Circular RNAs Are the Predominant Transcript Isoform from Hundreds of Human Genes in Diverse Cell Types
TLDR
By deep sequencing of RNA from a variety of normal and malignant human cells, this work suggests that a non-canonical mode of RNA splicing, resulting in a circular RNA isoform, is a general feature of the gene expression program in human cells.Abstract:
Most human pre-mRNAs are spliced into linear molecules that retain the exon order defined by the genomic sequence. By deep sequencing of RNA from a variety of normal and malignant human cells, we found RNA transcripts from many human genes in which the exons were arranged in a non-canonical order. Statistical estimates and biochemical assays provided strong evidence that a substantial fraction of the spliced transcripts from hundreds of genes are circular RNAs. Our results suggest that a non-canonical mode of RNA splicing, resulting in a circular RNA isoform, is a general feature of the gene expression program in human cells.read more
Citations
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Transcriptional and Post-transcriptional Gene Regulation by Long Non-coding RNA.
Iain M. Dykes,Costanza Emanueli +1 more
TL;DR: A model is emerging whereby lncRNA bridges DNA and protein by binding to chromatin and serving as a scaffold for modifying protein complexes, and can bridge promoters to enhancers or enhancer-like non-coding genes by regulating chromatin looping.
Journal ArticleDOI
Circular RNA Is Expressed across the Eukaryotic Tree of Life
Peter L. Wang,Yun Bao,Muh-Ching Yee,Steven P. Barrett,Gregory J. Hogan,Mari Olsen,José R. Dinneny,Patrick O. Brown,Julia Salzman +8 more
TL;DR: It is reported that circular RNA isoforms are found in diverse species whose most recent common ancestor existed more than one billion years ago: fungi, plants, a plant, and protists, including S. pombe, which may be an ancient, conserved feature of eukaryotic gene expression programs.
Journal ArticleDOI
Circular RNAs are miRNA sponges and can be used as a new class of biomarker.
TL;DR: The biogenesis, properties and function of endogenous circRNA sponges, with a special focus on those related to human cancer, are reviewed and the possibility of using circRNAs as molecular markers for the diagnosis of diseases is discussed.
Journal ArticleDOI
Circular RNA Expression: Its Potential Regulation and Function
TL;DR: Together, these features raise fundamental questions regarding the regulation of circRNA in cis and in trans, and its function, which are enriched in the brain and increase in abundance during fetal development.
Journal ArticleDOI
RNA in cancer.
TL;DR: The regulation of gene expression by coding and non-coding RNA is introduced and both established and emerging roles for RNAs in cancer are discussed, highlighting the potential mechanisms by which these RNA subtypes contribute to cancer.
References
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Circular transcripts of the testis-determining gene Sry in adult mouse testis
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TL;DR: It is suggested that the circles arise from normal splicing processes as a consequence of the unusual genomic structure surrounding the Sry locus in the mouse.
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Mis-splicing yields circular RNA molecules.
TL;DR: To the knowledge, this is the first case of circular transcripts being processed from nuclear pre‐mRNA in eukaryotes, and might represent a novel aspect of gene expression and hold some interesting clues about the splicing mechanism.
Journal ArticleDOI
miRNA-dependent gene silencing involving Ago2-mediated cleavage of a circular antisense RNA
Thomas B. Hansen,Erik D Wiklund,Erik D Wiklund,Jesper B. Bramsen,Sune B. Villadsen,Aaron L. Statham,Susan J. Clark,Jørgen Kjems +7 more
TL;DR: This study provides the first evidence for non‐coding antisense transcripts as functional miRNA targets, and a novel regulatory mechanism involving a positive correlation between mRNA and antisense circular RNA levels.
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Expression of Linear and Novel Circular Forms of an INK4/ARF-Associated Non-Coding RNA Correlates with Atherosclerosis Risk
TL;DR: The results identify novel circular RNA products emanating from the ANRIL locus and suggest causal variants at 9p21.3 regulate INK4/ARF expression and ASVD risk by modulating ANRil expression and/or structure.