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  • Title: Modeling of the actomyosin ATPase activity. Origin of the initial phosphate burst and implications of the phosphate release kinetics.
    Author: Stein LA.
    Journal: Cell Biochem Biophys; ; 27(2):63-96. PubMed ID: 9106393.
    Abstract:
    In the rapid "quench" kinetics of myosin, the "initial phosphate burst" is the excess inorganic phosphate that is produced during the early time-course of ATP hydrolysis by myosin subfragment-1 (S-1) or HMM. In general, the existence of a Pi burst implies a rapid (i.e., generally an order of magnitude faster than the steady-state hydrolysis rate) lysis of the phospho-anhydride bond within the ATP molecule, followed by one or more slower steps that are rate limiting for the process. Thus, the presence of a Pi burst can provide an important clue to the mechanism of the reaction. However, in the case of actomyosin, this clue has long been the subject of controversy and misunderstanding. To measure the (initial) Pi burst, myosin S-1 (or HMM) is rapidly mixed with ATP and then the mixture is acid quenched after a specific time period. The medium produced contains free Pi generated from hydrolysis of the ATP. The quantitative measure of the phosphate generated in this way has always been significantly greater than that expected by steady-state "release" of Pi alone, and it is that very difference between this measured Pi after the quench and that amount of Pi expected to be released by steady-state considerations in that same time period that has been referred to as the "initial Pi burst." Recent investigations of the kinetics of Pi release have used an entirely new method that directly measures the release of Pi from the enzyme-product complex. These studies have made reference to the properties of the "initial Pi burst" in the presence of actin, as well as to a new kinetic entity: the "burst of Pi release," and have been often vague concerning the true nature of the initial Pi burst, as well as the properties of Pi release as predicted by the current models of the actin activation of the myosin ATPase activity. The purpose of the current article is to correct this oversight, to discuss the "burst" in some detail, and to display the kinetics predicted by the current models for the actin activation of myosin. Furthermore, predictions for the kinetics of the new "burst of Pi release" are discussed in terms of its ability to discriminate between the two current competing models for actin activation of the myosin ATPase activity.
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