Abstract
Chromosomal anomalies associated with the use of the organic phosphate pesticide guthion were investigated in Chinese hamster cells (line CHO-K1). Most commonly observed were chromatid breaks and exchanges. Infrequently, mild failure of condensation, despiralization, secondary constriction, gaps, pulverization, ring and dicentric chromosomes were noted. The mean number of chromosome breaks per cell was significantly higher in treated cells than in control cells. Autoradiographic studies revealed that while higher dosages of the chemical (80–120 μg/ml) arrested cells and prevented their movement out of S phase, a lower dosage (60 μg/ml) caused a progression delay. In relation to the relative length of no. 1 and no. 2 chromosomes, no apparent difference existed in the incidence of total breaks between them. However, significant differences in the nonrandom distribution of breaks in no. 1 and no. 2 chromosomes indicated linear differentiation of breakage susceptibility along the chromosomes. An increased concentration of breaks was observed in the long arms of both no. 1 and no. 2 chromosomes. The experimental results suggest that guthion, as well as inducing chromosomal anomalies, may produce a viable mutant.
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Alam, M.T., Corbeil, M., Chagnon, A. et al. Chromosomal anomalies induced by the organic phosphate pesticide guthion in Chinese hamster cells. Chromosoma 49, 77–86 (1974). https://doi.org/10.1007/BF00284989
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DOI: https://doi.org/10.1007/BF00284989