D-Traction-Forces-in-Cancer-Cell-Invasion-pone.0033476.s018.ogv 19 s, 640 × 480; 9.02 MB
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3D-Traction-Forces-in-Cancer-Cell-Invasion-pone.0033476.s019.ogv 2.0 s, 1,344 × 1,024; 268 KB
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3D-Traction-Forces-in-Cancer-Cell-Invasion-pone.0033476.s020.ogv 17 s, 640 × 480; 971 KB
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3D-Traction-Forces-in-Cancer-Cell-Invasion-pone.0033476.s021.ogv 25 s, 640 × 480; 1.17 MB
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3D-Ultrastructural-Organization-of-Whole-Chlamydomonas-reinhardtii-Cells-Studied-by-Nanoscale-Soft-pone.0053293.s005.ogv 55 s, 1,024 × 1,024; 34.82 MB
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3D-Ultrastructural-Organization-of-Whole-Chlamydomonas-reinhardtii-Cells-Studied-by-Nanoscale-Soft-pone.0053293.s006.ogv 1 min 27 s, 1,104 × 1,168; 24.76 MB
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