Functional alpha-fragment of beta-galactosidase can be expressed from the mobile group I intron PpLSU3 embedded in yeast pre-ribosomal RNA derived from the chromosomal rDNA locus

PpLSU3, a mobile group I intron found in the ribo-somal RNA genes of Physarum polycephalum, encodes the I-PpoI homing endonuclease. This enzyme represents one of the rare cases in nature where a protein is expressed from an RNA polymerase I transcript. Our previous results showed that the full length intron, but not a further processed species, is the messenger for I-PpoI, implying a role of the untranslated region (UTR) in gene expression. To study the function of the 3'-UTR in expression of the endonuclease and in splicing of the intron, we replaced the I-PpoI gene in PpLSU3 with the gene for the alpha-fragment of Escherichia coli beta-galactosidase, and then integrated this chimeric intron into all the chromosomal rDNA repeats of yeast. The resulting cells synthesized functional alpha-fragment, as evidenced by a complementation assay analogous to that used in E.coli. The beta-galactosidase activity thus provides an unusual and potentially valuable readout for Pol I transcription from chromosomal rDNA. This is the first example in which a eucaryotic homing endonuclease gene has been successfully replaced by a heterologous gene. Using deletion mutagenesis and a novel randomization approach with the alpha-fragment as a reporter, we found that a small segment of the 3'-UTR dramatically influences both splicing and protein expression.