Bacterial Immunoglobulin-Binding Proteins: Applications in Immunotechnology, Volume 2 covers the state of knowledge of bacterial immunoglobulin-binding proteins. The book focuses on practical approaches to isolation, characterization, and use of bacterial immunoglobulin-binding proteins. The majority of these studies involve the type I Fc-binding protein (staphylococcal protein A) and the type III Fc-binding protein (streptococcal protein G). Physiological chemists, pediatricians, and microbiologists will find the book invaluable.
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.
Bacterial Immunoglobulin-Binding Proteins, Volume 1: Microbiology, Chemistry, and Biology investigates the immunoglobulin and Fc-binding proteins that have been isolated and characterized from a wide array of microorganisms, including protein A from staphylococcus and protein G from streptococcus. It examines the antigenic relationships among bacterial immunoglobulin-binding proteins, the immunoglobulin D-binding bacteria, the complement activation and bacterial immunoglobulin-binding proteins, the nature of the interaction of bacterial Fc receptors and immunoglobulin G, and the bacterial Fc receptors as putative virulence factors. Organized into 31 chapters, this volume begins with a historical overview of bacterial immunoglobulin-binding proteins, receptors for immunoglobulins, amino acid sequence of Fc receptors, and cloning of genes. It then discusses the staphylococcal protein A, including its biological activities and applications to immunotechnology. The book also explains the gene for staphylococcal protein A, immunoglobulin G Fc receptors of group A streptococci, and streptococcal protein G. It presents the structure and evolution of the streptococcal genes encoding protein G and interaction of bacterial immunoglobulin receptors with sites in the Fab region. It also discusses the lymphocyte stimulation by bacterial Fc receptors and cloning and expression of the beta protein gene of group B streptococci. The book concludes with a chapter on Fc receptors and the pathogenesis of bacterial infections in animals. This book will be of interest to biologists, microbiologists, chemists, and researchers working with immunoglobulin-binding proteins found in bacteria.
This book provides comprehensive up-to-date information on the structure and function of immunoglobulins. It describes the basic features of these molecules, which assists the reader in understanding how they function as an integral part of the immune system. The Immunoglobulins describes the localization and structure of different binding sites of immunoglobulin molecules, including the antigen-binding site, on the basis of latest x-ray crystallography studies. It discusses recently developed biotechnological methods that allow scientists to obtain fully active antibody molecules in vitro even without immunization and to construct new variants of immunoglobulins and their fragments by fusing with various other active molecules. A survey of recent knowledge on immunoglobulin-binding molecules other than antigens and on flexibility of immunoglobulin molecules concludes the discussion of functional aspects of the problem. - Describes recent reviews on the structure and function of immunoglobulin molecules of various species - Summarizes in detail recent findings on the fine structure of the antigen-combining site - Presents comparative data on the antigen-recognizing sites of other molecules such as MHC proteins and T-cell receptors - Summarizes growing data on immunoglobulin binding sites responsible for the reaction of immunoglobulins with molecules other than antigens - Explores the rapid advance of recent biotechnological methods used for the construction of antibody molecules and their fragments with new properties - Presents extensive references and is lavishly illustrated
Sugar chains (glycans) are often attached to proteins and lipids and have multiple roles in the organization and function of all organisms. "Essentials of Glycobiology" describes their biogenesis and function and offers a useful gateway to the understanding of glycans.
Lactoferrin is an intriguing protein with an interesting structure and several known or suggested biological activities. We feel that attention on this protein has been too limited and diffuse, partly because it has been "hidden" among other well-known iron-binding proteins such as hemoglobin, ferritin and transferrin, but also perhaps because its biological functions are so diverse. Investigators that focus on lactoferrin represent a wide variety of medical and scientific disciplines that do not usually come together. It was our intention to improve that situation with this symposium. In this book, experts from a variety of disciplines describe the present knowledge of the structural features of lactoferrin, its carbohydrate side chains and its capacity to bind different metal ions and anions. Several of the possible physiological functions of lactoferrin are described in detail, including the role of lactoferrin in bacterial killing, its involvement in growth and proliferation, in immune function and in iron absorption. Aspects of the molecular biology of lactoferrin and its specific interactions with different cell types are also included. Finally, as lactoferrin now has become commercially available in larger quantities, possible industrial applications are discussed. The book should give the interested reader a thorough insight into our present knowledge of lactoferrin.
Approaches to the Purification, Analysis and Characterization of Antibody-Based Therapeutics provides the interested and informed reader with an overview of current approaches, strategies and considerations relating to the purification, analytics and characterization of therapeutic antibodies and related molecules. While there are obviously other books published in and around this subject area, they seem to be either older (c.a. year 2000 publication date) or are more limited in scope. The book will include an extensive bibliography of the published literature in the respective areas covered. It is not, however, intended to be a how-to methods book.
70-chapter authoritative reference that covers therapeutic monoclonal antibody discovery, development, and clinical applications while incorporating principles, experimental data, and methodologies. First book to address the discovery and development of antibody therapeutics in their entirety. Most chapters contain experimental data to illustrate the principles described in them. Authors provide detailed methodologies that readers can take away with them and use in their own laboratories.
Promoting a continued and much-needed renaissance in biopharmaceutical manufacturing, this book covers the different strategies and assembles top-tier technology experts to address the challenges of antibody purification. • Updates existing topics and adds new ones that include purification of antibodies produced in novel production systems, novel separation technologies, novel antibody formats and alternative scaffolds, and strategies for ton-scale manufacturing • Presents new and updated discussions of different purification technologies, focusing on how they can address the capacity crunch in antibody purification • Emphasizes antibodies and innovative chromatography methods for processing
Our survival as multicellular organisms requires the constant surveillance of our internal and external (mucosal) environments by the multifarious elements of the innate and acquired systems of immunity. The objective of this surveillance, expensive as it is to the organisms, is to recognise and kill invading microorganisms. Over the past fifty years the cells and mediators involved in our immune defences have been painstakingly identified. However, it is only relatively recently that the ability of microorganisms to evade immunity has been recognised and investigated. Bacterial Evasion of Host Immune Responses introduces the reader to the mechanisms used by bacteria to evade both humoral and cellular immune responses, using systems ranging in complexity from the simple quorum sensing molecules - acyl homoserine lactones - to the supramolecular syringe-like devices of type III secretion systems. This book will be of interest to researchers and graduate students in microbiology, immunology, pharmacology and molecular medicine.
