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  • Buckwheat achenes antioxidant profile modulates Aspergillus flavus growth and aflatoxin production.

Buckwheat achenes antioxidant profile modulates Aspergillus flavus growth and aflatoxin production.

International journal of food microbiology (2014-08-12)
G Chitarrini, C Nobili, F Pinzari, A Antonini, P De Rossi, A Del Fiore, S Procacci, V Tolaini, V Scala, M Scarpari, M Reverberi
ABSTRACT

Buckwheat (Fagopyrum spp.) is a "pseudo-cereal" of great interest in the production of healthy foods since its flour, derived from achenes, is enriched with bioactive compounds and, due to the absence of gluten, may be used in composition of celiac diets. Amongst buckwheat species, F. tataricum achenes possess a larger amount of the antioxidant flavenol rutin than the common buckwheat F. esculentum. Ongoing climate change may favor plant susceptibility to the attack by pathogenic, often mycotoxigenic, fungi with consequent increase of mycotoxins in previously unexploited feeds and foodstuffs. In particular, Aspergillus flavus, under suitable environmental conditions such as those currently occurring in Italy, may produce aflatoxin B1 (AFB1), the most carcinogenic compound of fungal origin which is classified by IARC as Category 1. In this study, the viable achenes of two buckwheat species, F. tataricum (var. Golden) and F. esculentum (var. Aelita) were inoculated with an AFB1-producing A. flavus NRRL 3357 to analyze their relative performances against fungal invasion and toxin contamination. Notably, we sought the existence of a correlation between the amount of tocols/flavonols in the achenes of buckwheat, infected and non-infected with A. flavus, and to analyze the ability of the pathogen to grow and produce toxin during achene infection. Results suggest that achenes of F. tataricum, the best producer of antioxidant compounds in this study, are less susceptible to A. flavus infection and consequently, but not proportionally, to mycotoxin contamination compared with F. esculentum. Moreover, rutin-derived quercetin appears to be more efficient in inhibiting aflatoxin biosynthesis than the parent compound.

MATERIALS
Product Number
Brand
Product Description

Sigma-Aldrich
Aflatoxin B1 from Aspergillus flavus, from Aspergillus flavus
Sigma-Aldrich
Quercetin, ≥95% (HPLC), solid
Aflatoxin B1 solution, 3.79 μg/g in acetonitrile, ERM®, certified reference material
Supelco
Aflatoxin B1 solution, 2 μg/mL in acetonitrile, analytical standard