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Cell Cycle
There has been an enormous advance in our understanding of the regulation of the cell division cycle in the last five years. The leap in understanding has centered on the cell cycle control protein p34cdc2 and its congeners and on the cyclins. The most important insight to emerge has been that cell cycle control mechanisms and their participating proteins are very well-conserved through evolution. This has created a spectacular growth in knowledge as data from one organism have been readily applied to another. In this volume, there are sea urchin and frog eggs, as well as mammalian cells and yeast. There is also an illustration of how fruitful the genetic approach can be in other organisms t...
Biomedical Optical Phase Microscopy and Nanoscopy
Written by leading optical phase microscopy experts, this book is a comprehensive reference to phase microscopy and nanoscopy techniques for biomedical applications, including differential interference contrast (DIC) microscopy, phase contrast microscopy, digital holographic microscopy, optical coherence tomography, tomographic phase microscopy, spectral-domain phase detection, and nanoparticle usage for phase nanoscopy The Editors show biomedical and optical engineers how to use phase microscopy for visualizing unstained specimens, and support the theoretical coverage with applied content and examples on designing systems and interpreting results in bio- and nanoscience applications. - Prov...
Video Microscopy
Video microscopy is used extensively in many life and biomedical science disciplines today, and is a useful tool for both cell biologists and students. This book presents how to track the dynamic changes that take place in the structure of living cells and in reconstituted preparations using video and digital imaging microscopy. Basic information, principles, and applications are also covered, as well as more specialized video microscopy techniques.Practical laboratory guide for methods and technologies used with video microscopyComprehensive, easy-to-follow instructionsFebruary 1998, c. 334 pp.
Centrosomes and Spindle Pole Bodies
Containing a comprehensive collection of convenient and quantitative methods for studying centrosomes, spindle pole bodies and related organelles, this text is a valuable resource for researchers and others interested in studying the role of these organelles in cell replication. Chapters outlining the role of these organelles in other cell functions are also included, and a wide variety of experimental systems for analyzing these organelles are presented. Detailed protocols for experiments are contained in each chapter for researchers to perform in their own labs. This volume outlines key methodologies used to analyze centrosomes and spindle pole bodies, their replication, and reproduction in the clear, well-illustrated style of the Methods in Cell Biology series.
The Centrosome in Cell Replication and Early Development
Centrosomes play an integral role in the growth of cells and the ultimate development of many animals, and sometimes plants. In addition to the normal growth of cells, centrosomes can also play a key role in the spread of cancer and are of increased interest to both the genetics and oncology communities. Volume 49 of Current Topics in Developmental Biology will present all known research surrounding the centrosome, across a variety of systems, will be well referenced, and speculate where the research is headed. - Discusses centrosomes and cancer, centrosomes and early development, and molecular biology of the centrosome - Heavily illustrated, with many color figures - Chapters written by international leaders in the field
Current Topics in Developmental Biology
Together with other volumes in this series, Volume 55 presents thoughtful and forward-looking articles on developmental biology and developmental medicine. The exceptional reviews in this volume of Current Topics in Developmental Biology will be valuable to both clinical and fundamental researchers, as well as students and other professionals who want an introduction to current topics in cellular and molecular approaches to developmental biology and clinical problems of aberrant development.* Series Editor Gerald Schatten is one of the leading minds in reproductive and developmental science* Presents major issues and astonishing discoveries at the forefront of modern developmental biology and developmental medicine* The longest-running forum for contemporary issues in developmental biology with over 30 years of coverage
Mitosis and Meiosis
Mitosis and Meiosis details the wide variety of methods currently used to study how cells divide as yeast and insect spermatocytes, higher plants, and sea urchin zygotes. With chapters covering micromanipulation of chromosomes and making, expressing, and imaging GFP-fusion proteins, this volume contains state-of-the-art "how to" secrets that allow researchers to obtain novel information on the biology of centrosomes and kinetochores and how these organelles interact to form the spindle.Chapters Contain Information On:* How to generate, screen, and study mutants of mitosis in yeast, fungi, and flies* Techniques to best image fluorescent and nonfluorescent tagged dividing cells* The use and action of mitoclastic drugs* How to generate antibodies to mitotic components and inject them into cells* Methods that can also be used to obtain information on cellular processes in nondividing cells
Transcriptional Switches During Development
This new volume in the Current Topics in Developmental Biology series concentrates on transcriptional switches during development. It includes chapters on such topics as muscle diversity, transcriptional response to genome structural variation, and the temporal gene network in Drosophila neural stem cells. With an international team of authors, this volume is a must-have addition for researchers and students alike. Concentrates on transcriptional switches during development Includes chapters on such topics as muscle diversity, transcriptional response to genome structural variation, and the temporal gene network in Drosophila neural stem cells With an international team of authors, this volume is a must-have addition for researchers and students alike
