Category:Videos of cell biology

Category:Cell biology#* Category:Videos of biology#Cell

Pages in category "Category:Videos of cell biology"

Category:Videos of active transport
Category:Videos of cell adhesion
Category:Videos of cell anatomy
Category:Videos of cell biomechanics
Category:Videos of chemical biology of the cell
Category:Videos of clathrin
Category:Videos of cytometric techniques
Category:Videos of cytoplasm
Category:Videos of extracellular matrix
Category:Videos of golgi apparatus
Category:Videos of cell junctions
Category:Videos of cell mechanics
Category:Videos of cell membrane
Category:Microscopic videos of cells
Category:Videos of cell migration
Category:Videos of cell movement
Category:Videos of neurons
Category:Videos of cell physiology
Category:Videos of plasmids
Category:Videos of Procaryota cell diagrams
Category:Videos of cellular processes
Category:Videos of protein biosynthesis
Category:Videos of receptor proteins
Category:Videos of tissue engineering
Category:Videos of cell types
Category:Videos of vesicles
File:3D-Visualization-of-the-Temporal-and-Spatial-Spread-of-Tau-Pathology-Reveals-Extensive-Sites-of-Tau-pone.0159463.s004.ogv
File:3D-Visualization-of-the-Temporal-and-Spatial-Spread-of-Tau-Pathology-Reveals-Extensive-Sites-of-Tau-pone.0159463.s005.ogv
File:3D-Visualization-of-the-Temporal-and-Spatial-Spread-of-Tau-Pathology-Reveals-Extensive-Sites-of-Tau-pone.0159463.s006.ogv
File:3D-Visualization-of-the-Temporal-and-Spatial-Spread-of-Tau-Pathology-Reveals-Extensive-Sites-of-Tau-pone.0159463.s007.ogv
File:3D-Visualization-of-the-Temporal-and-Spatial-Spread-of-Tau-Pathology-Reveals-Extensive-Sites-of-Tau-pone.0159463.s008.ogv
File:3D-Visualization-of-the-Temporal-and-Spatial-Spread-of-Tau-Pathology-Reveals-Extensive-Sites-of-Tau-pone.0159463.s009.ogv
File:A-3D-self-organizing-multicellular-epidermis-model-of-barrier-formation-and-hydration-with-srep43472-s2.ogv
File:A-3D-self-organizing-multicellular-epidermis-model-of-barrier-formation-and-hydration-with-srep43472-s3.ogv
File:A-3D-self-organizing-multicellular-epidermis-model-of-barrier-formation-and-hydration-with-srep43472-s4.ogv
File:A-Bispecific-Antibody-Promotes-Aggregation-of-Ricin-Toxin-on-Cell-Surfaces-and-Alters-Dynamics-of-pone.0156893.s007.ogv
File:A-Bispecific-Antibody-Promotes-Aggregation-of-Ricin-Toxin-on-Cell-Surfaces-and-Alters-Dynamics-of-pone.0156893.s008.ogv
File:A-Bispecific-Antibody-Promotes-Aggregation-of-Ricin-Toxin-on-Cell-Surfaces-and-Alters-Dynamics-of-pone.0156893.s009.ogv
File:A-Bispecific-Antibody-Promotes-Aggregation-of-Ricin-Toxin-on-Cell-Surfaces-and-Alters-Dynamics-of-pone.0156893.s010.ogv
File:A-Bispecific-Antibody-Promotes-Aggregation-of-Ricin-Toxin-on-Cell-Surfaces-and-Alters-Dynamics-of-pone.0156893.s011.ogv
File:A-Bispecific-Antibody-Promotes-Aggregation-of-Ricin-Toxin-on-Cell-Surfaces-and-Alters-Dynamics-of-pone.0156893.s012.ogv
