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Gene Expression in the Central Nervous System

Author: A.C.H. Yu

Publisher: Elsevier

Published: 1995-08-01

Total Pages: 338

ISBN-13: 0080862306

Gene expression is an active ongoing process that maintains a functional CNS, as proteins are being made on a continual basis. Processes such as learning and memory, nerve cell repair and regeneration and its response to stress are critically dependent on gene expression. This volume highlights the role of gene expression in normal CNS function, and presents many research methods at the cutting edge of neuroscience, which will provide insight into therapeutic approaches through which the control of gene expression may be used in the treatment of many nervous system diseases.

Regulation of Gene Expression in the Nervous System

Author: Anna Maria Giuffrida Stella

Publisher:

Published: 1990-07-19

Total Pages: 504

ISBN-13:

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Offers an up-to-date account of the latest research findings concerned with the regulatory mechanisms of gene expression in neuronal and glial cells under different conditions. The book explores the cellular and neurobiological aspects of important phenomena of the nervous system and its role in health, disease and injury. Contributions from prominent scientists in the field address a variety of specific topics concerned with gene expression in the nervous system--from growth, hormonal and trophic factors to neural tissue reactions in injury or aging.

Immediate-Early Genes in the Central Nervous System

Author: T.R. Tölle

Publisher: Springer Science & Business Media

Published: 2012-12-06

Total Pages: 171

ISBN-13: 3642795625

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Immediate-early genes are believed to be involved in the neuron's ability to con vert short-term synaptic stimulation into long-lasting responses and thus contribute to the adaptive alterations involved in neuronal plasticity. Cellular immediate-early genes share a close structural homology with some viral oncogenes. Recent advances in cellular biology have identified the activation and deactivation of immediate-early genes as molecular mechanisms to control regulated and deregulated growth, cellular differentiation and development. In this view immediate-early genes may function as third messengers in a stimulus transcription cascade transferring extracellular information into changes in target gene transcription, thereby changing the phenotype of neurons. Immediate-Early Genes in the Central Nervous System provides a comprehensive up-to-date overview of current methodology in the research of immediate-early genes and includes a wide range of neurobiological topics, such as regeneration, memory formation, epilepsia and nociception. The contributors to this book have been selected from among the leading experts in their field of research. T.R. TOLLE J. SCHADRACK W. ZIEGLGANSBERGER Contents Immediate-early genes -how immmediate and why early? G./. Evan .............................................. . Immediate-early gene activation as a window on mechanism in the nervous system S.P. Hunt, L.A. McNaughton, R. Jenkins, and W. Wisden. . . . . . . . . .. . . . 18 of immediate-early genes during Differential expression synaptic plasticity, seizures and brain injury suggests specific functions for these molecules in brain neurons M. Dragunow . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .. . . . 35 . . . . . . . . . .

Gene Therapy of the Central Nervous System: From Bench to Bedside

Author: Michael G. Kaplitt

Publisher: Gulf Professional Publishing

Published: 2006

Total Pages: 380

ISBN-13: 9780123976321

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Few areas of biomedical research provide greater opportunities to capitalize upon the revolution in genomics and molecular biology than gene therapy. This is particularly true for the brain and nervous system, where gene transfer has become a key technology for basic research and has recently been translated to human therapy in several landmark clinical trials. Gene Therapy in the Brain: From Bench to Bedside represents the definitive volume on this subject. Edited by two pioneers of neurological gene therapy, this volume contains contributions by leaders who helped to create the field as well as those who are expanding the promise of gene therapy for the future of basic and clinical neuroscience. Drawing upon this extensive collective experience, this book provides clear and informative reviews on a variety of subjects which would be of interest to anyone who is currently using or contemplating exploring gene therapy for neurobiological applications. Basic gene transfer technologies are discussed, with particular emphases upon novel vehicles, immunological issues and the role of gene therapy in stem cells. Numerous research applications are reviewed, particularly in complex fields such as behavioral neurobiology. Several preclinical areas are also covered which are likely to translate into clinical studies in the near future, including epilepsy, pain and amyotrophic lateral sclerosis. Among the most exciting advances in recent years has been the use of neurological gene therapy in human clinical trials, including Parkinson's disease, Canavan disease and Batten disease. Finally, readers will find "insider" information on technological and regulatory issues which can often limit effective translation of even the most promising idea into clinical use. This work provides up-to-date information and key insights into those gene therapy issues which are important to both scientists and clinicians focusing upon the brain and central nervous system.

Gene Expression in the Central Nervous System

Author:

Publisher:

Published: 1995

Total Pages: 341

ISBN-13: 9780444801043

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Transcription Factors in the Nervous System

Author: Gerald Thiel

Publisher: John Wiley & Sons

Published: 2006-05-12

Total Pages: 505

ISBN-13: 3527607366

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This first book to cover neural development, neuronal survival and function on the genetic level outlines promising approaches for novel therapeutic strategies in fighting neurodegenerative disorders, such as Alzheimer's disease. Focusing on transcription factors, the text is clearly divided into three sections devoted to transcriptional control of neural development, brain function and transcriptional dysregulation induced neurological diseases. With a chapter written by Nobel laureate Eric Kandel, this is essential reading for neurobiologists, geneticists, biochemists, cell biologists, neurochemists and molecular biologists.

