Category:Videos of cell differentiation

Media in category "Videos of cell differentiation"

The following 200 files are in this category, out of 426 total.

• 2D-and-3D-Organized-Cardiac-Cells-Shows-Differences-in-Cellular-Morphology-Adhesion-Junctions-pone.0038147.s001.ogv 7.9 s, 375 × 348; 1,000 KB
  
• 2D-and-3D-Organized-Cardiac-Cells-Shows-Differences-in-Cellular-Morphology-Adhesion-Junctions-pone.0038147.s002.ogv 1.5 s, 512 × 533; 1.66 MB
  
• A-Cell-Cycle-Role-for-the-Epigenetic-Factor-CTCF-LBORIS-pone.0039371.s002.ogv 16 s, 768 × 576; 1.08 MB
  
• A-Cellular-Automata-Based-Mathematical-Model-for-Thymocyte-Development-pone.0008233.s001.ogv 1 min 52 s, 316 × 392; 8.8 MB
  
• A-Cellular-Automata-Based-Mathematical-Model-for-Thymocyte-Development-pone.0008233.s002.ogv 1 min 52 s, 316 × 392; 6.04 MB
  
• A-Cellular-Automata-Based-Mathematical-Model-for-Thymocyte-Development-pone.0008233.s003.ogv 1 min 52 s, 316 × 392; 10.33 MB
  
• A-Computational-Approach-to-Understand-In-Vitro-Alveolar-Morphogenesis-pone.0004819.s004.ogv 51 s, 320 × 240; 358 KB
  
• A-Computational-Approach-to-Understand-In-Vitro-Alveolar-Morphogenesis-pone.0004819.s005.ogv 51 s, 320 × 240; 515 KB
  
• A-Computational-Approach-to-Understand-In-Vitro-Alveolar-Morphogenesis-pone.0004819.s006.ogv 51 s, 320 × 240; 706 KB
  
• A-Computational-Approach-to-Understand-In-Vitro-Alveolar-Morphogenesis-pone.0004819.s007.ogv 55 s, 320 × 240; 2.33 MB
  
• A-Computational-Approach-to-Understand-In-Vitro-Alveolar-Morphogenesis-pone.0004819.s008.ogv 55 s, 320 × 240; 4.84 MB
  
• A-Computational-Approach-to-Understand-In-Vitro-Alveolar-Morphogenesis-pone.0004819.s009.ogv 55 s, 320 × 240; 3.85 MB
  
• A-Computational-Approach-to-Understand-In-Vitro-Alveolar-Morphogenesis-pone.0004819.s010.ogv 51 s, 320 × 240; 333 KB
  
• A-Computational-Approach-to-Understand-In-Vitro-Alveolar-Morphogenesis-pone.0004819.s011.ogv 51 s, 320 × 240; 285 KB
  
• A-Computational-Clonal-Analysis-of-the-Developing-Mouse-Limb-Bud-pcbi.1001071.s009.ogv 18 s, 854 × 722; 16.25 MB
  
• A-Computational-Clonal-Analysis-of-the-Developing-Mouse-Limb-Bud-pcbi.1001071.s010.ogv 18 s, 917 × 719; 8.64 MB
  
• A-Computational-Clonal-Analysis-of-the-Developing-Mouse-Limb-Bud-pcbi.1001071.s011.ogv 25 s, 925 × 720; 1.48 MB
  
• A-Deficiency-of-Ceramide-Biosynthesis-Causes-Cerebellar-Purkinje-Cell-Neurodegeneration-and-pgen.1002063.s008.ogv 33 s, 960 × 540; 4.4 MB
  
• A-Key-Role-for-Poly(ADP-Ribose)-Polymerase-3-in-Ectodermal-Specification-and-Neural-Crest-pone.0015834.s008.ogv 23 s, 640 × 480; 2.61 MB
  
• A-Model-of-Ischemia-Induced-Neuroblast-Activation-in-the-Adult-Subventricular-Zone-pone.0005278.s009.ogv 5.2 s, 976 × 816; 2.77 MB
  
