The peanut plant accumulates defensive stilbenoid phytoalexins in response to the presence of soil fungi, which in turn produce phytoalexin-detoxifying enzymes for successfully invading the plant host. spp. are opportunistic pathogens that invade peanut seeds; most common fungal species often produce highly carcinogenic aflatoxins. The purpose of the present research was to evaluate the in vitro dynamics of peanut phytoalexin transformation/detoxification by important fungal species. This work revealed that in feeding experiments, spp. from section were capable of degrading the major peanut phytoalexin, arachidin-3, into its hydroxylated homolog, arachidin-1, and a benzenoid, SB-1. However, from section as well as other fungal and bacterial species tested, which are not known to be involved in the infection of the peanut plant, were incapable of changing the structure of arachidin-3. The results of feeding experiments with arachidin-1 and resveratrol are also reported. The research provided new knowledge on the dynamics of peanut stilbenoid transformations by essential fungi. These findings may contribute to the elucidation of the phytoalexin detoxification mechanism involved in the infection of peanut by important toxigenic spp.
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