Category:Videos of scientific techniques

Subcategories

This category has the following 2 subcategories, out of 2 total.

Media in category "Videos of scientific techniques"

The following 188 files are in this category, out of 188 total.

• 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
  
• 1.0-T-open-configuration-magnetic-resonance-guided-microwave-ablation-of-pig-livers-in-real-time-srep13551-s2.ogv 59 s, 1,280 × 720; 56.53 MB
  
• A-Multiplexed-Device-Based-on-Tunable-Nanoshearing-for-Specific-Detection-of-Multiple-Protein-srep09756-s2.ogv 1 min 31 s, 480 × 360; 1.98 MB
  
• A-rapid-and-practical-technique-for-real-time-monitoring-of-biomolecular-interactions-using-srep28001-s2.ogv 30 s, 300 × 300; 291 KB
  
• A-rapid-and-practical-technique-for-real-time-monitoring-of-biomolecular-interactions-using-srep28001-s3.ogv 21 s, 300 × 300; 283 KB
  
• A-rapid-and-practical-technique-for-real-time-monitoring-of-biomolecular-interactions-using-srep28001-s4.ogv 11 s, 500 × 412; 192 KB
  
• A-spheroid-toxicity-assay-using-magnetic-3D-bioprinting-and-real-time-mobile-device-based-imaging-srep13987-s2.ogv 21 s, 640 × 360; 781 KB
  
• An-organic-transistor-based-system-for-reference-less-electrophysiological-monitoring-of-excitable-srep08807-s2.ogv 6.4 s, 336 × 256; 254 KB
  
• Analysis-of-Wnt-signalling-dynamics-during-colon-crypt-development-in-3D-culture-srep11036-s2.ogv 26 s, 512 × 512; 3.04 MB
  
• Analysis-of-Wnt-signalling-dynamics-during-colon-crypt-development-in-3D-culture-srep11036-s3.ogv 26 s, 512 × 512; 2.29 MB
  
• Analysis-of-Wnt-signalling-dynamics-during-colon-crypt-development-in-3D-culture-srep11036-s4.ogv 18 s, 512 × 512; 2.66 MB
  
• Assessment-of-red-blood-cell-deformability-in-type-2-diabetes-mellitus-and-diabetic-retinopathy-by-srep15873-s2.ogv 1 min 3 s, 408 × 218; 2.01 MB
  
• Automated-Analysis-of-Cell-Matrix-Adhesions-in-2D-and-3D-Environments-srep08124-s1.ogv 2.7 s, 253 × 254; 90 KB
  
• Automated-Analysis-of-Cell-Matrix-Adhesions-in-2D-and-3D-Environments-srep08124-s2.ogv 2.7 s, 253 × 254; 206 KB
  
• Automated-Analysis-of-Cell-Matrix-Adhesions-in-2D-and-3D-Environments-srep08124-s3.ogv 2.7 s, 140 × 356; 19 KB
  
• Bacterial-floc-mediated-rapid-streamer-formation-in-creeping-flows-srep13070-s2.ogv 1 min 16 s, 640 × 480; 3.02 MB
  
• Bacterial-floc-mediated-rapid-streamer-formation-in-creeping-flows-srep13070-s3.ogv 3.8 s, 640 × 480; 242 KB
  
• Bipolarrod-shaped-microglia-are-proliferating-microglia-with-distinct-M1M2-phenotypes-srep07279-s2.ogv 26 s, 320 × 240; 177 KB
  
• Bipolarrod-shaped-microglia-are-proliferating-microglia-with-distinct-M1M2-phenotypes-srep07279-s3.ogv 24 s, 320 × 240; 162 KB
  
• Cep55-regulates-spindle-organization-and-cell-cycle-progression-in-meiotic-oocyte-srep16978-s2.ogv 19 s, 1,199 × 246; 223 KB
  
• Cep55-regulates-spindle-organization-and-cell-cycle-progression-in-meiotic-oocyte-srep16978-s3.ogv 19 s, 1,155 × 311; 230 KB
  