File:A-Causal-Relation-between-Bioluminescence-and-Oxygen-to-Quantify-the-Cell-Niche-pone.0097572.s011.ogv
File:A-Combined-In-Vitro-Imaging-and-Multi-Scale-Modeling-System-for-Studying-the-Role-of-Cell-Matrix-pone.0148254.s002.ogv
File:A-Combined-In-Vitro-Imaging-and-Multi-Scale-Modeling-System-for-Studying-the-Role-of-Cell-Matrix-pone.0148254.s003.ogv
File:A-Combined-In-Vitro-Imaging-and-Multi-Scale-Modeling-System-for-Studying-the-Role-of-Cell-Matrix-pone.0148254.s004.ogv
File:A-Combined-In-Vitro-Imaging-and-Multi-Scale-Modeling-System-for-Studying-the-Role-of-Cell-Matrix-pone.0148254.s005.ogv
File:A-Comprehensive-Panel-of-Three-Dimensional-Models-for-Studies-of-Prostate-Cancer-Growth-Invasion-pone.0010431.s013.ogv
File:A-Computational-Approach-to-Understand-In-Vitro-Alveolar-Morphogenesis-pone.0004819.s004.ogv
File:A-Computational-Approach-to-Understand-In-Vitro-Alveolar-Morphogenesis-pone.0004819.s005.ogv
File:A-Computational-Approach-to-Understand-In-Vitro-Alveolar-Morphogenesis-pone.0004819.s006.ogv
File:A-Computational-Approach-to-Understand-In-Vitro-Alveolar-Morphogenesis-pone.0004819.s007.ogv
File:A-Computational-Approach-to-Understand-In-Vitro-Alveolar-Morphogenesis-pone.0004819.s008.ogv
File:A-Computational-Approach-to-Understand-In-Vitro-Alveolar-Morphogenesis-pone.0004819.s009.ogv
File:A-Computational-Approach-to-Understand-In-Vitro-Alveolar-Morphogenesis-pone.0004819.s010.ogv
File:A-Computational-Approach-to-Understand-In-Vitro-Alveolar-Morphogenesis-pone.0004819.s011.ogv
File:A-Computational-Framework-for-Ultrastructural-Mapping-of-Neural-Circuitry-pbio.1000074.sv001.ogv
File:A-Computational-Framework-for-Ultrastructural-Mapping-of-Neural-Circuitry-pbio.1000074.sv002.ogv
File:A-Computational-Framework-for-Ultrastructural-Mapping-of-Neural-Circuitry-pbio.1000074.sv003.ogv
File:A-Cryptic-Frizzled-Module-in-Cell-Surface-Collagen-18-Inhibits-Wntβ−Catenin-Signaling-pone.0001878.s005.ogv
File:A-Cryptic-Frizzled-Module-in-Cell-Surface-Collagen-18-Inhibits-Wntβ−Catenin-Signaling-pone.0001878.s006.ogv
File:A-Cyclic-GMP-Signalling-Module-That-Regulates-Gliding-Motility-in-a-Malaria-Parasite-ppat.1000599.s007.ogv
File:A-Cyclic-GMP-Signalling-Module-That-Regulates-Gliding-Motility-in-a-Malaria-Parasite-ppat.1000599.s008.ogv
File:A-Cyclic-GMP-Signalling-Module-That-Regulates-Gliding-Motility-in-a-Malaria-Parasite-ppat.1000599.s009.ogv
File:A-Cyclic-GMP-Signalling-Module-That-Regulates-Gliding-Motility-in-a-Malaria-Parasite-ppat.1000599.s010.ogv
File:A-Development-of-Nucleic-Chromatin-Measurements-as-a-New-Prognostic-Marker-for-Severe-Chronic-Heart-pone.0148209.s003.ogv
File:A-Development-of-Nucleic-Chromatin-Measurements-as-a-New-Prognostic-Marker-for-Severe-Chronic-Heart-pone.0148209.s004.ogv
File:A-Development-of-Nucleic-Chromatin-Measurements-as-a-New-Prognostic-Marker-for-Severe-Chronic-Heart-pone.0148209.s005.ogv
