Estimation of life times and diffusion distances of radicals involved in x- ray-induced DNA strand breaks of killing of mammalian cells
We have used a mammalian tissue culture system to calculate the life times and diffusion distances in DNA scissions as well as cell killing for the three main products of water radiolysis: OH, H, and e$sup -$/sub aq/. Using various alcohols as radical scavengers, the average life time for OH in DNA single-strand breaks was calculated to be about 4 x 10$sup -9$ sec. Using the same data and published rate constants, the apparent life time of H atoms was calculated to vary from about 2 x 10$sup -7$ to 4 x 10$sup -6$ sec and, similarly, the calculated life time of the hydrated electron was found to vary more than was the case for OH. From these life times, the radical diffusion distances were estimated to be approximately 60 A for OH, which is reasonable, but the values for both H and e$sup -$/sub aq/ were unrealistically large, i.e., 880 to 4040 A for H and 9590 to 19,810 A for e$sup -$/sub aq/. In cell killing, the OH radical life time was estimated to be about 8.7 x 10$sup -9$ sec which gives an average diffusion distance for this radical of about 93 A. Our data support the idea that OH is the radical species primarily responsible for the indirect effect in radiation injury measured as DNA single-strand breaks or cell killing, and that H and e$sup -$/sub aq/ are not significantly involved. (auth)
- Research Organization:
- Univ. of Rochester, NY
- NSA Number:
- NSA-33-017310
- OSTI ID:
- 4121011
- Journal Information:
- Radiat. Res., v. 64, no. 2, pp. 306-320, Other Information: Orig. Receipt Date: 30-JUN-76
- Country of Publication:
- United States
- Language:
- English
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Related Subjects
560121* -Biomedical Sciences
Applied Studies-Radiation Effects-Radiation Effects on Cells-External Source
*ANIMAL CELLS- CELL KILLING
*DNA- STRAND BREAKS
*RADICALS- LIFETIME
*STRAND BREAKS- RADIOINDUCTION
BIOLOGICAL RADIATION EFFECTS
CELL CULTURES
IRRADIATION
X RADIATION