EC:3.6.4.1 - FACTA Search

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Query: EC:3.6.4.1 (myosin ATPase)
1,140 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In our previous study (Onishi, H., Susuki, H., Nakamura, k., and Watanabe, S. J. Biochem. 83, 835-847, 1978), we found it to be characteristic of chicken gizzard myosin that thick filaments of gizzard myosin are readily disassembled by a stoichiometric amount of ATP (3 mol of ATP per mol of myosin), and that the ATPase activity of gizzard myosin in the ATP-disassembled state is much lower than that of gizzard myosin disassembled by a high concentration of KCl. We now report the following findings: (1) Thick filaments of (unphosphorylated) gizzard myosin can be in a bipolar structure or in a non-polar structure, depending on the method of preparing the thick filaments. (2) Thick filaments of (unphosphorylated) gizzard myosin in either the bioplar or the non-polar structure are readily disassembled by ATP. (3) Addition of rabbit skeletal C-protein does not confer ATP resistance on thick filaments of (unphosphorylated) gizzard myosin. (4) Unphosphorylated) gizzard myosin in the ATP-disassembled state is in a dimeric form as determined by ultracentrifugation. Moreover, 0.2 M KCl-dissociated gizzard myosin in monomeric form is converted to a dimeric form by ATP. (5) The Mg-ATPase activity of (unphosphorylated) gizzard myosin is much lower in its dimeric form (less than one-tenth) than in its monomeric form. The activity depression observed around 0.15 M KCl is therefore due to the formation of myosin dimers. (6) Skeletal L-meromyosin can increase the very low activity of (unphosphorylated) gizzard myosin ATPase at low ionic strength (0.13 M KCl) by forming ATP-resistant hybrid filaments with (unphosphorylated) gizzard myosin, preventing the formation of myosin dimers. (7) Gizzard myosin in which one of the light-chain components is phosphorylated by myosin light-chain kinase can form thick filaments which are resistant to the disassembling action of ATP. (8) Even in the presence of ATP, thick filaments of phosphorylated gizzard myosin do not disassembled into myosin dimers. Accordingly, the ATPase activity of phosphorylated gizzard myosin does not show activity depression at low ionic strength.
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PMID:Structure and function of chicken gizzard myosin. 15 5

A major question about the mechanism of the myosin ATPase is how much of the fluorescence change which accompanies the binding of ATP to myosin is due to the conformational change induced by ATP and how much is due to the subsequent hydrolysis of ATP in the initial Pi burst. Several laboratories have suggested that the maximal rate of the fluorescence change represents the rate of the irreversible conformational change induced by ATP. In the present study, the rate of irreversible ATP binding, the rate of the initial Pi burst, and the rate of the fluorescence enhancement were compared under varied conditions. The results show that: 1) the fluorescence enhancement is mainly due to the hydrolysis of ATP in the initial Pi burst rather than to the conformational change induced by the binding of ATP; 2) the rate of the initial Pi burst is considerably slower than the rate of irreversible ATP binding at high ATP concentration; 3) the rate of the initial Pi burst is almost the same as the rate of the fluorescence enhancement. Therefore, the maximum rate of the fluorescence enhancement represents the rate of the initial Pi burst rather than the rate of the conformational change induced by ATP binding.
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PMID:The mechanism of the skeletal muscle myosin ATPase. II. Relationship between the fluorescence enhancement induced by ATP and the initial Pi burst. 15 65

Inhibition of the myosin ATPase by vanadate ion (Vi) has been studied in 90 mM NaCl/5 mM MgCl2/20 mM Tris-HCl, pH 8.5, at 25 degrees C. Although the onset of inhibition during the assay is slow and dependent upon Vi concentration (kapp approximately 0.3 M-1 s-1), the final level of inhibition approaches 100%, provided the Vi concentration is in slight excess over the concentration of ATPase sites. Inhibition is not reversible by dialysis or the addition of reducing agents. The source of this irreversible inhibition consists of the formation of a stable, inactive complex with the composition M . ADP . Vi (where M represents a single myosin active site). The complex has been isolated, and its mechanism of formation from M, ADP, and Vi has been studied. Omission of ATP increases the rate of formation by about 35-fold (kapp approximately 11 M-1 s-1), yet this rate is still low in comparison with the rates of simple protein-ligand association reactions. This slowness is interpreted in terms of a rate-limited isomerization step that follows the association of M+, ADP, and Vi: M+ . ADP . Vi leads to M+. ADP . Vi (+ indicates the inactive product of the isomerization). The properties of M.ADP.Vi are compared with those of the ATPase intermediate M**.ADP . Pi, and the possible role of Vi as an analog of Pi is discussed.
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PMID:Inhibition of myosin ATPase by vanadate ion. 15 22