File:A-Development-of-Nucleic-Chromatin-Measurements-as-a-New-Prognostic-Marker-for-Severe-Chronic-Heart-pone.0148209.s006.ogv
File:A-Fluorescent-Glycolipid-Binding-Peptide-Probe-Traces-Cholesterol-Dependent-Microdomain-Derived-pone.0002933.s004.ogv
File:A-Fluorescent-Glycolipid-Binding-Peptide-Probe-Traces-Cholesterol-Dependent-Microdomain-Derived-pone.0002933.s005.ogv
File:A-Fractal-Nature-for-Polymerized-Laminin-pone.0109388.s001.ogv
File:A-lateral-signalling-pathway-coordinates-shape-volatility-during-cell-migration-ncomms11714-s2.ogv
File:A-MAPK-Driven-Feedback-Loop-Suppresses-Rac-Activity-to-Promote-RhoA-Driven-Cancer-Cell-Invasion-pcbi.1004909.s009.ogv
File:A-Mathematical-Model-for-EphEphrin-Directed-Segregation-of-Intermingled-Cells-pone.0111803.s003.ogv
File:A-Mathematical-Model-for-EphEphrin-Directed-Segregation-of-Intermingled-Cells-pone.0111803.s004.ogv
File:A-Microfluidic-System-for-Studying-Ageing-and-Dynamic-Single-Cell-Responses-in-Budding-Yeast-pone.0100042.s007.ogv
File:A-Microfluidic-System-for-Studying-Ageing-and-Dynamic-Single-Cell-Responses-in-Budding-Yeast-pone.0100042.s008.ogv
File:A-Microfluidic-System-for-Studying-Ageing-and-Dynamic-Single-Cell-Responses-in-Budding-Yeast-pone.0100042.s009.ogv
File:A-Microfluidic-System-for-Studying-Ageing-and-Dynamic-Single-Cell-Responses-in-Budding-Yeast-pone.0100042.s010.ogv
File:A-Microfluidic-System-for-Studying-Ageing-and-Dynamic-Single-Cell-Responses-in-Budding-Yeast-pone.0100042.s011.ogv
File:A-Model-for-Cell-Wall-Dissolution-in-Mating-Yeast-Cells-Polarized-Secretion-and-Restricted-pone.0109780.s001.ogv
File:A-Model-for-Cell-Wall-Dissolution-in-Mating-Yeast-Cells-Polarized-Secretion-and-Restricted-pone.0109780.s002.ogv
File:A-Model-for-Cell-Wall-Dissolution-in-Mating-Yeast-Cells-Polarized-Secretion-and-Restricted-pone.0109780.s003.ogv
File:A-Model-for-Cell-Wall-Dissolution-in-Mating-Yeast-Cells-Polarized-Secretion-and-Restricted-pone.0109780.s004.ogv
File:A-Motor-Gradient-and-Clustering-Model-of-the-Centripetal-Motility-of-MTOCs-in-Meiosis-I-of-Mouse-pcbi.1005102.s010.ogv
File:A-Motor-Gradient-and-Clustering-Model-of-the-Centripetal-Motility-of-MTOCs-in-Meiosis-I-of-Mouse-pcbi.1005102.s011.ogv
File:A-Motor-Gradient-and-Clustering-Model-of-the-Centripetal-Motility-of-MTOCs-in-Meiosis-I-of-Mouse-pcbi.1005102.s012.ogv
File:A-Motor-Gradient-and-Clustering-Model-of-the-Centripetal-Motility-of-MTOCs-in-Meiosis-I-of-Mouse-pcbi.1005102.s013.ogv
File:A-Motor-Gradient-and-Clustering-Model-of-the-Centripetal-Motility-of-MTOCs-in-Meiosis-I-of-Mouse-pcbi.1005102.s014.ogv
File:A-Motor-Gradient-and-Clustering-Model-of-the-Centripetal-Motility-of-MTOCs-in-Meiosis-I-of-Mouse-pcbi.1005102.s015.ogv
File:A-New-Organellar-Complex-in-Rat-Sympathetic-Neurons-pone.0010872.s002.ogv
