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Changes in Natural Antioxidants in Oils Extracted from the Bran and Germ of Keumkang and Dark Northern Spring Wheats During Photo-oxidation  

Choi, Hyun-Ki (Department of Food and Nutrition, Inha University)
Choe, Eun-Ok (Department of Food and Nutrition, Inha University)
Publication Information
Korean Journal of Food Science and Technology / v.42, no.1, 2010 , pp. 14-20 More about this Journal
Abstract
Naturally present antioxidants, tocopherols, carotenoids, and phospholipids in the bran and germ oils from Keumkang (K-WBG oil) and Dark Northern Spring wheats (DNS-WBG oil) were determined during storage under 1700 lux light at $5^{\circ}C$ by HPLC. Oil oxidation was monitored by peroxide values (POV) and conjugated dienoic acid content. The results showed that antioxidants were degraded during storage of the WBG oils under light, with higher degradation rates for carotenoids and phospholipids in the K-WBG oil compared to the DNS-WBG oil. Light increased oil oxidation and the rate of oxidation was higher in K-WBG oil than in the DNS-WBG oil. There was a high correlation between POV and residual amounts of antioxidants during photo-oxidation, with phospholipids showing the greatest effects on POV. This study suggests that a higher amount and lower degradation rate of phospholipids in the DNS-WBG oil contributed to its higher photo-oxidative stability compared to the K-WBG oil.
Keywords
photo-oxidation; wheat bran and germ oils; antioxidants; Keumkang wheat; Dark Northern Spring wheat;
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1 Min DB, Choe E. Effects of singlet oxygen oxidation on the flavor of foods and stability of vitamins. Food Sci. Biotechnol. 11:582-586 (2002)
2 Decker EA. Antioxidant mechanisms. pp. 517-542. In: Food Lipids. 2nd ed. Akoh CC, Min DB (eds). Marcel Dekker, Inc., New York, NY, USA (2002)
3 Kim HJ, Min DB. Chemistry of lipid oxidation. pp. 299-310. In: Food Lipids. 3rd ed. Akoh CC, Min DB (eds). CRC Press, Boca Raton, FL, USA (2008)
4 Chung J, Lee Y, Choe E. Effects of sesame oil addition to soybean oil during frying on the lipid oxidative stability and antioxidants contents of the fried products during storage in the dark. J. Food Sci. 71: 222-226 (2006)   DOI   ScienceOn
5 Nzai JM, Proctor A. Phospholipids determination in vegetable oil by thin-layer chromatography and imaging densitometry. Food Chem. 63: 571-576 (1998)   DOI   ScienceOn
6 Mezouari S, Eichner K. Comparative study on the stability of crude and refined rice bran oil during long-term storage at room temperature. Eur. J. Lipid Sci. Tech. 109: 198-205 (2007)   DOI   ScienceOn
7 Kim HJ, Lee MY, Min DB. Singlet oxygen oxidation rates of $\alpha$-, $\gamma$-, and $\delta$-tocopherols. J. Food Sci. 71: 465-468 (2006)   DOI   ScienceOn
8 Mukai K, Daifuku K, Okabe K, Tanigaki T, Inoue K. Structureactivity relationship in the quenching reaction of singlet oxygen by tocopherol (vitamin E) derivatives and related phenols. Finding of linear correlation between the rates of quenching of singlet oxygen and scavenging of peroxyl and phenoxyl radicals in solution. J. Org. Chem. 56: 4188-4192 (1991)   DOI
9 Carl HR. Structure of cereals. pp. 1-10. In: Principles of Cereal Science and Technology. American Association of Cereal Chemists, St. Paul, MN, USA (1990)
10 Anguelova T, Warthesen J. Degradation of lycopene, $\alpha$-carotene, and $\beta$-carotene during lipid peroxidation. J. Food Sci. 65: 71-75 (2000)   DOI
11 Kim HG, Cheigh HS. Oxidative stability of wheat germ lipid and changes in the concentration of carotenoid and tocopherol during oxidation. Korean J. Food Sci. Technol. 27: 478-482 (1995)
12 Onsekizolu P, Gokmen V, Acar J. Degradation of $\beta$-carotene with the effects of light and sulfur dioxide may be responsible for the formation of white spot in dried apricots. Eur. Food Res. Technol. 221: 357-360 (2005)   DOI   ScienceOn
13 Kawakatsu M, Terao J, Matsushita S. Phospholipid oxidation catalyzed by ferrous ion and ascorbic acid. Agric. Biol. Chem. 48: 1275-1279 (1984)   DOI
14 Wang T, Johnson LA. Refining high-free fatty acid wheat germ oil. J. Am. Oil Chem. Soc. 78: 71-76 (2001)   DOI   ScienceOn
15 Srivastava AK, Sudha ML, Baskaran V. Studies on heat stabilized wheat germ and its influence on rheological characteristics of dough. Eur. Food Res. Technol. 224: 365-372 (2007)
16 AOAC. Official method of Analysis of AOAC Intl. 17th ed. Method 970.64. Association of Official Analytical Communities, Arlington, VA, USA (2000)
17 AOCS. Official Methods and Recommended Practices of the American Oil Chemists' Society, 4th ed., Method Cd 8-53, Ti 1a-64. AOCS Press, Champaign, IL, USA (1998)
18 Bjorn LO, Ghiradella H. Spectral tuning in biology. pp. 155-196. In: Photobiology: The Science of Life and Light. 2nd ed., Bjorn LO (ed). Springer, Netherlands (2008)
19 Pyo YH. Oxidative stability of crude wheat germ oil. J. Korean Home Econo. Assoc. 29: 37-43 (1991)
20 Moharekar ST, Lokhande SD, Hara T, Tanaka R, Tanaka A, Chavan PD. Effect of salicylic acid on chlorophyll and carotenoid contents of wheat and moong seedlings. Photosynthetica 41: 315-317 (2003)
21 Piras A, Rosa A, Falconieri D, Porcedda S, Dessì MA, Marongiu B. Extraction of oil from wheat germ by supercritical $CO_{2}$. Molecules 14: 2573-2581 (2009)   DOI
22 Devasagayam TPA, Werner T, Ippendorf H, Martin HD, Sies H. Synthetic carotenoids, novel polyene polyketones, and new capsorubin isomers as efficient quenchers of singlet molecular oxygen. Photochem. Photobiol. 55: 511-514 (1992)   DOI   ScienceOn
23 Ferreira JEM, Rodriguez-Amaya DB. Degradation of lycopene and $\beta$-carotene in model systems and in lyophilized guava during ambient storage: Kinetics, structure, and matrix effect. J. Food Sci. 73: C589-C594 (2008)   DOI
24 Beutner S, Bloedorn B, Frixel S, Blanco IH, Hoffmann T, Martin H-D, Mayer B, Noack P, Ruck C, Schmidt M, Schulke I, Sell S, Ernst H, Haremza S, Seybold G, Sies H, Stahl W, Walsh R. Quantitative assessment of antioxidant properties of natural colorants and phytochemicals: Carotenoids, flavonoids, phenols, and indigoids. The role of $\beta$-carotene in antioxidant functions. J. Sci. Food Agr. 81: 559-568 (2001)   DOI   ScienceOn
25 Choe E, Min DB. Chemistry and reactions of reactive oxygen species in foods. J. Food Sci. 70: R142-R159 (2005)
26 Stratton SP, Schaefer WH, Liebler DC. Isolation and identification of singlet oxygen oxidation products of $\beta$-carotene. Chem. Res. Toxicol. 6: 542-547 (1993)   DOI   ScienceOn