Author:
Shi Chenfu,Zhao Danyun,Rossi Stefano,Frantzeskos Antonios,Ding James,Ferrazzano Carlo,Wynn Charlotte,Hum Ryan,Richards Ellie,Gupta Muskan,Yap Chuan Fu,Plant Darren,Grencis Richard,Martin Paul,Adamson Antony,Eyre Stephen,Bowes John,Barton Anne,Ho Pauline,Rattray Magnus,Orozco Gisela
Abstract
ABSTRACTIn this study, we present the most extensive dataset of chromatin conformation data with matching gene expression and chromatin accessibility from primary T cells to date. We use this data to enhance our understanding of the different mechanisms by which GWAS variants impact gene regulation and revealing how natural genetic variation alter chromatin accessibility and structure in primary cells at an unprecedented scale. Capitalizing on this vast dataset, we refine the mapping of GWAS loci to implicated regulatory elements, such as CTCF binding sites and other enhancer elements, aiding gene assignment. Importantly, we uncoverBCL2L11as the probable causal gene within the RA locus rs13396472, despite the GWAS variants’ intronic positioning relative toACOXLand we identify mechanisms involvingSESN3dysregulation in the RA locus rs4409785. Given these genes’ significant role in T cell development and maturation, our work is vital for deepening our comprehension of autoimmune disease pathogenesis and suggesting potential treatment targets.
Publisher
Cold Spring Harbor Laboratory
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