Food Science of Animal Resources (한국축산식품학회지)

Korean Society for Food Science of Animal Resources (한국축산식품학회)
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Cholesterol, Free Amino Acid, Nucleotide-related Compounds, and Fatty Acid Composition of Korean Hanwoo Bull Beef

한우수소의 부위별 Calorie, Cholesterol, 유리아미노산, 핵산관련물질 및 지방산조성

  • Published : 2007.12.30
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Abstract

This study was conducted to investigate the compositions of different cuts of Hanwoo bull beef. 10 cuts [Abjin (short plate), Bosup (top sirloin), Cheggt (striploin), Dngsim (loin), Guri (chuck tender), Hongduke (eye of round), Moksim (chuck roll), Sulgit (bottom round), Udoon (top round), Yangi(brisket)] were prepared from 10 Hanwoo bulls (-24 month old) slaughtered during 3 consecutive days. There were no significant differences in the calorie contents among the 10 cuts (p<0.05). In cholesterol content, Hongduke was significantly lower (26.74 mg/100 g) and Abjin was significantly higher (31.08 mg/100 g) than the other cuts (p<0.05). Free amino acid analysis revealed that there were high contents of glutamate (94.33-216.36 mg/100 g) and alanine (154.88-200.31 mg/100 g), followed by arginine, phenylalanine and lysine in the 10 cuts. In addition, Abjin, Bosup, Cheggt, Hongduke, Sulgit and Udoon had significantly higher inosine monophosphate (IMP) contents than Dngsim or Moksim (p<0.05). Inosine contents were highest in Bosup and Sulgit, whereas hypoxanthine contents were highest in Guri (p<0.05). Total collagen contents were significantly higher in Abjin followed by Yangi, Guri and Moksim (p<0.05). With regard to fatty acid composition, Dngsim had significantly higher $C_{18:0}$ than the other cuts, and Udoon had significantly higher $C_{20:4n6}$ than the other cuts (p<0.05). Total contents of saturated fatty acids (SFA) were significantly higher in Abjin, Dngsim and Yangi, whereas total contents of unsaturated fatty acids (UFA) were significantly higher in Hongduke than the other cuts (p<0.05).

본 연구는 한우수소 10두에서 10부위(업진, 보섭, 채끝, 등심, 꾸리, 홍두깨, 목심, 설깃, 양지, 우둔)를 선정하여 성분조성 및 맛 관련물질 특성을 분석하였다. 칼로리 함량은 부위간에 유의적인 차이가 없었다(p>0.05). 10 부위내 콜레스테롤 함량은 홍두깨가 콜레스테롤 함량이 26.74 mg/100 g으로 가장 낮았고 업진이 31.08 mg/100 g으로 가장 높게 나타났으나(p<0.05) 다른 부위들간 콜레스테롤 함량에는 유의적인 차이가 없었다(p>0.05). 맛과 관련이 있는 유리아미노산 함량을 부위별로 비교한 결과 모든 부위에 glutamate와 alanine 함량이 각각 $94.33{\sim}216.36\;mg/100\;g,\;154.88{\sim}200.31\;mg/100\;g$로 가장 높은 수준으로 존재하였고 그 다음으로 arginine, phenylalanine 및 lysine으로 분석되었다. 부위별 inosine monophosphate(IMP) 함량은 업진, 보섭, 채끝, 홍두깨, 설깃, 우둔부위가 등심이나 목심 부위보다 유의적으로 더 많이 존재하는 것으로 분석되었다(p<0.05). Inosine 함량은 보섭과 설깃이 가장 많았고 반면에 hypoxanthine은 꾸리부위에서 가장 높게 나타났다(p<0.05). 부위별 총 콜라겐 함량은 업진부위가 가장 높았고 그 다음이 양지, 꾸리, 목심 부위가 높은 것으로 나타났다(p<0.05). 지방산 조성에서 등심부위가 다른 부위와 비교했을 때 stearic acid($C_{18:0}$) 함량이 유의적으로 높았고 우둔부위는 arachidonic acid($C_{20:4n6}$)의 함량이 가장 높은 것으로 나타났다(p<0.05). 총 포화지방산 함량은 업진, 등심 및 양지부위가 가장 높았고 총 불포화지방산 함량은 홍두깨 부위가 가장 높게 나타났다(p<0.05).

