The phosphorylation-dephosphorylation process as a myosin-linked regulation of superprecipitation of fast skeletal muscle actomyosin.

The dependence of the onset and course of turbidity changes ( superprecipitation) induced by ATP were studied in a natural actomyosin suspension with the dephosphorylated and phosphorylated forms of light chains (LC2) of myosin. It was found that the onset and time course of the changes in turbidity of the natural actomyosin suspension are strongly dependent on the (phosphorylated and dephosphorylated) form of these chains of myosin. The ATPase activity of actomyosin with phosphorylated LC2 was lower and the half-time for achieving maximal turbidity of actomyosin suspension after addition of ATP was higher than that of actomyosin with dephosphorylated LC2. Natural actomyosin preparations contain endogenous light-chain kinase and phosphatase. The changes of turbidity induced by ATP in the natural actomyosin suspension are greatly diminished in the presence of phosphate. Thiophosphorylation of LC2 of myosin leads to a decrease of the extent of superprecipitation of natural actomyosin. The release of [32P]phosphate from actomyosin containing [32P]ATP-phosphorylated LC2 of myosin increases with increased turbidity of actomyosin suspension. The change of the form LC2 as a kind of additional myosin-linked regulation of superprecipitation is discussed.