Applied Biological Chemistry

The Korean Society for Applied Biological Chemistry (한국응용생명화학회)
권호 표지

Optimization of Roasted Perilla Leaf Tea Using Response Surface Methodology

반응표면분석을 이용한 들깨잎차 볶음처리의 최적화

  • Han, Ho-Suk (Department of Food Science & Technology Yeungnam University) ;
  • Park, Jung-Hye (Department of Food Science & Technology Yeungnam University) ;
  • Choi, Hee-Jin (Department of Food Science & Technology Yeungnam University) ;
  • Sung, Tae-Su (Division of Food Science, Changwon Junior College) ;
  • Woo, Hi-Seob (School of Food Science, Dongju College) ;
  • Choi, Cheong (Department of Food Science & Technology Yeungnam University)
  • 한호석 (영남대학교 생물산업공학부) ;
  • 박정혜 (영남대학교 생물산업공학부) ;
  • 최희진 (영남대학교 생물산업공학부) ;
  • 성태수 (창원전문대학 식품영양과) ;
  • 우희섭 (동주대학 식품과학) ;
  • 최청 (영남대학교 생물산업공학부)
  • Published : 2004.03.31
Download PDF
⟨ Previous Next ⟩

Abstract

Response surface methodology (RSM) was applied in roasting processes of perilla leaves to develop a high quality perilla leaf tea. The Hunter color parameters and electron donating ability were monitored to optimize organoleptic properties of perilla leaf tea. The roasting processes were based on the central composite design with primary variables-roasting temperature $(140{\sim}220^{\circ}C)$, time $(5{\sim}25)$, and reaction variables-sensory test, electron donating ability. From the variables, the roasting condition was optimized using statistical analysis system (SAS) program as developing the functional tea using perilla leaf. Hunter color L and b values of the powdered samples increased with the roasting processes, but Hunter color a value decreased. Electron donating ability was influenced by roasting temperature (p<0.01) and time (p<0.01), and optimum condition selected was at $220^{\circ}C$ for 15 min with coefficient of determinations $(R^2)$ above 0.98. After preference test of perilla leaf tea using parameter of taste, color, and flavor, we can estimate that the optimal roasting condition of preilla leaf for function tea manufacturing are $210{\sim}220^{\circ}C$ for $10{\sim}20$ min by response surface methodology (RSM). Tyrosinase, xanthine oxidase and electron donating ability were 10.14, 14.37 and 59.19% of perilla leaf tea.

들깨잎차 개발을 목적으로 볶음처리 한 차의 관능적 특성 및 전자공여능 등을 조사하고 반응표면분석을 통한 최적화를 시도하였다. 중심합성계획에 따라 볶음온도 $140{\sim}220^{\circ}C$와 볶음시간 $5{\sim}25$분 등 두 가지 조절을 독립변수로 하고 관능검사를 통한 맛, 색, 향기와 전자공여능의 기능적 특성을 종속변수로 하여 측정한 결과를 statistical analysis system(SAS) program을 사용하여 들깻잎의 기능성 차 개발을 위한 볶음조건을 최적화 하였다. 깻잎차는 볶음처리에 따라 Hunter 색체계에서의 백색도(L)와 황색도(b)는 볶음시간과 볶음온도가 증가될수록 높아진 반면, 적색도(a)는 감소하는 경향을 나타내었다. DPPH에 의한 전자공여능은 볶음온도와 볶음시간이 1% 유의수준에서 영향을 미치며, 회귀식의 결정계수$(R^2)$는 0.9828로써 $220^{\circ}C$, 15분에서 볶음처리 했을 때 70.30%로 높게 나타났다. 깻잎차의 관능적 품질로써 맛, 색 및 향은 볶음처리와 더불어 기호도가 증가되었으며, 반응표면분석(RSM, response surface methodology)에 의해 볶음온도 $210{\sim}220^{\circ}C$,볶음시간 $10{\sim}20$분 범위를 최적 볶음조건으로 예측할 수 있었다. 최적볶음조건에 의해 만들어진 들깨잎차의 효소활성을 측정한 결과 tyrosinase, xanthine oxidase 및 전자공여능에서 각각 10.14, 14.37 및 59.19%의 저해효과를 보였다.

