Active Enhancers Strengthen Insulation by RNA-mediated CTCF Binding at Chromatin Domain Boundaries

Overview

Journal Genome Res

Specialty Genetics

Date 2023 Jan 17

PMID 36650052

Authors

Zubairul Islam

Bharath Saravanan

Kaivalya Walavalkar

Umer Farooq

Anurag Kumar Singh

Sabarinathan Radhakrishnan

Jitendra Thakur

Awadhesh Pandit

Steven Henikoff

Dimple Notani

Affiliations

Soon will be listed here.

Abstract

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 and 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.

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