Category:Cardiac myocytes

Subcategories

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

Media in category "Cardiac myocytes"

The following 193 files are in this category, out of 193 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 single cardiomyocyte beating, five days after purification from cell culture.ogv 13 s, 274 × 206; 70 KB
  
• A-novel-method-of-cultivating-cardiac-myocytes-in-agarose-microchamber-chips-for-studying-cell-1477-3155-2-9-S1.ogv 30 s, 312 × 240; 416 KB
  
• A-novel-method-of-cultivating-cardiac-myocytes-in-agarose-microchamber-chips-for-studying-cell-1477-3155-2-9-S2.ogv 30 s, 312 × 240; 381 KB
  
• A-Reaction-Diffusion-Model-of-ROS-Induced-ROS-Release-in-a-Mitochondrial-Network-pcbi.1000657.s004.ogv 1.9 s, 324 × 120; 1.32 MB
  
• A-Reaction-Diffusion-Model-of-ROS-Induced-ROS-Release-in-a-Mitochondrial-Network-pcbi.1000657.s005.ogv 1.6 s, 316 × 134; 1.11 MB
  
• A-Reaction-Diffusion-Model-of-ROS-Induced-ROS-Release-in-a-Mitochondrial-Network-pcbi.1000657.s006.ogv 1 min 38 s, 472 × 136; 13.17 MB
  
• A-Reaction-Diffusion-Model-of-ROS-Induced-ROS-Release-in-a-Mitochondrial-Network-pcbi.1000657.s007.ogv 29 s, 472 × 136; 3.67 MB
  
• 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
  
• 
  Adult Cardiac Myocyte 1.png 966 × 937; 91 KB
  
• 
  Adult cardiac myocyte 2.png 1,052 × 1,070; 300 KB
  
• 
  Adult cardiac myocyte 3.png 1,059 × 1,065; 154 KB
  
• 
  Adult cardiac myocyte 4.png 935 × 947; 212 KB
  
• 
  Adult Cardiac Myocyte.png 1,076 × 1,079; 84 KB
  
• 
  Adult Cardiac myocyte.png 1,351 × 1,321; 259 KB
  
• An-organic-transistor-based-system-for-reference-less-electrophysiological-monitoring-of-excitable-srep08807-s2.ogv 6.4 s, 336 × 256; 254 KB
  
• Arrhythmia-Caused-by-a-Drosophila-Tropomyosin-Mutation-Is-Revealed-Using-a-Novel-Optical-Coherence-pone.0014348.s001.ogg 35 s; 294 KB
  
• Arrhythmia-Caused-by-a-Drosophila-Tropomyosin-Mutation-Is-Revealed-Using-a-Novel-Optical-Coherence-pone.0014348.s002.ogv 25 s, 478 × 316; 5.71 MB
  
• Arrhythmia-Caused-by-a-Drosophila-Tropomyosin-Mutation-Is-Revealed-Using-a-Novel-Optical-Coherence-pone.0014348.s003.ogv 32 s, 473 × 304; 7.2 MB
  
• Arrhythmia-Caused-by-a-Drosophila-Tropomyosin-Mutation-Is-Revealed-Using-a-Novel-Optical-Coherence-pone.0014348.s004.ogv 32 s, 432 × 243; 5.59 MB
  
• Arsenic-trioxide-alters-the-differentiation-of-mouse-embryonic-stem-cell-into-cardiomyocytes-srep14993-s2.ogv 42 s, 320 × 240; 2.8 MB
  
• Arsenic-trioxide-alters-the-differentiation-of-mouse-embryonic-stem-cell-into-cardiomyocytes-srep14993-s3.ogv 59 s, 320 × 240; 2.97 MB
  
• Arsenic-trioxide-alters-the-differentiation-of-mouse-embryonic-stem-cell-into-cardiomyocytes-srep14993-s4.ogv 42 s, 320 × 240; 2.22 MB
  
• Arsenic-trioxide-alters-the-differentiation-of-mouse-embryonic-stem-cell-into-cardiomyocytes-srep14993-s5.ogv 45 s, 320 × 240; 805 KB
  
• Atomic-Force-Mechanobiology-of-Pluripotent-Stem-Cell-Derived-Cardiomyocytes-pone.0037559.s002.ogv 5.1 s, 768 × 576; 654 KB
  
