Cell Death: Volume 46
Published on 26. May 1995
Book
Hardback
459 pages
978-0-12-564147-0 (ISBN)
Description
Cell Death provides a current and comprehensive collection of methods for the study of cell death. Using a diverse range of technical approaches and model systems, the chapters in this volume cover topics from the cellular and organismal to the molecular and anatomical. In the tradition of this long-standing series, this volume's user-friendly recipes and more than 100 tables and figures make the study of cell death accessible across life science disciplines.
Because of breakthroughs such as the "switching" mechanism of the p53 tumor suppressor gene, as well as many technical innovations, the number of investigators of cell death has rapidly expanded over the last few years. Students of apoptosis and other types of cell death hypothesize that virtually all cells are genetically programmed to self-destruct. In turn, they also have learned that massive cell death does not always represent pathology, but rather a normal and necessary "weeding out" in the development and life of an organism. The clinical implications are immense, as the understanding and ability to regulate this process may offer the potential to treat cancer and a wide variety of other disorders.
Because of breakthroughs such as the "switching" mechanism of the p53 tumor suppressor gene, as well as many technical innovations, the number of investigators of cell death has rapidly expanded over the last few years. Students of apoptosis and other types of cell death hypothesize that virtually all cells are genetically programmed to self-destruct. In turn, they also have learned that massive cell death does not always represent pathology, but rather a normal and necessary "weeding out" in the development and life of an organism. The clinical implications are immense, as the understanding and ability to regulate this process may offer the potential to treat cancer and a wide variety of other disorders.
Reviews / Votes
"This is a high quality book and should be useful for several years to come. (It is) a very useful book that should be in every research library. The research effort investigating PCD is growing at a very rapid rate and this bookis a timely addition to this important research area. (I rate it at) five out of five stars."--Alan Telser in DOODY'S JOURNAL
More details
Series
Language
English
Place of publication
San Diego
United States
Publishing group
Elsevier Science Publishing Co Inc
Target group
Professional and scholarly
Researchers, students, and technicians in cell and developmental biology, genetics, molecular biology, neurobiology, immunology, oncology, and many other areas of biomedical research.
Dimensions
Height: 235 mm
Width: 191 mm
Weight
1230 gr
ISBN-13
978-0-12-564147-0 (9780125641470)
Copyright in bibliographic data and cover images is held by Nielsen Book Services Limited or by the publishers or by their respective licensors: all rights reserved.
Schweitzer Classification
Persons
University of California, Santa Barbara, USA
Content
L.M. Schwartz and B.A. Osborne, Preface.
J.F.R. Kerr, G.C. Gobe, C.M. Winterford, and B.V. Harmon, Anatomical Methods in Cell Death.
S.A. Ben-Sasson, Y. Sherman, and Y. Gavrieli, Identification of Dying Cells--In Situ Staining.
A. Eastman, Assays for DNA Fragmentation, Endonucleases, and Intracellular pH and Ca2+ Associated with Apoptosis.
P.J. Fraker, L.E. King, D. Lill-Elghanian, and W.G. Telford, Quantification of Apoptotic Events in Pure and Heterogeneous Populations of Cells using the Flow Cytometer.
S.W. Sherwood and R.T. Schimke, Cell Cycle Analysis of Apoptosis Using Flow Cytometry.
B.A. Osborne, S.W. Smith, Z.-G. Liu, K.A. McLaughlin, and L.M. Schwartz, Transient Transfection Assays to Examine the Requirement of Putative Cell Death Genes.
L.M. Schwartz, C.E. Milligan, W. Bielke, and S.J. Robinson, Cloning Cell Death Genes.
L.T. Bemis, F.J. Geske, and R. Strange, Use of the Yeast Two-Hybrid System for Identifying the Cascade of Protein Interactions Resulting in Apoptotic Cell Death.
A.J. McGahon, S.J. Martin, R.P. Bissonnette, A. Mahboubi, Y. Shi, R.J. Mogil, W.K. Nishioka, and D.R. Green, The End of the (Cell) Line: Methods for the Study of Apoptosis In Vitro.
