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Comprehensive coverage of radical reactive intermediates in nucleic acid chemistry and biochemistry The Wiley Series on Reactive Intermediates in Chemistry and Biology investigates reactive intermediates from the broadest possible range of disciplines. The contributions in each volume offer readers fresh insights into the latest findings, emerging applications, and ongoing research in the field from a diverse perspective. The chemistry and biochemistry of reactive intermediates is central to organic chemistry and biochemistry, and underlies a significant portion of modern synthetic chemistry.…mehr
Comprehensive coverage of radical reactive intermediates in nucleic acid chemistry and biochemistry The Wiley Series on Reactive Intermediates in Chemistry and Biology investigates reactive intermediates from the broadest possible range of disciplines. The contributions in each volume offer readers fresh insights into the latest findings, emerging applications, and ongoing research in the field from a diverse perspective. The chemistry and biochemistry of reactive intermediates is central to organic chemistry and biochemistry, and underlies a significant portion of modern synthetic chemistry. Radical and Radical Ion Reactivity in Nucleic Acid Chemistry provides the only comprehensive review of the chemistry and biochemistry of nucleic acid radical intermediates. With contributions by world leaders in the field, the text covers a broad range of topics, including: * A discussion of the relevant theory * Ionization of DNA * Nucleic acid sugar radicals * Halopyrimidines * Oxidative, reductive, and low energy electron transfer * Electron affinity sensitizers * Photochemical generative of reactive oxygen species * Reactive nitrogen species * Enediyne rearrangements * Phenoxyl radicals A unique compilation on the cutting edge of our understanding, Radical and Radical Ion Reactivity in Nucleic Acid Chemistry provides an unparalleled resource to student and professional researchers in such fields as organic chemistry, biochemistry, molecular biology, and physical chemistry, as well as the industries associated with these disciplines.
Marc M. Greenberg is a Professor of Chemistry and Director of the Chemistry Biology Interface Graduate Training Program at Johns Hopkins University. His research uses chemistry, biochemistry, and biology to fundamentally understand how DNA is oxidatively damaged, and what the effects of that damage are. Steven E. Rokita, PhD, is Professor in the Department of Chemistry and Biochemistry at the University of Maryland. His research interests lie in sequence and conformation specific reactions of nucleic acids, enzyme-mediated activation of substrates and coenzymes, halogenation and dehalogenation reactions in biology, aromatic substitution and quinone methide generation in bioorganic chemistry, and copper- and nickel-mediated reactions in bioinorganic chemistry.
Inhaltsangabe
Preface to Series vii Introduction ix Contributors xi 1. Theoretical Modeling of Radiation-Induced DNA Damage 1 Anil Kumar and Michael D. Sevilla 2. Radical Reaction Pathways Initiated by Direct Energy Deposition in DNA by Ionizing Radiation 41 William A. Bernhard 3. Chemical Reactions of the Radical Cations of Nucleobases in Isolated and Cellular DNA. Formation of Single-Base Lesions 69 Jean Cadet, Thierry Douki, Didier Gasparutto, Jean-Luc Ravanat, and J. Richard Wagner 4. Reactivity of Nucleic Acid Sugar Radicals 99 Chryssostomos Chatgilialoglu 5. Pyrimidine Nucleobase Radical Reactivity 135 Marc M. Greenberg 6. Reactivity of 5-Halopyrimidines in Nucleic Acids 163 Ryu Tashiro and Hiroshi Sugiyama 7. Kinetics of Long-Range Oxidative Electron Transfer Through DNA 191 Kiyohiko Kawai and Tetsuro Majima 8. Radical Intermediates During Reductive Electron Transfer Through DNA 211 Reji Varghese and Hans-Achim Wagenknecht 9. Low-Energy Electron Interaction with DNA: Bond Dissociation and Formation of Transient Anions, Radicals, and Radical Anions 239 Leon Sanche 10. Electronic-Affinic Radiosensitizers 295 Peter Wardman 11. Reactions of Reactive Nitrogen Species and Carbonate Radical Anions with DNA 325 Vladimir Shafirovich, Conor Crean, and Nicholas E. Geacintov 12. Principles and Applications of Electrochemical Oxidation of Nucleic Acids 357 H. Holden Thorp and Julie M. Sullivan 13. DNA Damage Due to Diradical-Generating Cyclizations 389 Sean M. Kerwin 14. DNA Damage by Phenoxyl Radicals 421 Richard A. Manderville Index 445
Preface to Series. Introduction. Contributors. 1. Theoretical Modeling of Radiation-Induced DNA Damage (Anil Kumar and Michael D. Sevilla). 2. Radical Reaction Pathways Initiated by Direct Energy Deposition in DNA by Ionizing Radiation (William A. Bernhard). 3. Chemical Reactions of the Radical Cations of Nucleobases in Isolated and Cellular DNA. Formation of Single-Base Lesions (Jean Cadet, Thierry Douki, Didier Gasparutto, Jean-Luc Ravanat, and J. Richard Wagner). 4. Reactivity of Nucleic Acid Sugar Radicals (Chryssostomos Chatgilialoglu). 5. Pyrimidine Nucleobase Radical Reactivity (Marc M. Greenberg). 6. Reactivity of 5-Halopyrimidines in Nucleic Acids (Ryu Tashiro and Hiroshi Sugiyama). 7. Kinetics of Long-Range Oxidative Electron Transfer Through DNA (Kiyohiko Kawai and Tetsuro Majima). 8. Radical Intermediates During Reductive Electron Transfer Through DNA (Reji Varghese and Hans-Achim Wagenknecht). 9. Low-Energy Electron Interaction with DNA: Bond Dissociation and Formation of Transient Anions, Radicals, and Radical Anions (Léon Sanche). 10. Electronic-Affinic Radiosensitizers (Peter Wardman). 11. Reactions of Reactive Nitrogen Species and Carbonate Radical Anions with DNA (Vladimir Shafirovich, Conor Crean, and Nicholas E. Geacintov). 12. Principles and Applications of Electrochemical Oxidation of Nucleic Acids (H. Holden Thorp and Julie M. Sullivan). 13. DNA Damage Due to Diradical-Generating Cyclizations (Sean M. Kerwin). 14. DNA Damage by Phenoxyl Radicals (Richard A. Manderville). Index.
