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The book gives a broad overview of recombinant DNA techniques for the behavioral neuroscientist, with illustrative examples of applications. Species covered include rodents (mainly mice), Drosophila melanogaster, Caenorhabditis elegans and Danio rerio. Experimental techniques required to characterize the behavioral phenotypes of mutant animals is provided. Several aspects of novel molecular-genetic techniques are overviewed and possible research strategies are explained. The sections of the book start with general descriptions of techniques followed by illustrative examples. It is divided into six sections. Section 1, bioinformatics and genomics research. Section 2, top-down strategies, where the researcher starts with the phenotype and then analyzes the associated genes; bottom-up strategies, where the physiological chain leading to a phenotype is analyzed starting from the gene product. Section 3, transgenic approaches in rodents including overexpressing foreign genes and gene-targeting; systemic manipulation approaches directly targeting the central nervous system and methods used with invertebrates. Section 4, methods used to evaluate relevant behavioral phenotypes, including learning and aggression. Section 5, examples on molecular brain research in man. Section 6, ethical aspects of research in this field.
Molecular-Genetic and Statistical Techniques for Behavioral and Neural Research presents the most exciting molecular and recombinant DNA techniques used in the analysis of brain function and behavior, a critical piece of the puzzle for clinicians, scientists, course instructors and advanced undergraduate and graduate students. Chapters examine neuroinformatics, genetic and neurobehavioral databases and data mining, also providing an analysis of natural genetic variation and principles and applications of forward (mutagenesis) and reverse genetics (gene targeting). In addition, the book discusses gene expression and its role in brain function and behavior, along with ethical issues in the use of animals in genetics testing. Written and edited by leading international experts, this book provides a clear presentation of the frontiers of basic research as well as translationally relevant techniques that are used by neurobehavioral geneticists. - Focuses on new techniques, including electrocorticography, functional mapping, stereo EEG, motor evoked potentials, optical coherence tomography, magnetoencephalography, laser evoked potentials, transmagnetic stimulation, and motor evoked potentials - Presents the most exciting molecular and recombinant DNA techniques used in the analysis of brain function and behavior - Written and edited by leading international experts
Mouse Behavioral Testing: How to Use Mice in Behavioral Neuroscience provides detailed explanations of how to conduct an experiment on mouse behavior from the initial planning of the research design through every step of the process until the data analysis phase. The book discusses the practical matters that need to be considered carefully when working with any species of animal, such as how many animals need to be tested. It describes the tests and techniques devised specifically for work with mice. Every step of the research process is illustrated with real situations encountered in previous studies. All examples are based on real experiments, and extensive details of several published experiments are provided. The essential features of a behavioral test protocol are outlined, and several complete protocols are provided. Methods to balance the order of tests and determine throughput are described, then a completely balanced order of tests in a complex experiment is presented. The book will be useful for those already familiar with the general principles of research but are new to the realm of behavioral testing of live mice. It will also serve as a text for a formal course, most likely at the graduate level. - A guide to running a behavioral testing lab, including the many aspects of mouse research beyond the confines of the specific test - Diagrams and photographs are shown for many kinds of apparatus and test situations with sufficient details such as dimensions to enable building of replicas - Provides step-by-step instructions on planning and executing behavioral experiments in order to run them successfully
Includes established theories and cutting-edge developments. Presents the work of an international group of experts. Presents the nature, origin, implications, an future course of major unresolved issues in the area.
This handbook provides research guidelines to study roles of the genes and other factors involved in a variety of complex behaviors. Utilizing methodologies and theories commonly used in behavior genetics, each chapter features an overview of the selected topic, current issues, as well as current and future research.
The Handbook of Stress and the Brain focuses on the impact of stressful events on the functioning of the central nervous system; how stress affects molecular and cellular processes in the brain, and in turn, how these brain processes determine our perception of and reactivity to, stressful challenges - acutely and in the long-run. Written for a broad scientific audience, the Handbook comprehensively reviews key principles and facts to provide a clear overview of the interdisciplinary field of stress. The work aims to bring together the disciplines of neurobiology, physiology, immunology, psychology and psychiatry, to provide a reference source for both the non-clinical and clinical expert, as well as serving as an introductory text for novices in this field of scientific inquiry. Part 1 addresses basic aspects of the neurobiology of the stress response including the involvement of neuropeptide, neuroendocrine and neurotransmitter systems and its corollaries regarding gene expression and behavioural processes such as cognition, motivation and emotionality. * Provides an overview of recent advances made in stress research * Includes timely discussion of stress and its effect on the immune system * Presents novel treatment strategies targeting brain processes involved in stress processing and coping mechanisms
The Handbook of Stress and the Brain focuses on the impact of stressful events on the functioning of the central nervous system; how stress affects molecular and cellular processes in the brain, and in turn, how these brain processes determine our perception of and reactivity to, stressful challenges - acutely and in the long-run. Written for a broad scientific audience, the Handbook comprehensively reviews key principles and facts to provide a clear overview of the interdisciplinary field of stress. The work aims to bring together the disciplines of neurobiology, physiology, immunology, psychology and psychiatry, to provide a reference source for both the non-clinical and clinical expert, as well as serving as an introductory text for novices in this field of scientific inquiry. Part 2 treats the complexity of short-term and long-term regulation of stress responsivity, the role of stress in psychiatric disorders as based on both preclinical and clinical evidence, and the current status with regard to new therapeutic strategies targetting stress-related disorders.
