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Bacterial cell walls. --- Peptidoglycans. --- Bacterial proteins. --- Bacterial cell walls --- Peptidoglycans --- Bacterial proteins --- #abib:almm --- Microbial proteins --- Glycosaminopeptides --- Mucopeptides --- Murein --- Murein sacculus --- Sacculus, Murein --- Microbial polysaccharides --- Proteoglycans --- Bacterial membranes --- Cell walls, Bacterial --- Bacteria --- Cell membranes --- BACTERIA --- CELL WALLS --- PEPTIDOGLYCANS --- BACTERIAL PROTEIN --- ENVIRONMENTAL FACTORS --- ADAPTATION --- BACTERICIDES --- RESISTANCE
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Active oxygen. --- Antioxidants. --- Antioxidants. --- Bacterial cell walls. --- Bacterial proteins. --- Biochemistry. --- Biochemistry. --- Bioenergetics. --- Biological psychiatry. --- Biological systems. --- Brain --- Brain --- Cell Membrane --- Cell Membrane. --- Chromatin --- Chromatin --- Chromatin. --- Complexity (Philosophy). --- Disease --- Energy metabolism. --- Free Radicals. --- Free radicals (Chemistry) --- Gene Expression --- Gene expression. --- Genetic Engineering --- Genetic Vectors. --- Genetic engineering. --- Genetic transformation. --- Glycoproteins --- Glycoproteins. --- Life (Biology). --- Lipid membranes. --- Lipids --- Lipids --- Lipids. --- Lipids. --- Lipoproteins --- Lipoproteins. --- Lipoproteins. --- Membrane Lipids --- Membrane Proteins --- Membrane lipids --- Membrane lipids. --- Membrane proteins. --- Membranes --- Mental disorders --- Neurotransmitter receptors. --- Peptidoglycans. --- Principal components analysis. --- Protein binding. --- Reactive Oxygen Species. --- Reduction (Chemistry). --- Transformation, Genetic --- Viruses. --- Pathophysiology. --- Physiology. --- Metabolism. --- Metabolism. --- Ultrastructure. --- Etiology. --- Pathophysiology. --- Physiology. --- Methods. --- Metabolism --- Disorders. --- Metabolism. --- Metabolism. --- Metabolism. --- Metabolism. --- Metabolism. --- Metabolism. --- Anatomy and histology. --- Etiology. --- Physiology.
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The concept of network as a mathematical description of a set of states, or events, linked according to a certain topology has been developed recently and has led to a novel approach of real world. This approach is no doubt important in the field of biology. In fact biological systems can be considered networks. Thus, for instance, an enzyme-catalysed reaction is a network that links, according to a certain topology, the various states of the protein and of its complexes with the substrates and products of the chemical reaction. Connections between neurons, social relations in animal and human populations are also examples of networks. Hence there is little doubt that the concept of network transgresses the boundaries between traditional scientific disciplines. This book is aimed at discussing in physical terms these exciting new topics on simple protein model lattices, supramolecular protein edifices, multienzyme and gene networks. *Physical and mathematical approach of biological phenomena. *Offers biochemists and biologists the mathematical background required to understand the text. *Associates in the same general formulation, the ideas of communication of a message and organization of a system. *Provides a clear-cut definition and mathematical expression of the concepts of reduction, integration, emergence and complexity that were so far time-honoured and vague
Active oxygen. --- Antioxidants. --- Antioxidants. --- Bacterial cell walls. --- Bacterial proteins. --- Biochemistry. --- Biochemistry. --- Bioenergetics. --- Biological psychiatry. --- Biological systems. --- Brain --- Brain --- Cell Membrane --- Cell Membrane. --- Chromatin --- Chromatin --- Chromatin. --- Complexity (Philosophy). --- Disease --- Energy metabolism. --- Free Radicals. --- Free radicals (Chemistry) --- Gene Expression --- Gene expression. --- Genetic Engineering --- Genetic Vectors. --- Genetic engineering. --- Genetic transformation. --- Glycoproteins --- Glycoproteins. --- Life (Biology). --- Lipid membranes. --- Lipids --- Lipids --- Lipids. --- Lipids. --- Lipoproteins --- Lipoproteins. --- Lipoproteins. --- Membrane Lipids --- Membrane Proteins --- Membrane lipids --- Membrane lipids. --- Membrane proteins. --- Membranes --- Mental disorders --- Neurotransmitter receptors. --- Peptidoglycans. --- Principal components analysis. --- Protein binding. --- Reactive Oxygen Species. --- Reduction (Chemistry). --- Transformation, Genetic --- Viruses. --- Pathophysiology. --- Physiology. --- Metabolism. --- Metabolism. --- Ultrastructure. --- Etiology. --- Pathophysiology. --- Physiology. --- Methods. --- Metabolism --- Disorders. --- Metabolism. --- Metabolism. --- Metabolism. --- Metabolism. --- Metabolism. --- Metabolism. --- Anatomy and histology. --- Etiology. --- Physiology.
