Changes in the heat-induced gelation properties of reconstituted rabbit skeletal actomyosin stored under a high salt concentration at pH 6.0 and O°C were investigated at different weight ratios of actin to myosin by using dynamic rheological and biochemical measurements. The addition of actin resulted in a pronounced peak maximum at about 50°C and an accompanying temporary reduction in the range at about 50°C to 60°C. The more the initial actin concentration was increased, the greater was the area of the peak/shoulder. However, this area was markedly diminished with increasing storage time. As a result, the dynamic rheological pattern was transformed from an actomyosin type into a myosin type. The relationship between the G' value at 80°C and the actin/myosin weight ratio was curvilinear, with a peak at the ratio of 0.05, immediately after storage was started. This profile changed during storage, depending on the extent to denaturation of actin and myosin in the reconstituted actomyosin (RAM). The G' value of actomyosin in 0.5 M KCI with a small actin/myosin ratio of 0.05 decreased to one-half of its initial value after 7 days of storage, whereas the G' value with a large actin/myosin ratio of 0.225 increased by about 1.6 times. In 1.5 M KCI, aU the G" values declined to the level with myosin alone after 7 days of storage. The time-course plots of the remaining actin concentration in RAM at different weight ratios of actin to myosin after being treated with 0.5 M or 1.5 M KCI showed a decrease in the actin content with increasing storage time, and an increase in the KCI concentration to 1.5 M KCI promoted the denaturation of actin in RAM faster than with 0.5 M KCt The surface hydrophobicity of each RAM sample progressively increased with increasing storage time, while little significant increase in the sulfhydryl (SH) content during storage was observed. It is concluded that changes in the heat-induced gelation properties of actomyosin during storage are largely attributable to the denaturation of actin rather than to the denaturation of myosin or to quantitative changes in the SH content and hydrophobicity.Key words: thermal gelation; denaturation; myosin; actin; actomyosin In an earlier work by Yasui et al. on the heat-induced gelation mechanism of muscle proteins, only two proteins, myosin and actin, were recognized as being essential for the development of gelation properties in meat products. 1.2) According to their theory, myosin is the major factor involved in the heat-induced gelation of meat proteins, and its amount and nature bear a close relationship with the binding capacity of the resulting products. Actin alone does not exhibit any gelling ability, 1.3) but has a synergetic effect on a myosin gel. 1.2) Namely, a small amount of actin, which forms an F-actomyosin complex in the system, reinforces the myosin gel's strength, probably by functioning as a cross-linker with free myosin during the heatinduced gelation process at high ionic strength. The maximum gel strength is obtained at a 2.7 myosin to ...
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