Korean journal of food and cookery science (한국식품조리과학회지)

Korean Society of Food and Cookery Science (한국식품조리과학회)
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Characteristics and development of Rice Noodle Added with Isolate Soybean Protein

분리대두단백질을 첨가한 쌀국수의 제면특성 및 개발

  • 박희경 (식품위생안전연구소) ;
  • 이효지 (한양대학교 식품영양학과)
  • Published : 2005.06.01
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Abstract

The purpose of this study was to investigate the effect of isolate soybean protein (ISP) and rice flour on the characteristics of rice noodles. As the levels of ISP and rice flour increased, water binding capacity, swelling power of rice noodle increased. In RVA, pasting temperature, Set back showed an increasing tendency with peak viscosity, holding viscosity, break down, final viscosity of rice noodle increased as the level of rice flour by decreasing. Peak time was not significant. The weight, water absorption and volume of the cooked noodles were decreased. The turbidity of rice noodle increased. The Hunter color L, a-values of the dried rice noodle decreased. Cooked rice noodle quality increased with by decreasing the level of rice flour level. B-values of dried rice noodle and cooked rice noodle increased. Texture profile analysis of cooked rice noodle showed an increase of hardness. Adhesiveness, cohesiveness of cooked rice noodles decreased with by decreasing the level of ISP and rice flour. Gumminess, springiness, chewiness were increased. Sensory evaluation, showed gloss was increased. Hardness and chewiness of the cooked ice noodles were increased. Adhesiveness was not significant. Color and overall- acceptability were increased. Relationship between sensory and mechanical examinations (The overall quality of sensory examination for gloss) had a negative correlation with the mechanical examination for b-value (p.0.05). Mechanical examination for b-value had a positive correlation of sensory evaluation for hardness, chewiness, which had negative correlation of sensory evaluation for color. Scanning Electron, Microscopes observation of rice noodle was showed that the size of the hole grown was increased with by increasing the level of rice flour. From the above results, the most advisable mixture ratio of rice noodle evaluation was can be derived as follows: 171g rice flour, 114g wheat flour, 15g soybean protein isolate, 120ml water, and 6g salt.

