Experts from The Jackson Laboratory and around the world provide practical advice on everything from how to establish a colony to where to go for specific mutations. The book includes information on medical photography, grafting procedures, and how to map the genes and evaluate the special biological characteristics of mice. It also discusses how to maintain a colony of mice that breed with difficulty, how to approach mapping spontaneous mutations, how to set up systems to evaluate a specific antibody, how to perform simple measurements that yield a large amount of information, and how to access mouse informatics on the Web.
Experts from The Jackson Laboratory and around the world provide practical advice on everything from how to establish a colony to where to go for specific mutations. Systematic Approach to Evaluation of Mouse Mutations includes information on medical photography, grafting procedures, how to map the genes and evaluate the special biological characteristics of the mice.
Does exposure to environmental toxicants inhibit our ability to have healthy children who develop normally? Biologic markersâ€"indicators that can tell us when environmental factors have caused a change at the cellular or biochemical level that might affect reproductive abilityâ€"are a promising tool for research aimed at answering that important question. Biologic Markers in Reproductive Toxicology examines the potential of these markers in environmental health studies; clarifies definitions, underlying concepts, and possible applications; and shows the benefits to be gained from their use in reproductive and neurodevelopmental research.
Completion of the first phase of the Human Genome Project has presented scientists with a mountain of new information. The availability of all human genes and their locations is exciting, but their mechanisms of action and interaction with other genes are often unknown. Certain variations in the environment and characteristics of human genes make i
An updated and comprehensive reference to pathology in every organ system in genetically modified mice The newly revised and thoroughly updated Second Edition of Pathology of Genetically Engineered and Other Mutant Mice delivers a comprehensive resource for pathologists and biomedical scientists tasked with identifying and understanding pathologic changes in genetically modified mice. The book is organized by body system, includes descriptions and explanations of a wide range of findings, as well as hundreds of color photographs illustrating both common and rare lesions that may be found in genetically engineered and wild type mice. The book is written by experienced veterinary and medical pathologists working in veterinary medical colleges, medical colleges, and research institutes. Covering the latest discoveries in mouse pathology resulting from advancements in biotechnology research over the last 30 years, this singular and accessible resource is a must-read for veterinary and medical pathologists and researchers working with genetically engineered and other mice. Readers will also benefit from: A thorough introduction to mouse pathology and mouse genetic nomenclature, as well as databases useful for analysis of mutant mice An exploration of concepts related to validating animal models, including the Cinderella Effect Practical discussions of basic necropsy methods and grading lesions for computational analyses Concise diagnostic approaches to the respiratory tract, the oral cavity and GI tract, the cardiovascular system, the liver and pancreas, the skeletal system, and other tissues As a one-stop and up to date reference on mouse pathology, Pathology of Genetically Engineered and Other Mutant Mice is an essential book for veterinary and medical pathologists, as well as for scientists, researchers, and toxicologists whose work brings them into contact with genetically modified mice.
The Laboratory Mouse, Second Edition is a comprehensive book written by international experts. With inclusions of the newly revised European standards on laboratory animals, this will be the most current, global authority on the care of mice in laboratory research. This well-illustrated edition offers new and updated chapters including immunology, viruses and parasites, behavior, enrichment and care standards of laboratory mice across the life sciences, medical and veterinary fields. - Features four-color illustrations with complete instruction on mouse surgery, anatomy, behavior and care of the mouse in laboratory research - Offers additional chapters on new mouse strains, phenotyping of strains, bacteria and parasites, and immunology - Includes the newly revised EU standards on care, as well as, comparisons to standards and regulations in the US and other countries
Mice have become the species of choice for modeling the complex interactions between tumor cells and the host environment. Mouse genetics are easily manipulated, and a growing array of technology exists for this purpose. Mouse models allow investigators to better understand causal relationships between specific genetic alterations and tumors, utilize new imaging techniques, and test novel therapies. Recent developments along these lines show great promise for the development of new anti-cancer treatments. Mouse Models of Human Cancer provides researchers and students with a complete resource on the subject, systematically presenting the principles, methodologies, applications, and challenges associated with this exciting field. Offering a survey of the latest research and a description of future areas of interest, this text: Presents real experimental data Describes organ site-specific mouse models Clearly identifies suitable models for further drug testing Critically analyzes current methodologies and their limitations Features numerous recognizable expert contributors Lists key Web sites, reagents, and companies From mouse handling and genetic engineering to preclinical trials, Mouse Models of Human Cancer is a comprehensive guide to using these models and relating them to human disease. Its uniform presentation describes organ-specific models in clinical, imaging, and molecular terms, and lays out the relevant genetics, experimental approaches, histological comparisons with human disease, and conclusions. Combining stellar chapter authors, rich illustrations, and clear, up-to-date coverage, Mouse Models of Human Cancer is an invaluable resource for advanced students and cutting-edge researchers.
Scientific Frontiers in Developmental Toxicology and Risk Assessment reviews advances made during the last 10-15 years in fields such as developmental biology, molecular biology, and genetics. It describes a novel approach for how these advances might be used in combination with existing methodologies to further the understanding of mechanisms of developmental toxicity, to improve the assessment of chemicals for their ability to cause developmental toxicity, and to improve risk assessment for developmental defects. For example, based on the recent advances, even the smallest, simplest laboratory animals such as the fruit fly, roundworm, and zebrafish might be able to serve as developmental toxicological models for human biological systems. Use of such organisms might allow for rapid and inexpensive testing of large numbers of chemicals for their potential to cause developmental toxicity; presently, there are little or no developmental toxicity data available for the majority of natural and manufactured chemicals in use. This new approach to developmental toxicology and risk assessment will require simultaneous research on several fronts by experts from multiple scientific disciplines, including developmental toxicologists, developmental biologists, geneticists, epidemiologists, and biostatisticians.
This comprehensive book covers all aspects of the field of genetically engineered laboratory mice, including the creation of mutant mice through mouse models for developmental biology and the monitoring of laboratory mouse colonies. Written by leading biomedical investigators, pathologists, and clinicians, this book presents systematic approaches for analyzing mutant laboratory mice for specific medical applications. It provides a variety of methods for creating mutant mice, while covering legal aspects of mutant and inbred laboratory mice as well as the use and maintenance of international databases.
Transform Your Computer Monitor into a Virtual MicroscopeThe world's leading expert on mouse embryology, Dr. Matthew Kaufman is responsible for producing classic texts that are considered the most respected in the field. While the quality of their photowork at the time was considered state-of-the-art, the technology available when the books were pr