• A-Model-of-Ischemia-Induced-Neuroblast-Activation-in-the-Adult-Subventricular-Zone-pone.0005278.s010.ogv 20 s, 356 × 314; 175 KB
  
• A-Model-of-Ischemia-Induced-Neuroblast-Activation-in-the-Adult-Subventricular-Zone-pone.0005278.s011.ogv 20 s, 356 × 314; 183 KB
  
• A-Novel-Serum-Free-Monolayer-Culture-for-Orderly-Hematopoietic-Differentiation-of-Human-Pluripotent-pone.0022261.s001.ogv 46 s, 320 × 240; 7.59 MB
  
• A-Novel-Serum-Free-Monolayer-Culture-for-Orderly-Hematopoietic-Differentiation-of-Human-Pluripotent-pone.0022261.s002.ogv 1 min 35 s, 320 × 240; 19.08 MB
  
• A-Novel-Serum-Free-Monolayer-Culture-for-Orderly-Hematopoietic-Differentiation-of-Human-Pluripotent-pone.0022261.s003.ogv 42 s, 320 × 240; 7.93 MB
  
• A-Photoprotein-in-Mouse-Embryonic-Stem-Cells-Measures-Ca2+-Mobilization-in-Cells-and-in-Animals-pone.0008882.s001.ogv 13 s, 320 × 240; 2.76 MB
  
• A-Photoprotein-in-Mouse-Embryonic-Stem-Cells-Measures-Ca2+-Mobilization-in-Cells-and-in-Animals-pone.0008882.s002.ogv 16 s, 640 × 480; 7 MB
  
• A-Photoprotein-in-Mouse-Embryonic-Stem-Cells-Measures-Ca2+-Mobilization-in-Cells-and-in-Animals-pone.0008882.s003.ogv 6.8 s, 512 × 512; 305 KB
  
• A-Universal-System-for-Highly-Efficient-Cardiac-Differentiation-of-Human-Induced-Pluripotent-Stem-pone.0018293.s012.ogv 29 s, 960 × 720; 3.26 MB
  
• A-Universal-System-for-Highly-Efficient-Cardiac-Differentiation-of-Human-Induced-Pluripotent-Stem-pone.0018293.s013.ogv 30 s, 960 × 720; 7.96 MB
  
• A-Universal-System-for-Highly-Efficient-Cardiac-Differentiation-of-Human-Induced-Pluripotent-Stem-pone.0018293.s014.ogv 11 s, 560 × 416; 3.86 MB
  
• A-Universal-System-for-Highly-Efficient-Cardiac-Differentiation-of-Human-Induced-Pluripotent-Stem-pone.0018293.s015.ogv 16 s, 560 × 416; 3.01 MB
  
• A-Voltage-Sensitive-Dye-Based-Assay-for-the-Identification-of-Differentiated-Neurons-Derived-from-pone.0013833.s001.ogv 9.6 s, 720 × 540; 1.1 MB
  
• Alzheimer’s-Related-Peptide-Amyloid-β-Plays-a-Conserved-Role-in-Angiogenesis-pone.0039598.s003.ogv 16 s, 720 × 480; 4.8 MB
  
• Assembly-and-Development-of-the-Pseudomonas-aeruginosa-Biofilm-Matrix-ppat.1000354.s003.ogv 5.0 s, 519 × 512; 191 KB
  
• Assembly-and-Development-of-the-Pseudomonas-aeruginosa-Biofilm-Matrix-ppat.1000354.s004.ogv 8.0 s, 519 × 512; 451 KB
  
• Ca2+-regulation-in-the-absence-of-the-iplA-gene-product-in-Dictyostelium-discoideum-1471-2121-6-13-S1.ogv 41 s, 805 × 308; 977 KB
  
• Ca2+-regulation-in-the-absence-of-the-iplA-gene-product-in-Dictyostelium-discoideum-1471-2121-6-13-S2.ogv 41 s, 804 × 308; 953 KB
  
