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Helen M. Blau en
Helen M. Blau is the Donald E. and Delia B. Baxter Professor, director of the Baxter Laboratory for Stem Cell Biology in the department of microbiology and immunology, and a member of the new Institute of Stem Cell Biology and Regenerative Medicine in the Stanford University School of Medicine. Helen Blau researches cell and developmental biology. She has had a longstanding interest in stem cell biology and cell specialization, and is especially well known for her research demonstrating plasticity of the differentiated state. Her research expertise is in nuclear reprogramming and stem cell biology, and she is renowned for her work on muscle stem cells and tissue regeneration in normal and dystrophic muscle of mice and humans. She is an elected member of the Institute of Medicine of the National Academy of Sciences, a member of the American Academy of Arts and Sciences, a fellow of the American Academy for the Advancement of Sciences, and a recipient of numerous national and international awards. [ - ]
Freebase Commons Metaweb System Types /type
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- Helen M. Blau is the Donald E. and Delia B. Baxter Professor, director of the Baxter Laboratory for Stem Cell Biology in the department of microbiology and immunology, and a member of the new Institute of Stem Cell Biology and Regenerative Medicine in the Stanford University School of Medicine. Helen Blau researches cell and developmental biology. She has had a longstanding interest in stem cell biology and cell specialization, and is especially well known for her research demonstrating plasticity of the differentiated state. Her research expertise is in nuclear reprogramming and stem cell biology, and she is renowned for her work on muscle stem cells and tissue regeneration in normal and dystrophic muscle of mice and humans. She is an elected member of the Institute of Medicine of the National Academy of Sciences, a member of the American Academy of Arts and Sciences, a fellow of the American Academy for the Advancement of Sciences, and a recipient of numerous national and international awards.
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Freebase Commons Media /media_common
- A single cell bioengineering approach to elucidate mechanisms of adult stem cell self-renewal
- Redefining differentiation: Reshaping our ends
- Therapeutic angiogenesis due to balanced single-vector delivery of VEGF and PDGF-BB
- Structure-function analysis of varicella-zoster virus glycoprotein H identifies domain-specific roles for fusion and skin tropism
- DNA demethylation dynamics
- Re"evolutionary" regenerative medicine
- Engineering a stem cell house into a home
- MicroRNA programs in normal and aberrant stem and progenitor cells
- Single-cell phospho-specific flow cytometric analysis demonstrates biochemical and functional heterogeneity in human hematopoietic stem and progenitor compartments
- Short Telomeres and Stem Cell Exhaustion Model Duchenne Muscular Dystrophy in mdx/mTR Mice
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- AID-dependent DNA demethylation for cell reprogramming and generating iPS cells
- Tissue Regeneration from Differentiated Cells
- Isolation of Muscle Stem Cells (MuSCs) and their use in degenerative muscle wasting disease, plus non invasive bioluminescence imaging to monitor stem cell behavior in vivo
- Transparent Polymer Membrane for Laser Microdissection
- Reactive Microcontact Printing of Biomolecules on Soft Matter
- In vivo Luminescent Detection of Beta-galactosidase Activity
- Development of a Regulatable Retroviral-Vector System for Identification of Untranslated Regions of mRNAs
- Modular Device and Method for Moving Fluids to and from a Sample Delivery Element
- Detection of Protein Modification
- Isolation, Growth, Differentiation of Human Muscle Cells
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User Domain VisLeg /base/visleg
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- stem cells
- autoimmune disease
- Blood vessel growth
- regulatory RNAs
- VLfeatured
