TheDrosophila melanogasterY-linked gene,WDY, is required for sperm to swim in the female reproductive tract

Abstract

ABSTRACTUnique patterns of inheritance and selection on Y chromosomes lead to the evolution of specialized gene functions. Yet characterizing the function of genes on Y chromosomes is notoriously difficult. We report CRISPR mutants in Drosophila of the Y-linked gene,WDY, which is required for male fertility.WDYmutants produce mature sperm with beating tails that can be transferred to females but fail to enter the female sperm storage organs. We demonstrate that the sperm tails ofWDYmutants beat approximately half as fast as wild-type sperm’s and that the mutant sperm do not propel themselves within the male ejaculatory duct or female reproductive tract (RT). These specific motility defects likely cause the sperm storage defect and sterility of the mutants. Regional and genotype-dependent differences in sperm motility suggest that sperm tail beating and propulsion do not always correlate. Furthermore, we find significant differences in the hydrophobicity of key residues of a putative calcium-binding domain between orthologs ofWDYthat are Y-linked and those that are autosomal. Given thatWDYappears to be evolving under positive selection, our results suggest thatWDY’s functional evolution coincides with its transition from autosomal to Y-linked inDrosophila melanogasterand its most closely related species. Finally, we show that mutants for another Y-linked gene,PRY, also show a sperm storage defect that may explain their subfertility. In contrast toWDY, PRYmutants do swim in the female RT, suggesting they are defective in yet another mode of motility, navigation, or a necessary interaction with the female RT. Overall, we provide direct evidence for the long-held presumption that protein-coding genes on the Drosophila Y regulate sperm motility.