Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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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)

Human skin fibroblasts, grown to confluency in the presence of 32P for random labelling of the phospholipids, showed upon 24 h incubation in the presence of either 8 mM L-serine or 4 mM ethanolamine an increased content of phosphatidylserine (150% of control cells) or phosphatidylethanolamine (116% of control cells), respectively. Concomitantly the phosphatidylcholine correspondingly decreased. Upon cell harvesting and gentle enzyme preparation the base-treated cells demonstrated a significantly higher unstimulated, fluoride- and thyrotropin-stimulated activity of adenylate cyclase. The activities of total ATPase, ouabain-sensitive ATPase, 5'-nucleotidase and gamma-glutamyltransferase remained unaltered. When subjecting enzyme preparations from fibroblasts to ultrasonication the activity of adenylate cyclase decreased progressively with energy applied, whereas the activities of the other enzymes were unaltered ((K+ + Na+)-ATPase, 5'-nucleotidase) or even increased (Mg2+-ATPase, gamma-glutamyltransferase). The results have a bearing upon the regulatory function of the phospholipid microenvironment of membrane-bound enzymes.
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PMID:The influence of changes in the phospholipid pattern of intact fibroblasts on the activities of four membrane-bound enzymes. 1 85

The actin-activated Mg2+-ATPase of myosin II from Acanthamoeba castellanii is regulated by phosphorylation of 3 serine residues at the tip of the tail of each of its two heavy chains; only dephosphorylated myosin II is active, whereas the phosphorylated and dephosphorylated forms have identical Ca2+-ATPase activities and Mg2+-ATPase activities in the absence of F-actin. We have now chemically modified phosphorylated and dephosphorylated myosin II with N-ethylmaleimide (NEM). The modification occurred principally at a single site within the NH2-terminal 73,000 Da of the globular head of the heavy chain. NEM-myosin II bound to F-actin and formed filaments normally, but the Ca2+- and Mg2+-ATPase activities of phosphorylated and dephosphorylated myosin II and the actin-activated Mg2+-ATPase activity of NEM-dephosphorylated myosin II were inhibited. Only filamentous myosin II has actin-activated Mg2+-ATPase activity. Native phosphorylated myosin II acquired actin-activated Mg2+-ATPase activity when it was co-polymerized with NEM-inactivated dephosphorylated myosin II, and the increase in its activity was cooperatively dependent on the fraction of NEM-dephosphorylated myosin II in the filaments. From this result, we conclude that the specific activity of each molecule within a filament is independent of its own state of phosphorylation, but is highly cooperatively dependent upon the state of phosphorylation of the filament as a whole. This enables the actin-activated Mg2+-ATPase activity of myosin II filaments to respond rapidly and extensively to small changes in the level of their phosphorylation.
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PMID:Cooperative dependence of the actin-activated Mg2+-ATPase activity of Acanthamoeba myosin II on the extent of filament phosphorylation. 252 58

It has been shown that the ATP-dependent incorporation of [14C]serine into phosphatidylserine in rat liver mitochondrial and microsomal fractions is prevented by EGTA. On the other hand, at low (microM) Ca2+ concentrations, serine incorporation is strongly stimulated by ATP and Mg2+. This stimulatory effect is reduced by calcium ionophore A23187. It is therefore suggested that the ATP-dependent process is that of serine base-exchange reaction, stimulated by endogenous Ca2+ accumulated inside the microsomal vesicles by Ca2+,Mg2+-ATPase. The mitochondrial activity can be accounted for by contamination by the endoplasmic reticulum.
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PMID:Mechanism of the ATP-dependent phosphatidylserine synthesis in liver subcellular fractions. 253 Jan 9

The fluorescent reagent 9-anthroylnitrile (ANN) reacted preferentially with serine among various amino acids tested. When the myosin subfragment-1 (S-1) was incubated with ANN, the 9-anthroyl (AN) group was covalently incorporated into the S-1 heavy chain. The incorporation of the AN group was enhanced by the presence of ATP and ADP. In the presence of ATP, 0.98 mol of the AN group was maximally incorporated into S-1. The resulting S-1 derivative exhibited four absorption maxima in the range of 300-400 nm and fluoresced strongly with an emission maximum at 462 nm upon excitation at 390 nm. The spectral properties were similar to those of the AN-derivatives of serine and polyserine. When 0.98 mol of the AN group was incorporated into S-1, the K+- and Ca2+-ATPase activities decreased to 30%, while the Mg2+-ATPase activity increased to 220% of the original value. Tryptic digestion of the labeled S-1 revealed that the AN group was attached only to the NH2-terminal 23-kDa tryptic peptide of the S-1 heavy chain. Neither the 20-nor the 50-kDa peptide was labeled with ANN. The results suggest that a serine residue, which becomes more reactive in the presence of the nucleotide, is located in the 23-kDa tryptic peptide of S-1.
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PMID:Nucleotide-induced specific fluorescent labeling of the 23-kDa NH2-terminal tryptic peptide of myosin ATPase by the serine-reactive reagent 9-anthroylnitrile. 253 Feb 21

