Positive Selection at the Binding Sites of the Male-Specific Lethal Complex Involved in Dosage Compensation in Drosophila

Abstract

Abstract In many taxa, males and females differ with respect to their sex chromosomes, and dosage compensation mechanisms have evolved to equalize X-linked gene transcription. In Drosophila, the male-specific lethal (MSL) complex binds to hundreds of sites along the male X chromosome and mediates twofold hypertranscription of the single male X. Two recent studies found evidence for lineage-specific adaptive evolution in all five core protein-coding genes of the MSL complex in Drosophila melanogaster. In particular, dramatic positive selection was detected in domains shown to be responsible for their specific targeting to the X chromosome. Here I use population genetics to show that three previously characterized MSL-binding DNA segments on the X themselves underwent adaptive evolution in D. melanogaster, but not in its close relatives D. simulans and D. yakuba. MSL components have been shown to not correctly target the D. melanogaster X chromosome in hybrids between D. melanogaster and D. simulans. My finding supports the idea of selection-driven coevolution among DNA-protein interactions of the dosage compensation machinery and suggests that misregulated dosage compensation could contribute to male hybrid inviability in Drosophila.