Keywords

References

  1. Ahn, D. H. and Park, S. Y. (2002) Studies on components related to taste such s free amino acids and nucleotides in Korean native chicken meat. J. Korean Soc. Food Sci. Nutr. 31, 547-552 https://doi.org/10.3746/jkfn.2002.31.4.547
  2. Animal Products Grading Service. (2007) Grade information. http://www.apgs.co.kr/gradeinfo/statistics (assessed on August 30, 2007)
  3. Batzer, O. F., Santoro, A. T., Tan, M. C., Landmann, W. A., and Schweigert, B. S. (1960) Precursors of beef flavor. J. Agric. Food Chem. 8, 498 https://doi.org/10.1021/jf60112a023
  4. Bailey, A. J. and Light, N. D. (1989) Connective tissue in meat and meat products. Elsevier science publishers Ltd., Essex, UK
  5. Berry, B. W., Smith, G. C., and Z. L. Carpenter. (1972) Influence of certain physiological maturity indicators on beef tenderness. Beef Cattle Res. in Texas, Texas Agricultural Experiment Station, Texas A&M Univ. p 27
  6. Boccard, R., Naude, R. T., Cronje, D. E., Smit, M. C., Venter H. J., and Rossouw. E. J. (1979) The influence of age, sex breed of cattle on their muscle characteristics. Meat Sci. 3, 280
  7. Bohac, C. E. and Rhee, K. S. (1988) Influence of animal diet and muscle location on cholesterol content of beef and pork muscles. Meat Sci. 23, 71-75 https://doi.org/10.1016/0309-1740(88)90063-0
  8. Cho, S. H., Park, B. Y., Kim, J. H., Choi, Y. H., Seong, P. N., Chung, W. T., Chung, M. O., Kim, D. H., and Ahn, C. N. (2007) Nutritional Composition and physico-chemical meat quality properties of Korean Hanwoo bulls beef. Kor. J. Anim. Sci. Technol (submitted)
  9. Dransfield, D. E. (1977) Intramuscular composition and texture of beef muscles. J. Sci. Food. Agr. 28, 833 https://doi.org/10.1002/jsfa.2740280910
  10. Eichhorn, J. M., Bailey, C. M., and Blomquist, G. J. (1984) Fatty acid composition of bulls and steers. Abstr. No. 220 presented at 75th Annual Meeting of American Society of Animal Science, Columbia, MO. Aug. 7-10
  11. Enser, M., Hallett, K., Hewett, B., Fursey, G. A. J., Wood, J. D., and Harrington, G. (1998) Fatty acid content and composition of UK beef and lamb muscle in relation to production system and implications for human nutrition. Meat Sci. 49, 329-341 https://doi.org/10.1016/S0309-1740(97)00144-7
  12. Field, R. A. (1971) Effect of castration on meat quality and quantity. J. Anim. Sci. 32, 849-858 https://doi.org/10.2527/jas1971.325849x
  13. Field, R. A., Ricly, M. L., and Chang, Y. O. (1971) Free amino acid changes in different aged bovine muscles and their relationship to shear value. J. Food Sci., 36, 611-612 https://doi.org/10.1111/j.1365-2621.1971.tb15141.x
  14. Floch, J., Lees, M., and Sloane-Stanley, G. H. (1957) A simple method for the isolation and purification of total lipid from animal tissue. J. Biol. Chem. 26, 497-507
  15. Fukunaga, T., Koga, K., Maita, Y., and Matsuoka, S. (1989) Free amino acid, carnosine and 5'-inosinic acid contents in the breast and leg meats from the cross and triple-cross chickens of Satsuma native fowl. Bull Fac. Agric. Kagoshima Univ. 39, 223-232
  16. Heath, H. B. and Reineccius, G. (1986) Flavor potentiators. In: Heath, H. B., Reineccius, G. (Eds.). Flavor Chemistry and Technology. AVI Pub. Co. Inc., Westport, CT. pp. 318-331
  17. Henderson, J. W., Ricker, R. D., Bidlingmeyer, B. A., and Woodward, C. (2000) Rapid, accurate, sensitive and reproducible HPLC analysis of amino acids. Agilent Technologies. http://www.agilent.com (assessed on August 3, 2004)
  18. Herring, H. K., Cassens, R. C., and Briskey, E. J. (1967) Tenderness and associated characteristics of stretched and contracted bovine muscles. J. Food. Sci. 32, 317-320 https://doi.org/10.1111/j.1365-2621.1967.tb01321_32_3.x
  19. Hofmann, K. (1993) Quality concepts for meat and meat products. Fleischwirtschaft 73, 1014-1019
