Verfügbarkeit: The chemical biology of DNA damage

The chemical biology of DNA damage:

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Weitere Verfasser:	Geacintov, Nicholas E. (HerausgeberIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Weinheim Wiley-VCH 2010
Schlagworte:	DNS-Schädigung DNS-Reparatur Aufsatzsammlung
Online-Zugang:	Inhaltstext Inhaltsverzeichnis
Beschreibung:	XXII, 449 S. Ill., graph. Darst.
ISBN:	9783527322954

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Datensatz im Suchindex

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adam_text	EDITED BY NICHOLAS E. GEACINTOV AND SUSE BROYDE THE CHEMICAL BIOLOGY OF DNA DAMAGE WILEY- VCH WILEY-VCH VERLAG GMBH & CO. KGAA CONTENTS PREFACE XV LIST OF CONTRIBUTORS XVII PART ONE CHEMISTRY AND BIOLOGY OF DNA LESIONS 1 1 INTRODUCTION AND PERSPECTIVES ON THE CHEMISTRY AND BIOLOGY OF DNA DAMAGE 3 NICHOLAS E. GEACINTOV AND SUSE BROYDE 1.1 OVERVIEW OF THE FIELD 3 1.2 DNA DAMAGE-A CONSTANT THREAT 4 1.3 DNA DAMAGE AND DISEASE 5 1.3.1 THE INFLAMMATORY RESPONSE 5 1.3.2 REACTIVE OXYGEN AND NITROGEN SPECIES 5 1.3.3 EARLY RECOGNITION OF ENVIRONMENTALLY RELATED CANCERS: POLYCYCLIC AROMATIC HYDROCARBONS 6 1.3.4 EXPOSURE TO ENVIRONMENTAL CANCER-CAUSING SUBSTANCES 6 1.3.5 AFLATOXINS 7 1.3.6 ARISTOLOCHIC ACID 7 1.3.7 ESTROGENS 8 1.4 DNA DAMAGE AND CHEMOTHERAPEUTIC APPLICATIONS 8 1.5 THE CELLULAR DNA DAMAGE RESPONSE (DDR) 9 1.6 REPAIR MECHANISMS THAT REMOVE DNA LESIONS 10 1.6.1 REPAIR OF SINGLE-AND DOUBLE-STRAND BREAKS 10 1.6.2 ALKYLATING AGENTS 10 1.6.3 BASE EXCISION REPAIR 11 1.6.4 MISMATCH EXCISION REPAIR 11 1.6.5 NUCLEOTIDE EXCISION REPAIR 11 1.6.6 TRANSLESION BYPASS OF UNREPAIRED LESIONS BY SPECIALIZED DNA POLYMERASES AND RNA POLYMERASES 12 1.7 RELATIONSHIPS BETWEEN THE CHEMICAL, STRUCTURAL, AND BIOLOGICAL FEATURES OF DNA LESIONS 12 ACKNOWLEDGEMENTS 15 REFERENCES 15 THE CHEMICAL BIOLOGY OF DNA DAMAGE. EDITED BY NICHOLAS E. GEACINTOV AND SUSE BROYDE 2010 WILEY-VCH VERLAG GMBH & CO. KGAA, WEINHEIM ISBN: 978-3-527-32295-4 VI CONTENTS 2 CHEMISTRY OF INFLAMMATION AND DNA DAMAGE: BIOLOGICAL IMPACT OF REACTIVE NITROGEN SPECIES 21 MICHAEL S. DEMOTT AND PETER C. DEDON 2.1 INTRODUCTION 21 2.2 DNA OXIDATION AND NITRATION 23 2.2.1 SPECTRUM OF GUANINE OXIDATION PRODUCTS CAUSED BY ONOO~, ONOOCO;, AND NOJ 23 2.2.2 BASE OXIDATION PRODUCTS AS BIOMARKERS OF INFLAMMATION AND OXIDATIVE STRESS 25 2.2.3 CHARGE TRANSFER