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The production of proteins in mammalian cells is an important tool in numerous scientific and commercial areas. For example, proteins for human therapy, vaccination or diagnostic applications are typically produced in mammalian cells. Gene cloning, protein engineering, biochemical and biophysical characterization of proteins also require the use of gene expression in mammalian cells. Other applications in widespread use involve screening of libraries of chemical compounds in drug discovery, and the development of cell-based biosensors. This book presents a state-of-the-art comprehensive coverage of the technical aspects of gene expression in mammalian cells, written by experienced scientists working at the forefront of the field.
Biological transport --- Biological Transport --- Cell Membrane Permeability --- Permeability, Cell Membrane --- Ionophores --- Biologic Transport --- Transport, Biological --- Transport, Biologic --- Transport Vesicles --- Membrane Transport Proteins --- Membrane transport --- Passive transport, Biological --- Physiological transport --- Diffusion --- Osmosis --- Energy Metabolism. --- Membranes (Biology) --- Biomembranes --- General biochemistry --- Biological transport. --- Bioenergetics. --- Energy metabolism. --- Active oxygen. --- Antioxidants. --- Bacterial cell walls. --- Bacterial proteins. --- Biochemistry. --- Biological psychiatry. --- Biological systems. --- Brain --- Cell Membrane --- Cell Membrane. --- Chromatin --- Chromatin. --- Complexity (Philosophy). --- Disease --- Free Radicals. --- Free radicals (Chemistry) --- Gene Expression --- Gene expression. --- Genetic Engineering --- Genetic Vectors. --- Genetic engineering. --- Genetic transformation. --- Glycoproteins --- Glycoproteins. --- Life (Biology). --- Lipid membranes. --- Lipids --- Lipids. --- Lipoproteins --- Lipoproteins. --- Membrane Lipids --- Membrane Proteins --- Membrane lipids --- Membrane lipids. --- Membrane proteins. --- Membranes --- Mental disorders --- Neurotransmitter receptors. --- Peptidoglycans. --- Principal components analysis. --- Protein binding. --- Reactive Oxygen Species. --- Reduction (Chemistry). --- Transformation, Genetic --- Viruses. --- Pathophysiology. --- Physiology. --- Metabolism. --- Ultrastructure. --- Etiology. --- Methods. --- Metabolism --- Disorders. --- Anatomy and histology. --- Bioenergetics --- Energy metabolism --- Energy Metabolism --- Biochemistry --- Microbial respiration --- Energy balance (Biology) --- Energy budget (Biology) --- Energy dynamics (Ecology) --- Energy utilization (Biology) --- Energy budget (Geophysics) --- Biological chemistry --- Chemical composition of organisms --- Organisms --- Physiological chemistry --- Biology --- Chemistry --- Medical sciences --- anatomy & histology --- Composition --- 547.96 --- 547.96 Proteins --- Proteins --- 577.23 --- 577.23 Energy bases of life. Molecular bioenergetics --- Energy bases of life. Molecular bioenergetics --- Permeability
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