Timothy Prout scite author profile

In several organisms, the success of a male's sperm in multiply inseminated females depends on the male's genotype. In Drosophila, the female also plays a role in determining which sperm are successful. Pairwise tests among six isogenic lines of Drosophila melanogaster were performed to determine whether there is a genotype-specific interaction in the success of sperm. The success of a particular male's sperm was found to depend on the genotype of the female with which he mates, providing evidence for an interaction with profound evolutionary consequences.

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Antagonistic Pleiotropy, Reversal of Dominance, and Genetic Polymorphism

Curtsinger¹,

Service²,

Prout³

1994

The American Naturalist

182

244

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Competition Among Immatures Affects Their Adult Fertility: Population Dynamics

Prout¹,

Mcchesney²

1985

The American Naturalist

177

142

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SPERM DISPLACEMENT WITHOUT SPERM TRANSFER INDROSOPHILA MELANOGASTER

1994

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In this paper we show that when Drosophila melanogaster females are mated twice, the semen of the second male causes a reduction of the effective number of resident sperm from the previous mating. This is demonstrated by two different kinds of experiments. In one set of experiments, mated females were remated to two different kinds of sterile males, one with normal semen and the other with deficient semen. The effect on the resident sperm was determined from the number of remaining progeny after mating to the sterile male, with the result that the normal semen reduced the amount of resident sperm in comparison with matings to the males with deficient semen. The second set of experiments employed interrupted matings. These experiments were based on the observation that semen is delivered before sperm during the first 5 min of copulation. The second matings were interrupted instantly, 2 min, and 4 min after the initiation of copulation. Compared to the instant interruptions, the two later interruptions had the effect of reducing the amount of resident sperm. The results of these two experiments clearly indicate that a sperm-incapacitation process plays a role in the well-documented phenomenon of sperm displacement (last-male advantage) in this species. Such a process could play a role in sperm displacement in the many cases where the mechanism is unknown.

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Long-Distance Migration of Drosophila

Coyne¹,

Boussy²,

Prout³

et al. 1982

The American Naturalist

141

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Geographic Variation of Tolerance to Environmental Stress in Drosophila pseudoobscura

Coyne¹,

Bundgaard²,

Prout³

1983

The American Naturalist

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Regions of Stable Equilibria for Models of Differential Selection in the Two Sexes Under Random Mating

et al. 1977

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The equilibrium structure of models of differential selection in the sexes is investigated. It is shown that opposing additive selection leads to stable polymorphic equilibria for only a restricted set of selection intensities, and that for weak selection the selection intensities must be of approximately the same magnitude in the sexes. General models of opposing directional selection, with arbitrary dominance, are investigated by considering simultaneously the stability properties of the trivial equilibria and the curve along which multiple roots appear. Numerical calculations lead us to infer that the average degree of dominance determines the equilibrium characteristics of models of opposing selection. It appears that if the favored alleles are, on the average, recessive, there may be multiple polymorphic equilibria, whereas only a single polymorphic equilibrium can occur when the favored alleles are, on the average, dominant. The principle that the average degree of dominance controls equilibrium behavior is then extended to models allowing directional selection in one sex with overdominance in the other sex, by showing that polymorphism is maintained if and only if the average fitness in heterozygotes exceeds one.

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Variation in sperm displacement and its association with accessory gland protein loci in Drosophila melanogaster.

Clark¹,

Aguadé²,

Prout³

et al. 1995

333

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Genes that influence mating and/or fertilization success may be targets for strong natural selection. If females remate frequently relative to the duration of sperm storage and rate of sperm use, sperm displacement may be an important component of male reproductive success. Although it has long been known that mutant laboratory stocks of Drosophila differ in sperm displacement, the magnitude of the naturally occurring genetic variation in this character has not been systematically quantified. Here we report the results of a screen for variation in sperm displacement among 152 lines of Drosophilia melanogaster that were made homozygous for second and/or third chromosomes recovered from natural populations. Sperm displacement was assayed by scoring the progeny of cn;bw females that had been mated sequentially to cn;bw and tested males in either order. Highly significant differences were seen in both the ability to displace sperm that is resident in the female's reproductive tract and in the ability to resist displacement by subsequent sperm. Most lines exhibited nearly complete displacement, having nearly all progeny sired by the second male, but several lines had as few as half the progeny fathered by the second male. Lines that were identified in the screen for naturally occurring variation in sperm displacement were also characterized for single-strand conformation polymorphisms (SSCP) at seven accessory gland protein (Acp) genes, Glucose dehydrogenase (Gld), and Esterase-6 (Est-6). Acp genes encode proteins that are in some cases known to be transmitted to the female in the seminal fluid and are likely candidates for genes that might mediate the phenomenon of sperm displacement. Significant associations were found between particular Acp alleles at four different loci (Acp26Aa/Ab, Acp29B, Acp36DE and Acp53E) and the ability of males to resist displacement by subsequent sperm. There was no correlation between the ability to displace resident sperm and the ability to resist being displaced by subsequent sperm. This lack of correlation, and the association of Acp alleles with resisting subsequent sperm only, suggests that different mechanisms mediate the two components of sperm displacement.

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Timothy Prout

Female × Male Interactions in Drosophila Sperm Competition

Antagonistic Pleiotropy, Reversal of Dominance, and Genetic Polymorphism

Competition Among Immatures Affects Their Adult Fertility: Population Dynamics

SPERM DISPLACEMENT WITHOUT SPERM TRANSFER INDROSOPHILA MELANOGASTER

Long-Distance Migration of Drosophila

Geographic Variation of Tolerance to Environmental Stress in Drosophila pseudoobscura

Regions of Stable Equilibria for Models of Differential Selection in the Two Sexes Under Random Mating

Variation in sperm displacement and its association with accessory gland protein loci in Drosophila melanogaster.

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