File:A-New-Organellar-Complex-in-Rat-Sympathetic-Neurons-pone.0010872.s003.ogv
File:A-New-Organellar-Complex-in-Rat-Sympathetic-Neurons-pone.0010872.s004.ogv
File:A-New-Organellar-Complex-in-Rat-Sympathetic-Neurons-pone.0010872.s005.ogv
File:A-New-Organellar-Complex-in-Rat-Sympathetic-Neurons-pone.0010872.s006.ogv
File:A-Novel-Alpha-Kinase-EhAK1-Phosphorylates-Actin-and-Regulates-Phagocytosis-in-Entamoeba-histolytica-ppat.1004411.s018.ogv
File:A-Novel-Alpha-Kinase-EhAK1-Phosphorylates-Actin-and-Regulates-Phagocytosis-in-Entamoeba-histolytica-ppat.1004411.s019.ogv
File:A-Novel-Alpha-Kinase-EhAK1-Phosphorylates-Actin-and-Regulates-Phagocytosis-in-Entamoeba-histolytica-ppat.1004411.s020.ogv
File:A-Novel-Approach-for-Purification-and-Selective-Capture-of-Membrane-Vesicles-of-the-pone.0095137.s004.ogv
File:A-Novel-Approach-for-Purification-and-Selective-Capture-of-Membrane-Vesicles-of-the-pone.0095137.s005.ogv
File:A-Novel-Approach-for-Studying-the-Physiology-and-Pathophysiology-of-Myelinated-and-Non-Myelinated-pone.0165637.s005.ogv
File:A-Novel-Cysteine-Knot-Protein-for-Enhancing-Sperm-Motility-That-Might-Facilitate-the-Evolution-of-pone.0160445.s006.ogv
File:A-Novel-Cysteine-Knot-Protein-for-Enhancing-Sperm-Motility-That-Might-Facilitate-the-Evolution-of-pone.0160445.s007.ogv
File:A-Novel-Cysteine-Knot-Protein-for-Enhancing-Sperm-Motility-That-Might-Facilitate-the-Evolution-of-pone.0160445.s008.ogv
File:A-Novel-Cysteine-Knot-Protein-for-Enhancing-Sperm-Motility-That-Might-Facilitate-the-Evolution-of-pone.0160445.s009.ogv
File:A-Novel-Model-of-Intravital-Platelet-Imaging-Using-CD41-ZsGreen1-Transgenic-Rats-pone.0154661.s001.ogv
File:A-Novel-Model-of-Intravital-Platelet-Imaging-Using-CD41-ZsGreen1-Transgenic-Rats-pone.0154661.s002.ogv
File:A-Novel-Model-of-Intravital-Platelet-Imaging-Using-CD41-ZsGreen1-Transgenic-Rats-pone.0154661.s003.ogv
File:A-Novel-Mutant-Allele-of-Pw1Peg3-Does-Not-Affect-Maternal-Behavior-or-Nursing-Behavior-pgen.1006053.s001.ogv
File:A-Novel-Robot-System-Integrating-Biological-and-Mechanical-Intelligence-Based-on-Dissociated-Neural-pone.0165600.s001.ogv
File:A-Novel-Role-for-the-Centrosomal-Protein-Pericentrin-in-Regulation-of-Insulin-Secretory-Vesicle-pone.0011812.s004.ogv
File:A-Novel-Toll-Like-Receptor-(TLR)-Influences-Compatibility-between-the-Gastropod-Biomphalaria-ppat.1005513.s009.ogv
File:A-Novel-Validation-Algorithm-Allows-for-Automated-Cell-Tracking-and-the-Extraction-of-Biologically-pone.0027315.s004.ogv
File:A-Novel-Validation-Algorithm-Allows-for-Automated-Cell-Tracking-and-the-Extraction-of-Biologically-pone.0027315.s005.ogv
File:A-Novel-Validation-Algorithm-Allows-for-Automated-Cell-Tracking-and-the-Extraction-of-Biologically-pone.0027315.s006.ogv
File:A-Novel-Validation-Algorithm-Allows-for-Automated-Cell-Tracking-and-the-Extraction-of-Biologically-pone.0027315.s007.ogv