• Atomic-Force-Mechanobiology-of-Pluripotent-Stem-Cell-Derived-Cardiomyocytes-pone.0037559.s003.ogv 4.9 s, 768 × 576; 1.18 MB
  
• Autonomous-beating-rate-adaptation-in-human-stem-cell-derived-cardiomyocytes-ncomms10312-s2.ogv 8.7 s, 640 × 480; 600 KB
  
• Autonomous-beating-rate-adaptation-in-human-stem-cell-derived-cardiomyocytes-ncomms10312-s3.ogv 13 s, 640 × 480; 2.59 MB
  
• Autonomous-beating-rate-adaptation-in-human-stem-cell-derived-cardiomyocytes-ncomms10312-s4.ogv 14 s, 640 × 480; 1.3 MB
  
• Autonomous-beating-rate-adaptation-in-human-stem-cell-derived-cardiomyocytes-ncomms10312-s5.ogv 14 s, 640 × 480; 2 MB
  
• Balancing-functions-of-annexin-A6-maintain-equilibrium-between-hypertrophy-and-apoptosis-in-cddis2015231x3.ogv 21 s, 382 × 256; 1 MB
  
• Balancing-functions-of-annexin-A6-maintain-equilibrium-between-hypertrophy-and-apoptosis-in-cddis2015231x4.ogv 25 s, 456 × 256; 3.5 MB
  
• Balancing-functions-of-annexin-A6-maintain-equilibrium-between-hypertrophy-and-apoptosis-in-cddis2015231x5.ogv 4.3 s, 1,066 × 256; 381 KB
  
• Balancing-functions-of-annexin-A6-maintain-equilibrium-between-hypertrophy-and-apoptosis-in-cddis2015231x6.ogv 10 s, 256 × 256; 479 KB
  
• Balancing-functions-of-annexin-A6-maintain-equilibrium-between-hypertrophy-and-apoptosis-in-cddis2015231x7.ogv 5.8 s, 234 × 146; 121 KB
  
• Balancing-functions-of-annexin-A6-maintain-equilibrium-between-hypertrophy-and-apoptosis-in-cddis2015231x8.ogv 4.3 s, 512 × 512; 346 KB
  
• Bile-Acid-Induced-Arrhythmia-Is-Mediated-by-Muscarinic-M2-Receptors-in-Neonatal-Rat-Cardiomyocytes-pone.0009689.s010.ogv 40 s, 640 × 480; 1.36 MB
  
• BIN1-Localizes-the-L-Type-Calcium-Channel-to-Cardiac-T-Tubules-pbio.1000312.s009.ogv 12 s, 84 × 140; 616 KB
  
• C-kitpos-GATA-4-High-Rat-Cardiac-Stem-Cells-Foster-Adult-Cardiomyocyte-Survival-through-IGF-1-pone.0014297.s005.ogv 9.8 s, 320 × 240; 134 KB
  
• C-kitpos-GATA-4-High-Rat-Cardiac-Stem-Cells-Foster-Adult-Cardiomyocyte-Survival-through-IGF-1-pone.0014297.s006.ogv 9.9 s, 320 × 240; 130 KB
  
• 
  Cardiomiocito bifurcación.png 888 × 1,043; 994 KB
  
• 
  Cardiomiocito residente cariocinesis.PNG 426 × 990; 667 KB
  
• 
  Cardiomiocito.TIF 392 × 1,192; 1.46 MB
  
• Combined-biophysical-and-soluble-factor-modulation-induces-cardiomyocyte-differentiation-from-human-srep06614-s2.ogv 9.9 s, 320 × 240; 1.36 MB
  
• Combined-biophysical-and-soluble-factor-modulation-induces-cardiomyocyte-differentiation-from-human-srep06614-s3.ogv 10 s, 320 × 320; 10.1 MB
  
• Comparative-Transcriptomic-Analysis-of-Multiple-Cardiovascular-Fates-from-Embryonic-Stem-Cells-srep09758-s2.ogv 10 s, 640 × 360; 909 KB
  
• Comparative-Transcriptomic-Analysis-of-Multiple-Cardiovascular-Fates-from-Embryonic-Stem-Cells-srep09758-s3.ogv 10 s, 640 × 360; 421 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
  
