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Xenopus Development
Frogs from the genus Xenopus have long been used as model organisms in basic and biomedical research. These frogs have helped unlock key fundamental developmental and cellular processes that have led to important scientific breakthroughs and have had practical application in embryology, cancer research and regenerative medicine. Xenopus Development is a vital resource on the biology and development of these key model organisms, and will be a great tool to researchers using these frogs in various disciplines of biological science. Xenopus Development is divided into four sections, the first three highlight key processes in Xenopus development from embryo to metamophosis. These sections focus ...
The Immune System
The cells of the immune system generate a large variety of binding sites which differ in their binding specificities and can therefore react specifically with a large variety of ligands. These binding sites are part of receptor molecules, enabling the system to react to the universe of antigens. The classical antigen receptor is the antibody molecule, and accord ingly the first session of this colloquium deals with a classical sub ject, namely antibody structure. Dramatic recent advances in this field make it possible to interrelate primary and three-dimensional struc ture both to each other and to function, i.e. the binding of antigen and possible reactions occurring in the antibody molecule upon antigen binding. The latter point is of particular interest since it may be relevant not only for effector functions of antibodies such as the binding of complement, but also for the triggering of a lymphocyte through its antibody receptor for antigen.
Fundamental Immunology
Now thoroughly revised and updated, this comprehensive, up-to-date text is ideal for graduate students, post-doctoral fellows, microbiologists, infectious disease physicians, and any physician who treats diseases in which immunologic mechanisms play a role.
Ecoimmunology
The role of parasites and pathogens in the evolution of life history traits is of increasing interest to both ecologists and evolutionary biologists. Immunology, which was once studied almost exclusively by immunologists, has become an important area of proximate investigation to animal physiologists as a means for understanding changes in disease susceptibility and the neural and neuroendocrine mechanisms that mediate these changes. The coalescence of these different perspectives has given rise to the field of ecological immunology, an interdisciplinary research field that examines interactions among host physiology and disease ecology in a wide range of environmentally relevant contexts. T...
Major Histocompatibility Complex
Every biological system is the outcome of evolution and has a history all its own. This history dictates how the system works and why it has certain properties and not others. This is why we need to study not only the structure and function, but also the history of the system. This argument undoubtedly applies to the study of the immune system and also to the study of the major histocompatibility complex (MHC). Since 1989, researchers of various scientific disciplines who share a deep inter est in MHC evolution have held a meeting every two years to discuss their latest research developments, exchange ideas, and foster friendship. Together with my colleagues Drs. Naoyuki Takahata and Yoko Sa...
Cell Biology of the Major Histocompatibility Complex
Cell Biology of the Major Histocompatibility Complex documents the proceedings of a symposium on ""Cell Biology of the Major Histocompatibility Complex"" held at Arden House on the Harriman Campus of Columbia University from June 8 -10, 1984. The meeting was the ninth of the P & S Biomedical Sciences Symposia. The book is organized into five parts. Part I on the structure of MHC molecules includes papers on human histocompatibility antigens; the cloning of human MHC; and organization of the genes of the H-2 complex. Part II on alternate forms of MHC molecules includes studies on the expression of a secreted form of the MHC class I antigen and alternative splicing in the H-2 multigene family....
Don't Take These Drawings Seriously
Nathalie Du Pasquier started drawing as soon as she met her husband George Sowden in 1979 in Milan. She was introduced to the world of design and shortly after, in 1981, became a founding member of the iconic postmodern design movement Memphis. From 1981 to 1987 she didn't stop drawing. Every day she would draw a whole new modern world, from very small items like jewelry to entire cities. This world only existed in her head but would eventually be developed into real pieces for the Memphis exhibitions. This unique book is the first and definitive compilation of all the unpublished drawings from those years, which had been sitting in the drawers of Nathalie's studio for over 30 years. Organized by the smallest objects to the biggest and divided into chapters, each with a text by Nathalie, it has been carefully edited and designed by Apartamento magazine's co-founder Omar Sosa together with Nathalie Du Pasquier. Don't Take These Drawings Seriously is an excellent reference for future generations and a welcome document of an important period in modern design.
Metamorphosis
Metamorphosis addresses various facets of postembryonic development, particularly signal transduction, morphogenesis, cell-cell interactions, and programmed cell death. A key feature of the book is its exploration of the molecular mechanisms underlying these processes. - Hormonal regulation of development - The mechanisms of hormone action - The steroid/thyroid hormone receptor family - Morphogenesis and programmed cell death
The Interface Between Innate and Acquired Immunity
All multicellular organisms may possess innate immunity mediated by defense mechanisms with which the organism is born. In recent years much has been learned about the diversity of innate immune mechanisms. A large array of naturally produced antimicrobial peptides has been de fined. A variety of cell surface receptors that recognize common patterns displayed by infectious organisms have been identified along with the intracellular pathways that these receptors use to activate cellular defense functions. Cell surface receptors on natural killer (NK) cells have been shown to sense microbial invasion in neighboring cells, thereby setting into motion their elimination by cy totoxic mechanisms. ...
