2 Biochemical Transformations Produced by Malolactic Fermentation 53
Labarre, C., Guzzo, J., Cervin, J. F., & Divies, C. (1996). Cloning and characterization of the genes
encoding the malolactic enzyme and the malate permease ofLeuconostoc oenos. Appl. Environ.
Microbiol., 62, 1274–1282.
Lafon-Lafourcade, S., Carre, E., & Ribereau-Gayon, P. (1983). Occurrence of Lactic Acid Bacteria
During the Different Stages of Vinification and Conservation of Wines.Appl Environ Micro-
biol., 46, 874–880.
Larsen, J.T., Nielsen, J.C., Kramp, B., Richelieu, M., Bjerring, P., Riisager, M.J., Arneborg, N.,
& Edwards, C.G. (2003). Impact of different strains ofSaccharomyces cerevisiaeon MLF by
Oenococcus oeni.Am. J. Enol. Vitic., 54, 246–251.
Laurent, M.H., Henick-Kling, T., & Acree, T.E. (1994). Changes in the aroma and odor of
Chardonnay wine due to malolactic fermentation.Wein-Wissenschaft, 49, 3–10.
Leitao, M.C., Teixeira, H.C., Barreto Crespo, M.T., & San Romao, N.V. (2000). Biogenic amine
ocurrence in wine. Amino acid decarboxylase and proteolytic activities expression byOeno-
coccus oeni.J. Agric. Food Chem., 48, 2780–2784.
Lemaresquier, H. (1987). Inter-relationship between strains ofSaccharomyces cerevisiaefrom
Champagne area and lactic acid bacteria.Lett. App. Microbiol., 4, 91–94.
Liu, S.-Q., Pritchard, G.G., Hardman, M.J., & Pilone, G.J. (1994). Citrulline production
and ethyl carbamate (urethane) precursor formation from arginine degradation by wine
lactic acid bacteriaLeuconostoc oenosandLactobacillus buchneri.Am. J. Enol. Vitic., 45,
235–242.
Lonvaud-Funel, A. (1999). Lactic acid bacteria inthe quality improvement and depreciation of
wine.Anton. Leeuw, 76, 317–331.
Lonvaud-Funel, A., & Joyeux, A. (1993) Antagonism between lactic acid bacteria of wines: inhi-
bition ofLeuconostoc oenosbyLactobacillus plantarumandPediococcus pentosaceus.Food
Microbiol., 10, 411–419.
Lonvaud-Funel, A., & Strasser de Saad, A. M. (1982). Purification and properties of a malolac-
tic enzyme from a strain ofLeuconostoc mesenteroidesisolated from grapes.Appl. Environ.
Microbiol., 43, 357–361.
Lonvaud-Funel, A., Fremaux, C., & Biteau, N. (1989). Identification deL. oenosper l’utilisation
de sondes d’AND.Sci Aliments, 8, 33–49.
Lonvaud-Funel, A., Fremaux, C., Biteau, N., & Joyeux A. (1991a). Speciation of lactic acid bac-
teria from wines by hybridisation with DNA probes.Food Microbiol., 8, 215–222.
Lonvaud-Funel, A., Joyeux, A., & Ledoux, O. (1991b). Specific enumeration of lactic acid bacteria
in fermenting grape must and wine by colony hybridization with non isotopic DNA probes.J.
Appl.Bacteriol., 71, 501–508.
Maicas, S., Gil, J.V., Pardo, I., & Ferrer, S. (1999). Improvement of volatile composition of wines
by controlled addition of malolactic bacteria,Food Res. Internat., 32, 491–496.
Malacrin `o, P., Zapparoli, G., Torrioni, S., & Dell’aglio, F. (2003). Adaptation in Amarone wine
of indigenous Oenococcus oeni strains differentiated by pulsed-field gel electrophoresis.Ann.
Microbiol., 53, 55–61.
MancadeNadra,M.C.,Far ́ıas, M., Moreno-Arribas, M.V., Pueyo, E., & Polo, M.C. (1997). Pro-
teolytic activity ofLeuconostoc oenos: Effect on proteins and polypeptides from white wine.
FEMS Microbiol. Lett., 150,135–139.
Manca de Nadra, M.C., Farias, M., Moreno-Arribas, M.V., Pueyo, E., & Polo, M.C. (1999). A
proteolytic effect ofOenococcus oenion the nitrogenous macromolecular fraction of red wine.
FEMS Microbiol. Lett., 174, 41–47.
Marcobal, A., De las Rivas, B., Moreno-Arribas, V., & Munoz, R. (2004). Identification of the
ornithine decarboxylase gene in the putrescine producerOenococcus oeniBIFI-83.FEMS
Microbiol. Lett., 239, 213–220.
Martineau, B., & Henick-Kling, T. (1995). Performance and diacetyl production of commercial
strains of malolactic bacteria in win.J Appl. Bacteriol., 78, 526–536.
Mart ́ınez-Murcia, A.J., Harland, N.M., & Collins, M.D. (1993). Phylogenetic analysis of some
leuconostocs and related organism as determined from the large -subunit rRNA gene sequences: