Radiation Protection of Escherichia coli B/r by Hydroxyl Radical Scavengers
- 1 February 1987
- journal article
- research article
- Published by JSTOR in Radiation Research
- Vol. 109 (2) , 256-274
- https://doi.org/10.2307/3576952
Abstract
We have used Escherichia coli B/r to test the proposal that hydroxyl radicals (.OH) are major contributors to lethal damage when bacteria in equilibrium with air or 100% nitrogen are exposed to ionizing radiation. In addition, we have tested the hypothesis that oxygen sensitizes bacterial cells to radiation by reacting at radical sites previously formed by reactions of .OH. Our results with B/r indicate that the involvement of OH radicals in damage may have been overestimated. We believe that simple .OH removal provides B/r with only a relatively small amount of protection in N2 and air. Although some .OH scavengers can have large protective effects in air, evidence supports the tentative conclusion that these effects are not based on simple .OH removal. If this conclusion is correct, then radiation sensitization by oxygen.sbd.at least of this bacterial strain.sbd.would be unrelated to reactions of .OH.This publication has 9 references indexed in Scilit:
- DNA Polymerase I Is Crucial for the Repair of Potentially Lethal Damage Caused by the Indirect Effects of X Irradiation in Escherichia coliRadiation Research, 1985
- Radiation Sensitization of E. coli B/r by Nitrous OxideRadiation Research, 1983
- Hydroxyl Radical Damage in Low Oxygen Concentrations in Irradiated BacteriaInternational Journal of Radiation Biology, 1982
- Anoxic Radiation Protection of Bacterial Spores in SuspensionRadiation Research, 1976
- Effects of Some ·OH Scavengers on the Radiation Sensitization of Bacterial Spores byp-nitroacetophenone and O2in SuspensionInternational Journal of Radiation Biology, 1976
- Macromolecular Repair and Free Radical Scavenging in the Protection of Bacteria against X-RaysRadiation Research, 1965
- On the Mechanism of Radiation Protection by Cysteamine: An Investigation by Means of Electron Spin ResonanceRadiation Research, 1963
- The Sensitivity of Microorganisms to Irradiation under Controlled Gas ConditionsRadiation Research, 1957
- The Concentration of Oxygen Dissolved in Tissues at the Time of Irradiation as a Factor in RadiotherapyThe British Journal of Radiology, 1953