• Characterization-of-stemprogenitor-cell-cycle-using-murine-circumvallate-papilla-tastebud-organoid-srep17185-s1.ogv 6.9 s, 1,024 × 1,024; 1.16 MB
  
• Characterization-of-stemprogenitor-cell-cycle-using-murine-circumvallate-papilla-tastebud-organoid-srep17185-s2.ogv 6.4 s, 1,024 × 1,024; 3.11 MB
  
• Characterization-of-stemprogenitor-cell-cycle-using-murine-circumvallate-papilla-tastebud-organoid-srep17185-s3.ogv 4.7 s, 1,024 × 1,024; 2.57 MB
  
• Characterization-of-stemprogenitor-cell-cycle-using-murine-circumvallate-papilla-tastebud-organoid-srep17185-s4.ogv 9.5 s, 512 × 512; 2.33 MB
  
• Characterization-of-stemprogenitor-cell-cycle-using-murine-circumvallate-papilla-tastebud-organoid-srep17185-s5.ogv 4.7 s, 1,024 × 1,024; 6.55 MB
  
• Characterization-of-stemprogenitor-cell-cycle-using-murine-circumvallate-papilla-tastebud-organoid-srep17185-s6.ogv 9.5 s, 512 × 512; 4.93 MB
  
• Characterization-of-stemprogenitor-cell-cycle-using-murine-circumvallate-papilla-tastebud-organoid-srep17185-s7.ogv 4.7 s, 1,024 × 1,024; 1.13 MB
  
• Characterization-of-stemprogenitor-cell-cycle-using-murine-circumvallate-papilla-tastebud-organoid-srep17185-s8.ogv 13 s, 1,024 × 1,024; 3.8 MB
  
• Characterization-of-stemprogenitor-cell-cycle-using-murine-circumvallate-papilla-tastebud-organoid-srep17185-s9.ogv 19 s, 512 × 512; 3.32 MB
  
• Coculture-of-Primary-Motor-Neurons-and-Schwann-Cells-as-a-Model-for-In-Vitro-Myelination-srep15122-s2.ogv 4.4 s, 292 × 288; 60 KB
  
• Compartmentalized-microchannel-array-for-high-throughput-analysis-of-single-cell-polarized-growth-srep16111-s2.ogv 34 s, 506 × 120; 641 KB
  
• Compartmentalized-microchannel-array-for-high-throughput-analysis-of-single-cell-polarized-growth-srep16111-s3.ogv 43 s, 508 × 143; 278 KB
  
• Compartmentalized-microchannel-array-for-high-throughput-analysis-of-single-cell-polarized-growth-srep16111-s4.ogv 43 s, 507 × 116; 298 KB
  
• Constitutively-Active-Acetylcholine-Dependent-Potassium-Current-Increases-Atrial-Defibrillation-srep15187-s2.ogv 15 s, 522 × 288; 716 KB
  
• Constitutively-Active-Acetylcholine-Dependent-Potassium-Current-Increases-Atrial-Defibrillation-srep15187-s3.ogv 15 s, 522 × 288; 936 KB
  
• Constitutively-Active-Acetylcholine-Dependent-Potassium-Current-Increases-Atrial-Defibrillation-srep15187-s4.ogv 15 s, 522 × 288; 1.06 MB
  
• Constructive-remodeling-of-a-synthetic-endothelial-extracellular-matrix-srep18290-s2.ogv 26 s, 640 × 480; 1.08 MB
  
• Constructive-remodeling-of-a-synthetic-endothelial-extracellular-matrix-srep18290-s3.ogv 15 s, 640 × 480; 413 KB
  
• Constructive-remodeling-of-a-synthetic-endothelial-extracellular-matrix-srep18290-s4.ogv 26 s, 640 × 480; 1.13 MB
  
• Constructive-remodeling-of-a-synthetic-endothelial-extracellular-matrix-srep18290-s5.ogv 15 s, 640 × 480; 421 KB
  
