Category:Immunologic techniques
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Subcategories
This category has the following 3 subcategories, out of 3 total.
E
- Epitope mapping (7 F)
I
- Immunoenzyme techniques (22 F)
Media in category "Immunologic techniques"
The following 137 files are in this category, out of 137 total.
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A-Novel-Immunofluorescent-Computed-Tomography-(ICT)-Method-to-Localise-and-Quantify-Multiple-pone.0053245.s001.ogv 1 min 0 s, 1,104 × 480; 17.79 MB
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A-Novel-Immunofluorescent-Computed-Tomography-(ICT)-Method-to-Localise-and-Quantify-Multiple-pone.0053245.s002.ogv 1 min 0 s, 1,104 × 480; 7.34 MB
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A-Novel-Immunofluorescent-Computed-Tomography-(ICT)-Method-to-Localise-and-Quantify-Multiple-pone.0053245.s003.ogv 1 min 0 s, 1,104 × 480; 1.96 MB
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Biochemical-and-Structural-Characterization-of-Neocartilage-Formed-by-Mesenchymal-Stem-Cells-in-pone.0091662.s012.ogv 17 s, 1,321 × 1,330; 69.79 MB
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Comprehensive-Evaluation-of-Peripheral-Nerve-Regeneration-in-the-Acute-Healing-Phase-Using-Tissue-pone.0094054.s008.ogv 1 min 55 s, 640 × 480; 7.81 MB
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Control-and-Manipulation-of-Pathogens-with-an-Optical-Trap-for-Live-Cell-Imaging-of-Intercellular-pone.0015215.s002.ogv 4.8 s, 1,344 × 1,024; 8.65 MB
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Control-and-Manipulation-of-Pathogens-with-an-Optical-Trap-for-Live-Cell-Imaging-of-Intercellular-pone.0015215.s007.ogv 32 s, 1,525 × 1,140; 10.49 MB
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DeltaNp63-Has-a-Role-in-Maintaining-Epithelial-Integrity-in-Airway-Epithelium-pone.0088683.s007.ogv 9.8 s, 1,446 × 1,080; 2.01 MB
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DeltaNp63-Has-a-Role-in-Maintaining-Epithelial-Integrity-in-Airway-Epithelium-pone.0088683.s008.ogv 35 s, 1,446 × 1,080; 71.45 MB
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DeltaNp63-Has-a-Role-in-Maintaining-Epithelial-Integrity-in-Airway-Epithelium-pone.0088683.s009.ogv 35 s, 1,446 × 1,080; 43.42 MB
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Direct-and-Dynamic-Detection-of-HIV-1-in-Living-Cells-pone.0050026.s001.ogv 9.0 s, 860 × 430; 2.61 MB
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FRET-Assisted-Determination-of-CLN3-Membrane-Topology-pone.0102593.s001.ogv 25 s, 1,536 × 512; 5.26 MB
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High-Resolution-Intravital-Microscopy-pone.0050915.s005.ogv 3.8 s, 468 × 651; 266 KB
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High-Resolution-Intravital-Microscopy-pone.0050915.s006.ogv 7.4 s, 262 × 196; 88 KB
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High-Resolution-Intravital-Microscopy-pone.0050915.s007.ogv 4.5 s, 1,388 × 956; 448 KB
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High-Resolution-Intravital-Microscopy-pone.0050915.s008.ogv 4.0 s, 374 × 374; 179 KB
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High-Resolution-Intravital-Microscopy-pone.0050915.s009.ogv 2.2 s, 1,148 × 841; 214 KB
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Identification-of-TgCBAP-a-Novel-Cytoskeletal-Protein-that-Localizes-to-Three-Distinct-pone.0098492.s001.ogv 0.0 s, 1,200 × 848; 9.29 MB
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Identification-of-TgCBAP-a-Novel-Cytoskeletal-Protein-that-Localizes-to-Three-Distinct-pone.0098492.s002.ogv 0.0 s, 1,200 × 848; 12.28 MB
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In-Situ-Dividing-and-Phagocytosing-Retinal-Microglia-Express-Nestin-Vimentin-and-NG2-In-Vivo-pone.0022408.s001.ogv 5.0 s, 1,245 × 1,245; 396 KB
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In-Situ-Dividing-and-Phagocytosing-Retinal-Microglia-Express-Nestin-Vimentin-and-NG2-In-Vivo-pone.0022408.s002.ogv 9.0 s, 1,245 × 1,245; 1.14 MB
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In-Vivo-Cell-and-Tissue-Dynamics-Underlying-Zebrafish-Fin-Fold-Regeneration-pone.0051766.s001.ogv 6.9 s, 512 × 512; 533 KB
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In-Vivo-Cell-and-Tissue-Dynamics-Underlying-Zebrafish-Fin-Fold-Regeneration-pone.0051766.s002.ogv 22 s, 512 × 512; 2.72 MB
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In-Vivo-Cell-and-Tissue-Dynamics-Underlying-Zebrafish-Fin-Fold-Regeneration-pone.0051766.s003.ogv 6.9 s, 512 × 512; 1.72 MB
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In-Vivo-Cell-and-Tissue-Dynamics-Underlying-Zebrafish-Fin-Fold-Regeneration-pone.0051766.s004.ogv 23 s, 450 × 396; 1.95 MB
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In-Vivo-Cell-and-Tissue-Dynamics-Underlying-Zebrafish-Fin-Fold-Regeneration-pone.0051766.s009.ogv 9.0 s, 512 × 512; 3.49 MB
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In-Vivo-Cell-and-Tissue-Dynamics-Underlying-Zebrafish-Fin-Fold-Regeneration-pone.0051766.s010.ogv 9.0 s, 512 × 512; 1.7 MB
