TY - JOUR T1 - Parallel evolution of sperm hyper-activation Ca<sup>2+</sup> channels JF - bioRxiv DO - 10.1101/120758 SP - 120758 AU - Jacob C. Cooper AU - Nitin Phadnis Y1 - 2017/01/01 UR - http://biorxiv.org/content/early/2017/03/27/120758.abstract N2 - Sperm hyper-activation is a dramatic change in sperm behavior where mature sperm burst into a final sprint in the race to the egg. The mechanism of sperm hyper-activation in many metazoans, including humans, consists of a jolt of Ca2+ into the sperm flagellum via CatSper ion channels. Surprisingly, CatSper genes have been independently lost in several animal lineages. In Drosophila, sperm hyper-activation is performed through the co-option of the polycystic kidney disease 2 (Dpkd2) Ca2+ channel. The parallels between CatSpers in primates and Dpkd2 in Drosophila provide a unique opportunity to examine the molecular evolution of the sperm hyper-activation machinery in two independent, nonhomologous calcium channels separated by more than 500 million years of divergence. Here, we use a comprehensive phylogenomic approach to investigate the selective pressures on these sperm hyper-activation channels. First, we find that the entire CatSper complex evolves rapidly under recurrent positive selection in primates. Second, we find that pkd2 has parallel patterns of adaptive evolution in Drosophila. Third, we show that this adaptive evolution of pkd2 is driven by its role in sperm hyper-activation. These patterns of selection suggest that the evolution of the sperm hyper-activation machinery is driven by sexual conflict with antagonistic ligands that modulate channel activity. Together, our results add sperm hyper-activation channels to the class of fast evolving reproductive proteins and provide insights into the mechanisms used by the sexes to manipulate sperm behavior. ER -