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Vanillic acid metabolism by selected soft-rot,brown-rot,and white-rot fungi
Authors:John A. Buswell  Karl-Erik Eriksson  Jugal K. Gupta  Sven G. Hamp  Inger Nordh
Affiliation:(1) Swedish Forest Products Research Laboratory, Box 5604, S-114 86 Stockholm, Sweden;(2) Present address: Department of Biology, Paisley College of Technology, Paisley, Renfrewshire, Scotland;(3) Present address: Department of Microbiology, Panjab University, 160014 Chandigarh, India;(4) Present address: Royal Institute of Technology, S-10044 Stockholm, Sweden
Abstract:Metabolism of vanillic acid, a product of lignin degradation, has been studied in selected representatives of soft-rot, brown-rot and white-rot fungi. All of the brown-and white-rot species examined decarboxylated vanillate to methoxyhydroquinone oxidatively. Mycelium extracts of all these fungi, except Pleurotus ostreatus contained high levels of an NAD(P)H-dependent vanillate hydroxylase. P. ostreatus also released 14CO2 from 14COOH-vanillate but by a different mechanism possibly involving phenoloxidases. Most of these fungi also contained a dioxygenase which catalysed the intra-diol cleavage of hydroxyquinol (1,2,4-trihydroxybenzene) to form maleylacetate. No 3-O-demethylase activity was detected, and data indicate that in some of the fungi examined cleavage of the aromatic ring occurs without prior removal of the methoxyl group. None of the soft-rot fungi tested contained vanillate hydroxylase or hydroxyquinol 1,2-dioxygenase, but very low levels of protocatechuate 3,4-dioxygenase were detected in mycelium extracts. Vanillate catabolism among members of this group occurs via a different route which may involve ring demethylation although no 3-O-demethylase activity was detected in this study. The enzyme NAD(P)H-quinone oxidoreductase was demonstrated to exist in all the studied groups of fungi.
Keywords:Vanillic acid metabolism  White-rot fungi  Brown-rot fungi  Soft-rot fungi  Vanillate hydroxylase  Aromatic ring cleavage  Quinone oxidoreductase
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