• Correction-of-human-phospholamban-R14del-mutation-associated-with-cardiomyopathy-using-targeted-ncomms7955-s2.ogv 0.8 s, 636 × 432; 242 KB
  
• Correction-of-human-phospholamban-R14del-mutation-associated-with-cardiomyopathy-using-targeted-ncomms7955-s3.ogv 8.4 s, 640 × 480; 1.05 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
  
• Directed-Differentiation-of-Embryonic-Stem-Cells-Into-Cardiomyocytes-by-Bacterial-Injection-of-srep15014-s2.ogv 3.2 s, 16 × 16; 3 KB
  
• Directed-Differentiation-of-Embryonic-Stem-Cells-Into-Cardiomyocytes-by-Bacterial-Injection-of-srep15014-s3.ogv 3.2 s, 16 × 16; 3 KB
  
• Directed-Differentiation-of-Embryonic-Stem-Cells-Into-Cardiomyocytes-by-Bacterial-Injection-of-srep15014-s4.ogv 4.8 s, 16 × 16; 3 KB
  
• Distinctive-Left-Sided-Distribution-of-Adrenergic-Derived-Cells-in-the-Adult-Mouse-Heart-pone.0022811.s001.ogv 49 s, 348 × 312; 1.7 MB
  
• Distinctive-Left-Sided-Distribution-of-Adrenergic-Derived-Cells-in-the-Adult-Mouse-Heart-pone.0022811.s002.ogv 55 s, 348 × 312; 3.63 MB
  
• 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
  
• Efficient-and-Scalable-Purification-of-Cardiomyocytes-from-Human-Embryonic-and-Induced-Pluripotent-pone.0023657.s002.ogv 16 s, 680 × 512; 4.8 MB
  
• Endothelin-1-supports-clonal-derivation-and-expansion-of-cardiovascular-progenitors-derived-from-ncomms10774-s2.ogv 16 s, 1,392 × 1,040; 24.67 MB
  
• Engineered-Heart-Tissue-A-Novel-Tool-to-Study-the-Ischemic-Changes-of-the-Heart-In-Vitro-pone.0009275.s002.ogv 43 s, 320 × 240; 473 KB
  
• 
  Esquema de un disco intercalar.jpg 2,005 × 1,384; 117 KB
  
• Examination-of-the-Effects-of-Heterogeneous-Organization-of-RyR-Clusters-Myofibrils-and-pcbi.1004417.s015.ogv 4.3 s, 970 × 1,024; 447 KB
  
• Examination-of-the-Effects-of-Heterogeneous-Organization-of-RyR-Clusters-Myofibrils-and-pcbi.1004417.s016.ogv 4.3 s, 1,024 × 1,024; 530 KB
  
• Fibroblast-Growth-Factor-10-Promotes-Cardiomyocyte-Differentiation-from-Embryonic-and-Induced-pone.0014414.s005.ogv 2.6 s, 416 × 368; 147 KB
  
• Fibroblast-Growth-Factor-10-Promotes-Cardiomyocyte-Differentiation-from-Embryonic-and-Induced-pone.0014414.s006.ogv 4.2 s, 568 × 540; 49 KB
  
• Fibroblast-Growth-Factor-10-Promotes-Cardiomyocyte-Differentiation-from-Embryonic-and-Induced-pone.0014414.s007.ogv 2.1 s, 548 × 560; 140 KB
  
• Fibroblast-Growth-Factor-10-Promotes-Cardiomyocyte-Differentiation-from-Embryonic-and-Induced-pone.0014414.s008.ogv 2.1 s, 352 × 316; 452 KB
  
• Gene-Knock-Outs-of-Inositol-145-Trisphosphate-Receptors-Types-1-and-2-Result-in-Perturbation-of-pone.0012500.s007.ogv 5.4 s, 320 × 240; 184 KB
  
• Generation-of-a-Homozygous-Transgenic-Rat-Strain-Stably-Expressing-a-Calcium-Sensor-Protein-for-srep12645-s2.ogv 2.5 s, 240 × 240; 725 KB
  
• 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
  
• Generation-of-human-induced-pluripotent-stem-cells-by-simple-transient-transfection-of-plasmid-DNA-1471-213X-10-81-S2.ogv 25 s, 160 × 160; 36 KB
  