• Ca2+-regulation-in-the-absence-of-the-iplA-gene-product-in-Dictyostelium-discoideum-1471-2121-6-13-S3.ogv 41 s, 804 × 308; 996 KB
  
• Cadherin-2-Controls-Directional-Chain-Migration-of-Cerebellar-Granule-Neurons-pbio.1000240.s003.ogv 16 s, 320 × 240; 157 KB
  
• Cadherin-2-Controls-Directional-Chain-Migration-of-Cerebellar-Granule-Neurons-pbio.1000240.s004.ogv 26 s, 320 × 240; 459 KB
  
• Cadherin-2-Controls-Directional-Chain-Migration-of-Cerebellar-Granule-Neurons-pbio.1000240.s005.ogv 44 s, 320 × 240; 537 KB
  
• Cadherin-2-Controls-Directional-Chain-Migration-of-Cerebellar-Granule-Neurons-pbio.1000240.s006.ogv 36 s, 320 × 240; 469 KB
  
• Cadherin-2-Controls-Directional-Chain-Migration-of-Cerebellar-Granule-Neurons-pbio.1000240.s007.ogv 47 s, 320 × 240; 269 KB
  
• Cadherin-2-Controls-Directional-Chain-Migration-of-Cerebellar-Granule-Neurons-pbio.1000240.s008.ogv 10 s, 1,182 × 390; 231 KB
  
• Cadherin-2-Controls-Directional-Chain-Migration-of-Cerebellar-Granule-Neurons-pbio.1000240.s009.ogv 1 min 17 s, 320 × 240; 769 KB
  
• Cadherin-2-Controls-Directional-Chain-Migration-of-Cerebellar-Granule-Neurons-pbio.1000240.s010.ogv 1 min 12 s, 320 × 240; 1.01 MB
  
• Cadherin-2-Controls-Directional-Chain-Migration-of-Cerebellar-Granule-Neurons-pbio.1000240.s011.ogv 1 min 55 s, 324 × 324; 338 KB
  
• Cadherin-2-Controls-Directional-Chain-Migration-of-Cerebellar-Granule-Neurons-pbio.1000240.s012.ogv 11 s, 320 × 240; 94 KB
  
• Cadherin-2-Controls-Directional-Chain-Migration-of-Cerebellar-Granule-Neurons-pbio.1000240.s013.ogv 8.8 s, 320 × 240; 81 KB
  
• Cadherin-2-Controls-Directional-Chain-Migration-of-Cerebellar-Granule-Neurons-pbio.1000240.s014.ogv 21 s, 334 × 334; 92 KB
  
• Cadherin-2-Controls-Directional-Chain-Migration-of-Cerebellar-Granule-Neurons-pbio.1000240.s015.ogv 18 s, 240 × 254; 64 KB
  
• Cadherin-2-Controls-Directional-Chain-Migration-of-Cerebellar-Granule-Neurons-pbio.1000240.s016.ogv 1 min 8 s, 320 × 240; 166 KB
  
• Cadherin-2-Controls-Directional-Chain-Migration-of-Cerebellar-Granule-Neurons-pbio.1000240.s017.ogv 11 s, 320 × 240; 41 KB
  
• Capture-of-Neuroepithelial-Like-Stem-Cells-from-Pluripotent-Stem-Cells-Provides-a-Versatile-System-pone.0029597.s009.ogv 23 s, 1,152 × 924; 10.99 MB
  
• Cardiomyocyte-Formation-by-Skeletal-Muscle-Derived-Multi-Myogenic-Stem-Cells-after-Transplantation-pone.0001789.s002.ogv 33 s, 320 × 240; 1.64 MB
  
• Cardiomyocyte-Formation-by-Skeletal-Muscle-Derived-Multi-Myogenic-Stem-Cells-after-Transplantation-pone.0001789.s003.ogv 30 s, 320 × 240; 1.89 MB
  
• Checkpoints-in-a-Yeast-Differentiation-Pathway-Coordinate-Signaling-during-Hyperosmotic-Stress-pgen.1002437.s019.ogv 5.0 s, 160 × 153; 29 KB
  
