Your search keyword '"Sutter, Andreas"' showing total 8 results

1. Sexual Selection in House Mice (Mus musculus domesticus) and the Role of a Selfish Genetic Element

Author

Sutter, Andreas, University of Zurich, and Sutter, Andreas

Subjects

10127 Institute of Evolutionary Biology and Environmental Studies, t haplotype, UZHDISS UZH Dissertations, house mouse, 570 Life sciences, biology, 590 Animals (Zoology), sexual selection, intragenomic conflict, meiotic drive, sperm competition

Published

2016

2. Within-ejaculate sperm competition.

Author

Sutter, Andreas and Immler, Simone

Subjects

*SPERM competition, *GAMETES, *MEIOTIC drive, *OPEN-ended questions, *SPERMATOZOA, *BULLS

Abstract

Sperm competition was defined by Geoff Parker 50 years ago as the competition between sperm from two or more males over the fertilization of a set of eggs. Since the publication of his seminal paper, sperm competition has developed into a large field of research, and many aspects are still being discovered. One of the relatively poorly understood aspects is the importance of selection and competition among sperm within the ejaculate of a male. The sheer number of sperm present in a male's ejaculate suggests that the competition among sibling sperm produced by the same male may be intense. In this review, we summarize Parker's theoretical models generating predictions about the evolution of sperm traits under the control of the haploid gamete as opposed to the diploid male. We review the existing evidence of within-ejaculate competition from a wide range of fields and taxa. We also discuss the conceptual and practical hurdles we have been facing to study within-ejaculate sperm competition, and how novel technologies may help in addressing some of the currently open questions. [ABSTRACT FROM AUTHOR]

Published

2020

3. Meiotic drive changes sperm precedence patterns in house mice: potential for male alternative mating tactics?

Author

Sutter, Andreas and Lindholm, Anna K.

Subjects

*MEIOTIC drive, *SPERM competition, *COMPETITION (Biology), *EVOLUTIONARY developmental biology, *POLYANDRY, *SELFISH genetic elements, *ANIMAL sexual behavior

Abstract

Background: With female multiple mating (polyandry), male-male competition extends to after copulation (sperm competition). Males respond to this selective pressure through physiological, morphological and behavioural adaptations. Sperm competitiveness is commonly decreased in heterozygote carriers of male meiotic drivers, selfish genetic elements that manipulate the production of gametes in males. This might give carriers an evolutionary incentive to reduce the risk of sperm competition. Here, we explore this possibility in house mice. Natural populations frequently harbour a well-characterised male driver (t haplotype), which is transmitted to 90 % of heterozygous (+/t) males' offspring. Previous research demonstrated strong detrimental effects on sperm competitiveness, and suggested that +/t males are particularly disadvantaged against wild type males when first-to-mate. Low paternity success in the first-to-mate role is expected to favour male adaptations that decrease the risk of sperm competition by preventing female remating. Genotype-specific paternity patterns (sperm precedence) could lead to genetically determined alternative reproductive tactics that can spread through gene level selection. Here, we seek confirmation that +/t males are generally disadvantaged when first-to-mate and address whether males of different genotypes differ in reproductive tactics (copulatory and morphological) to maximise individual or driver fitness. Finally, we attempt to explain the mechanistic basis for alternative sperm precedence patterns in this species. Results: We confirmed that +/t males are weak sperm competitors when first to mate. When two +/t males competed, the second-to-mate was more successful, which contrasts with first male sperm precedence when wild type males competed. However, we found no differences between male genotypes in reproductive behaviour or morphology that were consistent with alternative reproductive tactics. Sperm of +/+ and +/t males differed with respect to in vitro sperm features. Premature hypermotility in +/t males' sperm can potentially explain why +/t males are very weak sperm competitors when first-to-mate. Conclusions: Our results demonstrate that meiotic drivers can have strong effects on sperm precedence patterns, and may provide a heritable basis for alternative reproductive tactics motivated by reduced sperm competitiveness. We discuss how experimental and evolutionary constraints may help explain why male genotypes did not show the predicted differences. [ABSTRACT FROM AUTHOR]

Published

2016

4. Function of copulatory plugs in house mice: mating behavior and paternity outcomes of rival males.

Author

Sutter, Andreas, Simmons, Leigh W., Lindholm, Anna K., and Firman, Renée C.

