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Variable dosage compensation is associated with female consequences of an X-linked, male-beneficial mutation

Jack G. Rayner, Thomas J. Hitchcock, Nathan W. Bailey

2021Proceedings of the Royal Society B Biological Sciences15 citationsDOIOpen Access PDF

Abstract

Recent theory has suggested that dosage compensation mediates sexual antagonism over X-linked genes. This process relies on the assumption that dosage compensation scales phenotypic effects between the sexes, which is largely untested. We evaluated this by quantifying transcriptome variation associated with a recently arisen, male-beneficial, X-linked mutation across tissues of the field cricket Teleogryllus oceanicus , and testing the relationship between the completeness of dosage compensation and female phenotypic effects at the level of gene expression. Dosage compensation in T. oceanicus was variable across tissues but usually incomplete, such that relative expression of X-linked genes was typically greater in females. Supporting the assumption that dosage compensation scales phenotypic effects between the sexes, we found tissues with incomplete dosage compensation tended to show female-skewed effects of the X-linked allele. In gonads, where expression of X-linked genes was most strongly female-biased, ovaries-limited genes were much more likely to be X-linked than were testes-limited genes, supporting the view that incomplete dosage compensation favours feminization of the X. Our results support the expectation that sex chromosome dosage compensation scales phenotypic effects of X-linked genes between sexes, substantiating a key assumption underlying the theoretical role of dosage compensation in determining the dynamics of sexual antagonism on the X.

Topics & Concepts

Dosage compensationBiologyGene dosageGeneticsPhenotypeGeneAlleleX chromosomeGene expressionGenetic and Clinical Aspects of Sex Determination and Chromosomal AbnormalitiesAnimal Behavior and ReproductionInsect symbiosis and bacterial influences
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