TY - JOUR A1 - Blein, Sophie A1 - Bardel, Claire A1 - Danjean, Vincent A1 - McGuffog, Lesley A1 - Healay, Sue A1 - Barrowdale, Daniel A1 - Lee, Andrew A1 - Dennis, Joe A1 - Kuchenbaecker, Karoline B. A1 - Soucy, Penny A1 - Terry, Mary Beth A1 - Chung, Wendy K. A1 - Goldgar, David E. A1 - Buys, Saundra S. A1 - Janavicius, Ramunas A1 - Tihomirova, Laima A1 - Tung, Nadine A1 - Dorfling, Cecilia M. A1 - van Rensburg, Elizabeth J. A1 - Neuhausen, Susan L. A1 - Ding, Yuan Chun A1 - Gerdes, Anne-Marie A1 - Ejlertsen, Bent A1 - Nielsen, Finn C. A1 - Hansen, Thomas V. O. A1 - Osorio, Ana A1 - Benitez, Javier A1 - Andreas Conejero, Raquel A1 - Segota, Ena A1 - Weitzel, Jeffrey N. A1 - Thelander, Margo A1 - Peterlongo, Paolo A1 - Radice, Paolo A1 - Pensotti, Valeria A1 - Dolcetti, Riccardo A1 - Bonanni, Bernardo A1 - Peissel, Bernard A1 - Zaffaroni, Daniela A1 - Scuvera, Giulietta A1 - Manoukian, Siranoush A1 - Varesco, Liliana A1 - Capone, Gabriele L. A1 - Papi, Laura A1 - Ottini, Laura A1 - Yannoukakos, Drakoulis A1 - Konstantopoulou, Irene A1 - Garber, Judy A1 - Hamann, Ute A1 - Donaldson, Alan A1 - Brady, Angela A1 - Brewer, Carole A1 - Foo, Claire A1 - Evans, D. Gareth A1 - Frost, Debra A1 - Eccles, Diana A1 - Douglas, Fiona A1 - Cook, Jackie A1 - Adlard, Julian A1 - Barwell, Julian A1 - Walker, Lisa A1 - Izatt, Louise A1 - Side, Lucy E. A1 - Kennedy, M. John A1 - Tischkowitz, Marc A1 - Rogers, Mark T. A1 - Porteous, Mary E. A1 - Morrison, Patrick J. A1 - Platte, Radka A1 - Eeles, Ros A1 - Davidson, Rosemarie A1 - Hodgson, Shirley A1 - Cole, Trevor A1 - Godwin, Andrew K A1 - Isaacs, Claudine A1 - Claes, Kathleen A1 - De Leeneer, Kim A1 - Meindl, Alfons A1 - Gehrig, Andrea A1 - Wappenschmidt, Barbara A1 - Sutter, Christian A1 - Engel, Christoph A1 - Niederacher, Dieter A1 - Steinemann, Doris A1 - Plendl, Hansjoerg A1 - Kast, Karin A1 - Rhiem, Kerstin A1 - Ditsch, Nina A1 - Arnold, Norbert A1 - Varon-Mateeva, Raymonda A1 - Schmutzler, Rita K. A1 - Preisler-Adams, Sabine A1 - Markov, Nadja Bogdanova A1 - Wang-Gohrke, Shan A1 - de Pauw, Antoine A1 - Lefol, Cedrick A1 - Lasset, Christine A1 - Leroux, Dominique A1 - Rouleau, Etienne A1 - Damiola, Francesca A1 - Dreyfus, Helene A1 - Barjhoux, Laure A1 - Golmard, Lisa A1 - Uhrhammer, Nancy A1 - Bonadona, Valerie A1 - Sornin, Valerie A1 - Bignon, Yves-Jean A1 - Carter, Jonathan A1 - Van Le, Linda A1 - Piedmonte, Marion A1 - DiSilvestro, Paul A. A1 - de la Hoya, Miguel A1 - Caldes, Trinidad A1 - Nevanlinna, Heli A1 - Aittomäki, Kristiina A1 - Jager, Agnes A1 - van den Ouweland, Ans M. W. A1 - Kets, Carolien M. A1 - Aalfs, Cora M. A1 - van Leeuwen, Flora E. A1 - Hogervorst, Frans B. L. A1 - Meijers-Heijboer, Hanne E. J. A1 - Oosterwijk, Jan C. A1 - van Roozendaal, Kees E. P. A1 - Rookus, Matti A. A1 - Devilee, Peter A1 - van der Luijt, Rob B. A1 - Olah, Edith A1 - Diez, Orland A1 - Teule, Alex A1 - Lazaro, Conxi A1 - Blanco, Ignacio A1 - Del Valle, Jesus A1 - Jakubowska, Anna A1 - Sukiennicki, Grzegorz A1 - Gronwald, Jacek A1 - Spurdle, Amanda B. A1 - Foulkes, William A1 - Olswold, Curtis A1 - Lindor, Noralene M. A1 - Pankratz, Vernon S. A1 - Szabo, Csilla I. A1 - Lincoln, Anne A1 - Jacobs, Lauren A1 - Corines, Marina A1 - Robson, Mark A1 - Vijai, Joseph A1 - Berger, Andreas A1 - Fink-Retter, Anneliese A1 - Singer, Christian F. A1 - Rappaport, Christine A1 - Geschwantler Kaulich, Daphne A1 - Pfeiler, Georg A1 - Tea, Muy-Kheng A1 - Greene, Mark H. A1 - Mai, Phuong L. A1 - Rennert, Gad A1 - Imyanitov, Evgeny N. A1 - Mulligan, Anna Marie A1 - Glendon, Gord A1 - Andrulis, Irene L. A1 - Tchatchou, Andrine A1 - Toland, Amanda Ewart A1 - Pedersen, Inge Sokilde A1 - Thomassen, Mads A1 - Kruse, Torben A. A1 - Jensen, Uffe Birk A1 - Caligo, Maria A. A1 - Friedman, Eitan A1 - Zidan, Jamal A1 - Laitman, Yael A1 - Lindblom, Annika A1 - Melin, Beatrice A1 - Arver, Brita A1 - Loman, Niklas A1 - Rosenquist, Richard A1 - Olopade, Olufunmilayo I. A1 - Nussbaum, Robert L. A1 - Ramus, Susan J. A1 - Nathanson, Katherine L. A1 - Domchek, Susan M. A1 - Rebbeck, Timothy R. A1 - Arun, Banu K. A1 - Mitchell, Gillian A1 - Karlan, Bethy Y. A1 - Lester, Jenny A1 - Orsulic, Sandra A1 - Stoppa-Lyonnet, Dominique A1 - Thomas, Gilles A1 - Simard, Jacques A1 - Couch, Fergus J. A1 - Offit, Kenenth A1 - Easton, Douglas F. A1 - Chenevix-Trench, Georgia A1 - Antoniou, Antonis C. A1 - Mazoyer, Sylvie A1 - Phelan, Catherine M. A1 - Sinilnikova, Olga M. A1 - Cox, David G. T1 - An original phylogenetic approach identified mitochondrial