In this volume the author by no means attempted to give a comprehensive view of the myriad of recent developments in immunology. The author has attempted, after introducing sufficient background in chapter 1, to highlight certain areas of lymphoid cell biology which are given less attention in current thinking but which seem to the author to offer exciting prospects for research. In other cases, the important topics of transplantation and tolerance are looked at from points of view which are somewhat less conventional in the hope that these aspects may stimulate others to look at the yet unsolved problems in these areas. In making the selection of topics and indeed in the selection of references within each chapter, the contributors and the author have attempted to select those which offered what seemed to be the best sources of information. They do not wish to minimize the important contributions of others but are guided by constraints of brevity and cogent expression.

Growth Regulation and Carcinogenesis discusses topics such as growth factors, including stimulators and inhibitors of proliferation; networks in proliferation regulation; differentiation-inducing factors; origins of neoplasia and their relationship to growth control; genetic alterations in cellular regulatory machinery; extrachromosomal phenomena; non-genotoxic carcinogens; immortalization and transformation of cells; and the role of cell production, cell function, and cell elimination in physiological growth control.

Liposomes have become an important model in fundamental biomembrane research, including biophysical, biochemical, and cell biological studies of membranes and cell function. They are thoroughly studied in several applications, such as drug delivery systems in medical applications and as controlled release systems, microencapsulating media, signal carriers, support matrices, and solubilizers in other applications. While medical applications have been extensively reviewed in recent literature, there is a need for easily accessible information on applications for liposomes beyond pharmacology and medicine. The Handbook of Nonmedical Applications of Liposomes fills this void. This unique new handbook series presents recent developments in the use of liposomes in many scientific disciplines, from studies on the origin of life, protein function, and vesicle shapes, to applications in cosmetics, diagnostics, ecology, bioreclamation, and the food industry. In these volumes many of the top experts contribute extensive reviews of their work.

Cells and organelles are small units for biochemical synthetic purposes, often the smallest practically feasible unit since they contain coenzyme regenerating system, ordered enzyme sequences, etc.These volumes, besides giving some insight into basic technology (immobilisation procedures, etc.), also sum up the current know-how in this subject area and try to predict some future trends.The termimmobilized cells covers everything from dead cells with a single active enzyme species to cells proliferating on or within a three dimensional polymer matrix. The practical handling of these structures make them useful in various applications, e.g. large-scale production of biomolecules, biodegration, analysis, etc.

The main purpose of the two volumes on Immunochemistry of the Extracellular Matrix is to describe state of the art methods, which have been proven to provide antibody reagents of defined specificity to collagens as well as other glycoproteins found in association within connective tissue. The isolation and purification of collagens, procollagens, and related connective tissue proteins are described for several tissues, tissue culture cells and species. Immunization with these collagens in laboratory animals yields antibodies with different characteristic specificities: to the procollagen extension fragments, the non-helical segments of the a-chains, to helical and denatured determinants.

The main purpose of the two volumes on Immunochemistry of the Extracellular Matrix is to describe state of the art methods, which have been proven to provide antibody reagents of defined specificity to collagens as well as other glycoproteins found in association within connective tissue. The isolation and purification of collagens, procollagens, and related connective tissue proteins are described for several tissues, tissue culture cells and species. Immunization with these collagens in laboratory animals yields antibodies with different characteristic specificities: to the procollagen extension fragments, the non-helical segments of the a-chains, to helical and denatured determinants.

Microcompartmentation refers to nonhomogeneous distribution of solutes in compartments of cells or associated structures without intervening membranal barriers. Such variations in concentration of ions, metabolites, intracellular messengers, and nutrients can introduce significant heterogeneity in subcellular function and regulation. The current focus on biological examples of microcompartmentation provides ample evidence for its importance and the role of physical structure in determining local chemical environments. The examples present in the different chapters include microcompartmentation of Ca2+,H+,ATP. ADP, O2, glycolytic intermediates, fatty acids, amino acids, and nucleic acid precursors. In reviewing these systems, the authors provide a useful resource for experimental approaches to study microcompartmentation and provide the basis for future studies of its role in regulation of cell functions.

