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In this book, which was originally published in 1940, Green provides a detailed account of the 'mechanisms of cellular oxidation'.
Biological Oxidation Systems, Volume II discusses the various antioxidants and antioxidant enzymes that play significant roles in protecting cells from deleterious reactions between their structural/functional components and the free radicals. This book examines the myriad chemical reactions of a cell's metabolic activity that produce a variety of free radicals. Comprised of three parts encompassing 35 chapters, this volume starts with an overview of the metabolism of xenobiotics during arachidonic acid metabolism. This book then discusses the various causes of human cancers and diseases, which include exposure to environmental chemicals and other toxicants. This text considers the dietary habits and nutritional factors that play an important role in the causation and development of several human cancers, including cancer of the breast, colon, prostate, and other organs. Other chapters discuss the toxic effects of several xenobiotics that involve free-radical mechanisms. Biochemists, biophysicists, microbiologists, organic chemists, food chemists, and medical scientists will find this book extremely useful.
Providing a comprehensive review of reactions of oxidation for different classes of organic compounds and polymers, and biological processes mediated by free radicals, Oxidation and Antioxidants in Organic Chemistry and Biology puts the data and bibliographical information you need into one easy-to-use resource. You will find up-to-date information
Biological Oxidation Systems, Volume I is a collection of papers presented at the 1989 Bangalore Symposium on Oxygen Systems. This symposium covers various research studies on the essential roles, and the dangers of dioxygen reactions in biology. This volume is organized into five parts encompassing 32 chapters, and starts with an overview of the biological oxidation mechanisms involving oxygen and reduced oxygen derivatives. Parts I and II deal with the catalytic role of cytochrome P-450 and oxidase and oxygenase containing a flavin or pteridine enzymes in several biological oxidation reactions. These parts examine the biochemical aspects, reaction kinetics, and reaction mechanisms of such reactions. Parts III and IV describe first the structure function and properties of copper-containing oxidases and oxygenases. These parts also discuss the role of nonheme iron-containing and other oxygenases in the indole metabolism. Part V focuses on the role of peroxidase enzymes in cell protection and metabolism. This book will prove useful to biologists, enzyme scientists, and researchers.
Hailed by advance reviewers as "a kinder, gentler P. Chem. text," this book meets the needs of an introductory course on physical chemistry, and is an ideal choice for courses geared toward pre-medical and life sciences students. Physical Chemistry for the Chemical and Biological Sciences offers a wealth of applications to biological problems, numerous worked examples and around 1000 chapter-end problems.
In this second edition, Edwin Frankel has updated and extended his now well-known book Lipid oxidation which has come to be regarded as the standard work on the subject since the publication of the first edition seven years previously. His main objective is to develop the background necessary for a better understanding of what factors should be considered, and what methods and lipid systems should be employed, to achieve suitable evaluation and control of lipid oxidation in complex foods and biological systems. The oxidation of unsaturated fatty acids is one of the most fundamental reactions in lipid chemistry. When unsaturated lipids are exposed to air, the complex, volatile oxidation compounds that are formed cause rancidity. This decreases the quality of foods that contain natural lipid components as well as foods in which oils are used as ingredients. Furthermore, products of lipid oxidation have been implicated in many vital biological reactions, and evidence has accumulated to show that free radicals and reactive oxygen species participate in tissue injuries and in degenerative disease. Although there have been many significant advances in this challenging field, many important problems remain unsolved. This second edition of Lipid oxidation follows the example of the first edition in offering a summary of the many unsolved problems that need further research. The need to understand lipid oxidation is greater than ever with the increased interest in long-chain polyunsaturated fatty acids, the reformulation of oils to avoid hydrogenation and trans fatty acids, and the enormous attention given to natural phenolic antioxidants, including flavonoids and other phytochemicals.