File:A-Novel-Validation-Algorithm-Allows-for-Automated-Cell-Tracking-and-the-Extraction-of-Biologically-pone.0027315.s008.ogv
File:A-Novel-Validation-Algorithm-Allows-for-Automated-Cell-Tracking-and-the-Extraction-of-Biologically-pone.0027315.s009.ogv
File:A-Novel-Validation-Algorithm-Allows-for-Automated-Cell-Tracking-and-the-Extraction-of-Biologically-pone.0027315.s010.ogv
File:A-Novel-Validation-Algorithm-Allows-for-Automated-Cell-Tracking-and-the-Extraction-of-Biologically-pone.0027315.s011.ogv
File:A-Novel-Validation-Algorithm-Allows-for-Automated-Cell-Tracking-and-the-Extraction-of-Biologically-pone.0027315.s012.ogv
File:A-Novel-Validation-Algorithm-Allows-for-Automated-Cell-Tracking-and-the-Extraction-of-Biologically-pone.0027315.s013.ogv
File:A-Novel-Validation-Algorithm-Allows-for-Automated-Cell-Tracking-and-the-Extraction-of-Biologically-pone.0027315.s014.ogv
File:A-Novel-Validation-Algorithm-Allows-for-Automated-Cell-Tracking-and-the-Extraction-of-Biologically-pone.0027315.s015.ogv
File:A-Novel-Validation-Algorithm-Allows-for-Automated-Cell-Tracking-and-the-Extraction-of-Biologically-pone.0027315.s016.ogv
File:A-Novel-Validation-Algorithm-Allows-for-Automated-Cell-Tracking-and-the-Extraction-of-Biologically-pone.0027315.s017.ogv
File:A-Novel-Validation-Algorithm-Allows-for-Automated-Cell-Tracking-and-the-Extraction-of-Biologically-pone.0027315.s018.ogv
File:A-Novel-Validation-Algorithm-Allows-for-Automated-Cell-Tracking-and-the-Extraction-of-Biologically-pone.0027315.s019.ogv
File:A-Novel-Validation-Algorithm-Allows-for-Automated-Cell-Tracking-and-the-Extraction-of-Biologically-pone.0027315.s020.ogv
File:A-Novel-Validation-Algorithm-Allows-for-Automated-Cell-Tracking-and-the-Extraction-of-Biologically-pone.0027315.s021.ogv
File:A-Novel-Zebrafish-ret-Heterozygous-Model-of-Hirschsprung-Disease-Identifies-a-Functional-Role-for-pgen.1006439.s006.ogv
File:A-Novel-Zebrafish-ret-Heterozygous-Model-of-Hirschsprung-Disease-Identifies-a-Functional-Role-for-pgen.1006439.s007.ogv
File:A-Novel-Zebrafish-ret-Heterozygous-Model-of-Hirschsprung-Disease-Identifies-a-Functional-Role-for-pgen.1006439.s008.ogv
File:A-Novel-Zebrafish-ret-Heterozygous-Model-of-Hirschsprung-Disease-Identifies-a-Functional-Role-for-pgen.1006439.s009.ogv
File:A-Novel-Zebrafish-ret-Heterozygous-Model-of-Hirschsprung-Disease-Identifies-a-Functional-Role-for-pgen.1006439.s010.ogv
File:A-Novel-μCT-Analysis-Reveals-Different-Responses-of-Bioerosion-and-Secondary-Accretion-to-pone.0153058.s001.ogv
File:A-p38-Substrate-Specific-MK2-EGFP-Translocation-Assay-for-Identification-and-Validation-of-New-p38-pone.0095641.s004.ogv
File:A-Phosphatidylinositol-3-Kinase-Dependent-Signal-Transition-Regulates-ARF1-and-ARF6-during-Fcγ-pbio.0040162.sv001.ogv
File:A-Phosphatidylinositol-3-Kinase-Dependent-Signal-Transition-Regulates-ARF1-and-ARF6-during-Fcγ-pbio.0040162.sv002.ogv
