Use of the FBX dosemeter for the calibration of cobalt-60 and high-energy teletherapy machines.

The doses from the cobalt-60 teletherapy machines were measured using the FBX and secondary-standard dosemeters of Farmer-Baldwin type. The FBX dosemeter contained 0.20 mM ferrous ammonium sulphate, 5.0 mM benzoic acid and 0.20 mM xylenol orange in 0.05 N sulphuric acid. The values were compared with the values from a Fricke dosemeter and a graphite chamber used as primary standards. The values of the FBX, Fricke and graphite chambers agreed. There were, however wide differences among the different secondary-standard dosemeters themselves and with the FBX dosemeter. The FBX dosemeter was used for the measurement of central axis depth dose distributions for 5, 8, 10, 20 and 30 MeV electron and 42 MV x-ray beams.

Combined mutagenic action of chemicals and radiation in diploid yeast.

The interaction between the mutagenic action of chemicals and radiation was studied by using a diploid yeast strain Saccharomyces cerevisiae BZ 34 with mitotic gene conversion as the end-point. The cells were treated with EMS, MMS or 4-NQO alone or in combination with gamma-radiation. The 2 alkylating agents EMS and MMS produced an additive mutagenic response, whereas 4-NQO exhibited an antagonistic effect in the combined treatment with gamma-radiation.

Genotoxicity of selenite in diploid yeast.

Selenite, a chemical of industrial importance and also an antimutagenic/anticarcinogenic agent, was tested for mutagenic and recombinogenic effects in 2 diploid yeast strains, Saccharomyces cerevisiae BZ 34 and D7. Selenite induced gene conversion and toxicity in BZ 34 and a variety of genetic events, viz. back-mutation, gene conversion, mitotic crossing-over, aberrant colony formation and also toxicity in the D7 strain. In both strains, the genetic effects of selenite showed a peak and a decline during 5 h of treatment while its toxicity increased marginally during 1-5 h. In the BZ 34 strain, the presence of glutathione (GSH) during selenite treatment greatly enhanced the convertogenic and toxic effects of selenite.

Post-irradiation modifications of radiation-induced heteroallelic reversion in diploid yeast: effect of nutrient broth.

The effect of post-irradiation growth in complete rich medium on the expression of the reversion to arginine-independence induced by gamma and alpha radiation in a heteroallelic diploid yeast strain (Saccharomyces cerevisiae BZ34) has been studied. During the post-irradiation treatment the reversion frequency increased, reached a peak at about 90 min and decreased thereafter reaching a constant value for treatment periods exceeding 6 h. As determined by the increase in number of budding cells, extensive DNA synthesis took place in cells incubated only in the nutrient medium and not in the omission medium. Hence the observed increase in the reversion frequency is explained on the basis that post-irradiation DNA synthesis is necessary for the expression of gene conversion. The decrease in the reversion frequency for continued treatment with yeast extract, peptone, dextrose (YEPD) is related to the fact that only one daughter of the post-irradiation first cell division is a revertant. The broth effect was not lost when the irradiated cells were first incubated for 90 min in arginine-less medium and then transferred to the broth. Similarly, the broth effect persisted even at doses high enough to induce considerable division delay. These results suggest that the radiation-induced pre-conversional lesions are not susceptible to repair by alternative pathways.

Non-equivalence of YEPD and synthetic complete media in yeast reversion studies.

In yeast reversion studies, assay of the total number of cells is made by plating irradiated cells on agar plates containing yeast extract, peptone and dextrose (YEPD) medium. The number of revertants are scored by plating cells on synthetic complete (SC) medium deficient in the particular nutrient for which the reversion is tested. In this procedure equivalence for cell survival between the YEPD and the SC media is always assumed. However it is shown in this paper that this assumption is valid only up to dose levels where cell killing is not significant. At high doses, survivals on the two media differ significantly from each other for both high and low LET radiations. This difference influences the slope of the reversion frequency curve at high doses. Since the reversion frequency is expressed with reference to the number of survivors after a given radiation dose, it is essential to see that the same chance of survival is offered to the reverted and unreverted cells. Even though reversion is reported to vary linearly with dose, it is found that this linearity is restricted only to dose levels where cell killing is not significant. At higher doses, the reversion frequency varies in a very complex manner with dose for both high and low LET radiations. The complexity depends further on the reference medium chosen.