Splicing Enhancers at Intron-Exon Borders Participate in Acceptor Splice Sites Recognition

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Authors

KOVÁČOVÁ Tatiana SOUČEK Přemysl HUJOVÁ Pavla FREIBERGER Tomáš GRODECKÁ Lucie

Year of publication 2020
Type Article in Periodical
Magazine / Source International Journal of Molecular Sciences
MU Faculty or unit

Faculty of Medicine

Citation
Web https://www.mdpi.com/1422-0067/21/18/6553
Doi http://dx.doi.org/10.3390/ijms21186553
Keywords pre-mRNA splicing; splicing enhancer; U2AF35; acceptor splice site recognition; SRSF1
Description Acceptor splice site recognition (3 ' splice site: 3 ' ss) is a fundamental step in precursor messenger RNA (pre-mRNA) splicing. Generally, the U2 small nuclear ribonucleoprotein (snRNP) auxiliary factor (U2AF) heterodimer recognizes the 3 ' ss, of which U2AF35 has a dual function: (i) It binds to the intron-exon border of some 3 ' ss and (ii) mediates enhancer-binding splicing activators' interactions with the spliceosome. Alternative mechanisms for 3 ' ss recognition have been suggested, yet they are still not thoroughly understood. Here, we analyzed 3 ' ss recognition where the intron-exon border is bound by a ubiquitous splicing regulator SRSF1. Using the minigene analysis of two model exons and their mutants, BRCA2 exon 12 and VARS2 exon 17, we showed that the exon inclusion correlated much better with the predicted SRSF1 affinity than 3 ' ss quality, which were assessed using the Catalog of Inferred Sequence Binding Preferences of RNA binding proteins (CISBP-RNA) database and maximum entropy algorithm (MaxEnt) predictor and the U2AF35 consensus matrix, respectively. RNA affinity purification proved SRSF1 binding to the model 3 ' ss. On the other hand, knockdown experiments revealed that U2AF35 also plays a role in these exons' inclusion. Most probably, both factors stochastically bind the 3 ' ss, supporting exon recognition, more apparently in VARS2 exon 17. Identifying splicing activators as 3 ' ss recognition factors is crucial for both a basic understanding of splicing regulation and human genetic diagnostics when assessing variants' effects on splicing.
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