@article {Brandvain005363, author = {Yaniv Brandvain and Graham Coop}, title = {Sperm should evolve to make female meiosis fair}, elocation-id = {005363}, year = {2014}, doi = {10.1101/005363}, publisher = {Cold Spring Harbor Laboratory}, abstract = {Genomic conflicts arise when an allele gains an evolutionary advantage at a cost to organismal fitness. O{\"o}genesis is inherently susceptible to such conflicts because alleles compete for inclusion in the product of female meiosis that will be transmitted to the egg. Alleles that distort meiosis in their favor (i.e. meiotic drivers) often decrease organismal fitness, and therefore indirectly favor the evolution of mechanisms to suppress meiotic drive. In this light, many facets of {\"o}ogenesis and gametogenesis have been interpreted as mechanisms of protection against genomic outlaws. That females of many animal species do not complete meiosis until after fertilization, appears to run counter to this interpretation, because this delay provides an opportunity for sperm-acting alleles to meddle with the outcome of female meiosis and help like alleles drive in heterozygous females. Contrary to this perceived danger, the population genetic theory presented herein suggests that, in fact, sperm nearly always evolve to increase the fairness of female meiosis in the face of genomic conflicts. These results are consistent with the apparent sperm-dependence of the best characterized female meiotic drivers in animals. Rather than providing an opportunity for sperm collaboration in female meiotic drive, the {\textquoteleft}fertilization requirement{\textquoteright} indirectly protects females from meiotic drivers by providing sperm an opportunity to suppress drive.}, URL = {https://www.biorxiv.org/content/early/2014/07/28/005363}, eprint = {https://www.biorxiv.org/content/early/2014/07/28/005363.full.pdf}, journal = {bioRxiv} }