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Changes in Nucleotide Compounds, and Chemical and Sensory Qualities of Duck Meat during Aging at 0℃
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 Title & Authors
Changes in Nucleotide Compounds, and Chemical and Sensory Qualities of Duck Meat during Aging at 0℃
Kim, Young-Boong; Ku, Su-Kyung; Joo, Bum-Jin; Lee, Nam-Hyuck; Jang, Ae-Ra;
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The objective of this study was to identify appropriate aging conditions, changes in nucleotide-related compounds, chemical changes, and a sensory evaluation of duck meat during aging at for 7 d. Twenty one 45-day-old Pekin white ducks samples were separated into breast and leg meat. ATP was not detected for almost the entire aging period because ATP was depleted immediately after slaughter. Inosine monophosphate (IMP) was highest on day 1 (), and then it rapidly decreased to on day 7. However, this level was not different between breast and leg meat. Hypoxanthine (Hx) content of breast meat was , whereas that of leg meat was . Inosine content of breast meat was double than that of leg meat. The pH values of breast and leg meat were 5.90-6.05 and 6.23-6.73, respectively, during the aging period. Volatile basic nitrogen content of breast and leg meat increased during aging. Breast meat had good sensory evaluation scores for flavor (7.4), juiciness (6.8), tenderness (7.2), and overall acceptance (7.4) on day 3. Similar to breast meat, leg meat also had good sensory evaluation scores. Therefore, it is concluded that the appropriate aging period is 3 d for duck breast meat and 1 day for leg meat at .
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Ahn, D. H. and Park, S. Y. (2002) Studies on compositions related to taste such as free amino acids and nucleotides in Korean native chicken meat. J. Korean Soc. Food Sci. Nutr. 31, 547-552. crossref(new window)

Brooke, M. H. and Kaiser, K. K. (1970) Three myosin adenosine triphosphatase system: the nature of their pH liabilityand sulphydryl dependence. J. Histochem. Cytochem. 18, 670-672 crossref(new window)

Chae, H. S., Yoo, Y. M., Ahn, C. N., Jeong, S. K., Ham, J. S., Lee, J. M., and Singh, N. K. (2006) Effect of singeing time on physico-chemical characteristics of duck meat. Korean J. Poult. Sci. 33, 273-281

Cho, Y. J., Shim, K. B., Kim, T. J., Ju, J. M., Yook, J. H., and Cho, M. S. (2003) Processing condition of salted anchovy. Korean J. Fish Aquat. Sci. 36, 18-23. crossref(new window)

Choi, Y. H., Rhee, M. S., Joo S. T., and Lee, S. (1995) Effects of delayed chilling and aging on the contents of ATP-related compounds and taste of pork. Korean J. Food Sci. Technol. 27, 241-245.

Cresopo, F. I., Millan, R., and Moreni, A. S. (1978) Chemical changes during ripening of Spanish dry sausage III. Changes on water soluble N- compounds. Ax Archivos de Zootechia 27, 105-111

Dierick, A., Vandekerckhove, P., and Demeyer, D. (1974) Changes in nonprotein nitrogen components during dry sausages ripening. J. Food Sci. 39, 301-306 crossref(new window)

Dransfield, E. (1992) Meat tenderness, a unified model for meat tenderness. Meat Focus Int. 1, 237-245.

Flores, M., Armero, E., Aristoy, M. C., and Toldra, F. (1999) Sensory characteristics of cooked pork loin as affected by nucleotide content post-mortem meat quality. Meat Sci. 51, 53-59. crossref(new window)

Hong, C. H., Lee, J. M., and Kim, K. S. (2004) Changes of nucleotides in the raw fishes during the aquarium storage. Korean J. Food Sci. Technol. 36, 379-384

Kang, G. H., Jeong, J. Y., Shawkat, Ali., Kim, S. H., Jang, B. G., Kang, H. S., Lee, D. S., Lee, S. J., Park, G. B., and Joo, S. T. (2006a) Effect of boning time and aging temperature on meat quality of duck breast. Korean J. Food Sci. An. 26, 43-48.

