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The Janeway's Immunobiology CD-ROM, Immunobiology Interactive, is included with each book, and can be purchased separately. It contains animations and videos with voiceover narration, as well as the figures from the text for presentation purposes.
All multicellular organisms may possess innate immunity mediated by defense mechanisms with which the organism is born. In recent years much has been learned about the diversity of innate immune mechanisms. A large array of naturally produced antimicrobial peptides has been de fined. A variety of cell surface receptors that recognize common patterns displayed by infectious organisms have been identified along with the intracellular pathways that these receptors use to activate cellular defense functions. Cell surface receptors on natural killer (NK) cells have been shown to sense microbial invasion in neighboring cells, thereby setting into motion their elimination by cy totoxic mechanisms. Other receptors have been found to facilitate phagocytosis and intracellular killing of microbes by phagocytic cells. These and other natural defense mechanisms have traditionally been viewed as the first line of body defense in vertebrate species that also possess the capacity for acquired or adaptive immunity. Sharks and all of the other jawed vertebrates generate large repertoires of T and B lymphocyte clones that display different antigen specific receptors in the form ofT cell receptors (TCR) and immunoglobulins (Ig) that allow them to recognize and respond to antigens in collaboration with antigen-present ing cells. Memory T and B cells are then generated to allow faster and heightened cellular and humoral immune re sponses on secondary antigen encounter. In recent years it has also become obvious that innate immune responses can directly influence adaptive immune responses in ways that will enhance body defense.
From small beginnings in the early 1970s, the study of complement regulatory proteins has grown in the last decade to the point where it dominates the complement field. This growth has been fueled by the discovery of new regulators, the cloning of old and new regulators, the discovery that many of the regulators are structurally and evolutionarily related to each other and the development of recombinant forms for use in therapy. There are now more proteins known to be involved in controlling the complement system than there are components of the system and the list continues to grow. The time is ripe for a comprehensive review of our current knowledge of these intriguing proteins. This book does just that. The first few chapters discuss the "nuts-and-bolts" of the complement regulators, describing their structures, functional roles and modes of action. The roles of the complement regulators in vivo are then described, focusing on the consequences of deficiency, roles in the reproductive system, interactions with pathogens and exploitation for therapy. The interesting developments in defining the complement regulators expressed in other species are also discussed. The book is written as a monograph, albeit by two people. The text is as readable as possible without compromising on scientific accuracy and completeness. The conversational style very evident in some sections is deliberate! Placing all references in a single bibliography at the end of the text further improves readability. The reader will go to the book to discover a specific fact but be persuaded to read more and derive pleasure from the process. The authors' enthusiasm for the subject comes over strongly in the text, and this enthusiasm proves infectious. - Complement regulators--structure, functional roles and mode of action - Comprehensive reviews of each of the individual regulators - Roles of Complement regulators in vivo,in health and disease: - Consequences of deficiency - Roles in the reproductive system - Interactions with pathogens - Exploitation for therapy - Complement regulators in other species
The comparative approach to immunology can be traced to the era of Pasteur and Metchnikov in which observations regarding foreign recognition in invertebrates was a factor in the develop ment of the principal concepts that created the foundation of what now is the broad field of immunology. With each major experimental and conceptual breakthrough, the classical, albeit essential, question has been asked "are the immune systems of phylogenetically primitive vertebrates and invertebrates similar to that of mammals?" Somewhat surprisingly for the jawed verte brates, the general answer has been a qualified form of "yes", whereas for agnathans and invertebrate phyla it has been "no" so far. The apparent abruptness in the appearance of the immune system of vertebrates is linked to the introduction of the somatic generation of the diversity of its antigen specific receptors. Therefore the questions regarding the origin and evolution of the specific immune system revolve around this phenomenon. With respect to the origin of the system (aside from the or igin of the rearranging machinery itself, the study of which is still in its infancy) one can ask questions about the cellular and mo lecular contexts in which the mechanism was introduced.