File:A-Phosphatidylinositol-3-Kinase-Dependent-Signal-Transition-Regulates-ARF1-and-ARF6-during-Fcγ-pbio.0040162.sv003.ogv
File:A-Phosphatidylinositol-3-Kinase-Dependent-Signal-Transition-Regulates-ARF1-and-ARF6-during-Fcγ-pbio.0040162.sv004.ogv
File:A-Phosphatidylinositol-3-Kinase-Dependent-Signal-Transition-Regulates-ARF1-and-ARF6-during-Fcγ-pbio.0040162.sv005.ogv
File:A-Photoactivatable-Nanopatterned-Substrate-for-Analyzing-Collective-Cell-Migration-with-Precisely-pone.0091875.s001.ogv
File:A-Photoactivatable-Nanopatterned-Substrate-for-Analyzing-Collective-Cell-Migration-with-Precisely-pone.0091875.s002.ogv
File:A-Ploidy-Sensitive-Mechanism-Regulates-Aperture-Formation-on-the-Arabidopsis-Pollen-Surface-and-pgen.1006060.s007.ogv
File:A-Ploidy-Sensitive-Mechanism-Regulates-Aperture-Formation-on-the-Arabidopsis-Pollen-Surface-and-pgen.1006060.s008.ogv
File:A-Polarised-Population-of-Dynamic-Microtubules-Mediates-Homeostatic-Length-Control-in-Animal-Cells-pbio.1000542.s005.ogv
File:A-Polarised-Population-of-Dynamic-Microtubules-Mediates-Homeostatic-Length-Control-in-Animal-Cells-pbio.1000542.s006.ogv
File:A-Precise-Temperature-Responsive-Bistable-Switch-Controlling-Yersinia-Virulence-ppat.1006091.s013.ogv
File:A-Precise-Temperature-Responsive-Bistable-Switch-Controlling-Yersinia-Virulence-ppat.1006091.s014.ogv
File:A-Precise-Temperature-Responsive-Bistable-Switch-Controlling-Yersinia-Virulence-ppat.1006091.s015.ogv
File:A-Putative-Small-Solute-Transporter-Is-Responsible-for-the-Secretion-of-G377-and-TRAP-Containing-ppat.1005734.s022.ogv
File:A-Putative-Small-Solute-Transporter-Is-Responsible-for-the-Secretion-of-G377-and-TRAP-Containing-ppat.1005734.s023.ogv
File:A-Simple-Screen-to-Identify-Promoters-Conferring-High-Levels-of-Phenotypic-Noise-pgen.1000307.s006.ogv
File:A-Simple-Screen-to-Identify-Promoters-Conferring-High-Levels-of-Phenotypic-Noise-pgen.1000307.s007.ogv
File:A-Small-Physiological-Electric-Field-Mediated-Responses-of-Extravillous-Trophoblasts-Derived-from-pone.0092252.s002.ogv
File:A-Splicing-Mutation-in-the-Novel-Mitochondrial-Protein-DNAJC11-Causes-Motor-Neuron-Pathology-pone.0104237.s012.ogv
File:A-Submersible-Off-Axis-Holographic-Microscope-for-Detection-of-Microbial-Motility-and-Morphology-in-pone.0147700.s001.ogv
File:A-Submersible-Off-Axis-Holographic-Microscope-for-Detection-of-Microbial-Motility-and-Morphology-in-pone.0147700.s002.ogv
File:A-Submersible-Off-Axis-Holographic-Microscope-for-Detection-of-Microbial-Motility-and-Morphology-in-pone.0147700.s003.ogv
File:A-Submersible-Off-Axis-Holographic-Microscope-for-Detection-of-Microbial-Motility-and-Morphology-in-pone.0147700.s004.ogv
File:A-Submersible-Off-Axis-Holographic-Microscope-for-Detection-of-Microbial-Motility-and-Morphology-in-pone.0147700.s005.ogv
File:A-Submersible-Off-Axis-Holographic-Microscope-for-Detection-of-Microbial-Motility-and-Morphology-in-pone.0147700.s006.ogv
