Justyna Miloch scite author profile

The TYT and TXT trimeric oligonucleotides, where X stands for a native nucleobase, T (thymine), C (cytosine), A (adenine), or G (guanine), and Y indicates a brominated analogue of the former, were irradiated with ionizing radiation generated by a (60)Co source in aqueous solutions containing Tris as a hydroxyl radical scavenger. In the past, these oligomers were bombarded with low energy electrons under an ultra-high vacuum and significant damage to TXT trimers was observed. However, in aqueous solution, hydrated electrons do not produce serious damage to TXT trimers although the employed radiation dose exceeded many times the doses used in radiotherapy. Thus, our studies demonstrate unequivocally that hydrated electrons, which are the major form of electrons generated during radiotherapy, are a negligible factor in damage to native DNA. It was also demonstrated that all the studied brominated nucleobases have a potential to sensitize DNA under hypoxic conditions. Strand breaks, abasic sites and the products of hydroxyl radical attachment to nucleobases have been identified by HPLC and LC-MS methods. Although all the bromonucleobases lead to DNA damage under the experimental conditions of the present work, bromopyrimidines seem to be the radiosensitizers of choice since they lead to more strand breaks than bromopurines.

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UV-Induced Strand Breaks in Double-Stranded DNA Labeled with 5-Bromouracil: Frank or Secondary?

Wiczk

Miloch

Rak

2013

J. Phys. Chem. Lett.

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Some literature reports suggest that in DNA labeled with 5-bromouracil (5BrU), near-UV photons lead to strand breaks that are formed due to the formation of a reactive uracil-5-yl radical capable of abstracting a hydrogen atom from its own or adjacent sugar moiety, which results in a direct strand break. However, other reports propose the formation of 2′-deoxyribonolactone rather than a strand break during the photodamage of 5BrU-substituted DNA. In order to resolve these contradictions, we carried out a series of experiments where 25 nucleotides-long DNA duplexes labeled with 5BrU were irradiated with 300 nm light. Two experimental methods were used to detect and separate the degradation products generated under experimental conditions, DHPLC (completely denaturing high-performance liquid chromatography) and denaturing PAGE electrophoresis. In addition, the identity of the particular products was confirmed with negative ion mass spectrometry. Our studies demonstrate that direct strand breaks reported in the past for 5BrU-labeled oligonucleotides are rather secondary breaks. SECTION: Biophysical Chemistry and Biomolecules

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DHPLC and MS studies of a photoinduced intrastrand cross-link in DNA labeled with 5-bromo-2′-deoxyuridine

Wiczk

Miloch

Rak

2014

Journal of Photochemistry and Photobiology B: Biology

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Reactivity Pattern of Bromonucleosides Induced by 2-Hydroxypropyl Radicals: Photochemical, Radiation Chemical, and Computational Studies

et al. 2015

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The bromonucleosides (BrdX's) 5-bromo-2'-deoxyuridine (BrdU), 5-bromo-2'-deoxycytidine (BrdC), 8-bromo-2'-deoxyadenosine (BrdA), and 5-bromo-2'-deoxyguanosine (BrdG) may substitute for ordinary nucleosides in DNA. As indicated by electron-stimulated desorption experiments, such a modified biopolymer is greater than 2-3-fold more sensitive to damage induced by excess electrons. The other major product of water radiolysis, the (•)OH radical, may form a number of other radicals in chemical reactions with the complex content of the cell. Thus, the well-proved BrdU-labeled DNA radiosensitivity may be, at least in part, related to secondary organic radicals. Therefore, in the current study, the propensity of BrdX's to damage induced by 2-hydroxypropyl radical (OHisop(•))-a prototype radical species-was investigated. The HPLC and LC-MS analyses revealed the formation of two major products from the brominated pyrimidine nucleosides, a native nucleoside and an adduct of BrdX and OHisop(•) , and only an adduct of BrdX from the bromopurine nucleosides. Quantum chemical calculations ascribed this evident difference between purines and pyrimidines to the electron transfer from OHisop(•) to BrdX that is especially favorable in pyrimidines.

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Justyna Miloch

Irreversible electron attachment – a key to DNA damage by solvated electrons in aqueous solution

UV-Induced Strand Breaks in Double-Stranded DNA Labeled with 5-Bromouracil: Frank or Secondary?

DHPLC and MS studies of a photoinduced intrastrand cross-link in DNA labeled with 5-bromo-2′-deoxyuridine

Reactivity Pattern of Bromonucleosides Induced by 2-Hydroxypropyl Radicals: Photochemical, Radiation Chemical, and Computational Studies

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