Animals with different numbers of X chromosomes in males and females possess mechanisms to compensate for the difference in the X-linked gene dose between the two sexes. In addition to the X chromosome dose difference between the sexes, the presence of a single-copy X chromosome per two-copy diploid autosomes creates an important problem for males, because all X-linked genes are haploinsufficient compared to the autosomal genes. In C. elegans, hermaphrodites (XX) contain two Xes, whereas males (XO) contain a single X, therefore facing X haploinsufficiency. By performing microarray analysis of RNA abundance in XX and XO worms, we observed that the overall transcript levels from the X chromosome in both XX and XO animals is similar to that of overall expression from autosomes. This suggests that transcription from the single X in XO L3 hermaphrodites (TY2205,
her-1(
e1520)
sdc-3(
y126) V;
xol-1(
y9) X) is increased approximately two-fold. The mechanism of this upregulation is unclear. We had shown that the X chromosome promoters have higher GC content compared to the autosomes (Ercan et al 2010), suggesting a DNA-encoded mechanism of transcriptional regulation. We will study X upregulation by comparing transcription of orthologus genes that are on the X versus autosomes in four Caenorhabditis species. Ercan S, Lubling Y, Segal E, Lieb JD. High nucleosome occupancy is encoded at X-linked gene promoters in C. elegans. Genome Res. 2011 Feb;21(2):237-44. PMID:21177966.