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X-inactivation is a well-established dosage compensation mechanism ensuring that X-chromosomal genes are expressed at comparable levels in males and females. Skewed X-inactivation is often explained by negative selection of one of the alleles. We demonstrate that imbalanced expression of the paternal and maternal X-chromosomes is common in the general population and that the random nature of the X-inactivation mechanism can be sufficient to explain the imbalance. To this end, we analyzed blood-derived RNA and whole-genome sequencing data from 79 female children and their parents from the Genome of the Netherlands project. We calculated the median ratio of the paternal over total counts at all X-chromosomal heterozygous single-nucleotide variants with coverage ≥10. We identified two individuals where the same X-chromosome was inactivated in all cells. Imbalanced expression of the two X-chromosomes (ratios ≤0.35 or ≥0.65) was observed in nearly 50% of the population. The empirically observed skewing is explained by a theoretical model where X-inactivation takes place in an embryonic stage in which eight cells give rise to the hematopoietic compartment. Genes escaping X-inactivation are expressed from both alleles and therefore demonstrate less skewing than inactivated genes. Using this characteristic, we identified three novel escapee genes (SSR4, REPS2, and SEPT6), but did not find support for many previously reported escapee genes in blood. Our collective data suggest that skewed X-inactivation is common in the general population. This may contribute to manifestation of symptoms in carriers of recessive X-linked disorders. We recommend that X-inactivation results should not be used lightly in the interpretation of X-linked variants.

Original publication

DOI

10.1038/s41431-018-0291-3

Type

Journal article

Journal

European journal of human genetics : EJHG

Publication Date

03/2019

Volume

27

Pages

455 - 465

Addresses

Department of Human Genetics, Leiden University Medical Center, Leiden, The Netherlands.

Keywords

BIOS consortium, GoNL consortium, Humans, Intracellular Signaling Peptides and Proteins, Calcium-Binding Proteins, Membrane Glycoproteins, Receptors, Peptide, Receptors, Cytoplasmic and Nuclear, Polymorphism, Single Nucleotide, Population, Netherlands, Female, Male, X Chromosome Inactivation, Septins