AS A DETERMINANT OF THE LOCATION OF G OXIDATION PRODUCTS IN DNA 25 2.3 DNA DEAMINATION 26 2.3.1 PROBLEM OF OXANINE 29 2.3.2 ANALYTICAL METHODS AND ARTIFACTS 29 2.4 2'-DEOXYRIBOSE OXIDATION 30 2.4.1 VARIATION OF 2'-DEOXYRIBOSE OXIDATION CHEMISTRY AS A FUNCTION OF THE OXIDANT 34 2.5 INDIRECT BASE DAMAGE CAUSED BY RNS 35 2.5.1 MALONDIALDEHYDE AND RELATED ADDUCTS 37 2.6 CONCLUSIONS 38 ACKNOWLEDGEMENTS 38 REFERENCES 38 3 OXIDATIVELY GENERATED DAMAGE TO ISOLATED AND CELLULAR DNA 53 JEAN CADET, THIERRY DOUKI, AND JEAN-LUC RAVANAT 3.1 INTRODUCTION 53 3.1.1 OVERVIEW AND SUMMARY 53 3.1.2 OVERVIEW OF OXIDATIVELY GENERATED DNA DAMAGE 53 3.2 SINGLE BASE DAMAGE 55 3.2.1 SINGLET OXYGEN OXIDATION OF GUANINE 55 3.2.2 HYDROXYL RADICAL REACTIONS 58 3.2.2.1 THYMINE 58 3.2.2.2 GUANINE 60 3.2.2.3 ADENINE 62 3.2.3 ONE-ELECTRON OXIDATION OF NUCLEOBASES 63 3.2.4 H0C1 ACID-MEDIATED HALOGENATION OF PYRIMIDINE AND PURINE BASES 65 3.3 TANDEM BASE LESIONS 66 3.4 HYDROXYL RADICAL-MEDIATED 2-DEOXYRIBOSE OXIDATION REACTIONS 67 3.4.1 HYDROGEN ABSTRACTION AT C4': FORMATION OF CYTOSINE ADDUCTS 67 3.4.2 HYDROGEN ATOM ABSTRACTION AT C5': FORMATION OF PURINE 5',8-CYCLONUCLEOSIDES 68 3.5 SECONDARY OXIDATION REACTIONS OF BASES 70 3.6 CONCLUSIONS AND PERSPECTIVES 71 ACKNOWLEDGEMENTS 71 REFERENCES 72 CONTENTS VII 4 ROLE OF FREE RADICAL REACTIONS IN THE FORMATION OF DNA DAMAGE 81 VLADIMIR SHAJIROVICH AND NICHOLAS E. GEACINTOV 4.1 INTRODUCTION 81 4.2 IMPORTANCE OF FREE RADICAL REACTIONS WITH DNA 82 4.2.1 FREE RADICAL MECHANISMS: GENERAL CONSIDERATIONS 82 4.2.2 TYPES OF FREE RADICALS AND THEIR REACTIONS WITH NUCLEIC ACIDS 83 4.2.3 METHODS FOR STUDYING FREE RADICAL REACTIONS: LASER FLASH PHOTOLYSIS 84 4.2.4 TYPES OF RADICAL REACTIONS AND KINETICS 85 4.2.5 EXAMPLES OF DNA RADICAL REACTIONS 86 4.2.6 LIFETIMES OF FREE RADICALS AND ENVIRONMENTAL CONSIDERATIONS 88 4.2.7 REACTIONS OF FREE RADICALS 89 4.3 MECHANISMS OF PRODUCT FORMATION 91 4.3.1 REACTIONS OF G(-H)'RADICALS WITH NUCLEOPHILES 91 4.3.2 COMBINATIONS OF G(-H)'AND OXYL RADICALS 93 4.3.3 OXIDATION OF 8-OXOG 97 4.4 BIOLOGICAL IMPLICATIONS 99 ACKNOWLEDGEMENTS 100 REFERENCES 101 5 DNA DAMAGE CAUSED BY ENDOGENOUSLY GENERATED PRODUCTS OF OXIDATIVE STRESS 105 CHARLES G. KNUTSON AND LAWRENCE J. MARNETT 5.1 LIPID PEROXIDATION 105 5.2 2'-DEOXYRIBOSE PEROXIDATION 107 5.3 REACTIONS OF MDA AND FS-SUBSTITUTED ACROLEINS WITH DNA BASES 109 5.4 STABILITY OF M[DG: HYDROLYTIC