Use of the Saccharomycopsis schoenii MET17 promoter for regulated heterologous gene expression.

The ability to regulate the expression of genes is a central tool for the characterization of fungal genes. This is of particular interest to study genes required for specific processes or the effect of genes expressed only under specific conditions. Saccharomycopsis species show a unique property of necrotrophic mycoparasitism that is activated upon starvation. Here we describe the use of the MET17 promoter of S. schoenii as a tool to regulate gene expression based on the availability of methionine. Conditional expression was tested using lacZ and GFP reporter genes. Gene expression could be strongly down-regulated by the addition of methionine or cysteine to the growth medium and upregulated by starvation for methionine. We used X-gal (5-bromo-4-chloro-3-indolyl-β-d-galactopyranoside) to detect lacZ-expression in plate assays and ONPG (ortho-nitrophenyl-β-galactopyranoside) as a substrate for β-galactosidase in liquid-phase assays. For in vivo expression analyses we used fluorescence microscopy for the detection and localization of a MET17-driven histone H4-GFP reporter gene. With these assays we demonstrated the usefulness of the MET17 promoter to regulate expression of genes based on methionine availability. In silico analyses revealed similar promoter motifs as found in MET3 genes of Saccharomyces cerevisiae and Ashbya gossypii. This suggests a regulation of the MET17 promoter by CBF1 and MET31/MET32 in conjunction with the transcriptional activator MET4, which were also identified in the S. schoenii genome.