Cell surface membranes have long been characterized as two-dimensional fluids whose mobile components are randomized by diffusion in the plane of the membrane bilayer. Recent research has indicated that cell surface membranes are highly organized and ordered and that important functional units of membranes appear as arrays of interacting molecules rather than as single, freely diffusing molecules. Mobility and Proximity in Biological Membranes provides an overview of the results obtained from biophysical methods for probing the organization of cell surface membranes. These results are presented in the context of detailed treatments of the theory and the technical demands of each of the methods. The book describes a versatile and easily applied mode for investigating molecular proximities in plasma membranes in a flow cytometer. Its analysis of lipid fluidity and viscosity of membranes and the rotational mobility of proteins offers intimate insight into the physical chemistry of biological membranes. The electrophysiology of lymphocytes is presented with focus on its importance in different diseases. New techniques are described, and new data, new possibilities, and future trends are presented by world experts. This book's chapters can serve both as guides to the existing literature and as starting points for new experiments and approaches associated with problems in membrane function.

This book has information about prokaryotes, prokaryotes are single-celled organisms that are the earliest and most primitive forms of life on earth. As organized in the Three Domain System, prokaryotes include bacteria and archaeans. Some prokaryotes, such as cyanobacteria, are photosynthetic organisms and are capable of photosynthesis. There are sections in this book that explain the role of membranes in transport, about bioenergetics of bacteria cells, Mycoplasma, immunology of bacteria membrane and receptors.

These volumes include a collection of authoritative articles covering the most active areas of prokaryotic biomembrane investigations, and will provide a great service not only to those interested in the field but also to microbiologists in general. These monographs will also serve to focus attention on prokaryotic membranes that are so often ignored by eukaryoticmembraneologists and proved an excellent reference source for many years to come.

This book provides in-depth presentations in membrane biology by specialists of international repute. The volumes examine world literature on recent advances in understanding the molecular struc-ture and properties of membranes, the role they play in cellular physiology and cell-cell interactions, and the alterations leading to abnormal cells. Illustrations, tables, and useful appendices com-plement the text. Those professionals actively working in the field of cell membrane investigations as well as biologists, biochemists, biophysicists, physicians, and academicians, will find this work beneficial.

This book provides in-depth presentations in membrane biology by specialists of international repute. The volumes examine world literature on recent advances in understanding the molecular struc-ture and properties of membranes, the role they play in cellular physiology and cell-cell interactions, and the alterations leading to abnormal cells. Illustrations, tables, and useful appendices com-plement the text. Those professionals actively working in the field of cell membrane investigations as well as biologists, biochemists, biophysicists, physicians, and academicians, will find this work beneficial.

This book provides in-depth presentations in membrane biology by specialists of international repute. The volumes examine world literature on recent advances in understanding the molecular struc-ture and properties of membranes, the role they play in cellular physiology and cell-cell interactions, and the alterations leading to abnormal cells. Illustrations, tables, and useful appendices com-plement the text. Those professionals actively working in the field of cell membrane investigations as well as biologists, biochemists, biophysicists, physicians, and academicians, will find this work beneficial.

A record of the role of selected middle-class individuals across Europe who made notable contributions to the early evolution of modern sport and who saw success in modern sport as an expression of human qualities to be admired, applauded and encouraged. They viewed sport, sometimes self-interestedly but not always self-interestedly, as a medium of personal, collective and national virtue. It is the first general consideration of a selection of these innovatory pioneers and proselytisers who placed Europe at the forefront of major developments in contemporary world sport - now a phenomenon of global significance.

