Dosage compensation is achieved in male Drosophila by a twofold up-regulation of the single X chromosome to reach the level of the two X chromosomes in females. A popular hypothesis to explain this phenomenon is that the male-specific lethal (MSL) complex, which is present at high levels on the male X, mediates this modulation of gene expression. One member of the complex, MOF, a histone acetyltransferase, acetylates lysine 16 of histone H4 and another, MSL2, which is only expressed in males, triggers its assembly. Here, we find that when a GAL4-MOF fusion protein is targeted to an upstream-activating sequence linked to a miniwhite reporter, up-regulation occurs in females but down-regulation in males, even though in the latter the whole MSL complex is recruited to the reporter genes and produces an increased histone acetylation. The expression of a GAL4-MSL2 fusion protein does not cause dosage compensation of X and autosomal reporters in females, although its expression causes the organization of the MSL complex on the reporter genes, leading to increased histone acetylation. RNAseq analysis of global endogenous gene expression in females with ectopic expression of MSL2 to coat the X chromosomes shows no evidence of increased expression compared with normal females. These data from multiple approaches indicate that the MSL complex does not mediate dosage compensation directly, but rather its activity overrides the high level of histone acetylation and counteracts the potential overexpression of X-linked genes to achieve the proper twofold up-regulation in males.D osage compensation is achieved in male Drosophila by an approximate twofold up-regulation of the X chromosome to equal the two X chromosomes in females (1, 2). For several decades, it has been proposed that the components of the malespecific lethal (MSL) complex are present on the male X chromosome and produce the twofold modulation (3, 4). One member of the complex, MOF, a histone acetyltransferase, acetylates lysine 16 of histone H4 (5) and another, MSL2, which is male-specific, triggers its X chromosome assembly (6). The MSL2 protein is not expressed in females because it is blocked at translation by the female-specific sex-lethal (SXL) protein (7). Gene-expression data taken in support of the MSL hypothesis have normalized X expression to autosomal expression and found a reduced X/A ratio that was interpreted as a loss of compensation when the MSL complex was dissociated (3,(8)(9)(10). However, when gene expression is assayed phenotypically or in absolute terms, rather than as a ratio of X to autosomal expression, data from ectopic assembly of the complex in females failed to demonstrate upregulation of the X chromosomes (11, 12) and the dissolution of the complex does not eliminate compensation (11-15). Many assayed autosomal genes were increased in expression in the maleless (mle) mutant males (11,13,14), providing an explanation for the reduced ratios when X values were normalized to the autosomes.The retention of dosage compensation and elevat...
