Microorganisms have been used as biological control agents (BCAs) in agriculture for a long time, but their importance has increased dramatically over the last few years. The Penicillium steckii IBWF104-06 strain has presented strong BCA activity in greenhouse experiments performed against phytopathogenic fungi and oomycetes. P. steckii strains generally produce different antifungal tanzawaic acids; interesting compounds known to be catalyzed by polyketide synthetases in other fungi. Since the decalin structure is characteristic for tanzawaic acids, two polyketide synthase genes (PsPKS1 and PsPKS2) were selected for further analysis, which have similarity in sequence and gene cluster structure with genes that are known to be responsible for the biosynthesis of decalin-containing compounds. Subsequently, gene-inactivation mutants of both PsPKS1 and PsPKS2 have been generated. It was found, that the ΔPspks1 mutant cannot produce tanzawaic acids any more, whereas reintegration of the original PsPKS1 gene into the genome of ΔPspks1 reestablished tanzawaic acid production. The mutant ΔPspks2 is not altered in tanzawaic acids production. Interestingly, both mutants ΔPsPKS1 and ΔPsPKS2 still display strong BCA activity, indicating that the mechanism of action is not related to the production of tanzawaic acids.
Keywords: Biocontrol; Penicillium steckii; Polyketide synthase gene; PsPKS1; Tanzawaic acid.
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