Effect of pH on the gelation of walleye pollack surimi and carp actomyosin pastes

ABSTRACT: The effect of pH on thermal gelation and transglutaminase (TGase; EC2.3.2.13)-induced suwari (setting) of surimi and actomyosin pastes was investigated. A strong and elastic gel was produced from walleye pollack surimi paste at pH 7.0 in the presence of Ca²⁺ using a two-step heating method. In contrast, walleye pollack actomyosin paste formed a weak gel under the same conditions as a result of the low concentration of endogenous TGase. In the presence of EGTA [ethyleneglycol bis(2-aminoethylether) tetraacetic acid], weak gels were formed at pH values of 7.0 and 6.0. Non-proteolytic modori (gel weakening) occurred extensively in the course of actomyosin gelation, but not in surimi gelation. Maximum TGase-induced myosin heavy chain cross-linking was observed at a slightly higher pH of 7.5 than at the optimal pH of endogenous TGase activity; the difference being derived from different substrates. Gelation of carp actomyosin paste at pH values of 5.5, 6.0, 6.5 and 7.0 was monitored by measuring storage modulus (G') and loss modulus (G"). A weak gel was formed at all pH values, but a slightly rigid and less elastic gel was obtained at lower pH values. The addition of microbial TGase (MTGase) formed strong elastic gels at pH 7.0 and 6.5. MTGase cross-linked myosin heavy chains even at pH 5.5, but contributed neither to suwari response nor strong gel formation. Overall, results suggest that the optimal pH for the gelation of surimi paste from easy-setting fish species is a compromise between the pH-optima of TGase activity and of preferable actomyosin conformation for myosin cross-linking.     

Inhibiting effect of polymerization and degradation of myosin heavy chain during preheating at 30°C and 50°C on the gel-forming ability of walleye pollack surimi

ABSTRACT: To confirm the contribution of polymerization and degradation of myosin heavy chain (MHC) during preheating to the gel-forming ability of fish meat paste, walleye pollack surimi paste was preheated at 30°C and 50°C prior to heating at 80°C in the presence of various inhibitors. At 30°C, ethyleneglycol bis(2-aminoethyl ether) -N,N,N ', N '-tetraacetic acid (EGTA) and ethylenediaminetetraacitic acid (EDTA) inhibited gel formation as well as the polymerization of MHC, whereas dithiothreitol (DTT) and leupeptin promoted gel formation, which was accompanied by the enhancement of MHC polymerization and decreased MHC degradation, respectively. At 50°C, leupeptin inhibited MHC degradation and improved gel strength, whereas EGTA, EDTA and DTT had no effect on MHC polymerization and degradation and did not affect gel formation. The results demonstrate that the gel strength of cooked gel (80°C) is not affected by preheating at 30°C and 50°C and does not inhibit polymerization and degradation. Results suggest that the gel strength of cooked gel is dependent on the polymerization and degradation of MHC during preheating.     

Myofibrillar proteolysis by myofibril-bound serine protease from white croaker <Emphasis Type="Italic">Argyrosomus argentatus</Emphasis>

ABSTRACT:   The modori phenomenon is defined as heat-induced myofibrillar degradation caused by endogenous serine protease(s) of fish muscle during Kamaboko fish meat gel production. This study was undertaken to analyze myofibrillar proteolysis of white croaker Argyrosomus argentatus muscle, which is an ingredient of high quality Kamaboko, by myofibril-bound serine protease (MBSP) under conditions corresponding to the modori phenomenon. White croaker MBSP was stable between pH 2–11 and below 65°C, and about 60% of its initial activity remained after incubation for 2 h under the conditions at 65°C and pH 7.5. About 60% of the enzyme activity was suppressed by 0.5 M NaCl. White croaker MBSP degraded various myofibrillar proteins between 40 and 70°C and pH 6.0–9.0, and preferentially degraded myosin heavy chain rather than other myofibrillar proteins. The enzyme degraded the myosin heavy chain most strongly at 55°C and pH 7.0, and a major part of the bands of myosin heavy chain and its degradation products disappeared for a period of 2 h. These degradation characteristics are very similar to those observed during the modori phenomenon, indicating that MBSP could be a modori-inducing protease involved in the modori phenomenon of white croaker Kamaboko production.     

白鲢鱼糜凝胶劣化的影响因素

以白鲢鱼糜为原料,在确定凝胶劣化温度的基础上,研究了食盐、水分和可溶性蛋白对凝胶劣化的影响。结果表明,在供试温度范围内(40℃、50℃、60℃和70℃),随着加热时间的延长,鱼糜凝胶的破断强度呈现先增加后下降的趋势,且加热温度越高破断强度达到最大值所需的时间越短、下降也越显著。鱼糜凝胶劣化温度段为50~60℃,凝胶劣化与该温度段肌球蛋白重链的降解密切相关;盐溶蛋白和水溶蛋白都能不同程度地抑制凝胶劣化,但超过一定添加量时就会产生相反的作用;凝胶劣化程度随含水量的增加而增大,也随食盐含量(1%~3%)的增大而增大。