2015
DOI: 10.1261/rna.052944.115
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Metazoan tRNA introns generate stable circular RNAs in vivo

Abstract: We report the discovery of a class of abundant circular noncoding RNAs that are produced during metazoan tRNA splicing. These transcripts, termed tRNA intronic circular (tric)RNAs, are conserved features of animal transcriptomes. Biogenesis of tricRNAs requires anciently conserved tRNA sequence motifs and processing enzymes, and their expression is regulated in an agedependent and tissue-specific manner. Furthermore, we exploited this biogenesis pathway to develop an in vivo expression system for generating "d… Show more

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Cited by 170 publications
(157 citation statements)
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“…It should be noted that these plasmids do not efficiently circularize small exons (300 -nt), but an alternative strategy that involves processing from tRNA introns can be used to generate small circles. 93,94 Methods, such as splint ligation or the use of selfcleaving ribozymes, can also be used to generate circular RNAs in vitro (For a review see ref. 95 ).…”
Section: Methods For Ectopic Expression Of Circular Rnas In Cellsmentioning
confidence: 99%
“…It should be noted that these plasmids do not efficiently circularize small exons (300 -nt), but an alternative strategy that involves processing from tRNA introns can be used to generate small circles. 93,94 Methods, such as splint ligation or the use of selfcleaving ribozymes, can also be used to generate circular RNAs in vitro (For a review see ref. 95 ).…”
Section: Methods For Ectopic Expression Of Circular Rnas In Cellsmentioning
confidence: 99%
“…3 It has since become clear that circRNA biogenesis in many eukaryotes proceeds through several diverse and evolutionarily conserved biochemical pathways, [4][5][6][7] resulting in an abundant class of RNA molecules with a host of proposed functions. 8,9 CircRNAs have been shown to be remarkably stable in living cells, [10][11][12] potentially due to their unique structure and lack of free termini on which the exonucleolytic RNA turnover machinery relies. Along with being generally abundant, 2 circRNAs can be differentially expressed in a tissue-dependent manner and can have expression profiles that differ from their parental mRNA, 13 suggesting regulated expression and diversity of function.…”
Section: Introductionmentioning
confidence: 99%
“…46,47 In RtcB knockdown experiments in Drosophila, tricRNA levels decreased significantly, indicating that tricRNA ligation is indeed dependent upon ligase activity of RtcB. 10 In at least one case, ligation of mRNA splice products by tRNA processing enzymes can also result in intron circularization in vitro. 48 The unfolded protein response in metazoans and yeast causes stress signaling, triggering an unconventional splicing of XBP1 (HAC1 in yeast) mRNA.…”
Section: Splicing and Circularization Of Trna Introns In Eukaryamentioning
confidence: 99%
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