• Global-transcriptome-analysis-of-murine-embryonic-stem-cell-derived-cardiomyocytes-gb-2007-8-4-r56-S1.ogv 28 s, 320 × 240; 2.03 MB
  
• Gremlin-Enhances-the-Determined-Path-to-Cardiomyogenesis-pone.0002407.s004.ogv 21 s, 320 × 240; 478 KB
  
• Gremlin-Enhances-the-Determined-Path-to-Cardiomyogenesis-pone.0002407.s005.ogv 12 s, 320 × 240; 781 KB
  
• High-efficiency-reprogramming-of-fibroblasts-into-cardiomyocytes-requires-suppression-of-pro-ncomms9243-s10.ogv 4.3 s, 872 × 480; 280 KB
  
• High-efficiency-reprogramming-of-fibroblasts-into-cardiomyocytes-requires-suppression-of-pro-ncomms9243-s11.ogv 5.5 s, 872 × 480; 322 KB
  
• High-efficiency-reprogramming-of-fibroblasts-into-cardiomyocytes-requires-suppression-of-pro-ncomms9243-s2.ogv 4.0 s, 872 × 480; 267 KB
  
• High-efficiency-reprogramming-of-fibroblasts-into-cardiomyocytes-requires-suppression-of-pro-ncomms9243-s3.ogv 3.4 s, 872 × 480; 268 KB
  
• High-efficiency-reprogramming-of-fibroblasts-into-cardiomyocytes-requires-suppression-of-pro-ncomms9243-s4.ogv 3.3 s, 872 × 480; 287 KB
  
• High-efficiency-reprogramming-of-fibroblasts-into-cardiomyocytes-requires-suppression-of-pro-ncomms9243-s5.ogv 4.5 s, 872 × 480; 568 KB
  
• High-efficiency-reprogramming-of-fibroblasts-into-cardiomyocytes-requires-suppression-of-pro-ncomms9243-s6.ogv 2.7 s, 872 × 480; 313 KB
  
• High-efficiency-reprogramming-of-fibroblasts-into-cardiomyocytes-requires-suppression-of-pro-ncomms9243-s7.ogv 5.6 s, 872 × 480; 852 KB
  
• High-efficiency-reprogramming-of-fibroblasts-into-cardiomyocytes-requires-suppression-of-pro-ncomms9243-s8.ogv 20 s, 872 × 480; 176 KB
  
• High-efficiency-reprogramming-of-fibroblasts-into-cardiomyocytes-requires-suppression-of-pro-ncomms9243-s9.ogv 4.8 s, 872 × 480; 227 KB
  
• HSPB1-HSPB6-HSPB7-and-HSPB8-Protect-against-RhoA-GTPase-Induced-Remodeling-in-Tachypaced-Atrial-pone.0020395.s003.ogv 8.0 s, 600 × 600; 4.73 MB
  
• HSPB1-HSPB6-HSPB7-and-HSPB8-Protect-against-RhoA-GTPase-Induced-Remodeling-in-Tachypaced-Atrial-pone.0020395.s004.ogv 8.0 s, 600 × 600; 18.84 MB
  
• HSPB1-HSPB6-HSPB7-and-HSPB8-Protect-against-RhoA-GTPase-Induced-Remodeling-in-Tachypaced-Atrial-pone.0020395.s005.ogv 8.0 s, 600 × 600; 4.69 MB
  
• HSPB1-HSPB6-HSPB7-and-HSPB8-Protect-against-RhoA-GTPase-Induced-Remodeling-in-Tachypaced-Atrial-pone.0020395.s006.ogv 8.0 s, 600 × 600; 13.07 MB
  
• HSPB1-HSPB6-HSPB7-and-HSPB8-Protect-against-RhoA-GTPase-Induced-Remodeling-in-Tachypaced-Atrial-pone.0020395.s007.ogv 8.0 s, 600 × 600; 13.91 MB
  
• HSPB1-HSPB6-HSPB7-and-HSPB8-Protect-against-RhoA-GTPase-Induced-Remodeling-in-Tachypaced-Atrial-pone.0020395.s008.ogv 8.0 s, 600 × 600; 17.78 MB
  
• HSPB1-HSPB6-HSPB7-and-HSPB8-Protect-against-RhoA-GTPase-Induced-Remodeling-in-Tachypaced-Atrial-pone.0020395.s009.ogv 8.0 s, 600 × 600; 10.07 MB
  
