Chemistry Reference
In-Depth Information
Reactions in Chemistry, Food and Health (T.P. Labuza, G.A. Reineccius, V.M. Monnier,
J. O'Brien, J.W. Baynes, eds.), pp. 159-163, Royal Society of Chemistry, Cambridge.
Ashoor, S.H., Zent, J.B. 1984. Maillard browning of common amino acids and sugars. J. Food
Sci. 49, 1206-1207.
Assoumani, M.B., Nguyen, N.P., Lardinois, P.F., van Bree, J., Baudichau, A., Bruyer, D.C.
1990. Use of a lysine oxidase electrode for lysine determination in Maillard model reactions
and in soybean meal hydrolysates. Lebensm. Wiss. Technol. 23, 322-327.
Badoud, R., Hunston, F., Fay, L., Pratz, G. 1990. Oxidative degradation of protein-bound
Amadori products: formation of N-
"
-carboxymethyl lysine and N-carboxymethyl amino
acids as indicators of the extent of non-enzymatic glycosylation. In: The Maillard Reaction
in Food Processing, Human Nutrition and Physiology (P.A. Finot, H.U. Aeschbacher,
R.F. Hurrell, R. Liardon eds.), pp. 79-84, Birkh¨ user Verlag, Basel.
Beck, J., Ledl, F., Severin, T. 1988. Formation of 1-deoxy-
D
-erythro-2,3-hexodiulose from
Amadori compounds. Carbohydr. Res. 177, 240-243.
Ben-Gera, I., Zimmerman, G. 1972. Changes in the nitrogenous constituents of staple foods and
feeds during storage. I. Decrease in the chemical availability of lysine. J. Food Sci. Technol.
India, 9, 113-118.
Berg, H.E. 1993. Reactions of Lactose During Heat Treatment of Milk: A Quantitative Study,
PhD Thesis, Wageningen Agricultural University.
Berg, H.E., van Boekel, M.A.J.S., Jongen, W.M.F. 1990. Heating milk: A study of mutagenicity.
J. Food Sci. 55, 1000-1003, 1017.
Berrens, L. 1996. Neoallergens in heated pecan nut: Products of Maillard type degradation?
Allergy 51, 277-278.
Birlouez-Aragon, I., Mas, P.A., Ait Ameur, L., Locquet, N., de St Louvent, E., Zude, M. 2004.
Fluorescence fingerprints as a rapid predictor of the nutritional quality of processed and
stored foods. Czech J. Food Sciences 22(Special Issue), 68-71.
Blank, I. 2005. Current status of acrylamide research in food: Measurement, safety assessment,
and formation. Ann. N.Y. Acad. Sci. 1043, 30-40.
Blank, I., Davidek, T., Pollien, P., Devaud, S. 2004. Flavour and vinylogous compounds
generated by Maillard-type reactions. Czech J. Food Sciences 22(Special Issue), 50-53.
Bleumink, E., Berrens, L. 1996. Synthetic approaches to the biological activity of beta-lactoglobulin
in human allergy to cow's milk. Nature 212, 514-543.
Bobbio, F.O., Bobbio, P.A., Trevisan, L.M.V. 1973. Maillard reaction. II: catalytic effect of
anions. Lebensm. Wiss. Technol. 6, 215-218.
Bosch, L., Alegria, A., Farre, R., Clemente, G. 2007. Fluorescence and color as markers for the
Maillard reaction in milk-cereal based infant foods during storage. Food Chem. 105, 1135-1143.
Buera, M.P., Chirife, J., Resnik, S.L. 1990. Browning reactions of Heyns rearrangement pro-
ducts. Kinetics of the Maillard reaction during processing and storage. Nahrung 34, 759-764.
Burton, H. 1984. Reviews of the progress of Dairy Science: the bacteriological, chemical,
biochemical and physical changes that occur in milk at temperatures of 100-1508C.
J. Dairy Res. 51, 341-363.
Burvall, A., Asp, N-G., Bosson, A., Jos´, C.S., Dahlqvist, A. 1978. Storage of lactose-hydrolysed
dried milk: effect of water activity on the protein nutritional value. J. Dairy Res. 45, 381-389.
Buser, W., Erbersdobler, H.F. 1985. Determination of furosine by gas-liquid chromatography.
J. Chromatogr. 346, 363-368.
Cabodevila, O., Hill, S.E., Armstrong, H.J., De Sousa, I., Mitchel, J.R. 1994. Gelation
enhancement of soy protein isolate using the Maillard reaction and high temperatures.
J. Food Sci. 59, 872-875.
Calvo, M.M., de la Hoz, L. 1992. Flavour of heated milks. I. A review. Int. Dairy J. 2, 69-81.
