Missplicing suppressor alleles of Arabidopsis PRE-MRNA PROCESSING FACTOR 8 increase splicing fidelity by reducing the use of novel splice sites.
Adrián Cabezas-FusterRosa Micol-PonceSara Fontcuberta-CerveraMaría Rosa PoncePublished in: Nucleic acids research (2022)
Efficient splicing requires a balance between high-fidelity splice-site (SS) selection and speed. In Saccharomyces cerevisiae, Pre-mRNA processing factor 8 (Prp8) helps to balance precise SS selection and rapid, efficient intron excision and exon joining. argonaute1-52 (ago1-52) and incurvata13 (icu13) are hypomorphic alleles of the Arabidopsis thaliana genes ARGONAUTE1 (AGO1) and AUXIN RESISTANT6 (AXR6) that harbor point mutations creating a novel 3'SS and 5'SS, respectively. The spliceosome recognizes these novel SSs, as well as the intact genuine SSs, producing a mixture of wild-type and aberrant mature mRNAs. Here, we characterized five novel mutant alleles of PRP8 (one of the two Arabidopsis co-orthologs of yeast Prp8), naming these alleles morphology of ago1-52 suppressed5 (mas5). In the mas5-1 background, the spliceosome preferentially recognizes the intact genuine 3'SS of ago1-52 and 5'SS of icu13. Since point mutations that damage genuine SSs make the spliceosome prone to recognizing cryptic SSs, we also tested alleles of four genes carrying damaged genuine SSs, finding that mas5-1 did not suppress their missplicing. The mas5-1 and mas5-3 mutations represent a novel class of missplicing suppressors that increase splicing fidelity by hampering the use of novel SSs, but do not alter general pre-mRNA splicing.