Index for
"Quantum Tunnelling in Enzyme Catalyzed Reactions"
Preface:
Nigel
S. Scrutton & Rudolf K. Allemann
Introduction:
Rudolph A. Marcus, California
Institute of
Technology
Beyond the
Historical Perspective on Hydrogen and Electron Transfers
Chapter 1: Barry
K. Carpenter, Cardiff
University
The Transition
State Theory Description of Enzyme Catalysis for Classically
Activated Reactions
Chapter 2: Sam
P. de Visser, University
of Manchester
Introduction
to Quantum Behaviour – A Primer
Chapter 3:
Agnieszka Dybala-Defratyka,
Piotr Paneth & Donald G. Truhlar, University of Minnesota
Quantum
Catalysis in Enzymes
Chapter 4:
Sharon
Hammes-Schiffer, The
Pennsylvania State University
Selected Theoretical Models and Computational Methods for Enzymatic
Tunnelling
Chapter 5:
Jiali Gao, Kin-Yiu Wong, Dan
T. Major, Alessandro
Cembran, Lingchun Song, Yen-lin Lin, Yao Fan & Shuhua Ma, University of Minnesota
Kinetic
Isotope Effects from Hybrid Classical and Quantum Path Integral
Computations
Chapter 6:
Judith P.
Klinman, University of
California,
Berkeley
Beyond
Tunnelling Corrections: Full Tunnelling Models for Enzymatic C-H
Activation Reactions
Chapter 7:
Arundhuti Sen &
Amnon Kohen, The
University of Iowa
Quantum Effects in Enzyme Kinetics
Chapter
8: E.
Joel Loveridge &
Rudolf K. Allemann, Cardiff
University
Direct Methods for the Analysis of Quantum-Mechanical Tunnelling:
Dihydrofolate Reductase
Chapter 9: Sam
Hay, Michael J. Sutcliffe & Nigel S. Scrutton,
University of Manchester
Probing Coupled Motions in Enzymatic Hydrogen Tunnelling Reactions:
Beyond Temperature-Dependence Studies of Kinetic Isotope Effects
Chapter 10: Jaiyun
Pang, Nigel S. Scrutton & Michael J. Sutcliffe,
University of Manchester
Computational Simulations of Tunnelling Reactions in Enzymes
Chapter 11: Hanbin
Liu & Arieh Warshel,
University of Southern California, Los Angeles
Tunnelling does not Contribute Significantly to Enzyme Catalysis, but
Studying Temperature Dependence of Isotope Effects is Useful
Chapter 12: David
Leys,
University of Manchester
The Use of X-ray Crystallography to Study Enzymic H-Tunnelling
Chapter 13: Richard
L. Schowen,
University of Kansas
The Strengths and Weaknesses of Model Reactions for the Assessment of
Tunnelling in Enzymic Reactions
Chapter 14: Alexei
A. Stuchebrukhov,
University of California, Davis
Long-Distance Electron Tunnelling in Proteins
Chapter 15: Steven
Y. Reece & Daniel G. Nocera,
Massachusetts Institute of Technology
Proton-Coupled Electron Transfer: The Engine That Drives Radical
Transport and Catalysis in Biology