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[
2009]
With contributions from more than 40 field specialists, Methods of Behavior Analysis in Neuroscience reflects six years of updates to its first bestselling edition and elucidates new behavioral approaches that are quickly becoming field standards. This second edition features new material on the relevance of transgenic mouse models for Alzheimer's disease, behavioral methods for assessing the cognitive impairment associated with major psychotic disorders, the revival of the scopolamine reversal model for assessing the clinical relevance of new AD drugs, and new approaches to assessing the cognitive impairment in aged mice.
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[
2011]
The rapid expansion of the TRP field has generated a large amount of excellent original work across many different research fields. However, investigators are not necessarily familiar with the pros and cons of the variety of methods used to study TRP channels. Because of functional and genetic diversity, as well as the different physiological roles they play, techniques used for studying TRP channels range from single molecular analysis to behavioral animal studies. Methods in multiple areas, such as molecular biology, fluorescence imaging, electrophysiology, cell biology, genetics, proteomics, pharmacology, system physiology, and behavioral assessment, are employed to investigate various aspects of these channels. Choosing among many possible topics in these broad areas was a daunting task. A comprehensive review of the field, TRP Channels spans the information gap by providing broad coverage of current methods and techniques commonly used in TRP channel research, and detailed protocols with thorough discussions of the advantages and disadvantages across methods. Some topics covered include 1. Mammalian, Drosophila and C. elegans TRP channels. 2. Practical protocols for functional studies of TRP channels, including TRPC, TRPV, TRPA, TRPM and the intracellularly localized TRPML channels. 3. ThermoTRPs, including the new fast temperature jump apparatus and the high throughput random mutagenesis method for screening critical motifs involved in TRP channel regulation. 4. Cell-based high-throughput screening assays for TRP channels and their applications in drug discoveries. 5. TRP channel functions in native cells, including smooth muscles, neurons, and cancers. Showcasing the current status of the field, TRP Channels covers the major techniques used in various areas of research. The majority of the chapters are protocol oriented, with the goal of providing clear directions for laboratory use. Because of the breadth of the TRP field, the applications of some methods are described in multiple chapters by experts working on a variety of channel types that serve different physiological functions, highlighting distinctive views on how the methodology can be utilized. Some chapters include discussion on the usefulness and pitfalls associated with the use of certain techniques. Together with chapters that offer comprehensive reviews on the functional regulation and other roles of TRP channels, students and investigators new to the field should find this book particularly informative.
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[
2007]
TRP ion channels were first described in Drosophila melanogaster in 1989 and in mammals several years later. In 1997, TRPV1, a member of the TRP channel superfamily (now with more than 60 members in vertebrates and invertebrates but not in bacteria and plants), was described to respond to the pungent ingredients of hot pepper, then named capsaicin receptor. Ever since we have witnessed an explosion of activity in this field of scientific inquiry for obvious reasons. TRP ion channels are critical elements in signal transduction of cellular signaling cascades and of neurosensory processes, which are involved in all five senses. This book, TRP Ion Channel Function in Sensory Transduction and Cellular Signaling Cascades presents 31 chapters written by researchers who have made these key discoveries, such as Dr. Lutz Birnbaumer who discovered mammalian TRP channels, and who continues to conduct TRP ion channel research at the cutting edge of this hyperdynamic area. Because of the burgeoning nature of the field, this book does not represent an all-comprehensive view on TRP channel biology. However, it does shed light on selected topics of outstanding interest in the TRP arena, such as signal transduction in axonal pathfinding, and vascular, renal, auditory, and nociceptive functioning, to name a few, and the spotlight is cast by an international cast of outstanding chapter authors.
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[
2010]
The common belief is that human smell perception is much reduced compare to other mammals, so that whatever abilities are uncovered and investigated in animal research would have little significance for humans. However, new evidence from a variety of sources indicates this traditional view is likely overly simplistic. The Neurobiology of Olfaction provides a thorough analysis of the state-of-the-science in olfactory knowledge and research, reflecting the growing interest in the field. Authors from some of the most respected laboratories in the world explore various aspects of olfaction, including genetics, behavior, olfactory systems, odorant receptors, odor coding, and cortical activity. Until recently, almost all animal research in olfaction was carried out on orthonasal olfaction (inhalation). It is only in recent years, especially in human flavor research, that evidence has begun to be obtained regarding the importance of retronasal olfaction (exhalation). These studies are beginning to demonstrate that retronasal smell plays a large role in human behavior. Highlighting common principles among various species-including humans, insects, Xenopus laevis (African frog), and Caenorhabditis elegans (nematodes)-this highly interdisciplinary book contains chapters about the most recent discoveries in odor coding from the olfactory epithelium to cortical centers. It also covers neurogenesis in the olfactory epithelium and olfactory bulb. Each subject-specific chapter is written by a top researcher in the field and provides an extensive list of reviews and original articles for students and scientists interested in further readings.
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StemBook is an open access collection of invited, original, peer-reviewed chapters covering a range of topics related to stem cell biology written by top researchers in the field at the Harvard Stem Cell Institute and worldwide. StemBook is aimed at stem cell and non-specialist researchers. In addition to the contributions of the editorial board and the stem cell research community, the project is being done in collaboration with several other enterprises including Harvards Initiative in Innovative Computing. The Initiative in Innovative Computing created the Scientific Collaboration Framework (SCF), the extensible software infrastructure used for the project. SCF and the StemBook project were funded, in part, by a generous grant from an anonymous foundation and also appreciates the input of WormBase's Textpresso team.
