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Electron Microscopic Cytochemistry and Immunocytochemistry in Biomedicine provides up-to-date, comprehensive surveys and descriptions of electron microscopic cytochemical and immunocytochemical methods. It also reviews selected topics of cell biology, pathology, histology, and biomedicine. These reviews illustrate the fundamental contributions of electron microscopic cytochemistry and immunocytochemistry to biology and pathology. By bringing together methodology and the application of methods, this book presents a broad discussion of the contributions, potentials, and limitations of cytochemistry and immunocytochemistry. Electron Microscopic Cytochemistry and Immunocytochemistry in Biomedicine will be a useful reference volume for cell biologists, histologists, anatomists, pathologists, physiologists, immunologists, and clinical researchers concerned with the basic mechanisms of diseases.
Immunocytochemistry and in situ hybridization are widely used biomedical sciences. They are essential in medical diagnosis and in cell biology research. Affinity labeling is the central goal of the experimental strategy involving a series of techniques in a logical order; from the effects of specimen fixation, through specimen preparation to expose the antigen, to optimizing immunolabeling, to assessing the result and finally to safety considerations. Numerous examples of these techniques in biomedical sciences are included, as well as experimental assays and practical tips. This survey of methods will serve as an invaluable reference source in any laboratory setting (academic, industrial or clinical) involved in research in almost every branch of biology or medicine, as well as in pharmaceutical, biotechnological and clinical applications.
New edition of an introductory reference that covers all of the important aspects of electron microscopy from a biological perspective, including theory of scanning and transmission; specimen preparation; darkroom, digital imaging, and image analysis; laboratory safety; interpretation of images; and an atlas of ultrastructure. Generously illustrated with bandw line drawings and photographs. Annotation copyrighted by Book News, Inc., Portland, OR
This comprehensive reference illustrates optimal preparation methods in biological electron microscopy compared with common methodological problems. Not only will the basic methodologies of transmission electron microscopy like fixation, microtomy, and microscopy be presented, but the authors also endeavor to illustrate more specialized techniques such as negative staining, autoradiography, cytochemistry, immunoelectron microscopy, and computer-assisted image analysis. - Authored by the key leaders in the biological electron microscopy field - Illustrates both optimal and suboptimal or artifactual results in a variety of electron microscopy disciplines - Introduces students on how to read and interpret electron micrographs
Electron Microscopy Methods and Protocols is designed for the established researcher as a manual for extending knowledge of the field. It is also for the newcomer who wishes to move into the field. A wide range of applications for the examination of cells, tissues, biological macromolecules, molecular structures, and their interactions are discussed. We have tried to gather together methods that we consider to be those most generally appli- ble to current research in both cell and molecular biology. Each chapter c- tains a set of related practical protocols with examples provided by experts who have first-hand knowledge of the techniques they describe. The individual chapters are grouped according to similarities in their specimen preparation and methodology. Methods are presented in detail, in a step-by-step fashion, using reproducible protocols the authors have personally checked. During the last decade, the scientific literature describing the use of colloidal gold as an immunocytochemical marker has increased at an ex- nential rate, and this trend is expected to continue. We have included a large number of variations on the immunogold labeling technique. In both the ne- tive staining and cryo chapters, authors emphasize the “immunological app- cations” in order to correlate as fully as possible with the emphasis on immunogold labeling in the other chapters. Electron Microscopy Methods and Protocols commences with the routine preparation of biological material for classical transmission electron microscopy involving tissue fixation, embedding, and sectioning (Chap. 1).
Antibodies protect us from a wide range of infectious diseases and cancers and have become an indispensable tool in science-both for conventional immune response research as well as other areas related to protein identification analysis. This second edition of Making and Using Antibodies: A Practical Handbook provides clear guidance on all aspects
Discovered and first isolated in 1966 in C. De Duve's laboratory, peroxisomes - organelles which are present in nearly all eukaryotic cells - are still not fully understood. More than 40 peroxisomal enzymes catalyzing a variety of reactions have been characterized. Moreover, peroxisomes can be regarded as toxicological indicators: several compounds, including hypolipemic drugs, plasticizers or pesticides trigger their proliferation. This proliferation may lead to hepatocarcinogenesis in rodents. Interest in peroxisomes stems not only fromtheir biology, but also because there is a deficiency of peroxisomal functions in several genetic diseases. Some genes involved in inborn errors of peroxisomal function have recently been identified. In this manual, based on a FEBS Advanced Course on peroxisomes, protocols on the following topics are described in detail: Isolation and characterization of peroxisomes by ultracentrifugationand immunoblotting; gene regulation studied by mRNA isolation, hybridizationand DNA cell transfection; use of cell lines as peroxisome proliferator targets; transformation with retrovirus; peroxisomes as toxicological markers; cytochrome P450 induction; drug design and computer analysis of ligand/receptor interaction involved in peroxisomal gene expression.
Since the publication of the best-selling Handbook of Molecular and Cellular Methods in Biology and Medicine, the field of biology has experienced several milestones. Genome sequencing of higher eukaryotes has progressed at an unprecedented speed. Starting with baker's yeast (Saccharomyces cerevisiae), organisms sequenced now include human (Homo sa
Several milestones in biology have been achieved since the first publication of the Handbook of Molecular and Cellular Methods in Biology and Medicine. This is true particularly with respect to genome-level sequencing of higher eukaryotes, the invention of DNA microarray technology, advances in bioinformatics, and the development of RNAi technology. Now in its third edition, this volume provides researchers with an updated tool kit that incorporates conventional as well as modern approaches to tackle biological and medicinal research in the post-genomics era. Significantly revised to address these recent changes, the editors have evaluated, revised, and sometimes replaced protocols with more efficient, more reliable, or simpler ones. The book has also been reorganized with section headings focusing on different biological levels connected to one another, taking into account the central dogma of biology (DNA → RNA → protein → metabolites). The book first explores traditional approaches and then moves to the modern "omics" approaches, including genomics, proteomics, and metabolomics. It also discusses the manipulation of biological systems (including RNAi) and macromolecular analyses, focusing on the use of microscopy. In each chapter, various notes and cautionary considerations are presented for potentially hazardous reagents. Filled with diagrams, tables, and figures to clarify methods, most chapters also contain Troubleshooting Guides indicating problems, possible causes, and solutions that may be incurred in carrying out the procedures. Researchers and scientists who master the techniques in this book are putting themselves at the cutting edge of biological and medicinal research.