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Science, ISSN 0036-8075, 8/2010, Volume 329, Issue 5995, pp. 1078 - 1081
Journal Article
The Journal of Cell Biology, ISSN 0021-9525, 9/2010, Volume 190, Issue 5, pp. 867 - 879
Skeletal muscle satellite cells are adult stem cells responsible for postnatal skeletal muscle growth and regeneration. Paired-box transcription factor Pax7... 
Skeletal muscle satellite cells | Artificial satellites | Cell growth | MicroRNA | Stem cells | Cell lines | Muscles | Cellular differentiation | Skeletal muscle | Myoblasts | PROGENITOR CELLS | RNA INTERFERENCE | MYOGENESIS | REGENERATION | EMBRYONIC STEM-CELLS | HEART-FAILURE | SELF-RENEWAL | FATE DETERMINATION | EXPRESSION | PROGRESSION | CELL BIOLOGY | Paired Box Transcription Factors - genetics | Up-Regulation | Cell Proliferation | MicroRNAs - metabolism | PAX7 Transcription Factor - metabolism | Stem Cells - cytology | Muscle, Skeletal - cytology | Stem Cells - metabolism | Cell Differentiation - genetics | Myoblasts - metabolism | Regeneration - genetics | Satellite Cells, Skeletal Muscle - physiology | Cell Differentiation - physiology | Cell Line | Muscle, Skeletal - growth & development | PAX7 Transcription Factor - physiology | Muscle Development - physiology | Satellite Cells, Skeletal Muscle - cytology | Cells, Cultured | Satellite Cells, Skeletal Muscle - metabolism | Muscle, Skeletal - physiology | Regeneration - physiology | Proteins - genetics | Animals | Proteins - metabolism | Muscle Development - genetics | Mice | MicroRNAs - genetics | Paired Box Transcription Factors - metabolism | Muscle cells | Research | RNA | Studies | Proteins | Musculoskeletal system | Survival analysis | Genes | Cells | Index Medicus
Journal Article
Science, ISSN 0036-8075, 7/2005, Volume 309, Issue 5732, pp. 314 - 317
Bone marrow stromal cells (MSCs) have great potential as therapeutic agents. We report a method for inducing skeletal muscle lineage cells from human and rat... 
Skeletal muscle satellite cells | Artificial satellites | Stromal cells | Neuroglia | Stem cells | Cell lines | Muscles | Stem cell transplantation | Reports | Transplantation | Cell transplantation | SKELETAL-MUSCLE | REGENERATION | MULTIDISCIPLINARY SCIENCES | MYOGENIC SPECIFICATION | SATELLITE CELLS | QUIESCENT | DIFFERENTIATION | REGULATORY GENE | EXPRESSION | MESENCHYMAL STEM-CELLS | Stromal Cells - transplantation | Cell Proliferation | Humans | Fibroblast Growth Factor 2 - pharmacology | PAX7 Transcription Factor | Bone Marrow Cells - physiology | Gene Expression Profiling | Stem Cells - cytology | Muscle, Skeletal - cytology | Cell Fusion | Transfection | Bone Marrow Transplantation | Mice, Inbred mdx | Satellite Cells, Skeletal Muscle - physiology | Cell Differentiation | Muscular Dystrophy, Duchenne - therapy | Bone Marrow Cells - cytology | Cell Separation | Colforsin - pharmacology | Satellite Cells, Skeletal Muscle - cytology | Cells, Cultured | Rats | Platelet-Derived Growth Factor - pharmacology | Muscle Cells - cytology | Cell Lineage | Regeneration | Animals | Homeodomain Proteins - analysis | Mice, Nude | Neuregulins - pharmacology | Muscle Proteins - analysis | Muscle Development - genetics | Muscle Fibers, Skeletal - cytology | Stem Cells - physiology | Mice | Stromal Cells - physiology | Muscular Diseases - therapy | Stromal Cells - cytology | Parkinson's disease | Muscle diseases | Dystonia | Research | Hematopoietic stem cells | Cells | Bone marrow | Muscular system | Transplants & implants | Medical disorders | Index Medicus
Journal Article
PloS one, ISSN 1932-6203, 2016, Volume 11, Issue 1, pp. e0147198 - e0147198
Background A longstanding goal in regenerative medicine is to reconstitute functional tissus or organs after injury or disease. Attention has focused on the... 
