Journal ArticleDOI
Drosophila melanogaster seminal fluid can protect the sperm of other males
TLDR
It is suggested that residual seminal fluid inside females could benefit the sperm of subsequent mates, affecting the outcome of sperm competition and influencing the evolution of ejaculates and mating systems.Abstract:
Summary
1Many internally-fertilizing animals produce seminal fluid which is transferred along with sperm during mating. Seminal fluid typically contains a diverse range of chemicals that coordinate sperm storage, moderate sperm motility, provide advantages in sexual selection and influence female physiology.
2Seminal fluid is well-studied in Drosophila melanogaster, a species in which it has been suggested to ‘incapacitate’ the sperm of rival males (e.g. by killing them) and thereby provide an advantage in sperm competition. This hypothesis has been tested several times over many years, but different studies have yielded conflicting conclusions. Here, I use fluorescent staining to directly measure the effects of D. melanogaster seminal fluid on the survival of sperm from the same male or from a rival. The results suggest that seminal fluid improves sperm survival, even if the sperm are from a different male. This study therefore provides strong evidence that seminal fluid does not kill rival sperm, and instead can actually protect them. This study also tested whether chemicals in the female reproductive tract harm sperm as in another Drosophila species, but found no evidence of this.
3These findings suggest that residual seminal fluid inside females could benefit the sperm of subsequent mates, affecting the outcome of sperm competition and influencing the evolution of ejaculates and mating systems.read more
Citations
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Journal ArticleDOI
Sperm production responds to perceived sperm competition risk in male Drosophila melanogaster.
TL;DR: The data suggest that males show plasticity in the rate of spermatogenesis that is adaptive in the context of a fluctuating sperm competition environment, and that males upregulate sperm production in response to the presence of rivals.
Journal ArticleDOI
Seminal fluid affects sperm viability in a cricket.
TL;DR: Using in vitro mixtures of sperm and seminal fluid from pairs of male crickets, it is shown that seminal fluid can affect the viability of sperm in this species.
Journal ArticleDOI
Ejaculate-mediated paternal effects: evidence, mechanisms and evolutionary implications
Jonathan P. Evans,Alastair J. Wilson,Andrea Pilastro,Francisco Garcia-Gonzalez,Francisco Garcia-Gonzalez +4 more
TL;DR: Evidence is gathered from several disciplines and numerous taxonomic systems to reveal the extent of ejaculate-mediated paternal effects (EMPEs), which are both widespread and varied in their effects, although studies reporting their evolutionary effects are still in their infancy.
Journal ArticleDOI
Seminal fluid proteins differ in abundance between genetic lineages of honeybees.
TL;DR: It is concluded that significant alterations in the abundance or modification state of specific proteins in seminal fluid can be linked to different genotypes in honeybees.
Journal ArticleDOI
Male reproductive aging arises via multifaceted mating-dependent sperm and seminal proteome declines, but is postponable inDrosophila
Irem Sepil,Ben R. Hopkins,Ben R. Hopkins,Rebecca Dean,Eleanor Bath,Solomon Friedman,Ben Swanson,Harrison J. Ostridge,Harrison J. Ostridge,Lucy Harper,Lucy Harper,Norene A. Buehner,Mariana F. Wolfner,Rebecca Konietzny,Marie-Laëtitia Thézénas,Elizabeth Sandham,Philip D. Charles,Roman Fischer,Josefa Steinhauer,Benedikt M. Kessler,Stuart Wigby,Stuart Wigby,Stuart Wigby +22 more
TL;DR: It is demonstrated that seminal fluid deterioration contributes to male reproductive decline via mating-dependent mechanisms that include posttranslational modifications to seminal proteins and altered seminal proteome composition and transfer, and is found that lifespan-extending systemic down-regulation of insulin signaling results in improved late-life ejaculate performance, indicating simultaneous amelioration of both somatic and reproductive aging.
References
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Reactive oxygen species and sperm physiology
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Sperm in competition: not playing by the numbers.
TL;DR: To understand how postcopulatory sexual selection influences sperm traits, future research should determine sex-specific interactions that influence paternity, identify genetic correlations between ejaculate characters, quantify the relative costs of producing different sperm trait, and test assumptions of models of sperm quality evolution.
Journal ArticleDOI
Tokens of love: functions and regulation of Drosophila male accessory gland products.
TL;DR: These studies provide excellent models to address basic questions in cell biology such as the control of genes in response to sex-specific, mating-regulated and cell type-specific cues and the function and targeting of peptide hormones.