The costs and benefits of killer toxin production by the yeast Pichia kluyveri.

Numerous yeast species in many genera are able to produce and excrete extracellular toxic proteins (mycocins) that can kill other specific sensitive yeasts. Natural distributions of killer yeasts suggest that they may be important in maintaining community composition and provide a benefit to the toxin producing cells. The fact that not all yeasts are killers and that polymorphisms exist within some killer species suggests there may be a cost associated with killer toxin production. This study focuses on the costs and benefits associated with toxin production by the yeast Pichia kluyveri. Strains differing in their ability to kill were obtained by tetrad dissection. One parent strain produced spores that exhibited a trade-off between killing ability and intrinsic growth rate. A killer clone from this strain was able to maintain a higher proportion of cells than a non-killer when grown with the same sensitive yeast under laboratory-simulated natural conditions. On the other hand, when grown with a yeast not sensitive to Pichia kluyveri toxin, the non-killer maintained a higher proportion of the total community than did the killer clone. The data support the hypothesis that there are both costs and benefits to producing killer toxin, and based on this, selection may favor different phenotypes in different conditions.