• Chemotaxis-in-Densely-Populated-Tissue-Determines-Germinal-Center-Anatomy-and-Cell-Motility-A-New-pone.0027650.s008.ogv 5.9 s, 580 × 520; 552 KB
  
• Chemotaxis-in-Densely-Populated-Tissue-Determines-Germinal-Center-Anatomy-and-Cell-Motility-A-New-pone.0027650.s009.ogv 25 s, 324 × 424; 9.68 MB
  
• Chemotaxis-in-Densely-Populated-Tissue-Determines-Germinal-Center-Anatomy-and-Cell-Motility-A-New-pone.0027650.s010.ogv 22 s, 336 × 364; 7.33 MB
  
• Connexin-36-Expression-Regulates-Neuronal-Differentiation-from-Neural-Progenitor-Cells-pone.0014746.s004.ogv 9.1 s, 1,024 × 1,024; 2.2 MB
  
• Connexin-36-Expression-Regulates-Neuronal-Differentiation-from-Neural-Progenitor-Cells-pone.0014746.s005.ogv 9.1 s, 1,024 × 1,024; 2.4 MB
  
• Continued-Stabilization-of-the-Nuclear-Higher-Order-Structure-of-Post-Mitotic-Neurons-In-Vivo-pone.0021360.s001.ogv 5.0 s, 187 × 187; 8 KB
  
• Continued-Stabilization-of-the-Nuclear-Higher-Order-Structure-of-Post-Mitotic-Neurons-In-Vivo-pone.0021360.s002.ogv 5.0 s, 187 × 187; 9 KB
  
• Continued-Stabilization-of-the-Nuclear-Higher-Order-Structure-of-Post-Mitotic-Neurons-In-Vivo-pone.0021360.s003.ogv 5.0 s, 187 × 187; 10 KB
  
• Continued-Stabilization-of-the-Nuclear-Higher-Order-Structure-of-Post-Mitotic-Neurons-In-Vivo-pone.0021360.s004.ogv 4.8 s, 187 × 187; 10 KB
  
• Continued-Stabilization-of-the-Nuclear-Higher-Order-Structure-of-Post-Mitotic-Neurons-In-Vivo-pone.0021360.s005.ogv 5.0 s, 234 × 211; 15 KB
  
• Continued-Stabilization-of-the-Nuclear-Higher-Order-Structure-of-Post-Mitotic-Neurons-In-Vivo-pone.0021360.s006.ogv 4.8 s, 152 × 154; 9 KB
  
• Continued-Stabilization-of-the-Nuclear-Higher-Order-Structure-of-Post-Mitotic-Neurons-In-Vivo-pone.0021360.s007.ogv 3.3 s, 167 × 177; 9 KB
  
• Continued-Stabilization-of-the-Nuclear-Higher-Order-Structure-of-Post-Mitotic-Neurons-In-Vivo-pone.0021360.s008.ogv 4.7 s, 147 × 155; 21 KB
  
• Cyanobacterial-Cell-Lineage-Analysis-of-the-Spatiotemporal-hetR-Expression-Profile-during-pone.0007371.s008.ogv 36 s, 1,280 × 428; 3.07 MB
  
• Cyanobacterial-Cell-Lineage-Analysis-of-the-Spatiotemporal-hetR-Expression-Profile-during-pone.0007371.s009.ogv 36 s, 1,280 × 428; 1.83 MB
  
• Cyanobacterial-Cell-Lineage-Analysis-of-the-Spatiotemporal-hetR-Expression-Profile-during-pone.0007371.s010.ogv 13 s, 854 × 428; 407 KB
  
• Cyanobacterial-Cell-Lineage-Analysis-of-the-Spatiotemporal-hetR-Expression-Profile-during-pone.0007371.s011.ogv 21 s, 428 × 428; 129 KB
  
• Cyclical-and-Patch-Like-GDNF-Distribution-along-the-Basal-Surface-of-Sertoli-Cells-in-Mouse-and-pone.0028367.s006.ogv 32 s, 640 × 480; 2.09 MB
  