haplogroup T1a1 as inversely associated with breast cancer risk in BRCA2 mutation carriers JF - Breast Cancer Research N2 - Introduction: Individuals carrying pathogenic mutations in the BRCA1 and BRCA2 genes have a high lifetime risk of breast cancer. BRCA1 and BRCA2 are involved in DNA double-strand break repair, DNA alterations that can be caused by exposure to reactive oxygen species, a main source of which are mitochondria. Mitochondrial genome variations affect electron transport chain efficiency and reactive oxygen species production. Individuals with different mitochondrial haplogroups differ in their metabolism and sensitivity to oxidative stress. Variability in mitochondrial genetic background can alter reactive oxygen species production, leading to cancer risk. In the present study, we tested the hypothesis that mitochondrial haplogroups modify breast cancer risk in BRCA1/2 mutation carriers. Methods: We genotyped 22,214 (11,421 affected, 10,793 unaffected) mutation carriers belonging to the Consortium of Investigators of Modifiers of BRCA1/2 for 129 mitochondrial polymorphisms using the iCOGS array. Haplogroup inference and association detection were performed using a phylogenetic approach. ALTree was applied to explore the reference mitochondrial evolutionary tree and detect subclades enriched in affected or unaffected individuals. Results: We discovered that subclade T1a1 was depleted in affected BRCA2 mutation carriers compared with the rest of clade T (hazard ratio (HR) = 0.55; 95% confidence interval (CI), 0.34 to 0.88; P = 0.01). Compared with the most frequent haplogroup in the general population (that is, H and T clades), the T1a1 haplogroup has a HR of 0.62 (95% CI, 0.40 to 0.95; P = 0.03). We also identified three potential susceptibility loci, including G13708A/rs28359178, which has demonstrated an inverse association with familial breast cancer risk. Conclusions: This study illustrates how original approaches such as the phylogeny-based method we used can empower classical molecular epidemiological studies aimed at identifying association or risk modification effects. KW - single-nucleotide polymorphisms KW - genetic modifiers KW - oxidative stress KW - consortium KW - multiple diseases KW - DNA KW - haplogroups KW - susceptibility KW - Ovarian KW - variants Y1 - 2015 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-145458 VL - 17 IS - 61 ER - TY - JOUR A1 - Reynolds, David L. A1 - Hofmeister, Brigitte T. A1 - Cliffe, Laura A1 - Siegel, T. Nicolai A1 - Andersson, Britta A. A1 - Beverley, Stephen M. A1 - Schmitz, Robert J. A1 - Sabatini, Robert T1 - Base J represses genes at the end of polycistronic gene clusters in Leishmania major by promoting RNAP II termination JF - Molecular Microbiology N2 - The genomes of kinetoplastids are organized into polycistronic gene clusters that are flanked by the modified DNA base J. Previous work has established a role of base J in promoting RNA polymerase II termination in Leishmania spp. where the loss of J leads to termination defects and transcription into adjacent gene clusters. It remains unclear whether these termination defects affect gene expression and whether read through transcription is detrimental to cell growth, thus explaining the essential nature of J. We now demonstrate that reduction of base J at specific sites within polycistronic gene clusters in L. major leads to read through transcription and increased expression of downstream genes in the cluster. Interestingly, subsequent transcription into the opposing polycistronic gene cluster does not lead to downregulation of sense mRNAs. These findings indicate a conserved role for J regulating transcription termination and expression of genes within polycistronic gene clusters in trypanosomatids. In contrast to the expectations often attributed to opposing transcription, the essential nature of J in Leishmania spp. is related to its role in gene repression rather than preventing transcriptional interference resulting from read through and dual strand transcription. KW - Trypanosoma-brucei KW - Transcription initiation KW - Messenger RNA KW - DNA KW - Genome KW - Cruzi KW - Hydroxymethyluracil KW - Expression KW - Parasite KW - Glucosyltransferase Y1 - 2016 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-187727 VL - 101 IS - 4 ER - TY - JOUR A1 - Marinovich, M. A1 - Lutz, Werner K. T1 - Covalent binding of aflatoxin B\(_1\) to liver DNA in rats pretreated with ethanol JF - Experientia N2 - Male