Transcriptional bursting shape autosomal dynamic random monoallelic expression in pre-gastrulation embryos

Abstract

Recent years, allele-specific single cell RNA-seq (scRNA-seq) analysis have demonstrated wide-spread dynamic random monoallelic expression of autosomal genes (aRME). However, the origin of dynamic aRME remains poorly understood. It is believed that dynamic aRME is originated from discrete transcriptional burst of two alleles. Here, for the first time, we have profiled genome-wide pattern of dynamic aRME and allele-specific burst kinetics in mouse pre-gastrulation embryos. We found wide-spread dynamic aRME across the different lineages of pre-gastrulation embryos and which is linked to the allelic burst kinetics. Specially, we found that expression level and burst frequency are the key determinants of dynamic aRME. Altogether, our study provides significant insight about the origin of prevalent dynamic aRME and cell to cell expression heterogeneity during the early mammalian development.