• Development-of-a-cell-system-for-siRNA-screening-of-pathogen-responses-in-human-and-mouse-srep09559-s2.ogv 22 s, 414 × 406; 1.27 MB
  
• Development-of-a-cell-system-for-siRNA-screening-of-pathogen-responses-in-human-and-mouse-srep09559-s3.ogv 22 s, 414 × 406; 278 KB
  
• Development-of-a-cell-system-for-siRNA-screening-of-pathogen-responses-in-human-and-mouse-srep09559-s4.ogv 22 s, 414 × 406; 1.32 MB
  
• Direct-tumor-recognition-by-a-human-CD4+-T-cell-subset-potently-mediates-tumor-growth-inhibition-srep14896-s2.ogv 18 s, 365 × 363; 2.68 MB
  
• Droplet-interface-bilayer-assays-in-microfluidic-passive-networks-srep09951-s2.ogv 5.0 s, 672 × 224; 488 KB
  
• Droplet-interface-bilayer-assays-in-microfluidic-passive-networks-srep09951-s3.ogv 6.3 s, 874 × 296; 2.06 MB
  
• Droplet-interface-bilayer-assays-in-microfluidic-passive-networks-srep09951-s4.ogv 4.3 s, 991 × 369; 3.66 MB
  
• Droplet-interface-bilayer-assays-in-microfluidic-passive-networks-srep09951-s5.ogv 4.6 s, 984 × 424; 297 KB
  
• Droplet-interface-bilayer-assays-in-microfluidic-passive-networks-srep09951-s6.ogv 6.0 s, 984 × 424; 323 KB
  
• Droplet-interface-bilayer-assays-in-microfluidic-passive-networks-srep09951-s7.ogv 6.0 s, 984 × 424; 436 KB
  
• Droplet-interface-bilayer-assays-in-microfluidic-passive-networks-srep09951-s8.ogv 11 s, 480 × 528; 282 KB
  
• Dynamic-and-social-behaviors-of-human-pluripotent-stem-cells-srep14209-s1.ogv 1 min 9 s, 640 × 480; 32.45 MB
  
• Dynamic-and-social-behaviors-of-human-pluripotent-stem-cells-srep14209-s2.ogv 21 s, 640 × 480; 3.54 MB
  
• Dynamic-and-social-behaviors-of-human-pluripotent-stem-cells-srep14209-s3.ogv 1 min 38 s, 640 × 480; 2.66 MB
  
• Dynamic-and-social-behaviors-of-human-pluripotent-stem-cells-srep14209-s4.ogv 1 min 38 s, 640 × 480; 4.18 MB
  
• Dynamic-and-social-behaviors-of-human-pluripotent-stem-cells-srep14209-s5.ogv 1 min 9 s, 1,280 × 960; 13.19 MB
  
• Dynamic-tensile-forces-drive-collective-cell-migration-through-three-dimensional-extracellular-srep11458-s2.ogv 2.2 s, 1,296 × 864; 440 KB
  
• Dynamic-tensile-forces-drive-collective-cell-migration-through-three-dimensional-extracellular-srep11458-s3.ogv 3.6 s, 278 × 287; 190 KB
  
• From-2D-to-3D-novel-nanostructured-scaffolds-to-investigate-signalling-in-reconstructed-neuronal-srep09562-s2.ogv 25 s, 512 × 512; 2.99 MB
  
• From-2D-to-3D-novel-nanostructured-scaffolds-to-investigate-signalling-in-reconstructed-neuronal-srep09562-s3.ogv 5.6 s, 1,024 × 1,024; 4.57 MB
  
• Gremlin-2-is-a-BMP-antagonist-that-is-regulated-by-the-circadian-clock-srep05183-s2.ogv 6.4 s, 512 × 512; 2.93 MB
  
• Hearing-the-light-neural-and-perceptual-encoding-of-optogenetic-stimulation-in-the-central-auditory-srep10319-s2.ogv 35 s, 1,280 × 720; 4.44 MB
  
