Verfügbarkeit: Intracellular glycation of nuclear DNA, mitochondrial DNA, and cytosolic proteins triggered by endogenous oxidative stress

Intracellular glycation of nuclear DNA, mitochondrial DNA, and cytosolic proteins triggered by endogenous oxidative stress: = Intrazelluläre Glykierung genomischer DNA, mitochondrialer DNA und zytosolischer Proteine ausgelöst durch endogenen oxidativen Stress

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Bibliographische Detailangaben
1. Verfasser:	Breyer, Viola (VerfasserIn)
Format:	Abschlussarbeit Buch
Sprache:	English
Veröffentlicht:	2011
Schlagworte:	Oxidativer Stress DNS Zellkern Glykation Hochschulschrift
Online-Zugang:	kostenfrei https://nbn-resolving.org/urn:nbn:de:bvb:29-opus-24465 http://d-nb.info/1011059290/34 Inhaltsverzeichnis
Beschreibung:	V, 160 S. Ill., graph. Darst. 21 cm

Internformat

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Datensatz im Suchindex

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adam_text	CONTENTS ABSTRACT 1 ZUSAMMENFASSUNG 7 1 INTRODUCTION 13 1.1 THE FREE RADICAL THEORY OF AGING .................................................................. 14 1.2 THE MITOCHONDRIA ......................................................................................... 14 1.2.1 CITRIC ACID CYCLE AND FATTY ACID-OXIDATION ..................................... 16 1.2.2 OXIDATIVE PHOSPHORYLATION .............................................................. 16 1.2.3 THE MITOCHONDRIAL ROLE IN AGING ....................................................... 18 1.3 REACTIVE OXYGEN SPECIES .............................................................................. 19 1.4 ADVANCED GLYCATION END-PRODUCTS .............................................................. 21 1.4.1 THE MAILLARD REACTION ...................................................................... 21 1.4.2 PHYSIOLOGICAL CONSEQUENCES ............................................................ 21 1.4.3 THE GLYCATION THEORY OF AGING ......................................................... 28 1.5 MOUSE MODELS WITH REDUCED SOD ACTIVITY ..................................................29 1.5.1 MUTANT MICE LACKING COPPER/ZINC SUPEROXIDE DISMUTASE .......... 30 1.5.2 MUTANT MICE LACKING MANGANESE SUPEROXIDE DISMUTASE ............. 31 1.6 AIMS OF THIS THESIS ........................................................................................ 33 2 IN VITRO ANALYSIS OF DNA GLYCATION PRODUCTS 35 2.1 INTRODUCTION AND EXPERIMENTAL DESIGN ...................................................... 35 2.1.1 SELECTION OF A REPORTER GENE ASSAY .................................................. 36 2.1.2 SELECTION OF THE TRANSFECTION METHOD ................................................ 37 2.1.3 INTRODUCTION AND QUANTIFICATION OF CEDG MODIFICATIONS ........... 38 2.1.4 INFLUENCE OF CEDG ADDUCTS ON LUCIFERASE ACTIVITY IN HEK 293 T CELLSINVITRO ....................................................................................... 40 2.2 RESULTS ............................................................................................................. 42 2.2.1 CYTOTOXIC EFFECT ON TRANSFECTED HEK 293 T CELLS .............................. 42 2.2.2 QUANTIFICATION OF PLASMID TRANSCRIPTION ........................................... 42 2.2.3 INFLUENCE OF CEDG ADDUCTS ON THE FUNCTIONALITY OF THE AMPICILLIN RESISTANCE GENE ...................................................................... 44 2.2.4 RESTRICTION ENZYME DIGESTION OF CEDG-MODIFIED PLASMID DNA . 46 2.3 DISCUSSION .................................................................................................... 47 3 SIMULTANEOUS ANALYSIS OF ENDOGENOUSLY FORMED AGES 51 3.1 INTRODUCTION AND EXPERIMENTAL DESIGN ........................................................ 51 3.1.1 IN VITRO AGING MODEL ........................................................................... 52 3.2 RESULTS ............................................................................................................ 55 3.2.1 DEVELOPMENT OF A METHOD FOR THE SIMULTANEOUS ISOLATION OF NUCLEAR DNA, MTDNA, AND CYTOSOLIC PROTEINS ................................... 55 3.2.2 ISOLATION OF NUCLEAR DNA, MITOCHONDRIAL DNA, AND CYTOSOLIC PROTEINS FROM NIH 3T3 FIBROBLASTS ................................................... 