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Starting with discussion of basic concepts and the molecular mechanisms of necrosis, this book looks first at several forms of necrotic cell death that have been identified, including necroptosis, autophagic cell death, and PARP-mediated cell death. As necrotic cell death is increasingly known to play a critical role in many physiological processes, the next chapters discuss its effect on metabolism, inflammation, immunity, and development. Necrotic cell death is closely implicated in human diseases like cancer, so the next chapters examine its relevance to human diseases, and final chapters cover methodologies for measuring necrosis. This book presents comprehensive coverage of necrosis from recognized experts from leading academic and medical institutions around the world. ​In contrast to apoptosis, well-defined as a form of programmed cell death, necrosis used to be considered as accidental (i.e., non-programmed) cell death, usually in response to a severe injury. Accumulating evidence now suggests, however, that necrosis is also programmed and controlled by distinctive "death machinery" in response to various stimuli like oxidative stress or DNA damage.
Starting with discussion of basic concepts and the molecular mechanisms of necrosis, this book looks first at several forms of necrotic cell death that have been identified, including necroptosis, autophagic cell death, and PARP-mediated cell death. As necrotic cell death is increasingly known to play a critical role in many physiological processes, the next chapters discuss its effect on metabolism, inflammation, immunity, and development. Necrotic cell death is closely implicated in human diseases like cancer, so the next chapters examine its relevance to human diseases, and final chapters cover methodologies for measuring necrosis. This book presents comprehensive coverage of necrosis from recognized experts from leading academic and medical institutions around the world. ​In contrast to apoptosis, well-defined as a form of programmed cell death, necrosis used to be considered as accidental (i.e., non-programmed) cell death, usually in response to a severe injury. Accumulating evidence now suggests, however, that necrosis is also programmed and controlled by distinctive "death machinery" in response to various stimuli like oxidative stress or DNA damage.
When Cells Die A Comprehensive Evaluation of Apoptosis and Programmed Cell Death Edited by Richard A. Lockshin, Zahra Zakeri, and Jonathan L. Tilly Cell death is fast becoming one of the most dynamic areas of biological research -involving as it does the study of apoptosis and programmed cell death and the role these phenomena play in development and homeostasis on the one hand, and aging and disease on the other. The profound implications for medicine and agriculture from the manipulation of these processes have spawned a deluge of research papers, articles, approaches, and methods -making it difficult for scientists to get an overview of the field. When Cells Die establishes a coherent framework for the study of cell death -cutting across viewpoints and disciplines and consolidating disparate research efforts. Leading international researchers describe a wide range of topics, including evaluation methods for programmed cell death and apoptosis in numerous tissues and circumstances; genetic mechanism, signal transduction, and observed manifestations of physiological cell death; model systems ranging from nematodes to humans; relevant work in cancer research, AIDS, immune disorders, fertility, eye disease, and Alzheimer's disease; and more. Written to provide an in-depth overview of cell death, the book is divided into five major parts: * The phenomenon of cell death * Themes and approaches to cell death * Cell death where mitosis is high and evanescence is desirable * Cell death in long-lived cells * The clinical relevance of apoptosis. When Cells Die offers a comprehensive introduction to an intriguing discipline, insight into areas in need of exploration, and information on new techniques and therapeutic applications -all supported with diagrams and flowcharts and a fully cross-referenced and indexed text. It is important reading for anyone working in cell and developmental biology, neuroscience, immunology, cancer research, and virology. It is also useful for advanced undergraduate and graduate-level students, postdoctoral fellows, and researchers just entering the field.
This book is a collection of selected and relevant research, concerning the developments within the Cell Death field of study. Each contribution comes as a separate chapter complete in itself but directly related to the books topics and objectives. The target audience comprises scholars and specialists in the field.