SKELETAL-MUSCLE | SATELLITE CELL NICHE | STEM-CELLS | ADULT MUSCLE | MACROPHAGES | MYOGENESIS | MULTIDISCIPLINARY SCIENCES | ENDOTHELIAL-CELLS | SELF-RENEWAL | PROLIFERATION | TEMPLATE DNA STRANDS | Barium Compounds - toxicity | Chlorides - toxicity | Muscle, Skeletal - injuries | Cytokines - physiology | Necrosis | Muscle Development | Cold Injury - pathology | Muscle, Skeletal - drug effects | Satellite Cells, Skeletal Muscle - physiology | Freezing - adverse effects | Models, Animal | Myoblasts - physiology | Elapid Venoms - toxicity | Macrophages - physiology | Green Fluorescent Proteins - analysis | Vascular Endothelial Growth Factor Receptor-2 - analysis | Mice, Inbred C57BL | Cobra Cardiotoxin Proteins - toxicity | Mice, Transgenic | Muscle, Skeletal - physiology | Regeneration - physiology | Animals | Fibrosis | Stem Cells - physiology | Mice | Muscle, Skeletal - pathology | Neovascularization, Physiologic | Regeneration - immunology | Cold Injury - physiopathology | Cycles | Barium | Animal models | Transplants & implants | Transgenic | Stem cell transplantation | Confocal microscopy | Infections | Confocal | Epidemiology | Regeneration (physiology) | Cell growth | Histopathology | Rodents | Cell cycle | Gangrene | Basal lamina | Injuries | Cytokines | Tissue engineering | Organs | Muscles | Blood vessels | Cell division | Inflammation | Skeletal muscle | Barium chloride | Immune systems | Regeneration | Musculoskeletal system | Microscopy | Experimental design | Stem cells | Infiltration | Chemokines | Index Medicus | Green Fluorescent Proteins | Cobra Cardiotoxin Proteins | Macrophages | Cellular Biology | Vascular Endothelial Growth Factor Receptor-2 | Freezing | Stem Cells | Life Sciences | Cold Injury | Barium Compounds | Chlorides | Myoblasts | Elapid Venoms | Muscle, Skeletal | Satellite Cells, Skeletal Muscle
Journal Article
The Journal of Cell Biology, ISSN 0021-9525, 5/2002, Volume 157, Issue 5, pp. 851 - 864
Three populations of myogenic cells were isolated from normal mouse skeletal muscle based on their adhesion characteristics and proliferation behaviors.... 
