- Effect of Several Heavy Metals on the Frequencies of Sister Chromatid Exchanges and Chromosomal Aberrations in Human Lymphocytes.
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Chae Deuk Jung, Jeong Sang Lee, Dai Ha Koh, No Suk Ki, In Dam Hwang
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Korean J Prev Med. 1989;22(1):116-124.
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- To assay the cytogenetic toxicity of NiCl, K2Cr2O7CdC12, and HgC12, the frequencies of sister chromatid exchanges(SCEs) and chromosomal aberrations were observed in the metaphase chromosomes of the human lymphocytes which were cultured with above materials. The frequencies of SCEs are dose-dependently increased by all materials in this experiment. Chromosomal aberrations, especially gap and break, are increased by the nickel and chromic compounds, while not significantly increased by the cadmium and mercurial compounds. This results indicate the dose dependent relationship between the frequencies of SCEs and the concentrations of the heavy metals, but the increasing rates of the SCEs induced by the heavy metals are less sensitive than other mutagens or carcinogens which were confirmed.
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Summary
- Effects of Anticancer Agents on Cell Cycle Kinetics and Sister Chromatid Exchanges in Cultured Human Lymphocytes.
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In Dam Hwang, No Suk Ki, Won Kihl Park, Young Oh Kim, Jeong Sang Lee
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Korean J Prev Med. 1987;20(1):1-9.
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- Sister chromatid exchanges (SCEs) observed by means of bromodeoxyuridine substitution and fluorescence plus Giemsa (FPG) technique were proposed as a sensitive and quantitative assay for mutagenicity and cytotoxicity in short-term cultures of phytohaemagglutinin (PHA)-stimulated human lymphocytes. Therefore, this study was carried out to investigate the relation between anticancer agents and cytotoxic effects. Chromosomal analysis was performed on metaphase cells that had divided one, two, or three or more times after treatment for SCEs, mitotic indices (MI) and cell cycle kinetics by FPG technique. The results indicate that anticancer agents led to a dose dependent increase in SCE frequency except methotrexate. But, highly inhibited mitotic indices and delayed cell cycle kinetics were observed except for cyclophosphamide. The author suggest that the difference of SCE frequency is due to the differences in the cytotoxic action of anticancer agents, but although the induction of SCEs has a correlation with cell cycle delay, in some cases the induction of SCEs is not always related to cell cycle delay because of different cytotoxic action of anticancer agents.
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Summary
- Effects of Mitomycin C on Sister Chromatid Exchanges in Cultured Human Lympocytes.
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In Dam Hwang, No Suk Ki, Jeong Sang Lee, Nam Song Kim, Tae ll Mun
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Korean J Prev Med. 1986;19(2):244-251.
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Abstract
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- Sister chromatid exchanges(SCEs) and cell cycle kinetics were proposed as a sensitive and quantitative assay for mutagenicity and cytotoxicity in short-term cultures of phytohemagglutinin(PHA)-stimulated human lymphocytes. Therefore, this study was performed to investigate the relation between the cytotoxic effects and sister chromatid exchanges. The results are summarized as follows: 1) The frequency of SCEs per cell are 13.1+/-2.8 in the lower concentration of 6.25x10(-9) M and 75.8+/-8.2 in the highest concentration of 1.00+/-10(-7) M. Mitotic index is decreased in the higher concentration of mitomycin C. The result indicates that mitomycin C led to a dose dependent increase in SCE frequency, but decrease in mitotic index. 2) Chromosomal analysis was performed on metaphase cells that have divided one, two, and three or more times for cell cycle kinetics by fluorescence-plus-Giemsa(FPG) technique. According to the increased but the cells of third division are greatly decreased. 3) The frequency of SCEs per chromosome by chromocomal group are decreased gradually from A group to G group. But relationships between specific chromosomal group and SCEs frequency are not found.
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