EC:3.6.3.1 - FACTA Search

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Query: EC:3.6.3.1 (Mg2+-ATPase)
1,484 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The influence of various factors on the interaction of phosphorylated and dephosphorylated myosin with actin was examined. It was found that the difference between the values of specific activity of the two myosin forms of actin-stimulated Mg2+-ATPase is affected by changes in KCl, MgATP and actin concentration. The effect of increased pH on the differences in the rate of ATP hydrolysis by actomyosin containing phosphorylated myosin as compared with that of the dephosphorylated one, observed in the presence of EGTA, is abolished by addition of Ca2+. Tropomyosin strongly inhibits the actin-stimulated Mg2+-ATPase of phosphorylated myosin (by about 60%). The tropomyosin-troponin complex and native tropomyosin lowered the rate of ATP hydrolysis by actomyosin containing both phosphorylated and dephosphorylated myosin by about of 60% of the value obtained in the absence of those proteins. These results indicate that the change of negative charge on the myosin head due to phosphorylation and dephosphorylation of myosin light chains modulates the actin-myosin interaction at different steps of the ATP hydrolysis cycle. Phosphorylation of myosin seems to be a factor decreasing the rate of ATP hydrolysis by actomyosin under physiological conditions.
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PMID:Factors influencing interaction of phosphorylated and dephosphorylated myosin with actin. 293 57

The effect of myosin LC2 modifications (phosphorylation or selective proteolytic removal of a seven-residue N-terminal peptide) and partial or complete removal of the whole LC2 was studied under various conditions. (1) Actin binding in the absence of ATP is not influenced by the nature of the myosin species (phosphorylated, dephosphorylated or devoid of LC2). (2) A 50% inhibition of K+/EDTA-ATPase was obtained with actin concentrations hardly different when phosphorylated and dephosphorylated myosins were compared (of the order of 5 microM), whereas both myosin devoid of LC2 and myosin in which the LC2 N-terminal peptide has been removed required significantly higher concentrations of actin (13.0 +/- 2 and 12.0 +/- 2.0 microM, respectively). (3) Dissociation of the actomyosin complex at high ionic strength with nucleotides is not influenced by phosphorylation. (4) Actin activation of Mg2+-ATPase is enhanced when LC2 is phosphorylated; no activation enhancement is observed with myosin devoid of LC2. (5) Translational diffusion coefficient measurements of myosin in high-ionic-strength solutions indicate a tendency for LC2-deprived myosin to form autoassociation oligomers. It thus appears that a structural modification (partial cleavage or removal of LC2) induces important structural changes in myosin, pointing to a role for LC2 in the intrinsic conformation of the molecule and its interaction potentialities. Effects of LC2 removal at high ionic strength are best explained by interactions bearing no relationship to physiological functions. A physiologically significant effect of LC2 phosphorylation requires a minimum degree of organization (actomyosin complex) to be expressed in which LC2 could play the role of a return-spring in the cross-bridge mechanism.
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PMID:Influence of the regulatory light chain of fast skeletal muscle myosin on its interaction with actin in the presence and absence of ATP. 293 62

