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Active enhancers strengthen insulation by RNA-mediated CTCF binding at chromatin domain boundaries.

Zubairul IslamBharath SaravananKaivalya WalavalkarUmer FarooqAnurag Kumar SinghRadhakrishnan SabarinathanJitendra ThakurAwadhesh PanditSteven HenikoffDimple Notani
Published in: Genome research (2023)
Vertebrate genomes are partitioned into chromatin domains or topologically associating domains (TADs), which are typically bound by head-to-head pairs of CTCF binding sites. Transcription at domain boundaries correlates with better insulation; however, it is not known whether the boundary transcripts themselves contribute to boundary function. Here we characterize boundary-associated RNAs genome-wide, focusing on the disease-relevant INK4a/ARF and MYC TAD. Using CTCF site deletions and boundary-associated RNA knockdowns, we observe that boundary-associated RNAs facilitate recruitment and clustering of CTCF at TAD borders. The resulting CTCF enrichment enhances TAD insulation, enhancer-promoter interactions, and TAD gene expression. Importantly, knockdown of boundary-associated RNAs results in loss of boundary insulation function. Using enhancer deletions and CRISPRi of promoters, we show that active TAD enhancers, but not promoters, induce boundary-associated RNA transcription, thus defining a novel class of regulatory enhancer RNAs.
Keyphrases
  • transcription factor
  • gene expression
  • genome wide
  • dna methylation
  • binding protein
  • dna binding
  • dna damage
  • oxidative stress
  • copy number