• HSPB1-HSPB6-HSPB7-and-HSPB8-Protect-against-RhoA-GTPase-Induced-Remodeling-in-Tachypaced-Atrial-pone.0020395.s010.ogv 8.0 s, 600 × 600; 13.28 MB
  
• HSPB1-HSPB6-HSPB7-and-HSPB8-Protect-against-RhoA-GTPase-Induced-Remodeling-in-Tachypaced-Atrial-pone.0020395.s011.ogv 8.0 s, 600 × 600; 12.94 MB
  
• HSPB1-HSPB6-HSPB7-and-HSPB8-Protect-against-RhoA-GTPase-Induced-Remodeling-in-Tachypaced-Atrial-pone.0020395.s012.ogv 8.0 s, 600 × 600; 9 MB
  
• HSPB1-HSPB6-HSPB7-and-HSPB8-Protect-against-RhoA-GTPase-Induced-Remodeling-in-Tachypaced-Atrial-pone.0020395.s013.ogv 8.0 s, 600 × 600; 17.1 MB
  
• HSPB1-HSPB6-HSPB7-and-HSPB8-Protect-against-RhoA-GTPase-Induced-Remodeling-in-Tachypaced-Atrial-pone.0020395.s014.ogv 8.0 s, 600 × 600; 2.53 MB
  
• HSPB1-HSPB6-HSPB7-and-HSPB8-Protect-against-RhoA-GTPase-Induced-Remodeling-in-Tachypaced-Atrial-pone.0020395.s015.ogv 8.0 s, 600 × 600; 18 MB
  
• HSPB1-HSPB6-HSPB7-and-HSPB8-Protect-against-RhoA-GTPase-Induced-Remodeling-in-Tachypaced-Atrial-pone.0020395.s016.ogv 8.0 s, 600 × 600; 14.51 MB
  
• HSPB1-HSPB6-HSPB7-and-HSPB8-Protect-against-RhoA-GTPase-Induced-Remodeling-in-Tachypaced-Atrial-pone.0020395.s017.ogv 8.0 s, 600 × 600; 18.28 MB
  
• HSPB1-HSPB6-HSPB7-and-HSPB8-Protect-against-RhoA-GTPase-Induced-Remodeling-in-Tachypaced-Atrial-pone.0020395.s018.ogv 8.0 s, 600 × 600; 17.3 MB
  
• HSPB1-HSPB6-HSPB7-and-HSPB8-Protect-against-RhoA-GTPase-Induced-Remodeling-in-Tachypaced-Atrial-pone.0020395.s019.ogv 8.0 s, 600 × 600; 9.38 MB
  
• HSPB1-HSPB6-HSPB7-and-HSPB8-Protect-against-RhoA-GTPase-Induced-Remodeling-in-Tachypaced-Atrial-pone.0020395.s020.ogv 8.0 s, 600 × 600; 11.32 MB
  
• Human-Engineered-Heart-Tissue-as-a-Versatile-Tool-in-Basic-Research-and-Preclinical-Toxicology-pone.0026397.s004.ogv 14 s, 720 × 576; 1.65 MB
  
• Human-Engineered-Heart-Tissue-as-a-Versatile-Tool-in-Basic-Research-and-Preclinical-Toxicology-pone.0026397.s005.ogv 1 min 0 s, 640 × 480; 1.22 MB
  
• Human-iPSC-based-Cardiac-Microphysiological-System-For-Drug-Screening-Applications-srep08883-s1.ogv 6.7 s, 364 × 220; 933 KB
  
• Human-iPSC-based-Cardiac-Microphysiological-System-For-Drug-Screening-Applications-srep08883-s2.ogv 2.3 s, 672 × 308; 271 KB
  
• Human-iPSC-based-Cardiac-Microphysiological-System-For-Drug-Screening-Applications-srep08883-s3.ogv 27 s, 668 × 288; 13.99 MB
  
• Human-iPSC-based-Cardiac-Microphysiological-System-For-Drug-Screening-Applications-srep08883-s4.ogv 13 s, 936 × 336; 666 KB
  
• Human-iPSC-based-Cardiac-Microphysiological-System-For-Drug-Screening-Applications-srep08883-s5.ogv 27 s, 636 × 276; 5.18 MB
  
