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Summary
The frequencies and types of mutations induced in the target gene, supF-tRNA, of the shuttle vector pZ189 were analysed following the replication of the gamma-irradiated plasmid in the human lymphoblastoid cell line, GM606. The mutation frequency measured in progeny of unirradiated pZ189 was 1·02 × 10−4, increasing to 17·5 × 10−4 at 1000 cGy, and to 63·4 × 10−4 at 5000 cGy, approximately 17- and 62-fold over background levels, respectively. Simultaneously, the number of plasmids capable of replicating in Escherichia coli decreased with increasing radiation dose to 4% of the control value at 5000 cGy. Electrophoresis of the irradiated DNA showed a correlation between increases in mutation frequency and decreases in plasmid survival, and the formation of open-circular and linear DNA. The majority of the spontaneous (69·8%) and induced mutations (85·7% at 1000 and 79·4% at 5000 cGy) were base substitutions and were generally of similar types among all groups. However, changes at 2500 (12·7%) and 5000 cGy (13·2%) involving A:T base pairs were greater than those in unirradiated controls (3·4%) or those at 1000 cGy (2·0%). This increase in A:T base pair mutations could be a result of reduced repair fidelity when the DNA is extensively damaged by high doses of ionizing radiation.