• High-speed-Intravascular-Photoacoustic-Imaging-of-Lipid-laden-Atherosclerotic-Plaque-Enabled-by-a-2-srep06889-s1.ogv 29 s, 854 × 480; 5.13 MB
  
• High-Throughput-Non-Contact-Vitrification-of-Cell-Laden-Droplets-Based-on-Cell-Printing-srep17928-s1.ogv 12 s, 1,920 × 1,080; 1.53 MB
  
• Highly-efficient-cell-type-specific-gene-inactivation-reveals-a-key-function-for-the-DrosophilaFUS-srep09107-s2.ogv 40 s, 352 × 288; 796 KB
  
• Highly-efficient-cell-type-specific-gene-inactivation-reveals-a-key-function-for-the-DrosophilaFUS-srep09107-s3.ogv 40 s, 352 × 288; 1.15 MB
  
• Highly-efficient-cell-type-specific-gene-inactivation-reveals-a-key-function-for-the-DrosophilaFUS-srep09107-s4.ogv 30 s, 960 × 540; 3.47 MB
  
• Highly-efficient-cell-type-specific-gene-inactivation-reveals-a-key-function-for-the-DrosophilaFUS-srep09107-s5.ogv 26 s, 352 × 288; 943 KB
  
• Highly-efficient-cell-type-specific-gene-inactivation-reveals-a-key-function-for-the-DrosophilaFUS-srep09107-s6.ogv 1 min 16 s, 352 × 288; 1.3 MB
  
• Highly-efficient-cell-type-specific-gene-inactivation-reveals-a-key-function-for-the-DrosophilaFUS-srep09107-s7.ogv 15 s, 352 × 288; 218 KB
  
• Identification-of-malaria-parasite-infected-red-blood-cell-surface-aptamers-by-inertial-srep11347-s1.ogv 8.9 s, 320 × 256; 124 KB
  
• In-Vitro-Engineering-of-Vascularized-Tissue-Surrogates-srep01316-s1.ogv 20 s, 854 × 480; 853 KB
  
• In-Vitro-Epithelial-Organoid-Generation-Induced-by-Substrate-Nanotopography-srep09293-s2.ogv 15 s, 1,080 × 1,080; 1.23 MB
  
• Junb-controls-lymphatic-vascular-development-in-zebrafish-via-miR-182-srep15007-s2.ogv 12 s, 320 × 240; 168 KB
  
• Junb-controls-lymphatic-vascular-development-in-zebrafish-via-miR-182-srep15007-s3.ogv 11 s, 320 × 240; 301 KB
  
• Junb-controls-lymphatic-vascular-development-in-zebrafish-via-miR-182-srep15007-s4.ogv 11 s, 320 × 240; 223 KB
  
• Junb-controls-lymphatic-vascular-development-in-zebrafish-via-miR-182-srep15007-s5.ogv 11 s, 320 × 240; 143 KB
  
• Junb-controls-lymphatic-vascular-development-in-zebrafish-via-miR-182-srep15007-s6.ogv 6.3 s, 320 × 240; 318 KB
  
• Junb-controls-lymphatic-vascular-development-in-zebrafish-via-miR-182-srep15007-s7.ogv 5.2 s, 320 × 240; 319 KB
  
• Junb-controls-lymphatic-vascular-development-in-zebrafish-via-miR-182-srep15007-s8.ogv 5.5 s, 320 × 240; 233 KB
  
• Junb-controls-lymphatic-vascular-development-in-zebrafish-via-miR-182-srep15007-s9.ogv 6.0 s, 320 × 240; 288 KB
  
• Lab-on-a-brain-Implantable-micro-optical-fluidic-devices-for-neural-cell-analysis-in-vivo-srep06721-s2.ogv 7.9 s, 720 × 480; 234 KB
  
• Lab-on-a-brain-Implantable-micro-optical-fluidic-devices-for-neural-cell-analysis-in-vivo-srep06721-s3.ogv 16 s, 720 × 480; 3.78 MB
  
