The M flax rust resistance pre-mRNA is alternatively spliced and contains a complex upstream untranslated region.

Alternative splicing is an important step in controlling gene expression and has been shown to occur for a number of plant disease resistance (R) genes. The specific biological role of alternatively spliced transcripts from most R genes is unknown, yet in two cases it is clear that functional disease resistance cannot be activated without them. We report 12 splice isoforms of the M flax rust resistance gene, a TIR-NBS-LRR class of R gene. Collectively, these isoforms are predicted to encode at least nine different polypeptide products, only one of which is a full length peptide believed to confer functional M gene-specific disease resistance. An additional intron to that previously described was found in the 5' untranslated region. Splicing of this leader intron removes an upstream ORF (muORF) sequence. In some transcripts the leader intron is retained and in this case we predict negligible translation initiation of the full length M gene-encoding ORF. The majority of the alternatively spliced isoforms of M would encode truncated TIR and TIR-NBS containing proteins. Although the role of alternative splicing and the existence and function of the products they encode is still unclear, the complexities of the splicing profile, and the 5' UTR of the M gene, are likely to serve in mechanisms to regulate R protein levels.