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청소년 및 고령층을 위한 잡곡밥의 혼합비율 설정 및 영양성, 기능성 평가
장혜림(Hye-Lim Jang),김건우(Kun-Woo Kim),정용진(Yong-Jin Jeong),윤광섭(Kwang-Sup Youn),우상철(Sang-Cheul Woo),윤경영(Kyung-Young Yoon) 한국식품영양과학회 2013 한국식품영양과학회지 Vol.42 No.1
본 연구는 청소년과 고령층을 대상으로 기호성이 높은 잡곡밥 혼합비율을 설정하고, 영양성과 기능성을 평가하였다. 청소년과 고령층을 대상으로 잡곡 혼합비율에 따른 잡곡밥의 기호도를 측정한 결과, 청소년층을 위한 혼합잡곡(MGA)은 40% 잡곡 첨가군을, 고령층을 위한 혼합잡곡(MGAP)은 소화흡수율과 기호도를 고려하여 30% 잡곡 첨가군을 선정하였다. 또한 청소년 및 고령층의 전체 잡곡 중 특화잡곡혼합 비율은 전체적 기호도가 가장 높은 10%와 20%로 각각 선정하였다. 특화잡곡 간의 비율은 전체적인 기호도가 가장 높은 혼합비율로 선정하였으며, 그 결과 MGA는 녹두와 백태의 혼합비율을 2:1로, MGAP는 율무와 메밀의 혼합비율은 1:1로 결정하였다. 혼합작곡의 영양성 및 기능성을 평가한 결과, MGA에서 칼로리 및 조단백질, 조지방 함량이 가장 높게 나타났으며, 필수아미노산 함량 또한 다양하게 존재하였고, 무기질의 함량도 백미(PR) 및 MGAP에 비해 다량 함유되어 있음을 확인하였다. 반면 기능성과 관련된 총 폴리페놀 및 플라보노이드 함량은 MGAP에서 가장 높았으며, hydroxyl 라디칼 소거능을 제외한 나머지 라디칼 소거능 또한 MGAP에서 가장 높게 나타났다. This study was conducted to determine the proper mixing ratio of multigrains-added cooked rice for adolescent and aged people and analyze the nutritional and functional properties. As a result of sensory evaluation according to mixing ratio of polish rice and grains, the palatable grain mixing ratio of mixed grain rice for adolescent and aged people was 40% and 30%, respectively. The ratio of general grains to specialized grains was 9:1 in mixed grain rice for adolescent (MGA) and 8:2 in multigrain rice for aged people (MGAP). The ratio of mung bean to BacTae was 2:1 in MGA, and the ratio of adlay to buckwheat was 1:1 in MGAP. MGA contained the highest amount of crude protein, crude fat and minerals among the samples. In contrast, MGAP showed higher amounts of polyphenols and antioxidant activity compared to polished rice and MGA.
장세영 ( Se Young Jang ),김선화 ( Sun Hwa Kim ),성나혜 ( Na Hye Sung ),윤경영 ( Kyung Young Yoon ),우상철 ( Sang Cheul Woo ),정용진 ( Yong Jin Jeong ) 한국식품저장유통학회 ( 구 한국농산물저장유통학회 ) 2012 한국식품저장유통학회지 Vol.19 No.2
The quality characteristics of kalopanax pictus and Aralica elata shoots during their preservation were investigated according to the salt conditions and storage temperatures to improve the use of the shoots. The results were as follows: the pH of kalopanax pictus shoots duing their storage did not changes with 10% and 12% brine at 4℃ and with 12% brine at 10℃. The pH of Aralica elata shoots is at 4℃ tended to be similar to the kalopanax pictus shoot and decreased at the storage temperature of 10℃. The salinity of the kalopanax pictus and Aralica elata shoots tended to increase during their storage and did not change significantly as their storage temperature changed. The L values of kalopanax pictus and Aralica elata shoots tended to devrease gradually during their storage, and the salt concentrations appeared high. The b value of the kalopanax pictus shoot tended to increase and that of the Aralica elata shoots, to decrease gradually. The a value tended to increase gradually but did not differ with variations in the storage temperatures and salt concentrations. The strength and the hardness of the kalopanax pictus and Aralica elata shoots tended to decreasedgradually during their storage and highest in 10% brine at 4℃, and those of Aralica elata shoots were highest in 8-10% brine at 4℃. The Chlorophyll contents of the kalopanax pictus and Aralica elata shoots tended to decrease during their salt storage and did not change significantly as the temperatures and salt concentrations changed. Therefore, it can be concluded that the quality of kalopanax pictus and Aralica elata shoots can be maintained when the are stored in 10% brine at 4℃.