Animal models and tests have become increasingly important for biomedical research, enabling a better understanding of pathogenic pathways involved in various human disorders. Over the last decades, zebrafish (Danio rerio) have become a very popular model organism in biomedical research. Recently, this fish has entered the waters of neuroscience and biological psychiatry, quickly becoming an indispensable model species in this field. With a high genetic homology to humans (~75% based on coding regions), it is not surprising that humans and fish are very similar physiologically (and behaviorally). Therefore, it should not come as a surprise that zebrafish can be an excellent model of human neuropsychiatric disorders. While some classical psychiatrists may not too easily be persuaded by this generalization, the current book "The rights and wrongs of zebrafish: principles of behavioral phenotyping and CNS disease modeling" explains, in a domain-by-domain manner, how exactly zebrafish models can be used to target a wide range of human brain disorders and aberrant phenotypes. The contributors to this book are leading international scholars whose work spearheads innovative zebrafish neuroscience research around the world. Written by top experts in the field, this book makes for a useful, balanced and up-to-date reading that outlines the use of zebrafish to study the pathological mechanisms underlying neuropsychiatric disorders.

Zebrafish (Danio rerio) play an integral role in biomedical research, enabling researchers to examine physiological mechanisms and pathways relevant to human pathogenesis and its therapy. That, along with their low cost, easy manipulation, short reproductive cycles, and physiological homology to humans, has made zebrafish a vital model organism for neuroscience research. Zebrafish Protocols for Neurobehavioral Research addresses protocols for both larval and adult models, written by the leading experts in the field of zebrafish research. Part I of this book takes advantage of the high-throughput nature of larval models to offer protocols for research requiring high output, easily manipulated screens. The second half of the book focuses on the robust and sophisticated behaviors of adult zebrafish, suitable for the neurophenotyping of complex traits and multi-domain disorders. Importantly, these models complement each other, working together to provide researchers with valuable insights into neurobiology of normal and pathological behavior. Thorough and cutting-edge, this volume is a useful, authoritative reference guide that should hold a coveted spot in zebrafish laboratories across the globe.

As the presence of genetically modified animal models in research laboratories has multiplied, the role of genetic factors in the pathogenesis of brain disorders has become particularly important. The refinement of molecular genetic methods has continued to broaden our understanding of the genetic factors associated with a variety of disorders. In "Transgenic and Mutant Tools to Model Brain Disorders," leading scientists specializing in this field contribute a timely collection of recent advances featuring a vast array of topics in order to contribute to the diverse approaches taken toward the evaluation of genetically modified models in biomedical research. Opening with several chapters covering general aspects of genetically modified animal models, the book then continues with detailed chapters on models of specific human brain disorders, including OCD, Rett Syndrome, anxiety disorders, depression, and schizophrenia. As a volume in the successful Neuromethods series, the chapters provide authoritative reviews covering the most commonly used approaches in the field.

Cutting-edge and concise, "Transgenic and Mutant Tools to Model Brain Disorders" offers a comprehensive and descriptive overview on a variety of topics in neuroscience and biological psychiatry."

As a model organism, zebrafish (Danio rerio) offer an opportunity to perform steadfast scientific investigations in a robust and high-throughput manner. In Zebrafish Neurobehavioral Protocols, experts in the field provide a series of detailed behavioral protocols dealing with the major current research areas in the field of behavioral neuroscience. The chapters discuss the use and interpretation of video-aided quantification of zebrafish behaviors, describe novel assays commonly used to quantify emotionality, learning, memory, and social behaviors in zebrafish, and instruct how to quantify endocrine responses and correlate them with behavior. Written in the Neuromethods series format, the chapters provide authoritative reviews of many commonly used approaches in the field today. This "how to" book will be a useful practical guide for zebrafish researchers and will complement another related book from this series, Zebrafish Models in Neurobehavioral Research. Cutting-edge and timely, Zebrafish Neurobehavioral Protocols serves as an excellent compilation epitomizing the growing potential of zebrafish in modern scientific inquiry.

Animal models have traditionally played a crucial role in improving our understanding of brain pathogenesis. Zebrafish (Danio rerio) have generated considerable discoveries in the areas of genetics, embryology, endocrinology, and neuroscience. Zebrafish Models in Neurobehavioral Research emphasizes the growing importance of zebrafish in neurobehavioral research and portrays an extensive, thorough perspective on the emergence of zebrafish as robust and translational models. Written by leading international experts, the book covers major topics ranging from stress to learned recognition of environment, encompassing a wide spectrum of the utility of zebrafish within neurobiological disciplines. The chapters provide authoritative reviews of many zebrafish paradigms commonly used in the field today. This book will be a useful guide for zebrafish researchers, and will complement another related book from the popular Neuromethods series, Zebrafish Neurobehavioral Protocols. Comprehensive and up-to-date, Zebrafish Models in Neurobehavioral Research serves as an ideal resource for scientists new to the field as well as for established researchers seeking valuable insight into the growing utility of zebrafish in neuroscience.