RING-OPENING AND REACTION WITH NUCLEOPHILES 112 5.5 PROPANO ADDUCTS 114 5.6 ETHENO ADDUCTS 114 5.7 MUTAGENICITY OF PEROXIDATION-DERIVED ADDUCTS 117 5.8 REPAIR OF DNA DAMAGE 121 5.9 ASSESSMENT OF DNA DAMAGE 123 5.10 CONCLUSIONS 126 ACKNOWLEDGEMENTS 126 REFERENCES 126 6 POLYCYCLIC AROMATIC HYDROCARBONS: MULTIPLE METABOLIC PATHWAYS AND THE DNA LESIONS FORMED 131 TREVOR M. PENNING 6.1 INTRODUCTION 131 6.2 RADICAL CATION PATHWAY 134 6.2.1 METABOLIC ACTIVATION OF PAHS 134 6.2.2 RADICAL CATION DNA ADDUCTS 135 6.2.3 LIMITATIONS OF THE RADICAL CATION PATHWAY 136 6.3 DIOL EPOXIDES 137 VIM CONTENTS 6.3.1 METABOLIC ACTIVATION OF PAHS 137 6.3.2 DIOL EPOXIDE-DNA ADDUCTS 138 6.3.3 LIMITATIONS OF THE DIOL EPOXIDE PATHWAY 140 6.4 PAH O-QUINONES 141 6.4.1 METABOLIC ACTIVATION OF PAH TRANS-DIHYDRODIOLS BY AKRS 141 6.4.2 PAH O-QUINONE-DERIVED DNA ADDUCTS 142 6.4.2.1 COVALENT PAH O-QUINONE-DNA ADDUCTS 142 6.4.2.2 OXIDATIVE DNA LESIONS FROM PAH O-QUINONES 144 6.4.3 LIMITATIONS OF THE PAH O-QUINONE PATHWAY 146 6.5 FUTURE DIRECTIONS 147 ACKNOWLEDGEMENTS 148 REFERENCES 148 7 AROMATIC AMINES AND HETEROCYCLIC AROMATIC AMINES: FROM TOBACCO SMOKE TO FOOD MUTAGENS 157 ROBERT J. TURESKY 7.1 INTRODUCTION 157 7.2 EXPOSURE AND CANCER EPIDEMIOLOGY 157 7.3 ENZYMES OF METABOLIC ACTIVATION AND GENETIC POLYMORPHISMS 159 7.4 REACTIVITY OF N-HYDROXY-AAS AND N-HYDROXY-HAAS WITH DNA 161 7.5 SYNTHESES OF AA-DNA AND HAA-DNA ADDUCTS 162 7.6 BIOLOGICAL EFFECTS OF AA-DNA AND HAA-DNA ADDUCTS 162 7.7 BACTERIAL MUTAGENESIS 164 7.8 MAMMALIAN MUTAGENESIS 165 7.9 MUTAGENESIS IN TRANSGENIC RODENTS 166 7.10 GENETIC ALTERATIONS IN ONCOGENES AND TUMOR SUPPRESSOR GENES 167 7.11 AA-DNA AND HAA-DNA ADDUCT FORMATION IN EXPERIMENTAL ANIMALS AND METHODS OF DETECTION 168 7.12 AA-DNA AND HAA-DNA ADDUCT FORMATION IN HUMANS 171 7.13 FUTURE DIRECTIONS 173 ACKNOWLEDGEMENTS 173 REFERENCES 173 8 GENOTOXIC ESTROGEN PATHWAY: ENDOGENOUS AND EQUINE ESTROGEN HORMONE REPLACEMENT THERAPY 185 JUDY L. BOLTON AND GREGORY R.J. THATCHER 8.1 RISKS OF ESTROGEN EXPOSURE 185 8.2 MECHANISMS OF ESTROGEN CARCINOGENESIS 187 8.2.1 HORMONAL MECHANISM 187 8.2.2 CHEMICAL MECHANISM 188 8.2.2.1 OXIDATIVE DNA DAMAGE 188 8.2.2.2 DNA ADDUCTS 189 8.2.2.3 PROTECTION AGAINST DNA DAMAGE 192 8.3 ESTROGEN RECEPTOR AS A TROJAN HORSE (COMBINED HORMONAL/CHEMICAL MECHANISM) 193 CONTENTS IX 8.4 CONCLUSIONS AND FUTURE DIRECTIONS 194 ACKNOWLEDGEMENTS 194 REFERENCES 194 