Kato, H., Rhue, M., and Nishimura, T. (1989) Role of free amino acids peptides in food taste. A.C.S., Symposium series No. 388 American Chemical Society, Washington DC, pp. 158-174

Kawamura, Y. and Halpem, B. P. (1987) Recent development in umami research. In: umami: A basic taste. Kawamura Y, Kare MR, (eds.) Marcell Deckker, NY, pp. 637-642

Kim, K. S., Lee, J. H., Shin, M. S., Cho, M. S., Kim, Y.P., Cho, S. K., and Kang, Y. J. (2005) Effect of dietary probiotics supplementation contained with astaxanthin produced by Phaffia rhodozyma on the productivity and meat quality of ducks. Korean J. Poult. Sci. 32, 73-80

Liu, Y., Xu, X., and Zhou, G. (2007) Changes in taste compounds of duck during processing. Food Chem. 102, 22-26. crossref(new window)

Lee, K. H., and Lee, Y. S. (2001) Changes of nucleotides and their related compounds in cultured and wild red sea bream and flounder muscle. Korean J. Food Soc. Cookery Sci. 17, 517-522.

Marcus, J. B. (2009) Umami. Food Technol. 63, 23-36.

Mateo, J., Dominguez, M. C., Aguirrezabal, M. M., and Zumalacarregui, J. M. (1996) Taste compounds in chorizo and their changes during ripening. Meat Sci. 44, 245-254. crossref(new window)

Meinert, L., Tikk, K., Tikk, M., Brockhoff, P. B., Bredie, W. L, Bjergegaard, C., and Aaslyng, M. D. (2009) Flavour development in pork. Influence of flavour precursor concentrations in longissimus dorsi from pigs with different raw meat qualities. Meat Sci. 81, 255-262. crossref(new window)

Ozogul, F., Taylor, K. D. A., Quantick, P. C., and Ozogul, Y. (2000) A rapid HPLC-determination of ATP-related compounds and its application to herring stored under modified atmosphere. Int. J. Food Sci. Technol. 35, 549-554. crossref(new window)

Sakaguchi, M., Murata, M., and Toyohara, H. (1992) Accumulation of inosine 5'-monophosphate and the role of flavor development of domestic animal meat during aging. In final reports for research grants from meat and meat Products (Jpn.). 10, 245-249

Seo, M. S. and Yoo, S. S. (2010) Sensory characteristics and physic-chemical change of the loin of lamb by four cooking methods. J. East Asian Soc. Diet. Life 20, 84-94.

SPISLP(Standard for Processing & Ingredient Specifications of Livestock Product, (2011). Animal, Plant and Fisheries Quarantine and Inspection Agency (APFQIA), Korea, pp. 300-302.

Sung, N. J. and Shim, K. H. (1981) Studies on the food from fresh water fish (II). Korean J. Nutr. 14, 80-86.

Terasaki, K. M., Fujita, E., and Ishii, K. (1965) Studies on the flavor of meat. part 1. Formation and degradation of inosine acids in meats. Agric. Biol. Chem. 29, 208-215.

Tikk, M., Tikk, K., Torgen, M. A., Meinert, L., Aaslyng, M. D., Karlsson, A. H., and Anderson, H. J. (2006) Development of inosine monophosphate and its degradation products during aging of pork of different qualities in relation to basic taste and retronasal flavor perception of the meat. J. Agr. Food Chem. 54, 7769-7777. crossref(new window)

Valle, M. and Malle, P. (1998) Evaluation of fish decomposition by liquid chromatographic assay of ATP degradation products. J. AOAC Int. 81, 571-575.

Valls, J. E., Bello, R. A., and Kodaira, M. S. (2001) Validation of liquid chromatography analysis of ATP-related compounds in sardines. J. Aquat. Food Product Technol. 10, 67-79. crossref(new window)

Yamaguchi, S. (1991) Roles and efficacy of sensory evaluation on studies of taste. J. Jpn. Soc. Food Sci. Technol. 38, 972-978. crossref(new window)