Sex-limited experimental evolution drives transcriptomic divergence in a hermaphrodite
Cirulis A, Norden AK, Churcher AM, Ramm S, Zadesenets KS, Abbott JK (2023)
Genome Biology and Evolution : evad235.
Zeitschriftenaufsatz
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Autor*in
Cirulis, Aivars;
Norden, Anna K;
Churcher, Allison M;
Ramm, StevenUniBi ;
Zadesenets, Kira S;
Abbott, Jessica K
Einrichtung
Abstract / Bemerkung
The evolution of gonochorism from hermaphroditism is linked with the formation of sex chromosomes, as well as the evolution of sex-biased and sex-specific gene expression to allow both sexes to reach their fitness optimum. There is evidence that sexual selection drives the evolution of male-biased gene expression in particular. However, previous research in this area in animals comes from either theoretical models or comparative studies of already old sex chromosomes. We therefore investigated changes in gene expression under three different selection regimes for the simultaneous hermaphrodite Macrostomum lignano subjected to sex-limited experimental evolution (i.e., selection for fitness via eggs, via sperm, or a control regime allowing both). After 21 and 22 generations of selection for male-specific or female-specific fitness, we characterized changes in whole-organism gene expression. We found that female-selected lines had changed the most in their gene expression. Although annotation for this species is limited, GO-term and KEGG pathway analysis suggests that metabolic changes (e.g., biosynthesis of amino acids and carbon metabolism) are an important adaptive component. As predicted, we found that expression of genes previously identified as testis-biased candidates tended to be downregulated in the female-selected lines. We did not find any significant expression differences for previously identified candidates of other sex-specific organs, but this may simply reflect that few transcripts have been characterized in this way. In conclusion, our experiment suggests that changes in testis-biased gene expression are important in the early evolution of sex chromosomes and gonochorism. © The Author(s) 2023. Published by Oxford University Press on behalf of Society for Molecular Biology and Evolution.
Erscheinungsjahr
2023
Zeitschriftentitel
Genome Biology and Evolution
Art.-Nr.
evad235
eISSN
1759-6653
Page URI
https://pub.uni-bielefeld.de/record/2985606
Zitieren
Cirulis A, Norden AK, Churcher AM, Ramm S, Zadesenets KS, Abbott JK. Sex-limited experimental evolution drives transcriptomic divergence in a hermaphrodite. Genome Biology and Evolution . 2023: evad235.
Cirulis, A., Norden, A. K., Churcher, A. M., Ramm, S., Zadesenets, K. S., & Abbott, J. K. (2023). Sex-limited experimental evolution drives transcriptomic divergence in a hermaphrodite. Genome Biology and Evolution , evad235. https://doi.org/10.1093/gbe/evad235
Cirulis, Aivars, Norden, Anna K, Churcher, Allison M, Ramm, Steven, Zadesenets, Kira S, and Abbott, Jessica K. 2023. “Sex-limited experimental evolution drives transcriptomic divergence in a hermaphrodite”. Genome Biology and Evolution : evad235.
Cirulis, A., Norden, A. K., Churcher, A. M., Ramm, S., Zadesenets, K. S., and Abbott, J. K. (2023). Sex-limited experimental evolution drives transcriptomic divergence in a hermaphrodite. Genome Biology and Evolution : evad235.
Cirulis, A., et al., 2023. Sex-limited experimental evolution drives transcriptomic divergence in a hermaphrodite. Genome Biology and Evolution , : evad235.
A. Cirulis, et al., “Sex-limited experimental evolution drives transcriptomic divergence in a hermaphrodite”, Genome Biology and Evolution , 2023, : evad235.
Cirulis, A., Norden, A.K., Churcher, A.M., Ramm, S., Zadesenets, K.S., Abbott, J.K.: Sex-limited experimental evolution drives transcriptomic divergence in a hermaphrodite. Genome Biology and Evolution . : evad235 (2023).
Cirulis, Aivars, Norden, Anna K, Churcher, Allison M, Ramm, Steven, Zadesenets, Kira S, and Abbott, Jessica K. “Sex-limited experimental evolution drives transcriptomic divergence in a hermaphrodite”. Genome Biology and Evolution (2023): evad235.
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