PART TWO NEW FRONTIERS AND CHALLENGES: UNDERSTANDING STRUCTURE- FUNCTION RELATIONSHIPS AND BIOLOGICAL ACTIVITY 201 9 INTERSTRAND DNA CROSS-LINKING 1,N 2 -DEOXYGUANOSINE ADDUCTS DERIVED FROM OC.P'-UNSATURATED ALDEHYDES: STRUCTURE-FUNCTION RELATIONSHIPS 203 MICHAEL P. STONE, HAI HUANG, YOUNG-JIN CHO, HYE-YOUNG KIM, IVAN D. KOZEKOV, ALBENA KOZEKOVA, HAO WANG, IRINA G. MINKO, R. STEPHEN LLOYD, THOMAS M. HARRIS, AND CARMELOJ. RIZZO 9.1 INTRODUCTION 203 9.2 INTERSTRAND CROSS-LINKING CHEMISTRY OF THE Y-OH-PDG ADDUCT (9) 205 9.3 INTERSTRAND CROSS-LINKING BY THE A-CH 3 -Y-OH-PDG ADDUCTS DERIVED FROM CROTONALDEHYDE 207 9.4 INTERSTRAND CROSS-LINKING BY 4-HNE 207 9.5 CARBINOLAMINE CROSS-LINKS MAINTAIN WATSON-CRICK BASE-PAIRING 209 9.6 ROLE OF DNA SEQUENCE 210 9.7 ROLE OF STEREOCHEMISTRY IN MODULATING CROSS-LINKING 210 9.8 BIOLOGICAL SIGNIFICANCE 212 9.9 CONCLUSIONS 213 ACKNOWLEDGEMENTS 213 REFERENCES 213 10 STRUCTURE-FUNCTION CHARACTERISTICS OF AROMATIC AMINE-DNA ADDUCTS 217 BONGSUP CHO 10.1 INTRODUCTION 217 10.2 MAJOR CONFORMATIONAL MOTIFS 219 10.2.1 FULLY COMPLEMENTARY DNA DUPLEXES 219 10.2.2 OTHER SEQUENCE CONTEXTS 220 10.3 CONFORMATIONAL HETEROGENEITY 221 10.3.1 SEQUENCE EFFECTS ON THE S/B CONFORMATIONAL HETEROGENEITY 222 10.3.2 CONFORMATIONAL DYNAMICS OF THE S/B HETEROGENEITY 224 10.3.3 BASE SEQUENCE CONTEXT AND MUTAGENESIS 224 10.3.4 DEPENDENCE OF NUCLEOTIDE EXCISION REPAIR BY E. COLI UVRABC PROTEINS ON ADDUCT CONFORMATION 225 10.3.5 CONFORMATIONAL HETEROGENEITY IN TRANSLESION SYNTHESIS 227 10.3.6 SEQUENCE EFFECTS ON THE CONFORMATIONAL STABILITY OF SMIS 230 10.4 STRUCTURES OF DNA LESION-DNA POLYMERASE COMPLEXES 231 10.5 CONCLUSIONS 232 ACKNOWLEDGEMENTS 233 REFERENCES 233 X CONTENTS 11 MECHANISMS OF BASE EXCISION REPAIR AND NUCLEOTIDE EXCISION REPAIR 239 ORLANDO D. SCHDRER AND ARTHUR J. CAMPBELL 11.1 GENERAL FEATURES OF BASE EXCISION AND NUCLEOTIDE EXCISION REPAIR 239 11.2 BER 241 11.2.1 BER OVERVIEW-SHORT-PATCH AND LONG-PATCH BER 241 11.2.2 LESION RECOGNITION BY DNA GLYCOSYLASES 242 11.2.3 PASSING THE BATON-ABASIC SITE REMOVAL AND REPAIR 247 11.3 NER 248 11.3.1 SUBPATHWAYS OF NER: GLOBAL GENOME AND TRANSCRIPTION-COUPLED NER 248 11.3.2 DAMAGE RECOGNITION IN GG-NER 248 11.3.3 DAMAGE VERIFICATION AND LESION DEMARCATION IN NER 251 11.3.4 DUAL-INCISION AND REPAIR SYNTHESIS IN NER 252 11.3.5 DAMAGE RECOGNITION IN TC-NER 252 11.4 CONCLUSIONS 254 REFERENCES 254 12 RECOGNITION