• Long-term-maintenance-of-human-induced-pluripotent-stem-cells-by-automated-cell-culture-system-srep16647-s2.ogv 3 min 31 s, 426 × 240; 4.04 MB
  
• Microfluidic-cytometric-analysis-of-cancer-cell-transportability-and-invasiveness-srep14272-s2.ogv 10 s, 640 × 434; 409 KB
  
• Microfluidic-cytometric-analysis-of-cancer-cell-transportability-and-invasiveness-srep14272-s3.ogv 3.3 s, 640 × 480; 130 KB
  
• Multiple-scale-model-for-cell-migration-in-monolayers-Elastic-mismatch-between-cells-enhances-srep11745-s10.ogv 32 s, 320 × 240; 1.53 MB
  
• Multiple-scale-model-for-cell-migration-in-monolayers-Elastic-mismatch-between-cells-enhances-srep11745-s2.ogv 4.9 s, 320 × 240; 373 KB
  
• Multiple-scale-model-for-cell-migration-in-monolayers-Elastic-mismatch-between-cells-enhances-srep11745-s3.ogv 5.1 s, 320 × 240; 372 KB
  
• Multiple-scale-model-for-cell-migration-in-monolayers-Elastic-mismatch-between-cells-enhances-srep11745-s4.ogv 5.0 s, 320 × 240; 374 KB
  
• Multiple-scale-model-for-cell-migration-in-monolayers-Elastic-mismatch-between-cells-enhances-srep11745-s5.ogv 4.9 s, 320 × 240; 357 KB
  
• Multiple-scale-model-for-cell-migration-in-monolayers-Elastic-mismatch-between-cells-enhances-srep11745-s6.ogv 32 s, 320 × 240; 4.65 MB
  
• Multiple-scale-model-for-cell-migration-in-monolayers-Elastic-mismatch-between-cells-enhances-srep11745-s7.ogv 32 s, 320 × 240; 4.28 MB
  
• Multiple-scale-model-for-cell-migration-in-monolayers-Elastic-mismatch-between-cells-enhances-srep11745-s8.ogv 32 s, 320 × 240; 4.62 MB
  
• Multiple-scale-model-for-cell-migration-in-monolayers-Elastic-mismatch-between-cells-enhances-srep11745-s9.ogv 32 s, 320 × 240; 4.22 MB
  
• Noise-robust-recognition-of-wide-field-motion-direction-and-the-underlying-neural-mechanisms-in-srep10253-s1.ogv 4.0 s, 290 × 240; 433 KB
  
• Noise-robust-recognition-of-wide-field-motion-direction-and-the-underlying-neural-mechanisms-in-srep10253-s2.ogv 4.0 s, 290 × 240; 526 KB
  
• Noise-robust-recognition-of-wide-field-motion-direction-and-the-underlying-neural-mechanisms-in-srep10253-s3.ogv 4.0 s, 290 × 240; 639 KB
  
• Noise-robust-recognition-of-wide-field-motion-direction-and-the-underlying-neural-mechanisms-in-srep10253-s4.ogv 4.0 s, 290 × 240; 628 KB
  
• Noise-robust-recognition-of-wide-field-motion-direction-and-the-underlying-neural-mechanisms-in-srep10253-s5.ogv 4.0 s, 290 × 240; 687 KB
  
• Noise-robust-recognition-of-wide-field-motion-direction-and-the-underlying-neural-mechanisms-in-srep10253-s6.ogv 4.0 s, 290 × 240; 703 KB
  
• Novel-method-for-immunofluorescence-staining-of-mammalian-eggs-using-non-contact-alternating-srep15371-s8.ogv 29 s, 320 × 240; 1.36 MB
  
• Nr0b1-is-a-negative-regulator-of-Zscan4c-in-mouse-embryonic-stem-cells-srep09146-s2.ogv 16 s, 240 × 240; 155 KB
  
• Oxygen-induced-cell-migration-and-on-line-monitoring-biomarkers-modulation-of-cervical-cancers-on-a-srep09643-s2.ogv 11 s, 720 × 576; 629 KB
  
