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Quantum biochemistry --- Biogenesis. --- Evolution, Molecular. --- Quantum Theory. --- Quantum biochemistry. --- Biogenesis --- Quantum Theory --- Evolution, Molecular --- Biochimie quantique --- 575.3 --- 575.3 Molecular genetics --- Molecular genetics --- Quantum theory.
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Quantum pharmacology --- 615 --- 530.145 --- #WSCH:AAS2 --- Pharmacology --- Quantum biochemistry --- Farmacologie. Farmaceutische wetenschappen --- Quantum theory --- Quantum pharmacology. --- 530.145 Quantum theory
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Biomolecules --- Electron donor-acceptor complexes --- Biomolécules --- Complexes donneur-accepteur d'électrons --- 577.33 --- Charge transfer complexes --- Complexes, Charge transfer --- Complexes, Electron donor-acceptor --- Charge transfer --- Complex compounds --- Electrons --- Impurity centers --- Biological molecules --- Molecules --- Molecular biology --- Quantum biochemistry. Quantum phenomena in biological systems --- Biomolecules. --- Electron donor-acceptor complexes. --- 577.33 Quantum biochemistry. Quantum phenomena in biological systems --- Biomolécules --- Complexes donneur-accepteur d'électrons
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Biochemistry --- Quantum chemistry --- Biochimie --- Chimie quantique --- 577.33 --- Chemistry, Quantum --- Chemistry, Physical and theoretical --- Quantum theory --- Excited state chemistry --- Biological chemistry --- Chemical composition of organisms --- Organisms --- Physiological chemistry --- Biology --- Chemistry --- Medical sciences --- 577.33 Quantum biochemistry. Quantum phenomena in biological systems --- Quantum biochemistry. Quantum phenomena in biological systems --- Composition
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As we enter the quantum era, new research on applying the rules of quantum physics to biology, which was previously considered impossible, has revolutionized our understanding and our concept of molecular and atomic particles behavior and their interactions. This book is the first comprehensive review of the quantum biology of the visual system. Chapters discuss the relevance of quantum physics to the biological systems, especially in the visual system. The main purpose of this book is to simplify quantum biology concepts relevant to physiology of human eye and to help the reader understand the essentials of this new emerging, complex and anti-intuitive field of science. It offers a contemporary view of the emerging interplay between the biochemistry, physiology, molecular biology, and molecular and atomic particle quantum characteristics such as vibration, spin etc. Quantum Biology of the Eye is an essential resource for Ophthalmologists, physicians, residents, fellows, all fields of visual science and medical students in ophthalmology, and other converging fields of science such as visual optics biochemists, psychology etc.
Eye --- Quantum biochemistry. --- Anatomy. --- Biochemistry, Quantum --- Biology, Quantum --- Quantum biology --- Biochemistry --- Quantum chemistry --- Ophthalmology. --- Quantum physics. --- Quantum Physics. --- Quantum dynamics --- Quantum mechanics --- Quantum physics --- Physics --- Mechanics --- Thermodynamics --- Medicine --- Diseases --- Molecular aspects.
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Designed to supplement and complement any standard biochemistry text or lecture notes, this book helps provide a balanced picture of modern biochemistry by use of elementary mathematics in understanding properties and behavior of biological molecules. It provides a balanced picture of modern biochemistry by using elementary mathematics to explore the properties and behavior of biological molecules. The text discusses such topics as: Aqueous Solutions and Acid-Base Chemistry Chemistry of Biological Molecules Bioenergetics Enzymes Spectrophotometry and Other Optical Methods Isotopes in Biochemistry.Sample problems are solved completely in a step-by-step manner, and the answer to all practice problems are given at the end of the book. With Biochemical Calculations, 2nd Edition, students will gain confidence in their ability to handle mathematical problems, discovering that biochemistry is more than memorization of structures and pathways.
Biomathematics. Biometry. Biostatistics --- General biochemistry --- Biochemistry --- Mathematics --- Biochimie --- Problems, exercises, etc --- Problèmes et exercices --- 57.087.1 --- 577.33 --- Biometry. Statistical study and treatment of biological data --- Quantum biochemistry. Quantum phenomena in biological systems --- Acids --- Bases --- Energetics --- Inhibitors --- Isotopes --- Kinetics --- Miscellaneous calculations --- Spectrofotometry --- Titrations --- Problems, exercises, etc. --- Acids. --- Bases. --- Energetics. --- Inhibitors. --- Isotopes. --- Kinetics. --- Miscellaneous calculations. --- Spectrofotometry. --- Titrations. --- 577.33 Quantum biochemistry. Quantum phenomena in biological systems --- 57.087.1 Biometry. Statistical study and treatment of biological data --- Problèmes et exercices --- Biochemistry. --- Mathematics. --- Biochemistry - Problems, exercises, etc
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Quantum chemistry --- fysicochemie --- Molecular biology --- Pharmacosynthesis. Pharmacochemistry --- Quantum pharmacology --- Structure-activity relationship (Pharmacology) --- Molecular orbitals --- Chemistry, Pharmaceutical --- Pharmacology --- Congresses --- congresses --- Drugs --- Orbitals, Molecular --- Chemical bonds --- Electrons --- Molecules --- Overlap integral --- Valence (Theoretical chemistry) --- Wave mechanics --- Quantum biochemistry --- Structure-activity relationships --- Congresses. --- congresses.