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Modulation-of-Osteoclastogenesis-with-Macrophage-M1--and-M2-Inducing-Stimuli-pone.0104498.s002.ogv 21 s, 640 × 480; 18.6 MB
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Modulation-of-Osteoclastogenesis-with-Macrophage-M1--and-M2-Inducing-Stimuli-pone.0104498.s003.ogv 21 s, 640 × 480; 17.62 MB
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Modulation-of-Osteoclastogenesis-with-Macrophage-M1--and-M2-Inducing-Stimuli-pone.0104498.s004.ogv 21 s, 640 × 480; 5.64 MB
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MRI-Based-Localisation-and-Quantification-of-Abscesses-following-Experimental-S.-aureus-Intravenous-pone.0154705.s008.ogv 3 min 26 s, 504 × 504; 22.19 MB
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Pathogenic-Neisseria-Hitchhike-on-the-Uropod-of-Human-Neutrophils-pone.0024353.s004.ogv 8.0 s, 530 × 450; 820 KB
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Pathogenic-Neisseria-Hitchhike-on-the-Uropod-of-Human-Neutrophils-pone.0024353.s005.ogv 4.8 s, 203 × 172; 217 KB
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Pathogenic-Neisseria-Hitchhike-on-the-Uropod-of-Human-Neutrophils-pone.0024353.s006.ogv 5.7 s, 1,000 × 500; 1.32 MB
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Pathogenic-Neisseria-Hitchhike-on-the-Uropod-of-Human-Neutrophils-pone.0024353.s007.ogv 8.6 s, 322 × 232; 1.6 MB
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Pathogenic-Neisseria-Hitchhike-on-the-Uropod-of-Human-Neutrophils-pone.0024353.s008.ogv 17 s, 377 × 300; 5.01 MB
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Pathogenic-Neisseria-Hitchhike-on-the-Uropod-of-Human-Neutrophils-pone.0024353.s009.ogv 8.0 s, 358 × 300; 2.3 MB
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Perivascular-Mural-Cells-of-the-Mouse-Choroid-Demonstrate-Morphological-Diversity-That-Is-pone.0053386.s004.ogv 5.5 s, 2,048 × 4,026; 2.2 MB
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Physiological-Characterisation-of-Human-iPS-Derived-Dopaminergic-Neurons-pone.0087388.s009.ogv 1 min 23 s, 128 × 128; 6.82 MB
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Rapid-Bead-Based-Antimicrobial-Susceptibility-Testing-by-Optical-Diffusometry-pone.0148864.s001.ogv 12 s, 1,360 × 1,024; 369 KB
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Rapid-Bead-Based-Antimicrobial-Susceptibility-Testing-by-Optical-Diffusometry-pone.0148864.s002.ogv 1 min 40 s, 320 × 240; 440 KB
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Rapid-Bead-Based-Antimicrobial-Susceptibility-Testing-by-Optical-Diffusometry-pone.0148864.s003.ogv 1 min 20 s, 320 × 240; 736 KB
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Rapid-Bead-Based-Antimicrobial-Susceptibility-Testing-by-Optical-Diffusometry-pone.0148864.s005.ogv 1 min 0 s, 320 × 240; 327 KB
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Rgs13-Constrains-Early-B-Cell-Responses-and-Limits-Germinal-Center-Sizes-pone.0060139.s004.ogv 3.9 s, 700 × 526; 1.68 MB
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Rgs13-Constrains-Early-B-Cell-Responses-and-Limits-Germinal-Center-Sizes-pone.0060139.s005.ogv 2.5 s, 700 × 526; 2.13 MB
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Rgs13-Constrains-Early-B-Cell-Responses-and-Limits-Germinal-Center-Sizes-pone.0060139.s006.ogv 3.7 s, 700 × 526; 2.6 MB
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Self-Organizing-3D-Human-Neural-Tissue-Derived-from-Induced-Pluripotent-Stem-Cells-Recapitulate-pone.0161969.s005.ogv 4.5 s, 1,024 × 1,024; 3.77 MB
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Self-Organizing-3D-Human-Neural-Tissue-Derived-from-Induced-Pluripotent-Stem-Cells-Recapitulate-pone.0161969.s006.ogv 3.7 s, 1,024 × 1,024; 1.32 MB
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Spatial-Temporal-Study-of-Rab1b-Dynamics-and-Function-at-the-ER-Golgi-Interface-pone.0160838.s002.ogv 37 s, 1,920 × 1,080; 7.13 MB
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Spatial-Temporal-Study-of-Rab1b-Dynamics-and-Function-at-the-ER-Golgi-Interface-pone.0160838.s004.ogv 50 s, 1,280 × 720; 4.59 MB
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Targeting-MT1-MMP-as-an-ImmunoPET-Based-Strategy-for-Imaging-Gliomas-pone.0158634.s004.ogv 9.7 s, 736 × 736; 3.19 MB
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Targeting-MT1-MMP-as-an-ImmunoPET-Based-Strategy-for-Imaging-Gliomas-pone.0158634.s005.ogv 9.7 s, 560 × 560; 2.36 MB
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Three-Dimensional-Tomographic-Super-Resolution-Fluorescence-Imaging-of-Serially-Sectioned-Thick-pone.0038098.s001.ogv 7.5 s, 2,052 × 2,310; 7.16 MB
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Unlike-Physical-Exercise-Modified-Environment-Increases-the-Lifespan-of-SOD1G93A-Mice-However-Both-pone.0045503.s001.ogv 1 min 30 s, 320 × 240; 2.64 MB
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Unlike-Physical-Exercise-Modified-Environment-Increases-the-Lifespan-of-SOD1G93A-Mice-However-Both-pone.0045503.s002.ogv 2 min 24 s, 320 × 240; 2.65 MB