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This book systematically illustrates theories and technologies in Histochemistry, including different kinds of enzymes, immunohistochemistry, polymerase chain reaction, related electron microscopic cytochemical techniques as well as the quantitative assay metrology. Abundant experiments as well as vivid images are demonstrated, making the book an essential reference for both graduate students and researchers in biochemistry.
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.
The goal of this fascinating new book is to review the diversity of methods available to apply in situ hybridization histochemistry (ISHH) to a variety of experimental questions. This work includes topics such as synthesis and use of nick-translated DNA probes for ISHH, synthesis and use of oligomeric DNA probes for ISHH, and synthesis and use of RNA probes for ISHH. These interesting chapters describe the preparation of different radiolabeled probes for ISHH. They also discuss their respective advantages and limitations, and describe current results based on the use of these various probes. Sections of the text highlight low and high resolution autoradiography for ISHH, the use of biotin-labeled probes for ISHH, as well as the use of ISHH in combination with established anatomical techniques. In Situ Hybridization Histochemistry answers all of your questions regarding the quantification of ISHH. It also provides a practical description of typical protocols, both from molecular biology and histology. Investigators will understand and value this useful, powerful tool-whatever their backgrounds might be.
Cytogenetics is the study of chromosome morphology, structure, pathology, function, and behavior. The field has evolved to embrace molecular cytogenetic changes, now termed cytogenomics. Cytogeneticists utilize an assortment of procedures to investigate the full complement of chromosomes and/or a targeted region within a specific chromosome in metaphase or interphase. Tools include routine analysis of G-banded chromosomes, specialized stains that address specific chromosomal structures, and molecular probes, such as fluorescence in situ hybridization (FISH) and chromosome microarray analysis, which employ a variety of methods to highlight a region as small as a single, specific genetic sequence under investigation. The AGT Cytogenetics Laboratory Manual, Fourth Edition offers a comprehensive description of the diagnostic tests offered by the clinical laboratory and explains the science behind them. One of the most valuable assets is its rich compilation of laboratory-tested protocols currently being used in leading laboratories, along with practical advice for nearly every area of interest to cytogeneticists. In addition to covering essential topics that have been the backbone of cytogenetics for over 60 years, such as the basic components of a cell, use of a microscope, human tissue processing for cytogenetic analysis (prenatal, constitutional, and neoplastic), laboratory safety, and the mechanisms behind chromosome rearrangement and aneuploidy, this edition introduces new and expanded chapters by experts in the field. Some of these new topics include a unique collection of chromosome heteromorphisms; clinical examples of genomic imprinting; an example-driven overview of chromosomal microarray; mathematics specifically geared for the cytogeneticist; usage of ISCN’s cytogenetic language to describe chromosome changes; tips for laboratory management; examples of laboratory information systems; a collection of internet and library resources; and a special chapter on animal chromosomes for the research and zoo cytogeneticist. The range of topics is thus broad yet comprehensive, offering the student a resource that teaches the procedures performed in the cytogenetics laboratory environment, and the laboratory professional with a peer-reviewed reference that explores the basis of each of these procedures. This makes it a useful resource for researchers, clinicians, and lab professionals, as well as students in a university or medical school setting.
Revised and updated edition (1st was 1981) of a textbook on chemical and physical principles of fixation, staining and histochemistry. For students i all biological subjects using histological techniques, as well as researcher and medical laboratory technologists. Annotation copyright Book News, Inc
In situ hybridization has become an important and widely used research tool for neurobiologists since the authors' first book on the subject, In Situ Hybridization: Applications to Neurobiology (Oxford, 1987). This new volume examines the methodological advances that have been made in in situ hybridization techniques and their impact on the study of the nervous system. These include methods for improving sensitivity, ways of examining multiple mRNAs within the same section, ways of examining both proteins and mRNAs within the same section, and methods for using in situ hybridization technology to examine areas of cellular biological significance, such as translational control. The development of alternative labels to radioactivity for the detection of hybridized probes, and the combined use of in situ hybridization and immunocytochemistry is also covered in this book. It discusses the quantification of in situ hybridization signal and presents an overview of information generated by using in situ hybridization in diagnostic medicine. This volume will be essential to researchers in the neurosciences as well as those in other disciplines.
Methods in Neurosciences, Volume 1: Gene Probes is a compendium of papers that deals with the developments in molecular biology, cell biology, and electrophysiology. Section I deals with gene expression using the Xenopus Oocyte system for expression and cloning of neuroreceptors and channels. One paper presents a method in studying the molecules in the brain related to neurotransmitter receptors and to the voltage channels in the brain by ""transplanting"" functional neurotransmitter receptors into the membrane of frog oocytes. Section II describes in situ and solution hybridization and the continuation of in situ hybridization with immunohistochemistry. One paper discusses the benefits of using alkaline phosphatase-Dig-dUTP-labeled oligonucleotide probes in high-resolution in situ in terms of ease of performance, safety, and fast detection rendering. Section III addresses the screening, sequencing, and cloning, the process of which includes the rapid identification of DNA clones. One paper outlines the methods and materials that are used in such identification. Section IV explains lineage analysis and Section V discusses molecular pathology, including the molecular pathology of Alzheimer's disease. This collection can prove useful for geneticists, molecular scientists, and academicians involved in neuroscience and pharmacological sciences, as well as researchers in geriatrics.
A proper understanding of the structural organization of the plant body is essential to any study in plant biology. Experimental studies in vivo and in situ will lead to structural, physiological, and cellular changes of the experimental material. To study macroscopic and microscopic changes, different histological methods and microtechniques can be used as they provide valuable information of the experimental system. In addition, the observed structural changes allow investigators to set hypothesis for further studies based on one’s own observation. Thus, proper selection and utilization of microtechniques are a must for the success of a research program. At present, an up-to-date collection of protocols are not readily available in the literature. The latest work in plant microtechniques was published in 1999 by Ruzin but many others are no longer in print [e.g., Jensen (1964); O’Brien and McCully (1981)]. Furthermore, a majority of published works focus on techniques related to general processing and staining procedures. A comprehensive treatment that encompasses broader applications of microtechniques to other disciplines is lacking [e.g., archeology, wood science, etc.]. There is a need to create a comprehensive volume of botanical methods and protocols which includes traditional and novel techniques that can be used by researchers in plant science and investigators in other disciplines that require plant microtechniques in their research and teaching. This book covers a wide variety of applications and brings them up-to-date to make them understandable and relevant, especially to students using the methods for the first time. It is our intention to create a useful reference for plant histology and related methods that will serve as a foundation for plant scholars, researchers, and teachers in the plant sciences.​
Accompanying CD-ROM contains ... "a companion eBook version of Molecular diagnostics : for the clinical laboratorian, Second edition ... for downloading and use in the reader's PC or PDA."--Page 4 of cover.