Keywords

References

  1. 강미영. 2002. 쌀의 기능성 성분과 효능. 쌀의 기능성 재조명과 기능성 쌀 제품화 전략 심포지엄 자료집. 한국산업 식품공학. p 33-50
  2. 김광옥, 이영춘. 1989. 식품의 관능검사. 학연사. 서울. p 192-231
  3. 김광옥, 이영춘, 김상숙, 성내경. 1989. 관능검사 방법 및 응용. 신광출판사. 서울 p 131-145
  4. 문수재, 손경희. 1998 식품학 및 조리원리. 수학사. 서울. p 146
  5. 박정민, 나상균. 2003. SPSS 11.0을 이용한 통계분석. 법문사, 서울. p 207-243
  6. 손충기, 백영균, 박정환. 2003 내가 하는 통계분석 SPSS Dos에서 Windows 11.0까지. 학지사. 서울. p 78-92
  7. 이영근, 남상해, 차인호, 강정미. 1999 식품분석법. 형설출판사. 서울. p 65-92
  8. 이철호, 채수규, 인진근, 박복상. 1982. 식품공업 품질관리이론. 유림출판사. 서울. p18
  9. 정일민. 2003 고항산화활성 . 활성물질 함유 쌀 생산기술 개발연구보고서. 농림부
  10. 주현규, 조규성, 조광행, 채수규, 박충균, 마상조. 1991. 식품 분석법. 유림출판사. 서울 p. 192-298
  11. 채규슈, 강갑석, 마상조, 방광웅, 오문헌, 오성훈 2003 식품분석학. 지구문화사. 서울 p. 243-249
  12. 左藤竹男. 1971. New Food Industry. 日本 13(5): 14
  13. Bourne MC. 1978. Texture profile analysis. J Food Technol. publishing company INC. New York p 32
  14. Chae JC. 2004. Present situation, research and prospect of rice quality and bioactivity in Korea. Food Science and Industry. 37(2):47-54
  15. Deman TM 1976. Rheology on Texture in Food Quality. The AVI. publishing company INC, New York, USA. p 588
  16. Faubion J.M, Hoseney R.C. 1982. HTST extrusion cooking of wheat starch and flour. II. Effect of protein and lipid on extrudate properties. Cereal Chem. 59(6): 533-542
  17. Han O, Park YH, Lee SH, Lee HY, Min BL. 1989. The texturization properties of textured extrudate made by a mixture of rice flour and isolated soybean protein. Korean J. Food Sci. Technol. 21(6):780-787
  18. Jung JH. 2002. Characteristics of wheat dough and noodle with different Alginate contents. M.S. Thesis University of Hanyang
  19. Joo YH. 2002. Characteristics of wheat flour and noodle with amylose/amylopectin ratio and hydrocolloids. M.S. Thesis University of Hanyang
  20. Kim BR, Choi YS, Kim JD, Lee SY. 1999. Noodle making characteristics of buckwheat composite flours. J. Korean Soc Food Sci. Nutr. 28(2):383-389
  21. Kim UJ, Yoon JY, Kim HS. 2002. A study on the noodle quality made from pea starch-wheat composite flour. Korean J. Soc. Food Sci. 18(6):692-698
  22. Kim YS, Ha TY, Lee SH, Lee HY. 1997. Effect of rice bran dietary fiber on flour rhelology and quality of wet noodle., Korean J. Food Sci. Technol. 29(1):90-95
  23. Kim YS. 1998. Quality of wet noodle prepared with wheat flour and mushroom powder. Korean J. Food Sci. Technol. 30(6): 1373-1380
  24. Lee C, Bae SH. 1998. Effect of soybean protein isolate on the properties of noodle. Korean J. Food Sci. Technol. 30(6): 1301-1306
  25. Lee JW, Kee HI, Park YK, Rhim JW, Jung ST, Ham KS. 2000. Preparation of noodle with laver powder anf its characteristics. Korean J. Food. sci. Technol. 32(2):298-305
  26. Lee KH, Kim KT. 2000. Properties of wet noodle changed by the addition of whey powder. Korean J. Food Sci. Technol. 32(5): 1073-1078
  27. Lee MH, Baek MH, Cha DS, Park HJ, Lim ST. 2002. Freeze-thaw stabilization of sweet potato starch gel by polysaccharide gums. Food Hydrocolloids. 16:345-352 https://doi.org/10.1016/S0268-005X(01)00107-2
  28. Lee YS, Lim NY, Lee KH. 2000. A study on the preparation and evaluation of dried noodle products made from composite flours utilizing arrowroot starch. Korean J. Soc. Food Sci. 16(6):681-687
  29. Medcalf D.G, Gilles K.A. 1965. Wheat starches, I. Comparison of physicochemucal properties. Cereal Chem. 42:558
  30. Mun SH, Shin MS. 2000. Quality characteristics of noodle with health-functional enzyme resistant starch. Korean J. Food sci. Technol., 32(2):328-334
  31. Park DJ, Ku KH, Kim CJ, Lee SJ, Yang JL, Kim YH, Kim CT. 2003. Quality characteristics of korean wheat noodle by formulation of foreign wheat flour and starch. J korean Soc. Food Sci. Nutr. 32(1):67-74 https://doi.org/10.3746/jkfn.2003.32.1.067
  32. Park JH, Kim YO, Kug YI, Cho DB, Choi HK. 2003. Effects of green tea powder on noodle properties. J. Korean Soc. Food Sci. Nutr, 32(7):1021-1025 https://doi.org/10.3746/jkfn.2003.32.7.1021
  33. Sathe S.K., Deshpande S.S, Rangnekar P.D, Salunkhe D.K 1982. Functional properties of modified black gram (Phaseolus mungo L) starch, J. Food Sci. 47: 1528 https://doi.org/10.1111/j.1365-2621.1982.tb04975.x
  34. Shin MS, Kim JO, Lee MK. 2001. Effect of soaking time of rice and particle size of rice flours on the properties of nonwaxy rice flours soaking at room temperature. Korean J. Soc. Food & Cookery Sci. 17(4):309-315
  35. Shin JY, Byun MW, Noh BS, Choi EH. 1991. Noodle characteristics of Jerusalem artichoke added whet flour and improving effect of texture modifying agents. Korean J. Food Sci. Technol. 23(5):538-545
  36. Voisey P.W, Larmond E. 1973. Exploratory evaluation of instrumental techniques formeasuring some textural characteristics of cooked spaghetti. Cereal Sci. Today. 18:126-133
  37. Yang HC, Suk KS, Lim MH. 1982. Studies on the processing of raw material for noodle. Korean J. Food Sci. Technol. 14(2):146-150
  38. Yang HC, Yang BH, Lim MH. 1983. Studies on the preparation and utilization of filefish protein concentrate(EPC). III. the preparation and characteristic of dreied noodle using FPC-what composite flour (in korea), Korean J. Food sci. Technol., 15(3):262-268
  39. Yoon SS. 1991. History of korea noodle culture. Korean J. Dietary Culture. 6(1):85-95
  40. Yoo HE. 1990. Effect of lipid contents on the physicochemical characteristics of acorn starch. M.S. Thesis University of Yonsei