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Acidic pH as a determinant of TRI gene expression and trichothecene B biosynthesis in Fusarium graminearum.

Food additives & contaminants. Part A, Chemistry, analysis, control, exposure & risk assessment (2010-02-20)
J Merhej, A L Boutigny, L Pinson-Gadais, F Richard-Forget, C Barreau
RÉSUMÉ

Reducing production of type B trichothecenes by Fusarium graminearum on cereals is necessary to control contamination, prevent yield reduction and protect human and animal health. Thus, an understanding of how trichothecene biosynthesis is induced is essential. The effect of ambient pH on fungal growth, toxin biosynthesis and expression of TRI genes was studied during in vitro liquid culture of F. graminearum on minimal medium. Fungal development stopped at day 3 after a sharp pH drop in the medium. At the same time, induction of TRI gene expression was observed and toxin began accumulating 1 day later. Acidification seems a determinant of induction, as neither the toxin nor the TRI genes were detected when the pH was maintained neutral. Shifting from neutral to acidic pH by mycelium transfer induced TRI gene expression and toxin accumulation. The regulation of toxin production by ambient pH appears to be specific to some TRI genes since TRI5, located in the core FgTRI5 cluster, showed an immediate induction while TRI101, located elsewhere in the genome, showed a more progressive response. The regulation of trichothecene biosynthesis by the ambient pH appears to be a general mechanism, independent of strain or chemotype, as all tested strains, including F. graminearum and F. culmorum species, showed a regulation of toxin production in response to the ambient pH. We conclude that, in vitro, external acidification is required for induction of TRI gene expression.

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Sigma-Aldrich
15-O-Acetyl-4-deoxynivalenol from Fusarium graminearum
Supelco
15-Acetyldeoxynivalenol solution, ~100 μg/mL in acetonitrile, analytical standard