A CONVENIENT DOMINANT SELECTION MARKER FOR GENE TRANSFER IN INDUSTRIAL STRAINS OFSACCHAROMYCESYEAST:SMRIENCODED RESISTANCE TO THE HERBICIDE SULFOMETURON METHYL

Abstract

The SMR1-410 gene of S. cerevisiae, encoding resistance to the herbicide sulfometuron methyl (SM), was used as a dominant selection marker in yeast replicating and yeast integrating vectors for the transformation of wild type strains of baking, brewing (ale and lager), distilling, wine and sake Saccharomyces yeasts. Transformation of lithium treated cells by a YEp vector resulted in transformation frequencies ranging from 200 to 8,000 transformants per 10 ug of DNA. Utilizing a yeast integrating vector with SMR1–410 as the only yeast DNA sequences, it was demonstrated that a single copy of SMR1–410 is sufficient to confer stably inherited SM resistance. Thus the SMR1–410 sequence has the unique ability to act as a selectable marker and to also provide a site for chromosomal integration. Since transformants were resistant to levels at least seven fold higher than wild type strains the resistance phenotype was clearly expressed and easily scored in all industrial strains tested. Unlike other selection markers derived from mammalian or bacterial cells, SMR1–410 is derived from S. cerevisiae. Thus industrial utilization of this marker as a means of genetically improving food and beverage strains of Saccharomyces yeasts by recombinant DNA technology is enhanced, as government regulatory agencies are likely to view it in a more favourable light.