AND REMOVAL OF BULKY DNA LESIONS BY THE NUCLEOTIDE EXCISION REPAIR SYSTEM 261 YUQIN CAI, KONSTANTIN KROPACHEV, MARINA KOLBANOVSKIY, ALEXANDER KOLBANOVSKIY, SUSE BROYDE, DINSHAW J. PATEL, AND NICHOLAS E. GEACINTOV 12.1 INTRODUCTION 261 12.2 OVERVIEW OF MAMMALIAN NER 263 12.3 PROKARYOTIC NER 263 12.4 RECOGNITION OF BULKY LESIONS BY MAMMALIAN NER FACTORS 263 12.5 BIPARTITE MODEL OF MAMMALIAN NER AND THE MULTIPARTITE MODEL OF LESION RECOGNITION 264 12.6 DNA LESIONS DERIVED FROM THE REACTIONS OF PAH DIOL EPOXIDES WITH DNA ARE EXCELLENT SUBSTRATES FOR PROBING THE MECHANISMS OF NER 265 12.7 MULTIDISCIPLINARY APPROACH TOWARDS INVESTIGATING STRUCTURE-FUNCTION RELATIONSHIPS IN THE NER OF BULKY PAH-DNA ADDUCTS 268 12.8 DEPENDENCE OF DNA ADDUCT CONFORMATIONS AND NER ON PAH TOPOLOGY AND STEREOCHEMISTRY 269 12.8.1 GUANINE B[A]P ADDUCTS (FIGURE 12.3A): MINOR GROOVE AND BASE- DISPLACED/INTERCALATIVE CONFORMATIONS 270 12.8.2 BAY REGION BLAJP-N'-ADENINE ADDUCTS (FIGURE 12.3B): DISTORTING INTERCALATIVE INSERTIONS FROM THE MAJOR GROOVE 271 12.8.3 FJORD REGION PAH N'-ADENINE ADDUCTS (FIGURE 12.3C AND D): MINIMALLY DISTORTING INTERCALATION FROM THE MAJOR GROOVE 272 12.8.4 DEPENDENCE OF NER EFFICIENCIES ON THE CONFORMATIONS OF THE BAY REGION B[A]P-N 2 -DG ADDUCTS 272 12.8.5 NER EFFICIENCIES: BAY AND FJORD REGION PAH DIOL EPOXIDE-LV'-DA ADDUCTS 278 12.8.6 WHY THE TRONS-ANTI-B[C]PH-N 6 -DA AND RELATED FJORD REGION N^-DA ADDUCTS DO NOT DESTABILIZE DNA AND ARE RESISTANT TO NER 280 CONTENTS XI 12.9 DEPENDENCE OF NER OF THE 10S (+)-TRANS-ANTI-B[A]P-N 2 -DG ADDUCT ON BASE SEQUENCE CONTEXT 280 12.9.1 STRUCTURAL CHARACTERISTICS OF THE IDENTICAL 10S (+)-TRANS-ANTI-B[A]P-N 2 -DG ADDUCT IN DIFFERENT SEQUENCE CONTEXTS 281 12.9.1.1 CGC AND TGT SEQUENCES 282 12.9.1.2 G6G7, G6G7-, AND I6G7 SEQUENCES 282 12.9.2 HIERARCHIES OF MAMMALIAN NER RECOGNITION SIGNALS 286 12.10 CONCLUSIONS 287 ACKNOWLEDGEMENTS 289 REFERENCES 289 13 IMPACT OF CHEMICAL ADDUCTS ON TRANSLESION SYNTHESIS IN REPLICATIVE AND BYPASS DNA POLYMERASES: FROM STRUCTURE TO FUNCTION 299 ROBERT L. EOJF, MARTIN EGLI, AND F. PETER GUENGERICH 13.1 INTRODUCTION 299 13.2 BYPASS OF ABASIC SITES 302 13.3 LESIONS GENERATED BY OXIDATIVE DAMAGE TO DNA 305 13.4 EXOCYCLIC DNA ADDUCT BYPASS 308 13.5 ALKYLATED DNA 310 13.6 POLYCYCLIC AROMATIC HYDROCARBONS AND THE EFFECT OF ADDUCT SIZE UPON POLYMERASE CATALYSIS 313 13.7 CYCLOBUTANE PYRIMIDINE DIMERS AND