Energy Requirements for Damaging DNA Molecules
- 1 January 1975
- journal article
- research article
- Published by Taylor & Francis in International Journal of Radiation Biology and Related Studies in Physics, Chemistry and Medicine
- Vol. 27 (6) , 543-552
- https://doi.org/10.1080/09553007514550571
Abstract
Strand break formation and biological inactivation of infectious DNA of bacteriophage ΦX 174 exposed to vacuum-ultra-violet radiation of 4·9 to 21·2 eV quantum energy is investigated. At 21·2 eV as many as 84 per cent of the DNA molecules are inactivated by breaks whereas breaks do not contribute to inactivation at 4·9 eV. The quantum yield of break formation increases from 1·7 × 10−5 (4·9 eV) to 0·55 (21·2 eV) and shows a dependence on energy similar to that of electron emission (due to ionization) above 8 eV. The mechanisms leading to break formation and inactivation are discussed taking the absorption spectrum of DNA in the vacuum-ultra-violet region into consideration.Keywords
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