• Oxygen-induced-cell-migration-and-on-line-monitoring-biomarkers-modulation-of-cervical-cancers-on-a-srep09643-s3.ogv 9.1 s, 720 × 576; 788 KB
  
• Oxygen-induced-cell-migration-and-on-line-monitoring-biomarkers-modulation-of-cervical-cancers-on-a-srep09643-s4.ogv 1 min 38 s, 600 × 480; 12.97 MB
  
• Path-programmable-water-droplet-manipulations-on-an-adhesion-controlled-superhydrophobic-surface-srep12326-s1.ogv 34 s, 1,024 × 768; 2.78 MB
  
• Pattern-Transformation-of-Heat-Shrinkable-Polymer-by-Three-Dimensional-(3D)-Printing-Technique-srep08936-s2.ogv 1 min 7 s, 320 × 240; 428 KB
  
• Pattern-Transformation-of-Heat-Shrinkable-Polymer-by-Three-Dimensional-(3D)-Printing-Technique-srep08936-s3.ogv 1 min 49 s, 320 × 240; 996 KB
  
• Pattern-Transformation-of-Heat-Shrinkable-Polymer-by-Three-Dimensional-(3D)-Printing-Technique-srep08936-s4.ogv 14 s, 320 × 240; 1.3 MB
  
• Physical-supports-from-liver-cancer-cells-are-essential-for-differentiation-and-remodeling-of-srep10801-s2.ogv 20 s, 520 × 520; 1.31 MB
  
• Physical-supports-from-liver-cancer-cells-are-essential-for-differentiation-and-remodeling-of-srep10801-s3.ogv 10 s, 320 × 320; 382 KB
  
• Physical-supports-from-liver-cancer-cells-are-essential-for-differentiation-and-remodeling-of-srep10801-s4.ogv 9.9 s, 320 × 320; 361 KB
  
• Physical-supports-from-liver-cancer-cells-are-essential-for-differentiation-and-remodeling-of-srep10801-s5.ogv 2.1 s, 320 × 240; 27 KB
  
• Physical-supports-from-liver-cancer-cells-are-essential-for-differentiation-and-remodeling-of-srep10801-s6.ogv 2.0 s, 320 × 240; 31 KB
  
• Precision-Assembly-of-Complex-Cellular-Microenvironments-using-Holographic-Optical-Tweezers-srep08577-s2.ogv 17 s, 854 × 480; 372 KB
  
• Precision-Assembly-of-Complex-Cellular-Microenvironments-using-Holographic-Optical-Tweezers-srep08577-s3.ogv 5.2 s, 854 × 480; 74 KB
  
• Propagation-of-pure-fetal-and-maternal-mesenchymal-stromal-cells-from-terminal-chorionic-villi-of-srep10054-s2.ogv 26 s, 238 × 189; 652 KB
  
• Propagation-of-pure-fetal-and-maternal-mesenchymal-stromal-cells-from-terminal-chorionic-villi-of-srep10054-s3.ogv 22 s, 238 × 189; 805 KB
  
• Rapid-fusion-between-mesenchymal-stem-cells-and-cardiomyocytes-yields-electrically-active-non-srep12043-s2.ogv 4.3 s, 1,392 × 1,024; 270 KB
  
• Rapid-fusion-between-mesenchymal-stem-cells-and-cardiomyocytes-yields-electrically-active-non-srep12043-s3.ogv 15 s, 496 × 412; 2.92 MB
  
• Rapid-fusion-between-mesenchymal-stem-cells-and-cardiomyocytes-yields-electrically-active-non-srep12043-s4.ogv 4.2 s, 696 × 512; 788 KB
  
• Rapid-fusion-between-mesenchymal-stem-cells-and-cardiomyocytes-yields-electrically-active-non-srep12043-s5.ogv 5.7 s, 980 × 720; 422 KB
  
