Genome-wide profiling of Sus scrofa circular RNAs across nine organs and three developmental stages

Liang, Guoming; Yang, Yalan; Niu, Guanglin; Tang, Zhonglin; Li, Kui

doi:10.1093/dnares/dsx022

Cited by 135 publications

(183 citation statements)

References 77 publications

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“…CircRNAs harbor well‐conserved canonical miRNA response elements (MREs), suggesting that some circRNAs act as miRNA sequesters or sponges . A portion of circRNAs are thought to negatively regulate the levels of miRNAs and increase or decrease the expression levels of their corresponding targeted genes (Figure B).…”

Section: Functions Of Circrnasmentioning

confidence: 99%

“…Circular RNAs are generated from lariat-driven circulation or back-splicing events between the splice donor site of a downstream exon and the splice acceptor site of an upstream exon act as miRNA sequesters or sponges. [17][18][19][20] A portion of cir-cRNAs are thought to negatively regulate the levels of miR-NAs and increase or decrease the expression levels of their corresponding targeted genes ( Figure 2B). As a representative circRNA, cerebellar degeneration-related protein 1 antisense (CDR1as) is the sponge of miR-7 in the embryonic zebrafish and has been reported to be related to brain dysfunction and many cancers, such as HCC and gastric cancer.…”

Section: Mirna Sequestrationmentioning

confidence: 99%

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Circular RNAs in hepatocellular carcinoma: Functions and implications

Jiang

et al. 2018

Cancer Medicine

109

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At present, as hotspot members of the noncoding RNA network, circular RNAs (circRNAs) with distinct properties and diverse pathophysiological functions are being increasingly delineated. CircRNAs play roles at the epigenetic, transcriptional and posttranscriptional regulatory levels. Major studies have focused on their functions as efficient microRNA sponges. The validated number of endogenous circRNAs involved in hepatocellular carcinoma (HCC) continues to increase. Altered circRNA expression is associated with HCC occurrence, invasion, and metastasis. Moreover, the aberrant expression of circRNAs is also significantly related to HCC tumor stage, size, differentiation and metastasis. Because they are exceptionally stable, highly conserved and have tissue‐specific expression patterns, some circRNAs, including hsa_circ_0004018, hsa_circ_0003570, and hsa_circ_0005075, may be potential markers for the diagnosis of HCC. We herein summarize the current knowledge of HCC‐associated circRNAs and present their implications for carcinogenesis and their potential value as diagnostic and prognostic biomarkers. Finally, we discuss the future directions of studies on HCC‐associated circRNAs.

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Section: Functions Of Circrnasmentioning

confidence: 99%

Section: Mirna Sequestrationmentioning

confidence: 99%

Circular RNAs in hepatocellular carcinoma: Functions and implications

Jiang

et al. 2018

Cancer Medicine

109

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“…, testes (Liang et al 2017b), peripheral whole blood 62 (Memczak et al 2015), peripheral blood mononucleotide cells (Qian et al 2018), platelets 63 (Alhasan et al 2016), and exosomes (Li et al 2015a). CircRNAs have also been related to the 64 development of the fetal human brain (Szabo et al 2015), mouse brain (You et al 2015), fetal 65 porcine brain (Veno et al 2015), and Drosophila neural systems (Westholm et al 2014).…”

mentioning

confidence: 99%

Rat BodyMap transcriptomes reveal unique circular RNA features across tissue types and developmental stages

Zhou

Xie

et al. 2018

RNA

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24Circular RNAs (circRNAs) are a novel class of regulatory RNAs. Here, we present a 25 comprehensive investigation of circRNA expression profiles across 11 tissues and 4 26 developmental stages in rats, along with cross-species analyses in humans and mice. Although 27 the expression of circRNAs is positively correlated with that of cognate mRNAs, highly 28 expressed genes tend to splice a larger fraction of circular transcripts. Moreover, circRNAs 29 exhibit higher tissue specificity than cognate mRNAs. Intriguingly, while we observed a 30 monotonic increase of circRNA abundance with age in the rat brain, we further discovered a 31 dynamic, age-dependent pattern of circRNA expression in the testes that is characterized by a 32 dramatic increase with advancing stages of sexual maturity and a decrease with aging. The age-33 sensitive testicular circRNAs are highly associated with spermatogenesis, independent of cognate 34 mRNA expression.