Fischer F-344 rats were given ethanol in the drinking water and/or by single oral administration. Following this, the animals received p.o. 100 ng/kg of the hepatocarcinogen eHJaflatoxin BI (AFBI)' 24 h later, the level of DNA-bound AFBI was determined in the liver and was found not to be affected by any type of ethanol pretreatment. A cocarcinogenic effect of ethanol in the liver is therefore unlikely to be due to an effect on the metabolic activation and inactivation processes governing the formation of DNA-binding AFBI metabolites. KW - Toxikologie KW - Carcinogenesis KW - DNA KW - covalent binding KW - aflatoxin KW - ethanol Y1 - 1985 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-55237 VL - 41 IS - 10 SP - 1338 EP - 1340 ER - TY - JOUR A1 - Vogel, Benjamin A1 - Löschberger, Anna A1 - Sauer, Markus A1 - Hock, Robert T1 - Cross-linking of DNA through HMGA1 suggests a DNA scaffold N2 - Binding of proteins to DNA is usually considered 1D with one protein bound to one DNA molecule. In principle, proteins with multiple DNA binding domains could also bind to and thereby cross-link different DNA molecules. We have investigated this possibility using high-mobility group A1 (HMGA1) proteins, which are architectural elements of chromatin and are involved in the regulation of multiple DNA-dependent processes. Using direct stochastic optical reconstruction microscopy (dSTORM), we could show that overexpression of HMGA1a-eGFP in Cos-7 cells leads to chromatin aggregation. To investigate if HMGA1a is directly responsible for this chromatin compaction we developed a DNA cross-linking assay. We were able to show for the first time that HMGA1a can cross-link DNA directly. Detailed analysis using point mutated proteins revealed a novel DNA cross-linking domain. Electron microscopy indicates that HMGA1 proteins are able to create DNA loops and supercoils in linearized DNA confirming the cross-linking ability of HMGA1a. This capacity has profound implications for the spatial organization of DNA in the cell nucleus and suggests cross-linking activities for additional nuclear proteins. KW - DNA Y1 - 2011 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-68865 ER - TY - JOUR A1 - Bencurova, Elena A1 - Akash, Aman A1 - Dobson, Renwick C.J. A1 - Dandekar, Thomas T1 - DNA storage-from natural biology to synthetic biology JF - Computational and Structural Biotechnology Journal N2 - Natural DNA storage allows cellular differentiation, evolution, the growth of our children and controls all our ecosystems. Here, we discuss the fundamental aspects of DNA storage and recent advances in this field, with special emphasis on natural processes and solutions that can be exploited. We point out new ways of efficient DNA and nucleotide storage that are inspired by nature. Within a few years DNA-based information storage may become an attractive and natural complementation to current electronic data storage systems. We discuss rapid and directed access (e.g. DNA elements such as promotors, enhancers), regulatory signals and modulation (e.g. lncRNA) as well as integrated high-density storage and processing modules (e.g. chromosomal territories). There is pragmatic DNA storage for use in biotechnology and human genetics. We examine DNA storage as an approach for synthetic biology (e.g. light-controlled nucleotide processing enzymes). The natural polymers of DNA and RNA offer much for direct storage operations (read-in, read-out, access control). The inbuilt parallelism (many molecules at many places working at the same time) is important for fast processing of information. Using biology concepts from chromosomal storage, nucleic acid processing as well as polymer material sciences such as electronical effects in enzymes, graphene, nanocellulose up to DNA macramé , DNA wires and DNA-based aptamer field effect transistors will open up new applications gradually replacing classical information storage methods in ever more areas over time (decades). KW - DNA KW - RNA KW - data storage KW - natural processing KW - synthetic biology Y1 - 2023 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-349971 SN - 2001-0370 VL - 21 ER - TY - THES A1 - Marquardt, Stefan T1 - DNA-Schädigung durch photochemische Alkoxylradikalquellen T1 - DNA damage by photochemical alkoxyl-radical sources N2 - Reaktive Sauerstoffspezies induzieren oxidative DNA-Schäden (Oxidativer Stress) und spielen daher eine entscheidende Rolle bei Mutagenese, Kanzerogenese und Alterung. Durch die zunehmende terrestrische UV-Strahlung, die die Generierung solcher Spezies fördert, ist dieses Thema von besonderer Aktualität. Während die Reaktivität von Hydroxylradikalen gegenüber DNA bereits intensiv erforscht worden ist, sind die photobiologischen Wirkungen von Alkoxylradikalen bisher kaum untersucht. Vor diesem Hintergrund sollten neue photochemische Alkoxylradikalquellen entwickelt und deren Reaktivität gegenüber Nukleinsäuren mit dem bereits etablierten System Perester I verglichen werden. Auf diese Weise sollte ein allgemeines DNA-Schadensprofil von Alkoxylradikalen aufgestellt und deren Wirkungsgrad ermittelt werden. 