• Human-iPSC-based-Cardiac-Microphysiological-System-For-Drug-Screening-Applications-srep08883-s6.ogv 27 s, 636 × 276; 5.16 MB
  
• Human-iPSC-based-Cardiac-Microphysiological-System-For-Drug-Screening-Applications-srep08883-s7.ogv 27 s, 360 × 260; 2.24 MB
  
• Human-iPSC-based-Cardiac-Microphysiological-System-For-Drug-Screening-Applications-srep08883-s8.ogv 27 s, 340 × 260; 1.4 MB
  
• 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
  
• In-Vitro-Engineering-of-Vascularized-Tissue-Surrogates-srep01316-s1.ogv 20 s, 854 × 480; 853 KB
  
• In-Vitro-Reconstruction-of-Neuronal-Networks-Derived-from-Human-iPS-Cells-Using-Microfabricated-pone.0148559.s002.ogv 6.0 s, 1,440 × 1,080; 1.88 MB
  
• In-Vitro-Reconstruction-of-Neuronal-Networks-Derived-from-Human-iPS-Cells-Using-Microfabricated-pone.0148559.s003.ogv 7.2 s, 1,440 × 1,080; 496 KB
  
• In-Vitro-Reconstruction-of-Neuronal-Networks-Derived-from-Human-iPS-Cells-Using-Microfabricated-pone.0148559.s004.ogv 10 s, 1,440 × 1,080; 1.21 MB
  
• Induction-and-Enhancement-of-Cardiac-Cell-Differentiation-from-Mouse-and-Human-Induced-Pluripotent-pone.0016734.s002.ogv 7.2 s, 320 × 240; 376 KB
  
• Induction-and-Enhancement-of-Cardiac-Cell-Differentiation-from-Mouse-and-Human-Induced-Pluripotent-pone.0016734.s003.ogv 7.7 s, 320 × 240; 382 KB
  
• Induction-and-Enhancement-of-Cardiac-Cell-Differentiation-from-Mouse-and-Human-Induced-Pluripotent-pone.0016734.s004.ogv 12 s, 320 × 240; 2.14 MB
  
• Innate-Immunity-in-Human-Embryonic-Stem-Cells-Comparison-with-Adult-Human-Endothelial-Cells-pone.0010501.s004.ogv 15 s, 800 × 600; 5.64 MB
  
• Mesenchymal-stem-cells-rescue-cardiomyoblasts-from-cell-death-in-an-in-vitro-ischemia-model-via-1471-2121-11-29-S1.ogv 3.6 s, 520 × 513; 1.03 MB
  
• Mesenchymal-stem-cells-rescue-cardiomyoblasts-from-cell-death-in-an-in-vitro-ischemia-model-via-1471-2121-11-29-S2.ogv 2.6 s, 368 × 340; 667 KB
  
• Mesenchymal-stem-cells-rescue-cardiomyoblasts-from-cell-death-in-an-in-vitro-ischemia-model-via-1471-2121-11-29-S3.ogv 3.2 s, 442 × 408; 1.54 MB
  
• Mesenchymal-stem-cells-rescue-cardiomyoblasts-from-cell-death-in-an-in-vitro-ischemia-model-via-1471-2121-11-29-S4.ogv 3.1 s, 1,031 × 1,024; 9.53 MB
  
• Multiple-mesodermal-lineage-differentiation-of-Apodemus-sylvaticus-embryonic-stem-cells-in-vitro-1471-2121-11-42-S1.ogv 2.0 s, 375 × 288; 370 KB
  
• 
  Neonatal cardiac myocte 1.png 1,058 × 1,083; 432 KB
  
• 
  Neonatal cardiac myocte 2.png 1,067 × 1,076; 316 KB
  
• Non-Linear-Optical-Microscopy-Sheds-Light-on-Cardiovascular-Disease-pone.0056136.s002.ogv 7.2 s, 256 × 256; 450 KB
  
• Non-Linear-Optical-Microscopy-Sheds-Light-on-Cardiovascular-Disease-pone.0056136.s003.ogv 6.4 s, 400 × 298; 302 KB
  
• Numerical-Analysis-of-Ca2+-Signaling-in-Rat-Ventricular-Myocytes-with-Realistic-Transverse-Axial-pcbi.1000972.s001.ogv 51 s, 1,660 × 700; 2.96 MB
  
