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Phosphorothioate DNA as an antioxidant in bacteria.

Nucleic acids research (2012-07-10)
Xinqiang Xie, Jingdan Liang, Tianning Pu, Fei Xu, Fen Yao, Yan Yang, Yi-Lei Zhao, Delin You, Xiufen Zhou, Zixin Deng, Zhijun Wang
RESUMEN

Diverse bacteria contain DNA with sulfur incorporated stereo-specifically into their DNA backbone at specific sequences (phosphorothioation). We found that in vitro oxidation of phosphorothioate (PT) DNA by hydrogen peroxide (H(2)O(2)) or peracetic acid has two possible outcomes: DNA backbone cleavage or sulfur removal resulting in restoration of normal DNA backbone. The physiological relevance of this redox reaction was investigated by challenging PT DNA hosting Salmonella enterica cells using H(2)O(2). DNA phosphorothioation was found to correlate with increasing resistance to the growth inhibition by H(2)O(2). Resistance to H(2)O(2) was abolished when each of the three dnd genes, required for phosphorothioation, was inactivated. In vivo, PT DNA is more resistant to the double-strand break damage caused by H(2)O(2) than PT-free DNA. Furthermore, sulfur on the modified DNA was consumed and the DNA was converted to PT-free state when the bacteria were incubated with H(2)O(2). These findings are consistent with a hypothesis that phosphorothioation modification endows DNA with reducing chemical property, which protects the hosting bacteria against peroxide, explaining why this modification is maintained by diverse bacteria.

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Sigma-Aldrich
Peracetic acid solution, 32 wt. % in dilute acetic acid
Sigma-Aldrich
Peracetic acid solution, 8.7% in acetic acid