Subjects

*MICE behavior, *MICE reproduction, *SEXUAL selection, *ANIMAL sexual behavior, *SEXUAL intercourse

Abstract

Polyandry is widespread across animal taxa and subjects males to intense postcopulatory sexual selection which favors adaptations that enhance a male's paternity success, either by decreasing the risk of sperm competition and/or by increasing the competitiveness of the ejaculate. Copulatory plugs deposited by males are thought to have evolved in the context of sperm competition. However, experimental studies that assess the function of copulatory plugs remain scarce. Moreover, most studies have used unnatural manipulations, such as ablating plug-producing male glands or interrupting copulations. Here, we investigated whether repeated ejaculation affects plug size in a mammalian model species, the house mouse. When males experience short periods of sexual rest we found that plug size decreased over repeated ejaculations so that time since last ejaculation can be applied as an approximation for plug size. We induced natural variation in plug size arising from variation in male sexual restedness and investigated the behavior and paternity success of rival males. Male behavior in the offensive mating role (second) was influenced, albeit not significantly, by the sexual restedness of the first male to mate, and therefore the size of his plug. However, second males sired a significantly greater proportion of embryos when competing against a male that had recently mated compared with a male that had not. This supports a potential role of the plug in promoting a male's competitive fertilization success when remating occurs, which could be mediated both by delaying female remating and by ensuring efficient sperm transport through the female reproductive tract. [ABSTRACT FROM AUTHOR]

Published

2016

5. Detrimental effects of an autosomal selfish genetic element on sperm competitiveness in house mice.

Author

Sutter, Andreas and Lindholm, Anna K.

Subjects

*POLYANDRY, *ANIMAL classification, *SPERM competition, *SELFISH genetic elements, *HAPLOTYPES

Abstract

Female multiple mating (polyandry) is widespread across many animal taxa and indirect genetic benefits are a major evolutionary force favouring polyandry. An incentive for polyandry arises when multiple mating leads to sperm competition that disadvantages sperm from genetically inferior mates. A reduction in genetic quality is associated with costly selfish genetic elements (SGEs), and studies in invertebrates have shown that males bearing sex ratio distorting SGEs are worse sperm competitors than wild-type males. We used a vertebrate model species to test whether females can avoid an autosomal SGE, the t haplotype, through polyandry. The t haplotype in house mice exhibits strong drive in t heterozygous males by affecting spermatogenesis and is associated with homozygous in utero lethality. We used controlled matings to test the effect of the t haplotype on sperm competitiveness. Regardless of mating order, t heterozygous males sired only 11% of zygotes when competing against wild-type males, suggesting a very strong effect of the t haplotype on sperm quality. We provide, to our knowledge, the first substantial evidence that polyandry ameliorates the harmful effects of an autosomal SGE arising through genetic incompatibility. We discuss potential mechanisms in our study species and the broader implications for the benefits of polyandry. [ABSTRACT FROM AUTHOR]

Published

2015

6. Meiotic drive changes sperm precedence patterns in house mice: potential for male alternative mating tactics?

Author

Andreas Sutter, Anna K. Lindholm, University of Zurich, and Sutter, Andreas

Subjects

0106 biological sciences, 0301 basic medicine, Male, Ovulation, Genotype, t haplotype, CASA, media_common.quotation_subject, Zoology, Multi-level selection, Biology, Genitalia, Male, 010603 evolutionary biology, 01 natural sciences, Competition (biology), 10127 Institute of Evolutionary Biology and Environmental Studies, 03 medical and health sciences, Mice, Sexual Behavior, Animal, Alternative reproductive tactics, Polyandry, Animals, Mating, Copulatory behaviour, Sperm competition, Ecology, Evolution, Behavior and Systematics, media_common, Genetics, urogenital system, Reproduction, Sperm, Spermatozoa, Selfish genetic element, Meiosis, 1105 Ecology, Evolution, Behavior and Systematics, 030104 developmental biology, Meiotic drive, Haplotypes, 570 Life sciences, biology, 590 Animals (Zoology), Female, House mice, Sperm precedence, Research Article

Abstract

Background With female multiple mating (polyandry), male-male competition extends to after copulation (sperm competition). Males respond to this selective pressure through physiological, morphological and behavioural adaptations. Sperm competitiveness is commonly decreased in heterozygote carriers of male meiotic drivers, selfish genetic elements that manipulate the production of gametes in males. This might give carriers an evolutionary incentive to reduce the risk of sperm competition. Here, we explore this possibility in house mice. Natural populations frequently harbour a well-characterised male driver (t haplotype), which is transmitted to 90 % of heterozygous (+/t) males’ offspring. Previous research demonstrated strong detrimental effects on sperm competitiveness, and suggested that +/t males are particularly disadvantaged against wild type males when first-to-mate. Low paternity success in the first-to-mate role is expected to favour male adaptations that decrease the risk of sperm competition by preventing female remating. Genotype-specific paternity patterns (sperm precedence) could lead to genetically determined alternative reproductive tactics that can spread through gene level selection. Here, we seek confirmation that +/t males are generally disadvantaged when first-to-mate and address whether males of different genotypes differ in reproductive tactics (copulatory and morphological) to maximise individual or driver fitness. Finally, we attempt to explain the mechanistic basis for alternative sperm precedence patterns in this species. Results We confirmed that +/t males are weak sperm competitors when first to mate. When two +/t males competed, the second-to-mate was more successful, which contrasts with first male sperm precedence when wild type males competed. However, we found no differences between male genotypes in reproductive behaviour or morphology that were consistent with alternative reproductive tactics. Sperm of +/+ and +/t males differed with respect to in vitro sperm features. Premature hypermotility in +/t males’ sperm can potentially explain why +/t males are very weak sperm competitors when first-to-mate. Conclusions Our results demonstrate that meiotic drivers can have strong effects on sperm precedence patterns, and may provide a heritable basis for alternative reproductive tactics motivated by reduced sperm competitiveness. We discuss how experimental and evolutionary constraints may help explain why male genotypes did not show the predicted differences. Electronic supplementary material The online version of this article (doi:10.1186/s12862-016-0710-4) contains supplementary material, which is available to authorized users.

