Revealing mechanisms of mating plug function under sexual selection

Mating plugs are produced by many sexually reproducing animals and are hypothesized to promote male fertilization success under promiscuous mating. However, tests of this hypothesis have been constrained by an inability to discriminate ejaculates of different males in direct competition. Here, we us...

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Veröffentlicht in:	Proceedings of the National Academy of Sciences - PNAS 2020-11, Vol.117 (44), p.27465-27473
Hauptverfasser:	Stockley, Paula, Franco, Catarina, Claydon, Amy J., Davidson, Amanda, Hammond, Dean E., Brownridge, Philip J., Hurst, Jane L., Beynon, Robert J.
Format:	Artikel
Sprache:	eng
Schlagworte:	Accessory gland Animal reproduction Animals Arvicolinae - physiology Biological Sciences Copulation Copulation - physiology Female Fertilization In vivo methods and tests Isotopes Male Males Mating Preference, Animal Plugs Proteomics Reproduction (biology) Reproductive system Rodents Seminal Plasma Proteins - metabolism Seminal Vesicles - metabolism Sexual selection Sexual Selection - physiology Sperm Sperm Count Sperm Motility Sperm Transport - physiology Stable isotopes Success
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container_title	Proceedings of the National Academy of Sciences - PNAS
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creator	Stockley, Paula Franco, Catarina Claydon, Amy J. Davidson, Amanda Hammond, Dean E. Brownridge, Philip J. Hurst, Jane L. Beynon, Robert J.
description	Mating plugs are produced by many sexually reproducing animals and are hypothesized to promote male fertilization success under promiscuous mating. However, tests of this hypothesis have been constrained by an inability to discriminate ejaculates of different males in direct competition. Here, we use stable isotope labeling in vivo and proteomics to achieve this in a promiscuous rodent, Myodes glareolus. We show that, although the first male’s plug is usually dislodged, it can be retained throughout the second male’s copulation. Retained plugs did not completely block rival sperm but did significantly limit their numbers. Differences in the number of each male’s sperm progressing through the female reproductive tract were also explained by natural variation in the size of mating plugs and reproductive accessory glands from which major plug proteins originate. Relative sperm numbers in turn predicted the relative fertilization success of rival males. Our application of stable isotopes to label ejaculates resolves a longstanding debate by revealing how rodent mating plugs promote fertilization success under competitive conditions. This approach opens new opportunities to reveal cryptic mechanisms of postcopulatory sexual selection among diverse animal taxa.
doi_str_mv	10.1073/pnas.1920526117
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However, tests of this hypothesis have been constrained by an inability to discriminate ejaculates of different males in direct competition. Here, we use stable isotope labeling in vivo and proteomics to achieve this in a promiscuous rodent, Myodes glareolus. We show that, although the first male’s plug is usually dislodged, it can be retained throughout the second male’s copulation. Retained plugs did not completely block rival sperm but did significantly limit their numbers. Differences in the number of each male’s sperm progressing through the female reproductive tract were also explained by natural variation in the size of mating plugs and reproductive accessory glands from which major plug proteins originate. Relative sperm numbers in turn predicted the relative fertilization success of rival males. Our application of stable isotopes to label ejaculates resolves a longstanding debate by revealing how rodent mating plugs promote fertilization success under competitive conditions. This approach opens new opportunities to reveal cryptic mechanisms of postcopulatory sexual selection among diverse animal taxa.</description><identifier>ISSN: 0027-8424</identifier><identifier>EISSN: 1091-6490</identifier><identifier>DOI: 10.1073/pnas.1920526117</identifier><identifier>PMID: 33077605</identifier><language>eng</language><publisher>United States: National Academy of Sciences</publisher><subject>Accessory gland ; Animal reproduction ; Animals ; Arvicolinae - physiology ; Biological Sciences ; Copulation ; Copulation - physiology ; Female ; Fertilization ; In vivo methods and tests ; Isotopes ; Male ; Males ; Mating Preference, Animal ; Plugs ; Proteomics ; Reproduction (biology) ; Reproductive system ; Rodents ; Seminal Plasma Proteins - metabolism ; Seminal Vesicles - metabolism ; Sexual selection ; Sexual Selection - physiology ; Sperm ; Sperm Count ; Sperm Motility ; Sperm Transport - physiology ; Stable isotopes ; Success</subject><ispartof>Proceedings of the National Academy of Sciences - PNAS, 2020-11, Vol.117 (44), p.27465-27473</ispartof><rights>Copyright © 2020 the Author(s). 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subjects	Accessory gland Animal reproduction Animals Arvicolinae - physiology Biological Sciences Copulation Copulation - physiology Female Fertilization In vivo methods and tests Isotopes Male Males Mating Preference, Animal Plugs Proteomics Reproduction (biology) Reproductive system Rodents Seminal Plasma Proteins - metabolism Seminal Vesicles - metabolism Sexual selection Sexual Selection - physiology Sperm Sperm Count Sperm Motility Sperm Transport - physiology Stable isotopes Success
title	Revealing mechanisms of mating plug function under sexual selection
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