List of Contributors
Preface
Contents of Volume II
Chapter 1 Introductory Concepts for Photochemistry of Nucleic Acids
A. Introduction
B. Basic Aspects of Photochemistry
References
Chapter 2 Excited States of the Nucleic Acids: Bases, Mononucleosides, and Mononucleotides
A. Introduction
B. Electronic Transitions from Ground State
C. Properties of Excited Singlet States
D. Properties of the Triplet States
E. Future Work
References
Chapter 3 Excited States of the Nucleic Acids: Polymeric Forms
A. Dinucleoside Phosphates
B. Oligonucleotides
C. Single-Stranded Polynucleotides
D. Double-Stranded Polynucleotides
E. Polynucleotide Studies at Room Temperature
F. DNA
G. RNA
References
Chapter 4 Pyrimidine Photohydrates
A. Introduction
B. Photohydrate Formation
C. Properties of the Photohydrate
D. Summary
References
Chapter 5 Pyrimidine Photodimers
A. Introduction
B. Photodimerization of Monomers in Solution
C. Dimerization in Solids
D. Dimerization in Oligo- and Polynucleotides
E. Properties of Pyrimidine Photodimers
F. Summary
References
Chapter 6 Pyrimidine Bimolecular Photoproducts
Part A. Photochemistry of 5-Halogenouracil Derivatives
A. 5-Bromo-, 5-Chloro-, and 5-Iodouracil Derivatives
B. 5-Fluorouracil Derivatives
Part B. Bipyrimidine Photoproducts Derived from Pyrimidine Radicals
C. 5,6-Dihydropyrimidine Radicals
D. Thyminyl Radical (Thy?)
E. Bipyrimidine Products
F. Photochemical Mechanisms
Part C. Bipyrimidine Photoadducts
G. Heteroadduct of Thy and Cyt and of Thy and Ura and Related Compounds
H. Homoadduct of Thy and Related Compounds
I. Homoadduct of Ura and Ura Phototrimer
J. Homoadduct of Cyt and Heteroadduct of Cyt and 4-Sra and of Cyt and Ura
K. Properties of Photoadducts
References
Chapter 7 Photoproducts of Purines
A. Introduction
B. Ultraviolet Absorption Spectra of Purines
C. Energy Transfer
D. Photolyses of Purines
E. The Photodynamic Effect
F. Photoreactions of Purines with Alcohols
G. Photoreactions of Purines with Amines
H. Other Photochemical Reactions of Purines
References
Chapter 8 Aggregate Formation, Excited-State Interactions, and Photochemical Reactions in Frozen Aqueous Solutions of Nucleic Acid Constituents
A. Introduction
B. Aggregate Formation in Frozen Aqueous Solutions
C. Excited-State Interactions and Energy Transfer in Aggregates
D. Excited States of Intermolecular Complexes in Frozen Aqueous Solutions
E. Photochemical Reactions of Nucleic Acid Derivatives in Frozen Aqueous Solutions
F. Conclusion
References
Chapter 9 Analysis by Mass Spectrometry of the Photoproducts of Nucleic Acid Bases
A. Molecular Weights and Elemental Compositions
B. Fragmentation Patterns
C. Isotope Studies
D. Mass Spectrometry
References
Chapter 10 Nuclear Magnetic Resonance of Photoproducts
A. Introduction
B. Nuclear Magnetic Resonance
C. Detection of Magnetic Resonance — The Basic NMR Spectrometer
D. Relaxation Times and Relaxation Mechanisms
E. General Features of NMR Spectra
F. Sensitivity of the NMR Method
G. NMR Spectra of Photoproducts and Related Compounds
References
Chapter 11 Crystal and Molecular Structure of Photoproducts from Nucleic Acids
A. Introduction
B. Data Collection
C. Structure Determination
D. Structural Results for Photoproducts
E. Structural Results for Radiation Products
F. Summary
References
Chapter 12 The Radiation Chemistry of Pyrimidines, Purines, and Related Substances
A. Introduction
B. Decomposition of Water by Ionizing Radiations and Effects on Solutes
C. Rates of Reaction with the Primary Species
D. Radiolysis of Aqueous Pyrimidine Solutions
E. Radiolysis of Aqueous Purine Solutions
References
Subject Index