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Free Radical Research Communications Volume 3, 1987 - Issue 1-5
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Original Article

Biological Significance of Secondary Lipid Oxidation Products

E. N. Frankel Northern Regional Research Center, U.S. Department of Agriculture, Peoria, Illinois, 6J604, USA
Pages 213-225 | Received 22 Jul 1986, Published online: 07 Jul 2009

References

  • Mead J.F. Free radical mechanisms of lipid damage and consequences for cellular membrane. Free Radicals in Biology, W.A. Pryor. Academic Press, New York 1976; 51–68
  • Packer L., Walton J. Antioxidants vs. Aging. Chemtech. 1977; 276–281
  • Bland J. Biochemical consequences oflipid peroxidation. J. Chem. Education 1978; 55: 151–155
  • Free Radicals, Lipid Peroxidation and Cancer, D.C.H. Mc Brien, T.F. Slater. Academic Press, London 1982; 1–447
  • Scott G. Antioxidants in vitro, and in vivo. Chemistry in Britain 1985; 7: 648–653
  • Fujimoto K., Neff W.E., Frankel E.N. The reaction of DNA with lipid oxidation products, metals and reducing agents. Bioch. Biophys. Acta 1984; 795: 100–107
  • Macgregor J.T., Wilson R.E., Neff W.E., Frankel E.N. Mutagenicity tests oflipid oxidation products in Salmonella Typhiurium:, Monohydroperoxides and secondary oxidation products of methyl linoleate and methyl linolenate. Food & Chem. Toxicology 1985; 23: 1041–1047
  • Chio K.S., Tappel A.L. Synthesis and characterization of the fluorescence products from malonaldehyde and amino acids. Biochemistry 1969; 8: 2821–2827
  • Dillard J.C., Tappel A.L. Fluorescent products from reaction of peroxidizing polyunsaturated fatty acids with phosphatidyl ethanolamine and phenylalanine. Lipids 1973; 183–189
  • Bidlack W.R., Tappel A.L. Fluorescent products of phospholipids during lipid peroxidation. Lipids 1973; 8: 203–207
  • Trombly R., Tappel A.L. Fractionation and analysis of fluorescent products oflipid peroxidation. Lipids 1975; 10: 441–447
  • Frankel E.N., Neff W.E., Selke E. Analysis of autoxidized fats by gas chromatography-mass spectrometry: VII, Volatile thermal decomposition products of pure hydroperoxides from autoxidized and photosensitized oxidized methyl oleate, linoleate, and linolenate. Lipids 1981; 16: 279–285
  • Frankel E.N., Neff W.E., Selke E., Weisleder D. Photosensitized oxidation of methyl linoleate. Secondary and volatile thermal decomposition products. Lipids 1982; 17: 11–18
  • Frankel E.N. Volatile lipid oxidation products. Prog. Lipid Res. 1983; 22: 1–33
  • Frankel E.N., Neff W.E., Selke E. Analysis of autoxidized fats by gas chromatography-mass spectrometry. V1I1. Volatile thermal decomposition products of hydroperoxy cyclic peroxides. Lipids 1983; 18: 353–357
  • Frankel E.N., Neff W.E., Selke E. Analysis of autoxidized fats by gas chromatography-mass spectrometry. IX. Homolytic vs. heterolytic cleavage of primary and secondary oxidation products. Lipids 1984; 19: 790–800
  • Frankel E.N., Neff W.E. Formation of malonaldehyde from lipid oxidation products. Biochim. Biophys. Acta 1983; 754: 264–270
  • Pryor W.A., Stanley J.P., Blair E. Autoxidation of polyunsaturated fatty acids: II. A suggested mechanism for the formation of TBA-Reactive materials from prostaglandin-like endoperoxides. Lipids 1976; 11: 370–379
  • Benedetti A., Comporti M., Esterbauer H. Identification of 4-hydroxynonenal as a cytotoxic product originating from the peroxidation of liver microsomal lipids. Biochim. Biophys Acta,m 1980; 620: 281–296