A plasma-membrane fraction was isolated from a post-nuclear extract of human neutrophils by centrifugation through a linear sucrose density gradient. This fraction exhibited a Ca2+-dependent adenosine triphosphatase (ATPase) activity that could be differentiated from mitochondrial or myosin ATPase and from plasma-membrane Mg2+-dependent ATPase. When assayed in the presence of [gamma-32P]ATP, the Ca2+-dependent ATPase reaction resulted in the formation of an acid-resistant hydroxylamine-sensitive bond between the gamma-[32P] phosphate group and a membrane protein subunit with an apparent mol.wt. of 135000. Half-maximal activating effect of Ca2+ was found at 82nM and 0.18 microM for the ATPase and the formation of the 32P-membrane complex respectively. Generation of the phosphorylated product attained the steady state at 0 degrees C by about 30s, and was rapidly reversed by ADP. These results suggest that the Ca2+-activated ATPase reaction occurs through the formation of a phosphoprotein intermediate, similar to that described for some Ca2+-dependent ATPase enzymes associated with Ca2+ transport. The possibility thus exists that the neutrophil Ca2+-dependent ATPase catalyses a process of Ca2+ extrusion from the cell, thereby participating in the regulation of several Ca2+-dependent neutrophil functions.
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PMID:Calcium ion-dependent adenosine triphosphatase activity and plasma-membrane phosphorylation in the human neutrophil. 16 Feb 22

This review summarizes the results obtained by biochemical and physiological studies on the functional implications of the two-headed structure of the myosin molecule. Our nonidentical two-head hypothesis of myosin is supported by biochemical studies on myosin ATPase. The reaction mechanism of the Mg2+-ATPase reaction catalyzed by one head of the myosin molecule is shown to be different from that catalyzed by the other head, and the reaction intermediate, MPADP, is produced in head B but not in head A. Evidence for differences in the chemical structures of the two heads of myosin is also presented. The myosin preparation is shown to be a mixture of homodimers with respect to its g-chain composition, but every homodimer has the non-identical two heads, B and A. Furthermore, the molecular mechanism for acceleration of the Mg2+-ATPase reaction by F-actin and that for its control by Ca2+ ions and Mg2+-ATP are discussed, based on the nonidentical two-head hypothesis of the myosin molecule. It was shown that the formation and decomposition of the key intermediate, A(B)MPADP are required for tension development and shortening. One cycle of ATP hydrolysis by crossbridges synchronously initiated by a rapid stretch or a sudden release of a slow stretch, indicating that the probability of dissociation of a crossbridge by its interaction with ATP depends on its angular position. It is also demonstrated that rotation of the base of nucleoside triphosphate about the glycosyl bond is essential for formation of MPXDP from M2XTP, as well as for muscle contraction. Based on these biochemical and physiological studies on the movement of the myosin head in muscle contraction, a molecular mechanism for muscle contraction is proposed.
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PMID:Functional implications of the two-headed structure of myosin. 16 89

Fibre-type classification of human skeletal muscle into type I and type II fibres is mostly based on their slight or strong staining with the myosin adenosine triphosphatase reaction. In order to evaluate the reliability of this screening technique a combined histochemical and biochemical study was performed on normal and diseased skeletal muscle of human subjects. In the present investigation activities of enzymes which play a role in the aerobic and anaerobic pathways and which can characterize fibre type, were examined in muscle specimens, with no apparent disease of the neuromuscular system. Special attention is given to the maximal activities of phosphofructokinase and fructose-1,6-diphosphatase, the rate limiting enzymes for the regulation of the glycolysis and glyconeogenesis, respectively. A most important feature of the biochemical findings is the constancy of the activity ratios of the examined enzymes. From these results and from the histochemical results it can be concluded that in apparently normal adult human skeletal muscle the ATP-ase technique for type I and type II typing is reliable. For fibres with an intermediate intensity of staining with the myosin ATPase technique of typing it is also necessary to apply other enzyme histochemical techniques.
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PMID:The value of enzyme histochemical techniques in classifying fibre types of human skeletal muscle. 1. Adult skeletal muscles with no apparent disease of the neuromuscular system. 19 26

