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Advanced Biochemistry: Mechanisms in Bioenergetics provides information pertinent to the fundamental aspects of the mechanisms in bioenergetics. This book covers a variety of topics, including the enzymatic mechanism of ATP formation and the regulatory mechanisms that control its metabolic utilization. Organized into three parts encompassing 18 lectures, this book begins with an overview of the process of converting nutrients into forms of useful energy, which is the essence of energy metabolism. This text then explores the properties that have a specific bearing on the problem of oxidative phosphorylation. Other lectures consider the phosphoroclastic reaction with pyruvate, which plays a curious and apparently specific role in nitrogen fixation. This book discusses as well the operation of control mechanisms of energy metabolism in intact cells. The final lecture analyzes the rate-limiting steps in carbohydrate metabolism of various cells and some of the metabolic factors that govern them. This book is a valuable resource for graduate students.
A New Look at Mechanisms in Bioenergetics features eight lectures based on the Robbins Lectures given at Pomona College in April 1973. These lectures are based mainly on the author's own laboratory work and are intended for students of biology and biochemistry who want to devote their lives to research. Lecture 1 presents some of the general lessons learned from research in the field of bioenergetics. It also discusses methods for measuring oxidative phosphorylation and the resolution of soluble multienzyme systems. Lecture 2 explains the biochemical approach to the problem of photophosphorylation. Lecture 3 considers the intersection of oxidative phosphorylation and membranology. Lecture 4 discusses the coupling device and its partial reactions. Lecture 5 focuses on the oxidation chain in mitochondria. Lecture 6 discusses the resolution and reconstitution of oxidative phosphorylation. Lecture 7 examines the reconstitution of ion pumps. Finally, Lecture 8 covers oxidation control in glycolysis; the high aerobic glycolysis of tumor cells; ATPases in tumor cells; and the repair of ion pumps in tumor cells.
Mechanisms in Bioenergetics covers the proceedings of the eighth conference on ""Mechanisms in Bioenergetics"" held in Pugnochiuso, Italy on May 1-4, 1972. This book is organized into three parts, encompassing 43 chapters that discuss bioenergetics in mitochondria, chloroplasts, chromatophores, and bacterial protoplast membranes. It summarizes the structure and dynamics of energy-transducing membranes, molecular basis of membrane transport, and energy coupling mechanisms. The first part of the book describes various aspects of structure and dynamics of energy transducing membranes. This includes their chemiosmotic coupling, reflection coefficients, structural transformation, redox properties, and circular dichroism studies. This is followed by considerable chapters discussing chemiosmotic theory of transport and metabolism, ion channel phosphorylation paths in cell membrane, and kinetics of metabolite anion uptake in mitochondria. Other topics covered are mitochondrial Ca2+-binding glycoprotein and sucrose-dependent sugar transport across artificial lipid membranes. This book also looks into the enzyme interaction in mitochondrial membrane. It also discusses the relation of hydrogen uptake to electron flow in photosynthetic bacteria and purine nucleotides and fatty acids in energy coupling. The concluding section deals with the mechanisms of energy coupling, including mechanism of respiration-driven proton, role of mitochondrial energy transfer factors, and energy in mitochondrial respiration. The behavior of cytochromes b and c of pigeon heart and in the energized mitochondrial membrane is also described. Finally, this book considers the effect of adenosine-containing compounds competitively inhibiting the mitochondrial transhydrogenase reaction. Researchers and students who are interested in bioenergetics and energy-transducing membranes will benefit from this book.