• Numerical-Analysis-of-Ca2+-Signaling-in-Rat-Ventricular-Myocytes-with-Realistic-Transverse-Axial-pcbi.1000972.s002.ogv 51 s, 1,317 × 700; 2.26 MB
  
• Numerical-Analysis-of-Ca2+-Signaling-in-Rat-Ventricular-Myocytes-with-Realistic-Transverse-Axial-pcbi.1000972.s003.ogv 51 s, 1,317 × 700; 2.28 MB
  
• PI3Ks-Maintain-the-Structural-Integrity-of-T-Tubules-in-Cardiac-Myocytes-pone.0024404.s004.ogv 5.0 s, 656 × 752; 2.22 MB
  
• PI3Ks-Maintain-the-Structural-Integrity-of-T-Tubules-in-Cardiac-Myocytes-pone.0024404.s005.ogv 5.0 s, 656 × 752; 2.34 MB
  
• 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
  
• Sarcomere-Imaging-by-Quantum-Dots-for-the-Study-of-Cardiac-Muscle-Physiology-313814.f1.ogv 3.3 s, 512 × 512; 4.24 MB
  
• Sarcomere-Imaging-by-Quantum-Dots-for-the-Study-of-Cardiac-Muscle-Physiology-313814.f2.ogv 3.3 s, 512 × 512; 6.23 MB
  
• Sarcomere-Imaging-by-Quantum-Dots-for-the-Study-of-Cardiac-Muscle-Physiology-313814.f3.ogv 9.0 s, 240 × 188; 52 KB
  
• Self-Organization-of-Muscle-Cell-Structure-and-Function-pcbi.1001088.s006.ogv 17 s, 354 × 456; 483 KB
  
• Self-Organization-of-Muscle-Cell-Structure-and-Function-pcbi.1001088.s007.ogv 5.1 s, 310 × 260; 54 KB
  
• Self-Organization-of-Muscle-Cell-Structure-and-Function-pcbi.1001088.s008.ogv 17 s, 349 × 460; 892 KB
  
• Self-Organization-of-Muscle-Cell-Structure-and-Function-pcbi.1001088.s009.ogv 5.1 s, 310 × 260; 47 KB
  
• Self-Organization-of-Muscle-Cell-Structure-and-Function-pcbi.1001088.s010.ogv 19 s, 353 × 457; 891 KB
  
• Self-Organization-of-Muscle-Cell-Structure-and-Function-pcbi.1001088.s011.ogv 19 s, 310 × 260; 155 KB
  
• Self-Organization-of-Muscle-Cell-Structure-and-Function-pcbi.1001088.s012.ogv 0.5 s, 533 × 500; 453 KB
  
• Self-Organization-of-Muscle-Cell-Structure-and-Function-pcbi.1001088.s013.ogv 0.2 s, 533 × 500; 183 KB
  
• Self-Organization-of-Muscle-Cell-Structure-and-Function-pcbi.1001088.s014.ogv 0.0 s, 640 × 480; 1.08 MB
  
• Self-Organization-of-Muscle-Cell-Structure-and-Function-pcbi.1001088.s015.ogv 0.0 s, 640 × 480; 920 KB
  
• Self-Organization-of-Muscle-Cell-Structure-and-Function-pcbi.1001088.s016.ogv 0.0 s, 533 × 500; 334 KB
  
• Self-Organization-of-Muscle-Cell-Structure-and-Function-pcbi.1001088.s017.ogv 0.0 s, 640 × 480; 1.13 MB
  
• Self-organizing-human-cardiac-microchambers-mediated-by-geometric-confinement-ncomms8413-s2.ogv 7.6 s, 960 × 720; 2.86 MB
  
• Self-organizing-human-cardiac-microchambers-mediated-by-geometric-confinement-ncomms8413-s3.ogv 7.0 s, 720 × 720; 4.9 MB
  
• Self-organizing-human-cardiac-microchambers-mediated-by-geometric-confinement-ncomms8413-s4.ogv 5.1 s, 870 × 720; 2.81 MB
  
• Self-organizing-human-cardiac-microchambers-mediated-by-geometric-confinement-ncomms8413-s5.ogv 9.6 s, 720 × 720; 4.3 MB
  
• Self-organizing-human-cardiac-microchambers-mediated-by-geometric-confinement-ncomms8413-s6.ogv 15 s, 980 × 720; 3.43 MB
  
