PT - JOURNAL ARTICLE AU - Richard P. Meisel AU - Danial Asgari AU - Florencia Schlamp AU - Robert L. Unckless TI - Induction and inhibition of <em>Drosophila</em> X chromosome gene expression are both impeded by the dosage compensation complex AID - 10.1101/2021.11.22.469548 DP - 2021 Jan 01 TA - bioRxiv PG - 2021.11.22.469548 4099 - http://biorxiv.org/content/early/2021/11/22/2021.11.22.469548.short 4100 - http://biorxiv.org/content/early/2021/11/22/2021.11.22.469548.full AB - Sex chromosome gene content frequently differs from that of the autosomes, a phenomenon that can be informative of the effects of chromatin environment, sex-specific selection, recombination, and ploidy on genome evolution. For example, the Drosophila X chromosome is depauperate in genes with male-biased expression or limited expression in specific tissues—in particular those expressed in the accessory gland of the male reproductive tract. Multiple hypotheses have been put forth to explain the unique gene content of the X chromosome, including selection against male-beneficial X-linked alleles, expression limits imposed by the haploid dosage of the X in males, and interference by the dosage compensation complex (DCC) on expression in males. Here, we investigate these hypotheses by examining differential gene expression in Drosophila melanogaster following several treatments known to have widespread transcriptomic effects: bacterial infection, viral infection, and abiotic stress. We found that genes that are induced (up-regulated) by these biotic and abiotic treatments are frequently under-represented on the X chromosome, but so are those that are repressed (down-regulated) following treatment. We further show that whether a gene is bound by the DCC in males can largely explain the paucity of both up- and down-regulated genes on the X chromosome. Specifically, genes that are bound by the DCC are unlikely to be up- or down-regulated after treatment. Moreover, genes that are closer to a high-affinity site where the DCC is thought to initiate binding to the X chromosome experience a smaller change in expression following treatment. This relationship, however, could partially be explained by a correlation between differential expression and breadth of expression across tissues. Nonetheless, our results suggest that DCC binding, or the associated chromatin modifications, inhibit both up- and down-regulation of X chromosome gene expression within specific contexts. This effect could explain why the Drosophila X chromosome is depauperate in genes with tissue-specific expression, in addition to the paucity of X-linked genes differentially expressed after biotic or abiotic treatments. We propose multiple possible mechanisms of action for the effect, including a role of Males absent on the first (Mof), a component of the DCC, as a dampener of gene expression variance in both males and females.Competing Interest StatementThe authors have declared no competing interest.