This authoritative, single-source reference provides comprehensive examinations of the complement system-offering recent findings in basic science on the structure, biology, physiology, and pathophysiology of complement proteins and the latest therapeutic approaches towards the control of complement-mediated diseases. Written by over 40 international experts from North America, Europe, and Asia, The Human Complement System in Health and Disease describes the molecular architecture of the complement system details the structure of complement genes discusses gene organization as well as the topology and chemistry of ligand-binding sites and catalytic centers of complement proteins analyzes complement organization and activation, including phylogeny and the newly discovered lectin pathway elucidates the regulation of complement gene expression and the structure and function of bioactive peptides explicates opsonic and immunoregulatory properties of complement fragments, endothelial responses, and interactions with viruses and bacteria and more!
Since the publication of the first edition of the Handbook of Human Immunology in 1997, major scientific achievements have directly contributed to an increased understanding of the complexities of the human immune system in health and disease. Whether as a result of the sequencing of the entire human genome, or of technological advancements, severa
Along with nucleic acids, proteins, and lipids, carbohydrates stand as one of four main components of cellular architecture. However, glycobiology (or carbohydrate bioscience) is little understood by non-experts, partly because carbohydrates are a complex, diverse class of molecules structurally and functionally. In recent years, advances in computational analytics (glycomics) have allowed us to better interpret and realize the importance of glycobiology in human health and disease, and glycans and their associated processes have been shown to play a significant role across a variety of disease types. As the biomedical sciences continue to adopt multi-omic and precision medicine approaches, a greater understanding of glycobiology is essential for maintaining healthy physiology and advancing disease treatment.Translational Glycobiology in Human Health and Disease offers a deep examination of glycobiology for experts and non-experts alike in areas ranging from the role of glycobiology in chronic and infectious diseases to advances in technologies for higher throughput analysis and diagnosis. While keeping human health in the forefront, this book integrates a thorough discussion of glycobiology fundamentals with its growing areas of application and societal impact. With emphasis throughout on the interdisciplinary nature of glycosciences, this book also features perspectives from the health, computational (glycoanalytics), materials, biopharmaceutical, and diagnostic sciences.Disease and speciality areas addressed include gycoimmunology, neuroglycobiology, commensal glycobiology, gut health, regenerative medicine and glycobiology, glycobiology and cancer, congenital disorders of glycosylation, infectious disease glycobiology, and parasite glycobiology. Computational approaches discussed, supporting the advance of new research, include advanced glycoanalytics, glycomics microarrays, glycoengineering, and glycol systems biology. Additionally, authors consider impact areas for society and public health, such as glycobiology and entrepreneurship, policy and regulatory requirements for glycosylation, future research, and translation to new diagnostics and drug discovery. - Provides a deep, foundational overview of glycoscience and its translational potential, highlighting glycobiology's growing role in human health and disease study - Examines a broad range of relevant disease areas and applications of glycobiology in policy and public health - Features chapter contributions from leading, international experts in the field, fully integrating perspectives from the health, computational, materials, biopharmaceutical, and diagnostic sciences
Get the BIG PICTURE of Medical Biochemistry – and target what you really need to know to ace the course exams and the USMLE Step 1 300 FULL-COLOR ILLUSTRATIONS Medical Biochemistry: The Big Picture is a unique biochemistry review that focuses on the medically applicable concepts and techniques that form the underpinnings of the diagnosis, prognosis, and treatment of medical conditions. Those preparing for the USMLE, residents, as well as clinicians who desire a better understanding of the biochemistry behind a particular pathology will find this book to be an essential reference. Featuring succinct, to-the-point text, more than 300 full-color illustrations, and a variety of learning aids, Medical Biochemistry: The Big Picture is designed to make complex concepts understandable in the shortest amount of time possible. This full-color combination text and atlas features: Progressive chapters that allow you to build upon what you’ve learned in a logical, effective manner Chapter Overviews that orient you to the important concepts covered in that chapter Numerous tables and illustrations that clarify and encapsulate the text Sidebars covering a particular disease or treatment add clinical relevance to topic discussed Essay-type review questions at the end of each chapter allow you to assess your comprehension of the major topics USMLE-style review questions at the end of each section Three appendices, including examples of biochemically based diseases, a review of basic biochemical techniques, and a review of organic chemistry/biochemistry