Sex chromosomes shape the transcriptional landscape of the preimplantation mouse embryo

Sex chromosomes are emerging as key regulators of adult health and disease in males (XY) and females (XX), but their impact on embryo development is poorly understood. Using single-cell RNA sequencing (scRNA-seq) on wild type and aneuploid mouse embryos, we show that sex chromosomes significantly shape the preimplantation embryo transcriptional landscape. A hierarchy of effects are identified, distinctly mediated by the Y chromosome, the dosage of X chromosomes, X-chromosome imprinting, and byXist, the non-coding RNA that initiates X-inactivation. The sex chromosomes have strongtranseffects on autosomal gene expression throughout preimplantation development. The Y chromosome has an unexpectedly pronounced impact on the trophectoderm, the precursor of the placenta, and this property is shared with genes expressed from the inactive X chromosome. The paternal and maternal X chromosomes differentially promote preimplantation growth, and we identify multiple novel candidate X-linked imprinted genes mediating this effect. Our findings show that sex chromosomes impact the embryo from the beginning of life, long before the appearance of overt sex differences.