Maternal-Zygotic Gene Conflict Over Sex Determination: Effects of Inbreeding

Maternal-Zygotic Gene Conflict Over Sex Determination: Effects of Inbreeding

John H. Werren^a and Melanie J. Hatcher^b
^a Biology Department, University of Rochester, Rochester, New York 14627
^b Centre for Biodiversity and Conservation, School of Biology, University of Leeds, Leeds LS2 9JT, United Kingdom

Corresponding author: John H. Werren, Biology Department, University of Rochester, Rochester, NY 14627.

Communicating editor: M. K. UYENOYAMA

There is growing evidence that sex determination in a wide rangeof organisms is determined by interactions between maternal-effectgenes and zygotically expressing genes. Maternal-effect genestypically produce products (e.g., mRNA or proteins) that areplaced into the egg during oogenesis and therefore depend uponmaternal genotype. Here it is shown that maternal-effect andzygotic genes are subject to conflicting selective pressuresover sex determination in species with partial inbreeding orsubdivided populations. The optimal sex ratios for maternal-effectgenes and zygotically expressing genes are derived for two models:partial inbreeding (sibmating) and subdivided populations withlocal mating in temporary demes (local mate competition). Inboth cases, maternal-effect genes are selected to bias sex determinationmore toward females than are zygotically expressed genes. Byinvestigating the invasion criteria for zygotic genes in a populationproducing the maternal optimum (and vice versa), it is shownthat genetic conflict occurs between these genes. Even relativelylow levels of inbreeding or subdivision can result in maternal-zygoticgene conflict over sex determination. The generality of maternal-zygoticgene conflict to sex determination evolution is discussed; suchconflict should be considered in genetic studies of sex-determiningmechanisms.

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