• Cyclical-and-Patch-Like-GDNF-Distribution-along-the-Basal-Surface-of-Sertoli-Cells-in-Mouse-and-pone.0028367.s007.ogv 32 s, 640 × 480; 2.51 MB
  
• Dedifferentiation-and-Proliferation-of-Mammalian-Cardiomyocytes-pone.0012559.s007.ogv 6.9 s, 640 × 480; 1.14 MB
  
• Dedifferentiation-and-Proliferation-of-Mammalian-Cardiomyocytes-pone.0012559.s008.ogv 9.0 s, 640 × 480; 1.75 MB
  
• Dedifferentiation-and-Proliferation-of-Mammalian-Cardiomyocytes-pone.0012559.s009.ogv 11 s, 640 × 480; 850 KB
  
• Dedifferentiation-and-Proliferation-of-Mammalian-Cardiomyocytes-pone.0012559.s010.ogv 4.0 s, 640 × 480; 934 KB
  
• Dedifferentiation-and-Proliferation-of-Mammalian-Cardiomyocytes-pone.0012559.s011.ogv 12 s, 640 × 480; 1.21 MB
  
• Deficiency-of-Huntingtin-Has-Pleiotropic-Effects-in-the-Social-Amoeba-Dictyostelium-discoideum-pgen.1002052.s005.ogv 8.2 s, 640 × 480; 13.81 MB
  
• Deficiency-of-Huntingtin-Has-Pleiotropic-Effects-in-the-Social-Amoeba-Dictyostelium-discoideum-pgen.1002052.s006.ogv 7.1 s, 640 × 480; 11.61 MB
  
• Deficiency-of-Huntingtin-Has-Pleiotropic-Effects-in-the-Social-Amoeba-Dictyostelium-discoideum-pgen.1002052.s007.ogv 8.9 s, 480 × 384; 16.28 MB
  
• Deficiency-of-Huntingtin-Has-Pleiotropic-Effects-in-the-Social-Amoeba-Dictyostelium-discoideum-pgen.1002052.s008.ogv 9.0 s, 480 × 384; 20.37 MB
  
• Deficiency-of-Huntingtin-Has-Pleiotropic-Effects-in-the-Social-Amoeba-Dictyostelium-discoideum-pgen.1002052.s009.ogv 13 s, 480 × 384; 18.45 MB
  
• Deficiency-of-Huntingtin-Has-Pleiotropic-Effects-in-the-Social-Amoeba-Dictyostelium-discoideum-pgen.1002052.s010.ogv 12 s, 480 × 384; 19.94 MB
  
• Dendrites-differ-from-axons-in-patterns-of-microtubule-stability-and-polymerization-during-1749-8104-4-26-S1.ogv 1.6 s, 642 × 236; 66 KB
  
• Dendrites-differ-from-axons-in-patterns-of-microtubule-stability-and-polymerization-during-1749-8104-4-26-S2.ogv 3.1 s, 196 × 112; 23 KB
  
• Dendrites-differ-from-axons-in-patterns-of-microtubule-stability-and-polymerization-during-1749-8104-4-26-S3.ogv 3.1 s, 78 × 224; 24 KB
  
• Dendrites-differ-from-axons-in-patterns-of-microtubule-stability-and-polymerization-during-1749-8104-4-26-S4.ogv 1.6 s, 682 × 285; 29 KB
  
• Dendrites-differ-from-axons-in-patterns-of-microtubule-stability-and-polymerization-during-1749-8104-4-26-S5.ogv 2.0 s, 315 × 189; 221 KB
  
• Dendrites-differ-from-axons-in-patterns-of-microtubule-stability-and-polymerization-during-1749-8104-4-26-S6.ogv 1.6 s, 297 × 186; 6 KB
  
• Dendrites-differ-from-axons-in-patterns-of-microtubule-stability-and-polymerization-during-1749-8104-4-26-S7.ogv 1.6 s, 505 × 409; 70 KB
  
