References
- Abella Columna E., Giaccia A.J., Evans J.W., Yates B.L., Morgan W.F. Analysis of restriction enzyme-induced chromosomal aberrations by fluorescence in situ hybridization. Environmental and Molecular Mutagenesis 1993; 22: 26–33
- Alvarez L., Evans J.W., Wilks R., Lucas J.N., Brown J.M., Giaccia A.J. Chromosomal radio-sensitivity at intrachromosomal telomeric sites. Genes, Chromosomes and Cancer 1993; 8: 8–14
- Bauchinger M., Schmid E., Zitselsberger H., Braselmann H., Nahrstedt U. Radiation-induced chromosome aberrations analysed by two-colour fluorescence in situ hybridization with composite whole chromosome-specific DNA probes and a pancentromeric DNA probe. International Journal of Radiation Biology 1993; 64: 179–184
- Breneman J.W., Ramsey M.J., Lee D.A., Eveleth G.G., Minkler J.L., Tucker J.D. The development of chromosome-specific composite DNA probes for the mouse and their application to chromosome painting. Chromosoma 1993; 102: 591–598
- Breneman J.W., Swiger R.R., Eveleth G.G., Langlois R.G., Groch K.M., Brooks A., Tucker J.D. The development of rat chromosome painting probes by degenerate oligonucleotide primed PCR (submitted). 1994b
- Breneman J.W., Swiger R.R., Ramsey M.J., Lee D.A., Minkler J.L., Eveleth G.G., Langlois R., Tucker J.D. The development of painting probes for dual-color and multiple chromosome analysis in the mouse. Cytogenetics and Cell Genetics 1994a, in press
- Buckton K.E. Identification with G and R banding of the position of breakage points induced in human chromosomes by in vitro X-irradiation. International Journal of Radiation Biology 1976; 29: 475–488
- Evans H.J. chromosome aberrations induced by ionizing radiations. International Review of Cytology 1962; 13: 221–320
- Heddle J.A. Randomness in the formation of radiation-induced chromosome aberrations. Genetics 1965; 52: 1329–1334
- Johnson G.D., de C Nogueira Araujo G.M. A simple method of reducing the fading of immunofluorescence during microscopy. Journal of Immunological Methods 1981; 43: 349–350
- Lucas J.N., Tenjin T., Straume T., Pinkel D., Moore D., II, Litt M., Gray J.W. Rapid human chromosome aberration analysis using fluorescence in situ hybridization. International Journal of Radiation Biology 1989; 56: 35–44, Erratum, 201
- Nakano M., Nakashima E., Pawell D.J., Kodama Y., Awa A. Frequency of reciprocal translocations and dicentrics induced in human blood lymphocytes by X-irradiation as determined by fluorescence in situ hybridization. International Journal of Radiation Biology 1993; 64: 565–569
- Natarajan A.T., Vyas R.C., Darroudi F., Vermeulen S. Frequencies of X-ray induced chromosome translocations in human peripheral lymphocytes as detected by in situ hybridization using chromosome-specific DNA libraries. International Journal of Radiation Biology 1992; 61: 199–203
- Park V.M., Gustashaw K.M., Wathen T.M. The presence of interstitial telomeric sequences in constitutional chromosome abnormalities. American Journal of Human Genetics 1992; 50: 914–923
- Savage J.R.K., Simpson P. FISH ‘painting’ patterns resulting from complex exchanges. Mutation Research 1994a; 312: 51–60
- Savage J.R.K., Simpson P. On the scoring of FISH-‘painted’ chromosome-type exchange aberrations. Mutation Research 1994b; 307: 345–353
- Schmid E., Zitselsberger H., Braselman H., Gray J.W., Bauchinger M. Radiation-induced chromosome aberrations analysed by fluorescence in situ hybridization with a triple combination of composite whole chromosome-specific DNA probes. International Journal of Radiation Biology 1992; 62: 673–678
- Straume T., Lucas J.N. A comparison of the yields of translocations and dicentrics measured using fluorescence in situ hybridization. International Journal of Radiation Biology 1993; 64: 185–187
- Tucker J.D., Morgan W.F., Awa A.A., Bauchinger M., Blakey D., Cornforth M.N., Littlefield L.G., Natarajan A.T., Shasserre C.A. A system of nomenclature for structural aberrations detected by chromosome painting. Cytogenetics and Cell Genetics 1994, in press
- Tucker J.D., Ramsey M.J., Lee D.A., Minkler J.L. Validation of chromosome painting as a biodosimeter in human peripheral lymphocytes following acute exposure to ionizing radiation in vitro. International Journal of Radiation Biology 1993; 64: 27–37
- Tucker J.D., Senft J.R. Analysis of naturally occurring and radiation-induced breakpoint locations in human chromosomes 1, 2, and 4. Radiation Research 1994; 139: 31–36