Induction of Lethality and DNA Breakage by the Decay of Iodine-125 in Bacteriophage T4

Abstract

Iodine-125 has been incorporated into the DNA of coliphage T4 in the form of 5-iododeoxyuridine (IUdR), an analogue of thymidine. ¹²⁵I decays by electron capture with consequent vacancy cascades and multiple ionization (Auger effect). This decay mode is known to cause extensive fragmentation of labelled small molecules. ¹²⁵I-labelled T4 phage have been stored in a glycerol-casamino acid storage medium at −196°C during decay and assayed for the induction of lethalities and double-strand breaks (DSB's) in DNA. The lethal efficiency per decay, α(lethal), is 0·59 ± 0·08, in reasonable agreement with the previously determined value for ¹²⁵I decay in T1 phage, α(lethal) = 0·49 ± 0·03. The efficiency of induction of DSB's, as determined by sedimentation of extracted DNA in neutral sucrose gradients, is 1·01 ± 0·13. These results indicate that every decay causes a DSB, but that some DSB's are non-lethal. α(DSB) is independent of storage temperature during decay (+4°C versus −196°C) and is also independent of whether storage is as intact phage or as free DNA. This suggests that the observed DNA breakage is due to local ¹²⁵I decay effects, rather than to the ionizing radiation emitted during decay.