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The Effects of Chicken Leg Bone Extract on Antioxidative Properties under Different Heating Condition
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 Title & Authors
The Effects of Chicken Leg Bone Extract on Antioxidative Properties under Different Heating Condition
Cheng, Fu-Yuan; Wan, Tien-Chun; Huang, Chao-Wei; Tominaga, Kana; Lin, Liang-Chuan; Sakata, Ryoichi;
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The aim of this study was to extract chicken leg bone, which is a by-product of industrial poultry processing, using different heating temperatures (80, 90 and ) and durations (5, 10 and 15 min). The pH value, soluble protein content, peptide content and antioxidative properties, including superoxide anion scavenging ability, 1, 1-diphenyl-2-picrylhydrazyl (DPPH) free radical scavenging ability, reducing capacity and inhibitory activity of linoleic acid peroxidation, were measured. The results showed no significant differences (p>0.05) in pH value among all treatments. Decreased soluble protein content and peptide content were observed in chicken leg bone extract obtained under higher heating temperatures (90 or ) and longer heating durations (10 or 15 min). In antioxidative properties, the extracts which were heated at 90 or for 15 min exhibited significantly higher superoxide anion scavenging ability, DPPH free radical scavenging ability, reducing capacity and inhibitory activity of linoleic acid peroxidation (p<0.05).
By-product;Antioxidative Activity;Chicken Leg Bone;Heating Extract;
 Cited by
Bauchart, C., D. Remond, C. Chambon, P. P. Mirand, I. Savary-Auzeloux, C. Reynes and M. Morzel. 2006. Small peptides (<5kDa) found in ready-to-eat beef meat. Meat Sci. 74:658-666. crossref(new window)

Belitz, H.-D. and W. Grosch. 1999. Food Chemistry. Berlin, Germany: Springer.

Chan, K. M., E. A. Decker and W. J. Means. 1993. Extraction and activity of carnosine a naturally occurring antioxidant in beef muscle. J. Food Sci. 58:1-4. crossref(new window)

Chen, J. H., Lindmark-Mansson, L. Gorton and B. Akesson. 2003. Antioxidant capacity of bovine milk as assayed by spectrophotometric and amperometric methods. Int. Dairy J. 13:927-935. crossref(new window)

Cheng, F. Y., Y. T. Liu, T. C. Wan, L. C. Lin and R. Sakata. 2008. The development of angiotensin I converting enzyme inhibitor derived from chicken bone protein. Anim. Sci. J. 79:121-127.

Church, F. C., E. H. Swaisgood, D. H. Porter and G. L. Catignani. 1983. Spectrophotometric assay using o-phthaldialdeyhde for determination of proteolysis in milk and isolated milk protein. J. Dairy Sci. 66:1219-1227. crossref(new window)

Geissler, C., M. Boroumand-Naini, M. Harada, T. Iino, K. Hirai, Y. Suwa, T. Tanaka and S. Iwata. 1996. Chicken extract stimulates haemoglobin restoration in iron deficient rats. Int. J. Food Sci. Nutr. 47:351-360. crossref(new window)

Geissler, G., M. Boroumand-Naini and C. Tomassen. 1989. Large acute thermic response to chicken essence in humans. Nutr. Reports Int. 39:547-556.

Gopalakrishnan, J., E. A. Decker and W. J. Means. 1999. Antioxidant activity of mechanically separated pork extracts. Meat Sci. 52:101-110. crossref(new window)

Halliwell, B. and J. M. C. Gutteridge 1990. Role of free radicals and catalytic metal ions in human disease. Methods Enzymol. 186:1-85. crossref(new window)

Hofmann, T., W. Bors and K. Stettmaier. 1999. Radical-assisted melanoidin formation during thermal processing of foods as well as under physiological conditions. J. Agric. Food Chem. 47:391-396. crossref(new window)

Ikeda, T., Y. Nishijima, Y. Kiso, H. Shibata, H. Ono and T. Moritani. 2001. Effects of chicken essence tablets on resting metabolic rate. Biosci. Biotechnol. Biochem. 65:2083-2086. crossref(new window)

Intarapichet, K. O. and B. Maikhunthod. 2005. Genotype and gender differences in carnosine extracts and antioxidant activities of chicken breast and thigh meats. Meat Sci. 71:634-642. crossref(new window)

