References
- Ahnstrom G., Bryant P.E. DNA double-strand breaks generated by the repair of X-ray damage in Chinese hamster cells. International Journal of Radiation Biology 1982; 41: 671–676
- Blocher D. DNA double strand breaks in Ehrlich ascites tumour cells at low doses of X-rays. 1. Determination of induced breaks by centrifugation at reduced speed. International Journal of Radiation Biology 1982; 42: 317–328
- Bradley M.O., Kohn K.W. X-ray induced DNA double strand break production, and repair in mammalian cells as measured by neutral filter elution. Nucleic Acids Research 1979; 7: 793–804
- Burki H.J., Roots R., Feinendegen L.E., Bond V.P. Inactivation of mammalian cells after disintegrations of 3H or 125I in cell DNA at -196°C. International Journal of Radiation Biology 1973; 24: 363–375
- Chadwick K.H., Leenhouts H.P. The Molecular Theory of Radiation Biology. Springer-Verlag, Berlin 1981
- Chan P.C., Lisco E., Lisco H., Adelstein S.J. The radiotoxicity of iodine-125 in mammalian cells. 2. A comparative study on cell survival and cytogenetic responses to 125IUdR, 131IUdR, and 3HTdR. Radiation Research 1976; 67: 332–343
- Cole A., Shonka F., Corry P., Grant Cooper W. CHO cell repair of single-strand and double-strand DNA breaks induced by γ- and α-radiation. Molecular Mechanisms for the Repair of DNA, R.B. Setlow, P.C. Hanawalt. Plenum Press, New York 1975; 665–676
- Cooke B.C., Fielden E.M., Johnson M., Smithen C.E. Polyfunctional radiosensitizers. 1. Effects of a nitroxyl biradical on the survival of mammalian cells in vitro. Radiation Research 1976; 65: 152–162
- Drake W.P., Ungaro P.C., Mardiney M.R. Formalin-fixed cell preparations as standards for use in the automated trypan blue cytotoxic assay. Transplantation 1972; 14: 127–130
- Eldridge J.S., Crowther P. Absolute determination of 125I. Nucleonics 1964; 22: 56–59
- Feinendegen L.E. Biological damage from the Auger effect, possible benefits. Radiation and Environmental Biophysics 1975; 12: 85–99
- Kellerer A.M., Rossi H.H. A generalized formulation of dual radiation action. Radiation Research 1978; 75: 471–488
- Krisch R.E. Lethal effects of iodine-125 decay by electron capture in Escherichia coli and in bacteriophage T1. International Journal of Radiation Biology 1972; 21: 167–189
- Krisch R.E., Krasin F., Sauri C.J. DNA breakage, repair, and lethality accompanying 125I decay in micro-organisms. Current Topics in Radiation Research Quarterly 1977; 12: 355–368
- Krisch R.E., Sauri C.J. Further studies of DNA damage and lethality from the decay of iodine-125 in bacteriophages. International Journal of Radiation Biology 1975; 27: 553–560
- Lehmann A.R., Ormerod M.G. Double-strand breaks in the DNA of a mammalian cell after X-irradiation. Biochimica et Biophysica Acta 1970; 217: 268–277
- Lehmann A.R., Stevens S. The production and repair of double strand breaks in cells from normal humans and from patients with ataxia telangiectasia. Biochimica et Biophysica Acta 1977; 474: 49–60
- LeMotte P.K., Little J.B. A comparison of the lethal effects of intracellular radionuclides in human and rodent cells. Radiation Research 1983; 95: 359–369
- Liskay R.M. Absence of a measurable G2 phase in two Chinese hamster cell lines. Proceedings of the National Academy of Sciences, U.S.A. 1977; 74: 1622–1625
- Lucke-Huhle C. Alpha-irradiation-induced G2 delay: a period of cell recovery. Radiation Research 1982; 89: 298–308
- Martin R.F., Donohue D.C., Finch L.R. New analytical procedure for the estimation of DNA with p-nitrophenylhydrazine. Analytical Biochemistry 1972; 47: 562–574
- Martin R.F., Haseltine W.A. Range of radiochemical damage to DNA with decay of iodine-125. Science 1981; 213: 896–898
- Miyazaki N., Fujiwara Y. Mutagenic and lethal effects of [5-125I]iodo-2′-deoxyuridine incorporated into DNA of mammalian cells, and their RBEs. Radiation Research 1981; 88: 456–465
- Painter R.B., Young B.R., Burki H.J. Non-repairable strand breaks induced by 125I incorporated into mammalian DNA. Proceedings of the National Academy of Sciences, U.S.A. 1974; 71: 4836–4838
- Radford I.R. Effects of hyperthermia on the repair of X-ray-induced DNA double strand breaks in mouse L cells. International Journal of Radiation Biology 1983; 43: 551–557
- Radford I.R. The level of induced DNA double-strand breakage correlates with cell killing after X-irradiation. International Journal of Radiation Biology 1985; 48: 45–54
- Sundell-Bergman S., Johanson K.J. Repairable and unrepairable DNA strand breaks induced by decay of 3H and 125I incorporated into DNA of mammalian cells. Radiation and Environmental Biophysics 1980; 18: 239–248
- Sundell-Bergman S., Johanson K.J. Impaired repair capacity of DNA strand breaks induced by 125I-triiodothyronine in Chinese hamster cells. Biochemical and Biophysical Research Communications 1982; 106: 546–552
- Van der Schans G.P., Centen H.B., Lohman P.H.M. DNA lesions induced by ionizing radiation. Progress in Mutation Research, A.T. Natarajan, G. Obe, H. Altmann. Elsevier, Amsterdam 1982; 4: 285–299
- Van der Schans G.P., Paterson M.C., Cross W.G. DNA strand break and rejoining in cultured human fibroblasts exposed to fast neutrons or gamma rays. International Journal of Radiation Biology 1983; 44: 75–85
- Whitmore G.F., Gulyas S., Botond J. Radiation sensitivity throughout the cell cycle and its relationship to recovery. Cellular Radiation Biology. Williams and Wilkins, Baltimore 1965; 423–441, Proceedings of the 18th Annual Symposium on Fundamental Cancer Research, M.D. Anderson Hospital
- Wilson M., Dardano J., Rothschild H. An automated, rapid, and quantitative microassay for histocompatibility testing. Transplantation 1973; 16: 408–414
- Woods W.G. Quantitation of the repair of gamma-radiation-induced double-strand DNA breaks in human fibroblasts. Biochimica et Biophysica Acta 1981; 655: 342–348