1. Das wasserlösliche Pyridon IIb ist aus dem entsprechenden Hydroxyderivat IIa durch Alkylierung mit tert-Butylbromid unter SN1-Bedingungen synthetisiert worden (Schema I). Seine photolytische Zersetzung führt zu den Produkten 2-Pyridon IIIa (30 Prozent) und 3-tert-Butoxy-2-pyridon IIIb (27 Prozent). Bei Bestrahlung sowohl in organischen Lösungsmitteln (Benzol) als auch in wässrigem Medium erfolgt Freisetzung von tert-Butoxylradikalen, die EPR-spektroskopisch durch Spinabfang mit DMPO als DMPO-OtBu-Addukt nachgewiesen werden. In wässrigem Medium, unter Ausschluss von molekularem Sauerstoff werden zusätzlich DMPO-Addukte von Methylradikalen (DMPO-Me) detektiert. Mit abnehmender Konzentration an eingesetztem DMPO entsprechen diese den Hauptradikaladdukten. Auch bei Photolyse der bereits etablierten tert-Butoxylradikalquelle Perester I werden unter diesen Bedingungen hauptsächlich Methylradikale abgefangen. Letztere werden aus den tert-Butoxylradikalen durch β-Fragmentierung generiert. In Gegenwart von superhelikaler pBR 322 DNA induzieren die von tert-Butoxypyridon IIb photolytisch freigesetzten Radikale Einzelstrangbrüche. 2'-Desoxyguanosin (dG) wird durch Pyridon IIb bei Bestrahlung unter aeroben Bedingungen vorwiegend zu Guanidin-freisetzenden Produkten (z.B. Oxazolon) oxidiert, während 8-oxodG in nur vernachlässigbaren Mengen gebildet wird. Der Perester I zeigt ein analoges Schadensprofil. Die Reduktion der DNA- und dG-Schädigung durch den Zusatz von Radikalfängern manifestiert, dass die von Pyridon IIb freigesetzten Radikale die Oxidantien sind. Photosensibilisierte oxidative Schädigung durch die Photoprodukte der Radikalquelle werden durch zeitabhängige Studien ausgeschlossen. Diese ergeben, dass nach vollständiger photo-lytischer Zersetzung des Pyridons IIb keine Schadensbildung sowohl an dG als auch an pBR 322 DNA mehr erfolgt. Unter Ausschluss von molekularem Sauerstoff induziert die Photolyse von Pyridon IIb und Perester I die Bildung von 8-MedG (2.3 Prozent für Pyridon IIb, 2.0 Prozent für Perester I) in beachtlichen Ausbeuten. Auch N7-MedG (0.3 Prozent) konnte detektiert werden. Daraus wird auf eine erhebliche Schadensbildung durch Methylradikale geschlossen. Unter Berücksichtigung der jeweiligen Geschwindigkeitskonstanten und der verwendeten dG-Konzentration wird ermittelt, dass weniger als 0.3 Prozent der aus Perester I oder Pyridon IIb freigesetzten tert-Butoxylradikale direkt mit dG reagieren, während mehr als 99 Prozent zu Methylradikale fragmentieren. Fazit 1: Das Pyridon IIb ist eine photochemische Quelle für tert-Butoxylradikale und zeigt das gleiche Schadensprofil gegenüber dG und DNA wie der Perester I. Die tert-Butoxylradikale können jedoch als schädigende Spezies ausgeschlossen werden, da sie viel effizienter zu Methylradikalen fragmentieren als mit dG reagieren. Die aus den Methylradikalen in Gegenwart von Sauerstoff gebildeten Methylperoxyl-radikale und deren Folgeradikale sind für die beobachteten Schäden verantwortlich. 2. Neben dem tert-Butoxypyridon IIb werden auch die Isopropoxylradikalquellen Pyridon IIc und Thiazolthion IV untersucht. Laserblitz-Studien ergeben, dass für beide Systeme die NO-Bindungsspaltung der dominierende erste photochemische Prozess ist [ФN-O = (75 ± 8)Prozent für Pyridon IIc und ФN-O = (65 ± 7)Prozent für Thiazolthion IV]. Im Falle des Thiazolthions IV zeigen sowohl Laserblitz-Experimente als auch Produktstudien auf, dass bei der Photolyse zunächst das Disulfid V gebildet wird, aus dem dann durch CS-Bindungsspaltung die Produkte VI-VIII hervorgehen. Das Isopropoxypyridon IIc liefert in Analogie zu dem tert-Butoxyderivat IIb die Photoprodukte 2-Pyridon IIIa und 3-Isopropoxy-2-pyridon IIIc. Die photolytische NO-Bindungsspaltung wird für beide Photo-Fenton-Reagenzien dadurch weiter bestätigt, dass in Gegenwart von DMPO in Benzol die Bildung von Isopropoxylradikal-Addukten