Commonly used fungal transformation protocols rely on the use of either electroporation or the lithium acetate/single strand carrier DNA/Polyethylene glycol/heat shock method. We have used the latter method previously in establishing DNA-mediated transformation in Saccharomycopsis schoenii, a CTG-clade yeast that exhibits necrotrophic mycoparasitism. To elucidate the molecular mechanisms of predation by Saccharomycopsis we aim at gene-function analyses to identify virulence-related pathways and genes. However, in spite of a satisfactory transformation efficiency our efforts were crippled by high frequency of ectopic integration of disruption cassettes. Here, we show that overnight starvation of S. schoenii cells, while reducing the number of transformants, resulted in a substantial increase in gene-targeting via homologous recombination. To demonstrate this, we have deleted the S. schoenii CHS1, HIS3 and LEU2 genes and determined the required size of the flanking homology regions. Additionally, we complemented the S. schoenii leu2 mutant with heterologous LEU2 gene from Saccharomycopsis fermentans. To demonstrate the usefulness of our approach we also generated a S. fermentans leu2 strain, suggesting that this approach may have broader applicability.
Keywords: Auxotrophic marker; CTG clade; Functional analysis; Lithium acetate/single strand carrier DNA/PEG; Transformation.
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