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Intermediate filaments are a large family of proteins that are the cytoskeletal elements involved in a number of skin, liver, neuromuscular, cardiac, eye and hair diseases. Intermediate filament genes are regulated in a tissue-and cell type-specific manner and their polymerized protein products protects the cells and tissue they are part of against a variety of mechanical and nonmechanical stresses. This book provides a comprehensive resource of methodology essentials, describing a variety of essential tools and assays for studying intermediate filaments. The book provides user-friendly advice and protocols covering all aspects of intermediate filaments including protein isolation and structure, protein and gene regulation, relationship to disease and apoptosis, and associated proteins. Both mammalian and non-mammalian systems and animal models are covered, making this book a must-have for any investigator wishing to study IF genes or their protein products. * Covers intermediate filaments from crystallography, protein chemistry, cell and molecular biology, microrheology, gene regulation, to animal models and human disease * Practical and user-friendly with detailed "how-to-protocols and "tricks of the trade" * Includes detailed tables of useful reagents, vendors and web links
Intermediate Filament Proteins, the latest volume in the Methods in Enzymology series covers all the intermediate filaments in vertebrates and invertebrates, providing a unique understanding of the multiple different tissue-specific intermediate filaments. This volume also covers the latest methods that are currently being used to study intermediate filament protein function and dynamics. It will be an important companion for any experimentalist interesting in studying this protein family in their cell or organism model system. Focuses on intermediate filaments, including the latest information Provides an up-to-date understanding of the field Contains contributions from the major scientists working and publishing in the field
Research on cytoskeletal elements of eukaryotic cells has been expand ing explosively during the past 5 to 10 years. Due largely to the employment of electron and immunofluorescent microscopy, significant results have been obtained which have provided interesting new insights into the dynamics of nucleated cells at the structural, physiological, as well as developmental levels. While a substantial amount of knowledge has accumulated on the function of microfilaments and microtubules, the roles of the third major class of cytoskeletal structures in vertebrate cells, the intermediate filaments, have largely resisted clarification. The investigation of cultured cells and of tissues from various developmental stages has furnished a host of information on the inter-and intracellular distribution of the different types of intermediate filaments and led to the contention that they have a structural and organizing function in the cytoplasm of vertebrate cells. However, the results of recent experimen that vertebrate cells can function perfectly in the tation have shown complete absence of cytoplasmically extended intermediate filament meshworks. It is legitimate to suppose, therefore, that their function in vertebrate cells is much more subtle and complex than generally presumed. Our interest in the structure and function of intermediate filament proteins was initiated approximately 7 years ago while working on the regulation of macromolecular synthesis in picornavirus-infected mam malian cells. In attempts to demonstrate virus-induced changes in the nuclear protein components of the host cells, the nonionic detergent extraction method was used to purify nuclei.
The cytoskeleton is the intracellular filament system that controls the morphology of a cell, allows it to move, and provides trafficking routes for intracellular transport. It comprises three major filament systems-actin, microtubules, and intermediate filaments-along with a host of adaptors, regulators, molecular motors, and additional structural proteins. This textbook presents a comprehensive and up-to-date view of the cytoskeleton, cataloguing its many different components and explaining how they are functionally integrated in different cellular processes. It starts by laying out the basic molecular hardware, before describing in detail how these components are assembled in cells and linked to neighboring cells and the extracellular matrix to maintain tissue architecture. It then surveys the roles of the cytoskeleton in processes such as intracellular transport, cell motility, signal transduction, and cell division. The book is thus essential reading for students learning about intracellular structure. It also represents a vital reference for all cell and developmental biologists working in this field.
This book, like other monographs of the Cellular Organelles series, is not a comprehensive review, but an introduction to the study of cytoskeleton. Accordingly, we describe only the main facts and concepts related to cyto skeleton. Needless to say, selection and interpretation was influenced by the personal interests and opinions of the authors, although we attempted to be as fair as possible. We wished to familiarize the reader not only with well established facts, but with current unsolved problems. Therefore, the words "possibly," "maybe," "not known," and "not clear" are much more frequent in this text than in many others. In accordance with the style of the series, relatively short lists of addi tional readings are given at the end of each chapter; these lists contain mostly the recent reviews and a few original papers describing certain phenomena in detail. Few references are cited in the text; these citations are given to help the reader find the source of certain new data and theories, which are not discussed at length in the reviews. In contrast, many well-established facts and widely known theories are not cited.
Plant cells house highly dynamic cytoskeletal networks of microtubules and actin microfilaments. They constantly undergo remodeling to fulfill their roles in supporting cell division, enlargement, and differentiation. Following early studies on structural aspects of the networks, recent breakthroughs have connected them with more and more intracellular events essential for plant growth and development. Advanced technologies in cell biology (live-cell imaging in particular), molecular genetics, genomics, and proteomics have revolutionized this field of study. Stories summarized in this book may inspire enthusiastic scientists to pursue new directions toward understanding functions of the plant cytoskeleton. The Plant Cytoskeleton is divided into three sections: 1) Molecular Basis of the Plant Cytoskeleton; 2) Cytoskeletal Reorganization in Plant Cell Division; and 3) The Cytoskeleton in Plant Growth and Development. This book is aimed at serving as a resource for anyone who wishes to learn about the plant cytoskeleton beyond ordinary textbooks.
A Top 25 CHOICE 2016 Title, and recipient of the CHOICE Outstanding Academic Title (OAT) Award. How much energy is released in ATP hydrolysis? How many mRNAs are in a cell? How genetically similar are two random people? What is faster, transcription or translation?Cell Biology by the Numbers explores these questions and dozens of others provid
The cytoskeleton is a highly dynamic intracellular platform constituted by a three-dimensional network of proteins responsible for key cellular roles as structure and shape, cell growth and development, and offering to the cell with "motility" that being the ability of the entire cell to move and for material to be moved within the cell in a regulated fashion (vesicle trafficking). The present edition of Cytoskeleton provides new insights into the structure-functional features, dynamics, and cytoskeleton's relationship to diseases. The authors' contribution in this book will be of substantial importance to a wide audience such as clinicians, researches, educators, and students interested in getting updated knowledge about molecular basis of cytoskeleton, such as regulation of cell vital processes by actin-binding proteins as cell morphogenesis, motility, their implications in cell signaling, as well as strategies for clinical trial and alternative therapies based in multitargeting molecules to tackle diseases, that is, cancer.