Keywords

References

  1. Lee, J. I., Han, E. D., Lee, S. T. and Park, H. W. (1986) Study on the evaluation of oil quality and the difterences of fatty acid composition between varieties in perilla (Perilla frutescens Britton var. japonica Hara). Korean J. Breed. 18, 228-233
  2. Park, J. H. and Yang, C. B. (1990) Studies on the removal of phytate from Korean perilla (Perilla ocimoides, L.) Protein. Korean J. Food Sci. Technol. 22, 343-349
  3. Heath, H. B., M.B.E and Pharm, B. (1978) In .flavor technotogy. The AVI Publishing Co., Inc., Westport. pp. 269-367
  4. Choi, Y. H. (1999) A study on nutritive components and cooking properties of perilla leaves, Ph. D. Thesis, Yeungnam University, Daegu, Korea
  5. Hong, Y. R, Kim, S. Y. and Choi, W. Y. (1986) Postharvest changes in quality and biochemical components of perilla leaves. Korean J. Food Sci. Technol. 18, 255-258
  6. Guenther, E. (1974) In essential oils (2nd ed.) Robert, E. (ed.) Krieger Publishing Co., p.3.
  7. Ishikura, N. (1981) Anthocyanins and flavones in leaves and seeds of perilla plant. Agric. Biol. Chem. 45, 1855
  8. Tamura, H., Fujiwara, M. and Sugisawa, H. (1989) Production of phenyl-propanoids from cultured callus tissue of the leaves of Akachirimen-shiso (Perilla sp.). Agric. Biol. Chem. 53, 1971
  9. 0hba, T., Hasuo, T, Akita, 0. and Yamamoto, Y. (1985) A liqueur using the extract of perilla ocimoides var. Crispa. J. Brewing Soc. Japan 80, 287
  10. Park, K. Y, Lee, K. I. and Rhee, S. H. (1992) Inhibitory effect of green-yellow vegetables on the mutagenicity in Salmonella assay system and on the growth of AZ-521 human gastric cancer cells. J. Korean Soc. Food Nutr. 21, 149-153
  11. Lee, K. I., Rhee, S. H., Kim, J. 0., Chung, H. Y. and Park, K. Y. (1993) Antimutagenic and antioxidative effects of perilla leaf extracts. J. Korean Soc. Food Nutr. 22, 175-180
  12. Chung, I. M., Yun, S. J., Kim, J. T, Gwag, J. G., Sung, J. D. and Suh, H. S. (1995) Test of superoxide dismutase characteristics and antioxidant acitivity in perilla leaves. Korean J. Crop Sci. 40, 504-511
  13. Lee, J. M., Lee, H. R. and Nam, S. M. (2002) Optimization for preparation of perilla jangachi according to steaming time and onion contents. Korean J. Food Cuhure 17, 653-662
  14. Jung, I. C, Kang, S. J., Kim, J. K., Hyon, J. S., Kim, M. S. and Moon, Y. H. (2003) Effects of addition of perilla leaf powder and carcass grade on th quality and palatability of pork sausage. J. Korean Soc. Food Sci. Nutr. 32, 350-355
  15. Lee, G. D., Kim, J. S. and Kwon, J. H. (1996) Monioring of cynamic changes in Maillard reaction substrates by response surface methodology (in Korean). J. Food Sci. Technol. 28, 212-219
  16. Lee, G. D., Lee, J. E. and Kwon, J. H. (2000) Application of response surface methodology in food chemistry. Food Ind. 33, 33-45
  17. SAS. SAS/STAT. (1990) User's Guide Version 6, (4th ed.), vol 2, SAS Institute Inc. pp. 1457-1478
  18. Kim, M. J. and Oh, S. L. (1999) Effect of pre-treatment methods on the quality improvement of persimmon leaf tea. Korean J. Food Preservation 6, 435-441
  19. Yagi, A., Kanbara, T. and Moiinobu, N. (1986) The effect of tyrosinase inhibition for aloea. Planta Med. 3981, 517-519
  20. Stirpe, F. and Corte, E. D. (1969) The regulation of rat liver xanthine oxidase. J. Biol. Chem. 244, 3855-3863
  21. Blois, M. S. (1958) Antioxidant determination by the use of stable free radical. Nature 26, 1198-1199