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Praise for the Series: "Timely...High standard of Writing...It is to be highly recommended." --Quarterly Journal of Experimental Physiology This informative publication brings together knowledge of various aspects of cellular regulation. Current Topics in Cellular Regulation reviews the progress being made in those specialized areas of study that have undergone substantial development. It also publishes provocative new theories and concepts and serves as a forum for the discussion of general principles. Researchers in cellular regulation as well as biochemists, molecular and cell biologists, microbiologists, biophysicists, physiologists, nutritionists, and pathologists will find Current Topics in Cellular Regulation a useful source of up-to-date information. - CONTENTS: - Regulatory Features of Multicatalytic and 26S Proteases - Calponin - Type III Cyclic Nucelotide Phosphodiesterases and Insulin Action - Mammalian Aminoacyl-tRNA Synthetases - Regulation of Interaction between Signaling Protein CheY and Flagellar Motor during Bacterial Chemotaxis - The Chemical Biology of Nitric Oxide: Regulation and Protective and Toxic Mechanisms - Nutritional and Hormonal Regulation of Glutathione Homeostasis - Protein Folding and Association: In Vitro Studies for Self Organization and Targeting in the Cell
Current Topics in Cellular Regulation, Volume 16 considers the advances in the general area of cellular regulation. This book discusses the subcellular distribution of hexokinase in brain homogenates and experimental evidence for bound hexokinase as a compartmental control point. The enzymology and biologic significance of cytochrome c methylation, polyaromatic-biosynthetic multienzyme system, and proteolytic modulation of gene expression in sporulation are also elaborated. This text likewise covers the occurrence of cyclic nucleotide-synthesizing and -degrading enzymes in the mammalian brain and calcium ion as a positive effector of oocyte maturation. This volume is beneficial to biologists and researchers conducting work on the basic mechanisms involved in the regulation of diverse cellular activities.
Current Topics in Cellular Regulation: Volume 32 is a collection of papers that discusses the role of GTP-binding proteins in signal transduction, the activation of cholera toxin by ADP-ribosylation factors, and the signal transduction by the colony-stimulating factor-1 receptor. Other papers explain the secretory granule, the mechanism of stimulus-secretion coupling, calcium pumps in the plasma and intracellular membranes, as well as the protein phosphorylation in translational control. One paper proposes a linkage between the multimeric structures and cytoskeletal elements to bridge the signal transducing systems and the cytoskeletal network. Another paper describes the signaling mechanisms utilized by CSF-1R, the similarities, and differences when compared to other receptor tyrosine kinases (RTKs). The paper explains in detail the mechanism of ligand-induced kinase activation, and also the possible biological role of certain intracellular substrates. Another paper examines the role played by protein phosphorylation in the control of translation, or when possible, any additional regulatory mechanisms operating in other eukaryotic species. Biochemists, micro-biologists, bio-physicists, cellular researchers, and researchers involved in the study of cellular biology will find the collection very useful.
This informative publication brings together knowledge of various aspects of cellular regulation. Current Topics in Cellular Regulation reviews the progress being made in those specialized areas of study that have undergone substantial development. It also publishes provocative new theories and concepts and serves as a forum for the discussion of general principles.Researchers in cellular regulation as well as biochemists, molecular and cell biologists, microbiologists, and biophysicists will find Current Topics in Cellular Regulation a useful source of up-to-date information. This volume covers topics including cellular thiols and redox regulated signal transduction; integration of antagonistic signals in the regulation of nitrogen assimilation in E. coli; regulation of nuclear import and export and of glutathione synthesis, superoxide dismutase, oxidative stress, and cell metabolism; and thiol-based antioxidants.
There is no doubt that nowadays, biology benefits greatly from mathematics. In particular, cellular biology is, besides population dynamics, a field where tech niques of mathematical modeling are widely used. This is reflected by the large number of journal articles and congress proceedings published every year on the dynamics of complex cellular processes. This applies, among others, to metabolic control analysis, where the number of articles on theoretical fundamentals and experimental applications has increased for about 15 years. Surprisingly, mono graphs and textbooks dealing with the modeling of metabolic systems are still exceptionally rare. We think that now time is ripe to fill this gap. This monograph covers various aspects of the mathematical description of enzymatic systems, such as stoichiometric analysis, enzyme kinetics, dynamical simulation, metabolic control analysis, and evolutionary optimization. We believe that, at present, these are the main approaches by which metabolic systems can be analyzed in mathematical terms. Although stoichiometric analysis and enzyme kinetics are classical fields tracing back to the beginning of our century, there are intriguing recent developments such as detection of elementary biochemical syn thesis routes and rate laws for the situation of metabolic channeling, which we have considered worth being included. Evolutionary optimization of metabolic systems is a rather new field with promising prospects. Its goal is to elucidate the structure and functions of these systems from an evolutionary viewpoint.
First Published in 1985. A collaboration of the latest research on regulation of carbohydrate metabolism.
Highlighting recent advances in our understanding of breast cancer, this book is intended for a wide audience as a reference book. Included are reviews of genetics, epigenetics, various aspects of cell and molecular biology, and several other areas of breast cancer that are aimed at determining new intervention sites for treatments and cures of the disease. The chapters are written by internationally recognized experts and include reviews of key topics in breast cancer research. Each chapter highlights the new aspects of specific research topics and the various impacts of designing new strategies as well as identifies new targets for therapeutic intervention. The topics addressed are selected to be of interest to patients, scientists, students, teachers, and anyone else interested in expanding their knowledge of breast cancer imaging, diagnostics, therapeutics, or basic biomedical research on breast cancer.
In this work we present the basic principles of metabolic control which we hope will serve as a foundation for the vast array of factual matter which the biochemist and the physician engaged in metabolic research must accumulate. Accordingly, we attempt to set forth these principles, along with sufficient explanation, so that the reader may apply them to the ever-expanding literature of biochemistry. If we are successful, this will provide a theoretical approach which can be applied to any given set of metabolic reactions. It is impossible to enumerate each and every biochemical reaction and pathway since such a work would be too unwieldy for efficient use. Rather, we hope our presentation of the principles of metabolic control will be sufficiently basic to be of lasting usefulness no matter how detailed biochemistry may become. We would like to be able to con dense biochemistry into a theoretical biology that will not only allow for the general treatment of any given reaction but will enable predic tions to be made as to the existence of necessary pathways and the con sequences of altered control. Such is not possible today, but this may be accomplished in the future. We believe it is now possible to institute the beginnings of such a theoretical biology.
This book is a state-of-the-art summary of the latest achievements in cell cycle control research with an outlook on the effect of these findings on cancer research. The chapters are written by internationally leading experts in the field. They provide an updated view on how the cell cycle is regulated in vivo, and about the involvement of cell cycle regulators in cancer.