This book summarises current knowledge of the structure, function,biosynthesis and regulation of energy-transducing enzymes inmitochondria, chloroplasts and bacteria. Each of the twenty chapters is written by top experts in their field, and Prof. Ernster has ensured that the book as a whole gives a well-integrated picture of the present state of knowledge of the field at its different levels and complexities. Since the publication of Bioenergetics edited by Lars Ernster in 1984, (New Comprehensive Biochemistry Vol. 9) the whole field of bioenergetics has undergone a tremendous expansion. Additionally a transition from membrane bioenergetics to molecular bioenergetics has accompanied this expansion - due mainly to the spectacular progress in the field of molecular biology over the past twenty years. Hence this volume, Molecular Mechanisms in Bioenergetics, is certain to be of interest, not only to the specialist in bioenergetics, but also to researchers working in the various fields of biophysics, biochemistry, molecular biology, genetics, cell biology and physiology. Also of interest, this volume contains an historical introduction, including a list of earlier publications relating to the history of bioenergetics.
Principles of Bioenergetics summarizes one of the quickly growing branches of modern biochemistry. Bioenergetics concerns energy transductions occurring in living systems and this book pays special attention to molecular mechanisms of these processes. The main subject of the book is the "energy coupling membrane" which refers to inner membranes of intracellular organelles, for example, mitochondria and chloroplasts. Cellular cytoplasmic membranes where respiratory and photosynthetic energy transducers, as well as ion-transporting ATP-synthases (ATPases) are also part of this membrane. Significant attention is paid to the alternative function of mitochondria as generators of reactive oxygen species (ROS) that mediate programmed death of cells (apoptosis and necrosis) and organisms (phenoptosis). The latter process is considered as a key mechanism of aging which may be suppressed by mitochondria-targeted antioxidants.
Extensively revised, the fourth edition of this highly successful book takes into account the many newly determined protein structures that provide molecular insight into chemiosmotic energy transduction, as well as reviewing the explosive advances in 'mitochondrial physiology'-the role of the mitochondria in the life and death of the cell. Covering mitochondria, bacteria and chloroplasts, the fourth edition of Bioenergetics provides a clear and comprehensive account of the chemiosmotic theory and its many applications. The figures have been carefully designed to be memorable and to convey the key functional and mechanistic information. Written for students and researchers alike, Bioenergetics is the most well-known, current and respected text on chemiosmotic theory and membrane bioenergetics available. BMA Medical Book Awards 2014-Highly Commended, Basic and Clinical Sciences,2014,British Medical Association Chapters are now divided between three interlocking sections: basic principles, structures and mechanisms, and mitochondrial physiology Covers new advances in the structure and mechanism of key bioenergetic proteins, including complex I of the respiratory chain and transport proteins Details cellular bioenergetics, mitochondrial cell biology and signal transduction, and the roles of mitochondria in physiology, disease and aging Offers readers clear, visual representation of structural concepts through full colour figures throughout the book
An essential resource for biochemists, biophysicists and chemical biologists, providing a complete understanding of the molecular machines of bioenergetics.
Searching for a Mechanism traces the history of cell bioenergetics from the early notions of science in the Enlightenment through to the end of the twentieth century. Author John N. Prebble's treatment of this history falls into five periods, from the 1600's to the present day. The "bioenergetics revolution" has long been overlooked because it occurred simultaneously as the other major biological revolution of the twentieth century: the development of molecular biology. This book aims to provide the first thorough history of bioenergetics. The story of cell bioenergetics is primarily concerned with the synthesis of ATP (adenosine triphosphate), sometimes referred to as the energy currency of the cell. In fact the term 'bioenergetics' was probably not introduced into the field until Albert Szent-Gyorgyi published a small book under that title in 1957. Despite the twentieth century focus of the subject matter, the history of this field commences with the work of those in the seventeenth century who sought to understand the process of breathing and passes through metabolic biochemistry concluding with the elucidation of the molecular mechanisms of key enzymes in bioenergetics. Although the story of metabolic biochemistry (which is often taken to include bioenergetics) essentially belongs to the twentieth century, progress in this area cannot be understood without recourse to previous centuries. Thus from the seventeenth century onwards it is possible to trace a path of early thinking which eventually laid the ground work for the dramatic success of twentieth century studies.