Published

2016

7. Function of copulatory plugs in house mice: mating behavior and paternity outcomes of rival males

Author

Renée C. Firman, Leigh W. Simmons, Andreas Sutter, Anna K. Lindholm, University of Zurich, and Sutter, Andreas

Subjects

0106 biological sciences, 0301 basic medicine, Ejaculation, Zoology, Context (language use), Biology, 010603 evolutionary biology, 01 natural sciences, House mouse, 03 medical and health sciences, 10127 Institute of Evolutionary Biology and Environmental Studies, Mating, Sperm competition, reproductive and urinary physiology, Ecology, Evolution, Behavior and Systematics, Ecology, biology.organism_classification, Sperm, 030104 developmental biology, 1105 Ecology, Evolution, Behavior and Systematics, Sexual selection, 570 Life sciences, biology, 590 Animals (Zoology), Animal Science and Zoology, House mice, 1103 Animal Science and Zoology

Abstract

Polyandry is widespread across animal taxa, and subjects males to intense post-copulatory sexual selection which favors adaptations that enhance a male’s paternity success, either by decreasing the risk of sperm competition and/or by increasing the competitiveness of the ejaculate. Copulatory plugs deposited by males are thought to have evolved in the context of sperm competition. However, experimental studies that assess the function of copulatory plugs remain scarce. Moreover, most studies have used unnatural manipulations, such as ablating plug-producing male glands or interrupting copulations. Here, we investigated whether repeated ejaculation affects plug size in a mammalian model species, the house mouse. When males experience short periods of sexual rest we found that plug size decreased over repeated ejaculations so that time since last ejaculation can be applied as an approximation for plug size. We induced natural variation in plug size arising from variation in male sexual restedness, and investigated the behavior and paternity success of rival males. Male behavior in the offensive mating role (second) was influenced, albeit not significantly, by the sexual restedness of the first male-to-mate, and therefore the size of his plug. However, second males sired a significantly greater proportion of embryos when competing against a male that had recently mated compared to a male that had not. This supports a potential role of the plug in promoting a male's competitive fertilization success when remating occurs, which could be mediated both by delaying female remating and by ensuring efficient sperm transport through the female reproductive tract.

Published

2016

8. Detrimental effects of an autosomal selfish genetic element on sperm competitiveness in house mice

Author

Andreas Sutter, Anna K. Lindholm, University of Zurich, and Sutter, Andreas

Subjects

0106 biological sciences, Male, t haplotype, genetic incompatibility, media_common.quotation_subject, polyandry, 1100 General Agricultural and Biological Sciences, Biology, 010603 evolutionary biology, 01 natural sciences, indirect benefits, General Biochemistry, Genetics and Molecular Biology, 2300 General Environmental Science, 03 medical and health sciences, Mice, Sexual Behavior, Animal, 10127 Institute of Evolutionary Biology and Environmental Studies, 1300 General Biochemistry, Genetics and Molecular Biology, 2400 General Immunology and Microbiology, Animals, Mating, Sperm competition, reproductive and urinary physiology, Research Articles, 030304 developmental biology, General Environmental Science, media_common, Repetitive Sequences, Nucleic Acid, Genetics, 0303 health sciences, Zygote, General Immunology and Microbiology, Reproduction, Haplotype, General Medicine, Sperm, Spermatozoa, Haplotypes, 570 Life sciences, biology, 590 Animals (Zoology), embryo viability, Female, House mice, segregation distortion, General Agricultural and Biological Sciences, Sex ratio

Abstract

Female multiple mating (polyandry) is widespread across many animal taxa and indirect genetic benefits are a major evolutionary force favouring polyandry. An incentive for polyandry arises when multiple mating leads to sperm competition that disadvantages sperm from genetically inferior mates. A reduction in genetic quality is associated with costly selfish genetic elements (SGEs), and studies in invertebrates have shown that males bearing sex ratio distorting SGEs are worse sperm competitors than wild-type males. We used a vertebrate model species to test whether females can avoid an autosomal SGE, thethaplotype, through polyandry. Thethaplotype in house mice exhibits strong drive intheterozygous males by affecting spermatogenesis and is associated with homozygousin uterolethality. We used controlled matings to test the effect of thethaplotype on sperm competitiveness. Regardless of mating order,theterozygous males sired only 11% of zygotes when competing against wild-type males, suggesting a very strong effect of thethaplotype on sperm quality. We provide, to our knowledge, the first substantial evidence that polyandry ameliorates the harmful effects of an autosomal SGE arising through genetic incompatibility. We discuss potential mechanisms in our study species and the broader implications for the benefits of polyandry.

Published

2015