Skeletal muscle satellite cells | Stem cells | Multipotent stem cells | Muscles | Cultured cells | Transplantation | Cells | Hematopoietic stem cells | Cell transplantation | Skeletal muscle | Mdx mice | Muscle-derived stem cells (MDSC) | Satellite cells | Dystrophin | MDX MOUSE | dystrophin | IMMUNOSUPPRESSIVE TREATMENT | CELL BIOLOGY | muscle-derived stem cells (MDSC) | cell transplantation | SKELETAL-MUSCLE | IN-VITRO | MYOBLAST TRANSFER THERAPY | mdx mice | HISTOCOMPATIBILITY COMPLEX ANTIGENS | DUCHENNE MUSCULAR-DYSTROPHY | GENE-THERAPY | MYOGENIC PROGENITORS | satellite cells | Stem Cells - immunology | Vascular Endothelial Growth Factor A | Vascular Endothelial Growth Factors | Endothelial Growth Factors - pharmacology | Stem Cells - cytology | Muscle, Skeletal - cytology | Muscular Dystrophy, Animal - pathology | CD4-Positive T-Lymphocytes - immunology | Stem Cell Transplantation | Dystrophin - physiology | Muscle, Skeletal - immunology | Mice, Inbred mdx | Lymphokines - pharmacology | Cell Differentiation - physiology | Cell Separation | Mice, Inbred C57BL | Hematopoietic Stem Cell Transplantation | Nerve Growth Factor - pharmacology | Muscle, Skeletal - physiology | Regeneration - physiology | Cell Division - drug effects | Cell Division - physiology | Animals | Cell Differentiation - drug effects | Biomarkers | Muscle Fibers, Skeletal - cytology | Mice | CD8-Positive T-Lymphocytes - immunology | In Vitro Techniques | Cell research | Striated muscle | Analysis | Identification | Muscular system | Cellular biology | Rodents | Index Medicus | muscle-derived stem cells (MDSC); satellite cells; cell transplantation; dystrophin; mdx mice
Journal Article
The Journal of Cell Biology, ISSN 0021-9525, 10/2002, Volume 159, Issue 1, pp. 123 - 134
Skeletal muscle contains myogenic progenitors called satellite cells and muscle-derived stem cells that have been suggested to be pluripotent. We further... 
Skeletal muscle satellite cells | Artificial satellites | Stem cells | Cell lines | Muscles | Muscle fibers | Cellular differentiation | Cells | Hematopoietic stem cells | Myoblasts | Satellite cell | Hematopoiesis | Pax7 | Sca-1 | Stem cell | PROGENITORS | REGENERATION | MOUSE | SATELLITE CELLS | TRANSPLANTATION | CELL BIOLOGY | hematopoiesis | satellite cell | stem cell | DYSTROPHIN | HEMATOPOIETIC STEM-CELLS | DIFFERENTIATION | EXPRESSION | LINEAGE | Leukocyte Common Antigens - metabolism | Coculture Techniques | Homeodomain Proteins - metabolism | PAX7 Transcription Factor | Muscle, Skeletal - cytology | Recombinant Fusion Proteins - metabolism | Myoblasts, Skeletal - cytology | Muscle Development | Flow Cytometry | Myoblasts, Skeletal - physiology | Muscle Proteins - metabolism | Satellite Cells, Skeletal Muscle - physiology | Hematopoietic Stem Cells - physiology | Antigens, Ly - metabolism | Membrane Proteins - metabolism | Cell Differentiation - physiology | Genes, Reporter | DNA-Binding Proteins | Cell Separation | Satellite Cells, Skeletal Muscle - cytology | Trans-Activators | Cells, Cultured | Cell Transplantation | Mice, Transgenic | Muscle, Skeletal - physiology | Myogenic Regulatory Factor 5 | Transcription Factors - genetics | Mice, SCID | Homeodomain Proteins - genetics | Muscle Proteins - genetics | Transcription Factors - metabolism | Animals | Hematopoietic Stem Cells - cytology | Mice | MyoD Protein | Cytology | Physiological aspects | Genetic aspects | Research | Gene expression | Myogenesis | Muscular system | Cellular biology | Index Medicus | stem cell; satellite cell; Pax7; hematopoiesis; Sca-1
Journal Article
The Journal of Cell Biology, ISSN 0021-9525, 1/2006, Volume 172, Issue 3, pp. 433 - 440
In contrast to mammals, salamanders can regenerate complex structures after injury, including entire limbs. A central question is whether the generation of... 
