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References

  • Aryan, A.P., Wilson, B., Strauss, C.R. and Williams, P.J. (1987) The properties of glycosidases of Vitis vinifera and a comparison of their β-glucosidase activity with that of exogenous enzymes. Am J Enol Viticult 38, 182188.
  • Barth, M.G.M. and Bridge, P.D. (1989) 4-Methylumbelliferyl substituted compounds as fluorogenic substrates for fungal extracellular enzymes. Lett Appl Microbiol 9, 177179.
  • Bayonove, C., Gunata, Z. and Cordonnier, R. (1984) Mise en évidence de l'intervention des enzymes dans le développement de l'arôme du jus de muscat avant fermentation: la production des terpénols. Bull de l'O.I.V. 57, 741758.
  • Biron, C., Cordonnier, R., Glory, Z., Gunata, Z. and Sapis, J.C. (1988) Étude, dans le raisin, de l'activitéβ-glucosidase. Connaiss Vigne Vin 22, 125134.
  • Blondin, B., Ratomahenina, R., Arnaud, A. and Galzy, P. (1983) Purification and properties of the β-glucosidase of a yeast capable of fermenting cellobiose to ethanol: Dekkera intermedia Van der Walt. Eur J Appl Microbiol Biotechnol 17, 16.
  • Charoenchai, C., Fleet, G.H., Henschke, P.A. and Todd, B.E.N. (1997) Screening of non-Saccharomyces yeasts for the presence of extracellular hydrolytic enzymes. Austr J Grape Wine Res 3, 28.
  • Darriet, Ph., Boidron, J.N. and Dubourdieu, D. (1988) L'hydrolyse des hétérosides terpéniques du muscat a petits grains par les enzymes périplasmiques de Saccharomyces cerevisie. Connaiss Vigne Vin 22, 189195.
  • Delcroix, A., Gunata, Z., Sapis, J.C., Salmon, J.M. and Baynove, C. (1994) Glycosidase activities of three enological yeast strains during winemaking: effect on the terpenol content of Muscat wine. Am J Enol Viticult 45, 291296.
  • Drider, D., Pommares, P., Chemardin, P., Arnaud, A. and Galzy, P. (1993) Purification and properties of the endocellular β-glucosidase of Candida cacaoi Buckley and Van Uden CBS 2020. J Appl Bacteriol 74, 473479.
  • Gondé, P., Ratomahenina, R., Arnaud, A. and Galzy, P. (1985) Purification and properties of the extracellular β-glucosidase of Candida molischiana (Zikes) Meyer and Yarrow capable of hydrolyzing soluble cellodextrins. Can J Biochem Cell Biol 63, 11601166.
  • Gunata, Y.Z., Bayonove, C.L., Cordonnier, R.E., Arnaud, A. and Galzy, P. (1990) Hydrolysis of grape monoterpenyl glycosides by Candida molischiana and Candida wickerhamiiβ-glucosidases. J Sci Food Agricult 50, 499506.
  • Hernández, L.F., Espinosa, J.C., Fernández-González, M. and Briones, A. (2002) β-glucosidase activity in a Saccharomyces cerevisiae wine strain. Int J Food Microbiol 80, 171176.
  • Leclerc, M., Arnaud, A., Ratomahenina, R. and Nicolas, M. (1984) The enzyme system in a strain of Candida wickerhamii Meyer and Yarrow participating in the hydrolysis of cellodextrins. J Gen Appl Microbiol 30, 509521.
  • Manzanares, P., Rojas, V., Genovés, S. and Vallés, S. (2000) A preliminary search for anthocyanin-β-D-glucosidase activity in non-Saccharomyces wine yeasts. Int J Food Sci Technol 35, 95103.
  • Mateo, J.J. and Di Stefano, R. (1997) Description of the β-glucosidase activity of wine yeasts. Food Microbiol 14, 583591.
  • McMahon, H., Zoecklein, B.W., Fugelsang, K. and Jasinski, Y. (1999) Quantification of glycosidase activities in selected yeasts and lactic acid bacteria. J Ind Microbiol Biotechnol 23, 198203.
  • Riccio, P., Rossano, R., Vinella, M., Domizio, P., Zito, F., Sansevrino, F., D'Elia, A. and Rosi, I. (1999) Extraction and immobilization in one step of two β-glucosidases released from a yeast strain of Debaryomyces hansenii. Enzyme Microb Technol 24, 123129.
  • Rosi, I., Vinella, M. and Domizio, P. (1994) Characterization of β-glucosidase activity in yeasts of oenological origin. J Appl Bacteriol 77, 519527.
  • Rosi, I., Domizio, P., Fia, G. and Agnoletto, R. (2000) Biodiversità della popolazione di lieviti presente nel corso della fermentazione di mosti di uve Sangiovese. Atti del Simposio Internazionale ‘Il Sangiovese’ Ed. Arsia. Firenze: Effeemme Lito srl, pp. 441445.
  • Spagna, G., Barbagallo, R.N., Palmeri, R., Restuccia, C. and Giudici, P. (2002a) Properties of endogenous β-glucosidase of a Pichia anomala strain isolated from Sicilian musts and wines. Enzyme Microb Technol 31, 10361041.
  • Spagna, G., Barbagallo, R.N., Palmeri, R., Restuccia, C. and Giudici, P. (2002b) Properties of endogenous β-glucosidase of a Saccharomyces cerevisiae strain isolated from Sicilian musts and wines. Enzyme Microb Technol 31, 10301035.
  • Tukey, J.W. (1977) pp. 2755. Explanatory Data Analysis. Reading, MA: Addison-Wesley.
  • Vasserot, Y., Christiaens, H., Chemardin, P., Arnaud, A. and Galzy, P. (1989) Purification and properties of a β-glucosidase of Hanseniaspora vinae Van der Walt and Tscheuschner with the view to its utilization in fruit aroma liberation. J Appl Bacteriol 66, 271279.
  • Vasserot, Y., Chemardin, P., Arnaud, A. and Galzy, P. (1990) Evidence for the β-glucosidase activity and cellobiose fermentation by various Kloeckera strains. Acta Biotechnol 5, 439445.