EPR-spektroskopisch nachgewiesen wird. In wässrigem Medium (H2O : MeCN = 60 : 40) wird bei Bestrahlung von Pyridon IIc eine Mischung von Isopropoxyl- (DMPO-OiPr) und 2-Hydroxyprop-2-ylradikalen (DMPO-CMe2OH) mit DMPO abgefangen. Letztere Radikale gehen aus dem Isopropoxylradikal durch H-Shift hervor und werden bei Einsatz geringer Konzentrationen an DMPO EPR-spektroskopisch hauptsächlich detektiert (Schema II). Bei Bestrahlung in reinem Wasser sind diese die einzig abgefangenen Radikalspezies. Im Gegensatz dazu liefert das Thiazolthion IV unter jeglichen Bedingungen ausschließlich die DMPO-Addukte der Isopropoxylradikale. Kontrollexperimente ergeben, dass im Falle des Thiazolthions IV die 2-Hydroxyprop-2-ylradikale schneller von dem Photoprodukt Disulfid V als von DMPO abgefangen werden. Deshalb werden diese Kohlenstoffradikale nicht als DMPO-Addukte bei der Photolyse des Thiazolthions IV im EPR-Spektrum nachgewiesen, sondern ausschließlich die Isopropoxylradikaladdukte DMPO-OiPr. Fazit 2: Sowohl das Pyridon IIc als auch das Thiazolthion IV zerfallen durch photolytischen NO-Bindungsbruch unter Freisetzung von Isopropoxylradikalen, die in wässrigem Medium zu 2-Hydroxyprop-2-ylradikalen umlagern. Im Falle des Thiazolthions IV verhindert das Disulfid V, dass diese Spezies mit DMPO abgefangen werden, im Falle des Pyridons IIc sind sie die dominiernden DMPO-Radikalspezies im EPR-Spektrum. 3. Sowohl das Pyridon IIc (17 Prozent) als auch das Thiazolthion IV (12 Prozent) induzieren unter Bestrahlung in superhelikaler pBR 322 DNA in einem Lösungsmittelgemisch von H2O : MeCN = 60 : 40 nur geringe Mengen an offen-circularer DNA. In reinem Wasser hingegen, zeigt das Pyridon IIc eine viel höhere Reaktiviät zur Strangbruchbildung (32 Prozent offen-circulare DNA). Da in diesem Medium die 2-Hydroxyprop-2-ylradikale als einzige Spezies detektiert worden sind, sollten unter diesen Bedingungen Oxylradikale für die Strangbruchbildung verantwortlich sein, die aus den 2-Hydroxyprop-2-ylradikalen nach Addition von Luftsauerstoff hervorgehen. Die schwache Induktion von Strangbrüchen durch das Thiazolthion IV wird auf die Isopropoxylradikale zurückzuführen sein, da diese die einzigen Intermediate sind, die bei Bestrahlung dieses Photo-Fenton-Reagenzes detektiert werden. Fazit 3: Die von Pyridon IIc generierten 2-Hydroxyprop-2-ylradikale zeigen nach Addition von molekularem Sauerstoff eine höhere Aktivität zur Strangbruchbildung als die von Thiazolthion IV freigesetzten und ausschließlich detektierten Isopropoxylradikale. N2 - Reactive oxygen species induce oxidative DNA damage (oxidative stress), and consequently, they play a key role in mutagenesis, cancerogenesis and aging. Due to the increasing terrestial UV radiation, which is generating such agressive species, this topic is of particular timeliness. The reactivity of hydroxyl radicals towards DNA has been intensively investigated, whereas relatively little is known on the photobiological effects of alkoxyl radicals. In this respect, the incentive of the present dissertation has been the development of new and effective photochemical alkoxyl-radical sources. Their reactivity towards DNA was to be assessed and compared with that of the perester I, which has previously been established as photochemical alkoxyl-radical source in our group. Such a photobiological model study should provide a general DNA-damaging profile for alkoxyl radicals. 1. The water-soluble pyridone IIb has been prepared from the corresponding hydroxy derivative IIa through alkylation with tert-butyl bromide under SN1 reaction conditions (Scheme I). Its photochemical decompositon affords 2-pyridone IIIa (30 per cent) and 3-tertbutoxy-2-pyridone (IIIb, 27 per cent). Upon irradiation in organic solvents (benzene) and aqueous medium, tert-butoxyl radicals are released which are trapped by DMPO and subsequently characterized as DMPO-OtBu adducts by means of EPR spectroscopy. In aqueous medium and under the exclusion of molecular oxygen, the DMPO adduct of the methyl radical is also detected and represents the dominant DMPO-radical adduct at low DMPO concentrations. The methyl radicals result from the β cleavage of the tert-butoxyl radicals, which is facilitated in aqueous media. The photochemically released radicals of the pyridone IIb induce strand breaks in supercoiled pBR 322 DNA and oxidize dG predominantly to guanidine-releasing products (e. g. oxazolone), whereas 8-oxodG is formed in negligible amounts. The perester I