The 20,000-dalton light chain of bovine platelet myosin is phosphorylated at two sites by myosin light chain kinase. The first and second phosphorylation sites are at a serine and a threonine residue, respectively. The location of the phosphorylation sites was determined by using limited proteolysis. The N-terminal sequence of the 17,000-dalton tryptic fragment of platelet myosin 20,000-dalton light chain was found to be identical with that of gizzard 20,000-dalton light chain from Ala-17 to Phe-33. On the basis of these results and the distribution of 32P among the proteolytic fragments, it was concluded that serine-19 and threonine-18 were the two phosphorylation sites. Phosphorylation at the threonine residue markedly increases the actin-activated ATPase activity of myosin. It was found that platelet myosin forms 10S and 6S conformations and its Mg2+-ATPase activity parallels the transition from the 6S to the 10S conformation. The conformational transition was influenced by phosphorylation at both sites, and the phosphorylation at the threonine residue further shifted the equilibrium toward the 6S conformation. The phosphorylation at the threonine residue also induced thick filament formation in the presence of ATP. These results suggest that the phosphorylation at the threonine residue as well as at the serine residue may play an important role in the contractility of nonmuscle cells.
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PMID:Phosphorylation of a second site for myosin light chain kinase on platelet myosin. 253 45

Previous studies had led to the conclusion that the globular, single-headed myosins IA and IB from Acanthamoeba castellanii contain two actin-binding sites: one associated with the catalytic site and whose binding to F-actin activates the Mg2+-ATPase activity and a second site whose binding results in the cross-linking of actin filaments and makes the actin-activated ATPase activity positively cooperative with respect to myosin I concentration. We have now prepared a 100,000-Da NH2-terminal peptide and a 30,000-Da COOH-terminal peptide by alpha-chymotryptic digestion of the myosin IA heavy chain. The intact 17,000-Da light chain remained associated with the 100,000-Da fragment, which also contained the serine residue that must be phosphorylated for expression of actin-activated ATPase activity by native myosin IA. The 30,000-Da peptide, which contained 34% glycine and 21% proline, bound to F-actin with a KD less than 0.5 microM in the presence or absence of ATP but had no ATPase activity. The 100,000-Da peptide bound to F-actin with KD = 0.4-0.8 microM in the presence of 2 mM MgATP and KD less than 0.01 microM in the absence of MgATP. In contrast to native myosin IA, neither peptide cross-linked actin filaments. The phosphorylated 100,000-Da peptide had actin-activated ATPase activity with the same Vmax as that of native phosphorylated myosin IA but this activity displayed simple, noncooperative hyperbolic dependence on the actin concentration in contrast to the complex cooperative kinetics observed with native myosin IA. These results provide direct experimental evidence for the presence of two actin-binding sites on myosin IA, as was suggested by enzyme kinetic and filament cross-linking data, and also for the previously proposed mechanism by which monomeric myosins I could support contractile activities.
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PMID:ATPase activities and actin-binding properties of subfragments of Acanthamoeba myosin IA. 294 92

Acanthamoeba myosin IA is a globular protein composed of a 140-kDa heavy chain and a 17-kDa light chain. It expresses high actin-activated Mg2+-ATPase activity when one serine on the heavy chain is phosphorylated. We previously showed that chymotrypsin cleaves the heavy chain into a COOH-terminal 27-kDa peptide that can bind to F-actin but has no ATPase activity and a complex containing the NH2-terminal 112-kDa peptide and the light chain. The complex also binds F-actin and has full actin-activated Mg2+-ATPase activity when the regulatory site is phosphorylated. We have now localized the ATP binding site to within 27 kDa of the NH2 terminus and the regulatory phosphorylatable serine to a 20-kDa region between 38 and 58 kDa of the NH2 terminus. Under controlled conditions, trypsin cleaves the heavy chain at two sites, 38 and 112 kDa from the NH2 terminus, producing a COOH-terminal 27-kDa peptide similar to that produced by chymotrypsin and a complex consisting of an NH2-terminal kDa peptide, a central 74-kDa peptide, and the light chain. This complex is similar to the chymotryptic complex but for the cleavage which separates the 38- and 74-kDa peptides. The tryptic complex has full (K+, EDTA)-ATPase activity (the catalytic site is functional) and normal ATP-sensitive actin-binding properties. However, the actin-activated Mg2+-ATPase activity and the F-actin-binding characteristics of the tryptic complex are no longer sensitive to phosphorylation of the regulatory serine. Therefore, cleavage between the phosphorylation site and the ATP-binding site inhibits the effects of phosphorylation on actin binding and actin-activated Mg2+-ATPase activity without abolishing the interactions between the ATP- and actin-binding sites.
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PMID:Limited tryptic digestion of Acanthamoeba myosin IA abolishes regulation of actin-activated ATPase activity by heavy chain phosphorylation. 295 54

