RT Journal Article SR Electronic T1 Intra- and inter-chromosomal chromatin interactions mediate genetic effects on regulatory networks JF bioRxiv FD Cold Spring Harbor Laboratory SP 171694 DO 10.1101/171694 A1 O. Delaneau A1 M. Zazhytska A1 C. Borel A1 C. Howald A1 S. Kumar A1 H. Ongen A1 K. Popadin A1 D. Marbach A1 G. Ambrosini A1 D. Bielser A1 D. Hacker A1 L. Romano-Palumbo A1 P. Ribaux A1 M. Wiederkehr A1 E. Falconnet A1 P. Bucher A1 S. Bergmann A1 S. E. Antonarakis A1 A. Reymond A1 E. T. Dermitzakis YR 2017 UL http://biorxiv.org/content/early/2017/08/03/171694.abstract AB Genome-wide studies on the genetic basis of gene expression and the structural properties of chromatin have considerably advanced our understanding of the function of the human genome. However, it remains unclear how structure relates to function and, in this work, we aim at bridging both by assembling a dataset that combines the activity of regulatory elements (e.g. enhancers and promoters), expression of genes and genetic variations of 317 individuals and across two cell types. We show that the regulatory activity is structured within 12,583 Cis Regulatory Domains (CRDs) that are cell type specific and highly reflective of the local (i.e. Topologically Associating Domains) and global (i.e. A/B nuclear compartments) nuclear organization of the chromatin. These CRDs essentially delimit the sets of active regulatory elements involved in the transcription of most genes, thereby capturing complex regulatory networks in which the effects of regulatory variants are propagated and combined to finally mediate expression Quantitative Trait Loci. Overall, our analysis reveals the complexity and specificity of cis and trans regulatory networks and their perturbation by genetic variation.