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  • Title: Irradiation of plasmid and phage DNA in water-alcohol mixtures: strand breaks and lethal damage as a function of scavenger concentration.
    Author: Klimczak U, Ludwig DC, Mark F, Rettberg P, Schulte-Frohlinde D.
    Journal: Int J Radiat Biol; 1993 Nov; 64(5):497-510. PubMed ID: 7902389.
    Abstract:
    We have measured the yields of strand break formation and biological inactivation as a function of OH scavenger concentration for 60Co gamma-irradiated pBR322 plasmid and M13mp9 RF phage DNA. The yields of single-strand breaks (ssbs), double-strand breaks formed proportionally to dose (alpha dsbs), and lethal damage (LD) decrease with increasing scavenging capacity sigma, their ratios remaining approximately constant up to sigma approximately 10(8) s-1. On a double-logarithmic plot the yields decrease linearly with sigma in parallel lines. At higher scavenging capacities, the yields, while still decreasing, level off to a different extent. Our results for the yields of ssbs and alpha dsbs confirm those of Krisch et al. (1991) using SV40 DNA. The data were analysed assuming that DNA damage is brought about by OH radicals, and a non-scavengeable portion arising from the direct radiation effect. Using a model based on non-homogeneous scavenging kinetics, the dependence on scavenging capacity of the ssb yield could be quantitatively accounted for. From the scavenging dependence of the yield of dsbs which are formed quadratically with dose (beta dsbs) and which are the result of two independent ssbs within a critical distance h, a value of about 13 basepairs was obtained for h. The parallel decrease in the yield of ssbs and alpha dsbs with scavenging capacity was rationalized in terms of the Siddiqi-Bothe mechanism (Siddiqi and Bothe 1987). The efficiency of this mechanism was found to be approximately 0.01. From the analysis of the LD yields it was shown that up to sigma approximately 10(8) s-1, inactivation is predominantly due to single OH radicals which lead to LD with an efficiency of 0.12 per OH-induced ssb. At higher scavenging capacities, a non-scavengeable spur effect similar to the locally multiply damaged sites mechanism of Ward (1988) mainly contributes to LD.
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