Abstract
ABSTRACTThe effect of ionic strength on the thermal gelation process of myosin was investigated by dynamic viscoelasticity measurements. The dynamic viscoelastic behavior of myosin was divided into three ionic strength groups. Each ionic strength group was closely related to the state of myosin molecules before the rise in temperature. Both the head and the tail portions of the molecule participated in the gel formation of myosin, but the temperature ranges differed. It was proposed that the first development of gel elasticity of myosin (30–45 °C) was attributed many to the tail portions of the molecules and that the second development (above 50 °C) was mainly to the head portions.
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