Ferran Prat scite author profile

The oxidation of 7,8-dihydro-8-oxoguanine (8-oxoG)-containing oligodeoxynucleotides has been investigated using a variety of oxidants, including one-electron oxidants (Ir(IV), Fe(III), NiCR/KHSO5, and SO4 -•) as well as singlet oxygen, generated both photochemically and thermally. The extents of oxidation in single-stranded and duplex oligodeoxynucleotides are compared, confirming theoretical ionization potentials of 8-oxoG in different sequence contexts in duplex DNA. As with guanine, 8-oxoG residues stacked in a duplex with a 3‘ neighboring G are more readily oxidized by one-electron oxidants than those stacked next to other bases, although the effect of stacking appears to be less pronounced for 8-oxoG than for G. Regardless of sequence, 8-oxoG is always more easily oxidized than the four natural nucleobases, even in the presence of multiple G sequences. Reactions with singlet molecular oxygen, thought to proceed through a cycloaddition mechanism, show little sequence selectivity and a 7-fold higher reactivity with single-stranded compared to duplex 8-oxoG residues. One-electron oxidants, such as Ir(IV) complexes, showed a more modest 3−4-fold higher reactivity with single-stranded DNA. In contrast, the Schiff base complex [NiCR]2+, used in conjunction with a strong oxidant, KHSO5, shows a 2-fold preference for oxidation of duplex vs single-stranded 8-oxoG, perhaps because of the high driving force and the possibility for competing G oxidation to equilibrate to 8-oxoG oxidation via hole transfer. Overall, these results point to subtle mechanistic differences in one-electron oxidation but a major distinction between one-electron and 1O2-mediated oxidation. Furthermore, they suggest an important role for 8-oxoG, not only as a product of oxidative DNA damage but also as a substrate for further oxidation.

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Triplet-State Properties and Singlet Oxygen Generation in a Homologous Series of Functionalized Fullerene Derivatives

Prat

et al. 1999

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The main properties of the triplet states and the yields of singlet oxygen generation for a series of methano[60]fullerene adducts with increasing numbers of substituents were determined. The triplet properties investigated are energies, triplet−triplet absorption spectra, extinction coefficients, and quantum yields. A strong correlation is observed between several triplet properties and the topology of the fullerene core. Successive fragmentation of the chromophore of the parent C60 results in higher triplet energies and lower triplet quantum yields. In addition, singlet oxygen quantum yields (φΔ) were determined for all adducts and decrease as the area of the conjugated fullerene core decreases.

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A comparison between the photophysical and photosensitising properties of tetraphenyl porphycenes and porphyrins

et al. 2005

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Ferran Prat

Effect of Guanine Stacking on the Oxidation of 8-Oxoguanine in B-DNA

Sequence and Stacking Dependence of 8-Oxoguanine Oxidation: Comparison of One-Electron vs Singlet Oxygen Mechanisms

Triplet-State Properties and Singlet Oxygen Generation in a Homologous Series of Functionalized Fullerene Derivatives

A comparison between the photophysical and photosensitising properties of tetraphenyl porphycenes and porphyrins

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