These volumes teach readers to think beyond apoptosis and describes all of the known processes that cells can undergo which result in cell death This two-volume source on how cells dies is the first, comprehensive collection to cover all of the known processes that cells undergo when they die. It is also the only one of its kind to compare these processes. It seeks to enlighten those in the field about these many processes and to stimulate their thinking at looking at these pathways when their research system does not show signs of activation of the classic apoptotic pathway. In addition, it links activities like the molecular biology of one process (eg. Necrosis) to another process (eg. apoptosis) and contrasts those that are close to each. Volume 1 of Apoptosis and Beyond: The Many Ways Cells Die begins with a general view of the cytoplasmic and nuclear features of apoptosis. It then goes on to offer chapters on targeting the cell death mechanism; microbial programmed cell death; autophagy; cell injury, adaptation, and necrosis; necroptosis; ferroptosis; anoikis; pyronecrosis; and more. Volume 2 covers such subjects as phenoptosis; pyroptosis; hematopoiesis and eryptosis; cyclophilin d-dependent necrosis; and the role of phospholipase in cell death. Covers all known processes that dying cells undergo Provides extensive coverage of a topic not fully covered before Offers chapters written by top researchers in the field Provides activities that link and contrast processes to each other Apoptosis and Beyond: The Many Ways Cells Die will appeal to students and researchers/clinicians in cell biology, molecular biology, oncology, and tumor biology.
Diagnose common equine tumors accurately and find clinical information quickly! Clinical Equine Oncology describes the cellular basis of cancer and its etiopathogenesis, along with the principles of diagnosis, treatment, and management of cancer cases. This comprehensive resource offers more than just facts and diagrams — hundreds of detailed photographs make it easier to recognize and evaluate more than 50 types of tumors. It's useful to anyone working in the equine field, whether you're a veterinary surgeon, a practicing vet, equine dentist, or veterinary student. Written by a recognized expert on equine medicine, Derek Knottenbelt, this is the only book on the market that is completely dedicated to coverage of cancer in horses! - More than 50 different types of tumor are covered, including tumors that occur in each of the 10 body systems. - Over 800 excellent-quality photographs show the appearance of pathologies and cancerous conditions both before and after treatment. - More than 80 full-color diagrams summarize key information. - Detailed Pathology section describes common neoplasms in horses, cites research literature, and describes what is generally known about each condition. - Authoritative, inclusive, and unique coverage is likely to remain the standard reference for years to come. - Expert authors are recognized as the top experts in the field of equine oncology. - Practical, colorful design includes icon-based references for quick appraisal of prevalence and prognosis.
Contains papers from a July 1998 conference held at the Queens College Campus of the City University of New York. Papers are arranged in sections on mechanisms and general considerations, programmed (developmental) cell death, and cell death and pathological and clinical situations. Specific topics
In 1960 Sir Frank Macfarlane Burnet received the Noble Prize in Physiology and Medicine. He titled his Nobel Lecture “Immunological Recognition of Self” emphasizing the central argument of immunological tolerance in “How does the vertebrate organism recognize self from nonself in this the immunological sense—and how did the capacity evolve.” The concept of self is linked to the concept of biological self identity. All organisms, from bacteria to higher animals, possess recognition systems to defend themselves from nonself. Even in the context of the limited number of metazoan phyla that have been studied in detail, we can now describe many of the alternative mechanism of immune recognition that have emerged at varying points in phylogeny. Two different arms—the innate and adaptive immune system—have emerged at different moments in evolution, and they are conceptually different. The ultimate goals of immune biology include reconstructing the molecular networks underlying immune processes.
"Yet another cell and molecular biology book? At the very least, you would think that if I was going to write a textbook, I should write one in an area that really needs one instead of a subject that already has multiple excellent and definitive books. So, why write this book, then? First, it's a course that I have enjoyed teaching for many years, so I am very familiar with what a student really needs to take away from this class within the time constraints of a semester. Second, because it is a course that many students take, there is a greater opportunity to make an impact on more students' pocketbooks than if I were to start off writing a book for a highly specialized upper- level course. And finally, it was fun to research and write, and can be revised easily for inclusion as part of our next textbook, High School Biology."--Open Textbook Library.