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Becker TW, Krieger G, Witte I: Different DNA damaging species as a result of oxidation of n-butyraldehyde and iso-butyraldehyde by Cu (II). Life Sci. 1998;63(8):645-57. The isomers n- and iso-butyraldehyde (BuA) in combination with Cu (II) induced single and double strand breaks in PM2 DNA, whereas the aldehydes, or Cu (II) alone had only negligible effect. The DNA damage was the result of radical oxidations of the aldehydes under formation of Cu (I). Cu (I) formation was independent of molecular oxygen. Extensive DNA degradation was only observed in the presence of molecular oxygen. Characterization of DNA damage pointed to different ultimate DNA damaging species. While catalase and neocuproine inhibited strand break formation induced by iso-BuA/Cu (II) to a high degree, these inhibitors were less effective in the n-BuA/Cu (II) reaction. On the other hand, sodium azide showed a high strand break inhibition in the n-BuA/Cu (II) reaction, but low inhibition in the iso-BuA/Cu (II) reaction. 2-Deoxyguanosine was hydroxylated in the 8-position by iso-BuA/Cu (II) but little reaction occurred with n-BuA/Cu (II). Chemiluminescence was detected during both BuA/Cu (II) reactions, whereby the intensity of the luminescence signal was 3.5-fold higher for n-BuA/Cu (II) than for iso-BuA/Cu (II). We suppose that the copper (II)-driven oxidation of n- and iso-BuA proceeds via different pathways with different DNA damaging consequences. Whereas the oxidation of iso-BuA mainly results in damage by .OH-radicals, the oxidation of n-BuA may lead to a radical reaction chain whereby excited states are involved and the resulting DNA-damaging species are not .OH-radicals. |
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