Abstract

DNA fragments of defined sequence were used to study DNA strand breakage by gamma radiation in doses ranging from 2,500 to 20,000 rads. The amount of radiation-induced DNA breakage is linearly dose-dependent, and strand scission events occur uniformly at all nucleotide sites, regardless of sequence. The 5'-terminal group at points of breakage is a simple phosphoryl moiety. Two types of radiation-induced 3' termini were identified. One species of 3' terminus is a simple phosphoryl group. The other species of 3' terminus is neither a hydroxyl nor a phosphoryl group. A model for radiation-induced DNA strand scission that involves destruction of the deoxyribose moiety is presented. Similarities among DNA strand scission events created by gamma radiation, ferrous ion, doxorubicin, and bleomycin are discussed.