A Complex and Growing Field The study of vascularization in tissue engineering and regenerative medicine (TERM) and its applications is an emerging field that could revolutionize medical approaches for organ and tissue replacement, reconstruction, and regeneration. Designed specifically for researchers in TERM fields, Vascularization: Regenerative Medicine and Tissue Engineering provides a broad overview of vascularization in TERM applications. This text summarizes research in several areas, and includes contributions from leading experts in the field. It defines the difficulties associated with multicellular processes in vascularization and cell-source issues. It presents advanced biomaterial design strategies for control of vascular network formation and in silico models designed to provide insight not possible in experimental systems. It also examines imaging methods that are critical to understanding vascularization in engineered tissues, and addresses vascularization issues within the context of specific tissue applications. This text is divided into three parts; the first section focuses on the basics of vascularization. The second section provides general approaches for promoting vascularization. The final section presents tissue and organ-specific aspects of vascularization in regenerative medicine. Presents Areas of Substantial Clinical and Societal Impact The material contains research and science on the process of vessel assembly with an emphasis on methods for controlling the process for therapeutic applications. It describes the tissue and organ-specific aspects of vascularization in regenerative medicine, and refers to areas such as bone tissue engineering, vascularization of encapsulated cells, adipose tissue, bone and muscle engineering. It also provides a mechanistic understanding of the process and presentation of experimental and computational approaches that facilitate the study of vascular assembly, and includes enabling technologies such as nanotechnology, drug delivery, stem cells, microfluidics, and biomaterial design that are optimized for supporting the formation of extensive vascular networks in regenerative medicine. A guide for researchers developing new methods for modulating vessel assembly, this text can also be used by senior undergraduate and graduate students taking courses focused on TERM.

Proteins of Iron Metabolism presents a clear picture of the structure and function of the main proteins involved in iron metabolism. The book gives you a detailed description of the structure and function of each protein, and discusses the structure and regulation of the corresponding genes in parallel. It supplies an analysis of the differential expression and regulation of these proteins.

Numerous figures offer an integrated view of iron metabolism at the level of various tissues. The book delineates the mechanisms controlling cellular iron metabolism and shows how these mechanisms adapt to the differential and peculiar iron need of different cell types. Each chapter contains extensive bibliographical information providing a wide reference to the literature.

The comprehensive coverage of the advances in understanding the mechanisms controlling cellular iron metabolism, especially at the molecular level, found in this book will give you insight into the regulation of iron metabolism. Proteins of Iron Metabolism fills the need for a clearly written, comprehensive review of the latest research, putting every thing you need in one easy-to-use resource.

This book describes cellular level sensors that act as switches, turning on gene expression and other metabolic processes necessary for cell survival and differentiation. These responses can also initiate programmed cell death or activate latent human immunodeficiency virus or animal leukemia viruses. These redox sensors are nonspecific in sensitivity but specific in response. Unlike ligand/antiligand-type specific sensors, they respond to ionizing and ultraviolet radiations, pH gradients, heat, light, electric and magnetic fields, redox chemicals, mechanical stress, and other nonspecific stressors. The sensors are type-b cytochromes, including NADPH oxidases, NO synthases, and nitrogen oxide reductases. The intense radiation of early pre-biotic earth may have been the evolutionary driving force for the development of their common ancestor.

A useful reference for those using or interested in cultured invertebrate cells, this two-volume text provides information about techniques and advances in invertebrate tissue culture. Cell lines for Insecta, Crustacea, Mollusca, and Nematoda are introduces along with their characterizations. Developments in insect biotechnology, including foreign protein production by insect cells infected with recombinant virus are described. Fundamental studies for introducing foreign genes into cultured insect cells is also presented. Wide information on studies -at cellular levels-on pathogens of insects, plants, and vertebrates is given.