Several conflicting reports have been made regarding the affinity of myosin heads (subfragment 1 and heavy meromyosin (HMM) for regulated actin (actin complexed with tropomyosin and troponin) at low ionic strength (mu = 18-50 mM) and whether or not this interaction is Ca2+ sensitive (Chalovich, J. M., and Eisenberg, E. (1982) J. Biol. Chem. 257, 2432-2437; Chalovich, J. M., and Eisenberg, E. (1984) Biophys. J. 45, 221a; Wagner, P. D., and Stone, D. B. (1983) Biochemistry 22, 1334-1342; and Wagner, P. D. (1984) Biochemistry 23, 5950-5956). Since the low ionic strengths used in the above studies do not represent the physiological ionic strength under which intact muscle exhibits Ca2+-dependent tension development, we investigated the possibility of whether a Ca2+-dependent regulated actin-HMM interaction could be observed at physiological ionic strength (mu = 134 mM, pH 7.4) and in the presence of ATP (at 23-24 degrees C). Direct binding of HMM to varied concentrations of regulated actin (87.7-221 microM free actin) was measured by sedimentation in an air-driven ultracentrifuge. Under the above conditions, we found that the regulated actin activation of HMM-Mg2+-ATPase was about 94% inhibited in the absence of Ca2+ although the association constant (Ka) is only moderately affected in the presence of Ca2+. These results are similar to those obtained by Chalovich and Eisenberg (1982 and 1984) with subfragment 1 and HMM, respectively, at low ionic strength and support their suggestion that in solution tropomyosin-troponin may not act totally by physically blocking the formation of cross-bridges with actin, but instead may act to inhibit a kinetic step in the overall ATPase rate. Whether this holds true in more intact systems (e.g. myosin, thick filaments) remains to be determined. Our results also show a good correlation between levels of ATPase activation and HMM binding by unregulated actin and in regulated actin in the presence of Ca2+.
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PMID:Calcium-insensitive binding of heavy meromyosin to regulated actin at physiological ionic strength. 293 49

Gizzard heavy meromyosin (HMM) sediments in the ultracentrifuge as a single peak, whose sedimentation coefficient (S20,w) decreases from 9 to 7.5 S upon increasing the NaCl concentration from 0.02 to 0.3 M. This decrease is accompanied by a parallel increase in Mg2+-ATPase activity, suggesting that both changes have a common molecular basis. Phosphorylation decreases S20,w and increases ATPase activity, while ATP increases S20,w. Sedimentation equilibrium studies indicate that HMM undergoes no detectable aggregation at 0.02 or 0.4 M NaCl, remaining monomeric with a molecular weight of 3.4 X 10(5). In contrast, S20,w of subfragment 1 does not change with changes in ionic strength, and its ATPase activity does not decrease at low ionic strengths. Electron micrographs of samples of HMM prepared at low ionic strength show that up to half of the molecules are flexed, i.e. the heads are bent at the neck and project back toward the tail, while the remaining molecules have either one or both of the heads pointing away from the tail. In samples prepared at high ionic strength only about 10% of the molecules are flexed. There is a linear relationship between the fraction of flexed molecules and S20,w, with no significant bending or folding of the tail and no detectable change in the shape of the heads. This correlation suggests that the changes in ATPase activity and S20,w may be a result of the reorientation of the heads.
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PMID:A conformational transition in gizzard heavy meromyosin involving the head-tail junction, resulting in changes in sedimentation coefficient, ATPase activity, and orientation of heads. 293 50

Membrane fractions enriched in sarcoplasmic reticulum (SR) were isolated from the cardiac ventricles of 10-month-old, stroke-prone spontaneously hypertensive rats (SHRSP) which had been maintained for nine months on one of four experimental diets: low protein (LP) (19% protein), standard (STD) (24% protein), high protein (HP) (32% protein), or high methionine (1.9% methionine) (MET). ATPase activities, as well as ATP-dependent Ca2+ binding and Ca2+-uptake activities, of the isolated SR were determined to examine the influence of diet on myocardial Ca2+-pump activity. SR from all four groups exhibited similar Mg2+-ATPase activity. However, the (Ca2+ + Mg2+)-ATPase activity was significantly elevated in SR from rats on the MET diet while the activity in the other groups showed no significant differences. After 15 sec of incubation, Ca2+-uptake (presence of oxalate) in SR from the LP group was significantly less than Ca2+-uptake in SR from each of the three other diet groups. Ca2+ binding (absence of oxalate) in the SR from the LP group was also significantly less than that from each of the three other diet groups. Kinetic analysis of SR Ca2+-uptake over 60 sec revealed that the Bmax of the MET group was significantly higher than Bmax of the STD diet group. In addition, the Bmax of the LP group was significantly lower than Bmax of the HP and MET groups. There was no significant difference in affinity of the SR Ca2+-uptake system among the four diet groups. These results indicate that modification of dietary protein can influence myocardial SR Ca2+-pump function.
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PMID:ATP-dependent calcium uptake in myocardial sarcoplasmic reticulum from spontaneously hypertensive rats: effect of modification of dietary protein. 293 82