59 3.2.3 CHARACTERIZATION OF THE MITOCHONDRIAL FRACTION ................................ 59 3.2.4 DETERMINATION OF OPTIMAL CONDITIONS FOR THE SENESCENCE-LIKE GROWTH ARREST OF NIH 3T3 FIBROBLASTS ................................................ 61 3.2.5 DETERMINATION OF CEDG CONTENT OF NUCLEAR DNA AND MTDNA ... 64 3.2.6 ANALYSIS OF PROTEIN EXPRESSION AND AGE MODIFICATIONS IN SENES CENT FIBROBLASTS .................................................................................. 64 3.2.7 ANALYSIS OF OXIDATIVE PROTEIN MODIFICATION ...................................... 69 3.2.8 IDENTIFICATION OF OXIDIZED PROTEINS ................................................... 71 3.2.9 IMMUNOPRECIPITATION OF ACTIN AND SUBSEQUENT ANALYSIS FOR OXIDA TIVE MODIFICATIONS ............................................................................. 71 3.3 DISCUSSION ....................................................................................... 73 4 FORMATION OF AGES IN SOD KNOCKOUT MICE 79 4.1 INTRODUCTION AND EXPERIMENTAL DESIGN ........................................................ 79 4.1.1 ANTIOXIDANT STATUS IN SOD MUTANT MICE ........................................... 81 4.1.2 FETAL FIBROBLASTS FROM MNSOD MUTANT MICE .......................................82 4.2 RESULTS ........................................................................................................... 83 4.2.1 IN VITRO MODIFICATION OF DNA BY OXIDATIVE STRESS .............................. 83 4.2.2 PREPARATION OF PRIMARY MEFS .......................................................... 83 4.2.3 CULTURING SOD2+/+ AND SOD2 L+ MEFS ............................................. 84 4.2.4 DEVELOPMENT OF A METHOD FOR THE SIMULTANEOUS ISOLATION OF NUCLEAR DNA, MTDNA, AND CYTOSOLIC PROTEINS FROM PRIMARY MEFS 86 4.2.5 ISOLATION OF NUCLEAR DNA, MTDNA AND CYTOSOLIC PROTEINS FROM SOD2+/+AND SOD2-/+FIBROBLASTS ..................................................... 87 4.2.6 CHARACTERIZATION OF THE MITOCHONDRIAL FRACTION ............................... 89 4.2.7 DETERMINATION OF CEDG CONTENT OF NUCLEAR DNA AND MTDNA ... 89 4.2.8 ANALYSIS OF PROTEIN EXPRESSION AND AGE MODIFICATIONS ............. 90 4.2.9 ANALYSIS OF OXIDATIVE PROTEIN EXPRESSION .......................................... 91 4.3 DISCUSSION .................................................................................................... 91 5 MATERIALS AND METHODS 97 5.1 INSTRUMENTATION ............................................................................................97 5.2 LABORATORY EQUIPMENT ................................................................................. 98 5.3 CHEMICALS AND REAGENTS ...............................................................................99 5.4 METHODS FOR THE IN VITRO ANALYSIS OF DNA GLYCATION PRODUCTS ................... 109 5.4.1 CULTIVATION OF HEK 293 T CELLS ........................................................ 109 5.4.2 PLASMID DNA PREPARATION ............................................................. 110 5.4.3 INTRODUCTION OF CEDG MODIFICATIONS ............................................. 110 5.4.4 COMPETITIVE ELISA FOR CEDG ........................................................... 112 5.4.5 TRANSIENT TRANSFECTION ..................................................................... 112 5.4.6 REPORTER GENE ASSAY ........................................................................ 112 5.4.7 CYTOTOXIC EFFECT ON TRANSFECTED HEK 293 T CELLS ........................... 113 5.4.8 TRANSFORMATION OF GLYCATED DNA TO A BACTERIAL HOST ...................... 113 5.4.9 RESTRICTION DIGESTION OF CEDG-MODIFIED PLASMIDS ........................ 113 5.4.10 RNA ISOLATION AND RT-PCR ............................................................. 114 5.5 METHODS FOR THE ANALYSIS OF ENDOGENOUSLY FORMED AGES IN NIH 3T3 FIBROBLASTS ..................................................................................................... 114 5.5.1 CULTIVATION OF NIH 3T3 MOUSE EMBRYO FIBROBLASTS ......................... 114 5.5.2 FREEZING AND THAWING OF NIH 3T3 FIBROBLASTS ................................. 115 5.5.3 SIMULTANEOUS ISOLATION OF NUCLEI, MITOCHONDRIA, AND CYTOSOLIC PROTEINS FROM NIH 3T3 FIBROBLASTS ................................................. 