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Helen Blau
Biography of Helen Blau, currently Professor at Stanford University Medical School, previously Director of Baxter Laboratory for Stem Cell Biology at Stanford University School of Medicine and Director of Baxter Laboratory for Stem Cell Biology at Stanford University School of Medicine.
Myoblast Transfer Therapy
I am pleased to introduce this volume on Myoblast Transfer Therapy on behalf of the Muscular Dystrophy Association and all of its Advisory Committees. The international conference which led to this volume brought together leading basic scientists and clinical investigators for the purpose of coordinating the development of this new field in the fight against muscular dystrophy. The Muscular Dystrophy Association is the nation's most rapidly growing voluntary health agency in terms of its programs of patient care, research, and professional and public education. Success is attributable to its National Chairman, Jerry Lewis, to its effective corporate membership, and to the many physicians and...
What Genes Can't Do
A historical and critical analysis of the concept of the gene that attempts to provide new perspectives and metaphors for the transformation of biology and its philosophy.
Adult Neurogenesis
This is the first comprehensive, integrated account of one of the most exciting areas of neuroscience-the intersection between the discoveries that the adult brain makes new neurons and that it contains stem cells. The book begins with the historical background and discusses theories of adult neurogenesis and neural stem cell biology in the context of learning and memory processes as well as structural plasticity. It describes in detail neurogenesis in the adult hippocampus and olfactory system and then surveys the regulatory, functional, and comparative aspects, concluding with a chapter on the provocative hypotheses that link failing adult neurogenesis with such diseases as temporal lobe epilepsy, major depression, brain tumors, and dementias. This readable, single-authored volume is a unique resource for graduate students, investigators, and clinicians in the neurosciences, developmental biology, and stem cell research.
The Compatibility Gene
There are far-reaching consequences of the way our body has evolved to fight disease. This book describes how genes link our struggle with disease to compatibility with others, the wiring of our brain, and success in pregnancy.
Development and Reproduction in Humans and Animal Model Species
This book describes human development including sexual reproduction and stem cell research with the development of model organisms that are accessible to genetic and experimental analysis in readily understandable texts and 315 multi-colored graphics. The introductory account of model organisms selected from the entire animal kingdom presents general principles, which are then outlined in subsequent chapters devoted to, for example, sexual development; genes controlling development and their contemporary molecular-analysis methods; production of clones and transgenic animals; development of the nervous and circulatory systems; regenerative medicine and ageing. Finally the evolution of developmental toolkits and novelties is discussed including the genetic basis of the enlargement of the human forebrain. Separate boxes are devoted to controversial questions such as the benefits and problems of prenatal diagnostics or the construction of ancient body plans.
Gene Expression
This book is the first volume in a new series Progress in Gene Expres sion. The control of gene expression is a central-most topic in molecular biology as it deals with the utilization and regulation of gene informa tion. As we see huge efforts mounting all over the developed world to understand the structure and organization of several complex eukaryotic genomes in the form of Gene Projects and Genome Centers, we have to remember that without understanding the basic mechanisms that gov ern the use of genetic information, much of this effort will not be very productive. Fortunately, however, research during the past seven years on the mechanisms that control gene expression in eukaryotes has...
Postimplantation Development in the Mouse
Examines the establishment of the germ layers and other cell lineages in the early embryo including details of cell movements during the beginning stages of primitive streak formation. Discusses patterns of gene expression during the development of such tissues as the limb bud, skeletal, muscle and the central nervous systems placing special emphasis on commitment to particular cell types. Although it concentrates on the mouse as an example of mammalian development--chick, amphibian and Drosophila embryogenesis are employed whenever these organisms are more applicable to the study of a particular problem.
Cancer Stem Cells
Part IV: The Identity of Stemness and Its Consequences for Cancer Therapies -- Chapter 7. If Stemness Is a Categorical or a Dispositional Property, How Can We Cure Cancers? -- Chapter 8. If Stemness Is a Relational or a Systemic Property, How Can We Cure Cancers? -- Conclusion -- Notes -- References -- Acknowledgments -- Index
