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An introduction to the principles of membrane transport: How molecules and ions move across the cell membrane by simple diffusion and by making use of specialized membrane components (channels, carriers, and pumps). The text emphasizes the quantitative aspects of such movement and its interpretation in terms of transport kinetics. Molecular studies of channels, carriers, and pumps are described in detail as well as structural principles and the fundamental similarities between the various transporters and their evolutionary interrelationships. The regulation of transporters and their role in
Biological transport --- Biological transport, Active --- Regulation --- Active biological transport --- Active transport, Biological --- Energy dependent biological transport --- Uphill biological transport --- Energy metabolism --- Membrane transport --- Passive transport, Biological --- Physiological transport --- Transport, Biological --- Diffusion --- Osmosis
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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 me
Bioenergetics. --- Biological transport, Active. --- Active biological transport --- Active transport, Biological --- Energy dependent biological transport --- Uphill biological transport --- Energy metabolism --- Energy balance (Biology) --- Energy budget (Biology) --- Energy dynamics (Ecology) --- Energy utilization (Biology) --- Biochemistry --- Energy budget (Geophysics)
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Bioenergetics --- -Biological transport, Active --- -Membranes (Biology) --- -Active biological transport --- Active transport, Biological --- Energy dependent biological transport --- Uphill biological transport --- Energy metabolism --- Energy balance (Biology) --- Energy budget (Biology) --- Energy dynamics (Ecology) --- Energy utilization (Biology) --- Biochemistry --- Energy budget (Geophysics) --- Congresses --- Biological transport, Active --- Membranes (Biology) --- Cell Membrane --- Congresses. --- congresses. --- -Congresses --- Actief transport. (Congres) --- Bioénergetica. (Congres) --- Transport actif. (Congrès) --- Membranes [Biologie]. (Congrès) --- Bioénergie. (Congrès) --- Membranen [Biologie]. (Congres)
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Biological Transport. --- Calcium --- Cell Membrane Permeability. --- Biological transport, Active --- Active biological transport --- Active transport, Biological --- Energy dependent biological transport --- Uphill biological transport --- Energy metabolism --- Permeability, Cell Membrane --- Biological Transport --- Ionophores --- Biologic Transport --- Transport, Biological --- Transport, Biologic --- Transport Vesicles --- Membrane Transport Proteins --- metabolism. --- Biological transport, Active. --- Calcium. --- Cell Membrane Permeability --- Alkaline earth metals --- High-calcium diet --- metabolism --- Microorganisms. --- Cells. --- Mitochondria. --- Cells --- Mitochondria --- Erythrocytes --- Intestine --- Membranes
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Biomembranes --- 576.342 --- Active biological transport --- Active transport, Biological --- Energy dependent biological transport --- Uphill biological transport --- Transport systems of the cell --- 576.342 Transport systems of the cell --- Biological transport, Active --- Cell membranes --- Cell surfaces --- Cytoplasmic membranes --- Plasma membranes --- Plasmalemma --- Membranes (Biology) --- Glycocalyces --- Energy metabolism --- Cell membranes.
