Identification of the gene PtMAT1 encoding acetyltransferase from the diastereomer type of mannosylerythritol lipid-B producer Pseudozyma tsukubaensis.

Mannosylerythritol lipids (MELs) are biosurfactants produced from feedstocks by basidiomycetous yeasts. MELs exhibit different properties depending on their structures, such as the degree of acetylation or acylation and the chirality of the mannosylerythritol moiety. Pseudozyma tsukubaensis produces a diastereomer type of MEL-B (mono-acetylated MEL); therefore, deletion of an acetyltransferase could yield a diastereomer type of MEL-D (deacetylated MEL), which has only been produced in in vitro reactions of lipase using MEL-B as a substrate. Here, we deleted the gene PtMAT1 in P. tsukubaensis 1E5 encoding an acetyltransferase related to MEL biosynthesis via targeted gene deletion and generated a producer of the diastereomer type of MEL-D. The uracil auxotrophic mutant of P. tsukubaensis 1E5 (PtURA5-mutant) was used as a host strain for gene deletion. The gene PtMAT1 was replaced with a PtURA5 cassette by homologous recombination using uracil auxotrophy as a selectable marker. According to thin-layer chromatography and nuclear magnetic resonation spectroscopy, we identified the strain ΔPtMAT1 as a producer of the diastereomer type of MEL-D instead of MEL-B.

Biosynthesis of mono-acylated mannosylerythritol lipid in an acyltransferase gene-disrupted mutant of Pseudozyma tsukubaensis.

The basidiomycetous yeast genus Pseudozyma produce large amounts of mannosylerythritol lipids (MELs), which are biosurfactants. A few Pseudozyma strains produce mono-acylated MEL as a minor compound using excess glucose as the sole carbon source. Mono-acylated MEL shows higher hydrophilicity than di-acylated MEL and has great potential for aqueous applications. Recently, the gene cluster involved in the MEL biosynthesis pathway was identified in yeast. Here, we generated an acyltransferase (PtMAC2) deletion strain of P. tsukubaensis 1E5 with uracil auxotrophy as a selectable marker. A PtURA5-mutant with a frameshift mutation in PtURA5 was generated as a uracil auxotroph of strain 1E5 by ultraviolet irradiation on plate medium containing 5-fluoro-orotic acid (5-FOA). In the mutant, PtMAC2 was replaced with a PtURA5 cassette containing the 5' untranslated region (UTR) (2000 bp) and 3' UTR (2000 bp) of PtMAC2 by homologous recombination, yielding strain ΔPtMAC2. Based on TLC and NMR analysis, we found that ΔPtMAC2 accumulates MEL acylated at the C-2' position of the mannose moiety. These results indicate that PtMAC2p catalyzes acylation at the C-3' position of the mannose of MEL.