Ras mutants enhance the ability of cells to anticipate future lethal stressors

Abstract Organisms integrate information of current environmental stressors and can adjust themselves against harmful events that might occur in the future. The molecular processes that lead to such “anticipatory” behaviors, although of great interest, are mostly unexplored and the minimal genetic requirements for reconfiguring key signaling networks in order either to create or to strengthen such vital “anticipatory” capabilities is largely unknown. We identified new “anticipatory” phenotypes in yeast cells by evolving yeast strains that strongly associate a present modest stress with a future deadly one. Whole genome sequencing and classic genetic analysis revealed that two dominant negative ras2 alleles ( ras2 -K23N and ras2 -G17C) displayed a strong “anticipatory” ability being highly resistant to oxidative stress, extremely thermotolerant and long lived only following an initial mild heat shock. We suggest that such “anticipatory” phenotypes can be easily evolved by a single point mutation in a key signaling protein, the Ras2 small GTPase, and we propose a molecular model describing how specific ras2 alleles, and not null ras2 mutants, or mutations in other components of the Ras/cAMP pathway, can enhance the “predictive ability” of cells for future lethal stressors.