Skeletal muscle satellite cells | Regeneration | Artificial satellites | Cell growth | Newts | Multipotent stem cells | Stem cells | Cultured cells | Skeletal muscle | Mesenchymal stem cells | PROGENITOR CELLS | STEM-CELLS | AXOLOTL TAIL REGENERATION | SELF-RENEWAL | DEDIFFERENTIATION | BLASTEMA | AMPHIBIAN REGENERATION | IDENTIFICATION | EXPRESSION | MARROW STROMAL CELLS | CELL BIOLOGY | Notophthalmus viridescens | Cell Proliferation | Cadherins - metabolism | Cell Count | Adipocytes - cytology | Muscle, Skeletal - cytology | Myosin Heavy Chains - metabolism | Multipotent Stem Cells - transplantation | Muscle, Skeletal - chemistry | Cartilage - cytology | Satellite Cells, Skeletal Muscle - physiology | Osteoblasts - cytology | Extremities - physiology | Multipotent Stem Cells - physiology | Cell Differentiation - physiology | Basement Membrane - cytology | Satellite Cells, Skeletal Muscle - cytology | Cells, Cultured | Cell Transplantation | Regeneration - physiology | Cell Lineage - physiology | Satellite Cells, Skeletal Muscle - transplantation | PAX7 Transcription Factor - analysis | Animals | Histones - analysis | Multipotent Stem Cells - cytology | MyoD Protein - analysis | Muscle Fibers, Skeletal - cytology | Epidermis - cytology | Muscles | Genetic aspects | Research | Salamanders | Cell populations | Tissue | Muscular system | Mammals | Reptiles & amphibians | Injuries | Index Medicus
Journal Article
STEM CELLS, ISSN 1066-5099, 08/2017, Volume 35, Issue 8, pp. 1958 - 1972
Hippo pathway downstream effectors Yap and Taz play key roles in cell proliferation and regeneration, regulating gene expression especially via Tead... 
Yap | Satellite cells | Tead | Taz | Muscle stem cells | YES-ASSOCIATED PROTEIN | PROGENITOR CELLS | ORGAN SIZE CONTROL | REGENERATION | CELL & TISSUE ENGINEERING | CELL BIOLOGY | WW DOMAIN | AMPK-MEDIATED REGULATION | MYOGENIC DIFFERENTIATION | ONCOLOGY | PATHWAY | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | EMBRYONAL RHABDOMYOSARCOMA | HEMATOLOGY | Cell Proliferation | Satellite Cells, Skeletal Muscle - cytology | Gene Expression Regulation | Satellite Cells, Skeletal Muscle - metabolism | Stem Cells - cytology | Muscle Fibers, Skeletal - metabolism | Muscle, Skeletal - cytology | Phosphoproteins - metabolism | Stem Cells - metabolism | Mice, Knockout | Cell Differentiation - genetics | Cell Fusion | Feedback, Physiological | Myoblasts - metabolism | Animals | Wnt Signaling Pathway - genetics | Regeneration - genetics | Myoblasts - cytology | Muscle Development - genetics | Muscle Fibers, Skeletal - cytology | Adaptor Proteins, Signal Transducing - metabolism | Protein-Serine-Threonine Kinases - metabolism | Muscles | DNA microarrays | Genetic transcription | DNA binding proteins | Analysis | Stem cells | Cell proliferation | Transcription factors | Wnt protein | Destruction | Genes | Switches | Stem cell transplantation | Proteins | Rodents | Talking | Active satellites | siRNA | Gene expression | Myogenesis | Skeletal muscle | Mutants | Myoblasts | Yes-associated protein | Regeneration | Musculoskeletal system | Ribonucleic acids | Cells (biology) | Effectors | Cytoskeleton | Mice | Differentiation | Index Medicus | Adult Stem Cells | Muscle Regeneration | Cell Signaling | Tissue‐Specific Stem Cells | Muscle Stem Cells | Satellite Cells
Journal Article
Proceedings of the National Academy of Sciences of the United States of America, ISSN 0027-8424, 8/2009, Volume 106, Issue 32, pp. 13383 - 13387
Skeletal muscle stem cells are regulated by Pax3/7. During development Pax3 is required for the maintenance of these cells in the somite and their migration to... 