  20. Jeremiah, L. E. (1978) A review of factors affecting meat quality. Tech. Bull. 1, Research Branch, Agriculture Canada
  21. Judge, M. D., Aberle, E. D., Forrest, J. C., Hedrick, H. B., and Merkel, R. A (1989) In 'Principles of meat science'. Kendall/Hunt Pub. Co. p. 125
  22. Kato, H., Rhue, M. R., and Nishimura, T. (1989) Role offree amino acids and peptides in food taste. A.C.S. Symposium series No.388 American Chemical Society, Washington DC. pp. 158-174
  23. Kawamura, Y and Halpern, B. P. (1987) Recent developments in umami research. In: Umami: a basic taste. Kawamura, Y. and Kare, M. R. (eds), Marcell Dekker, New York, pp.637-642
  24. Kim, M. S., Yang, J. B., and Moon, Y. H. (1999) Effects of chilling process after thawing on the free amino acid compoisition of beef loin. Korean J. Food Sci. Ani. Resour. 19, 234-239
  25. Light, N. D., Restall, D. J., and Baily, A. J. (1984) Relationship of collagen content type and crosslinking with texture of collagen content muscle. Proc. Europe Meat Res. Workers. Bristol. p. 139
  26. Maga, J. A. (1982) Flavor potentiators. CRC Critical Review in Food Science and Nutrition, 18, 231-312
  27. Maga, J. A. (1994) Umami flavour of meat. In: Flavor of Meat and Meat Products. Shahidi, F. (ed.), Blackie Academic and Professional, Chapman and Hall, New York, pp. 98-115
  28. Majorano, G., Filetti, F., Salvatori, G., Gambacorta, M., Bellitti, A., and Oriani, G. (2001) Growth, slaughter and intramuscular collagen characteristics in garganica kids. Small Rumin. Res. 39, 289-294 https://doi.org/10.1016/S0921-4488(00)00207-8
  29. McCormick, R. J. (1994) The flexibility ofthe collagen component of muscle. Meat Sci. 36, 79-91 https://doi.org/10.1016/0309-1740(94)90035-3
  30. Ministry of Agriculture and forest (MAF). (2007) Information and data of agricultural statistics of Korea. http://www.english.maf.go.kr/index.jsp (assessed on July 30, 2007)
  31. Moon, S. S., Kang, G H., Hur, S. J., Jeong, J. Y., Yang, H. S., Kim, J. S., Joo, S. T., and Park, G. B. (2003) Effect of carcass traits, sarcomere length and meat quality properties on beef longissimus tenderness at 24hr postmortem. Korean J. Food Sci. Ani. Resour. 23, 109-114
  32. Morgan, J. B., Savell, J. W., Hale, D. S., Miller, R. K., Graffin, D. B., Cross, H. R., and Shackelford, S. D. (1991) National beeftenderness survey. J. Anim. Sci. 69, 3274-3283 https://doi.org/10.2527/1991.6983274x
  33. Morrison, W. R. and Smith, L. M. (1964) Preparation of fatty acid methyl esters and dimethylacetals from lipids with boron trifluoride-methanol. J. Lipid Res. 5, 600-608
  34. Nakamura. R., Sekoguchi, S., and Sato, Y. (1975) The contribution of intramuscular collagen to the tenderness of meat from chickens with different ages. Poultry Sci. 54, 1604-1607 https://doi.org/10.3382/ps.0541604
  35. Nakatani, Y., Fujita, T., Sawa, S., Otani, T., Hori, Y., and Takagahara, I. (1986) Changes in ATP-related compounds of beef and rabbit muscles and a new index of freshness of muscle. Agric. Biol. Chem. 50, 1751-1756 https://doi.org/10.1271/bbb1961.50.1751
  36. Nam, K. C., Du, M., Jo, C., and Ahn, D. U. (2001) Cholesterol oxidation products in irradiated raw meat with different packaging and storage time. Meat Sci. 58, 431-435 https://doi.org/10.1016/S0309-1740(01)00046-8
  37. Nishimura, T., Rhue, M., Okitani, A., and Kato, H. (1988) Components contributing to the improvement of meat taste during storage. Agric. Biol. Chem. 52, 2323-2330 https://doi.org/10.1271/bbb1961.52.2323
  38. Nishimura, T., Hattori, A., and Takahashi, K. (1996) Relationship between degradation of proteoglycans and weakening of the intramuscular connective tissue during postmortem aging of beef. Meat Sci. 42, 251-260 https://doi.org/10.1016/0309-1740(95)00051-8
  39. Park, G. B., Moon, S. S., Ko, Y. D., Ha, J. K., Chang, H. H., and Joo, S. T. (2002) Influence of slaughter weight and sex on yield and quality grades of Hanwoo carcasses. J. Anim. Sci. 80, 129-136