• Self-organizing-human-cardiac-microchambers-mediated-by-geometric-confinement-ncomms8413-s7.ogv 30 s, 980 × 720; 5.63 MB
  
• Spatiotemporally-Controlled-Cardiac-Conduction-Block-Using-High-Frequency-Electrical-Stimulation-pone.0036217.s008.ogv 25 s, 640 × 480; 15.44 MB
  
• The-Scale-Free-Dynamics-of-Eukaryotic-Cells-pone.0003624.s001.ogv 16 s, 176 × 509; 3.25 MB
  
• The-Scale-Free-Dynamics-of-Eukaryotic-Cells-pone.0003624.s002.ogv 7.0 s, 429 × 506; 2.14 MB
  
• The-switching-role-of-β-adrenergic-receptor-signalling-in-cell-survival-or-death-decision-of-ncomms6777-s10.ogv 11 s, 212 × 167; 698 KB
  
• The-switching-role-of-β-adrenergic-receptor-signalling-in-cell-survival-or-death-decision-of-ncomms6777-s11.ogv 11 s, 193 × 135; 494 KB
  
• The-switching-role-of-β-adrenergic-receptor-signalling-in-cell-survival-or-death-decision-of-ncomms6777-s12.ogv 2.0 s, 2,600 × 1,028; 9.06 MB
  
• The-switching-role-of-β-adrenergic-receptor-signalling-in-cell-survival-or-death-decision-of-ncomms6777-s13.ogv 2.0 s, 2,600 × 1,028; 8.77 MB
  
• The-switching-role-of-β-adrenergic-receptor-signalling-in-cell-survival-or-death-decision-of-ncomms6777-s14.ogv 2.0 s, 2,600 × 1,028; 9.68 MB
  
• The-switching-role-of-β-adrenergic-receptor-signalling-in-cell-survival-or-death-decision-of-ncomms6777-s2.ogv 2.0 s, 2,600 × 2,056; 18.89 MB
  
• The-switching-role-of-β-adrenergic-receptor-signalling-in-cell-survival-or-death-decision-of-ncomms6777-s3.ogv 5.8 s, 640 × 480; 5.06 MB
  
• The-switching-role-of-β-adrenergic-receptor-signalling-in-cell-survival-or-death-decision-of-ncomms6777-s4.ogv 5.8 s, 640 × 480; 4.86 MB
  
• The-switching-role-of-β-adrenergic-receptor-signalling-in-cell-survival-or-death-decision-of-ncomms6777-s5.ogv 5.8 s, 640 × 480; 4.16 MB
  
• The-switching-role-of-β-adrenergic-receptor-signalling-in-cell-survival-or-death-decision-of-ncomms6777-s6.ogv 5.8 s, 640 × 480; 4.86 MB
  
• The-switching-role-of-β-adrenergic-receptor-signalling-in-cell-survival-or-death-decision-of-ncomms6777-s7.ogv 11 s, 640 × 480; 3.27 MB
  
• The-switching-role-of-β-adrenergic-receptor-signalling-in-cell-survival-or-death-decision-of-ncomms6777-s8.ogv 11 s, 640 × 480; 3.28 MB
  
• The-switching-role-of-β-adrenergic-receptor-signalling-in-cell-survival-or-death-decision-of-ncomms6777-s9.ogv 11 s, 640 × 480; 3.4 MB
  
• Transcriptional-and-Functional-Profiling-of-Human-Embryonic-Stem-Cell-Derived-Cardiomyocytes-pone.0003474.s014.ogv 5.9 s, 640 × 480; 386 KB
  
• Transcriptional-and-Functional-Profiling-of-Human-Embryonic-Stem-Cell-Derived-Cardiomyocytes-pone.0003474.s015.ogv 5.7 s, 640 × 480; 1.06 MB
  
• Transcriptional-and-Functional-Profiling-of-Human-Embryonic-Stem-Cell-Derived-Cardiomyocytes-pone.0003474.s016.ogv 3.9 s, 480 × 360; 243 KB
  
• Transcriptomic-and-phenotypic-analysis-of-murine-embryonic-stem-cell-derived-BMP2+-lineage-cells-an-gb-2007-8-9-r184-S10.ogv 19 s, 1,024 × 768; 704 KB