Preface to Series vii Introduction ix Contributors xi 1. Theoretical Modeling of Radiation-Induced DNA Damage 1 Anil Kumar and Michael D. Sevilla 2. Radical Reaction Pathways Initiated by Direct Energy Deposition in DNA by Ionizing Radiation 41 William A. Bernhard 3. Chemical Reactions of the Radical Cations of Nucleobases in Isolated and Cellular DNA. Formation of Single-Base Lesions 69 Jean Cadet, Thierry Douki, Didier Gasparutto, Jean-Luc Ravanat, and J. Richard Wagner 4. Reactivity of Nucleic Acid Sugar Radicals 99 Chryssostomos Chatgilialoglu 5. Pyrimidine Nucleobase Radical Reactivity 135 Marc M. Greenberg 6. Reactivity of 5-Halopyrimidines in Nucleic Acids 163 Ryu Tashiro and Hiroshi Sugiyama 7. Kinetics of Long-Range Oxidative Electron Transfer Through DNA 191 Kiyohiko Kawai and Tetsuro Majima 8. Radical Intermediates During Reductive Electron Transfer Through DNA 211 Reji Varghese and Hans-Achim Wagenknecht 9. Low-Energy Electron Interaction with DNA: Bond Dissociation and Formation of Transient Anions, Radicals, and Radical Anions 239 Leon Sanche 10. Electronic-Affinic Radiosensitizers 295 Peter Wardman 11. Reactions of Reactive Nitrogen Species and Carbonate Radical Anions with DNA 325 Vladimir Shafirovich, Conor Crean, and Nicholas E. Geacintov 12. Principles and Applications of Electrochemical Oxidation of Nucleic Acids 357 H. Holden Thorp and Julie M. Sullivan 13. DNA Damage Due to Diradical-Generating Cyclizations 389 Sean M. Kerwin 14. DNA Damage by Phenoxyl Radicals 421 Richard A. Manderville Index 445
Preface to Series. Introduction. Contributors. 1. Theoretical Modeling of Radiation-Induced DNA Damage (Anil Kumar and Michael D. Sevilla). 2. Radical Reaction Pathways Initiated by Direct Energy Deposition in DNA by Ionizing Radiation (William A. Bernhard). 3. Chemical Reactions of the Radical Cations of Nucleobases in Isolated and Cellular DNA. Formation of Single-Base Lesions (Jean Cadet, Thierry Douki, Didier Gasparutto, Jean-Luc Ravanat, and J. Richard Wagner). 4. Reactivity of Nucleic Acid Sugar Radicals (Chryssostomos Chatgilialoglu). 5. Pyrimidine Nucleobase Radical Reactivity (Marc M. Greenberg). 6. Reactivity of 5-Halopyrimidines in Nucleic Acids (Ryu Tashiro and Hiroshi Sugiyama). 7. Kinetics of Long-Range Oxidative Electron Transfer Through DNA (Kiyohiko Kawai and Tetsuro Majima). 8. Radical Intermediates During Reductive Electron Transfer Through DNA (Reji Varghese and Hans-Achim Wagenknecht). 9. Low-Energy Electron Interaction with DNA: Bond Dissociation and Formation of Transient Anions, Radicals, and Radical Anions (Léon Sanche). 10. Electronic-Affinic Radiosensitizers (Peter Wardman). 11. Reactions of Reactive Nitrogen Species and Carbonate Radical Anions with DNA (Vladimir Shafirovich, Conor Crean, and Nicholas E. Geacintov). 12. Principles and Applications of Electrochemical Oxidation of Nucleic Acids (H. Holden Thorp and Julie M. Sullivan). 13. DNA Damage Due to Diradical-Generating Cyclizations (Sean M. Kerwin). 14. DNA Damage by Phenoxyl Radicals (Richard A. Manderville). Index.
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