UV PHOTOPRODUCTS 316 13.8 INTER- AND INTRASTRAND DNA CROSS-LINKS 316 13.9 CONCLUSIONS 318 REFERENCES 319 14 ELUCIDATING STRUCTURE-FUNCTION RELATIONSHIPS IN BULKY DNA LESIONS: FROM SOLUTION STRUCTURES TO POLYMERASES 331 SUSE BROYDE, LIHUA WANG, DINSHAWJ. PATEL, AND NICHOLAS E. GEACINTOV 14.1 INTRODUCTION 331 14.2 BENZO[O]PYRENE-DERIVED DNA LESIONS AS A USEFUL MODEL 331 14.3 COMPUTATIONAL ELUCIDATION OF THE STRUCTURAL PROPERTIES OF B[A]P-DERIVED DNA LESIONS IN SOLUTION 333 14.4 DNA POLYMERASE STRUCTURE-FUNCTION RELATIONSHIPS ELUCIDATED WITH B[A]P-DERIVED LESIONS 335 14.5 MECHANISM OF THE NUCLEOTIDYL TRANSFER REACTION 343 14.6 CONCLUSIONS AND FUTURE PERSPECTIVES 345 ACKNOWLEDGEMENTS 345 REFERENCES 346 15 TRANSLESION SYNTHESIS AND MUTAGENIC PATHWAYS IN ESCHERICHIA COLI CELLS 353 SUSHIL CHANDANI AND EDWARD L. LOECHLER 15.1 INTRODUCTION 353 15.2 MUTAGENESIS IN E. COLI HAS ILLUMINATED OUR UNDERSTANDING OF MUTAGENESIS IN GENERAL 354 XII CONTENTS 15.3 WHY DOES E. COLI HAVE THREE TRANSLESION SYNTHESIS DNA POLYMERASES? 356 15.4 OVERVIEW OF THE STEPS LEADING TO TRANSLESION SYNTHESIS 358 15.5 CASE STUDIES: AAF-C8-DG AND N 2 -DG ADDUCTS, SUCH AS +BP 360 15.6 STRUCTURE-FUNCTION ANALYSIS OF Y-FAMILY POLS IV AND V OF E. COLI 362 15.6.1 STRUCTURAL BASIS FOR A LARGE VERSUS SMALL CHIMNEY OPENING 366 15.6.2 ROOF-AMINO ACIDS AND ROOF-NEIGHBOR-AMINO ACIDS 368 15.6.3 INTERCONNECTED ARCHITECTURE OF THE CHIMNEY AND ROOF REGIONS 368 15.6.4 DCTP INSERTION BY POL IV 369 15.6.5 HOW DOES UMUC(V) INSERT DATP? 370 15.6.6 A CAUTIONARY NOTE ABOUT DPO4 371 15.6.7 WHY IS POL IV EFFICIENT AT EXTENSION WITH -BP, BUT INEFFICIENT WITH +BP? 372 15.7 Y-FAMILY DNA POLYMERASE MECHANISTIC STEPS 373 15.8 STRUCTURE OF B-FAMILY POL II OF E. COLI 373 REFERENCES 374 16 INSIGHT INTO THE MOLECULAR MECHANISM OF TRANSLESION DNA SYNTHESIS IN HUMAN CELLS USING PROBES WITH CHEMICALLY DEFINED DNA LESIONS 381 ZVI LIVNEH 16.1 INTRODUCTION 381 16.2 OVERVIEW OF TLS 382 16.3 PLASMID MODEL SYSTEMS WITH DEFINED LESIONS FOR STUDYING TLS 384 16.4 GAP-LESION PLASMID ASSAY FOR MAMMALIAN TLS 384 16.5 SOME LESIONS ARE BYPASSED MOST EFFECTIVELY AND MOST ACCURATELY BY SPECIFIC COGNATE TLS DNA POLYMERASES 387 16.6 PIVOTAL ROLE FOR POL IN TLS ACROSS A WIDE VARIETY OF DNA LESIONS 388 16.7 KNOCKING-DOWN THE EXPRESSION OF TLS POLYMERASES USING SMALL INTERFERING RNA PROVIDES A USEFUL TOOL FOR THE ANALYSIS OF TLS USING THE GAPPED PLASMID ASSAY 