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Immunochemistry of Solid-Phase Immunoassay fills a niché in the field of immunoassay and immunology. Although solid-phase immunoassay constitutes a major technology in biology and medicine, there is no comprehensive source devoted to the immunochemical principles involved. As a result, this book will benefit students, technicians, and researchers who use this technology, as well as immunodiagnostic and biotech companies who develop the technology. The book is not a methods manual; instead, it incorporates the concepts, data, and opinions of more than 25 investigators working in this field. Topics discussed include: the chemistry of solid-phases, the behavior or antibodies and antigens on solid phases, membrane solid-phases, reaction kinetics, antigen quantitation, enzyme systems, photophysics, immunochemical considerations in data analyses, multianalyte assays and occupancy concepts, antibody quantitation, streptavidin, a review of data analysis software, and solid-phase peptide immunoassay.
This is a quick-reference manual on practical aspects of immunoassay. Providing a theoretical and practical basis for modern applications of solid-phase immunoassays, this text brings together experts who have used ELISA and other assays in a variety of fields. Contributors offer step-by-step guidance on how to use the various techniques involved in immunoassay. These techniques are extemely useful to laboratory-based researchers and technicians working on the detection of allergy, the AIDS virus, autoimmunity, etc. Chapters analyze the solid-phase supports used, the amplification systems, and the quantitation and affinity of antibodies and discuss the applications of assays to biology, immunology, and microbiology.
Immunochemistry of Solid-Phase Immunoassay fills a niché in the field of immunoassay and immunology. Although solid-phase immunoassay constitutes a major technology in biology and medicine, there is no comprehensive source devoted to the immunochemical principles involved. As a result, this book will benefit students, technicians, and researchers who use this technology, as well as immunodiagnostic and biotech companies who develop the technology. The book is not a methods manual; instead, it incorporates the concepts, data, and opinions of more than 25 investigators working in this field. Topics discussed include: the chemistry of solid-phases, the behavior or antibodies and antigens on solid phases, membrane solid-phases, reaction kinetics, antigen quantitation, enzyme systems, photophysics, immunochemical considerations in data analyses, multianalyte assays and occupancy concepts, antibody quantitation, streptavidin, a review of data analysis software, and solid-phase peptide immunoassay.
The book appeared in two previous Slovak editions for university students in Czechoslovakia. This edition presents a completely new version updated according to recent advances not only in immunochemistry and essential immunology but also in molecular biology, biochemistry and molecular genetics. The scope of the book is considerable since the goal was to cover the field of immunochemistry from the widest point of view including both the topic and methods of contemporary immunochemistry. Each chapter provides basic information on a specific subtopic, clearly and understandab ly, and presents principles of individual immunochemical methods. I am confident that the book will fill the gap between the books on essential immunology and highly specialised books on individual areas of immunoche mistry (e. g. on antibodies, antigens, numerous immunochemical techniques, etc. ). It may also prove useful for beginning investigators from different biological and medical fields as it supplies basic information needed for solving their scientific problems by immunochemical approaches. I do hope that readers will find the text stimulatory and pleasury to read. I wish to thank all colleagues and friends for supplying their own results, suggestions and for their encouraging comments. My thanks go also to the editors and publishers for their valuable contribution to the preparation of the book. 1 Introduction The term immunochemistry was coined by the Swedish chemist ARRHENIUS who used it for the first time in his lectures in 1907.
Aandacht voor de enzymatische-immunocytochemie met de nadruk op intracellulaire penetratie van gelabelde antilichamen en de toepassing van "double staining"-methodes of monoclonale antilichamen in normale en in diverse experimentele of pathologische omstandigheden; kwantitatieve aspecten van immuno-enzymatische technieken, zoals nieuwe technische vindingen en toepassingen op verschillende gebieden, bijvoorbeeld biologie, humane en veterinaire geneeskunde, fytopathologie en experimentele ziekten
Due to the simplicity, relative accuracy, fast result reporting, and user-friendliness of lateral flow immunoassay, its use has undergone tremendous growth in the diagnostic industry in the last few years. Such technology has been utilized widely and includes pregnancy and woman's health determination, cardiac and emergency conditions monitoring and testing, infectious disease including Flu screening, cancer marker screening, and drugs abuse testing. This book covers the scope of utilization, the principle of the technology, the patent concerns, information on the development and production of the test device and specific applications will be of interest to the diagnostic industry and the general scientific community.
This unique reference provides a pragmatic approach to the development of successful commercial immunodiagnostic products based on enzyme immunoessay technology. Presenting both the basic and applied principles, Enzyme Immunoassays gathers information on all aspects of this process, from the initial conceptualization to the introduction of the product to the market.
Monitoring is a major component of management of chronic diseases such as diabetes, cardiovascular disease, arthritis and depression. Yet poor monitoring means healthcare costs are rising. This book discusses how monitoring principles adopted in other spheres such as clinical pharmacology and evidence-based medicine can be applied to chronic disease in the global setting. With contributions from leading experts in evidence-based medicine, it is a ground-breaking text for all involved in delivery of better and more effective management of chronic illnesses.
Plant hormones play a crucial role in controlling the way in which plants growand develop. Whilemetabolism providesthepowerand buildingblocks for plant life, it is the hormones that regulate the speed of growth of the individual parts and integrate these parts to produce the form that we recognize as a plant. In addition, theyplayacontrolling role inthe processes of reproduction. This book is a description ofthese natural chemicals: how they are synthesizedand metabolized; howthey work; whatwe knowoftheir molecular biology; how we measure them; and a description ofsome ofthe roles they play in regulating plant growth and development. Emphasis has also been placed on the new findings on plant hormones deriving from the expanding use ofmolecular biology as a tool to understand these fascinating regulatory molecules. Even at the present time, when the role of genes in regulating all aspects of growth and development is considered of prime importance, it is still clear that the path of development is nonetheless very much under hormonal control, either via changes in hormone levels in response to changes in gene transcription, or with the hormones themselves as regulators ofgene transcription. This is not a conference proceedings, but a selected collection ofnewly written, integrated, illustrated reviews describing our knowledge of plant hormones, and the experimental work that is the foundation of this knowledge.
The last few years have seen the rapid development of new methodology in the field of molecular biology. New techniques have been regularly introduced and the sensitivity of older techniques greatly improved upon. Developments in the field of genetic engineering in particular have contributed a wide range of new techniques. The purpose of this book therefore is to introduce the reader to a selection of the more advanced analytical and preparative techniques which the editors consider to be frequently used by research workers in the field of molecular biology. In choosing techniques for this book we have obviously had to be selective, and for the sake of brevity a knowledge of certain basic biochemical techniques and terminology has been assumed. However, since many areas of molecular biology are developing at a formidable rate and constantly generating new terminology, a glossary of terms has been included. The techniques chosen for this book are essentially based on those used in a series of workshops on 'techniques in molecular biology' that have been held at The Hatfield Polytechnic in recent years. In choosing these chapters we have taken into account many useful suggestions and observations made by participants at these workshops. Each chapter aims to describe both the theory and relevant practical details for a given technique, and to identify both the potential and limitations of the technique. Each chapter is written by authors who regularly use the technique in their own laboratories.