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catalog contributor b9562886.
catalog created "1993.".
catalog date "1993".
catalog date "1993.".
catalog dateCopyrighted "1993.".
catalog description "Ch. 1. Introduction -- Enzymes as Biological Catalysts. A. The Discovery of Enzymes and the Development of Enzymology. B. Life, Energy, and Coupled Reactions. C. Enzymes as Catalysts. D. The Active Site. E. Three-Point Attachment. F. The Flexible Enzyme-Induced Fit Hypothesis. G. Factors Responsible for the Catalytic Efficiency of Enzymes. H. Enzyme Kinetics -- Ch. 2. Kinetics of Unireactant Enzymes. A. The Henri Equation and the Michaelis-Menten Equation. B. General Rules for Writing Velocity Equations for Rapid Equilibrium Systems. C. The Van Slyke Equation. D. The Briggs-Haldane Steady-State Approach. E. Reversible Reactions -- Effect of Product on Forward Velocity. F. Haldane Relationship Between Kinetic Constants and the Equilibrium Constant. G. Specific (or Relative or Reduced) Substrate Concentration and Velocity. H. Velocity Versus Substrate Concentration Curve. I. Reaction Order. J. Graphical Determination of K[subscript m] and V[subscript max].".
catalog description "Includes bibliographies and index.".
catalog extent "xxii, 957 p. :".
catalog identifier "0471303097".
catalog issued "1993".
catalog issued "1993.".
catalog language "eng".
catalog publisher "New York : Wiley,".
catalog subject "Enzyme kinetics.".
catalog subject "Enzymes kinetics.".
catalog subject "Kinetics.".
catalog subject "QP 601".
catalog subject "QP601 .S45 1993".
catalog tableOfContents "Ch. 1. Introduction -- Enzymes as Biological Catalysts. A. The Discovery of Enzymes and the Development of Enzymology. B. Life, Energy, and Coupled Reactions. C. Enzymes as Catalysts. D. The Active Site. E. Three-Point Attachment. F. The Flexible Enzyme-Induced Fit Hypothesis. G. Factors Responsible for the Catalytic Efficiency of Enzymes. H. Enzyme Kinetics -- Ch. 2. Kinetics of Unireactant Enzymes. A. The Henri Equation and the Michaelis-Menten Equation. B. General Rules for Writing Velocity Equations for Rapid Equilibrium Systems. C. The Van Slyke Equation. D. The Briggs-Haldane Steady-State Approach. E. Reversible Reactions -- Effect of Product on Forward Velocity. F. Haldane Relationship Between Kinetic Constants and the Equilibrium Constant. G. Specific (or Relative or Reduced) Substrate Concentration and Velocity. H. Velocity Versus Substrate Concentration Curve. I. Reaction Order. J. Graphical Determination of K[subscript m] and V[subscript max].".
catalog title "Enzyme kinetics : behavior and analysis of rapid equilibrium and steady state enzyme systems / Irwin H. Segel.".
catalog type "text".