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The book describes the different and exciting pathways which have been developed by pathogenic microbes to manage living inside host cells. It covers intracellular life styles of all relevant pathogenic but also symbiotic microorganisms with respect to the cell biology of the host-microbe interactions and the microbial adaptations for intracellular survival. It features intracellular trafficking pathways and characteristics of intracellular niches of individual microbes. The book also asks questions on the benefits for the microbe with regard to physiological needs and nutritional aspects such as auxotrophy, effects on genome sizes, and consequences for disease and host response/immunity (and the benefits for the host in the cases of symbionts). Additionally, the book includes those pathogens that are medically less important but represent distinct intracellular niches, trafficking behaviours and virulence traits. The individual chapters also point out future challenges of research for the respective organism.
This publication is a collection of essays on the biology of intracellular parasitisms where both bacterial and protozoan parasites are discussed. The juxtaposition of authors representing fields of research emphasizes the many common problems facing intracellular parasites and the hosts that harbor them. In addition, numerous illustrations of how different parasites and host attempt to solve these problems in different ways are provided. The book includes one or more chapters on Bdellovibrio, Chlamydia, Rickettsia, Coxiella, Legionella, Shigellae, Mycobacterium, Microsporidium, Plasmodium, and Toxoplasma. The authors frequently speculate and generalize on the subject matter discussed.
This book is about mechanisms of intracellular parasitism of Legionella, Listeria and Mycobacterium. The presented data illustrate the hypothesis that one of the ways by which intracellularly multiplying bacteria influence the bactericidal response of phagocytes is by altering signaling cascades in eukaryotes. To achieve this goal bacteria are capable to produce enzymes and other biologically active compounds which misdirect signaling pathways for the benefit of the parasites. The book is composed of two main parts. The first provides general information on signaling cascades in eukaryotic cells. Analysis of Legionella, Listeria and Mycobacterium products possessing regulatory activity toward metabolism of host cells, essentially by affecting signal transduction in eukaryotes, is performed in the second section.
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.
Molecular Virology of Human Pathogenic Viruses presents robust coverage of the key principles of molecular virology while emphasizing virus family structure and providing key context points for topical advances in the field. The book is organized in a logical manner to aid in student discoverability and comprehension and is based on the author's more than 20 years of teaching experience. Each chapter will describe the viral life cycle covering the order of classification, virion and genome structure, viral proteins, life cycle, and the effect on host and an emphasis on virus-host interaction is conveyed throughout the text. Molecular Virology of Human Pathogenic Viruses provides essential information for students and professionals in virology, molecular biology, microbiology, infectious disease, and immunology and contains outstanding features such as study questions and recommended journal articles with perspectives at the end of each chapter to assist students with scientific inquiries and in reading primary literature. - Presents viruses within their family structure - Contains recommended journal articles with perspectives to put primary literature in context - Includes integrated recommended reading references within each chapter - Provides access to online ancillary package inclusive of annotated PowerPoint images, instructor's manual, study guide, and test bank
How small can a free-living organism be? On the surface, this question is straightforward-in principle, the smallest cells can be identified and measured. But understanding what factors determine this lower limit, and addressing the host of other questions that follow on from this knowledge, require a fundamental understanding of the chemistry and ecology of cellular life. The recent report of evidence for life in a martian meteorite and the prospect of searching for biological signatures in intelligently chosen samples from Mars and elsewhere bring a new immediacy to such questions. How do we recognize the morphological or chemical remnants of life in rocks deposited 4 billion years ago on another planet? Are the empirical limits on cell size identified by observation on Earth applicable to life wherever it may occur, or is minimum size a function of the particular chemistry of an individual planetary surface? These questions formed the focus of a workshop on the size limits of very small organisms, organized by the Steering .Group for the Workshop on Size Limits of Very Small Microorganisms and held on October 22 and 23, 1998. Eighteen invited panelists, representing fields ranging from cell biology and molecular genetics to paleontology and mineralogy, joined with an almost equal number of other participants in a wide-ranging exploration of minimum cell size and the challenge of interpreting micro- and nano-scale features of sedimentary rocks found on Earth or elsewhere in the solar system. This document contains the proceedings of that workshop. It includes position papers presented by the individual panelists, arranged by panel, along with a summary, for each of the four sessions, of extensive roundtable discussions that involved the panelists as well as other workshop participants.
Established almost 30 years ago, Methods in Microbiology is the most prestigious series devoted to techniques and methodology in the field. Now totally revamped, revitalized, with a new format and expanded scope, Methods in Microbiology will continue to provide you with tried and tested, cutting-edge protocols to directly benefit your research. - Focuses on the methods most useful for the microbiologist interested in the way in which bacteria cause disease - Includes section devoted to 'Approaches to characterising pathogenic mechanisms' by Stanley Falkow - Covers safety aspects, detection, identification and speciation - Includes techniques for the study of host interactions and reactions in animals and plants - Describes biochemical and molecular genetic approaches - Essential methods for gene expression and analysis - Covers strategies and problems for disease control
Infectious diseases account for a third of all deaths in the developing world, yet the pathogens which affect specifically these predominantly poor people attract little attention. Melioidosis is a case in point. This book describes the epidemiology, pathology, pathophysiology, clinical features, diagnosis, management and prevention of an important infection that is little known outside Southeast Asia and Australia.
Comprehensive Biomedical Physics, Ten Volume Set is a new reference work that provides the first point of entry to the literature for all scientists interested in biomedical physics. It is of particularly use for graduate and postgraduate students in the areas of medical biophysics. This Work is indispensable to all serious readers in this interdisciplinary area where physics is applied in medicine and biology. Written by leading scientists who have evaluated and summarized the most important methods, principles, technologies and data within the field, Comprehensive Biomedical Physics is a vital addition to the reference libraries of those working within the areas of medical imaging, radiation sources, detectors, biology, safety and therapy, physiology, and pharmacology as well as in the treatment of different clinical conditions and bioinformatics. This Work will be valuable to students working in all aspect of medical biophysics, including medical imaging and biomedical radiation science and therapy, physiology, pharmacology and treatment of clinical conditions and bioinformatics. The most comprehensive work on biomedical physics ever published Covers one of the fastest growing areas in the physical sciences, including interdisciplinary areas ranging from advanced nuclear physics and quantum mechanics through mathematics to molecular biology and medicine Contains 1800 illustrations, all in full color