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The RNA-binding protein SFPQ preserves long-intron splicing and regulates circRNA biogenesis in mammals.

ABSTRACT: Circular RNAs (circRNAs) represent an abundant and conserved entity of non-coding RNAs; however, the principles of biogenesis are currently not fully understood. Here, we identify two factors, splicing factor proline/glutamine rich (SFPQ) and non-POU domain-containing octamer-binding protein (NONO), to be enriched around circRNA loci. We observe a subclass of circRNAs, coined DALI circRNAs, with distal inverted Alu elements and long flanking introns to be highly deregulated upon SFPQ knockdown. Moreover, SFPQ depletion leads to increased intron retention with concomitant induction of cryptic splicing, premature transcription termination, and polyadenylation, particularly prevalent for long introns. Aberrant splicing in the upstream and downstream regions of circRNA producing exons are critical for shaping the circRNAome, and specifically, we identify missplicing in the immediate upstream region to be a conserved driver of circRNA biogenesis. Collectively, our data show that SFPQ plays an important role in maintaining intron integrity by ensuring accurate splicing of long introns, and disclose novel features governing Alu-independent circRNA production.

SUBMITTER: Stagsted LVW 

PROVIDER: S-EPMC7819710 | biostudies-literature | 2021 Jan

REPOSITORIES: biostudies-literature

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The RNA-binding protein SFPQ preserves long-intron splicing and regulates circRNA biogenesis in mammals.

Stagsted Lotte Victoria Winther LVW   O'Leary Eoghan Thomas ET   Ebbesen Karoline Kragh KK   Hansen Thomas Birkballe TB  

eLife 20210121

Circular RNAs (circRNAs) represent an abundant and conserved entity of non-coding RNAs; however, the principles of biogenesis are currently not fully understood. Here, we identify two factors, splicing factor proline/glutamine rich (SFPQ) and non-POU domain-containing octamer-binding protein (NONO), to be enriched around circRNA loci. We observe a subclass of circRNAs, coined DALI circRNAs, with distal inverted <i>Alu</i> elements and long flanking introns to be highly deregulated upon SFPQ knoc  ...[more]

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