Ribosomal RNA genes ofEndomyces fibuliger: isolation, sequencing and the use of the 26S rRNA gene in integrative transformation ofSaccharomyces cerevisiae for efficient expression of the α-amylase gene ofEndomyces fibuliger

Abstract

Endomyces fibuliger is a dimorphic yeast which is homothallic and exists predominantly in the diploid phase with a brief haploid phase. A repeat unit of the ribosomal RNA genes, or rDNA, from E. fibuliger 8014 met has been isolated, cloned and sequenced. In this report, the sequences of the 17S, 5.8S and 26S rRNA genes are presented. Homology between the sequenced rRNA genes and those of closely-related yeast strains, particularly Saccharomyes cerevisiae and Candida albicans, was observed. As a step towards the eventual development of a transformation system for the yeast E. fibuliger, an integrative plasmid containing the 5.8S and a part of the 26S rRNA gene, a selectable marker conferring resistance to the G418 antibiotic and a reporter gene, the α-amylase (ALP1) gene of E. fibuliger, was constructed. This plasmid was linearized at a unique restriction site within the 26S rRNA gene, and transformed into S. cerevisiae INVSC2 MATa his3 ura3 using the lithium acetate method to test the functionality of the vector system. Transformation into S. cerevisiae INVSC2 MATa his3 ura3 was by virtue of the extensive homology between the sequenced 26S rRNA gene of E. fibuliger 8014 met and that of S. cerevisiae, so that homologous pairing and integration into the recipient chromosome was possible. The G418-resistant S. cerevisiae transformants produced halos on starch medium due to hydrolysis by α-amylase, and they were further analysed by Southern hybridization with the ALP1 gene and the gene encoding the aminoglycoside 3′- phosphotransferase I enzyme which confers resistance to the G418 antibiotic. A band of 13.7 kb which corresponded to the linearized size of the transforming plasmid DNA was obtained on the autoradiogram, suggesting that tandem copies of the plasmid DNA are present in the chromosome. Finally, an assay of the α-amylase enzyme secreted extracellularly was performed on the transformants.