Atypical meiosis can be adaptive in outcrossed Schizosaccharomyces pombe due to wtf meiotic drivers

Abstract

Killer meiotic drivers are genetic parasites that destroy ‘sibling’ gametes lacking the driver allele. The fitness costs of drive can lead to selection of unlinked suppressors. This suppression could involve evolutionary tradeoffs that compromise gametogenesis and contribute to infertility.Schizosaccharomyces pombe, an organism containing numerous gamete (spore)-killingwtfdrivers, offers a tractable system to test this hypothesis. Here, we demonstrate that in scenarios analogous to outcrossing,wtfdrivers generate a fitness landscape in which atypical spores, such as aneuploids and diploids, are advantageous. In this context,wtfdrivers can decrease the fitness costs of mutations that disrupt meiotic fidelity and, in some circumstances, can even make such mutations beneficial. Moreover, we find thatS. pombeisolates vary greatly in their ability to make haploid spores, with some isolates generating up to 46% aneuploid or diploid spores. This work empirically demonstrates the potential for meiotic drivers to shape the evolution of gametogenesis.