Emily S. Goers scite author profile

Muscleblind-like 1 (MBNL1) regulates alternative splicing and is a key player in the disease mechanism of myotonic dystrophy (DM). In DM, MBNL1 becomes sequestered to expanded CUG/CCUG repeat RNAs resulting in splicing defects, which lead to disease symptoms. In order to understand MBNL1’s role in both the disease mechanism of DM and alternative splicing regulation, we sought to identify its RNA-binding motif. A doped SELEX was performed on a known MBNL1-binding site. After five rounds of SELEX, MBNL1 selected pyrimidine-rich RNAs containing YGCY motifs. Insertion of multiple YGCY motifs into a normally MBNL1-independent splicing reporter was sufficient to promote regulation by MBNL1. MBNL1 was also shown to regulate the splicing of exon 22 in the ATP2A1 pre-mRNA, an exon mis-spliced in DM, via YGCY motifs. A search for YGCY motifs in 24 pre-mRNA transcripts that are mis-spliced in DM1 patients revealed an interesting pattern relative to the regulated exon. The intronic regions upstream of exons that are excluded in normal tissues relative to DM1, are enriched in YGCY motifs. Meanwhile, the intronic regions downstream of exons that are included in normal tissues relative to DM1, are enriched in YGCY motifs.

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RNA Binding Specificity ofDrosophilaMuscleblind

Goers

Voelker

Gates

et al. 2008

Biochemistry

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Members of the muscleblind family of RNA binding proteins found in Drosophila and mammals are key players in both the human disease myotonic dystrophy and the regulation of alternative splicing. Recently, the mammalian muscleblind-like protein, MBNL1, has been shown to have interesting RNA binding properties with both endogenous and disease-related RNA targets. Here we report the characterization of RNA binding properties of the Drosophila muscleblind protein Mbl. Mutagenesis of double-stranded CUG repeats demonstrated that Mbl requires pyrimidine-pyrimidine mismatches for binding and that the identity and location of the C-G and G-C base pairs within the repeats are essential for Mbl binding. Systematic evolution of ligands by exponential enrichment (SELEX) was used to identify RNA sequences that bind Mbl with much higher affinity than CUG repeats. The RNA sequences identified by SELEX are structured and contain a five-nucleotide consensus sequence of 5'-AGUCU-3'. RNase footprinting of one of the SELEX RNA sequences with Mbl showed that Mbl binds both double-stranded and single-stranded regions of the RNA. Three guanosines show the strongest footprint in the presence of Mbl; mutation of any of these three guanosines eliminates Mbl binding. It was also found that Mbl specifically bound a human MBNL1 RNA target, demonstrating the conservation of the muscleblind proteins in recognizing RNA targets. Our results reveal that Mbl recognizes complex RNA secondary structures.

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Emily S. Goers

MBNL1 binds GC motifs embedded in pyrimidines to regulate alternative splicing

RNA Binding Specificity ofDrosophilaMuscleblind

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