Korhonen, H. and A. Pihlanto. 2003. Food-derived bioactive peptides-opportunities for designing future foods. Curr. Pharm. Design 9:1297-1308. crossref(new window)

Maikhunthod, B. and K. O. Intarapichet. 2005. Heat and ultrafiltration extraction of broiler meat carnosine and its antioxidant activity. Meat Sci. 71:364-374. crossref(new window)

Man, Y. C., C. W. Yee, W. K. Shing, T. P. Lai, W. K. Ching and K. K. Kei. 2005. The enhancing effects of a chicken-meat extract on serum Ig concentrations in normal and scalded animals. Br. J. Nutr. 94:51-55. crossref(new window)

Matsumura, Y., S. Kita, H. Ono, Y. Kiso and T. Tanaka. 2002. Preventive effect of a chicken extract on the development of hypertension in stroke-prone spontaneously hypertensive rats. Biosci. Biotechnol. Biochem. 66:1108-1110. crossref(new window)

Morrissey, P. A. and N. M. O'Brien. 1998. Dietary antioxidants in health and disease. Int. Dairy J. 8:463-472. crossref(new window)

Nagai, H., M. Harada, M. Nakagawa, T. Tanaka, B. Gunadi, M. L. J. Setiabudi, J. L. A. Uktolseja and Y. Miyata. 1996. Effects of chicken extract on the recovery from fatigue caused by mental workload. Appl. Human Sci. 15:281-286. crossref(new window)

Osborn, H. M., H. Brown, J. B. Adams and D. A. Ledward. 2003. High temperature reduction of metmyoglobin in aqueous muscle extracts. Meat Sci. 65:631-637. crossref(new window)

Peterson, G. L. 1979. Review of the Folin phenol protein quantitation method of Lowry, Rosebrough, Farr, and Randall. Anal. Biochem. 100:201-220. crossref(new window)

Robak, J. and I. R. Gryglewski. 1988. Flavonoids are scavengers of superoxide anions. Biochem. Pharmacol. 37:837-841. crossref(new window)

Shimada, K., K. Fujikawa, K. Yahara and T. Nakamura. 1992. Antioxidative properties of xanthan on the autoxidation of soybean oil in cyclodextrin emulsion. J. Agric. Food Chem. 40:945-948. crossref(new window)

Shimoni, E., R. Armon and I. Neeman. 1998. Note: Antioxidant properties of lipid fractions from Deinococcus radiophilus strain UWO1055. J. Appl. Microbiol. 84:461-465. crossref(new window)

Spanier, A. M., K. W. Mcmillin and J. A. Miller. 1990. Enzyme activity levels in beef: effect of postmortem aging and end-point cooking temperature. J. Food Sci. 55:318-322. crossref(new window)

Taylor, M. J. and T. Richardson. 1980. Antioxidant activity of skim milk: Effect of heat and resultant sulfhydryl groups. J. Dairy Sci. 63:1783-1795. crossref(new window)

Tong, L. M., S. Sasaki, D. J. McClements and E. A. Decker. 2000. Mechanism of antioxidant activity of a high molecular weight fraction of whey. J. Agric. Food Sci. 48:1473-1478. crossref(new window)

Tsi, D., A. Khow, T. Iino, Y. Kiso and H. Ono. 2003. Effect of Brand's glucosamine with essence of chicken on collagen-induced arthritis in rats. Life Sci. 73:2953-2962. crossref(new window)

Wu, H. C., B. S. Pan, C. L. Chang and C. Y. Shiau. 2005. Low-molecular-weight peptides as related to antioxidant properties of chicken essence. J. Food Drug Anal. 13:176-183.

Wu, H. C., C. Y. Shiau, H. M. Chen and T. K. Chiou. 2003. Antioxidant activities of carnosine, anserine, some free amino acids and their combination. J. Food Drug Anal. 11:148-153.

Yen, G. C. and H. Y. Chen. 1995. Antioxidant activity of various tea extracts in relation to their antimutagenicity. J. Agric. Food Chem. 43:27-32. crossref(new window)

Yu, L., S. Haley, J. Perret and M. Harris. 2002. Antioxidant properties of hard winter wheat extracts. Food Chem. 78:457-461. crossref(new window)