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A quantitative description of the action of enzymes and other biological systems is both a challenge and a fundamental requirement for further progress in our und- standing of biochemical processes. This can help in practical design of new drugs and in the development of artificial enzymes as well as in fundamental understanding of the factors that control the activity of biological systems. Structural and biochemical st- ies have yielded major insights about the action of biological molecules and the mechanism of enzymatic reactions. However it is not entirely clear how to use this - portant information in a consistent and quantitative analysis of the factors that are - sponsible for rate acceleration in enzyme active sites. The problem is associated with the fact that reaction rates are determined by energetics (i. e. activation energies) and the available experimental methods by themselves cannot provide a correlation - tween structure and energy. Even mutations of specific active site residues, which are extremely useful, cannot tell us about the totality of the interaction between the active site and the substrate. In fact, short of inventing experiments that allow one to measure the forces in enzyme active sites it is hard to see how can one use a direct experimental approach to unambiguously correlate the structure and function of enzymes. In fact, in view of the complexity of biological systems it seems that only computers can handle the task of providing a quantitative structure-function correlation.
Biochemistry --- Enzyme kinetics. --- Quantum biochemistry. --- Ligand binding (Biochemistry) --- Mathematical models. --- Biochemistry. --- Chemistry, Physical organic. --- Chemistry. --- Biochemistry, general. --- Physical Chemistry. --- Computer Applications in Chemistry. --- Biological and Medical Physics, Biophysics. --- Physical chemistry. --- Chemoinformatics. --- Biophysics. --- Biological physics. --- Biological physics --- Biology --- Medical sciences --- Physics --- Chemical informatics --- Chemiinformatics --- Chemoinformatics --- Chemistry informatics --- Chemistry --- Information science --- Computational chemistry --- Chemistry, Theoretical --- Physical chemistry --- Theoretical chemistry --- Biological chemistry --- Chemical composition of organisms --- Organisms --- Physiological chemistry --- Data processing --- Composition --- Binding, Ligand (Biochemistry) --- Dye-ligand affinity chromatography --- Radioligand assay --- Biochemistry, Quantum --- Biology, Quantum --- Quantum biology --- Quantum chemistry --- Dynamics, Enzyme --- Enzyme dynamics --- Enzymes --- Kinetics, Enzyme --- Chemical kinetics --- Kinetics
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Quantum chemistry --- Molecular biology --- Chimie quantique --- Biologie moléculaire --- Methodology --- Methodology. --- Méthodologie --- Molecular Biology --- Molecular Structure. --- Quantum Theory. --- Spectrum Analysis --- methods. --- Electronic books. -- local. --- Molecular biology -- Methodology. --- Quantum chemistry -- Methodology. --- Physicochemical Phenomena --- Genetics --- Chemical Phenomena --- Chemistry Techniques, Analytical --- Biochemical Phenomena --- Nuclear Physics --- Biochemistry --- Chemistry --- Biological Science Disciplines --- Phenomena and Processes --- Biology --- Physics --- Investigative Techniques --- Analytical, Diagnostic and Therapeutic Techniques and Equipment --- Natural Science Disciplines --- Disciplines and Occupations --- Molecular Structure --- Quantum Theory --- Physical Sciences & Mathematics --- Chemistry - General --- Physical & Theoretical Chemistry --- 577.354.3 --- Chemoreception --- 577.33 --- Quantum biochemistry. Quantum phenomena in biological systems --- 577.354.3 Chemoreception --- 577.33 Quantum biochemistry. Quantum phenomena in biological systems --- Chemistry, Quantum --- Chemistry. --- Analytical chemistry. --- Chemistry, Physical and theoretical. --- Biochemistry. --- Theoretical and Computational Chemistry. --- Analytical Chemistry. --- Biochemistry, general. --- Chemistry, Physical and theoretical --- Quantum theory --- Excited state chemistry --- Analytical biochemistry. --- Physical sciences --- Biological chemistry --- Chemical composition of organisms --- Organisms --- Physiological chemistry --- Medical sciences --- Analytic biochemistry --- Chemistry, Analytic --- Composition --- Bioanalytic chemistry --- Bioanalytical chemistry --- Analytical chemistry --- Chemistry, Theoretical --- Physical chemistry --- Theoretical chemistry --- Analysis, Chemical --- Analytic chemistry --- Chemical analysis --- Chemistry, Organic. --- Organic chemistry --- Molecular Biology - methods. --- Spectrum Analysis - methods. --- Quantum chemistry - Methodology. --- Molecular biology - Methodology.
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