Animal models and tests have become increasingly important for biomedical research, enabling a better understanding of pathogenic pathways involved in various human disorders. Over the last decades, zebrafish (Danio rerio) have become a very popular model organism in biomedical research. Recently, this fish has entered the waters of neuroscience and biological psychiatry, quickly becoming an indispensable model species in this field. With a high genetic homology to humans (~75% based on coding regions), it is not surprising that humans and fish are very similar physiologically (and behaviorally). Therefore, it should not come as a surprise that zebrafish can be an excellent model of human neuropsychiatric disorders. While some classical psychiatrists may not too easily be persuaded by this generalization, the current book "The rights and wrongs of zebrafish: principles of behavioral phenotyping and CNS disease modeling" explains, in a domain-by-domain manner, how exactly zebrafish models can be used to target a wide range of human brain disorders and aberrant phenotypes. The contributors to this book are leading international scholars whose work spearheads innovative zebrafish neuroscience research around the world. Written by top experts in the field, this book makes for a useful, balanced and up-to-date reading that outlines the use of zebrafish to study the pathological mechanisms underlying neuropsychiatric disorders.

Zebrafish (Danio rerio) play an integral role in biomedical research, enabling researchers to examine physiological mechanisms and pathways relevant to human pathogenesis and its therapy. That, along with their low cost, easy manipulation, short reproductive cycles, and physiological homology to humans, has made zebrafish a vital model organism for neuroscience research. Zebrafish Protocols for Neurobehavioral Research addresses protocols for both larval and adult models, written by the leading experts in the field of zebrafish research. Part I of this book takes advantage of the high-throughput nature of larval models to offer protocols for research requiring high output, easily manipulated screens. The second half of the book focuses on the robust and sophisticated behaviors of adult zebrafish, suitable for the neurophenotyping of complex traits and multi-domain disorders. Importantly, these models complement each other, working together to provide researchers with valuable insights into neurobiology of normal and pathological behavior. Thorough and cutting-edge, this volume is a useful, authoritative reference guide that should hold a coveted spot in zebrafish laboratories across the globe.

Grooming is among the most evolutionary ancient and highly represented behaviours in many animal species. It represents a significant proportion of an animal's total activity and between 30-50% of their waking hours. Recent research has demonstrated that grooming is regulated by specific brain circuits and is sensitive to stress, as well as to pharmacologic compounds and genetic manipulation, making it ideal for modelling affective disorders that arise as a function of stressful environments, such as stress and post-traumatic stress disorder. Over a series of 12 chapters that introduce and explicate the field of grooming research and its significance for the human and animal brain, this book covers the breadth of grooming animal models while simultaneously providing sufficient depth in introducing the concepts and translational approaches to grooming research. Written primarily for graduates and researchers within the neuroscientific community.

The serotonin transporter is a key brain protein that modulates the reuptake of the neurotransmitter serotonin from synaptic spaces back into the presynaptic neuron. This control over neuronal signalling makes it a prime area of neuroscientific study. In this book an international team of top experts introduce and explicate the role of serotonin and the serotonin transporter in both human and animal brains. They demonstrate the relevance of the transporter and indeed the serotonergic system to substrates of neuropsychiatric disorders, and explain how this knowledge is translated into valid animal models that will help foster new discoveries in human neurobiology. Writing for graduate students and academic researchers, they provide a comprehensive coverage of a wide spectrum of data from animal experimentation to clinical psychiatry, creating the only book exclusively dedicated to this exciting new avenue of brain research.

As the presence of genetically modified animal models in research laboratories has multiplied, the role of genetic factors in the pathogenesis of brain disorders has become particularly important. The refinement of molecular genetic methods has continued to broaden our understanding of the genetic factors associated with a variety of disorders. In "Transgenic and Mutant Tools to Model Brain Disorders", leading scientists specializing in this field contribute a timely collection of recent advances featuring a vast array of topics in order to contribute to the diverse approaches taken toward the evaluation of genetically modified models in biomedical research. Opening with several chapters covering general aspects of genetically modified animal models, the book then continues with detailed chapters on models of specific human brain disorders, including OCD, Rett Syndrome, anxiety disorders, depression, and schizophrenia. As a volume in the successful Neuromethods (TM) series, the chapters provide authoritative reviews covering the most commonly used approaches in the field. Cutting-edge and concise, "Transgenic and Mutant Tools to Model Brain Disorders" offers a comprehensive and descriptive overview on a variety of topics in neuroscience and biological psychiatry.