Skeletal muscle satellite cells | Artificial satellites | MicroRNA | Stem cells | Embryonic stem cells | Cellular differentiation | Embryos | Progenitor cells | Cells | Skeletal muscle | Onset of mouse myogenesis | Satellite cell differentiation | PROGENITOR CELLS | ACTIVATION | onset of mouse myogenesis | MYOGENESIS | MULTIDISCIPLINARY SCIENCES | TRANSCRIPTION | SATELLITE CELLS | satellite cell differentiation | CRE | GENERATION | DIFFERENTIATION | PROMOTES | PROGRESSION | Paired Box Transcription Factors - genetics | Humans | Molecular Sequence Data | 3' Untranslated Regions - metabolism | MicroRNAs - metabolism | Stem Cells - cytology | Muscle, Skeletal - cytology | Stem Cells - metabolism | Embryo, Mammalian - metabolism | Somites - embryology | Gene Expression Regulation, Developmental | Base Sequence | Cell Differentiation | Somites - metabolism | Cell Line | PAX3 Transcription Factor | Satellite Cells, Skeletal Muscle - cytology | Mice, Transgenic | Satellite Cells, Skeletal Muscle - metabolism | Muscle, Skeletal - physiology | Regeneration | Animals | Embryo, Mammalian - cytology | Mice | MicroRNAs - genetics | Paired Box Transcription Factors - metabolism | Physiological aspects | Muscles | Genetic aspects | Research | Gene expression | Myogenesis | Proteins | Musculoskeletal system | Cell culture | Embryology | Cell adhesion & migration | Index Medicus | Paired Box Transcription Factors | Embryo, Mammalian | Somites | Stem Cells | Life Sciences | Immunology | MicroRNAs | Muscle, Skeletal | 3' Untranslated Regions | Satellite Cells, Skeletal Muscle | Biological Sciences
Journal Article
Scientific Reports, ISSN 2045-2322, 02/2014, Volume 4, Issue 1, pp. 4012 - 4012
The quiescent (G0) phase of the cell cycle is the reversible phase from which the cells exit from the cell cycle. Due to the difficulty of defining the G0... 
PROGENITOR CELLS | SKELETAL-MUSCLE | MUSCLE REGENERATION | CDK INHIBITORS | S-PHASE ENTRY | MULTIDISCIPLINARY SCIENCES | HEMATOPOIETIC STEM-CELLS | NICHE | SATELLITE CELLS | P27(KIP1) | G-G TRANSITION | RNA-Binding Proteins - genetics | Selenium-Binding Proteins - genetics | Tumor Suppressor Protein p53 - biosynthesis | Stem Cells - cytology | Retinoblastoma Protein - biosynthesis | RNA-Binding Proteins - biosynthesis | Selenium-Binding Proteins - biosynthesis | Apoptosis Regulatory Proteins - genetics | Cyclin-Dependent Kinase Inhibitor p16 - biosynthesis | G1 Phase - genetics | Apoptosis Regulatory Proteins - biosynthesis | Recombinant Fusion Proteins - biosynthesis | Cell Line | Cyclin-Dependent Kinase Inhibitor p21 - biosynthesis | Gene Expression | Carrier Proteins - biosynthesis | Bacterial Proteins - genetics | Mice, Transgenic | MicroRNAs - biosynthesis | Carrier Proteins - genetics | Cyclin-Dependent Kinase Inhibitor p57 - biosynthesis | Animals | Resting Phase, Cell Cycle - genetics | Recombinant Fusion Proteins - genetics | Luminescent Proteins - genetics | Mice | 3T3 Cells | Cyclin-Dependent Kinase Inhibitor p27 - genetics | Cyclin-dependent kinase | Rodents | Stem cells | Cell cycle | Defective mutant | Transgenic mice | Stem cell transplantation | Cyclin-dependent kinase inhibitor p27 | Fusion protein | Index Medicus
Journal Article