Fodrin, a non-erythrocyte spectrin-like protein, has been purified from bovine brain and found to be phosphorylated by the cyclic AMP-dependent protein kinase with a maximal stoichiometry of 1.02 +/- 0.06 mol of phosphate/mol of fodrin dimer (n = 4). This phosphorylation was not affected by the presence of actin and calmodulin. The phosphorylation of fodrin was found to occur exclusively at serine residues on the beta subunit. Two-dimensional thin layer electrophoresis and chromatography of a tryptic digest of phosphorylated fodrin showed one major phosphopeptide and a few minor ones. We have previously reported that nonphosphorylated fodrin is capable of stimulating the smooth muscle actomyosin Mg2+-ATPase by 50-70% under a well-defined set of conditions such as a critical fodrin concentration and an optimal preincubation time (Wang, C., Ngai, P.K., Walsh, M.P., and Wang, J.H. (1987) Biochemistry 24, 1110-1117). We now report that phosphorylation of fodrin completely eliminates this stimulatory effect. However, phosphorylation of fodrin was able to compete with nonphosphorylated fodrin to result in the abolition of the stimulatory effect. Similarly, nonphosphorylated fodrin could overcome the inhibitory effect created by phosphorylated fodrin. The present results support the suggestion that the stimulation of the smooth muscle actomyosin Mg2+-ATPase by fodrin may be a physiological phenomenon and cyclic AMP may serve as a regulator for this effect.
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PMID:Effect of phosphorylation by cyclic AMP-dependent protein kinase on the smooth muscle actomyosin Mg2+-ATPase stimulatory activity of fodrin. 295 61

Acanthamoeba myosin IB contains a 125-kDa heavy chain that has high actin-activated Mg2+-ATPase activity when 1 serine residue is phosphorylated. The heavy chain contains two F-actin-binding sites, one associated with the catalytic site and a second which allows myosin IB to cross-link actin filaments but has no direct effect on catalytic activity. Tryptic digestion of the heavy chain initially produces an NH2-terminal 62-kDa peptide that contains the ATP-binding site and the regulatory phosphorylation site, and a COOH-terminal 68-kDa peptide. F-actin, in the absence of ATP, protects this site and tryptic cleavage then produces an NH2-terminal 80-kDa peptide. Both the 62- and the 80-kDa peptides retain the (NH+4,EDTA)-ATPase activity of native myosin IB and both bind to F-actin in an ATP-sensitive manner. However, only the 80-kDa peptide retains a major portion of the actin-activated Mg2+-ATPase activity. This activity requires phosphorylation of the 80-kDa peptide by myosin I heavy chain kinase but, in contrast to the activity of intact myosin IB, it has a simple, hyperbolic dependence on the concentration of F-actin. Also unlike myosin IB, the 80-kDa peptide cannot cross-link F-actin filaments indicating the presence of only a single actin-binding site. These results allow the assignment of the actin-binding site involved in catalytic activity to the region near, and possibly on both sides of, the tryptic cleavage site 62 kDa from the NH2 terminus, and the second actin-binding site to the COOH-terminal 45-kDa domain. Thus, the NH2-terminal 80 kDa of the myosin IB heavy chain is functionally similar to the 93-kDa subfragment 1 of muscle myosin and most likely has a similar organization of functional domains.
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PMID:Localization of the actin-binding sites of Acanthamoeba myosin IB and effect of limited proteolysis on its actin-activated Mg2+-ATPase activity. 296 46

Smooth muscle myosin can be phosphorylated by myosin light chain kinase at the serine 19 and threonine 18 residues of the two 20,000-dalton light chains (Ikebe, M., Hartshorne, D. J., and Elizinga, M. (1986) J. Biol. Chem. 261, 36-39). These studies with myosin and heavy meromyosin (HMM) compare the effects induced by phosphorylation of serine 19 (M2P and HMM2P) and serine 19 plus threonine 18 (M4P and HMM4P). Formation of M4P altered the KCl dependence of viscosity and Mg2+-ATPase and higher values were maintained at lower ionic strengths, compared to M2P or dephosphorylated myosin (Mo). This is consistent with the stabilization of the 6 S conformation. The tendency for aggregation, as judged by light scattering, followed the sequence M4P greater than M2P greater than Mo. Filaments formed with M4P were more resistant to dissociation by ATP compared to filaments of M2P. Phosphorylation of HMM2P doubled Vmax of actin-activated ATPase with little effect on the apparent affinity for actin. The Mg2+-ATPase of HMM4P exhibited a higher activity at low ionic strength compared to HMM2P and HMMo. Hydrodynamic differences were detected at low ionic strength in the presence of ATP by sedimentation velocity measurements with HMM4P, HMM2P, and HMMo. Proteolysis by papain indicated an increased susceptibility of the head-neck junction of HMM4P compared to HMM2P. These data suggest that the phosphorylation of threonine 18 in addition to serine 19 change the conformation of myosin and HMM and this is associated with altered biological properties.
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PMID:Effects of phosphorylation of light chain residues threonine 18 and serine 19 on the properties and conformation of smooth muscle myosin. 296 56


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