References
- Sherwin ER. Antioxidants. Branen AL, Davidson PM, Salminen S. Food Additives. New York: Marcel Dekker; 1990. 139–193.
- Nriagu JO. Copper in the environment part 1: ecological cycling. New York: John Wiley & Sons; 1979.
- Nriagu JO. Copper in the environment part 2: health effects. New York: John Wiley & Sons; 1980.
- Oess A, Cheshire MV, McPhail DB, Vedy J-C. Polymerization: a possible consequence of copper-phenolic interactions. Berthelin J, Huang PM, Bollag J-M, Andreux F. Effect of mineral-organic-microorganism interactions on soil and freshwater environments. New York: Kluwer Academic/Plenum; 1999. 151–158.
- Oess A, Cheshire MV, McPhail DB, Stoll S, Alaili ME, Vedy J-C. Elucidation of phenol-Cu interaction mechanisms by potentiometry, ESR, UV absorption spectroscopy and molecular simulations. Sci Total Environ 1999; 228:49–58.
- Yoshino M, Haneda M, Naruse M, Htay HH, Iwata S, Tsubouchi R, Murakami K. Prooxidant action of gallic acid compounds: copper-dependent strand breaks and the formation of 8-hydroxy-2′-deoxyguanosine in DNA. Toxicol in Vitro 2002;16:705–709.
- Aguiar A, Ferraz A. Fe3+- and Cu2+- reduction by phenol derivatives associated with Azure B degradation in Fenton-like reactions. Chemosphere 2007;66:947–954.
- Kobayashi H, Oikawa S, Hirakawa K, Kawanishi S. Metal-mediated oxidative damage to cellular and isolated DNA by gallic acid, a metabolite of antioxidant propyl gallate. Mutat Res 2004;558:111–120.
- Satoh K, Sakagami H. Effect of copper and iron ions on cytotoxicity induced by ascorbate, gallate and caffeate. Anticancer Res 1997;17:2181–2184.
- Labieniec M, Gabryelak T. Study of interactions between phenolic compounds and H2O2 or Cu(II) ions in B14 Chinese hamster cells. Cell Biol Int 2006;30:761–768.
- Chen C-H, Liu T-Z, Chen C-H, Wong CH, Chen C-H, Lu F-J, Chen SC. The efficacy of protective effects of tannic acid, gallic acid, ellagic acid, and propyl gallate against hydrogen peroxide-induced oxidative stress and DNA damages in IMR-90 cells. Mol Nutr Food Res 2007;51:962–968.
- McPhail DB, Goodman BA. TRIS buffer - a case for caution in its use in copper -containing systems. Biochem J Lett 1984; 221:559–560.
- Oniki T, Takahama U. Free radicals produced by the oxidation of gallic acid and catechin derivatives. J Wood Sci 2004;50: 545–547.
- Yoshioka H, Sugiura K, Kawahara R, Fujita T, Makino M, Kamiya M, Tsuyumu S. Formation of radicals and chemiluminescence during the autoxidation of tea catechins. Agriculture Biolog Chem 1991;55:2717–2723.
- Guo Q, Zhao B, Shen S, Hou J, Hu J, Xin W. ESR study on the structure-antioxidant activity relationship of tea catechins and their epimers. Biochim Biophys Acta 1999; 1427:13–23.
- Vuceta J, Morgan JJ. Hydrolysis of Cu(II). Limnol Oceanogr 1977;22:742–746.
- Mosca L, Marco De C, Visioli F, Cannella C. Enzymatic assay for the determination of olive oil polyphenol content: assay conditions and validation of the method. J Agriculture Food Chem 2000;48:297–301.
- Hynes MJ, Coinceanainn MÓ. The kinetics and mechanisms of the reaction of iron(III) with gallic acid, gallic acid methyl ester and catechin. J Inorg Biochem 2001;85:131–142.
- Lim YY, Ginny Lim TT, Liew LP. Autooxidation of some polyphenols in various copper(II) solutions. Malay J Chem 2005;7:32–37.
- Pilbrow JR. Transition ion electron paramagnetic resonance. Oxford: Oxford University Press; 1991.
- Mabbs FE, Collison D. Electron paramagnetic resonance of d transition metal compounds. Amsterdam: Elsevier Science; 1992.
- Bruker Almanac. 2010. Available online at: http://www.bruker-biospin.com/fileadmin/be_user/news/Almanac/Almanac2010.pdf, Accessed 30 August 2010.
- Martin RL, Waterman H. Magnetic studies with copper(II) salts. Part IV. Remarkable magnetic behaviour of copper(II) formate and its hydrates. J Chem Soc 1959;1359–1370.
- Lewis J, Thompson RC. Magnetic properties of some aryl carboxylates of copper II. Nature 1963;200:468–469.
- Beltran JL, Sanli N, Fonrodona G, Barron D, Ozkan G, Barbosa J. Spectrophotometric, potentiometric and chromatographic pKa values of polyphenolic acids in water and acetonitrile-water media. Anal Chim Acta 2003;484: 253–264.
- IUPAC. IUPAC stability constants of metal–ion complexes, part B, organic ligands. Oxford, UK: Pergamon Press; 1979.
- Erdemgil FZ, Sanli S, Sanli N, Özkan G, Barbosa J, Guiteras J, Beltrán JL. Determination of pKa values of some hydroxylated benzoic acids in methanol-water binary mixtures by LC methodology and potentiometry. Talanta 2007;72:489–496.
- McPhail DB, Goodman BA. An electron paramagnetic resonance (EPR) study of copper(II)- diglycine complexes. J Chem Res 1985;M2901–M2923, S276–S277.
- McPhail DB, Goodman BA. An electron spin resonance investigation of the nature of the complexes formed between copper(II) and glycylhistidine. J Chem Soc Faraday Trans 1 1987;83:3683–3692.
- Falk K-E, Ivanova E, Roos B, Vänngard T. Electron paramagnetic resonance study of copper(II) dimethylglyoxime. 1. Theoretical and experimental study of the effect of axial ligands. Inorg Chem 1970;9:556–562.
- Lu L-L, Li Y-H, Lu X-Y. Kinetic study of the complexation of gallic acid with Fe(II). Spectrochim Acta A 2009;74:829–834.
- Ramaiah NA, Chaturvedi RK. Potentiometric studies on the dissociation of gallic acid. Proc Math Sci 1960;51:177–188.
- Abu-Bakr M, Rageh H, Hashem E, Moustafa M. Bulletin of the Faculty of Science section A, Egypt: Assiut University; 1993;22:77. (Information from IUPAC stability constants database; original paper not consulted.)
- Ogasawara K, Mochizuki Y, Noro T, Tanaka K. Electronic structure of lower singlet states of binuclear copper acetate monohydrate. Can J Chem 1992;70:393–398.
- Goodman BA, McPhail DB, Powell HKJ. An electron paramagnetic resonance study of copper (II) amino acid complexes; evidence for cis and trans isomers and the structures of copper (II) histidinate complexes in aqueous solution. J Chem Soc Dalton Transactions 1981;822–827.
- Kawabata J, Okamoto Y, Kodama A, Makimoto T, Kasai T. Oxidative dimers produced from protocatechuic and gallic esters in the DPPH radical scavenging reaction. J Agric Food Chem 2002;50:5468–5471.
- Eaton DR. Complexing of metal ions with semiquinones. An electron spin resonance study. Inorg Chem 1964;3:1268–1271.
- Hagerman AE, Dean RT, Davies MJ. Radical chemistry of epigallocatechin gallate and its relevance to protein damage. Arch Biochem Biophys 2003;414:115–120.