Abstract:
:Myosin belongs to the family of motor proteins. Its interaction with actin coupled with hydrolysis of ATP is the molecular basis of muscle contraction. The head segment of myosin, called subfragment 1 (S1), contains the distinct binding sites for ATP and actin and responsible for the ATPase activity. The rate-limiting step of the ATP hydrolysis is the dissociation of the S1-MgADP-Pi complex which is accelerated by actin. The substitution of Pi with phosphate analogs (PA), such as vanadate (Vi) or beryllium fluoride (BeF(x)), highly stabilizes the complex. We studied the role of the divalent cations in the ATPase activity and in the formation and decomposition of PA-containing stable complexes by substituting Mg2+ with Fe2+, Mn2+, Ni2+, Co2+, and Ca2+. These metal ions supported the actin activation of S1 ATPase and affected the obtained kinetic parameters, Km and V(max). The ATPase activity of S1 in the absence of actin increased with the increasing ionic radius of the metal (Me) ions. These ions also substituted for Mg2+ in the formation of the stable ternary S1-MeADP-PA complexes, which cannot be generated in the absence of divalent cations. Upon formation of stable ternary complexes, S1 reversibly loses its ability to catalyze the hydrolysis of ATP. The formation of the complexes can be followed by monitoring the disappearance of the ATPase activity. The rate of the complex formation depends on the divalent cation present and decreases in the order Mn > Fe > Ni > Co > Mg and Ca > Mn > Fe > Mg > Co in the Vi- and BeF(x)-containing complexes, respectively. The ATPase activity of S1 is recovered upon addition of actin, which causes the decomposition of the complex. The spontaneous decomposition of the complexes was studied in the presence of ethylenediaminetetraacetic acid (EDTA), which chelates the metal divalent cations released from the complex and prevents its reformation. The rate of decomposition was assessed by monitoring the recovery of the ATPase activity of S1 in the presence of EDTA. The rate of decomposition of the Vi- and BeF(x)-containing complexes follows the order Mn > Fe > Co > Mg > Ni and Ca > Mn > Fe > Co > Mg, respectively. The rate of decomposition increases with the increasing ionic radius of the metal ions, similarly as observed in the case of ionic radius dependence of the ATPase activity. On the basis of this similarity, it is assumed that the decomposition of the complexes consists of two steps, the first step being the very slow release of PA followed by a rapid dissociation of MeADP from S1. The stability of the complexes has been calculated from the formation and decomposition rates. Except in the case of Mg, the stabilities of the BeF(x) complexes are higher than those containing Vi. The results indicate that the metal cations have a significant role in maintaining the proper structure of the transient state complex in the myosin-catalyzed ATP hydrolysis.
journal_name
Biochemistryjournal_title
Biochemistryauthors
Peyser YM,Ben-Hur M,Werber MM,Muhlrad Adoi
10.1021/bi952565rsubject
Has Abstractpub_date
1996-04-09 00:00:00pages
4409-16issue
14eissn
0006-2960issn
1520-4995pii
bi952565rjournal_volume
35pub_type
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