Dr. Jacqueline N. Crawley, author of the First and Second Editions of What’s Wrong with My Mouse? Behavioral Phenotyping of Transgenic and Knockout Mice,continues to field calls and e-mails from molecular geneticists who ask: how do I run behavioral assays to find out what’s wrong with my mouse? Turn to What’s Wrong with My Mouse? to discover the wealth of mouse behavioral tasks and to get the guidance you need to select the best methods and necessary controls. Chapters are organized by behavioral domain, including measurements of general health, motor functions, sensory abilities, learning and memory, feeding and drinking, reproductive, social, emotional, and reward behaviors in mutant mice. Throughout the chapters, new behavioral tasks and new research discoveries have been added, bringing the Second Edition up to date with the latest science. In addition, the Second Edition includes two new chapters: "Neurodevelopment and Neurodegeneration" discusses mouse behavioral tasks relevant to neurodevelopmental diseases, such as mental retardation and autism, and to neurodegenerative diseases, such as Alzheimers, Parkinsons, Huntingtons, and amyotrophic lateral sclerosis. "Putting It All Together" recommends strategies for optimizing a battery of behavioral phenotyping tests to address your specific hypotheses about gene functions. The final chapter, "The Next Generation," examines new and emerging technologies. Throughout the book, the use of behavioral testing equipment is illustrated with photographs, diagrams, and representative data. Examples of behavioral tasks successfully applied to transgenic and knockout mouse models are provided, as well as references to the primary literature and step-by-step methods protocols. These features, along with a comprehensive index, listings of database and vendor websites, and an extensive list of references, make this book a valuable and practical resource for students and researchers.
Microdialysis is currently one of the most important in vivo sampling methods in physiology and pharmacology. It is used to determine the chemical components of the fluid in the extracellular space of tissues. The technique is now well established in neuroscience research and is used excessively in behavioral neuroscience to determine the concentrations and identities of molecules in brain tissues, and their change due to behavior, hormonal and transmitter changes in the nervous system. The book provides a detailed comprehensive overview of the technology and its applications, including application in pathology, drug development, and the application in the clinic. The authors are all well known researchers in Neuroscience and experts in the use of Microdialysis. Organized into two parts of seven sections, the Handbook of Microdialysis critically examines recent developments in the field through a variety of chapters written by an internationally acclaimed group of authors. It is the first comprehensive handbook covering the technology of Microdialysis and its applications in Neuroscience.* Presents microdialysis methods and interpretation including the technical aspects of microdialysis as a sampling technique followed by the analytical chemical methods* Discusses the role of microdialysis in pharmacology, drug development and models of CNS pathology* Includes clinical applications of microdialysis
This Handbook brings together and integrates comprehensively the core approaches to fear and anxiety. Its four sections: Animal models; neural systems; pharmacology; and clinical approaches, provide a range of perspectives that interact to produce new light on these important and sometimes dysfunctional emotions. Fear and anxiety are analyzed as patterns that have evolved on the basis of their adaptive functioning in response to threat. These patterns are stringently selected, providing a close fit with environmental situations and events; they are highly conservative across mammalian species, producing important similarities, along with some systematic differences, in their human expression in comparison to that of nonhuman mammals. These patterns are described, with attention to both adaptive and maladaptive components, and related to new understanding of neuroanatomic, neurotransmitter, and genetic mechanisms. Although chapters in the volume acknowledge important differences in views of fear and anxiety stemming from animal vs. human research, the emphasis of the volume is on a search for an integrated view that will facilitate the use of animal models of anxiety to predict drug response in people; on new technologies that will enable direct evaluation of biological mechanisms in anxiety disorders; and on strengthening the analysis of anxiety disorders as biological phenomena. - Integrates animal and human research on fear and anxiety - Presents emerging and developing fields of human anxiety research including imaging of anxiety disorders, the genetics of anxiety, the pharmacology of anxiolysis, recent developments in classification of anxiety disorders, linking these to animal work - Covers basic research on innate and conditioned responses to threat - Presents work from the major laboratories, on fear learning and extinction - Reviews research on an array of neurotransmitter and neuromodulator systems related to fear and anxiety - Compares models, and neural systems for learned versus unlearned responses to threat - Relates the findings to the study, diagnostics, and treatment of anxiety disorders, the major source of mental illness in modern society (26 % of Americans are affected by anxiety disorders!)