Enzyme Mechanism from Isotope Effects

Enzyme Mechanism from Isotope Effects

by Paul F. Cook, Cook F. Cook
     
 

Isotope effects have become one of the most powerful tools available to the enzymologist for probing enzymic mechanisms. Enzyme Mechanism from Isotope Effects presents the basic theory underlying isotope effects, including the latest findings on proton tunneling and coupled atomic notions. Specific theoretical applications are emphasized in regard to the types of

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Overview

Isotope effects have become one of the most powerful tools available to the enzymologist for probing enzymic mechanisms. Enzyme Mechanism from Isotope Effects presents the basic theory underlying isotope effects, including the latest findings on proton tunneling and coupled atomic notions. Specific theoretical applications are emphasized in regard to the types of information that can be obtained using isotope effects. The book also examines recent theoretical treatments of the product dependence of deuterium isotope effects, multiple isotope effects and isotope effects on intermediate partitioning. Other topics include a complete discussion of methods for measuring isotope effects, including a detailed description of the use of the isotope ratio mass spectrometer to obtain isotope effects, and a review of the literature regarding mechanistic information obtained from isotope effects for individual classes of enzyme-catalyzed reactions. Enzyme Mechanism from Isotope Effects is an excellent reference source for investigators using isotope effects in their research. The book is also valuable for reference libraries and instructors teaching courses in enzyme mechanism.

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Product Details

ISBN-13:
9780849353123
Publisher:
Taylor & Francis
Publication date:
09/20/1991
Pages:
432
Product dimensions:
0.70(w) x 1.00(h) x 1.30(d)

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Table of Contents

THEORETICAL BASIS FOR ISOTOPE EFFECTS. Theoretical Basis for Primary and Secondary Hydrogen Isotope Effects. Origins and Interpretations of Heavy-Atom Isotope Effects. Theoretical Basis and Mechanistic Utility of Solvent Isotope Effects. Hydrogen Tunneling and Coupled Motion in Enzyme Reactions. ISOTOPE EFFECTS IN ENZYME-CATALYZED REACTIONS. Isotope Effects on the Transient Kinetics of Enzyme Reactions. Instrinsic Isotope Effects in Enzyme-Catalyzed Reactions. Kinetic and Regulatory Mechanisms of Enzymes from Isotope Effects. pH Dependence of Isotope Effects in Enzyme-Catalyzed Reactions. Multiple Isotope Effects in Enzyme-Catalyzed Reactions. METHODS FOR THE DETERMINATION OF ISOTOPE EFFECTS (LIMITED APPLICATIONS). Methods for the Determination of Competitive and Noncompetitive Kinetic Isotope Effects. Heavy Atom Isotope Effects Using the Isotope Ratio Mass Spectrometer. Use of the Stable Isotope Remote Label Technique to Determine Isotope Effects in Enzyme-Catalyzed Reactions. Measuring the Gram-Atom Percent of Deuterium in Heavy Water by Absorption Spectroscopy. ISOTOPE EFFECTS IN SPECIFIC ENZYMIC REACTIONS. Isotope Effects on Enzyme-Catalyzed Redox Reactions. Kinetic Isotope Effects for Hydrolase Reactions. Isotope Effects on Enzyme Catalyzed b-Eliminations. Isotope Effects in Enzyme-Catalyzed Group Transfer Reactions. Triosephosphate Isomerase and Proline Racemase: Revelation of Reaction Energetics. Isotope Effects in Reactions Catalyzed by Thymidylate Synthase.

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