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“…CircRNAs are conservatively expressed from orthologous genomic regions between humans and mice (Guo et al, 2014;Jeck et al, 2013) and among Drosophila species (Westholm et al, 2014). Detailed analyses of circRNA expression in humans (Guo et al, 2014;Liu et al, 2016b;Xia et al, 2016), mice (Xia et al, 2016), pigs (Liang et al, 2017b), and flies (Westholm et al, 2014) have revealed substantial tissue-specific patterns of circRNA expression. Notably, circRNAs are enriched and abundantly expressed in some specific tissue types and blood components, such as the brain (Rybak-Wolf et al, 2015;Szabo et al, 2015;Veno et al, 2015;Westholm et al, 2014), testes (Liang et al, 2017b), peripheral whole blood (Memczak et al, 2015), peripheral blood mononucleotide cells (Qian et al, 2017), platelets (Alhasan et al, 2016), and exosomes (Li et al, 2015a).…”

Section: Introductionmentioning

confidence: 99%

“…Detailed analyses of circRNA expression in humans (Guo et al, 2014;Liu et al, 2016b;Xia et al, 2016), mice (Xia et al, 2016), pigs (Liang et al, 2017b), and flies (Westholm et al, 2014) have revealed substantial tissue-specific patterns of circRNA expression. Notably, circRNAs are enriched and abundantly expressed in some specific tissue types and blood components, such as the brain (Rybak-Wolf et al, 2015;Szabo et al, 2015;Veno et al, 2015;Westholm et al, 2014), testes (Liang et al, 2017b), peripheral whole blood (Memczak et al, 2015), peripheral blood mononucleotide cells (Qian et al, 2017), platelets (Alhasan et al, 2016), and exosomes (Li et al, 2015a). CircRNAs have also been related to the development of the fetal human brain (Szabo et al, 2015), mouse brain (You et al, 2015), fetal porcine brain (Veno et al, 2015), and Drosophila neural systems (Westholm et al, 2014).…”

Section: Introductionmentioning

confidence: 99%

BodyMap transcriptomes reveal unique circular RNA features across tissue types and developmental stages

Zhou

Xie

et al. 2018

Preprint

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Circular RNAs (circRNAs) are a novel class of regulatory RNAs. Here, we present a comprehensive investigation of circRNA expression profiles across 11 tissues and 4 developmental stages in rats, along with cross-species analyses in humans and mice. Although positively correlated, circRNAs exhibit higher tissue specificity than cognate mRNAs. Also, genes with higher expression levels exhibit a larger fraction of spliced circular transcripts than their linear counterparts. Intriguingly, while we observed a monotonic increase of circRNA abundance with age in the rat brain, we further discovered a dynamic, age-dependent pattern of circRNA expression in the testes that is characterized by a dramatic increase with advancing stages of sexual maturity and a decrease with aging. The age-sensitive testicular circRNAs are highly associated with spermatogenesis, independent of cognate mRNA expression. The tissue/age implications of circRNAs suggest that they present unique physiological functions rather than simply occurring as occasional by-products of gene transcription.

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Genome-wide profiling of Sus scrofa circular RNAs across nine organs and three developmental stages

Cited by 135 publications

References 77 publications

Circular RNAs in hepatocellular carcinoma: Functions and implications

Circular RNAs in hepatocellular carcinoma: Functions and implications

Rat BodyMap transcriptomes reveal unique circular RNA features across tissue types and developmental stages

BodyMap transcriptomes reveal unique circular RNA features across tissue types and developmental stages

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