In vivo fluorescence imaging of muscle cell regeneration by transplanted EGFP-labeled myoblasts.
暂无分享,去创建一个
Xiaoyin Xu | Qiang Liu | Xiaoyin Xu | Yaming Wang | Zhong Yang | Yaming Wang | Zhong Yang | Qiang Liu
[1] J. Tremblay,et al. Control of inflammatory damage by anti-LFA-1: increase success of myoblast transplantation. , 1997, Cell transplantation.
[2] S S Gambhir,et al. Noninvasive optical imaging of firefly luciferase reporter gene expression in skeletal muscles of living mice. , 2001, Molecular therapy : the journal of the American Society of Gene Therapy.
[3] Xiaoen Wang,et al. Spatial–temporal imaging of bacterial infection and antibiotic response in intact animals , 2001, Proceedings of the National Academy of Sciences of the United States of America.
[4] C. Huard,et al. Prevention by anti-LFA-1 of acute myoblast death following transplantation. , 1997, Journal of immunology.
[5] H. Blau,et al. The fate of myoblasts following transplantation into mature muscle. , 1995, Experimental cell research.
[6] J. Tremblay,et al. High efficiency of muscle regeneration after human myoblast clone transplantation in SCID mice. , 1994, The Journal of clinical investigation.
[7] Ali N. Bahadur,et al. Biomarker System for Studying Muscle, Stem Cells, and Cancer in Vivo Generation of Dual-modality Bioreporter Mouse Line , 2009 .
[8] D. Skuk,et al. Dynamics of the Early Immune Cellular Reactions after Myogenic Cell Transplantation , 2002, Cell transplantation.
[9] H. Blau,et al. Myoblast implantation in Duchenne muscular dystrophy: The San Francisco study , 1997, Muscle & nerve.
[10] D. Skuk,et al. Efficacy of Myoblast Transplantation in Nonhuman Primates Following Simple Intramuscular Cell Injections: Toward Defining Strategies Applicable to Humans , 2002, Experimental Neurology.
[11] H. Shimada,et al. Whole-body optical imaging of green fluorescent protein-expressing tumors and metastases. , 2000, Proceedings of the National Academy of Sciences of the United States of America.
[12] Charlotte Collins,et al. Direct Isolation of Satellite Cells for Skeletal Muscle Regeneration , 2005, Science.
[13] G. Acsadi,et al. Gene transfer into skeletal muscles by isogenic myoblasts. , 1994, Human gene therapy.
[14] J. Rousseau,et al. Induction of Anoikis Following Myoblast Transplantation into SCID Mouse Muscles Requires the Bit1 and FADD Pathways , 2007, American journal of transplantation : official journal of the American Society of Transplantation and the American Society of Transplant Surgeons.
[15] Manaf Bouchentouf,et al. Exercise improves the success of myoblast transplantation in mdx mice , 2006, Neuromuscular Disorders.
[16] T. Partridge,et al. Dynamics of Myoblast Transplantation Reveal a Discrete Minority of Precursors with Stem Cell–like Properties as the Myogenic Source , 1999, The Journal of cell biology.
[17] S. Gambhir,et al. Molecular imaging in living subjects: seeing fundamental biological processes in a new light. , 2003, Genes & development.
[18] J. Harris,et al. FURTHER OBSERVATIONS ON THE PATHOLOGICAL RESPONSES OF RAT SKELETAL MUSCLE TO TOXINS ISOLATED FROM THE VENOM OF THE AUSTRALIAN TIGER SNAKE, NOTECHIS SCUTATUS SCUTATUS , 1978, Clinical and experimental pharmacology & physiology.
[19] J. Morgan,et al. Muscle precursor cells injected into irradiated mdx mouse muscle persist after serial injury , 1999, Muscle & nerve.
[20] G. Butler-Browne,et al. In vivo myogenic potential of human CD133+ muscle-derived stem cells: a quantitative study. , 2009, Molecular therapy : the journal of the American Society of Gene Therapy.
[21] G. Butler-Browne,et al. Human muscle precursor cell regeneration in the mouse host is enhanced by growth factors. , 2004, Human gene therapy.
[22] D. Skuk,et al. Myoblast Transplantation in Whole Muscle of Nonhuman Primates , 2000, Journal of neuropathology and experimental neurology.
