Abstract
13C NMR spectroscopic investigations on the biosynthesis of mycotoxins produced by Fusarium graminearum (M69) were carried out through the incorporation of [1-13C]- and [2-13C]acetate precursors. The major secondary metabolites produced by this species in still culture were deoxynivalenol (3,7,15-trihydroxy-12,13-epoxytrichothec-9-en-one), 15-acetyldeoxynivalenol, zearalenone, and butenolide. [1-13C]- and [2-13C]acetate were incorporated in alternate carbon atoms in zearalenone, consistent with the head to tail condensation of nine acetate units. The trichothecenes were enriched in a manner consistent with the condensation of three mevalonate units. 13C/13C couplings, observed between C-5 and C-12, as well as between C-6 and C-15 of 15-acetyldeoxynivalenol, confirms the current hypothesis of formation of the trichothecene ring system by cyclization of farnesyl pyrophosphate. The incorporation pattern in ergosterol is also consistent with a mevalonate origin, while the adjacent incorporation of acetate methyl groups in butenolide suggests a glutamate precursor. The degree of enrichment in the secondary metabolites, which ranged from 3 to 10% at each carbon site, was observed in the 13C NMR spectra of the crude fungal extracts to be dependent on the timing of acetate addition to the culture. The specific toxins produced together with the quantity of each, were also found to be dependent on the timing of acetate addition. Competition between the three biosynthetic pathways of secondary metabolism, i.e. polyketide, mevalonate, and amino acid for the labeled acetate in this organism is a complex function of culture conditions.
Highlights
13C NMR spectroscopic investigations on the biosyn- farnesyl pyrophosphate, whichcyclizesvia 1,2-methyl and thesis of mycotoxins produced by Fusarium grami- 1,5-hydrogen shifts [3, 4]
Zearalenone appears to be derived by the polyketide pathway [12], which was confirmed by a previous incorporation study with [l-"CC]- and [1,2-l3C]acetates[13].Little has been published relative to thebiosynthesis of butenolide, trichothecene ring system by cyclization of farnesyl the isolation of 4-acetamido-2-butenoic acid from a strain of pyrophosphate
In order for the biosynthesis to be consistent with the observed enrichment pattern, the18-carbonpolyketide precursor must undergo two cyclizations (C-1 and C-6, as well as throughan ester linkage to (2-10’) with reduction at positions 2, 4, 2‘, 4’,and 8’
Summary
From the Chemistry and Biology Research Institute, Agriculture Canada, Ottawa, Ontario, KIA OC6, Canada. Zearalenone appears to be derived by the polyketide pathway [12], which was confirmed by a previous incorporation study with [l-"CC]- and [1,2-l3C]acetates[13].Little has been published relative to thebiosynthesis of butenolide, trichothecene ring system by cyclization of farnesyl the isolation of 4-acetamido-2-butenoic acid from a strain of pyrophosphate. In 1981 and 1982, toxins of Fusarium graminearurn (Schwabe) were identified as harmful contaminants in Canadian grain [1].This fungus produces many toxic secondary metabolites, including the trichothecenes, 4-deoxynivalenol (DON') and its monoacetyl derivatives (AcDON),. Analysis-The combined residues from each experiment (250 ml of culture) were quantitated by high pressure liquid chromatography (Spectra-Physics model 8700) with a UV detector (Perkin-Elmer model LC-85) at 224 nm, for DON, 3-AcDON, and zearalenone [2]. 15 KHz sweep width, 10-ps (70")pulses, and 8000 scans with a 2-s recycle time
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