Theoretical analysis of the role of chromatin interactions in long-range action of enhancers and insulators

Details Theoretical analysis of the role of chromatin interactions in long-range action of enhancers and insulators Theoretical analysis of the role of chromatin interactions in long-range action of enhancers and insulators

2011-03-15

arxiv.org/abs/1103.2834v1

Biology

Quantitative Biology

Subcellular Processes

10 pages, originally submitted to an (undisclosed) journal in May 2010

Scientific paper

Long-distance regulatory interactions between enhancers and their target genes are commonplace in higher eukaryotes. Interposed boundaries or insulators are able to block these long distance regulatory interactions. The mechanistic basis for insulator activity and how it relates to enhancer action-at-a-distance remains unclear. Here we explore the idea that topological loops could simultaneously account for regulatory interactions of distal enhancers and the insulating activity of boundary elements. We show that while loop formation is not in itself sufficient to explain action at a distance, incorporating transient non-specific and moderate attractive interactions between the chromatin fibers strongly enhances long-distance regulatory interactions and is sufficient to generate a euchromatin-like state. Under these same conditions, the subdivision of the loop into two topologically independent loops by insulators inhibits inter-domain interactions. The underlying cause of this effect is a suppression of crossings in the contact map at intermediate distances. Thus our model simultaneously accounts for regulatory interactions at a distance and the insulator activity of boundary elements. This unified model of the regulatory roles of chromatin loops makes several testable predictions that could be confronted with \emph{in vitro} experiments, as well as genomic chromatin conformation capture and fluorescent microscopic approaches.

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