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Describes purification, activities, antibodies and genes for each protein.
The biology of the 1980s and 1990s may well come to be remembered as the era of discovery of new proteins. Recent advances in molecular biology, genetics, and protein purification have conspired to accelerate the rate at which cellular proteins and their amino acid sequences are being identified. Now that the floodgate of discovery has been opened wide, the amount of new information on cellular proteins is exceeding most scientists' capacity for assimilation. At the same time, however, it has become imperative for research workers to expand their knowledge base because interactions between previously unconnected sets of proteins are being uncovered at such a rapid pace. These considerations have led Thomas E. Kreis and Ronald D. Vale to compile both the Guidebook to Cytoskeletal and Motor Proteins and the Guidebook to the Extracellular Matrix and Adhesion Proteins. Both books are distinguished by numerous outstanding features, including: concise compendiums of molecular information, consolidation of information from widely scattered sources, key references, clearly designed pages with many high-quality illustrations, and the first compilations of concise descriptions of the structure, function, and distribution of the proteins covered. Guidebook to Cytoskeletal and Motor Proteins covers actin and actin binding proteins, tubulin and associated proteins, the intermediate filaments, motor proteins, cytoskeletal anchor proteins, organelle membrane associated structural proteins, and other proteins. Introductory chapters provide overviews for each class of protein. Biological and structural attributes of about 200 individual proteins, or groups of closely related proteins, are concisely described by investigators who participated in their discovery or characterization. In addition, information regarding purification methods, assays of activity, and available reagents, together with a list key review and research articles, are included. Over 240 authors contributed to the entries. Guidebook to the Extracellular Matrix and Adhesion Proteins provides a concise compendium of the proteins found in the extracellular matrix and those known to be involved in cell-cell contact and adhesion. Organized alphabetically, it summarizes the key characteristics of these proteins and includes the same features--such as introductory chapters and contributions from the field's leading experts--that make its companion volume so essential. Designed to explain the each protein in an accessible manner, the book is also referenced for in-depth reading and provides excellent overviews.
Intended for postgraduate and professional researchers in biochemistry, biomedical sciences and cell biology, this text includes coverage of - actin and associated proteins, centrosomal proteins, motor proteins and intermediate filaments.
These Sambrook and Tooze Guidebooks provide students and professionals with a unique reference source to the latest information available on the proteins involved in cell adhesion, the cytoskeleton, and the extracellular matrix. This volume provides a concise compendium of the proteins found in the extracellular matrix and those known to be involved in cell-cell contact and adhesion. Organized alphabetically, it summarizes the essential features of these proteins, giving key references and drawing together information from widely scattered sources. This is the only book where information on so many related proteins can be found. Designed to explain the essentials of each protein in an accessible manner, the Guidebooks are also referenced for in-depth reading and provide excellent overviews.
Intended for postgraduate and professional researchers in biochemistry, biomedical sciences and cell biology, this text offers a guide to the extracellular matrix and adhesion proteins.
This book is for biology, physics, and engineering students who want to learn about the principles of protein mechanics and how it applies to the morphology and motility of cells. Part I explains how small particles like proteins respond to mechanical, thermal, and chemical forces, Part II focuses on cytoskeletal filaments, and Part III focuses on motor proteins. Chapters are centered on topics such as structure, chemistry, and mechanics, and different filaments or motors are discussed together. All concepts are introduced from first principles, and numerous boxed examples and figures aid the nonmathematical reader. For the mathematically inclined, detailed proofs of important results are included in the Appendix.
A compendium of the proteins found in the extracellular matrix and those known to be involved in cell-cell contact and adhesion. Organized alphabetically, it summarizes the essential features of these proteins, giving key references and drawing together information from wide-ranging sources.
In this volume the contributions of the 2nd International EBSA (European Biophysical Societies Association) Symposium devoted to the biophysical and biochemical aspects of the structure and interaction of cytoskeletal and extracellular proteins are presented. Topics such as supramolecular structure and organization, thermodynamics and kinetics of assembly, as well as the basic mechanisms of protein-protein interactions are discussed, and special emphasis is given to applied biophysical techniques.
Adhesion molecules are of fundamental importance in the regulation of immunity, inflammation, tissue remodeling, and embryonic development. They comprise different families of homologous proteins, such as selectins, integrins, cadherins, and immunoglobins. In addition, beyond these groups, other str- tures with adhesive properties, such as proteoglycans, occludin, and CD44, have been characterized recently. An understanding of the type and characteristics of adhesive molecules expressed by the different cell types and the possibility of manipulating their activity promises considerable clinical potential. Antibodies, small peptidic and nonpeptidic molecules, have recently been used to inhibit thrombosis by blocking platelet aggregation or inflammation through inhibition of leukocyte infiltration and adhesion. Inhibitors of adhesive molecules are used in expe- mental systems for the study of tumor growth and dissemination. Among major goals in the field are the identification of new members of the known adhesive protein families and of independent new adhesive structures. After structural characterization, even more demanding is the study of the biological activity of the new proteins, and the development of simple, rapid tests for the screening of possible inhibitors. In this regard, the production of such reagents as fragments and antibodies would help define the structure–function relati- ship of individual proteins. Data available in the literature show the complexity of the adhesive process and how different molecular epitopes might contribute to the adhesive properties of a single structure. Finally, a new area of investi- tion is the characterization of the intracellular signaling cascade triggered by the engagement of transmembrane adhesive proteins.