displays an analogous damaging profile. The addition of radical scavengers reduces strand-break formation and dG oxidation in the photolysis of the pyridone IIb, which manifests that the resulting radicals are the oxidizing agents. The oxidative damage by the photoproducts through photosensitization is excluded, since time-dependent photooxidations reveal that strand-break formation and dG oxidation level off once all of the pyridone IIb has been consumed. Under the exclusion of molecular oxygen, the photolysis of the pyridone IIb or the perester I afford appreciable amounts of 8-MedG (2.3 per cent for pyridone IIb, 2.0 per cent for perester I) and also N7-MedG is detected, which substantiates the involvement of methyl radicals. From the known rate constants for the reaction of tert-butoxyl radicals with the guanine base and for the  fragmentation of the tert-butoxyl radical into methyl radical, it may be estimated that not more than 0.3 per cent of the generated tert-butoxyl radicals react with dG(0.10 mM) and, consequently, more than 99 per cent undergo  cleavage to methyl radicals. Conclusion 1: Pyridone IIb represents a photochemical source of tert-butoxyl radicals and displays the same damaging profile towards DNA and dG like perester I. The tert-butoxyl radicals are ruled out as damaging species, since their  fragmentation into methyl radicals overwhelmingly dominates their reaction with dG. The methylperoxyl radicals formed through oxygen trapping by the methyl radicals are responsible for the observed damage. 2. In addition to the pyridone IIb, also the photochemical isopropoxyl-radical sources pyridone IIc and thiazolethione IV have been investigated. Transient spectroscopy establishes NO-bond scission (ΦN-O = 75 ± 8 per cent for IIc and 65 ± 7 per cent IV) as the dominating primary photochemical process for both reagents. Product studies and laser-flash experiments reveal that the thiazolethione IV leads primarily to the disulfide V, from which the products VI-VIII are derived through CS-bond breakage. The isopropoxypyridone IIc affords 2-pyridone IIIa and 3-isopropoxy-2-pyridone IIIc as photoproducts, analogous to the photochemistry of the tert-butoxy derivative. Further evidence for the NO-bond cleavage is provided by the fact that upon irradiation of both reagents in benzene in the presence of DMPO, the adducts of the isopropoxyl radicals have been EPR-spectrally detected. Upon photolysis of the pyridone IIc in aqueous media (H2O : MeCN = 60 : 40), a mixture of isopropoxyl and 2-hydroxyprop-2-yl radicals are trapped by DMPO. The latter radicals result from the isopropoxyl radicals through H shift and are predominantly detected when low concentrations of DMPO are used (Scheme II). Moreover, in pure water, exlusively the carbon-centered 2-hydroxyprop-2-ylradicals are trapped by DMPO. In contrast, the thiazolethione IV affords only the adducts of the isopropoxyl radicals, independent of what DMPO concentration is applied. Control experiments reveal that the disulfide V photoproduct of the thiazolethione IV scavenges the carbon-centered radicals in competition with trapping by DMPO. Conclusion 2: Both the pyridone IIc and the thiazolethione IV decompose through NO-bond cleavage under release of isopropoxyl radicals, which rearrange in aqueous media to the carbon-centered 2-hydroxyprop-2-yl radicals. In the case of the thiazolthione IV its disulfide photoproduct V prevents efficient DMPO trapping of the 2-hydroxyprop-2-yl radicals, whereas for the pyridone IIc, the DMPO adducts of the carbon-centered radicals dominate in the EPR spectrum. 3. In supercoiled pBR 322 DNA, pyridone IIc (17 per cent) and thiazolethione IV (12 per cent) induce only moderate amounts of open-circular DNA upon irradiation in a 60 : 40 mixture of H2O-MeCN. In pure water, however, the pyridone IIc photoinduces substantially more DNA cleavage (32 per cent open-circular DNA), which is attributed to the oxyl radicals generated from the 2-hydroxyprop-2-yl radicals by oxygen trapping. The lower strand-break activity of the thiazolethione IV derives presumably from isopropoxyl radicals, because only these are detected in the photolysis of this photo-Fenton reagent. Conclusion 3: The carbon-centered 2-hydroxyprop-2-yl radicals generated from pyridone IIc in aqueous media and in absence of molecular oxygen display a higher DNA photocleaving reactivity than the isopropoxyl radicals derived from the thiazolethione IV. KW - DNS-Schädigung KW - Alkoxylierung KW - Sauerstoffradikal KW - DNA KW - organische Chemie KW - Radikale KW - Oxidativer Stress KW - DNA KW - organic chemistry KW - radicals KW - oxidative stress Y1 - 2002 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-1182591 ER - TY - CHAP A1 - Lutz, Werner K. T1 - Dose-response relationships in chemical carcinogenesis: from DNA adducts to tumor incidence N2 - Mechanistic possibilitles responsible for nonlinear shapes of the dose-response relationship in chemical carcinogenesis are discussed. (i) Induction and saturation of enzymatic activation and detoxification processes and of DNA repair affect the relationship between dose and steady-state DNA adduct Ievel; (ii) The fixation of DNA adducts in the form of mutations is accelerated by stimulation of the cell division, for Jnstance due to regenerative hyperplasia at cytotoxic dose Ievels; (iii) The rate of tumor formation results from a superposition of the rates of the individual steps. It can become exponential with dose if more than one step is accelerated by the DNA damage exerted by the genotoxic carcinogen. The strongly sigmoidal shapes often observed for dose-tumor incidence relationships in animal bioassays supports this analysis. A power of four for the dose in the su~linear part of the curve is the maximum observed (formaldehyde). In contrast to animal experiments, epidemiological data ln humans rarely show a slgnificant deviation from linearity. The discrepancy might be explained by the fact that a I arge nu mber of genes contribute to the overall sensitivity of an individual and to the respective heterogeneity within the human population. Mechanistic nonlinearities are flattened out in the presence of genetic and life-style factors which affect the sensitivity for the development of cancer. For a risk assessment, linear extrapolation from the high-dose lncidence to the spontaneaus rate can therefore be approprlate in a heterogeneous population even if the mechanism of action would result in a nonlinear shape of the dose-response curve in a homogeneaus population. KW - aflatoxin B1 KW - 2-acetylaminofluorene KW - DNA KW - adduct KW - covalent KW - binding KW - carcinogen KW - dose KW - extrapolation KW - individual KW - susceptibility KW - heterogeneous population KW - risk KW - tumour Y1 - 1991 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-71625 ER - TY - JOUR A1 - Baertsch, A. A1 - Lutz, Werner K. A1 - Schlatter, C. T1 - Effect of inhalation exposure regimen on DNA binding potency of 1,2-dichloroethane in the rat N2 - 1 ,2-Dichloroethane (DCE) was reported to be carcinogenic in rats in a long-tenn bioassay using gavage in com oil (24 and 48 mg/kg/day), but not by inhalation (up to 150-250 ppm, 7 h/day, 5 days/week). The daily dose metabolized was similar in the two experiments. In order to address this discrepancy, the genotoxicity of DCE was investigated in vivo under different exposure conditions. Fernale F-344 rats (183-188 g) were exposed to [1,2-14C]DCE in a closed inhalation chamber to either a low, constant concentration (0.3 mg/l = 80 ppm for 4 h) or to a peak concentration (up to 18 mg/1 = 4400 ppm) for a few minutes. After 12 h in the chamber, the dose metabolized under the two conditions was 34 mg/kg and 140 mg/k:g. DNA was isolated from liver and lung and was purified to constant specific radioactivity. DNA was enzymaticaBy hydrolyzed to the 3' -nucleotides which were separated by reverse phase HPLC. Most radioactivity eluted without detectable or with little optical density' indicating that the major part of the DNA radioactivity was due to covalent binding of the test compound. The Ievel of DNA adducts was expressed in the dose-nonnalized units ofthe Covalent Binding Index, CBI = f.Lmol adduct per mol DNA nucleotide/ mmol DCE per kg body wt. In liver DNA, the different exposure regimens resulted in markedly different CBI values of 1.8 and 69, for "constant-low" and ''peak" DCE exposure Ievels. In the Jung, the respective values were 0.9 and 31. It is concluded that the DNA darnage by DCE depends upon the concentration-time profile and that the carcinogenic potency determined in the gavage study should not be used for low-Ievel inhalation exposure. KW - Toxikologie KW - 1 KW - 2-Dichloroethane KW - Carcinogens KW - DNA KW - binding KW - Rat KW - Inhalation KW - Dose response Y1 - 1991 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-60743 ER - TY - INPR A1 - Wohlgemuth, Matthias A1 - Mitric, Roland T1 - Excitation energy transport in DNA