Please use this identifier to cite or link to this item: https://doi.org/10.1186/s13059-014-0409-z
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dc.titleExpanded identification and characterization of mammalian circular RNAs
dc.contributor.authorGuo, J.U
dc.contributor.authorAgarwal, V
dc.contributor.authorGuo, H
dc.contributor.authorBartel, D.P
dc.date.accessioned2020-10-27T11:06:11Z
dc.date.available2020-10-27T11:06:11Z
dc.date.issued2014
dc.identifier.citationGuo, J.U, Agarwal, V, Guo, H, Bartel, D.P (2014). Expanded identification and characterization of mammalian circular RNAs. Genome Biology 15 (7) : 409. ScholarBank@NUS Repository. https://doi.org/10.1186/s13059-014-0409-z
dc.identifier.issn14747596
dc.identifier.urihttps://scholarbank.nus.edu.sg/handle/10635/181493
dc.description.abstractBackground: The recent reports of two circular RNAs (circRNAs) with strong potential to act as microRNA (miRNA) sponges suggest that circRNAs might play important roles in regulating gene expression. However, the global properties of circRNAs are not well understood. Results: We developed a computational pipeline to identify circRNAs and quantify their relative abundance from RNA-seq data. Applying this pipeline to a large set of non-poly(A)-selected RNA-seq data from the ENCODE project, we annotated 7,112 human circRNAs that were estimated to comprise at least 10% of the transcripts accumulating from their loci. Most circRNAs are expressed in only a few cell types and at low abundance, but they are no more cell-type-specific than are mRNAs with similar overall expression levels. Although most circRNAs overlap protein-coding sequences, ribosome profiling provides no evidence for their translation. We also annotated 635 mouse circRNAs, and although 20% of them are orthologous to human circRNAs, the sequence conservation of these circRNA orthologs is no higher than that of their neighboring linear exons. The previously proposed miR-7 sponge, CDR1as, is one of only two circRNAs with more miRNA sites than expected by chance, with the next best miRNA-sponge candidate deriving from a gene encoding a primate-specific zinc-finger protein, ZNF91. Conclusions: Our results provide a new framework for future investigation of this intriguing topological isoform while raising doubts regarding a biological function of most circRNAs. © 2014 Guo et al.; licensee BioMed Central Ltd.
dc.rightsAttribution 4.0 International
dc.rights.urihttp://creativecommons.org/licenses/by/4.0/
dc.sourceUnpaywall 20201031
dc.subjectcircular RNA
dc.subjectRNA
dc.subjectunclassified drug
dc.subjectzinc finger protein
dc.subjectmicroRNA
dc.subjectRNA
dc.subjectRNA, circular
dc.subjectanimal cell
dc.subjectArticle
dc.subjectexon
dc.subjectgene expression
dc.subjectgene locus
dc.subjecthuman
dc.subjecthuman cell
dc.subjectmammal
dc.subjectnonhuman
dc.subjectorthology
dc.subjectribosome
dc.subjectRNA analysis
dc.subjectRNA sequence
dc.subjectRNA structure
dc.subjectRNA translation
dc.subjectanimal
dc.subjectbiology
dc.subjectgenetics
dc.subjectmetabolism
dc.subjectmolecular evolution
dc.subjectmolecular genetics
dc.subjectmouse
dc.subjectnucleotide sequence
dc.subjectphylogeny
dc.subjectprocedures
dc.subjectsequence analysis
dc.subjectsponge (Porifera)
dc.subjecttrans splicing
dc.subjecttumor cell line
dc.subjectAnimals
dc.subjectBase Sequence
dc.subjectCell Line, Tumor
dc.subjectComputational Biology
dc.subjectConserved Sequence
dc.subjectEvolution, Molecular
dc.subjectGene Expression
dc.subjectHumans
dc.subjectMice
dc.subjectMicroRNAs
dc.subjectMolecular Sequence Data
dc.subjectPhylogeny
dc.subjectPorifera
dc.subjectRNA
dc.subjectSequence Analysis, RNA
dc.subjectTrans-Splicing
dc.typeArticle
dc.contributor.departmentBIOLOGICAL SCIENCES
dc.description.doi10.1186/s13059-014-0409-z
dc.description.sourcetitleGenome Biology
dc.description.volume15
dc.description.issue7
dc.description.page409
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