As a model organism, zebrafish (Danio rerio) offer an opportunity to perform steadfast scientific investigations in a robust and high-throughput manner. In Zebrafish Neurobehavioral Protocols, experts in the field provide a series of detailed behavioral protocols dealing with the major current research areas in the field of behavioral neuroscience. The chapters discuss the use and interpretation of video-aided quantification of zebrafish behaviors, describe novel assays commonly used to quantify emotionality, learning, memory, and social behaviors in zebrafish, and instruct how to quantify endocrine responses and correlate them with behavior. Written in the Neuromethods series format, the chapters provide authoritative reviews of many commonly used approaches in the field today. This "how to" book will be a useful practical guide for zebrafish researchers and will complement another related book from this series, Zebrafish Models in Neurobehavioral Research. Cutting-edge and timely, Zebrafish Neurobehavioral Protocols serves as an excellent compilation epitomizing the growing potential of zebrafish in modern scientific inquiry.

Animal models have traditionally played a crucial role in improving our understanding of brain pathogenesis. Zebrafish (Danio rerio) have generated considerable discoveries in the areas of genetics, embryology, endocrinology, and neuroscience. Zebrafish Models in Neurobehavioral Research emphasizes the growing importance of zebrafish in neurobehavioral research and portrays an extensive, thorough perspective on the emergence of zebrafish as robust and translational models. Written by leading international experts, the book covers major topics ranging from stress to learned recognition of environment, encompassing a wide spectrum of the utility of zebrafish within neurobiological disciplines. The chapters provide authoritative reviews of many zebrafish paradigms commonly used in the field today. This book will be a useful guide for zebrafish researchers, and will complement another related book from the popular Neuromethods series, Zebrafish Neurobehavioral Protocols. Comprehensive and up-to-date, Zebrafish Models in Neurobehavioral Research serves as an ideal resource for scientists new to the field as well as for established researchers seeking valuable insight into the growing utility of zebrafish in neuroscience.

Stress is an adaptive response that has developed throughout evolution, and is associated with multiple changes in the biochemistry, histology and physiology of an organism. As stress may induce or contribute to multiple neuropsychiatric disorders, the rigorous investigation of the neural substrates of stress has become a critical endeavour of contemporary biomedical science. This book explores the physiological responses that researchers have attempted to assess in stress-evoked behavioural changes, using both human and animal "experimental" models in clinical and non-clinical research. Though all aspects of the field have their challenges, animal experimental research of stress is a particularly difficult but meaningful task. This book provides succinct and relevant summaries of progress in the area of assessing stress response and the conditions contributing to it.

Behavioural research has been an exciting staple of the neuroscientific community's efforts in combating the rising challenges of mental healthcare. New innovations are bringing a greater understanding of the pathogenic mechanisms behind the disorders and allowing for progress towards their remedies. this translational approach, using newly developed animal modes, is of critical importance for the study of neuropsychiatric disorders. While the differences between the subjects of clinical research and basic research are obvious, there are many neurobiological similarities that allow for the possibility of creating an accurate animal analogue of a human disorder. These tools contribute to translational research and are the best hope for countering the challenges facing the field of mental health. This book provides chapters on a range of issues in biopsychology and behavioural neuroscience. It offers innovative methodological and conceptual advances regarding topics such as sleep, depression, and anxiety, as well as how these domains interact. All authors of the book are recognised experts in the field, and have written their chapters for an international audience of basic and clinical neuroscientists who are interested in behavioural neurophenotyping. The writing will also be accessible to students at the undergraduate level, while still providing an important update to graduate students and professional researchers in the disciplines of psychology, biology, and neuroscience on this rapidly developing field.

In this book, experts from academia introduce the reader to some of the recent new developments in the field of experimental modelling of various brain disorders. Covering data from neuroethology to neurogenetics and psychopharmacology, this book collects a number of outstanding state-of-the-art papers on the topic, collected by the Russian Society for BioPsychiatry. They will give us a brief, but sound, resume of the reasons why it is so important to study biological markers of brain pathology, and in so doing, discuss the various challenges and available opportunities.