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Rapid Freezing, Freeze Fracture, and Deep Etching
The techniques of freeze fracture and deep etching—techniques for the examination of the ultrastructure of rapidly frozen biological specimens by transmission electron microscopy—have profoundly influenced our understanding of the functional organization of the cell. Rapid Freezing, Freeze Fracture, and Deep Etching guides the reader through the principles of these techniques and gives detailed examples of their application in biomedical research. The book is organized into three sections. The first covers the fundamentals of freeze fracture and deep etching, with a discussion of basic principles for those new to the field, and an entire chapter on the equipment currently available for f...
Cell Interactions in Atherosclerosis
Cell Interactions in Atherosclerosis covers the scientific foundations of the most important disease inflicting the developed world today. It presents a collection of topical aspects on the general theme of cell interactions in atherosclerosis, providing authoritative, up-to-the-minute accounts of how new developments in cell biology have advanced our understanding of these cellular interactions. The book is amply illustrated with electron micrographs and light micrographs incorporating modern cytochemical procedures. Cell Interactions in Atherosclerosis will interest all medical and scientific professionals dealing with atherosclerosis and heart disease.
Introduction to Electron Microscopy for Biologists
This volume demonstrates how cellular and associated electron microscopy contributes to knowledge about biological structural information, primarily at the nanometer level. It presents how EM approaches complement both conventional structural biology (at the high end, angstrom level of resolution) and digital light microscopy (at the low end, 100-200 nanometers). Basic techniques in transmission and scanning electron microscopy Detailed chapters on how to use electron microscopy when dealing with specific cellular structures, such as the nucleus, cell membrane, and cytoskeleton Discussion on electron microscopy of viruses and virus-cell interactions
Gap Junctions in Development and Disease
Communication between cells via intercellular channels – gap junctions – appears essential to certain developmental processes and appropriate organ function. Gap Junctions in Development and Disease aims to describe the molecular events underlying impaired development and disease. Beginning with a comprehensive review of various mouse and human genes encoding the channel-forming connexins, later chapters describe several connexin mutations associated with human diseases such as hereditary deafness and female infertility. Erroneous signaling mediated by the interaction of mutant connexins with other proteins, thought to be responsible for dysfunction of organs such as heart, muscle, brain, skin, lens, placenta, and endocrine tissue in both mice and men, is also addressed. Although the question of why some mutations in gap-junction proteins lead to specific phenotypes remains to be answered, the reviews in this book provide an intriguing insight into the future direction of this research field.
Gap Junctions
This monograph contains research articles from the leading laboratories around the world on gap junctions, the intercellular channels that allow communication between neighbouring cells. It describes the latest results in gap junctions research, the structural and functional characterization of cell-cell channels, the assembly and degradation of gap junctions, the expression and function of gap junctions in different tissues, knockout studies of gap junction genes, the regulation of connexin gene expression, and the functions of gap junctions in development and cancer. Any laboratory interested in intercellular communications and gap junction research will find this monograph an indispensable source of information and reference.
Connexins
Connexins: A Guide is a practical and valuable reference and text covering a wide scope of information about the connexin family of membrane channel proteins. The editors and contributing authors intend for this cutting-edge work to be informative to scientists wishing to learn about the field, as well as to those who are active researchers in this area. Connexins: A Guide masterfully addresses specific needs of the scientific community; it is a comprehensive and comprehensible narrative of the uncommonly diverse connexin field, making previously hard-to-find information easily accessible, while also presenting intelligible insights into the extensive experimental methods and conceptual frameworks necessary to appreciate and understand the important roles that connexin channel proteins play in health and disease.
Cholesterol
Experts investigate the biochemical and biomedical aspects of cholesterol, addressing its metabolism in normal and disease states. They discuss a broad range of topics, including key steps in the cholesterol biosynthetic pathway, and the role of cholesterol in cancer, atherosclerosis, and diseases of the nervous system. The book's comprehensive coverage also includes the pathological consequences and potential therapies for various disease states, and the development of new anti-atherogenic drugs.
Cell Biology
This four-volume laboratory manual contains comprehensive state-of-the-art protocols essential for research in the life sciences. Techniques are presented in a friendly step-by-step fashion, providing useful tips and potential pitfalls. The important steps and results are beautifully illustrated for further ease of use. This collection enables researchers at all stages of their careers to embark on basic biological problems using a variety of technologies and model systems. This thoroughly updated third edition contains 165 new articles in classical as well as rapidly emerging technologies. Topics covered include: Cell and Tissue Culture: Associated Techniques, Viruses, Antibodies, Immunocyt...
Heart Cell Communication in Health and Disease
In Heart Cell Communication in Health and Disease an extensive review of different aspects of heart cell communication is presented. The book starts with the fundamental concept that cardiac cells are communicated, and then proceeds to the role of gap junctions in heart development, the molecular biology of gap junctions, the biophysics of the intercellular channels, the control of junctional conductance and the influence of gap junctions on impulse propagation. This is the first time that a single volume has described cell communication in the normal heart and under different pathological conditions such as heart failure, coronary disease, myocardial ischemia and cardiac arrhythmias. In this way the process of cell communication is analyzed at different levels of complexity, providing the reader with a wide view of this field and its relevance to cardiology.
Thoracic Vein Arrhythmias
In 1998 Professor Haïssaguerre and his colleagues made the initial observation in patients that triggering foci in or around the pulmonary veins initiate some types of atrial fibrillation. Since then it has become clear that atrial fibrillation and other atrial tachyarrhythmias can be initiated (and possibly maintained) by triggering foci in any of the thoracic veins. This concept is now one of the most current topics in electrophysiology, and while it is a topic of frequent discussion in the major cardiology and electrophysiology journals, Thoracic Vein Arrhythmias: Mechanisms and Treatment is the first state-of-the art multi-authored textbook that integrates the advances made in this rapi...