388 16.8 EVIDENCE THAT TLS OCCURS BY TWO-POLYMERASE MECHANISMS, IN COMBINATIONS THAT DETERMINE THE ACCURACY OF THE PROCESS 391 16.9 CONCLUSIONS 393 ACKNOWLEDGEMENTS 393 REFERENCES 394 17 DNA DAMAGE AND TRANSCRIPTION ELONGATION: CONSEQUENCES AND RNA INTEGRITY 399 KRISTIAN DREIJ, JOHN A. BURNS, ALEXANDRA DIMITRI, LANA NIRENSTEIN, TAISSIA NOUJNYKH, AND DAVID A. SCICCHITANO 17.1 INTRODUCTION 399 17.2 DNA REPAIR 400 17.3 TRANSCRIPTION ELONGATION AND DNA DAMAGE 402 17A RNA POLYMERASES: A BRIEF OVERVIEW 402 CONTENTS XIII 17.5 RNA POLYMERASE ELONGATION PAST DNA DAMAGE 407 17.5.1 ABASIC SITES, SINGLE-STRAND NICKS, AND GAPS 407 17.5.2 OXIDATIVE DNA DAMAGE 408 17.5.3 ALKYLATED BASES IN DNA 412 17.5.4 INTRASTRAND AND INTERSTRAND DNA CROSS-LINKS 414 17.5.5 "BULKY" DNA ADDUCTS 416 17.6 CONCLUSIONS 421 ACKNOWLEDGEMENTS 428 REFERENCES 429 INDEX 439
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spelling	The chemical biology of DNA damage ed. by Nicholas E. Geacintov ... Weinheim Wiley-VCH 2010 XXII, 449 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier DNS-Schädigung (DE-588)4150350-8 gnd rswk-swf DNS-Reparatur (DE-588)4150347-8 gnd rswk-swf (DE-588)4143413-4 Aufsatzsammlung gnd-content DNS-Schädigung (DE-588)4150350-8 s DE-604 DNS-Reparatur (DE-588)4150347-8 s b DE-604 Geacintov, Nicholas E. edt text/html http://deposit.dnb.de/cgi-bin/dokserv?id=3294465&prov=M&dok_var=1&dok_ext=htm Inhaltstext HEBIS Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=020159984&sequence=000003&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	The chemical biology of DNA damage DNS-Schädigung (DE-588)4150350-8 gnd DNS-Reparatur (DE-588)4150347-8 gnd
subject_GND	(DE-588)4150350-8 (DE-588)4150347-8 (DE-588)4143413-4
title	The chemical biology of DNA damage
title_auth	The chemical biology of DNA damage
title_exact_search	The chemical biology of DNA damage
title_full	The chemical biology of DNA damage ed. by Nicholas E. Geacintov ...
title_fullStr	The chemical biology of DNA damage ed. by Nicholas E. Geacintov ...
title_full_unstemmed	The chemical biology of DNA damage ed. by Nicholas E. Geacintov ...
title_short	The chemical biology of DNA damage
title_sort	the chemical biology of dna damage
topic	DNS-Schädigung (DE-588)4150350-8 gnd DNS-Reparatur (DE-588)4150347-8 gnd
topic_facet	DNS-Schädigung DNS-Reparatur Aufsatzsammlung
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