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A Practical Guide to the Study of Calcium in Living Cells describes popular techniques along with helpful do's and don't's and computer programs. The volume enables investigators to evaluate confocal images, use the latest dyes, and design Calcium buffers appropriate to their research needs. This book is designed for laboratory use by graduate students, technicians, and researchers in many disciplines, ranging from molecular to cellular levels of investigation. - Describes techniques for detection of [Ca2+]I: Ca2+ - sensitive microelectrodes - Fluorescent dyes - Luminescent proteins - Includes techniques for perturbing intracellular Ca2+ - Covers detailed methodology plus problems and pitfalls of each technique - Contains a practical guide to preparing Ca2+ buffers with an easy-to-use computer program - Color plates illustrate techniques such as - Confocal ratio-imaging - Use of aequorin
A Practical Guide to the Study of Calcium in Living Cells describes popular techniques along with helpful do's and don't's and computer programs. The volume enables investigators to evaluate confocal images, use the latest dyes, and design Calcium buffers appropriate to their research needs. This book is designed for laboratory use by graduate students, technicians, and researchers in many disciplines, ranging from molecular to cellular levels of investigation. Describes techniques for detection of [Ca2+]I: Ca2+ - sensitive microelectrodes Fluorescent dyes Luminescent proteins Includes techniques for perturbing intracellular Ca2+ Covers detailed methodology plus problems and pitfalls of each technique Contains a practical guide to preparing Ca2+ buffers with an easy-to-use computer program Color plates illustrate techniques such as Confocal ratio-imaging Use of aequorin
Every cell of the body is dependent on calcium to function. Calcium is found in teeth and bones, and calcium signalling is necessary for the movement of muscles and for the action of the heart and the intestines as well as blood coagulation. Calcium in Living Cells will update classic techniques in detecting microscopic levels of calcium ions (Ca2+) in living cells, as well as address new techniques in the field of calcium detection and calcium signaling. Such detection and measurement of intracellular calcium is important to researchers studying the heart, musculoskeletal, gastrointestinal, and immune systems, whose findings will aid in the advancement of drug and genomic therapies to treat heart, gastrointestinal, autoimmune, and infectious diseases. - Gives researchers much needed information on how to study calcium in live cells, which is becoming increasingly important in heart, musculoskeletal, and immune system research - Provides an overview of the latest methods--fluorescence resonance energy transfer (FRET), for example-- that are new to the field - Allows understanding of how calcium plays a role in intracellular function at the cellular level, which has proved important in Alzheimer's research, heart disease, and areas of musculoskeletal research - Updated chapters reflect advancements in the classic techniques used'preparing calcium buffers, vibrating the Ca2+ Electrode and confocal imaging
Many cell biologists study the properties of cells grown outside of the animal, in the controlled environment of a culture dish. Many cell biologists would benefit from directing their attention to nerve cells, but are afraid to try growing nerve cells in culture because it has the reputation for being much more difficult and unreliable than growing other kinds of cells. This volume is written by cell biologists and neuroscientists who are experts at growing various kinds of neurons in culture and using them for diverse experimental applications. The aim of this volume is to demystify the techniques used to grow nerve cells and to show cell biologists that it is something that they can easily master. * Contains culture methodology for more than a dozen types of CNS and PNS neurons * Includes most recent and reliable techniques from expert practitioners for specific experimental applications * Addresses the latest strategies for transfecting neurons.
Arguably no other field of biological research embraces such a diverse array of experimental approaches as does the field of calcium signaling. Not only does it span virtually all conceptual and technical areas of molecular and cell biology, but a number of unique techniques, such as the use of permeabilized cells to study intracellular calcium metabolism, have evolved directly from calcium research. Calcium Signaling explores this fascinating area of research, covering the biophysical, molecular biological, and cell biological techniques involved in the study of calcium signaling. This work examines a broad range of topics-from techniques for imaging and measuring calcium in subcellular compartments, to subcellular fractionation and intracellular calcium stores, and patch clamp investigation of calcium channels. Filled with detailed illustrations, Calcium Signaling addresses those key methodological approaches that are useful to scientists and researchers investigating calcium function and regulation in many diverse areas of biological and medical research.
