Exon-intron circular RNAs regulate transcription in the nucleus
Z Li, C Huang, C Bao, L Chen, M Lin, X Wang… - Nature structural & …, 2015 - nature.com
Nature structural & molecular biology, 2015•nature.com
Noncoding RNAs (ncRNAs) have numerous roles in development and disease, and one of
the prominent roles is to regulate gene expression. A vast number of circular RNAs
(circRNAs) have been identified, and some have been shown to function as microRNA
sponges in animal cells. Here, we report a class of circRNAs associated with RNA
polymerase II in human cells. In these circRNAs, exons are circularized with introns'
retained'between exons; we term them exon-intron circRNAs or EIciRNAs. EIciRNAs …
the prominent roles is to regulate gene expression. A vast number of circular RNAs
(circRNAs) have been identified, and some have been shown to function as microRNA
sponges in animal cells. Here, we report a class of circRNAs associated with RNA
polymerase II in human cells. In these circRNAs, exons are circularized with introns'
retained'between exons; we term them exon-intron circRNAs or EIciRNAs. EIciRNAs …
Abstract
Noncoding RNAs (ncRNAs) have numerous roles in development and disease, and one of the prominent roles is to regulate gene expression. A vast number of circular RNAs (circRNAs) have been identified, and some have been shown to function as microRNA sponges in animal cells. Here, we report a class of circRNAs associated with RNA polymerase II in human cells. In these circRNAs, exons are circularized with introns 'retained' between exons; we term them exon-intron circRNAs or EIciRNAs. EIciRNAs predominantly localize in the nucleus, interact with U1 snRNP and promote transcription of their parental genes. Our findings reveal a new role for circRNAs in regulating gene expression in the nucleus, in which EIciRNAs enhance the expression of their parental genes in cis, and highlight a regulatory strategy for transcriptional control via specific RNA-RNA interaction between U1 snRNA and EIciRNAs.
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