Glucosinolate degradation by Aspergillus clavatus and Fusarium oxysporum in liquid and solid-state fermentation

Abstract

Two fungal strains, Aspergillus clavatus II-9 and Fusarium oxysporum @ 149, proved to be capable of degrading sinigrin and sinalbin. During the degradation of sinigrin by whole cells of the Aspergillus strain, allylcyanide accumulated in the liquid incubation mixture. After a maximum concentration had been reached, the concentration of allylcyanide decreased as a result of its instability in the medium used. Incubation of cell-free extracts with sinigrin resulted in accumulation of glucose and allylisothiocyanate, suggesting that myrosinase is involved. Experiments with intact cells and cell-free extracts indicate the formation of an as yet unknown intermediate. When sinigrin was degraded by the Aspergillus strain in mustard seed meal under solid-state fermentation (SSF) conditions, no accumulation of allylcyanide or allylisothiocyanate was measured. Degradation of sinigrin by F. oxysporum @ 149 did not result in accumulation of intermediates, neither in liquid incubation mixtures nor in mustard seed meal under SSF conditions. Sinigrin was not degraded during incubation with cell-free extracts of F. oxysporum @ 149. Degradation of sinalbin by A. clavatus and F. oxysporum was measured during fermentation of yellow mustard seed meal under SSF conditions. Both fungi are useful for laboratory-scale SSF of mustard seed meal, thus opening new perspectives for a cost effective detoxification process for raw feed materials.