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Biological transport, Active --- Calcium --- Calcium in the body --- Cell membranes --- Cell surfaces --- Cytoplasmic membranes --- Plasma membranes --- Plasmalemma --- Membranes (Biology) --- Glycocalyces --- Body composition --- Calcification --- Alkaline earth metals --- High-calcium diet --- Active biological transport --- Active transport, Biological --- Energy dependent biological transport --- Uphill biological transport --- Energy metabolism --- Biomembranes --- General biochemistry
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Biomembranes --- 577.152.313 --- Adenosine triphosphatase --- -Biological transport, Active --- -#WPLT:dd.prof.J.Vendrig --- Active biological transport --- Active transport, Biological --- Energy dependent biological transport --- Uphill biological transport --- Energy metabolism --- Adenosinetriphosphatase --- Adenylopyrophosphatase --- ATP monophosphatase --- ATP phosphohydrolase --- ATP synthase --- ATP synthetase --- ATPase --- Phosphatases --- Phosphoric monoester hydrolases: phosphatases, phytases --- Congresses --- 577.152.313 Phosphoric monoester hydrolases: phosphatases, phytases --- Biological transport, Active --- #WPLT:dd.prof.J.Vendrig --- Adenosine triphosphatase - Congresses --- Biological transport, Active - Congresses --- Adenosine triphosphate --- Biological transport
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Physiology of nutrition. Metabolism --- Biological transport, Active --- Calcium --- Electrolytes --- Intestines --- Abdomen --- Gastrointestinal system --- Alkaline earth metals --- High-calcium diet --- Active biological transport --- Active transport, Biological --- Energy dependent biological transport --- Uphill biological transport --- Energy metabolism --- Regulation&delete& --- Congresses --- Physiological effect&delete& --- Metabolism&delete& --- Elektrolyten. Metabolisme. (Congres) --- Calcium. Fysiologisch effect. (Congres) --- Actief transport. (Congres) --- Intestins. (Congrès) --- Electrolytes. Métabolisme. (Congrès) --- Calcium. Effets physiologiques. (Congrès) --- Transport actif. (Congrès) --- Darmen. (Congres) --- Regulation --- Physiological effect --- Metabolism
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This new edition of Bioenergetics presents a clear and up-to-date explanation of the chemiosmotic theory and covers mitochondria, bacteria, and chloroplasts. It takes account of the many newly determined structures, such as ATP synthase and the two photosystems of photosynthesis, that provide molecular insight into chemiosmotic energy transduction. This edition includes additional color figures of protein structures and many newly drawn illustrations designed to enable the reader to grasp the fundamental insights that are derived from knowing the structure. Every chapter has been extens
Bioenergetics. --- Bioenergetics. Biological transport, Active. --- Biological transport, Active. --- Bioenergetics --- Biological transport, Active --- Metabolism --- Metabolic Phenomena --- Phenomena and Processes --- Energy Metabolism --- Biological Transport --- Biology --- Health & Biological Sciences --- Biophysics --- Active biological transport --- Active transport, Biological --- Energy dependent biological transport --- Uphill biological transport --- Energy balance (Biology) --- Energy budget (Biology) --- Energy dynamics (Ecology) --- Energy utilization (Biology) --- Energy metabolism --- Biochemistry --- Energy budget (Geophysics) --- Energy Metabolism. --- Biological Transport. --- Bioénergétique --- Transport biologique actif --- ELSEVIER-B EPUB-LIV-FT --- Ion transport (biological)
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Bioenergetics is a topic which impinges on a wide range of fundamental problems in biology. The movement of electrons and ions across and through membranes is important in fields such as energy transduction, cell biology, and cell signalling. The maturation of bioenergetics has led to cross-fertilization with other fields and this has led to both the necessity for scientists in other areas, such as clinical scientists, to learn the classical bioenergetic techniques, and the application of foreign techniques to bioenergetics, like molecular biology and electrophysiology. This book describes the core bioenergetic techniques required in the analysis of membrane-translocating events. Topics covered include the measurement of the main fluxes and stoichiometries, membrane transport, redox states and potentials, the isolation of bioenergetic preparations for mitochondria and mitochondrial subcomponents and chloroplast subcomponents, and the reconstitution and characterization of proteins in proteoliposomes. Both established and new techniques are fully described. The book will be a valuable guide for research scientists working in the areas of mammalian and plant biochemistry and cell biology.
Bioenergetics --- Biological transport, Active --- Methodology --- Research --- -Biological transport, Active --- -#abib:almm --- Active biological transport --- Active transport, Biological --- Energy dependent biological transport --- Uphill biological transport --- Biophysics (General) --- #abib:almm --- 577.23 --- 577.23 Energy bases of life. Molecular bioenergetics --- Energy bases of life. Molecular bioenergetics --- Energy balance (Biology) --- Energy budget (Biology) --- Energy dynamics (Ecology) --- Energy utilization (Biology) --- Biochemistry --- Energy budget (Geophysics) --- Energy metabolism --- Research&delete& --- General biochemistry --- Biomembranes --- Basic Sciences. Biophysics --- Methodology. --- Biophysics (General).
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