Contemporary Enzyme Kinetics and Mechanism: Selected Methods in Enzymology: Selected Methods in Enzymology
Daniel L. Purichen Limba Engleză Paperback – 20 aug 1996
- Transient kinetic approaches to enzyme mechanisms
- Designing initial rate enzyme assay
- Deriving initial velocity and isotope exchange rate equations
- Plotting and statistical methods for analyzing rate data
- Cooperativity in enzyme function
- Reversible enzyme inhibitors as mechanistic probes
- Transition-state and multisubstrate inhibitors
- Affinity labeling to probe enzyme structure and function
- Mechanism-based enzyme inactivators
- Isotope exchange methods for elucidating enzymatic catalysis
- Kinetic isotope effects in enzyme catalysis
- Site-directed mutagenesis in studies of enzyme catalysis
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Specificații
ISBN-13: 9780125680523
ISBN-10: 012568052X
Pagini: 541
Dimensiuni: 152 x 229 mm
Ediția:2
Editura: ELSEVIER SCIENCE
Seria Selected Methods in Enzymology
ISBN-10: 012568052X
Pagini: 541
Dimensiuni: 152 x 229 mm
Ediția:2
Editura: ELSEVIER SCIENCE
Seria Selected Methods in Enzymology
Public țintă
Students and professionals in biochemistry, biophysics, molecular biology, pharmacology, and pharmaceutical chemistry.Cuprins
C.A. Fierke and G.G. Hammes, Transient Kinetic Approaches to Enzyme Mechanisms.
R.D. Allison and D.L. Purich, Practical Considerations in the Design of Initial Velocity Enzyme Assays.
C.Y. Huang, Derivation ofInitial Velocity and Isotope Exchange Rate Equations.
F.B. Rudolph and H.J. Fromm, Plotting Methods for Analyzing Enzyme Rate Data.
B. Mannervik, Regression Analysis, Experimental Error, and Statistical Criteria in the Design and Analysis of Experiments for Discrimination between Rival Kinetic Models.
K.E. Neet, Cooperactivity in Enzyme Function: Equilibrium and Kinetic Aspects.
B.F. Cooper and F.B. Rudolph, Product Inhibition Applications.
H.J. Fromm, Reversible Enzyme Inhibitors as Mechanistic Probes.
A. Radzicka and R. Wolfenden, Transition State and Multisubstrate Analog Inhibitors.
B.V. Plapp, Application of Affinity Labeling for Studying Structure and Function of Enzymes.
R.B. Silverman, Mechanism-Based Enzyme Inactivators.
D.L. Purich and R.D. Allison, Isotope Exchange Methods for Elucidating Enzymic Catalysis.
L.S. Mullins and F.M. Raushel, Positional Isotope Exchange as a Probe of Enzyme Action.
W.W. Cleland, Isotope Effects: Determination of Enzyme Transition State Structure.
B.J. Bahnson and J.P. Klinman, Hydrogen Tunneling in Enzyme Catalysis.
B.V. Plapp, Site-Directed Mutagenesis: A Tool for Studying Enzyme Catalysis.
D.L. Purich, Selected Exercises and Problems in Modern Enzyme Dynamics.
R.D. Allison and D.L. Purich, Practical Considerations in the Design of Initial Velocity Enzyme Assays.
C.Y. Huang, Derivation ofInitial Velocity and Isotope Exchange Rate Equations.
F.B. Rudolph and H.J. Fromm, Plotting Methods for Analyzing Enzyme Rate Data.
B. Mannervik, Regression Analysis, Experimental Error, and Statistical Criteria in the Design and Analysis of Experiments for Discrimination between Rival Kinetic Models.
K.E. Neet, Cooperactivity in Enzyme Function: Equilibrium and Kinetic Aspects.
B.F. Cooper and F.B. Rudolph, Product Inhibition Applications.
H.J. Fromm, Reversible Enzyme Inhibitors as Mechanistic Probes.
A. Radzicka and R. Wolfenden, Transition State and Multisubstrate Analog Inhibitors.
B.V. Plapp, Application of Affinity Labeling for Studying Structure and Function of Enzymes.
R.B. Silverman, Mechanism-Based Enzyme Inactivators.
D.L. Purich and R.D. Allison, Isotope Exchange Methods for Elucidating Enzymic Catalysis.
L.S. Mullins and F.M. Raushel, Positional Isotope Exchange as a Probe of Enzyme Action.
W.W. Cleland, Isotope Effects: Determination of Enzyme Transition State Structure.
B.J. Bahnson and J.P. Klinman, Hydrogen Tunneling in Enzyme Catalysis.
B.V. Plapp, Site-Directed Mutagenesis: A Tool for Studying Enzyme Catalysis.
D.L. Purich, Selected Exercises and Problems in Modern Enzyme Dynamics.