5. BIBLIOGRAFIA
Agnolucci M., Scarano S., Rea F., Toffanin A., Nuti M., 2007. Detection of
Dekkera⁄Brettanomyces bruxellensis in pressed Sangiovese grapes by real time PCR. Italian Journal of Food Science 19, pp. 155-166.
Agnolucci M., Vigentini I., Capurso G., Merico A., Tirelli A., Compagno C.,
Nuti M., 2008. Genetic diversity and physiological traits of
Dekkera/Brettanomyces bruxellensis strains isolated during fermentation of Sangiovese grapes (International Journal of Food Science, submitted).
Amman R.I., Ludwig, Scheleifer K.H., 1995. Plylogenetic identification in situ detection of individual microbial cells without cultivation. Microbiol. Rev. 59, pp. 143-169.
Barata A., Caldeira J., Botelheiro R., Pagliara D., Malfeito-Ferreira M., Loureiro V., 2008. Survival patterns of Dekkera buxellensis in wines and inibitory effect of sulphur dioxide. International Journal of Food Microbiology 121, pp. 201-207
Beech F. W., Thomas S., 1985. Action antimicrobienne de l’anhydride sulfureux. Bull. OIV 652-653, pp. 564-581
Caruso M., Fiore C., Contursi M., Papparella A., Romano P., 2002. Formation of biogenic amines as criteria for the selection of wine yeast. World Journal of Mycrobiology & Biotecnology 18, pp. 159-163.
Cavazza A., Grando M.S., Zini C., 1992. Rilevazione della flora microbica di mosti e vini. Vigne vini 9, pp. 17-20.
Chatonnet P., Viala C., Dubourdieu D., 1997. Influence of poliphenolyc components of red wines on the microbial synthesys of volatle phenols. Am. J. Enol. Vitic. 4, pp.443-448.
Ciani M., Ferrero L., 1997. Role of oxygen on acetic production by
Brettanomyces/Dekkera in winemaking. Journal of the Science of Food and
Agricolture, 75 pp. 489-495
Cocolin L. e Mills D. A., 2003. Wine yeast Inibition by Sulfur Dioxide: A Comparison of Culture-Dependent and Independent Methods. Am. J. Enol. Vitic. 54, pp. 125-130.
Cocolin L., Bisson L. and Mills D.A., 2000. Direct profiling of the yeast dynamics in wine fermentation. FEMS Microbiol. Lett. 189, pp. 81-87.
Cocolin L., Heisey A., Mills, 2001. Direct identification of the indigenous yeasts in commercial wine fermentation. Am. F. Enol. Viticul. 52, pp. 49-53.
Cocolin L., Manzano M., Rebecca S. and Comi G., 2002. Monitoring of yeast poplation changes during a continuos wine fermentations by molecular methods. Am. F. Enol. Viticul. 53, pp. 24-27.
Colwell R., 2000. Viable but non-culturable state of wine micro-organisms during storage. J Infect Chemother 6, pp.121-125.
Costa A., Barata A., Malfeito-Ferreira M., Loureiro V., 2008. Evaluation of
the inibitory effect of dimethyldicarbonate (DMDC) against wine
microorganisms. Food Microbiology. 25, pp. 422-427
De Man J.C., Rogosa M., Sharpe M.E., 1960. A medium for the cultivation of lactobacilli. The Journal of Applied Bacteriology 23, pp. 130-135.
Delfini C., Gaia P., Schellino R., Strano M., Pagliara A. and Ambrò S., 2002. Fermentability of Grape Must after Inhibition with Dimethyl Dicarbonate (DMDC). Journal of Agricultural and Food Chemisrty 50, pp. 5605-5611.
Delfini C., 1995. Scienza e tecnica di microbiologia enologica 6, pp103-133.
Divol B., Lonvaud-Funel A., 2005. Evidence for viable but non culturale yeasts in botrytis-affected wine. Journal of Applied Microbilogy 99, pp. 85-93.
du Toit W.J., Pretorius I.S. and Lonvaud-Funel, 2005. The effect of dioxide and oxygen on the viability and culturability of a strain of Acetobacter pasterianus and a strain of Brettanomyces bruxellensis isolated from wine. Journal of Applied Microbilogy 98, pp. 862-871.
Egli C.M. e Henick-Kling T., 2001. Identification of Brettanomyces/Dekkera species Based on Polymorphism in the rRNA Internal Transcribed Spacer Region. Am. J. Vitic. 52, pp. 241-247.
Fleet G.H., 1999. Microrganism in food ecosystems. International Journal of Food Microbiology 50, pp.101-117
Froudiere I., Larue F. and Lonvaud-Funel, A. 1990. Utilisation de l’épifluorescence pour la dètection des micro-organismes dans le vin. Connaissance de la Vigne et du Vin 24, 43– 46.
Gahan P., 1984. Experimental botany, an international series of monographs. Plant histochemistry and cytochemistry, an introduction 8, pp. 124-130
Garbay S., Lonvaud-Funel A., 1994 .Characterization of membrane bound ATPase activity of Leuconostoc oenos: growth conditions. Appl. Microbiol. Biotechnol. 41, pp. 597-602.
Granchi L., Bosco M., Messini A. and Vincenzini M., 1999. Rapid detection and quantification of yeast species during spontaneous win wfermwntation by PCR-RFLP analysis of the rDNA ITS region. Journal of Applied Microbiology 87, pp. 949-956.
Gunasekera, T.S., Sorensen, A., Attfield, P.V., Sorensen, S.J. and Veal, D.A. ( 2002). Inducible gene expression by nonculturable bacteria in milk after pasteurization. Appl Environ Microbiol 68, pp. 1988– 1993.