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[
2006]
Featuring contributions from distinguished researchers in the field of cognitive therapy research, Animal Models of Cognitive Impairment examines some of the most popular and successful animal archetypes used in the context of drug discovery. It provides integrated coverage of the latest research concerning neuronal systems relevant to cognitive function and dysfunction, assimilating reviews of this research within the context of each chapter. This approach is unique in that it brings together molecular and neurochemical methodologies, behavioral applications in translational models, and clinical applications. This book comprehensively discusses a wide variety of animal models of cognitive impairment, including genetic, lesion, pharmacological, and aging related impairments. It also explores the significance of this research in regards to the treatment of various addictions and disorders such as stroke, autism, Alzheimer's, schizophrenia, and ADHD.
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[
2006]
For the first time world-leading experts in the area of cellular signaling have joined to the production of a book on Smad signal transduction. Smads are the principal intracellular effectors of TGF-b family members that control numerous cellular responses with critical roles in development and in tissue homeostasis. In a series of 22 cutting-edge chapters forward looking reviews of Smads are provided that cover their discovery, evolution, role in development, mechanism of action and regulation, and how deregulation in Smad signalling contributes to human diseases. Written for an audience with basic understanding of molecular and cell biology, this volume provides an in-depth review of a rapidly developing field and extensive cross-references between chapters are provided. This book will be of particular interest to basic and applied biomedical researchers (students, post-docs or group leaders) with desire to understand the principles of cell-cell communication and mechanisms by which signaling pathways and gene programs control cell proliferation and differentiation, and how this knowledge may come to be applied in the clinic.
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[
2017]
During the last two decades, there has been an explosion of research pertaining to the molecular mechanisms that allow for organisms to detect different stimuli, an essential feature for their survival. Among these mechanisms, living beings need to be able to respond to different temperatures as well as chemical and physical stimuli.Thermally activated ion channels were proposed to be present in sensory neurons in the 1980s, but it was not until 1997 that a heat- and capsaicin- activated ion channel, TRPV1, was cloned and its function described in detail. This groundbreaking discovery led to the identification and characterization of several more proteins of the family of Transient Receptor Potential (TRP) ion channels.Intensive research has provided us with the atomic structures of some of these proteins, as well as understanding of their physiological roles, both in normal and pathological conditions. With chapters contributed by renowned experts in the field, Neurobiology of TRP Channels contains a state-of-the-art overview of our knowledge of TRP channels, ranging from structure to their functions in organismal physiology.
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[
2006]
Bringing together the latest information into one easily accessible resource, The Dynamic Synapse: Molecular Methods in Ionotropic Receptor Biology explores the diverse tools and technologies used to study synaptic processes. Written by world-renowned leaders in the field, the book delineates newly developed techniques, methods, and conceptual advances used for studying neurotransmitter receptors and other synaptic proteins. A broad array of molecular, biochemical, imaging, and electrophysiological approaches for studying the biology of synapses are described. Specific topics include the use of proteomics to study synaptic protein complexes, the development of phosphorylation state-specific antibodies, post-genomic tools applied to the study of synapses, and RNA interference in neurons. In addition, several chapters focus on methods for gene and protein delivery into neuronal tissue. The use of biochemical, electrophysiological, and optical tagging techniques to study the movement and membrane trafficking of neurotransmitter receptors in the membranes of live nerve cells are also discussed. To complement these approaches, the application of state-of-the-art approaches for achieving long-term alterations in the genetic complement of neurons in vivo using viral vectors or homologous recombinations of ES cells is also described.
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[
2011]
In 1993, the genetic mutation responsible for Huntington's disease (HD) was identified. Considered a milestone in human genomics, this discovery has led to nearly two decades of remarkable progress that has greatly increased our knowledge of HD, and documented an unexpectedly large and diverse range of biochemical and genetic perturbations that seem to result directly from the expression of the mutant huntingtin gene. Neurobiology of Huntington's Disease: Applications to Drug Discovery presents a thorough review of the issues surrounding drug discovery and development for the treatment of this paradigmatic neurodegenerative disease. Drawing on the expertise of key researchers in the field, the book discusses the basic neurobiology of Huntington's disease and how its monogenic nature confers enormous practical advantages for translational research, including the creation of robust experimental tools, models, and assays to facilitate discovery and validation of molecular targets and drug candidates for HD. Written to support future basic research as well as drug development efforts, this volume:Covers the latest research approaches in genetics, genomics, and proteomics, including high-throughput and high-content screening. Highlights advances in the discovery and development of new drug therapies for neurodegenerative disorders. Examines the practical realities of preclinical testing, clinical testing strategies, and, ultimately, clinical usage. While the development of effective drug treatments for Huntington's disease continues to be tremendously challenging, a highly interactive and cooperative community of researchers and clinical investigators now brings us to the threshold of potential breakthroughs in the quest for therapeutic agents. The impressive array of drug discovery resources outlined in the text holds much promise for treating this devastating disease, providing hope to long-suffering Huntington's disease patients and their families.