M.P. Mattson, S.W. Barger, J.G. Begley, and R.J. Mark, Calcium, Free Radicals, and Excitotoxic Neuronal Death in Primary Cell Culture.
J.C. Mills, S. Wang, M. Ericinska, and R.N. Pittman, Use of Cultured Neurons and Neuronal Cell Lines to Study Morphological, Biochemical, and Molecular Changes Occurring in Cell Death.
J.E. Johnson, Methods for Studying Cell Death and Viability of Primary Neuronal Cultures.
P.G.H. Clarke and R.W. Oppenheim, Neuron Death in Vertebrate Development: In Vivo Methods.
M. Driscoll, Methods for the Study of Cell Death in the Nematode Caenorhabditis elegans.
R. Strange, R.R. Friis, L.T. Bemis, and F.J. Geske, Programmed Cell Death during Mammary Gland Involution.
M.C. Colombel and R. Buttyan, Hormonal Control of Apoptosis: The Rat Prostate Gland as a Model System.
E.C. Coucouvanis, G.R. Martin, and J.H. Nadeau, Genetic Approaches for Studying Programmed Cell Death during Development of the Laboratory Mouse.
Chapter References.
Index.
Volumes in Series.
J.F.R. Kerr, G.C. Gobe, C.M. Winterford, and B.V. Harmon, Anatomical Methods in Cell Death.
S.A. Ben-Sasson, Y. Sherman, and Y. Gavrieli, Identification of Dying Cells--In Situ Staining.
A. Eastman, Assays for DNA Fragmentation, Endonucleases, and Intracellular pH and Ca2+ Associated with Apoptosis.
P.J. Fraker, L.E. King, D. Lill-Elghanian, and W.G. Telford, Quantification of Apoptotic Events in Pure and Heterogeneous Populations of Cells using the Flow Cytometer.
S.W. Sherwood and R.T. Schimke, Cell Cycle Analysis of Apoptosis Using Flow Cytometry.
B.A. Osborne, S.W. Smith, Z.-G. Liu, K.A. McLaughlin, and L.M. Schwartz, Transient Transfection Assays to Examine the Requirement of Putative Cell Death Genes.
L.M. Schwartz, C.E. Milligan, W. Bielke, and S.J. Robinson, Cloning Cell Death Genes.
L.T. Bemis, F.J. Geske, and R. Strange, Use of the Yeast Two-Hybrid System for Identifying the Cascade of Protein Interactions Resulting in Apoptotic Cell Death.
A.J. McGahon, S.J. Martin, R.P. Bissonnette, A. Mahboubi, Y. Shi, R.J. Mogil, W.K. Nishioka, and D.R. Green, The End of the (Cell) Line: Methods for the Study of Apoptosis In Vitro.
M.P. Mattson, S.W. Barger, J.G. Begley, and R.J. Mark, Calcium, Free Radicals, and Excitotoxic Neuronal Death in Primary Cell Culture.
J.C. Mills, S. Wang, M. Ericinska, and R.N. Pittman, Use of Cultured Neurons and Neuronal Cell Lines to Study Morphological, Biochemical, and Molecular Changes Occurring in Cell Death.
J.E. Johnson, Methods for Studying Cell Death and Viability of Primary Neuronal Cultures.
P.G.H. Clarke and R.W. Oppenheim, Neuron Death in Vertebrate Development: In Vivo Methods.
M. Driscoll, Methods for the Study of Cell Death in the Nematode Caenorhabditis elegans.
R. Strange, R.R. Friis, L.T. Bemis, and F.J. Geske, Programmed Cell Death during Mammary Gland Involution.
M.C. Colombel and R. Buttyan, Hormonal Control of Apoptosis: The Rat Prostate Gland as a Model System.
E.C. Coucouvanis, G.R. Martin, and J.H. Nadeau, Genetic Approaches for Studying Programmed Cell Death during Development of the Laboratory Mouse.
Chapter References.
Index.
Volumes in Series.