  40. Parrish, F. C. Jr., Goll, D. E., Newcomb II, W. J., Lumen, B. O., Chaudhry, H. M., and Kline, E. A. (1969) Molecular properties of post-mortem muscle 7. Changes in nonprotein nitrogen and free amino acids of bovine muscle. J. Food Sci. 34, 196-202 https://doi.org/10.1111/j.1365-2621.1969.tb00918.x
  41. Ramsbotton, J. M., Strondine, E. J., and Koonz, C. H. (1945) Comparative tenderness of representative beef muscles. Food. Res. 10, 497 https://doi.org/10.1111/j.1365-2621.1945.tb16198.x
  42. Reagan, J. O., Carpenter, Z. L., Smith G. C., and King, G. T. (1971) Comparison of palatability traits of beef produced by young bulls and steers. J. Anim. Sci. 32, 641-646 https://doi.org/10.2527/jas1971.324641x
  43. Rhee, K. S., Dutson, T. R., Smith, G. C., Hostetler, R. L., and Reiser, R. L. (1982) Cholesterol content of raw and cooked beef longissimus muscles of different degrees of marbling. J. Food Sci. 47, 716-719 https://doi.org/10.1111/j.1365-2621.1982.tb12698.x
  44. SAS (1996) SAS STAT User's Guide, Statistics, Cary NC
  45. Sakaguchi, M. Murata, M., and Toyohara, H. (1991) Studies on the change in inosine 5'-monophosphate level during storage of different parts of domestic animal meat. In: final reports for research grants from meat and meat products(Jpn), Vol. 9. The Ito Foundation, Tokyo, pp. 229-233
  46. Sakaguchi, M. Murata, M., and Toyohara, H. (1992) Accumulation of inosine 5'- monophosphate and the role of flavor development of domestic animal meat during storage. In: final reports for research grants from meat and meat Products(Jpn), Vol. 10. The Ito Foundation, Tokyo, pp. 245-249
  47. Silva, J. A., Patarata, L., and Martins, C. (1999) Influence of ultimate pH on bovine meat tenderness during ageing. Meat Sci. 52, 453-459 https://doi.org/10.1016/S0309-1740(99)00029-7
  48. Tu, C., Powrie, W. D,. and Fennema, O. (1967) Free and esterified cholesterol content of animal muscles and meat products. J. Food Sci. 32, 30-34 https://doi.org/10.1111/j.1365-2621.1967.tb01951.x
  49. Watson, M. J. (1969) the effects of castration on the growth and meat quality of grazing cattle. Australian J. Exp. Agr. Hush. 9, 164-167 https://doi.org/10.1071/EA9690164
  50. Weninger, J. H. and D. Steinhauf. (1968) Meat quality in respect to carcass evaluation in cattle. World Rev. Anim. Prod. 4, 87
  51. Wiliams, J. R. and harrison, D. L. (1978) Relationship of hydroxyproline solubilized to tenderness of bovine muscle. J. Food. Sci. 43, 464-467 https://doi.org/10.1111/j.1365-2621.1978.tb02331.x
  52. Wood, J. D., Brown, S. N., Nute, G. R., Whittington, F. M., Perry, A. M., Johnson, S. P., and Enser, M. (1996) Effects of breed, feed level and conditioning time on the tenderness of pork. Meat Sci. 44, 105-112 https://doi.org/10.1016/S0309-1740(96)00044-7
  53. Wood, J. D., Nute, G. R., Richardson, R. I., Whittington, F. M., Southwood, O. Plastow, G., Mansbridge, R., da, Costa, N., and Chang, K. C. (2004) Effects of breed, diet and muscle on fat deposition and eating quality in pigs. Meat Sci. 67, 661-667
  54. Yamaguchi, S. (1991) Roles and efficacy of sensory evaluation in studies of taste. J. Jap. Soc. Food Sci. Technol. 38, 972-978 https://doi.org/10.3136/nskkk1962.38.972
  55. Yano, Y., Kataho, N., Watanabe, M., Nakamura, T., and Asano, Y. (1995) Evaluation of beef aging by determination of hypoxanthine and xanthine contents: application of a xanthine sensor. Food Chem. 52, 439-445 https://doi.org/10.1016/0308-8146(95)93297-5
  56. 김대곤, 정근기, 성삼경, 최창본, 김섬겸, 김덕영, 최봉재. (1996) 거세가 한우 및 홀스타인 비육우도체의 이화학적 특성에 미치는 영향. 한국축산학회지 38, 239-248
  57. 소 및 돼지고기 부분육 분할정형지침서 (1997) 농촌진흥청, 축산연구소
  58. 加藤博通 (1985)食肉の熟成と呈味成分, 臨床榮養 66, 137
  59. 西村敏榮, 加藤博通 (1988) 食肉の呈味 成におけ る熟成の役割, 肉の科學 29, 1
  60. 山口静子 (2002) 牛肉のおいしると消費者 嗜好, 東京農業大學 用生物科學部 食肉の科學 43, 131-139

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