Histone Acetylation and Gene Expression Analysis of Sex lethal Mutants in Drosophila

Histone Acetylation and Gene Expression Analysis of Sex lethal Mutants in Drosophila

Utpal Bhadra^a, Manika Pal-Bhadra^a, and James A. Birchler^a
^a Division of Biological Sciences, University of Missouri, Columbia, Missouri 65211

Corresponding author: James A. Birchler, 117 Tucker Hall, University of Missouri, Columbia, MO 65211-7400., birchlerj{at}missouri.edu (E-mail)

Communicating editor: S. HENIKOFF

The evolution of sex determination mechanisms is often accompaniedby reduction in dosage of genes on a whole chromosome. Underthese circumstances, negatively acting regulatory genes wouldtend to double the expression of the genome, which producescompensation of the single-sex chromosome and increases autosomalgene expression. Previous work has suggested that to reducethe autosomal expression to the female level, these dosage effectsare modified by a chromatin complex specific to males, whichsequesters a histone acetylase to the X. The reduced autosomalhistone 4 lysine 16 (H4Lys16) acetylation results in loweredautosomal expression, while the higher acetylation on the Xis mitigated by the male-specific lethal complex, preventingoverexpression. In this report, we examine how mutations inthe principal sex determination gene, Sex lethal (Sxl), impactthe H4 acetylation and gene expression on both the X and autosomes.When Sxl expression is missing in females, we find that thesequestration occurs concordantly with reductions in autosomalH4Lys16 acetylation and gene expression on the whole. When Sxlis ectopically expressed in Sxl^M mutant males, the sequestrationis disrupted, leading to an increase in autosomal H4Lys16 acetylationand overall gene expression. In both cases we find relativelylittle effect upon X chromosomal gene expression.

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