modelled by multi-chromophoric field-induced surface hopping T2 - Physical Chemistry Chemical Physics N2 - Absorption of ultraviolet light is known as a major source of carcinogenic mutations of DNA. The underlying processes of excitation energy dissipation are yet not fully understood. In this work we provide a new and generally applicable route for studying the excitation energy transport in multi-chromophoric complexes at an atomistic level. The surface-hopping approach in the frame of the extended Frenkel exciton model combined with QM/MM techniques allowed us to simulate the photodynamics of the alternating (dAdT)10 : (dAdT)10 double-stranded DNA. In accordance with recent experiments, we find that the excited state decay is multiexponential, involving a long and a short component which are due to two distinct mechanisms: formation of long-lived delocalized excitonic and charge transfer states vs. ultrafast decaying localized states resembling those of the bare nucleobases. Our simulations explain all stages of the ultrafast photodynamics including initial photoexcitation, dynamical evolution out of the Franck-Condon region, excimer formation and nonradiative relaxation to the ground state. KW - Photodynamics KW - DNA Y1 - 2020 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-209467 ET - submitted version ER - TY - THES A1 - Neitz, Hermann T1 - Hydrophobic recognition motifs in functionalized DNA T1 - Hydrophobe Erkennungsmotive in funktionalisierter DNA N2 - In wässriger Umgebung spielen hydrophobe Wechselwirkungen eine wichtige Rolle für die DNA. Die Einführung von Modifikationen, die auf hydrophoben aromatischen Einheiten basieren, kann die Erkennung und Reaktivität von funktionellen Gruppen in der DNA steuern. Modifikationen können durch ein künstliches Rückgrat oder in Form einer Erweiterung der Nukleobasen eingebracht werden und so zu zusätzlichen Eigenschaften der DNA führen. Diese Dissertation befasst sich mit der Verwendung von hydrophoben Einheiten zur Funktionalisierung von DNA. Im ersten Teil der Arbeit wurde das Tolanmotiv (Diphenylacetylen) in Kombination mit dem acyclischen Rückgrat von GNA und BuNA verwendet, um Erkennungseinheiten im DNA-Kontext zu erzeugen. Die gezielte Fluorierung der aromatischen Ringe des Tolan-Bausteins bildete die Grundlage für eine supramolekulare Sprache, die auf Aren-Fluoroaren-Wechselwirkungen basiert. Die spezifische Erkennung wurde mittels thermodynamischer, kinetischer und NMR-spektroskopischer Methoden untersucht. Im zweiten Teil der Arbeit wurden Desoxyuridin-Derivate mit einer hydrophoben aromatischen Modifikation hergestellt und in die DNA-Doppelhelix eingebaut. Die Bestrahlung mit UV-Licht führte zu einer [2+2]-Cycloaddition zwischen zwei modifizierten Nukleosiden in der DNA. Das Reaktionsprodukt wurde strukturell charakterisiert und die Reaktion in verschiedenen biochemischen und nanotechnologischen DNA-Anwendungen eingesetzt. N2 - In aqueous environment, hydrophobic interactions play an important role for DNA. The introduction of modifications based on hydrophobic aromatic moieties offers additional ways for controlling recognition and reactivity of functional groups in DNA. Modifications are introduced through an artificial backbone or in the form of an extension of the nucleobases, resulting in additional properties of the DNA. This dissertation focuses on the use of hydrophobic units for the functionalization of DNA. In the first part of the work, the tolane (i. e. diphenylacetylene) motif was used in combination with the acyclic backbone of GNA and BuNA to generate recognition units in the DNA context. Fluorination of the aromatic rings in the tolane moiety provided the basis for a supramolecular language based on arene-fluoroarene interactions. The specific recognition was investigated by thermodynamic, kinetic and NMR spectroscopic methods. In the second part of the work, deoxyuridine derivatives with a hydrophobic aromatic modification were prepared and incorporated into DNA duplexes. The irradiation with UV light led to a [2+2] cycloaddition reaction between two modified nucleosides in the DNA. This reaction product was structurally characterized and the reaction was used in various biochemical and nanotechnological DNA applications. KW - Supramolekulare Chemie KW - Arene-Fluoroarene KW - Artificial Base Pair KW - Supramolecular Interaction KW - XNA KW - Crosslinking KW - DNA KW - DNS Y1 - 2024 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-348382 ER -