Unfertilized sea urchin eggs contain a Mg2+-ATPase which shares physical and enzymatic characteristics with dynein, the enzyme which powers ciliary and flagellar movement. To further investigate the homology of the egg ATPase and axonemal dynein, ATP-binding subunits in preparations of each of the enzymes were identified using a photoaffinity probe of ATP, 8-azido-ATP (8-N3ATP), and three high molecular weight (HMW) polypeptide components of the two enzymes were compared by one-dimensional peptide mapping. Two heavy chains (A and B) of both the flagellar and egg ATPases bound [alpha-32P]8-N3ATP. The labeling of the HMW bands was specifically inhibited by ATP or ADP. Both the cytoplasmic ATPase and flagellar dynein utilized 8-N3ATP as a substrate indicating that the reagent binds to the active site. The two HMW ATP-binding polypeptides and one other HMW component of the egg ATPase were compared to flagellar dynein heavy chains by peptide mapping. Digestion of the egg versus flagellar HMW polypeptides with Staphylococcus V8 protease or alpha-chymotrypsin produced a highly similar group of peptides, and each pair of heavy chains was qualitatively estimated to be over 85% homologous. These data support the identification of the egg ATPase heavy chains as components of a cytoplasmic dynein and suggest that the HMW polypeptides form active enzymatic sites in flagellar and egg dynein which are substantially homologous.
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PMID:Homology of egg and flagellar dynein. Comparison of ATP-binding sites and primary structure. 293 92

Increasing the levels of Mg2+ concentrations outside the sarcoplasmic reticulum (SR) vesicles larger than the ATP concentrations results in a decrease of the Ca2+/Mg2+-ATPase affinity to Ca2+. When SR vesicles are loaded with varying concentrations of magnesium in the inside and the same concentration on the outside, the initial rate of calcium transport into the SR is increased by up to 50% with K0.5 (Mg2+) = 0.127 mM. During active calcium transport, we found no evidence of a magnesium influx. However, the data indicate that magnesium is extruded from SR vesicles during calcium uptake, but the magnitude of magnesium efflux is too small (8%) to account for the cation counter transport of calcium.
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PMID:Trans-magnesium dependency of ATP-dependent calcium uptake into sarcoplasmic reticulum of skeletal muscle. 293 89

The ATP-dependent uptake of Ca2+ by rat liver microsomal fraction is dependent upon Mg2+. Studies of the Mg2+ requirement of the underlying microsomal Ca2+-ATPase have been hampered by the presence of a large basal Mg2+-ATPase activity. We have examined the effect of various Mg2+ concentrations on Mg2+-ATPase activity, Ca2+ uptake, Ca2+-ATPase activity and microsomal phosphoprotein formation. Both Mg2+-ATPase activity and Ca2+ uptake were markedly stimulated by increasing Mg2+ concentration. However, the Ca2+-ATPase activity, measured concomitantly with Ca2+ uptake, was apparently unaffected by changes in the Mg2+ concentration. In order to examine the apparent paradox of Mg2+ stimulation of Ca2+ uptake but not of Ca2+-ATPase activity, we examined the formation of the Ca2+-ATPase phosphoenzyme intermediate and formation of a Mg2+-dependent phosphoprotein, which we have proposed to be an attribute of the Mg2+-ATPase activity. We found that Ca2+ apparently inhibited formation of the Mg2+-dependent phosphoprotein both in the absence and presence of exogenous Mg2+. This suggests that Ca2+ may inhibit (at least partially) the Mg2+-ATPase activity. However, inclusion of the Ca2+ inhibition of Mg2+-ATPase activity in the calculation of Ca2+-ATPase activity reveals that this effect is insufficient to totally account for the stimulation of Ca2+ uptake by Mg2+. This suggests that Mg2+, in addition to stimulation of Ca2+-ATPase activity, may have a direct stimulatory effect on Ca2+ uptake in an as yet undefined fashion. In an effort to further examine the effect of Mg2+ on the microsomal Ca2+ transport system of rat liver, the interaction of this system with Sr2+ was examined. Sr2+ was sequestered into an A23187-releasable space in an ATP-dependent manner by rat liver microsomal fraction. The uptake of Sr2+ was similar to that of Ca2+ in terms of both rate and extent. A Sr2+-dependent ATPase activity was associated with the Sr2+ uptake. Sr2+ promoted formation of a phosphoprotein which was hydroxylamine-labile and base-labile. This phosphoprotein was indistinguishable from the Ca2+-dependent ATPase phosphoenzyme intermediate. Sr2+ uptake was markedly stimulated by exogenous Mg2+, but the Sr2+-dependent ATPase activity was unaffected by increasing Mg2+ concentrations. Sr2+ uptake and Sr2+-dependent ATPase activity were concomitantly inhibited by sodium vanadate. In contrast to Ca2+, Sr2+ had no effect on Mg2+-dependent phosphoprotein formation. Taken together, these data indicate that Mg2+ stimulated Ca2+ and Sr2+ transport by increasing the Ca2+ (Sr2+)/ATP ratio.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:The effect of Mg2+ on hepatic microsomal Ca2+ and Sr2+ transport. 293 94