  • Cadenas E., Muller A., Brigelius R., Esterbauer H., Sies H. Effects of 4-hydroxynonenal on isolated hepatocytes. Studies on chemiluminescence response, alkane production and glutathione status. Biochem. J. 1983; 21: 479–487, 4
  • Winkler P., Lindner W., Esterbauer H., Schauenstein E., Schaur R.J., Koschsorur G. Detection of 4-hydroxynonenal as a product of lipid peroxidation in native ehrlich ascites tumor cells. Biochim. Biophys. Acta 1984; 796: 232–237
  • Reiss U., Tappel A.L. Fluorescent product formation and changes in structure of DNA reacted with peroxidizing arachidonic acid. Lipids 1973; 8: 199–202
  • Wills E.D. The effect of inorganic iron on the thiobarbituric acid method for the determination of lipid peroxides. Biochim. Biophys. Acta 1964; 84: 475–477
  • Jacobson G.A., Kirkpatrick J.A., Goft H.E., Jr. A study of the applicability of a modified thiobarbituric acid test to flavor evaluation of fats and oils. J. Am. OilChem. Soc. 1964; 41: 124–128
  • Brooks B.R., Klamerth O.L. Interaction of DNA with bifunctional aldehydes. Europ., J. Biochem. 1968; 5: 178–182
  • Patton S. Malonaldehyde, lipid oxidation, and the thiobarbituric acid test. J. Am. Oil Chem. Soc 1974; 51: 114
  • Porter N.A., Nixon J., Isaac R. Cyclic peroxides and the thiobarbituric assay. Biochim. Biophys. 1976; 441: 506–512, /4c/o.
  • Terao J., Matsushita S. Thiobarbituric acid reaction of methyl arachidonate monohyd-roperoxide isomers. Lipids 1981; 16: 98–101
  • Gutteridge J.M.C. Free radical damage to lipids, amino acids, carbohydrates and nucleic acids determined by thiobarbituric acid-reactivity. fnlernat. J. Biochem. 1982; 14: 649–653
  • Kanazawa K., Dannon G., Natake M. Some analytical observations of autoxidation products of linoleic acid and their thiobarbituric acid reactive substances. Agric. Biol. Chem. 1983; 47: 2035–2043
  • Gutteridge J.M.C. Reactivity of hydroxyl and hydroxyl-like radicals discriminated by release of thiobarbituric acid-reactive material from deoxysugars. nucleosides and benzoate. Biochem. J. 1984; 224: 761–767
  • Csallany A.S., Guan M.D., Manwaring J.D., Addis P.B. Free malonaldehyde determination in tissue by high-performance liquid chromatography. anal. Biochem. 1984; 142: 277–283
  • Negebenebor C.A., Chen T.C. Effect of albumen on TBA values of comminuted poultry meat. J. Food Set 1985; 50: 270–271
  • Hasegawa K., Fujimoto K., Kaneda T., Neff W.E., Frankel E.N. Fluorescent products derived from the reaction of adenine, methyl linoleate hydroperoxide, Fe(II), and ascorbic acid. J. Am. Oil Chem. Soc 1986; 63: 454, Abstract 278
  • Frankel E.N., Neff W.E., Selke E. Analysis of volatile thermal decomposition products of dimers and oligomers from oxidized methyl linolenate by gas chromatography-mass spectrometry. J. Am. Oil Chem. Soc. 1986; 63: 452, Abstract 271
  • Ames B.N. Dietary carcinogens and anti carcinogens. Science 1983; 221: 1256–1264
  • Frankel E.N., Smith L.M., Hamblin C.L., Creveling R.K., Clifford A.J. Occurence of cyclic fatty acid monomers in frying oils used for fast foods. J. Am. Oil Chem. Soc. 1984; 61: 87–90
  • Iwaoka W.T., Perkins E.G. Nutritional effects of the cyclic monomers of methyl linolenate in the rat. Lipids 1976; 11: 349–353
  • Frankel E.N., Warner K., Moulton K.J., Sr. Effects of hydrogenation and additives on cooking oil performance of soybean oil. J. Am. Oil Chem. Soc. 1985; 62: 1354–1358

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