Wine Chemistry and Biochemistry

(Steven Felgate) #1

460 M. Monagas and B. Bartolom ́e


Morata, A., G ́omez-Cordov ́es, M.C., Colomo, B., & Su ́arez, J.A. (2003a). Pyruvic acid and
acetaldehyde production by different strains ofSaccharomyces cerevisiaewith vitisin A and
B formation in red wines.J. Agric. Food Chem. 51, 7402–7409.
Morata, A., G ́omez-Cordov ́es, M.C., Suberviola, J., Bartolom ́e, B., Colomo, B., & Su ́arez, J.A.
(2003b). Adsorption of anthocyanins by yeast cell walls during the fermentation of red wines.
J. Agric. Food Chem., 51, 4084–4088.
Morata, A., G ́omez-Cordov ́es, M.C., Colomo, B., & Su ́arez, J.A. (2005). Cell wall anthocyanin
adsorption by differentSaccharomycesstrains during the fermentation ofVitis viniferaL. cv
Graciano grapes.Eur. Food Res. Technol., 220, 341–346.
N ́u ̃nez, V., Monagas, M., G ́omez-Cordov ́es, C., & Bartolom ́e, B. (2004).Vitis viniferaL. cv.
Graciano grapes characterized by its anthocyanin profile.Postharvest Biol. Technol. 31,
69–79.
Oliveira, J., De Freitas, V., Silva, A.M.S., & Mateus N. (2007). Reaction between hydroxycin-
namic acids and anthocyanin-pyruvic adducts yielding new portisins.J. Agric. Food Chem. 55,
6349–6359.
Ortega Meder, M.D., Rivas Gonzalo, J.C., Vicente, J.L., & SantosBuelga, C. (1994). Differentiation
of grapes according to the skin anthocyanin composition.RECTA 34, 409–426.
Oszmianski, J., Cheynier, V., & Moutounet, M. (1996). Iron-catalized oxidation of (+)-catechin in
model systems.J. Agric. Food Chem., 44, 1712–1715.
Palmeri, R., & Spagna, G. (2007). Beta-glucosidase in cellular and acellular form for winemaking
application.Enz. Microbial Technol., 30, 382–389.
Peng, C.Y., & Markakis, P. (1963). Effect of phenolase on anthocyanins.Nature 199, 596–597.
P ́erez-Magari ̃no, S., & Gonz ́alez-San Jos ́e, M.L. (2004). Evolution of flavanols, anthocyanins and
their derivatives during the aging of red wines elaborated from grapes harvested at different
stages of ripening.J. Agric. Food Chem. 52, 1181–1189.
Pifferi, P.G., & Cultrera, R. (1974). Enzymatic degradation of anthocyanins: the role of sweet
cherry polyphenoloxidase.J Food Sci. 39, 786–791.
Pissarra, J., Mateus, N., Rivas-Gonzalo, J., Santos-Buelga, C., & De Freitas, V. (2003). Reaction
between malvidin-3-glucoside and (+)-catechin in model solutions containing different aldehy-
des.J. Food Sci. 68, 476–481.
Pissarra, J., Lourenςo, S., Gonz ́alez-Param ́as, A.M., Mateus, N., Santos-Buelga, C., Silva, A.M.S.,
& De Freitas, V. (2004). Structural characterization of new malvidin-3-glucoside-catechin
aryl/alkyl pigments.J. Agric. Food Chem. 52, 5519–5526.
Pissarra, J., Lourenςo, S., Gonz ́alez-Param ́as, A.M., Mateus, N., Santos-Buelga, C., Silva, A.M.S.,
& De Freitas, V. (2005a). Isolation and structural characterization of new anthocyanin-alkyl-
catechin pigments.Food Chem. 90, 81–87.
Pissarra, J., Sandra, L., Machado J.M., Mateus, N., Guimaraens, D., & De Freitas, V. (2005b).
Contribution and importance of wine spirit to the port wine final quality- initial approach.J.
Sci. Food Agric. 85, 1091–1097.
Pozo-Bay ́on, M.A., Monagas, M., Polo, M.C., & G ́omez-Cordov ́es, C. (2004). Occurrence of pyra-
noanthocyanins in sparkling wines manufactured with red grape varieties.J. Agric. Food Chem.
52 , 1300–1006.
Remy, S., Fulcrand, H., Labarbe. B., Cheynier, V., & Moutounet, M. (2000). First confirmation in
red wine of products resulting from direct anthocyanin-tannin reactions.J. Sci. Food Agric. 80,
745–751.
Remy-Tanneau, S., Le Guernev ́e, C., Meudec, E., & Cheynier, V. (2003). Characterization of a
colorless anthocyanin-flavan-3-ol dimer containing both carbon-carbon and ether interflavanoid
linkages by NMR and mass spectrometry.J. Agric. Food Chem. 51, 3592–3597.
Rentzsch, M., Schwarz, M., Winterhalter, P., & Hermos ́ın-Guiti ́errez, I. (2007). Formation of
hydroxyphenyl-pyranoanthocyanins in Grenache wines: precursor levels and evolution during
aging.J. Agric. Food Chem. 55, 4883–4888.
Revilla, I., & Gonz ́alez-San Jos ́e, M.L. (2001). Evolution during the storage of red wines treated
with pectolytic enzymes: New anthocyanin pigment formation.J. Wine Res. 12, 183–197.

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