젤라틴화 된 모형식품의 조직특성

Textural Properties of Gelatinized Model Food system

식품과 유사하도록 수분, 전분, 단백질을 조합하여 모형식품을 만들고 가열온도와 가열시간을 변하시켜 가며 만든 gel의 texture를 universal testing machine으로 측정, 비교 분석하였다. 모형식품의 hardness, springiness, cohesiveness, gumminess 및 chewiness는 모두 고형분 함량과 높은 상관관계를 보였으며 $80^{\circ}C$, 20분 가열한 모형식품의 수분함량과 hardness에 대한 희 귀 식 은 $H(P_0S_4)=18.6405-3.8201M+0.1959M^2,\;H(P_1S_1)=244.7933-5.692M+0.0332M^2,\;H(P_4S_0)=693.0292-16.6884M+0.1005M^2$이였으며 이때의 상관계수는 각각 $0.996^{**},\;0.998^{**}$및 $0.998^{**}$이였다. 조직특성치와 가열온도 및 시간관의 상관관계는 모형 식품에 따라 달랐으며 단백질 식품에서는 유의성이 인정되지 않았고 특성치간의 상관관계는 비례적이나 전분질 식품의 hardness와 cohesiveness는 반비례적이였다. 저고형분 함량에서는 일정수준의 함량이 넘어서면서부터 증가하기 시작하여 순단백질 젤이 전분 제보다 높은 값을 나타냈다. $80^{\circ}C$, 20분간 가열한 모형식품의 harness와 단백질 함량과의 희귀식은 Hardness(고형분 20%)=5.6856-13.5670P+$9.7758P^2$이며 이때의 상관계수는 $0.95^{**}$였다.

The gelatinized model food system were prepared by combining moisture, starch and protein, and the textural properties of their gels of different temperatures and times of heating were investigated by the use of Instron Universal Testing Machine. The hardness, springiness, cohesiveness, gumminess and chewiness of model foods had a high correlation with solid content and the regression equations between the hardness of model foods and moisture content heated for 20min. at $80{\circ}C$ were as follows; $H(PS_4)=18.6405-3.8201M+0.1959M^2,\;H(P_1S_1)=244.7933-5.692M+0.0332M^2,\;H(P_4S)=693.0292-16.6884M+0.1005M^2$, The correlation coefficients were $0.996^{**},\;0.998^{**}\;and\;0.998^{**}$, respectively. Total correlations between textural parameters and temperature and heating times were different according to model foods. The correlation between textural parameters was proportional to protein foods, but the hardness and cohesiveness of starch foods showed the relationship of inverse proportion. Under low solid content, the parameters of model foods appeared to decrease as protein content increased. Under high solid content, the parameters of protein foods were higher than those of starch foods above some level of protein content. The regression equation between the hardness and protein content heated for 20min. at $80^{\circ}C$ was as follows; Hardness(20%)=5.6858-13.5670P+$9.7758P^2$ and the correlation coefficient was $0.95^{**}$.