• Dendrites-differ-from-axons-in-patterns-of-microtubule-stability-and-polymerization-during-1749-8104-4-26-S8.ogv 1.6 s, 474 × 548; 84 KB
  
• Dendrites-differ-from-axons-in-patterns-of-microtubule-stability-and-polymerization-during-1749-8104-4-26-S9.ogv 3.1 s, 502 × 619; 148 KB
  
• Detrimental-Effects-of-Microgravity-on-Mouse-Preimplantation-Development-In-Vitro-pone.0006753.s001.ogv 21 s, 320 × 240; 3.26 MB
  
• Detrimental-Effects-of-Microgravity-on-Mouse-Preimplantation-Development-In-Vitro-pone.0006753.s002.ogv 20 s, 1,052 × 893; 15.37 MB
  
• Detrimental-Effects-of-Microgravity-on-Mouse-Preimplantation-Development-In-Vitro-pone.0006753.s003.ogv 20 s, 1,052 × 893; 12.78 MB
  
• Direct-Contact-with-Endoderm-Like-Cells-Efficiently-Induces-Cardiac-Progenitors-from-Mouse-and-pone.0046413.s001.ogv 7.9 s, 640 × 480; 642 KB
  
• Direct-Generation-of-Neurosphere-Like-Cells-from-Human-Dermal-Fibroblasts-pone.0021801.s010.ogv 56 s, 640 × 480; 9.47 MB
  
• Directing-Astroglia-from-the-Cerebral-Cortex-into-Subtype-Specific-Functional-Neurons-pbio.1000373.s007.ogv 12 s, 1,000 × 420; 269 KB
  
• Directing-Astroglia-from-the-Cerebral-Cortex-into-Subtype-Specific-Functional-Neurons-pbio.1000373.s008.ogv 30 s, 720 × 576; 1.18 MB
  
• Directing-Astroglia-from-the-Cerebral-Cortex-into-Subtype-Specific-Functional-Neurons-pbio.1000373.s009.ogv 20 s, 720 × 576; 425 KB
  
• Dlx-and-sp6-9-Control-Optic-Cup-Regeneration-in-a-Prototypic-Eye-pgen.1002226.s015.ogv 6.4 s, 659 × 524; 124 KB
  
• Dorsomorphin-a-Selective-Small-Molecule-Inhibitor-of-BMP-Signaling-Promotes-Cardiomyogenesis-in-pone.0002904.s003.ogv 11 s, 640 × 480; 475 KB
  
• Dorsomorphin-a-Selective-Small-Molecule-Inhibitor-of-BMP-Signaling-Promotes-Cardiomyogenesis-in-pone.0002904.s004.ogv 7.4 s, 640 × 480; 681 KB
  
• Dorsomorphin-a-Selective-Small-Molecule-Inhibitor-of-BMP-Signaling-Promotes-Cardiomyogenesis-in-pone.0002904.s005.ogv 8.3 s, 640 × 480; 188 KB
  
• Drosophila-type-II-neuroblast-lineages-keep-Prospero-levels-low-to-generate-large-clones-that-1749-8104-5-26-S1.ogv 10 s, 550 × 480; 2.64 MB
  
• Drosophila-type-II-neuroblast-lineages-keep-Prospero-levels-low-to-generate-large-clones-that-1749-8104-5-26-S2.ogv 10 s, 608 × 480; 2.08 MB
  
• Drosophila-type-II-neuroblast-lineages-keep-Prospero-levels-low-to-generate-large-clones-that-1749-8104-5-26-S3.ogv 10 s, 460 × 480; 2.48 MB
  
• Drosophila-type-II-neuroblast-lineages-keep-Prospero-levels-low-to-generate-large-clones-that-1749-8104-5-26-S4.ogv 10 s, 548 × 480; 1.26 MB
  
• Dynamic-and-Differential-Regulation-of-Stem-Cell-Factor-FoxD3-in-the-Neural-Crest-Is-Encrypted-in-pgen.1003142.s007.ogv 10 s, 712 × 480; 343 KB
  
