Chromosome aberrations in Norwegian reindeer following the Chernobyl accident.
暂无分享,去创建一个
[1] S. G. Srikantia,et al. Sister chromatid exchanges in protein-energy malnutrition , 2004, Human Genetics.
[2] F. Mitelman,et al. Sister chromatid exchanges and structural chromosome aberrations in relation to age and sex , 2004, Human Genetics.
[3] U. Oestreicher,et al. Chromosome investigation of individuals living in areas of southern Germany contaminated by fallout from the Chernobyl reactor accident. , 1993, Mutation research.
[4] L. Padovani,et al. Cytogenetic study in lymphocytes from children exposed to ionizing radiation after the Chernobyl accident. , 1993, Mutation research.
[5] L. Verschaeve,et al. Chromosome aberrations in inhabitants of Byelorussia: consequence of the Chernobyl accident. , 1993, Mutation research.
[6] S. Petrenko,et al. Chromosome aberrations in human lymphocytes apparently induced by Chernobyl fallout. , 1993, Health physics.
[7] J. Wolff,et al. Iodide prophylaxis in Poland after the Chernobyl reactor accident: benefits and risks. , 1993, The American journal of medicine.
[8] D. Lloyd,et al. 'Rogue' cells observed in children exposed to radiation from the Chernobyl accident. , 1993, International journal of radiation biology.
[9] H. Braselmann,et al. Chromosome analysis in a population living in an area of Germany with the highest fallout deposition from the Chernobyl accident. , 1992, Mutation research.
[10] E. I. Hamilton. Environmental contamination following a major nuclear accident]: Vols. I and II, Int. Atomic Energy Agency, Vienna. Proceedings of a symposium held in Vienna, 16–20 October, 1989. Vol. I (1989), 497 pp. Price: Aust. Sch. 1340; Vol. II (1990), 452 pp , 1992 .
[11] K. Røed,et al. Chromosome aberrations in Norwegian reindeer calves exposed to fallout from the Chernobyl accident. , 2008, Hereditas.
[12] A. Brøgger,et al. The effect on lymphocyte chromosomes of additional radiation burden due to fallout in Salzburg (Austria) from the Chernobyl accident. , 1991, Mutation research.
[13] M. Cristaldi,et al. Environmental impact of the Chernobyl accident: mutagenesis in bank voles from Sweden. , 1991, International journal of radiation biology.
[14] X. Tang,et al. Cytogenetic investigation in lymphocytes of people living in cadmium-polluted areas. , 1990, Mutation research.
[15] M. Cristaldi,et al. 137Cs determination and mutagenicity tests in wild Mus musculus domesticus before and after the Chernobyl accident. , 1990, Environmental pollution.
[16] U. Oestreicher,et al. An increased frequency of structural chromosome aberrations in persons present in the vicinity of Chernobyl during and after the reactor accident. Is this effect caused by radiation exposure? , 1989, Mutation research.
[17] G. Saxebøl,et al. Fallout and radiation doses in Norway after the Chernobyl accident , 1988 .
[18] A. Carrano,et al. A cytogenetic study of papaya workers exposed to ethylene dibromide. , 1986, Mutation research.
[19] M. Weissel,et al. Structural chromosomal aberrations before and after administration of 20 muCi iodine-131. , 1982, Mutation research.
[20] G. Gerber,et al. Chromosomal aberrations in workers professionally exposed to lead. , 1977, Journal of toxicology and environmental health.
[21] S. Wolff. Sister chromatid exchange. , 1977, Annual review of genetics.
[22] P. Horton,et al. A comparison of physical and cytogenetic estimates of radiation dose in patients treated with iodine-131 for thyroid carcinoma. , 1976, International journal of radiation biology and related studies in physics, chemistry, and medicine.
[23] S. Wolff,et al. New Giemsa method for the differential staining of sister chromatids , 1974, Nature.
[24] Il'inskikh Nn,et al. Chromosome disturbances in leucocytes of the peripheral blood of influenza patients. , 1974 .
[25] A. Carrano. Chromosome aberrations and radiation-induced cell death. II. Predicted and observed cell survival. , 1973, Mutation research.
[26] T. Hvinden,et al. Cæesium-137 and Strontium-90 in Precipitation, Soil and Animals in Norway , 1961, Nature.