Sexual selection drives the coevolution of male and female reproductive traits in <i>Peromyscus</i> mice

Weber, William; Fisher, Heidi S.

doi:10.1111/jeb.14126

Cited by 4 publications

(3 citation statements)

References 92 publications

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“…In monogamous P. californicus , male-male competition is reduced and postcopulatory sexual selection should be weak in comparison with polygynandrous P. maniculatus and P. boylii . A recent study showed that traits under postcopulatory sexual selection, such as sperm production efficiency and sperm swimming speed, are increased and show a stronger correlation with female defensiveness traits such as oviduct length in more polygynandrous Peromyscus (Weber and Fisher 2023). This suggests that the extent of both male-male competition and male-female sexual conflict varies with mating behavior.…”

Section: Discussionmentioning

confidence: 99%

“…Further, Adgrd1 is an MS-DEG with reduced expression in the P. californicus seminal vesicle and epididymis. Exploring female reproductive tract gene expression would address whether any 'male fertility' genes are expressed in the female reproductive tract or vice versa and would contribute to our understanding of female defense traits such as egg extracellular matrix and uterine fluid composition (Hook et al, 2022;Weber and Fisher 2023).…”

Section: Integrating Gene Sequence and Expression Evolutionmentioning

confidence: 99%

“…Mice in the genus Peromyscus provide an excellent opportunity to study the influence of mating system on both gene expression and protein sequence evolution for male reproductive genes. Polygynandry (loosely affiliative multimale -multifemale mating system) is the ancestral state in Peromyscus , and different species in this genus exhibit broad variation in mating ecology (Bedford and Hoekstra 2015;Meléndez-Rosa et al, 2019;Weber and Fisher 2023).…”

Section: Introductionmentioning

confidence: 99%

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Mating system variation and gene expression in the male reproductive tract of Peromyscus mice

Voss,

Nachman

2024

Preprint

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Genes involved in reproduction often evolve rapidly due to postcopulatory sexual selection (PCSS) driven by male-male competition and male-female sexual conflict, but the impact of PCSS on gene expression has been under-explored. Further, though multiple tissues contribute to male reproductive success, most studies have focused on the testes. To explore the influence of mating system variation on gene expression in the Peromyscus male reproductive tract, we generated RNAseq libraries and quantified gene expression in the testis, seminal vesicle, epididymis, and liver of wild-caught monogamous P. californicus and polygynandrous P. boylii and P. maniculatus males and tested for positive and relaxed selection on Peromyscus-expressed genes using published rodent genomes. We identified 3,627 mating-system associated differentially expressed genes (MS-DEGs), where expression shifted in the same direction in P. maniculatus and P. boylii relative to P. californicus. Gene expression variation was most strongly associated with mating behavior in the seminal vesicles, where 89% of differentially expressed genes were MS-DEGs, including two key seminal fluid proteins, Svs2 and Pate4. Though but most genes showing evidence of positive selection or differential expression did not overlap, 203 MS-DEGs showed evidence of positive selection. Additionally, fourteen reproductive genes were under tree-wide positive selection but showed evidence of convergent relaxed selection in P. californicus and Microtus ochrogaster, a distantly related monogamous species. Changes in transcript abundance and gene sequence evolution in association with mating behavior suggest that male mice may respond to variation in sexual selection by altering aspects of sperm motility, sperm-egg binding, and copulatory plug formation.

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Section: Discussionmentioning

confidence: 99%

Section: Integrating Gene Sequence and Expression Evolutionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Mating system variation and gene expression in the male reproductive tract of Peromyscus mice

Voss,

Nachman

2024

Preprint

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Heavy metal pollution alters reproductive performance and mate choice in an anuran, Strauchbufo raddei

Su,

Guo,

Liu

et al. 2023

Marine Pollution Bulletin

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Sexual selection drives the coevolution of male and female reproductive traits in Peromyscus mice

Weber

Fisher

2022

J of Evolutionary Biology

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When females mate with multiple partners within a single reproductive cycle, sperm from rival males may compete for fertilization of a limited number of ova, and females may bias the fertilization of their ova by particular sperm. Over evolutionary timescales, these two forms of selection shape both male and female reproductive physiology when females mate multiply, yet in monogamous systems, post‐copulatory sexual selection is weak or absent. Here, we examine how divergent mating strategies within a genus of closely related mice, Peromyscus, have shaped the evolution of reproductive traits. We show that in promiscuous species, males exhibit traits associated with increased sperm production and sperm swimming performance, and females exhibit traits that are predicted to limit sperm access to their ova including increased oviduct length and a larger cumulus cell mass surrounding the ova, compared to monogamous species. Importantly, we found that across species, oviduct length and cumulus cell density are significantly correlated with sperm velocity, but not sperm count or relative testes size, suggesting that these female traits may have coevolved with increased sperm quality rather than quantity. Taken together, our results highlight how male and female traits evolve in concert and respond to changes in the level of post‐copulatory sexual selection.

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Sexual selection drives the coevolution of male and female reproductive traits in Peromyscus mice

Cited by 4 publications

References 92 publications

Mating system variation and gene expression in the male reproductive tract of Peromyscus mice

Mating system variation and gene expression in the male reproductive tract of Peromyscus mice

Heavy metal pollution alters reproductive performance and mate choice in an anuran, Strauchbufo raddei

Sexual selection drives the coevolution of male and female reproductive traits in Peromyscus mice

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