Protein-specific manipulation of ejaculate composition in response to female mating status in
            <i>Drosophila melanogaster</i>

Sirot, Laura K.; Wolfner, Mariana F.; Wigby, Stuart

doi:10.1073/pnas.1100905108

Cited by 161 publications

(191 citation statements)

References 52 publications

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“…What is even more remarkable is that males appear able to tailor their seminal fluid composition to a particular mating event. Thus, when mating with a virgin female, males will transfer relatively more ovulin than when mating with a previously mated female, presumably because oviposition has already been induced by the female's previous mating partner (Sirot et al 2011). Such strategic adjustments in fecundity enhancing sfps are consistent with the predictions arising from game theoretic modeling of male ejaculate expenditure (Cameron et al 2007, Alonzo & Pizzari 2010.…”

Section: Strategic Adjustments In Seminal Fluid Compositionsupporting

confidence: 75%

Sperm wars and the evolution of male fertility

Simmons¹,

Fitzpatrick²

2012

Reproduction

295

343

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Females frequently mate with several males, whose sperm then compete to fertilize available ova. Sperm competition represents a potent selective force that is expected to shape male expenditure on the ejaculate. Here, we review empirical data that illustrate the evolutionary consequences of sperm competition. Sperm competition favors the evolution of increased testes size and sperm production. In some species, males appear capable of adjusting the number of sperm ejaculated, depending on the perceived levels of sperm competition. Selection is also expected to act on sperm form and function, although the evidence for this remains equivocal. Comparative studies suggest that sperm length and swimming speed may increase in response to selection from sperm competition. However, the mechanisms driving this pattern remain unclear. Evidence that sperm length influences sperm swimming speed is mixed and fertilization trials performed across a broad range of species demonstrate inconsistent relationships between sperm form and function. This ambiguity may in part reflect the important role that seminal fluid proteins (sfps) play in affecting sperm function. There is good evidence that sfps are subject to selection from sperm competition, and recent work is pointing to an ability of males to adjust their seminal fluid chemistry in response to sperm competition from rival males. We argue that future research must consider sperm and seminal fluid components of the ejaculate as a functional unity. Research at the genomic level will identify the genes that ultimately control male fertility.

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Section: Strategic Adjustments In Seminal Fluid Compositionsupporting

confidence: 75%

Sperm wars and the evolution of male fertility

Simmons¹,

Fitzpatrick²

2012

Reproduction

295

343

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“…Accordingly, in Mediterranean flies, Ceratitis capitata, costs of male courtship were higher than reproduction-induced costs because of sperm production or mating (Papadopoulos et al, 2010). On the other hand, data from Drosophila and crickets point to their ability to modulate the composition of the ejaculate (Sirot et al, 2011;Dowling and Simmons, 2012), and potentially alter the allocation of reproductive costs. Nevertheless, observations of gamete production costs would need to be reconciled with data from worms indicating that removal of the somatic gonad compensates for removal of the germline (Kenyon, 2010).…”

Section: Discussionmentioning

confidence: 99%

“…These costs can themselves be modulated with age. For instance, female attributes and male age have been implicated in the modulation of sperm production costs (Sirot et al, 2011;Dowling and Simmons, 2012). Nevertheless, naturally occurring genetic variation in males and in females might limit the generality of studies that address molecular mechanisms of reproduction and longevity within a single genotype.…”

Section: Introductionmentioning

confidence: 99%

“…Mechanisms through which male-female interactions affect mortality and longevity are varied, and include: (1) a direct role of the germline in somatic aging (Hsin and Kenyon, 1999;Kirkwood and Austad, 2000;ArantesOliveira et al, 2002;Cargill et al, 2003;Ghazi et al, 2009;Austad, 2010;Kenyon, 2010;Tatar, 2010;Mason et al, 2011;McCormick et al, 2011;Gendron et al, 2014;Maures et al, 2014;Shi and Murphy, 2014), (2) male and female harm to each other during copulation (Chapman et al, 1995;Wolfner, 2009), (3) costs to gamete production (Sirot et al, 2011;Dowling and Simmons, 2012) and (4) observations of diffusible sex-harming factors transmitted between the sexes and between individuals of the same sex (Gendron et al, 2014;Maures et al, 2014;Shi and Murphy, 2014). These costs can themselves be modulated with age.…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Reproductive activity triggers accelerated male mortality and decreases lifespan: genetic and gene expression determinants in Drosophila

Branco¹,

Schilling

Silkaitis

et al. 2016

Heredity

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Reproduction and aging evolved to be intimately associated. Experimental selection for early-life reproduction drives the evolution of decreased longevity in Drosophila whereas experimental selection for increased longevity leads to changes in reproduction. Although life history theory offers hypotheses to explain these relationships, the genetic architecture and molecular mechanisms underlying reproduction-longevity associations remain a matter of debate. Here we show that mating triggers accelerated mortality in males and identify hundreds of genes that are modulated upon mating in the fruit fly Drosophila melanogaster. Interrogation of genome-wide gene expression in virgin and recently mated males revealed coherent responses, with biological processes that are upregulated (testis-specific gene expression) or downregulated (metabolism and mitochondria-related functions) upon mating. Furthermore, using a panel of genotypes from the Drosophila Synthetic Population Resource (DSPR) as a source of naturally occurring genetic perturbation, we uncover abundant variation in longevity and reproduction-induced mortality among genotypes. Genotypes displayed more than fourfold variation in longevity and reproduction-induced mortality that can be traced to variation in specific segments of the genome. The data reveal individual variation in sensitivity to reproduction and physiological processes that are enhanced and suppressed upon mating. These results raise the prospect that variation in longevity and age-related traits could be traced to processes that coordinate germline and somatic function.

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“…By manipulating these female traits, males increase their fertilization success. Furthermore, it has been shown that male D. melanogaster strategically adjust allocation of seminal peptides in accordance with female mating status and the perceived risk of sperm competition (Wigby et al 2009;Fedorka et al 2011;Sirot et al 2011) as predicted by theory (Hodgson and Hosken 2006). However, male manipulation comes at a cost to females, as seminal fluid proteins reduce female longevity (Chapman et al 1995) and alter egg production schedules to reduce female lifetime reproductive success (Wigby and Chapman 2005).…”

Section: Nonsperm Ejaculate Substancesmentioning

confidence: 99%