Simpler mode of inheritance of transcriptional variation in maleDrosophila melanogaster
- 20 November 2007
- journal article
- research article
- Published by Proceedings of the National Academy of Sciences in Proceedings of the National Academy of Sciences
- Vol. 104 (47), 18577-18582
- https://doi.org/10.1073/pnas.0705441104
Abstract
Sexual selection drives faster evolution in males. The X chromosome is potentially an important target for sexual selection, because hemizygosity in males permits accumulation of alleles, causing tradeoffs in fitness between sexes. Hemizygosity of the X could cause fundamentally different modes of inheritance between the sexes, with more additive variation in males and more nonadditive variation in females. Indeed, we find that genetic variation for the transcriptome is primarily additive in males but nonadditive in females. As expected, these differences are more pronounced on the X chromosome than the autosomes, but autosomal loci are also affected, possibly because of X-linked transcription factors. These differences may be of evolutionary significance because additive variation responds quickly to selection, whereas nonadditive genetic variation does not. Thus, hemizygosity of the X may underlie much of the faster male evolution of the transcriptome and potentially other phenotypes. Consistent with this prediction, genes that are additive in males and nonadditive in females are overrepresented among genes responding to selection for increased mating speed.Keywords
This publication has 31 references indexed in Scilit:
- Intralocus Sexual Conflict Diminishes the Benefits of Sexual SelectionPLoS Biology, 2006
- Estimating Genotypic Correlations and Their Standard Errors Using Multivariate Restricted Maximum Likelihood Estimation with SAS Proc MIXEDCrop Science, 2006
- Sexual Selection Can Resolve Sex-Linked Sexual AntagonismScience, 2005
- Quantitative Trait Loci Affecting the Difference in Pigmentation BetweenDrosophila yakubaandD. santomeaGenetics, 2005
- Extensive Sex-Specific Nonadditivity of Gene Expression in Drosophila melanogasterGenetics, 2004
- Sex Chromosomes and Sexual Selection in Poeciliid FishesThe American Naturalist, 2002
- Gene Expression During the Life Cycle of Drosophila melanogasterScience, 2002
- Sexual Recombination and the Power of Natural SelectionScience, 2001
- Broad-sense sexual selection, sex gene pool evolution, and speciationGenome, 1999
- The Evolution of Sex ChromosomesScience, 1991