Global analysis of binding sites of U2AF1 and ZRSR2 reveals RNA elements required for mutually exclusive splicing by the U2- and U12-type spliceosome
Abstract Recurring mutations in genes encoding 3′ splice-site recognition proteins, U2AF1 and ZRSR2 are associated with human cancers. Here, we determined binding sites of the proteins to reveal that U2-type and U12-type splice sites are recognized by U2AF1 and ZRSR2, respectively. However, some sit...
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| Veröffentlicht in: | Nucleic acids research 2024-02, Vol.52 (3), p.1420-1434 |
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| creator | Kwon, Young-Soo Jin, Sang Woo Song, Hoseok |
| description | Abstract
Recurring mutations in genes encoding 3′ splice-site recognition proteins, U2AF1 and ZRSR2 are associated with human cancers. Here, we determined binding sites of the proteins to reveal that U2-type and U12-type splice sites are recognized by U2AF1 and ZRSR2, respectively. However, some sites are spliced by both the U2-type and U12-type spliceosomes, indicating that well-conserved consensus motifs in some U12-type introns could be recognized by the U2-type spliceosome. Nucleotides flanking splice sites of U12-type introns are different from those flanking U2-type introns. Remarkably, the AG dinucleotide at the positions −1 and −2 of 5′ splice sites of U12-type introns with GT-AG termini is not present. AG next to 5′ splice site introduced by a single nucleotide substitution at the −2 position could convert a U12-type splice site to a U2-type site. The class switch of introns by a single mutation and the bias against G at the −1 position of U12-type 5′ splice site support the notion that the identities of nucleotides in exonic regions adjacent to splice sites are fine-tuned to avoid recognition by the U2-type spliceosome. These findings may shed light on the mechanism of selectivity in U12-type intron splicing and the mutations that affect splicing.
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| doi_str_mv | 10.1093/nar/gkad1180 |
| format | Article |
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Recurring mutations in genes encoding 3′ splice-site recognition proteins, U2AF1 and ZRSR2 are associated with human cancers. Here, we determined binding sites of the proteins to reveal that U2-type and U12-type splice sites are recognized by U2AF1 and ZRSR2, respectively. However, some sites are spliced by both the U2-type and U12-type spliceosomes, indicating that well-conserved consensus motifs in some U12-type introns could be recognized by the U2-type spliceosome. Nucleotides flanking splice sites of U12-type introns are different from those flanking U2-type introns. Remarkably, the AG dinucleotide at the positions −1 and −2 of 5′ splice sites of U12-type introns with GT-AG termini is not present. AG next to 5′ splice site introduced by a single nucleotide substitution at the −2 position could convert a U12-type splice site to a U2-type site. The class switch of introns by a single mutation and the bias against G at the −1 position of U12-type 5′ splice site support the notion that the identities of nucleotides in exonic regions adjacent to splice sites are fine-tuned to avoid recognition by the U2-type spliceosome. These findings may shed light on the mechanism of selectivity in U12-type intron splicing and the mutations that affect splicing.
Graphical Abstract
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Recurring mutations in genes encoding 3′ splice-site recognition proteins, U2AF1 and ZRSR2 are associated with human cancers. Here, we determined binding sites of the proteins to reveal that U2-type and U12-type splice sites are recognized by U2AF1 and ZRSR2, respectively. However, some sites are spliced by both the U2-type and U12-type spliceosomes, indicating that well-conserved consensus motifs in some U12-type introns could be recognized by the U2-type spliceosome. Nucleotides flanking splice sites of U12-type introns are different from those flanking U2-type introns. Remarkably, the AG dinucleotide at the positions −1 and −2 of 5′ splice sites of U12-type introns with GT-AG termini is not present. AG next to 5′ splice site introduced by a single nucleotide substitution at the −2 position could convert a U12-type splice site to a U2-type site. The class switch of introns by a single mutation and the bias against G at the −1 position of U12-type 5′ splice site support the notion that the identities of nucleotides in exonic regions adjacent to splice sites are fine-tuned to avoid recognition by the U2-type spliceosome. These findings may shed light on the mechanism of selectivity in U12-type intron splicing and the mutations that affect splicing.
Graphical Abstract
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Recurring mutations in genes encoding 3′ splice-site recognition proteins, U2AF1 and ZRSR2 are associated with human cancers. Here, we determined binding sites of the proteins to reveal that U2-type and U12-type splice sites are recognized by U2AF1 and ZRSR2, respectively. However, some sites are spliced by both the U2-type and U12-type spliceosomes, indicating that well-conserved consensus motifs in some U12-type introns could be recognized by the U2-type spliceosome. Nucleotides flanking splice sites of U12-type introns are different from those flanking U2-type introns. Remarkably, the AG dinucleotide at the positions −1 and −2 of 5′ splice sites of U12-type introns with GT-AG termini is not present. AG next to 5′ splice site introduced by a single nucleotide substitution at the −2 position could convert a U12-type splice site to a U2-type site. The class switch of introns by a single mutation and the bias against G at the −1 position of U12-type 5′ splice site support the notion that the identities of nucleotides in exonic regions adjacent to splice sites are fine-tuned to avoid recognition by the U2-type spliceosome. These findings may shed light on the mechanism of selectivity in U12-type intron splicing and the mutations that affect splicing.
Graphical Abstract
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| title | Global analysis of binding sites of U2AF1 and ZRSR2 reveals RNA elements required for mutually exclusive splicing by the U2- and U12-type spliceosome |
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