File:A-Submersible-Off-Axis-Holographic-Microscope-for-Detection-of-Microbial-Motility-and-Morphology-in-pone.0147700.s007.ogv
File:A-Submersible-Off-Axis-Holographic-Microscope-for-Detection-of-Microbial-Motility-and-Morphology-in-pone.0147700.s008.ogv
File:A-Submersible-Off-Axis-Holographic-Microscope-for-Detection-of-Microbial-Motility-and-Morphology-in-pone.0147700.s009.ogv
File:A-Taz1--and-Microtubule-Dependent-Regulatory-Relationship-between-Telomere-and-Centromere-Positions-pgen.1006304.s009.ogv
File:A-Taz1--and-Microtubule-Dependent-Regulatory-Relationship-between-Telomere-and-Centromere-Positions-pgen.1006304.s010.ogv
File:A-Taz1--and-Microtubule-Dependent-Regulatory-Relationship-between-Telomere-and-Centromere-Positions-pgen.1006304.s011.ogv
File:A-Taz1--and-Microtubule-Dependent-Regulatory-Relationship-between-Telomere-and-Centromere-Positions-pgen.1006304.s012.ogv
File:A-Taz1--and-Microtubule-Dependent-Regulatory-Relationship-between-Telomere-and-Centromere-Positions-pgen.1006304.s013.ogv
File:A-Taz1--and-Microtubule-Dependent-Regulatory-Relationship-between-Telomere-and-Centromere-Positions-pgen.1006304.s014.ogv
File:A-Taz1--and-Microtubule-Dependent-Regulatory-Relationship-between-Telomere-and-Centromere-Positions-pgen.1006304.s015.ogv
File:A-Tetraploid-Intermediate-Precedes-Aneuploid-Formation-in-Yeasts-Exposed-to-Fluconazole-pbio.1001815.s007.ogv
File:A-Tetraploid-Intermediate-Precedes-Aneuploid-Formation-in-Yeasts-Exposed-to-Fluconazole-pbio.1001815.s008.ogv
File:A-Tetraploid-Intermediate-Precedes-Aneuploid-Formation-in-Yeasts-Exposed-to-Fluconazole-pbio.1001815.s009.ogv
File:A-Tetraploid-Intermediate-Precedes-Aneuploid-Formation-in-Yeasts-Exposed-to-Fluconazole-pbio.1001815.s010.ogv
File:A-Tetraploid-Intermediate-Precedes-Aneuploid-Formation-in-Yeasts-Exposed-to-Fluconazole-pbio.1001815.s011.ogv
File:A-Tetraploid-Intermediate-Precedes-Aneuploid-Formation-in-Yeasts-Exposed-to-Fluconazole-pbio.1001815.s012.ogv
File:A-Tetraploid-Intermediate-Precedes-Aneuploid-Formation-in-Yeasts-Exposed-to-Fluconazole-pbio.1001815.s013.ogv
File:A-Tetraploid-Intermediate-Precedes-Aneuploid-Formation-in-Yeasts-Exposed-to-Fluconazole-pbio.1001815.s014.ogv
File:A-Tubular-Biomaterial-Construct-Exhibiting-a-Negative-Poissons-Ratio-pone.0155681.s001.ogv
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File:A-Validated-Multiscale-In-Silico-Model-for-Mechano-sensitive-Tumour-Angiogenesis-and-Growth-pcbi.1005259.s008.ogv
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File:Full-Length-Fibronectin-Drives-Fibroblast-Accumulation-at-the-Surface-of-Collagen-Microtissues-pone.0160369.s007.ogv
File:Full-Length-Fibronectin-Drives-Fibroblast-Accumulation-at-the-Surface-of-Collagen-Microtissues-pone.0160369.s008.ogv

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