Abstract
Muscleblind-like 1 (MBNL1) is a splicing factor whose improper cellular localization is a central component of myotonic dystrophy. In myotonic dystrophy, the lack of properly localized MBNL1 leads to missplicing of many pre-mRNAs. One of these events is the aberrant inclusion of exon 5 within the MBNL1 pre-mRNA. The region of the MBNL1 gene that includes exon 5 and flanking intronic sequence is highly conserved in vertebrate genomes. The 3'-end of intron 4 is non-canonical in that it contains a predicted branch point that is 141 nucleotides from the 3'-splice site and an AAG 3'-splice site. Using a minigene that includes exon 4, intron 4, exon 5, intron 5, and exon 6 of MBNL1, we showed that MBNL1 regulates inclusion of exon 5. Mapping of the intron 4 branch point confirmed that branching occurs primarily at the predicted distant branch point. Structure probing and footprinting revealed that the highly conserved region between the branch point and 3'-splice site is primarily unstructured and that MBNL1 binds within this region of the pre-mRNA. Deletion of the MBNL1 response element eliminated MBNL1 splicing regulation and led to complete inclusion of exon 5, which is consistent with the suppressive effect of MBNL1 on splicing.
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