References
- Ager D.D., Phillips J.W., Abella Columan E., Winegar R.A., Morgan W.F. Analysis of restriction enzyme-induced DNA double-strand breaks in Chinese hamster ovary cells by pulsed-field gel electrophoresis: implications for chromosome damage. Radiation Research 1991; 128: 150–156
- Bender M.A., Moore R.C. DNA polymerase δ mediates increase in exchange production by X-irradiation in human lymphocytes moving from G0 to G1. Mutation Research 1991; 250: 319–324
- Brenner D.J. On the probability of interaction between elementary radiation-induced chromosomal injuries. Radiation and Environmental Biophysics 1988; 27: 189–199
- Brenner D.J. Track structure, lesion development, and cell survival. Radiation Research 1990; 124: S29–S37
- Bryant P.E. Enzymatic restriction of mammalian cell DNA using Pvu II and Bam HI: evidence for the double-strand break origin of chromosomal aberrations. International Journal of Radiation Biology 1984; 46: 57–65
- Bryant P.E., Christie A.F. Induction of chromosomal aberrations in CHO cells by restriction endonucleases: effects of blunt- and cohesive-ended double-strand breaks in cells treated by ‘pellet’ methods. Mutation Research 1989; 213: 233–241
- Chung H.-W., Phillips J.W., Winegar R.A., Preston R.I., Morgan W.F. Modulation of restriction enzyme-induced damage by chemicals that interfere with cellular responses to DNA damage: a cytogenetic and pulsed-field gel analysis. Radiation Research 1991; 125: 107–113
- Costa N.D., Bryant P.E. The induction of DNA double-strand breaks in CHO cells by PvuII: kinetics using neutral filter elution (pH 9·6). International Journal of Radiation Biology 1990; 57: 933–938
- Evans H.J. Chromosome aberrations induced by ionizing radiations. International Review of Cytology 1962; 13: 221–321
- Haaf T., Schmid M. Chromosome topology in mammalian interphase nuclei. Experimental Cell Research 1991; 192: 325–332
- Hahnfeldt P. Markov models of radiation damage. Department of Mathematics, MIT. 1991, Thesis
- Hahnfeldt P., Sachs R.K., Hlatky L.R. Evolution of DNA damage in irradiated cells. Journal of Mathematical Biology 1992a; 30: 493–511
- Hahnfeldt P., Hlatky L.R., Sachs R.K. Chromosome geometry and intra-arm, intrachromosome or interchromosome aberrations at low or high LET. Abstracts of Papers for the Fortieth Annual Meeting of the Radiation Research Society 1992b; 17–17
- Hlatky L., Sachs R., Hahnfeldt P. Reaction kinetics for the development of radiation-induced chromosome aberrations. International Journal of Radiation Biology 1991; 59: 1147–1172
- Hlatky L., Sachs R.K., Hahnfeldt P. The ratio of dicentrics to centric rings produced in human lymphocytes by acute low LET irradiation. Radiation Research 1992; 129: 304–308
- Karlin S., Taylor H.M. A First Course in Stochastic Processes. Academic Press, New York 1975
- Lea D.E. Actions of Radiations on Living Cells. University Press, Cambridge, Cambridge 1955
- Lloyd D.C., Edwards A.A., Prosser J.S. Chromosome aberrations induced in human lymphocytes by in vitro acute x and gamma radiation. Radiation Protection Dosimetry 1986; 15: 83–88
- Lucas J.N., Tenjin T., Straume T., Pinkel D., Moore D., Litt M., Gray J.W. Rapid human chromosome aberration analysis using fluorescence in situ hybridization. International Journal of Radiation Biology 1989; 56: 35–44, [published erratum appears in International Journal of Radiation Biology, 56, 201).
- Morgan W.F., Winegar R.A. The use of restriction endonucleases to study the mechanisms of chromosome damage. Chromosomal Aberrations: Basic and Applied Aspects, G. Obe, A.T. Natarajan. Springer-Verlag, Berlin 1990; 70–78, In
- Morgan W.F., Yates B.L., Rufer J.T., Abella Columna E., Valcarcel E.R., Phillips J.W. Chromosomal aberration induction in CHO cells by combined exposure to restriction enzymes and X-rays. International Journal of Radiation Biology 1991; 60: 627–634
- Natarajan A.T., Obe G. Molecular mechanisms involved in the production of chromosomal aberrations. III. Restriction endonucleases. Chromosoma 1984; 90: 120–127
- O'Brien S.J. Genetic Maps: Locus Maps of Complex Genomes. Cold Spring Harbor Laboratory Press, Cold Spring Harbor, NY 1990; 4.92–4.92
- Revell S.H. The accurate estimation of chromatid aberrations and its relevance to a new interpretation of chromatid aberrations produced by ionizing radiation. Proceedings of the Royal Society of London 1959; 150: 563–589
- Revell S.H. The breakage-and-reunion theory and the exchange theory for chromosomal aberrations induced by ionizing radiations: A short history. Advances in Radiation Biology, J.T. Lett, H. Adler, M. Zelle. Academic Press, New York 1974; 4: 367–416, In
- Sachs R.K., Chen P.-L., Hahnfeldt P., Hlatky L.R. DNA damage caused by ionizing radiation. Mathematical Biosciences 1992, In press
- Savage J.R.K. Mechanisms of chromosome aberrations. Mutation and the Environment, Part B: Metabolism, Testing Methods, and Chromosomes, M.L. Mendelsohn, R.J. Albertini. Wiley-Liss, New York 1990; 385–396, In
- Savage J.R.K., Harvey A.N. Revell revisited. Mutation Research 1991; 250: 307–317
- Savage J.R.K., Papworth D.G. Distortion hypothesis: an alternative to a limited number of sites for radiation induced chromosome damage. Journal of Theoretical Biology 1969; 22: 493–514
- Savage J.R.K., Papworth D.G. The relationship of radiation-induced yield to chromosome arm number. Mutation Research 1973; 19: 139–143
- Sax K. An analysis of x-ray induced chromosomal aberrations in Tradescantia. Genetics 1940; 25: 41–68
- Thode S., Schafer A., Pfeiffer P., Vielmetter W. A novel pathway of DNA end-to-end joining. Cell 1990; 60: 921–928
- Wolff S. Interpretation of induced chromosome breakage and rejoining. Radiation Research 1959, Suppl. 1: 453–462
- Wolff S. Some postirradiation phenomena that affect the induction of chromosome aberrations. Journal of Cellular and Comparative Physiology 1961; 58: 151–162
- Wolff S. The kinetics for two-break chromosome exchanges. Journal of Theoretical Biology 1962; 3: 304–313
- Wolff S. Chromosome aberrations and the cell cycle. Radiation Research 1968; 33: 609–619
- Yates B.L., Valcarcel E.R., Morgan W.F. Restriction enzyme-induced DNA double-strand breaks as a model system for cellular responses to DNA damage. International Journal of Radiation Oncology, Biology and Physics 1992, in press
- Zakian V.A. Structure and function of telomeres. Annual Review of Genetics 1989; 23: 579–604