• Dynamic-and-Differential-Regulation-of-Stem-Cell-Factor-FoxD3-in-the-Neural-Crest-Is-Encrypted-in-pgen.1003142.s008.ogv 14 s, 640 × 360; 405 KB
  
• Early-Activation-of-FGF-and-Nodal-Pathways-Mediates-Cardiac-Specification-Independently-of-Wntβ-pone.0007650.s008.ogv 16 s, 320 × 240; 45 KB
  
• Effective-Cardiac-Myocyte-Differentiation-of-Human-Induced-Pluripotent-Stem-Cells-Requires-VEGF-pone.0053764.s001.ogv 10 s, 854 × 480; 3.22 MB
  
• Effective-Cardiac-Myocyte-Differentiation-of-Human-Induced-Pluripotent-Stem-Cells-Requires-VEGF-pone.0053764.s002.ogv 10 s, 854 × 480; 1.82 MB
  
• Effective-Cardiac-Myocyte-Differentiation-of-Human-Induced-Pluripotent-Stem-Cells-Requires-VEGF-pone.0053764.s003.ogv 10 s, 854 × 480; 2.76 MB
  
• Effective-Cardiac-Myocyte-Differentiation-of-Human-Induced-Pluripotent-Stem-Cells-Requires-VEGF-pone.0053764.s004.ogv 10 s, 854 × 480; 2.78 MB
  
• Effective-Cardiac-Myocyte-Differentiation-of-Human-Induced-Pluripotent-Stem-Cells-Requires-VEGF-pone.0053764.s005.ogv 11 s, 854 × 480; 3.07 MB
  
• Effective-Cardiac-Myocyte-Differentiation-of-Human-Induced-Pluripotent-Stem-Cells-Requires-VEGF-pone.0053764.s006.ogv 10 s, 854 × 480; 3.32 MB
  
• Effective-Cardiac-Myocyte-Differentiation-of-Human-Induced-Pluripotent-Stem-Cells-Requires-VEGF-pone.0053764.s007.ogv 18 s, 854 × 480; 1.08 MB
  
• Efficient-Conversion-of-Astrocytes-to-Functional-Midbrain-Dopaminergic-Neurons-Using-a-Single-pone.0028719.s002.ogv 18 s, 640 × 480; 390 KB
  
• Efficient-Derivation-of-Multipotent-Neural-StemProgenitor-Cells-from-Non-Human-Primate-Embryonic-pone.0049469.s002.ogv 10 s, 180 × 180; 32 KB
  
• Efficient-Differentiation-of-Embryonic-Stem-Cells-into-Mesodermal-Precursors-by-BMP-Retinoic-Acid-pone.0036405.s001.ogv 3 min 19 s, 480 × 360; 49.48 MB
  
• Elucidation-of-a-Novel-Pathway-through-Which-HDAC1-Controls-Cardiomyocyte-Differentiation-through-pone.0045046.s001.ogv 14 s, 640 × 480; 3.37 MB
  
• Elucidation-of-a-Novel-Pathway-through-Which-HDAC1-Controls-Cardiomyocyte-Differentiation-through-pone.0045046.s002.ogv 5.7 s, 640 × 480; 1.19 MB
  
• Elucidation-of-a-Novel-Pathway-through-Which-HDAC1-Controls-Cardiomyocyte-Differentiation-through-pone.0045046.s003.ogv 13 s, 640 × 360; 6.39 MB
  
• Elucidation-of-a-Novel-Pathway-through-Which-HDAC1-Controls-Cardiomyocyte-Differentiation-through-pone.0045046.s004.ogv 17 s, 640 × 360; 5.2 MB
  
• Emergent-Dynamics-of-Thymocyte-Development-and-Lineage-Determination-pcbi.0030013.sv001.ogv 31 s, 800 × 600; 16.65 MB
  
• Emergent-Dynamics-of-Thymocyte-Development-and-Lineage-Determination-pcbi.0030013.sv004.ogv 39 s, 796 × 668; 2.03 MB
  