115 5.5.4 ISOLATION OF DNA FROM NUCLEI AND MITOCHONDRIA ............................ 116 5.5.5 ANALYSIS OF CELL PROLIFERATION ........................................................... 116 5.5.6 ANALYSIS OF CELL VIABILITY ................................................................... 117 5.5.7 SENESCENCE-LIKE GROWTH ARREST OF NIH 3T3 FIBROBLASTS .................. 117 5.5.8 ASSAY FOR SUCCINATE DEHYDROGENASE ACTIVITY .................................... 118 5.5.9 PCR ANALYSIS OF THE ISOLATED MTDNA .............................................. 118 5.5.10 COMPETITIVE ELISA FOR CEDG ............................................................ 118 5.5.11 QUANTIFICATION OF PROTEIN YIELD ......................................................... 119 5.5.12 GEL-ELECTROPHORETIC SEPARATION OF CYTOSOLIC PROTEINS ....................... 119 5.5.13 2-D GEL ELECTROPHORESIS .................................................................... 120 5.5.14 AGE-CML ELISA .............................................................................. 122 5.5.15 ULTRAFILTRATION .................................................................................... 123 5.5.16 SYNTHESIS OF CML-MODIFIED AND CEL-MODIFIED BSA ....................... 123 5.5.17 TEST FOR CML-ANTIBODY SPECIFICITY .................................................... 123 5.5.18 WESTERN BLOT ANALYSIS FOR AGE-MODIFIED PROTEINS ......................... 124 5.5.19 WESTERN BLOT FOR ACTIN ...................................................................... 125 5.5.20 WESTERN BLOT ANALYSIS FOR OXIDATIVE PROTEIN MODIFICATIONS .... 126 5.5.21 PARTIAL ENZYMATIC PROTEIN HYDROLYSIS IN GEL .................................... 126 5.5.22 MALDI-TOF-MS ANALYSIS ................................................................. 127 5.5.23 IMMUNOPRECIPITATION OF ACTIN ......................................................... 127 5.6 METHODS FOR THE ANALYSIS OF AGES IN NUCLEAR DNA, MTDNA, AND CYTOSOLIC PROTEINS OF SOD2 MEFS .............................................................................. 128 5.6.1 IN VITRO INCUBATION OF DNA WITH HYDROGEN PEROXIDE ................... 128 5.6.2 BREEDING AND GENOTYPING ................................................................ 129 5.6.3 PREPARATION OF PRIMARY MOUSE EMBRYONIC FIBROBLASTS (MEFS) . . . 129 5.6.4 CULTIVATION OF MEFS ........................................................................ 130 5.6.5 GROWTH CURVES OF MEFS .................................................................. 130 5.6.6 SIMULTANEOUS ISOLATION OF NUCLEI, MITOCHONDRIA, AND CYTOSOLIC PROTEINS FROM MEFS ......................................................................... 131 5.6.7 ISOLATION OF DNA FROM NUCLEI AND MITOCHONDRIA ........................... 132 5.6.8 ASSAY FOR SUCCINATE DEHYDROGENASE ACTIVITY ................................... 132 5.6.9 COMPETITIVE ELISA FOR CEDG .......................................................... 133 5.6.10 WESTERN BLOT ANALYSIS FOR AGE-MODIFIED PROTEINS ........................ 133 5.6.11 WESTERN BLOT ANALYSIS FOR OXIDATIVE PROTEIN MODIFICATIONS . ... 133 5.7 STATISTICAL ANALYSIS ......................................................................................... 133 BIBLIOGRAPHY 135 LIST OF ABBREVIATIONS 153 LIST OF FIGURES 157 LIST OF TABLES 159 DANKSAGUNG 161
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spelling	Breyer, Viola Verfasser (DE-588)143994174 aut Intracellular glycation of nuclear DNA, mitochondrial DNA, and cytosolic proteins triggered by endogenous oxidative stress = Intrazelluläre Glykierung genomischer DNA, mitochondrialer DNA und zytosolischer Proteine ausgelöst durch endogenen oxidativen Stress vorgelegt von Viola Breyer Intrazelluläre Glykierung genomischer DNA, mitochondrialer DNA und zytosolischer Proteine ausgelöst durch endogenen oxidativen Stress 2011 V, 160 S. Ill., graph. Darst. 