• Applied Biological Chemistry
• /
• 제35권4호
• /
• pp.232-236
• /
• 1992

생대두를 이용한 발효장류의 개발을 위한 기초조사로서 대두의 처리조건을 찾고저 처리방법 [생콩(A), 수침탈각(B), 건열처리(C) 및 습열처리(D)]을 달리한 대두의 일반성분과 효소활성변화를 검토하였다. 그 결과 일반성분 중 수분함량은 A, D구가 B, C구 보다 $2.0{\sim}3.0%$, 조지방 함량은 A, B구가 C, D구 보다 약 2%, 조단백질 함량은 C, D구가 A, B구 보다 $1.16{\sim}1.74%$, 조섬유 함량은 A구가 B, C, D구 보다 $0.11{\sim}1.41%$ 많았으나, 회분은 B, C, D구가 A구 보다 0.49% 많았다. ${\alpha}-amylase$, ${\beta}-amylase$, protease, lipase 활성도는 생콩(A) 및 수침탈각(B) 구가 전열처리(C) 및 습열처리(D)구 보다 약 $2{\sim}5$배 이상 높았다. Trypsin inhibitor 활성도 크기는 $B(56.7{\sim}119.2%)>A(42.9{\sim}95.6%)>D(32.9{\sim}39.6%)>C(20.8{\sim}38.3%)$구 순이었다.

• Applied Biological Chemistry
• /
• 제32권3호
• /
• pp.295-302
• /
• 1989

발효식품인 장류의 제조 중 원료처리에 대한 기초자료를 제공하고자 생대두, 수침대두, 볶은대두 및 증자대두를 제조하여 이것과 Asp. oryzae, Asp. niger, Asp. awamori 및 자연 발효균을 접종시켜 제조한 쌀고오지 및 식염을 각각 60 : 30 : 10(W/W)의 비율로 혼합하여 생대두 된장$(S_0)$, 수침대두 된장$(S_1)$, 볶은대두 된장$(S_2)$ 및 증자대두$(S_3)$을 제조하면서 발효과정 중 amylase, protease, lipase 및 lipoxygenase 활성도의 변화를 측정한 결과 다음과 같은 결론을 얻었다. 콩된장 제조중 접종시킨 미생물 상호간의 amylase 활성도는 자연 발효균>Asp. oryzae>Asp. awamori>Asp. niger 순이었고, 각 처리대두에 따른 활성도는 $S_0>S_1>S_2>S_3$구 순이었으며, protease 활성도는 자연 발효균>Asp. niger>Asp. oryzae>Asp. awamori순 이었으며, 각 처리구에 따른 활성도는 $S_3>S_2>S_1>S_0$ 구 순이었다. Lipase 활성도는 미생물 상호간에 별 차이가 없었고, 처리구에 따른 그 활성도 크기는 $S_0>S_1>S_3>S_2$ 구 순이었으며 lipoxygenase 활성도는 콩된장 제조 중 접종시킨 미생물 상호간에 있어서는 자연 발효균>Asp. oryzae>Asp. awamori>Asp. niger순 이었고, 각 시험구간에는 $S_0>S_1>S_3>S_2$구 순이었다.

• 한국식품영양과학회지
• /
• 제26권3호
• /
• pp.390-396
• /
• 1997

Meju is a basis for manufacturing Kanjang, Meju was traditionally prepared at home by different types of process depending on the regional area. It is necessary to standardize and simplify the process of Meju-preparation for Kanjang of good quality. For these purposes, the process of Meju and Kangjang making as well as analysis of commercial Kanjang, were compared. Generally, traditional Meju was prepared by steeping and dehulling the whole soybean. After steeping for 24hr. soybean absorbed water up to 110~120% of its weight. The soaked soybeans were steamed for 2hr. and cooled to 5$0^{\circ}C$. Cooked soybeans were crushed down to the size of 10~15 mesh and molded. Molded soybeans were dried for 2 days in the air, hung up by rice straw and fermented for 20~30 days under natural environmental condition. On the other hand, commercial soybean koji was made of defatted soybean. Defatted soybeans were steeped in water and steamed for 15~30min at 0.7~1.2 kg/$\textrm{cm}^2$. Steamed and defatted soybean was cooled to 4$0^{\circ}C$. Separately, wheat power was roasted at 200~30$0^{\circ}C$ by wheat roaster. Mixture of steamed defatted soybean and roasted wheat powder (5/5 to 7/3) were inoculated with 0.1~0.2% Aspergillus sojae and incubated for 2 days at 3$0^{\circ}C$ with occasional stirring. Chemical analysis showed that traditional soy sauces contained the following composition: NaCl, 20.12~25.42%; total nitrogen, 0.64~0.91%; pure extract, 9.47~11.20%; color, 2.34~4.01; pH, 4.92~5.12. Commercial products contained: NaCl, 15.20~17.19%; total nitrogen, 1.25~1.40%; pure extract, 18.17~21.47%; color, 5.41~21.12; pH, 4.51~4.66 and ethalnol. 2.97~3.12%. Organoleptic test on taste, color and flavor of traditional and commercial soysauce indicated that most of the consumers prefer commercial products to traditional products. Preferrable formulation of Kanjang based on organoleptic test of soy sauces was assumed as containing; NaCl, 16.0%; total nitrogen, 1.40%; pure extract, 19.97%; color, 12.98; pH, 4.61 and ethanol, 2.96.