Genetic variation in correlated regulatory region of Immunity

Abstract: Studying the interplay between genetic variation, epigenetic changes and regulation of gene expression in immune cells is important to understand the modification of cellular states in various conditions, including immune diseases. Here, we built cis maps of regulatory regions with coordinated activity, Cis Regulatory Domains (CRDs), in neutrophils, monocytes and T cells. For this, we leveraged (i) whole-genome sequencing (WGS), (ii) chromatin immunoprecipitation sequencing (ChIP-seq), (iii) DNA methylation (… Show more

“…To achieve robust expression as well as tight control across cellular contexts, genes utilise multiple enhancers, often with redundant action [7][8][9][10] . Indeed, intricate networks of gene expression and regulatory element activity have been revealed in multiple human cell lines [11][12][13] . In particular, shadow enhancers -sets of enhancers that regulate the same gene, with overlapping activity patterns in space and time -are remarkably abundant and key in controlling developmental gene expression 10,[14][15][16] .…”

Widespread enhancer co-activity identified by multimodal single cell analysis

“…To achieve robust expression as well as tight control across cellular contexts, genes utilise multiple enhancers, often with redundant action [7][8][9][10] . Indeed, intricate networks of gene expression and regulatory element activity have been revealed in multiple human cell lines [11][12][13] . In particular, shadow enhancers -sets of enhancers that regulate the same gene, with overlapping activity patterns in space and time -are remarkably abundant and key in controlling developmental gene expression 10,[14][15][16] .…”

Widespread enhancer co-activity identified by multimodal single cell analysis