Background <p>Reproductive proteins evolve rapidly, making them strong candidates for driving postmating-prezygotic (PMPZ) reproductive mismatches between populations. While most previous studies have focused on protein sequence divergence as a likely driver of PMPZ disruptions, reproductive proteomes may also diverge compositionally and/or quantitatively.</p> Results <p>Here, we combine quantitative proteomics, molecular evolutionary analyses, and protein–protein interaction (PPI) modeling to predict the molecular basis of reproductive mismatches between <i>Drosophila mojavensis</i> and <i>D. arizonae</i>. We demonstrate multidimensional divergence in reproductive proteomes including changes at the sequence, compositional, and quantitative levels. We further demonstrate that three divergent male seminal fluid proteins affect the size of the insemination reaction mass and/or fertilization success in <i>D. arizonae</i>. Despite high sequence divergence, predicted protein–protein interactions involving a conserved set of proteases and/or protease inhibitors were predicted to be maintained in heterospecific crosses. In contrast, predicted interspecies protein mismatches arose from proteome compositional divergence, suggesting that such changes may play a disproportionate role in PMPZ isolation, at least for the subset of the interactome that we tested. Furthermore, extensive quantitative divergence, particularly for proteases and inhibitors, suggests pervasive stoichiometric mismatches in heterospecific matings.</p> Conclusions <p>Altogether, our findings indicate that reproductive proteins are evolutionarily labile at multiple levels, and that compositional and quantitative divergence, rather than sequence changes alone, may be central to the early evolution of reproductive isolation.</p>

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Evolution of the reproductive interactome and the origins of postmating–prezygotic reproductive divergence

  • Jeremy M. Bono,
  • Luciano M. Matzkin,
  • Helen K. Pigage,
  • Toan Hoang,
  • Santana L. Navarrette,
  • Marissa K. Benavidez,
  • Clinton Green,
  • Carson W. Allan

摘要

Background

Reproductive proteins evolve rapidly, making them strong candidates for driving postmating-prezygotic (PMPZ) reproductive mismatches between populations. While most previous studies have focused on protein sequence divergence as a likely driver of PMPZ disruptions, reproductive proteomes may also diverge compositionally and/or quantitatively.

Results

Here, we combine quantitative proteomics, molecular evolutionary analyses, and protein–protein interaction (PPI) modeling to predict the molecular basis of reproductive mismatches between Drosophila mojavensis and D. arizonae. We demonstrate multidimensional divergence in reproductive proteomes including changes at the sequence, compositional, and quantitative levels. We further demonstrate that three divergent male seminal fluid proteins affect the size of the insemination reaction mass and/or fertilization success in D. arizonae. Despite high sequence divergence, predicted protein–protein interactions involving a conserved set of proteases and/or protease inhibitors were predicted to be maintained in heterospecific crosses. In contrast, predicted interspecies protein mismatches arose from proteome compositional divergence, suggesting that such changes may play a disproportionate role in PMPZ isolation, at least for the subset of the interactome that we tested. Furthermore, extensive quantitative divergence, particularly for proteases and inhibitors, suggests pervasive stoichiometric mismatches in heterospecific matings.

Conclusions

Altogether, our findings indicate that reproductive proteins are evolutionarily labile at multiple levels, and that compositional and quantitative divergence, rather than sequence changes alone, may be central to the early evolution of reproductive isolation.