Mutagenesis of yeast by hydrazine: dependence upon post-treatment cell division.

Hydrazine was found to be mutagenic for yeast (Saccharomyces cerevisiae) at exposures (concentration × time) ranging over nearly three orders of magnitude. Little or no forward mutation from CAN1 to can1 was detectable upon immediate plating following treatment in neutral buffer suspension. Post-treatment cell division in yeast extract peptone dextrose complex growth medium was required for expression of induced mutation to canavanine resistance. Frequencies of induced mutation rose to levels approximately 10-fold higher than spontaneous levels for exposures between 0.1 and 12.0 min mol/l. Survival remained at 100%. For exposures greater than 80 min mol/l viability and mutation frequency began to decrease sharply. By contrast, single treatments of ethyl methanesulfonate, methyl methanesulfonate, N-methyl-N′-nitro-N-nitro-soguanidine, nitrous acid, hydroxylamine, and ultraviolet light were able to increase mutation frequency with this system upon immediate assay. Further growth-dependent increases in mutation frequency were not observed with HA and UV.Expression of HZ-induced mutation was detectable after treated cells had undergone less than one population doubling in YEPD. Such mutation expression could be blocked by the inhibitors cycloheximide and hydroxyurea, which block protein synthesis and DNA synthesis respectively. Results were similar to those obtained previously with Haemophilus influenzae and similarly suggest that, in this eukaryote, HZ-induced lesions lead to mutation by causing base mispairing at DNA replication rather than by means of an error-prone repair mechanism.