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78 Part 1: Principles/Food Analysis
Herraiz T, Galisteo J. 2003. Tetrahydro-beta-carboline alkaloids
occur in fruits and fruit juices. Activity as antioxidants and radical
scavengers.J Agric Food Chem51: 7156–7161.
Herraiz T, Papavergou E. 2004. Identification and occurrence of
tryptamine- and tryptophan-derived tetrahydro-beta-carbolines in
commercial sausages.J Agric Food Chem52: 2652–2658.
Herraiz T et al. 2003.l-tryptophan reacts with naturally occur-
ring and food-occurring phenolic aldehydes to give phenolic
tetrahydro-beta-carboline alkaloids: activity as antioxidants and
free radical scavengers.J Agric Food Chem51: 2168–2173.
Hidalgo FJ, Zamora R. 1993. Fluorescent pyrrole products from
carbonyl-amine reactions.J Biol Chem268(22): 16190–16197.
Hidalgo FJ, Zamora R. 1995. Characterization of the products
formed during microwave irradiation of the non-enzymic brown-
ing lysine (E)-4,5-epoxy-(E)-2-heptanal model system.J Agric
Food Chem43(4): 1023–1028.
Hidalgo FJ, Zamora R. 2000. The role of lipids in non-enzymic
browning.Grasas y Aceites51(1–2): 35–49.
Hidalgo FJ, Zamora R. 2002. Methyl linoleate oxidation in the
presence of bovine serum albumin.J Agric Food Chem50(19):
5463–5467.
Hidalgo FJ, Zamora R. 2004. Strecker-type degradation produced by
the lipid oxidation products 4,5-epoxy-2-alkenals.J Agric Food
Chem52: 7126–7131.
Hidalgo FJ et al. 1992. Modificaciones producidas en las prote ́ınas
alimentarias por su interaccion con l ́ ́ıpidos peroxidados. II.
Mecanismos conocidos de la interacci ́on l ́ıpido (oxidado)-
prote ́ına.Grasas y Aceites43(1): 31–38.
Hidalgo A et al. 1995. Furosine as a freshness parameter of shell
egg.J Agric Food Chem43(6): 1673–1677.
Hidalgo FJ et al. 1999. Effect of pH and temperature on comparative
non-enzymic browning of proteins produced by oxidized lipids
and carbohydrates.J Agric Food Chem47(2): 742–747.
Hidalgo FJ et al. 2003. Effect of the pyrrole polymerization mech-
anism on the antioxidative activity of no enzymatic browning
reactions.J Agric Food Chem51(19): 5703–5708.
Hidalgo FJ et al. 2006a. Antioxidative activity of amino phospho-
lipids and phospholipid/amino acid mixtures in edible oils as
determined by the rancimat method.J Agric Food Chem54(15):
5461–5467.
Hidalgo FJ et al. 2006b. Nonenzymatic browning, fluorescence
development, and formation of pyrrole derivatives in phos-
phatidylethanolamine/ribose/lysine model systems.J Food Scis
70(6): 387–391.
Hidalgo FJ et al. 2007. Effect of tocopherols in the antioxidative
activity of oxidized lipid−amine reaction products.J Agric Food
Chem55(11): 4436–4442.
Hidalgo FJ et al. 2008. The role of amino phospholipids in the
removal of the cito- and geno-toxic aldehydes produced during
lipid oxidation.Food Chem Toxicol46(1): 43–48.
Hidalgo FJ et al. 2009. Effect ofβ-sitosterol in the antioxidative
activity of oxidized lipid–amine reaction products.Food Res Int
42(8): 1215–1222.
Hisaminato H et al. 2001. Relationship between the enzymatic
browning and phenylalanine ammonia-lyase activity of cut let-
tuce, and the prevention of browning by inhibitors of polyphenol
biosynthesis.Biosci Biotechnol Biochem65(5): 1016–1021.
Hodge JE. 1953. Dehydrated foods. Chemistry of browning reac-
tions in model systems.J Agric Food Chem1(15): 928–943.
Hollnagel A, Kroh LW. 2002. 3-Deoxypentosulose: an alpha-
dicarbonyl compound predominating in non-enzymic browning
of oligosaccharides in aqueous solutions.J Agric Food Chem
50(6): 1659–1664.
Hollnagel A, Kroh LW. 2000. Degradation of oligosaccharides in
non-enzymic browning by formation ofα-dicarbonyl compounds
via a “peeling off” mechanism.J Agric Food Chem48(12):
6219–6226.
Homoki-Farkas P et al. 1997. Methylglyoxal determination from
different carbohydrates during heat processing.Food Chem59(1):
157–163.
Hosoda H, Iwahashi I. 2002. Inhibition of browning if apple slice
and juice by onion juice.J Jpn Soc Hortic Sci71(3): 452–454.
Hosoda H et al. 2003. Inhibitory effect of onion oil on browning of
shredded lettuce and its active components.J Jpn Soc Hortic Sci
75(5): 451–456.
Howard LA et al. 1999. Beta-carotene and ascorbic acid retention
in fresh and processed vegetables.J Food Sci64(5): 929–936.
Howard LR, Hernandez-Brenes C. 1998. Antioxidant content and
market quality of jalapeno pepper rings as affected by minimal
processing and modified atmosphere packaging.J Food Qual
21(4): 317–327.
Hunt MD et al. 1993. cDNA cloning and expression of potato
polyphenol oxidase.Plant Mol Biol21(1): 59–68.
Ihl M et al. 2003. Effect of immersion solutions on shelf-
life of minimally processed lettuce.Food Sci Technol36(6):
591–599.
International Agency for Research on Cancer (IARC). 1994. Some
Industrial Chemicals.In:IARC Monographs on the Evaluation
for Carcinogenic Risk of Chemical to Humans. IARC, Lyon, vol.
60, pp. 389–433, 435–453.
Jacxsens L et al. 2001. Effect of high oxygen modified atmosphere
packaging on microbiological growth and sensorial qualities of
fresh cut produce.Int J Food Microbiol71(2–3): 197–210.
Jimenez-Casta ́ no L et al. 2005. Effect of the dry-heating conditions ̃
on the glycosylation ofβ-lactoglobulin with dextran through the
Maillard reaction.Food Hydrocolloid19(5): 831–837.
Jolley RL et al. 1974. Oxytyrosinase.J Biol Chem249(2): 335–345.
Jom KN et al. 2008. Investigation of acrylamide in curries made
from coconut milk.Food Chem Toxicol46(1): 119–124.
Kaaber L et al. 2002. Browning inhibition and textural changes
of pre-peeled potatoes caused by anaerobic conditions.Food Sci
Technol35(6): 526–531.
Kacem B et al. 1987. Non-enzymatic browning in aseptically pack-
aged orange drinks: effect of ascorbic acid, amino acids and
oxygen.J Food Sci52(6): 1668–1672.
Kaplan O et al. 2009. Acrylamide concentrations in grilled
foodstuffs of Turkish kitchen by high performance liq-
uid chromatography-mass spectrometry. Microchem J93(2):
173–179.
Kaur C, Kapoor HC. 2000. Inhibition of enzymic browning in ap-
ples, potatoes and mushrooms.J Sci Ind Res59(5): 389–394.
Khayat A, Schwall D. 1983. Lipid oxidation in seafood.Food Tech-
nol37(7): 130–140.
Kim JS, Lee YS. 2008a. Effect of pH on the enolization of sugars
and antioxidant activity of caramelisation browning.Food Sci
Biotechnol17(5): 931–939.
Kim JS, Lee YS. 2008b. Effect of reaction pH on enolization and
racemization reactions of glucose and fructose on heating with