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The Biochemistry of Plants: A Comprehensive Treatise, Volume 11: Biochemistry of Metabolism provides information pertinent to the chemical and biochemical aspects of metabolism. This book discusses the control mechanisms of metabolism. Organized into nine chapters, this volume begins with an overview of the history of biochemistry and discusses the developments in the kinetics of regulatory enzymes. This text then examines a theory that explains how subunit interactions modulate the rate of conversion of a substrate into a product. Other chapters consider some relation between cell-wall elongation and cell-wall charge density and explore the subcellular localization of the enzymes of glycolysis. This book discusses as well the regulation of glycolysis and the pentose phosphate pathway. The final chapter deals with the pathways of C1 metabolism that are of prime importance, as the synthesis of several cellular constituents depends directly or indirectly on folate metabolism. This book is a valuable resource for plant biochemists, neurobiochemists, molecular biologists, senior graduate students, and research workers.
Biochemical and Clinical Aspects of Oxygen contains the proceedings of a symposium held on the Pingree Park Campus of Colorado State University on September 24-29, 1978. Contributors discuss the biochemical and clinical aspects of oxygen, focusing on reactions and areas relating to heme, flavin, copper and nonheme iron proteins, organ transplants, carbon monoxide formation and detoxification, oxidant drugs and pollutants, oxygen toxicity, enzyme inactivation, lipid peroxidation, membrane destruction, antioxidants, cataractogenesis, mutagen and carcinogen formation, malaria and trypanosome parasites, and inflammation. This volume is organized into 51 chapters and begins with a discussion of bonding and reactions of dioxygen bound to hemeproteins, along with the pathophysiology of hemolysis due to unstable hemoglobins. The focus then turns to the reactivity and function of leghemoglobin, reduction of oxygen and five redox forms of horseradish peroxidase, and acid-base catalysis and hydrogen bonding in reactions mediated by peroxidases. The reader is methodically introduced to the ligands of cytochrome P-450 and their role in the activation of dioxygen, oxygen and catabolite regulation of hemoprotein biosynthesis in yeast, and factors controlling hemoprotein reactivity. A chapter describing the spectroscopic mapping of oxygen supply and demand in the heart concludes the book. This book will be of interest to biochemists, biophysicists, physicians, toxicologists, immunologists, physiologists, parasitologists, radiologists, and environmentalists.
First published in 1986: This book is to help medical, pharmacy, and advanced students in science to understand the growing importance of continuously advancing biochemical concepts in human disease.
First multi-year cumulation covers six years: 1965-70.
Structure and Function of Biological Membranes explains the membrane phenomena at the molecular level through the use of biochemical and biophysical approaches. The book is an in-depth study of the structure and function of membranes. It is divided into three main parts. The first part provides an overview of the study of the biological membrane at the molecular level. Part II focuses on the detailed description of the overall molecular organization of membranes. The third part covers the relationship of the molecular organization of membranes to specific membrane functions; discusses catalytic membrane proteins; presents the role of membranes in important cellular functions; and looks at the membrane systems in eukaryotic cells. Biochemists, cell physiologists, biologists, researchers, and graduate and postdoctoral students in the field of biology will find the text a good reference material.
In industrialized countries, ischemic heart disease is by far the most common organ-specific cause of death. The thrombotic occlusion of a coronary artery which had previously been severely altered by atherosclerosis, is the most frequent cause of ischemic deterioration of myocardial tissue, i. e. myocardial infarction. Death of the human individual occurs when myocardial ischemia causes a critical impairment of cardiac pump function. The failure of a heart with an ischemic area may be due to the amount and location of contractile tissue becoming paralyzed or even necrotic, or to arrhythmias provoked by the ischemic condition, or by a combination of both factors. Considerable progress has been made in the development of antiarrythmic therapy. Effective tools have been developed to reperfuse ischemic myocar dial tissue as soon as the patient reaches hospital. However, therapeutical principles for the ischemic-reperfused myocardium which would specifically interfere with the state of injury of the ischemic tissue at the onset of reperfusion, and avoid the apparent hazards of the reperfusion process itself, have yet to be established. But not only approved therapeutical concepts are lacking, the pathophysiology of myocardial cell injury in pro gressive ischemia and under reperfusion is in itself only partly understood.