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Contribution of base lesions to radiation-induced clustered DNA damage: implication for models of radiation response.

Jenner TJ., Fulford J., O'Neill P.

Biophysical modeling of radiation-induced DNA damage shows that significant yields of clustered DNA damage are formed after energy deposition by a single radiation track. To date, the majority of studies on radiation-induced DNA damage in cells have concentrated on determination of the yields of single- and double-strand breaks (DSBs), the latter representing one type of clustered DNA damage. It was recognized, however, that clustered DNA damage, which does not contain a DSB, might contain a combination of DNA base lesions and single-strand breaks in proximity. This mini-review discusses some of the recent experimental data confirming the induction of non-DSB, clustered DNA damage by radiation.

Type

Journal article

Journal

Radiat Res

Publication Date

11/2001

Volume

156

Pages

590 - 593

Keywords

DNA, DNA Damage, Humans, Models, Biological, Plasmids, Radiation, Ionizing