Conservation and divergence of canonical and non-canonical imprinting in murids

Abstract

ABSTRACTBackgroundGenomic imprinting affects gene expression in a parent-of-origin manner and has a profound impact on complex traits including growth and behaviour. While the rat is widely used to model human pathophysiology, few imprinted genes have been identified in this murid. To systematically identify imprinted genes and genomic imprints in the rat, we used low input methods for genome-wide analyses of gene expression and DNA methylation to profile embryonic and extra-embryonic tissues at allele-specific resolution.ResultsWe identify 14 and 26 imprinted genes in these tissues, respectively, with 10 of these genes imprinted in both tissues. Comparative analyses with mouse revealed that orthologous imprinted gene expression and associated canonical DNA methylation imprints are conserved in the embryo proper of the Muridae family. However, only 3 paternally expressed imprinted genes are conserved in the extra-embryonic tissue of murids, all of which are associated with non-canonical H3K27me3 imprints. The discovery of 8 novel non-canonical imprinted genes unique to the rat is consistent with more rapid evolution of extra-embryonic imprinting. Meta-analysis of novel imprinted genes revealed multiple mechanisms by which species-specific imprinted expression may be established, including H3K27me3 deposition in the oocyte, the birth of ZFP57 binding motifs and the insertion of endogenous retroviral promoters.ConclusionsIn summary, we provide a comprehensive list of imprinted loci in the rat, reveal the extent of conservation of imprinted gene expression, and identify potential mechanisms responsible for the evolution of species-specific imprinting.