• Exploring-Hypotheses-of-the-Actions-of-TGF-β1-in-Epidermal-Wound-Healing-Using-a-3D-Computational-pone.0008515.s001.ogv 1 min 5 s, 768 × 576; 6.32 MB
  
• EXtraembryonic-ENdoderm-(XEN)-Stem-Cells-Produce-Factors-that-Activate-Heart-Formation-pone.0013446.s003.ogv 7.9 s, 1,088 × 816; 406 KB
  
• EXtraembryonic-ENdoderm-(XEN)-Stem-Cells-Produce-Factors-that-Activate-Heart-Formation-pone.0013446.s004.ogv 11 s, 1,088 × 816; 322 KB
  
• Fabrication-of-Mouse-Embryonic-Stem-Cell-Derived-Layered-Cardiac-Cell-Sheets-Using-a-Bioreactor-pone.0052176.s004.ogv 10 s, 640 × 480; 2.96 MB
  
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• Fabrication-of-Mouse-Embryonic-Stem-Cell-Derived-Layered-Cardiac-Cell-Sheets-Using-a-Bioreactor-pone.0052176.s006.ogv 9.6 s, 640 × 480; 1.1 MB
  
• Fabrication-of-Mouse-Embryonic-Stem-Cell-Derived-Layered-Cardiac-Cell-Sheets-Using-a-Bioreactor-pone.0052176.s007.ogv 10 s, 640 × 480; 4.74 MB
  
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• Fli+-etsrp+-Hemato-Vascular-Progenitor-Cells-Proliferate-at-the-Lateral-Plate-Mesoderm-during-pone.0014732.s008.ogv 7.2 s, 1,388 × 1,040; 1.36 MB
  
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• Functional-and-Pathogenic-Differences-of-Th1-and-Th17-Cells-in-Experimental-Autoimmune-pone.0015531.s003.ogv 1.6 s, 640 × 480; 67 KB
  
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• Functional-and-Pathogenic-Differences-of-Th1-and-Th17-Cells-in-Experimental-Autoimmune-pone.0015531.s009.ogv 7.6 s, 975 × 258; 2 MB
  
• Functional-and-Pathogenic-Differences-of-Th1-and-Th17-Cells-in-Experimental-Autoimmune-pone.0015531.s010.ogv 7.6 s, 975 × 258; 2.68 MB
  
• Functional-and-Transcriptional-Characterization-of-Human-Embryonic-Stem-Cell-Derived-Endothelial-pone.0008443.s013.ogv 13 s, 320 × 240; 58 KB
  
• Gene-Expression-Study-of-MonocytesMacrophages-during-Early-Foreign-Body-Reaction-and-Identification-pone.0012949.s004.ogv 2.8 s, 928 × 636; 41 KB
  
• Generation-of-Functional-Eyes-from-Pluripotent-Cells-pbio.1000174.s004.ogv 18 s, 320 × 240; 335 KB
  
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• Generation-of-human-induced-pluripotent-stem-cells-by-simple-transient-transfection-of-plasmid-DNA-1471-213X-10-81-S1.ogv 8.0 s, 696 × 520; 2.9 MB
  
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• Generation-of-Trophoblast-Stem-Cells-from-Rabbit-Embryonic-Stem-Cells-with-BMP4-pone.0017124.s005.ogv 11 s, 520 × 512; 3.12 MB
  
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• Global-transcriptome-analysis-of-murine-embryonic-stem-cell-derived-cardiomyocytes-gb-2007-8-4-r56-S1.ogv 28 s, 320 × 240; 2.03 MB
  
• Glutamatergic-Neurons-Induce-Expression-of-Functional-Glutamatergic-Synapses-in-Primary-Myotubes-pone.0031451.s003.ogv 16 s, 960 × 540; 3.14 MB
  
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• Impact-of-stirred-suspension-bioreactor-culture-on-the-differentiation-of-murine-embryonic-stem-1471-2121-12-53-S1.ogv 30 s, 640 × 480; 3.66 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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