Effects of spermine on the detection of induced forward mutation at the Can1 locus in yeast: evidence for selection against canavanine-resistant mutants.

The effect of exogenous spermine tetrahydrochloride (0.5 mg/ml) on hydrazine- and nitrous acid-induced forward mutation to canavanine resistance (CAN1 leads to can1, normal to defective arginine permease) was examined in stationary-phase haploid Saccharomyces cerevisiae. Post-treatment cell division (specifically DNA replication) is required for hydrazine mutagenesis at this locus, whereas nitrous acid mutagenesis exhibits, in addition, a significant post-treatment-independent component. Spermine addition only during mutagenic treatments in buffer did not affect mutagen cytotoxicity, but did result in a slight yet consistent decrease in induced mutation frequencies. Addition of spermine to the yeast extract--peptone--dextrose (YEPD) post-treatment growth medium resulted in dramatic reductions of induced mutation frequencies, which could be alleviated by pregrowth in spermine-containing YEPD. Such a medium was found to cause an apparent temporary growth inhibition for almost 40 h, after which the growth rate of the culture increased rapidly. Cultures "recovering" from spermine inhibition were no longer inhibitable by spermine in fresh medium, suggesting an outgrowth of spontaneous and/or induced spermine-resistant derivatives. Genetic analysis of one isolate revealed a single dominant nuclear gene conferring resistance by some means other than defective spermine uptake. Growth of this mutant was only slightly inhibited by spermine (20% increase in doubling time), while mutation expression remained high. Results of competitive growth experiments indicated that spermine-containing YEPD exerted a selection pressure against canavanine-resistant cells, while YEPD by itself did not. The mechanism for this selection is not presently understood. With respect to replication-dependent induced mutation at CAN1, our initial observation of a strong apparent antimutagenic action of spermine was found to be best explained by this specific selection against can1 mutants. This underscores the need for caution in the interpretation of experiments designed to study physiological modification of mutagenic potential.

Isolation of putrescine-requiring mutants of Neurospora crassa.

Two auxotrophs of Neurospora crassa have been isolated that give a positive growth response to putrescine, spermidine or spermine. One of the mutants is deficient in ornithine decarboxylase activity and has been designated put-I. Both mutants map on linkage group VR, fail to complement and are infertile when crossed to one another, indicating that they are probably alleles. A putrescine auxotroph is incapable of suppressing a pro-4 mutant. The isolation of the mutants confirms that putrescine is an essential factor the normal growth of the organism, and is synthesized via a single pathway in Neurospora.