21 cm txt rdacontent n rdamedia nc rdacarrier Erlangen-Nürnberg, Univ., Diss., 2011 Oxidativer Stress (DE-588)4353497-1 gnd rswk-swf DNS (DE-588)4070512-2 gnd rswk-swf Zellkern (DE-588)4067544-0 gnd rswk-swf Glykation (DE-588)4767145-2 gnd rswk-swf (DE-588)4113937-9 Hochschulschrift gnd-content Oxidativer Stress (DE-588)4353497-1 s Zellkern (DE-588)4067544-0 s DNS (DE-588)4070512-2 s Glykation (DE-588)4767145-2 s b DE-604 Erscheint auch als Online-Ausgabe urn:nbn:de:bvb:29-opus-24465 https://open.fau.de/handle/openfau/1651 Verlag kostenfrei Volltext https://nbn-resolving.org/urn:nbn:de:bvb:29-opus-24465 Resolvingsystem http://d-nb.info/1011059290/34 Langzeitarchivierung Nationalbibliothek DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=022530055&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Breyer, Viola Intracellular glycation of nuclear DNA, mitochondrial DNA, and cytosolic proteins triggered by endogenous oxidative stress = Intrazelluläre Glykierung genomischer DNA, mitochondrialer DNA und zytosolischer Proteine ausgelöst durch endogenen oxidativen Stress Oxidativer Stress (DE-588)4353497-1 gnd DNS (DE-588)4070512-2 gnd Zellkern (DE-588)4067544-0 gnd Glykation (DE-588)4767145-2 gnd
subject_GND	(DE-588)4353497-1 (DE-588)4070512-2 (DE-588)4067544-0 (DE-588)4767145-2 (DE-588)4113937-9
title	Intracellular glycation of nuclear DNA, mitochondrial DNA, and cytosolic proteins triggered by endogenous oxidative stress = Intrazelluläre Glykierung genomischer DNA, mitochondrialer DNA und zytosolischer Proteine ausgelöst durch endogenen oxidativen Stress
title_alt	Intrazelluläre Glykierung genomischer DNA, mitochondrialer DNA und zytosolischer Proteine ausgelöst durch endogenen oxidativen Stress
title_auth	Intracellular glycation of nuclear DNA, mitochondrial DNA, and cytosolic proteins triggered by endogenous oxidative stress = Intrazelluläre Glykierung genomischer DNA, mitochondrialer DNA und zytosolischer Proteine ausgelöst durch endogenen oxidativen Stress
title_exact_search	Intracellular glycation of nuclear DNA, mitochondrial DNA, and cytosolic proteins triggered by endogenous oxidative stress = Intrazelluläre Glykierung genomischer DNA, mitochondrialer DNA und zytosolischer Proteine ausgelöst durch endogenen oxidativen Stress
title_full	Intracellular glycation of nuclear DNA, mitochondrial DNA, and cytosolic proteins triggered by endogenous oxidative stress = Intrazelluläre Glykierung genomischer DNA, mitochondrialer DNA und zytosolischer Proteine ausgelöst durch endogenen oxidativen Stress vorgelegt von Viola Breyer
title_fullStr	Intracellular glycation of nuclear DNA, mitochondrial DNA, and cytosolic proteins triggered by endogenous oxidative stress = Intrazelluläre Glykierung genomischer DNA, mitochondrialer DNA und zytosolischer Proteine ausgelöst durch endogenen oxidativen Stress vorgelegt von Viola Breyer
title_full_unstemmed	Intracellular glycation of nuclear DNA, mitochondrial DNA, and cytosolic proteins triggered by endogenous oxidative stress = Intrazelluläre Glykierung genomischer DNA, mitochondrialer DNA und zytosolischer Proteine ausgelöst durch endogenen oxidativen Stress vorgelegt von Viola Breyer
title_short	Intracellular glycation of nuclear DNA, mitochondrial DNA, and cytosolic proteins triggered by endogenous oxidative stress
title_sort	intracellular glycation of nuclear dna mitochondrial dna and cytosolic proteins triggered by endogenous oxidative stress intrazellulare glykierung genomischer dna mitochondrialer dna und zytosolischer proteine ausgelost durch endogenen oxidativen stress
title_sub	= Intrazelluläre Glykierung genomischer DNA, mitochondrialer DNA und zytosolischer Proteine ausgelöst durch endogenen oxidativen Stress
topic	Oxidativer Stress (DE-588)4353497-1 gnd DNS (DE-588)4070512-2 gnd Zellkern (DE-588)4067544-0 gnd Glykation (DE-588)4767145-2 gnd
topic_facet	Oxidativer Stress DNS Zellkern Glykation Hochschulschrift
url	https://open.fau.de/handle/openfau/1651 https://nbn-resolving.org/urn:nbn:de:bvb:29-opus-24465 http://d-nb.info/1011059290/34 http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=022530055&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT breyerviola intracellularglycationofnucleardnamitochondrialdnaandcytosolicproteinstriggeredbyendogenousoxidativestressintrazellulareglykierunggenomischerdnamitochondrialerdnaundzytosolischerproteineausgelostdurchendogenenoxidativenstress AT breyerviola intrazellulareglykierunggenomischerdnamitochondrialerdnaundzytosolischerproteineausgelostdurchendogenenoxidativenstress

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