Litcius/Paper detail

Synthetic and genomic regulatory elements reveal aspects of cis-regulatory grammar in mouse embryonic stem cells

Dana King, Clarice KY Hong, James L. Shepherdson, David M. Granas, Brett Maricque, Barak A. Cohen

2020eLife92 citationsDOIOpen Access PDF

Abstract

In embryonic stem cells (ESCs), a core transcription factor (TF) network establishes the gene expression program necessary for pluripotency. To address how interactions between four key TFs contribute to cis-regulation in mouse ESCs, we assayed two massively parallel reporter assay (MPRA) libraries composed of binding sites for SOX2, POU5F1 (OCT4), KLF4, and ESRRB. Comparisons between synthetic cis-regulatory elements and genomic sequences with comparable binding site configurations revealed some aspects of a regulatory grammar. The expression of synthetic elements is influenced by both the number and arrangement of binding sites. This grammar plays only a small role for genomic sequences, as the relative activities of genomic sequences are best explained by the predicted occupancy of binding sites, regardless of binding site identity and positioning. Our results suggest that the effects of transcription factor binding sites (TFBS) are influenced by the order and orientation of sites, but that in the genome the overall occupancy of TFs is the primary determinant of activity.

Topics & Concepts

SOX2BiologyTranscription factorEmbryonic stem cellDNA binding siteRegulatory sequenceGeneticsBinding siteCis-regulatory moduleComputational biologyGeneGenomeGene expressionEnhancerPromoterGenomics and Chromatin DynamicsCRISPR and Genetic EngineeringPluripotent Stem Cells Research
Synthetic and genomic regulatory elements reveal aspects of cis-regulatory grammar in mouse embryonic stem cells | Litcius