In enology “Brett” character refers to the wine spoilage caused by the yeast Dekkera/Brettanomyces bruxellensis and its production of volatile phenolic off-flavours. This peculiarity is due to the activity of the vinylphenol reductase enzyme, that catalyses the conversion from vinyl- to ethyl-phenols and it is both strain- and cultural condition dependent. Nineteen strains of D. bruxellensis were screened for vinyl phenol reductase (VPR) activity. Presence/absence of the precursors in the growth medium gave no significant differences in VPR activity, confirming that this enzyme is constitutively expressed. A purified protein with VPR activity was extracted from D. bruxellensis CBS4481 cells. The amino acidic sequence, achieved by trypsinolysis and mass spectrometry, revealed a high homology with a Cu/Zn superoxide dismutase (SOD) in the D. bruxellensis AWRI1499 genome. Actually, the isolated protein possessed both vinyl phenol reductase and superoxide dismutase activities. The bioinformatics analysis showed the presence of cofactor-binding sites, that are absent or severely altered in sequences of superoxide dismutases from other wine-relevant yeast species, which do not display vinyl phenol reduction. This moonlighting activity of D. bruxellensis SOD as a VPR is related to its capacity of catalyzing NADH-dependent reduction of vinyl phenols.
Identification and molecular characterization of vinyl phenol reductase from Dekkera bruxellensis CBS 4481 / T.M. Granato, D. Romano, I. Vigentini, R.C. Foschino, D. Monti, G. Mamone, P. Ferranti, C. Nitride, S. Iametti, F. Bonomi, C. Compagno, F. Molinari. ((Intervento presentato al 31. convegno Yeast Fermentations: from Genes to Application Aspects : International Specialized Symposium on Yeasts (ISSY) tenutosi a Nova Gorica, Vipava nel 2014.
Identification and molecular characterization of vinyl phenol reductase from Dekkera bruxellensis CBS 4481
T.M. GranatoPrimo
;D. RomanoSecondo
;I. Vigentini
;R.C. Foschino;S. Iametti;F. Bonomi;C. CompagnoPenultimo
;F. MolinariUltimo
2014
Abstract
In enology “Brett” character refers to the wine spoilage caused by the yeast Dekkera/Brettanomyces bruxellensis and its production of volatile phenolic off-flavours. This peculiarity is due to the activity of the vinylphenol reductase enzyme, that catalyses the conversion from vinyl- to ethyl-phenols and it is both strain- and cultural condition dependent. Nineteen strains of D. bruxellensis were screened for vinyl phenol reductase (VPR) activity. Presence/absence of the precursors in the growth medium gave no significant differences in VPR activity, confirming that this enzyme is constitutively expressed. A purified protein with VPR activity was extracted from D. bruxellensis CBS4481 cells. The amino acidic sequence, achieved by trypsinolysis and mass spectrometry, revealed a high homology with a Cu/Zn superoxide dismutase (SOD) in the D. bruxellensis AWRI1499 genome. Actually, the isolated protein possessed both vinyl phenol reductase and superoxide dismutase activities. The bioinformatics analysis showed the presence of cofactor-binding sites, that are absent or severely altered in sequences of superoxide dismutases from other wine-relevant yeast species, which do not display vinyl phenol reduction. This moonlighting activity of D. bruxellensis SOD as a VPR is related to its capacity of catalyzing NADH-dependent reduction of vinyl phenols.
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