AI Article Synopsis
- Circular RNAs (circRNAs) are a new class of RNA molecules with their formation largely linked to alternative splicing, particularly exon skipping, as explored in the Titin gene.
- Researchers conducted RNA sequencing on hearts from humans and mice to investigate the relationship between alternative splicing and circRNA production, revealing that about 90% of cardiac circRNAs come from constitutive exons while only 10% from alternative splicing.
- A study involving Rbm20 knockout mice showed that Rbm20 significantly influences circRNA production, particularly in the Titin gene, indicating that circRNA formation may reduce the levels of their linear mRNA counterparts.
Article Abstract
Circular RNAs (circRNAs) are a relatively new class of RNA molecules, and knowledge about their biogenesis and function is still in its infancy. It was recently shown that alternative splicing underlies the formation of circular RNAs (circRNA) arising from the Titin gene. Since the main mechanism by which circRNAs are formed is still unclear, we hypothesized that alternative splicing, and in particular exon skipping, is a major driver of circRNA production. We performed RNA sequencing on human and mouse hearts, mapped alternative splicing events, and overlaid these with expressed circRNAs at exon-level resolution. In addition, we performed RNA sequencing on hearts of Rbm20 KO mice to address how important Rbm20-mediated alternative splicing is in the production of cardiac circRNAs. In human and mouse hearts, we show that cardiac circRNAs are mostly (∼90%) produced from constitutive exons and less (∼10%) from alternatively spliced exons. In Rbm20 KO hearts, we identified 38 differentially expressed circRNAs of which 12 were produced from the gene. Even though appeared the most prominent target of Rbm20 for circularization, we also detected Rbm20-dependent circRNAs arising from other genes including , , and Interestingly, only Ttn circRNAs seemed to arise from Rbm20-mediated skipped exons. In conclusion, cardiac circRNAs are mostly derived from constitutive exons, suggesting that these circRNAs are generated at the expense of their linear counterpart and that circRNA production impacts the accumulation of the linear mRNA.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC5959250 | PMC |
| http://dx.doi.org/10.1261/rna.064394.117 | DOI Listing |
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