[23] K. Woodward,et al. Regeneration of skeletal muscle from transplanted immortalised myoblasts is oligoclonal , 2004, Journal of Cell Science.
[24] R. R. Rice,et al. Myoblast transfer in the treatment of Duchenne's muscular dystrophy. , 1995, The New England journal of medicine.
[25] J. Bouchard,et al. Dystrophin Expression in Muscles of Duchenne Muscular Dystrophy Patients After High-Density Injections of Normal Myogenic Cells , 2006, Journal of neuropathology and experimental neurology.
[26] M. Noble,et al. Myogenic cell lines derived from transgenic mice carrying a thermolabile T antigen: a model system for the derivation of tissue-specific and mutation-specific cell lines. , 1994, Developmental biology.
[27] R. Schooley,et al. Real-Time In Vivo Green Fluorescent Protein Imaging of a Murine Leishmaniasis Model as a New Tool for Leishmania Vaccine and Drug Discovery , 2008, Clinical and Vaccine Immunology.
[28] J. Bouchard,et al. Dystrophin expression in myofibers of Duchenne muscular dystrophy patients following intramuscular injections of normal myogenic cells. , 2004, Molecular therapy : the journal of the American Society of Gene Therapy.
[29] S. Tajbakhsh,et al. Transplanted primary neonatal myoblasts can give rise to functional satellite cells as identified using the Myf5nlacZl+ mouse , 2001, Gene Therapy.
[30] K. Kurachi,et al. Implanted myoblasts not only fuse with myofibers but also survive as muscle precursor cells. , 1993, Journal of cell science.
[31] A. Irintchev,et al. Functional improvement of damaged adult mouse muscle by implantation of primary myoblasts. , 1997, The Journal of physiology.
[32] Y. Miyagi,et al. Cancer invasion and micrometastasis visualized in live tissue by green fluorescent protein expression. , 1997, Cancer research.
[33] H. Blau,et al. Self-renewal and expansion of single transplanted muscle stem cells , 2008, Nature.
[34] M. Grounds,et al. Rapid death of injected myoblasts in myoblast transfer therapy , 1996, Muscle & nerve.
[35] R. Tsien,et al. Imaging Tri-Fusion Multimodality Reporter Gene Expression in Living Subjects , 2004, Cancer Research.
[36] H. Blau,et al. Primary mouse myoblast purification, characterization, and transplantation for cell-mediated gene therapy , 1994, The Journal of cell biology.
[37] M. Rudnicki,et al. Pax7 Is Required for the Specification of Myogenic Satellite Cells , 2000, Cell.
[38] D. Scherman,et al. Vascular endothelial growth factor reduced hypoxia-induced death of human myoblasts and improved their engraftment in mouse muscles , 2008, Gene Therapy.
[39] A. Mauro. SATELLITE CELL OF SKELETAL MUSCLE FIBERS , 1961, The Journal of biophysical and biochemical cytology.
[40] Robert M. Hoffman,et al. The multiple uses of fluorescent proteins to visualize cancer in vivo , 2005, Nature Reviews Cancer.
[41] R. Roy,et al. Successful myoblast allotransplantation in mdx mice using rapamycin. , 1995, Transplantation.
[42] C. Richards,et al. Results of a Triple Blind Clinical Study of Myoblast Transplantations without Immunosuppressive Treatment in Young Boys with Duchenne Muscular Dystrophy , 1993, Cell transplantation.
[43] R. Roy,et al. Very efficient myoblast allotransplantation in mice under FK506 immunosuppression , 1994, Muscle & nerve.
[44] A. Wagers,et al. Highly Efficient, Functional Engraftment of Skeletal Muscle Stem Cells in Dystrophic Muscles , 2008, Cell.
[45] T. Partridge,et al. Human muscle precursor cells give rise to functional satellite cells in vivo , 2007, Neuromuscular Disorders.
[46] Yaming Wang,et al. Autotransplantation in mdx Mice of mdx Myoblasts Genetically Corrected by an HSV-1 Amplicon Vector , 2002, Cell transplantation.
[47] J. Harris,et al. Myotoxic Activity of the Toxic Phospholipase, Notexin, from the Venom of the Australian Tiger Snake , 1996, Journal of neuropathology and experimental neurology.