Cell mechanics is the field of study that looks at how cells detect, modify, and respond to the physical properties of the cell environment. Cells communicate with each other through chemical and physical signals which are involved in a range of process from embryogenesis and wound healing to pathological conditions such as cancerous invasion. Similar principles are also likely to be critical for success in regenerative medicine. Cell mechanics is thus central to understanding these principles. As cell mechanics draws from the fields of biology, chemistry, physics, engineering, and mathematics, this book aims not only to provide a collection of research methods, but also to develop a common language among scientists who share the interest in cell mechanics but enter the field with diverse backgrounds. To this end all of the contributing authors have sought to explain in plain language the nature of the biological problems, the rationale for the approaches, in addition to the methods themselves. In addition, to balance practical utility against conceptual advances, Cell Mechanics has intentionally included both chapters that provide detailed recipes and those that emphasize basic principles. - Presents a distinctive emphasis on matrix mechanics and their interplay with cell functions - Includes highly significant topics relevant to basic and translational research, as well as tissue engineering - Emphasizes mechanical input and output of cells
This volume of Methods in Cell Biology, the first of two parts on the subject of zebrafish, provides a comprehensive compendia of laboratory protocols and reviews covering all the new methods developed since 1999. This first volume provides state-of-the-art descriptions of novel cellular imaging technologies and methods for culture of zebrafish stem cells, summarizes protocols for analyzingthe development of major organ systems including the central nervous system (CNS), and introduces the use of the zebrafish as a model system for human diseases. - Details state-of-the art zebrafish protocols, delineating critical steps in the procedures as well as potential pitfalls - Illustrates many techiques in full-color - Summarizes the Zebrafish Genome Project
This new volume of Methods in Cell Biology looks at micropatterning in cell biology and includes chapters on protein photo-patterning on PEG with benzophenone, laser-directed cell printing and dip pen nanolithography. The cutting-edge material in this comprehensive collection is intended to guide researchers for years to come. - Includes sections on micropatterning in 2D with photomask, maskless micropatterning and 2D nanopatterning - Chapters are written by experts in the field - Cutting-edge material
The Zebrafish: Cellular and Developmental Biology, Part A Cellular Biology, is the latest edition in the Methods in Cell Biology series that looks at methods for analyzing cellular and developmental biology of zebrafish. Chapters cover such topics as cell biology and developmental and neural biology. - Covers sections on model systems and functional studies, imaging-based approaches, and emerging studies - Written by experts in the field - Contains cutting-edge material on the topic of developmental biology in zebrafish - New two part edition of this important volume
Recent advances in the imaging technique electron microscopy (EM) have improved the method, making it more reliable and rewarding, particularly in its description of three-dimensional detail. Cellular Electron Microscopy will help biologists from many disciplines understand modern EM and the value it might bring to their own work. The book's five sections deal with all major issues in EM of cells: specimen preparation, imaging in 3-D, imaging and understanding frozen-hydrated samples, labeling macromolecules, and analyzing EM data. Each chapter was written by scientists who are among the best in their field, and some chapters provide multiple points of view on the issues they discuss. Each section of the book is preceded by an introduction, which should help newcomers understand the subject. The book shows why many biologists believe that modern EM will forge the link between light microscopy of live cells and atomic resolution studies of isolated macromolecules, helping us toward the goal of an atomic resolution understanding of living systems. - Updates the numerous technological innovations that have improved the capabilities of electron microscopy - Provides timely coverage of the subject given the significant rise in the number of biologists using light microscopy to answer their questions and the natural limitations of this kind of imaging - Chapters include a balance of "how to", "so what" and "where next", providing the reader with both practical information, which is necessary to use these methods, and a sense of where the field is going