Immediate Early Genes and Inducible Transcription Factors in Mapping of the Central Nervous System Function and Dysfunction

Author: L. Kaczmarek

Publisher: Gulf Professional Publishing

Published: 2002-07-01

Total Pages: 390

ISBN-13: 9780080534466

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That molecular neurobiology has become a dominant part of neuroscience research can be credited to the discovery of inducible gene expression in the brain and spinal cord. This volume deals with genes, whose expression patterns in the vertebrate central nervous system were the first to be revealed and then the most extensively investigated over the last 15 years. Immediate early genes (IEG) and their protein products, especially those acting as regulators of transcription (inducible transcription factors, ITF) have proven to be very valuable tools in functional neuroanatomy and neurophysiology, as they are rapidly and transiently induced in specific neurons in response to various modes of stimulation. Thus, they have been used to map neuronal populations selectively responsive to a variety of conditions, such as sensory and learning experience, electrical stimulation of specific circuits, seizures, and neurodegeneration. This single volume, written by the most prominent authors in the field, brings together for the first time information about the most widely studied IEG/ITF in a whole variety of phenomena of neuronal activation. It starts with a critical appraisal of the technologies employed for the studies on gene, protein, and transcription factor activity in the nervous system. Several chapters present exhaustive examples of expression patterns of the ITF in "vocal" avian brain, mammalian brain sensory regions, areas involved in regulation of circadian rhythms, and the spinal cord. The next parts cover functional and regular aspects of individual IEG/ITF expression: c-fos in learning and memory, c-jun and others in neuropathology and neuronal stress responses, Elk-1, egr family, and CREB in neuronal plasticity and learning. This volume will be useful as a major reference on this topic. Furthermore, it attempts to unravel the seemingly overwhelming complexity of the phenomena of gene expression in the central nervous system.

Gene Expression and Cell-Cell Interactions in the Developing Nervous System

Author: Jean M. Lauder

Publisher: Springer Science & Business Media

Published: 2013-03-14

Total Pages: 263

ISBN-13: 1468448684

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The dramatic advances in molecular genetics are becoming incorporated into neurobiologic studies at an ever increasing rate. In developmental neurobiology, the importance of cell cell interactions for neurogenesis and gene expression is be ginning to be understood in terms of the molecular bases for these interactions. This book seeks to emphasize the importance of molecular technology in the study of neurogenetic mechanisms and to explore the possible relationships between specific cell cell interactions and regulated gene expression in the develop ing nervous ~stem. This volume consists of nineteen chapters which address ques tions of gene expression and the importance of cell-cell interac tions as key factors in the developing nervous ~stem. Rather than viewing these two processes as separate mechanisms, as the organi zation of these chapters might suggest, we would like to emphasize the interplay of these genetic and epigenetic influences in all phases of neural ontogeny, a concept which is made clear by the subject matter of the contributions themselves. The authors of these chapters were participants in selected ~mposia from the Fourth Congress of the International Society of Developmental Neuroscience held in Salt Lake City, Utah, July 3-7, 1983.

Regulation of Gene Expression and Brain Function

Author: Paul J. Harrison

Publisher: Springer Science & Business Media

Published: 2012-12-06

Total Pages: 71

ISBN-13: 3642784585

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Gene expression converts the information coded by our genes into proteins. These determine the structure and function of an organ such as the brain. Itis therefore an essential process, linking molecular genetics with neurochemistry and behavioral neuroscience. This volume presents a didactic approach to the understanding of the basic processes of gene expression and their involvement in certain brain diseases, such asAlzheimer's disease and schizophrenia. Generously illustrated, the contributions provide a valuable outline of this key aspect of molecular neurobiology and clinical neuroscience.

Genetic Manipulation of the Nervous System

Author:

Publisher: Elsevier

Published: 1995-11-24

Total Pages: 276

ISBN-13: 9780080532400

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Neuroscience Perspectives provides multidisciplinary reviews of topics in one of the most diverse and rapidly advancing fields in the life sciences. Whether you are a new recruit to neuroscience, or an established expert, look to this series for 'one-stop' sources of the historical, physiological, pharmacological, biochemical, molecular biological and therapeutic aspects of chosen research areas. The recent development of Gene Therapy procedures which allow specific genes to be delivered to human patients who lack functional copies of them is of major therapeutic importance. In addition such gene delivery methods can be used in other organisms to define the function of particular genes. These studies are of particular interest in the nervous system where there are many incurable diseases like Alzheimer's and Parkinson's diseases which may benefit from therapies of this kind. Unfortunately gene delivery methods for use in the nervous system have lagged behind those in other systems due to the fact that the methods developed in other systems are often not applicable to cells like neurons which do not divide. This book discusses a wide range of methods which have now been developed to overcome these problems and allow safe and efficient delivery of particular genes to the brain. Methods discussed include virological methods, physical methods (such as liposomes) and the transplantation of genetically modified cells. In a single volume therefore this book provides a complete view of these methods and indicates how they can be applied to the development of therapies for treating previously incurable neurological disorders.