• Rapid-fusion-between-mesenchymal-stem-cells-and-cardiomyocytes-yields-electrically-active-non-srep12043-s6.ogv 17 s, 546 × 538; 2.14 MB
  
• Scaffold-free-Human-Mesenchymal-Stem-Cell-Based-Tissue-Engineered-Blood-Vessels-srep15116-s1.ogv 14 s, 336 × 240; 37 KB
  
• Single-cell-Migration-Chip-for-Chemotaxis-based-Microfluidic-Selection-of-Heterogeneous-Cell-srep09980-s2.ogv 19 s, 640 × 480; 285 KB
  
• Smart-three-dimensional-lightweight-structure-triggered-from-a-thin-composite-sheet-via-3D-printing-srep22431-s2.ogv 2 min 13 s, 320 × 240; 656 KB
  
• Smart-three-dimensional-lightweight-structure-triggered-from-a-thin-composite-sheet-via-3D-printing-srep22431-s3.ogv 4 min 30 s, 320 × 240; 673 KB
  
• Software-aided-automatic-laser-optoporation-and-transfection-of-cells-srep11185-s2.ogv 59 s, 972 × 796; 7.78 MB
  
• Software-aided-automatic-laser-optoporation-and-transfection-of-cells-srep11185-s3.ogv 1 min 19 s, 1,760 × 936; 10.63 MB
  
• Spatially-resolved-intracellular-sensing-of-hydrogen-peroxide-in-living-cells-srep16929-s1.ogv 17 s, 672 × 504; 1.96 MB
  
• Sumoylation-of-CCAATenhancer-binding-protein-α-is-implicated-in-hematopoietic-stemprogenitor-cell-srep09011-s2.ogv 14 s, 1,920 × 1,080; 2.68 MB
  
• Sumoylation-of-CCAATenhancer-binding-protein-α-is-implicated-in-hematopoietic-stemprogenitor-cell-srep09011-s3.ogv 14 s, 1,920 × 1,080; 2.58 MB
  
• Supersensitive-detection-and-discrimination-of-enantiomers-by-dorsal-olfactory-receptors-evidence-srep14073-s2.ogv 48 s, 352 × 240; 4.47 MB
  
• Synchronized-cell-attachment-triggered-by-photo-activatable-adhesive-ligands-allows-QCM-based-srep09533-s1.ogv 15 s, 562 × 407; 7.36 MB
  
• Targeted-disruption-of-a-single-sex-pheromone-receptor-gene-completely-abolishes-in-vivo-pheromone-srep11001-s2.ogv 35 s, 854 × 480; 2.29 MB
  
• Targeted-disruption-of-a-single-sex-pheromone-receptor-gene-completely-abolishes-in-vivo-pheromone-srep11001-s3.ogv 34 s, 854 × 480; 1.1 MB
  
• The-pericyte-as-a-cellular-regulator-of-penile-erection-and-a-novel-therapeutic-target-for-erectile-srep10891-s2.ogv 5.5 s, 800 × 800; 696 KB
  
• The-pericyte-as-a-cellular-regulator-of-penile-erection-and-a-novel-therapeutic-target-for-erectile-srep10891-s3.ogv 6.5 s, 808 × 808; 3.78 MB
  
• The-pericyte-as-a-cellular-regulator-of-penile-erection-and-a-novel-therapeutic-target-for-erectile-srep10891-s4.ogv 11 s, 808 × 808; 3.5 MB
  
• The-pericyte-as-a-cellular-regulator-of-penile-erection-and-a-novel-therapeutic-target-for-erectile-srep10891-s5.ogv 5.8 s, 808 × 808; 3.02 MB
  
• The-pericyte-as-a-cellular-regulator-of-penile-erection-and-a-novel-therapeutic-target-for-erectile-srep10891-s6.ogv 5.8 s, 808 × 808; 1.52 MB
  
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• Time-lapse-contact-microscopy-of-cell-cultures-based-on-non-coherent-illumination-srep14532-s1.ogv 18 s, 640 × 480; 19.73 MB
  
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