Parent of origin DNA methylation as a potential mechanism for genomic imprinting in bees

Abstract

AbstractGenomic imprinting is defined as parent-of-origin allele-specific expression. In order for genes to be expressed in this manner an ‘imprinting’ mark must be present to distinguish the parental alleles within the genome. In mammals imprinted genes are primarily associated with DNA methylation. Genes exhibiting parent-of-origin expression have recently been identified in two species of Hymenoptera with functional DNA methylation systems; Apis mellifera and Bombus terrestris. We carried out whole genome bisulfite sequencing of parents and ofspring from reciprocal crosses of two B. terrestris subspecies in order to identify parent-of-origin DNA methylation. We were unable to survey a large enough proportion of the genome to draw a conclusion on the presence of parent-of-origin DNA methylation however we were able to characterise the sex- and caste-specific methylomes of B. terrestris for the first time. We find males difer significantly to the two female castes, with diferentially methylated genes involved in many histone modification related processes. We also analysed previously generated honeybee whole genome bisulfite data to see if genes previously identified as showing parent-of-origin DNA methylation in the honeybee show consistent allele-specific methylation in independent data sets. We have identified a core set of 12 genes in female castes which may be used for future experimental manipulation to explore the functional role of parent-of-origin DNA methylation in the honeybee. Finally, we have also identified allele-specific DNA methylation in honeybee male thorax tissue which suggests a role for DNA methylation in ploidy compensation in this species.