References
- Awa A., Sofuni T., Honda T., Itoh N., Heriishi S., Otake M. Relationship between the radiation dose and chromosome aberrations in atomic bomb survivors of Hiroshima and Nagasaki. Journal of Radiation Research 1978; 19: 126–140
- Bauchinger M. Zeitliche veränderung nach Radium-Röntgen Therapie gynekologischer Thmorea. Strahlentherapie 1968; 135: 553–564
- Bender M., Gooch P. Somatic chromosome aberrations induced by human whole-body irradiation: The ‘recuplex’ criticality accident. Radiation Research 1966; 29: 568–582
- Buckton K., Hamilton G., Paton L., Langlands A. Chromosome aberrations in irradiated ankylosing spondylitis patients. Mutagen-Induced Chromosome Damage in Man, H. Evans, D. Lloyd. Edinburgh University Press, Edinburgh 1978; 142–150
- Buroker N., Bestwick R., Haight G., Magenis R.E., Litt M. A hypervariable repeated sequence on human chromosome 1p36. Human Genetics 1987; 77: 175–181
- Cooke H.J., Hindley J. Cloning of human satellite III DNA: different components are on different chromosomes. Nucleic Acids Research 1979; 10: 3177–3197
- Cooke P., Seabright M., Wheeler M. The differential distribution of X-ray induced chromosome lesions in trypsin-banded preparation from human subjects. Humangenetik 1975; 28: 221–231
- Dutrillaux B., Viegas-Pequignot E., Prod'homme M., Sportes M. Distribution of the various radiation-induced chromosomal rearrangements in relation to the dose and sample time. Mutation Research 1985; 152: 197–203
- Evans H.C., Buckton K.E., Sumner A.T. Cytological mapping of human chromosomes: Results obtained with quinacrine fluorescence and the acetic-saline-giemsa techniques. Chromosoma 1971; 35: 310–325
- Fuscoe J., Collins C., Pinkel D., Gray J.W. An efficient method for selecting unique-sequence clones from DNA libraries and its application to fluorescent staining of human chromosome 21 using in situ hybridization. Genomics 1988, in press
- Johnson G., Araujo G. A sample method of reducing the fading of immunofluorescence during microscopy. Journal of Immunological Methods 1981; 43: 349–350
- Littlefield G., Joiner E., DuFrain R., Hubner K., Beck W. Cytogenetic dose estimates from in vivo samples from persons involved in real or suspected radiation exposures. The Medical Basis for Radiation Accident Preparedness, K. Hubner, S. Fry. Elsevier, Amsterdam 1980; 375–390
- Lloyd D., Purrott R., Dolphin G., Bolton D., Edwards A. The relationship between chromosome aberrations and low LET radiation dose to human lymphocytes. International Journal of Radiation Biology 1975; 28: 75–90
- Lloyd D., Prosser J., Lelliott D., Moquet J. Doses in radiation accidents investigated by chromosome aberration analysis. XII. A review of cases investigated: 1981. UK National Radiological Protection Board Report 1982; R-128: 215–288
- Mendelsohn M., Mayall B., Bogart E., Moore D., II, Perry B. DNA content of the various radiation-induced chromosomal rearrangements in relation to the dose and sample time. Science 1973; 179: 1126–1129
- National Bureau of Standards. Physical Aspects of Irradiation. 1964, Handbook 85
- Pinkel D., Straume T., Gray J.W. Cytogenetic analysis using quantitative high-sensitivity fluorescence hybridization. Proceedings of the National Academy of Sciences (USA) 1986; 83: 2934–2938
- Pinkel D., Landegent J., Collins C., Fuscoe J., Segraves R., Lucas J., Gray J. Fluorescence in situ hybridization with human chromosome-specific libraries: Detection of trisomy 21 and translocations of chromosome 4. Proceedings of the National Academy of Sciences 1988; 85: 9138–9142
- Sasaki M., Miyata H. Biological dosimetry in atomic bomb survivors. Nature 1968; 220: 1189–1193