Abstract
Sperm morphology is incredibly diverse, even among closely related species, yet the coevolution between males and females of fertilization recognition systems is necessary for successful karyogamy (male and female pronuclear fusion). In most species, the entire sperm enters the egg during fertilization so sperm morphological diversity may impact the intracellular sperm–egg interactions necessary for karyogamy. We quantified morphological variation of sperm inside eggs prior to and following karyogamy in several species of Drosophila to understand whether evolution of sperm morphology could influence intracellular sperm–egg interactions (ISEIs). We measured seven parameters that describe ISEIs among species to determine whether these parameters varied both within a species across development and across species at the same developmental stage. We used heterospecific crosses to test the relative role of male origin, female origin, and interaction between the male and female in determining ISEIs. We found that sperm shape changed within a species as development proceeded and, at particular development stages, species varied in some ISEIs. Parental origin had an effect on some ISEIs, with a general trend for a stronger female effect. Overall, our findings identify conserved and variable ISEIs among species and demonstrate the potential to contribute understanding to gamete evolution and development.
Highlights
Fertilization comprises complex morphological, physiological, and biochemical interactions between the gametes
intracellular sperm–egg interactions (ISEIs) are critical to successful karyogamy and subsequent development, yet sperm morphology rapidly evolves among species
How this rapid evolution impacts ISEIs is not known so, here, we report on an analytical pipeline to quantify intracellular sperm and egg parameters and test whether these parameters change across development, differ among species, and—by utilizing hybrids between species—determine the relative contribution of sperm and egg to ISEIs
Summary
Fertilization comprises complex morphological, physiological, and biochemical interactions between the gametes. |2 has been demonstrated in mammals, where zona pellucida egg coat proteins (ZP2 and ZP3), which bind sperm to initiate the acrosome reaction, show dN/dS ratios greater than one (Swanson, Clark, Waldrip-Dail, Wolfner, & Aquadro, 2001) These studies show rapid evolution of gametic surface interactions (syngamy). This 3D conformation likely appears only upon fertilization as no similar structuring has been described when sperm are in the female sperm storage organs prior to fertilization (Manier et al, 2010) Disruptions to these patterns are associated with lower karyogamy success, as in Drosophila misfire (mfr) mutants in which sperm are not located in the anterior portion of the egg and adopt a disrupted coiling structure compared to wild- type sperm (Ohsako et al, 2003) and in crosses between different D. melanogaster populations that result in sterility (Alipaz, Wu, & Karr, 2001). | 3 role to that of gamete surface interactions in other taxa which are known to be under strong selection (Wilburn & Swanson, 2016)
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