M. Quintiliani scite author profile

A survey is made of literature data dealing with the influence of oxygen on radiation effects in biologically active DNA and enzymes irradiated extracellularly. There is evidence that oxygen takes part in physico-chemical events, directly or indirectly produced by radiation in several ways: from scavenging reducing primary water radicals to reacting directly with macromolecular radical sites. There is evidence that radiation-induced secondary radicals, originating from a variety of low molecular weight biomolecules, can react with DNA and enzymes in their native state, and produce inactivation. By reaction with oxygen secondary radicals become peroxidized and in this form are generally more harmful to biological macromolecules. There are indications that thiol peroxy radicals can also act in the same way. Possible implications for the oxygen effect observed in vivo are discussed.

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Interactions of Thiyl Free Radicals with Oxygen: A Pulse Radiolysis Study

Tamba¹,

Simone

Quintiliani³

1986

International Journal of Radiation Biology and Related Studies

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A pulse radiolysis study of glutathione in aqueous solution at pH 5.5 containing N2O/O2 mixtures at various ratios indicates that oxygen rapidly adds to the thiyl glutathione radical yielding a transient absorption, with a maximum at 540 nm, whose characteristics appear to be compatible with assignment to the GSOO. radical. The reaction (Formula: see text) appears to be an equilibrium whose kinetic constants have been estimated (kf = 2.0 X 10(9) dm3 mol-1, kb = 6.2 X 10(5) s-1). Evidence for electron transfer from ascorbate to the GSOO. radical has been obtained and the respective rate constant has been determined to be 1.75 +/- 0.15 X 10(8) dm3 mol-1 s-1.

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Relationships Between Cell Killing, Mutation Induction and DNA Damage in X-irradiated V79 Cells: The Influence of Oxygen and DMSO

Sapora

Barone

Belli

et al. 1991

International Journal of Radiation Biology

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The relationships between cell killing, mutation induction and DNA double (dsb) and single (ssb) strand breaks have been studied in V79 cells irradiated with X-rays under oxic and anoxic conditions in the presence and in the absence of dimethylsulphoxide (DMSO). Curvilinear relationships were found between all pairs of endpoints, except for dsb versus ssb. Statistical analysis of experimental data has shown that in the absence of DMSO there is evidence of good correlations between cell killing, mutation induction and dsb in oxic and anoxic conditions. However, when DMSO was present, no significant correlation was found. In the presence of oxygen DMSO always exerts a protective effect while in anoxia it is generally much less protective and induces a strong sensitization with respect to mutation induction. Possibly DMSO acts not only as a radical scavenger but also as an agent inducing chromatin relaxation and/or under anoxia, forming highly mutagenic short-term radicals. The present data suggest that lethal and mutational events are at least partially independent and not proportional to the initial number of DNA breaks. This may imply that either other kinds of lesions are involved in cell lethality and mutability, or dose-dependent repair mechanisms of dsb have to be considered.

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Pulse Radiolytic Study of Hydrogen Transfer from Glutathione to Organic Radicals

Baker

Badiello²,

Tamba³

et al. 1982

International Journal of Radiation Biology and Related Studies

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M. Quintiliani

Radiolysis of Glutathione in Oxygen-containing Solutions of pH 7

The Oxygen Effect in Radiation Inactivation of DNA and Enzymes

Interactions of Thiyl Free Radicals with Oxygen: A Pulse Radiolysis Study

Relationships Between Cell Killing, Mutation Induction and DNA Damage in X-irradiated V79 Cells: The Influence of Oxygen and DMSO

Pulse Radiolytic Study of Hydrogen Transfer from Glutathione to Organic Radicals

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