This is the first-and only-publication available which provides the most recent information in this particular field of biomedicine. Interleukin-2 (IL-2) and IL-2 activated killer cells have been shown to have a potential in the treatment of a variety of human malignant diseases. This work comprehensively summarizes basic aspects of IL-2 as well as its clinical application, therefore making all these aspects easily accessible to the readers. Because of the clinical significance of this molecule in the treatment of cancer, the basic and clinical investigations in the IL-2 field are rapidly expanding, together with the interest of the scientific and medical community. This book is an excellent educational and teaching tool for scientists, clinicians, and students. Those who already have expertise in research in the IL-2 area will find this reference indispensible.

Genetic Engineering of Plants for Crop Improvement discusses current genetic engineering methods for plants and addresses the commercial opportunities for transgenic plants. Topics covered include Agrobacterium-mediated transformations, the use of electroporation, PEG-mediated transformation, microinjection, the microprojectile bombardment method, and the electrical discharge particle acceleration method. A concise account of the resistance of transgenic plants to insect attack, viral infection, and herbicides has also been provided. Possibilities for genetic manipulation for proteins that have superior nutritional properties are discussed, and a brief account of tests confirming the safety and commercial validity of transgenic plants is included. A valuable source of information for researchers and students in plant biotechnology, plant gene manipulation, molecular biology, and all areas of the life sciences.

Hepatocyte and Kupffer Cell Interactions presents a comprehensive discussion of historical and recent information regarding this diverse field of research. The role of Kupffer cells and hepatoctyes in normal physiology, nonseptic pathological states, and in sepsis is examined. Microanatomy and methods of experimental study are covered as well. In each of the book's chapters, the role of the Kupffer cell and hepatocyte interaction is placed in context with information on particular liver functions or disease states. Hepatocyte and Kupffer Cell Interactions is an essential reference for leukocyte specialists, gastroenterologists, immunologists, and other researchers working in this fascinating field.

A step-by-step guide to commonly used procedures, Methods in Cellular Immunology addresses both human and murine models, in addition to such topics as PCR and apoptosis. The basic format of the original version has been maintained, and the goal remains the same: to make it a useful and easy-to-use tool for investigators employing cellular immunological techniques in their research, regardless of whether or not immunology is their main area of expertise. It provides information about manufacturers and commercial sources of chemicals and reagents and a comprehensive list of references, allowing readers to refer back to the original information and/or techniques.

Tumors and Cancers: Skin - Soft Tissue - Bone - Urogenitals provides succinct reviews of neoplastic growths disrupting normal functions of affected structures. Each chapter presents a state of the art summary of tumor/cancer of a particular type in relation to its biology, epidemiology, disease mechanisms, clinical signs, diagnosis, treatment and prognosis.

Although the amount of research on copper amine oxidases has grown rapidly and substantially in the past decade, the field unfortunately suffers from lack of cohesion and significant confusion surrounds aspects as simple as confirmation of enzyme identities. This book describes the structure of the enzymes, the role of copper, and of the unusual cofactor 6-hydroxydopa quinine derived from a posttranslational modification of a tyrosine residue. It also covers the differences of between AOs from bacteria, plants, and mammals. Finally, the text examines the importance of this ubiquitous class of enzymes in physiology and in metabolism of biogenic amines.

As the highly anticipated update to Lipid Second Messengers (CRC Press, 1999), Lipid-Mediating Signaling is a current and comprehensive overview of research methods used in lipid-mediated signal transduction. Pioneering experts provide a much-needed distillation of a decade's worth of advances in research techniques that are pertinent in understanding how lipid-mediated signal transduction ties to pathologic disorders. Part I describes methods used to identify activities of and assay the expression of different enzymes involved in lipid-mediated signaling. Part II highlights the use of mass spectrometry to ascertain the lipid content in various systems. Part III contains two chapters devoted to techniques used to determine the role of lipids in the activation of gene transcription. Part IV rounds out the book's solid coverage by focusing on methods used to assess fatty acid uptake and metabolism. Lipid-Mediating Signaling is an unrivaled reference for this rapidly expanding, yet resource-limited field, and it is a valuable resource for for cell biologists, biochemists, and pharmacologists, as well as for researchers studying signaling transduction.