The method of dynamic capacity in the model organic phase-water system was used to investigate a possibility of studying the electrical function of Ca2+,Mg2+-ATPase from sarcoplasmic reticulum of the rabbit hind limb skeletal muscles. Decane and decane solution of azolectin were used as an organic phase. It is stated that in the model systems the sarcoplasmic reticulum Ca2+,Mg2+-ATPase did not cause ATP-dependent changes in the boundary Volta potential (delta phi) irrespective of the presence of polyvalent cation chelates in the organic phase. The fragmented sarcoplasmic reticulum is able of realizing Mg-ATP, Ca2+-dependent generation of delta phi only with phospholipids present in the organic phase. It is supposed that generation of delta phi of the fragmented sarcoplasmic reticulum is due to the active transport of calcium ions by the reticulum Ca2+,Mg2+-ATPase.
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PMID:[The use of a model water-lipid system for the study of the electric function of Ca2+, Mg2+-ATPase of the sarcoplasmic reticulum]. 293 82

Acanthamoeba myosin II contains two heavy chains of Mr 185,000 and two pairs of light chains of Mr 17,500 and 17,000. We now report the purification of a globular proteolytic 103-kDa subfragment of myosin II which contained a 68-kDa NH2-terminal segment of the heavy chain and one pair of intact light chains. The myosin II head fragment expressed full Ca2+-ATPase activity but its actin-activated Mg2+-ATPase activity had a Vmax of only 0.07 s-1 compared to 1.9 s-1 (per head) for filaments of native unphosphorylated myosin II. The head fragment had a similar KATPase to that of filaments (5 versus 4 microM) and about 75% of the head fraction could bind to F-actin in the presence of ATP with a Kbinding of 5.6 microM. The Kbinding of the head fragment may be similar to that of individual heads in the native myosin II filaments although the experimentally determined apparent Kbinding for filaments is much lower, 0.3 microM. The head fragment was covalently cross-linked to F-actin in the absence of nucleotide using the zero length cross-linker 1-ethyl-3-[3-(dimethylamino)propyl]carbodiimide. The cross-linked actin-myosin head complex hydrolyzed MgATP at a rate equivalent to Vmax for the active dephosphorylated native myosin II. These data indicate that the isolated head fragment had intact catalytic and actin-binding domains but that it bound to F-actin in the presence of ATP in a relatively inactive conformation. When covalently cross-linked to F-actin the head fragment was apparently locked into a catalytically fully active conformation.
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PMID:The purification and characterization of a globular subfragment of Acanthamoeba myosin II that is fully active when cross-linked to F-actin. 293 36

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