Heard G. M., Fleet G.H., 1988. the effect of sulphur dioxide on yeast growth during natural and inoculated wine fermentation. Aust. New Zeal. Wine Ind. J., 3, pp. 57-60.
Hobbie, J.E., Daley, R.J. and Jasper, S. (1977). Use of nucleopore filters for counting bacteria by fluorescence microscopy. Appl Environ Microbiol 33, pp. 1225– 1228.
Krumbholz G., Tauschanoff, W., 1933. Mycotorula intermedia. n,sp., ein beitrag zur Kenntnis der Gärungserreger in Wein. Zentralblatt fuer Backteriologie 88, pp. 366-373.
Kutzman C.P., Fell J.W., 2000. “The yeasts: a taxonomy study”. Amsterdam, fourth edition. pp 114, 118, 174-177, 450-453.
Licker J.L., Acree T.E., Henick-Kling T.E., 1998. What is “brett” (Brettanomyces) flavor? A preliminary investigation. American Chemical Soc.
Symposium, 213th National meeting, San Francisco, CA, April, Published:
Chemistry of wine flavor. A.L. Wathouse and S.E. Ebeler, eds., ACS Symposium Series, 714 pp. 96-115.
fluorescent protein fluorescence in GFP tagged Pseudomonas fluorescens A506. Appl Environ Microbiol 66, pp. 3160– 3165.
Margalit Y., 2005. Elementi di chimica del vino, pp. 269-271.
Mc Dougald D., Rice S. A., Weichart D., Kjelleberg S., 1998. Nonculturability: adaption or delibitation? FEMS Microbiology Ecology 25, pp. 1-9.
Millet V., Lonvaud-Founel A., 2000. The viable but non-culturable state of wine microrganism during storage. Letters in Applied Microbiology 30, pp. 136-141.
Mills D.A., Johannsen E.A., Cocolin L., 2002. Yeasts diversity and resistence in botrytis-affected wine fermentations. Appl. Environ. Microbiol. 68, pp. 4884-4893.
Oliver J.D., 1993. Formation of viable but non culturable cells. In Starvation in Bacteria ed. Kjellberg, S. pp. 239– 271.
Oliver J.D., Hite F., McDougald D., Andon M.L. and Simpson L.M. 1995. Entry into and resuscitation from the viable but non culturable state by Vibrio
vulnificus in an estuarine environment. Appl. Environ. Microbiol. 61, pp. 2624– 2630.
Oliver J.D., 2005. The viable but non culturable state in bacteria. The Journal of Microbiology 43, pp.93-100.
Renouf V., Perello M., de Revel G. andLonvaud-Funel A., 2007. Survival of
wine microrganism in the bottle during storage. Am. J. Enol. Vitic. 58, pp.379-386.
Renouf V., Strehaiano P., Lonvaud-Funel A., 2008. Effectiveness of dimethlydcarbonate to prevent Brettanomyces bruxellensis growth in wine. Food Control 19, pp. 208-216.
Renouf V., Falcou M., Miot-Sertier C., Perello M.C., De Renvel G. and Lonvaud-Funel A., 2006. Interaction between Brettanomyces bruxellensis and other yeast species during the initial stages of winemaking. Journal and Applied Microbiology 100, pp.1208-1219.
Ribèreau-Gayon P., Dubourdieu D., Donèche B., Lonvaud A., 2003. Trattato di enologia I Ed. Ed agricole, Bologna.
Silla Santos M.H., 1996. Biogenic amines: their importance in foods. International Journal of Food Microbiology 29, pp. 213-231.
Sardessai Y.N., 2005. Viable but non-culturable bacteria: their impact on public health. Current science 89, p. 1650.
Servis N.A., Nicholas S. and Adamds J.C., 1995. Development of a direct viable count procedure for some Gram-positive bacteria. Letters in Applied Microbiology 20, pp. 237-239.
Shantha Kumara H.M.C., De Cort S. and Verachtert H., 1993. Localization and characterization of a-glucosidase activity in Brettanomyces lambicus. Applied and Environmental Microbiology 59, pp. 2352–2358.
Sheffers W.A., 1966. Nature 210, pp. 533-534.
Silva P., Cardoso H., Geròs H., 2004. Studies on the wine spoilage capacity of Brettanomyces/Dekkera spp. Am. J. Enol. Vitic. 55, pp 65-72.
Vigentini I., Romano A., Compagno C., Merico A., Molinari F., Tirelli A., Foschino R., Volonterio G., 2008. Physiological and oenological traits of different Dekkera/Brettanomyces bruxellensis strains in wine-model conditions (FEMS Yeast Research, submitted).
White T.J., Bruns T., Lee S., Taylor J., 1990. Amplification and direct sequencing of fungal ribosomal RNA genes for phylogenetics. In: PCR Protocols. A guide to methods and applications. San Diego, pp 315-322.
Xu H.S., Roberts N., Singleton F.L., Atwell R.W., Grimes D.J., and Colwell R.R., 1982. Survival and viability of nonculturable Escherichia coli and Vibrio
cholerae in the estuarine and marine environment. Microb Ecol 8, pp. 313– 323.
Yamamoto H., 2000. Viable but non culturable state as a general phenomen of viable non- spore-forming bacteria, and its modeling. J Infect Chemother 6, pp. 112-114.
Zambonelli C., 1988. Microbiologia e biotecnologie dei vini, Edagricole, Bologna, pp. 45-46.