The conformations of the transitory intermediates of the myosin ATPase occurring during the hydrolytic cycle, enzyme without ligand, enzyme-substrate complex and two different forms of enzyme-product complex, have been characterized in terms of numbers and classes of reactive thiol groups based on incorporation of radioactively labeled alkylation reagent. The techniques employed allowed this to be done under steady-state conditions in the presence of high ligand concentrations on intact myosin from rabbit fast skeletal muscles at low ionic strength where the protein is in the gel state as it is in muscle. The binding of a divalent cation (Mg2+ or Ca2+) nucleotide complex exposes thiol-1 as well as thiol-2 groups. The long-lived ATPase intermediate occurring at temperatures above 10 degrees C adopts the same conformation with Mg2+ and Ca2+ ions. This intermediate does not protect the thiol-1 and thiol-2 groups but exposes a number of thiol-3 groups which seem to be located distant from the active site. The conformation of the intermediate prevailing in the presence of ATP changes with lowering temperature below 10 degrees C and is identical with that found in the presence of ADP at 0 degree C indicating a change in the rate-limiting step of the hydrolytic cycle. In the absence of divalent cations no such temperature-dependent change in conformation was observed. Evaluation of the activation entropies shows that the structure of the long-lived intermediate occurring above 10 degrees C in the presence of Mg2+ ions goes through a transformation from low to high order at around 20 degrees C. In the case of the monovalent-cation-stimulated ATPase a constant activation energy of around 70 kJ/mol, typical of many enzyme reactions, was found over the entire temperature range from 0--35 degrees C.
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PMID:Temperature-induced transitions in the conformation of intermediates in the hydrolytic cycle of myosin. 24 Jul 11

This paper summarizes the data concerning the role of the creatine phosphokinase system in muscle cells with main attention to the cardiac muscle. Creatine phosphokinase isoenzymes play a key role in the intracellular energy transport from mitochondria to myofibrils and other sites of energy utilization. Due to the existence of the creatine phosphate pathway for energy transport, intracellular creatine phosphate concentration is apparently an important regulatory factor for muscle contraction which influences the contractile force by determining the rate of regeneration of ATP directly available for myosin ATPase, and at the same time controls the activator calcium entry into the myoplasm across the surface membrane of the cells.
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PMID:Role of creatine phosphokinase in cellular function and metabolism. 36 Nov 88

1. Quadriceps strength, relaxation rate, fibre-type composition and energy-turnover rate during a submaximal contraction have been measured in hypo- and hyper-thyroid patients and compared with findings in normal subjects. 2. Six out of eight hypothyroid patients had normal strength whereas four out of five hyperthyroid patients were weak. 3. Relaxation rate was decreased in all the hypothyroid patients but increased in only three out of five hyperthyroid patients. 4. In hypothyroidism there was a marked reduction in the percentage contributed by type II fibres to muscle cross-section, partly due to type II atrophy but also due to a decrease in the relative frequency of type II fibres. In hyperthyroidism both fibre types tended to atrophy. 5. The rate of ATP turnover during submaximal contraction held to fatigue was reduced in hypothyroidism. This was probably due to decreased ATP utilization rather than an impaired supply of energy-supplying substrates. In hyperthyroidism the rate of ATP turnover was increased. 6. Altered relaxation rate and ATP-turnover rate may be explained on the basis of changes in myosin ATPase activity with thyroid status. Changes in muscle-fibre-type composition, as determined histochemically, could not per se account for the functional abnormalities.
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PMID:Muscle relaxation rate, fibre-type composition and energy turnover in hyper- and hypo-thyroid patients. 50 76

The reactive thiol Cys-697 (SH2) in myosin ATPase was labeled with a fluorescent analog of maleimide, 2-(4'-maleimidylanilino)naphthalene-6-sulfonic acid (MIANS) (Hiratsuka, T. (1992) J. Biol. Chem. 267, 14941-14948). Although the tryptophan fluorescence of myosin subfragment-1 (S-1) was slightly affected by incorporation of the MIANS fluorophore, the tryptophan fluorescence of the resultant S-1 derivative (MIANS-S-1) was enhanced by ATP in a manner similar to that of unlabeled S-1. The quenching of tryptophan fluorescence of MIANS-S-1 was shown to result from a transfer of the excitation energy from tryptophanyl residue(s) to the MIANS fluorophore attached to SH2, which absorbed and fluoresced maximally at 325 and 418 nm, respectively. The energy transfer measurements were performed in the presence of acrylamide and compared to those performed in the absence of the quencher. The energy transfer efficiencies were found to be unaltered by acrylamide, indicating that the observed fluorescence energy transfer is originated exclusively from the tryptophanyl residue(s) that are not affected by acrylamide, i.e. the ATP-sensitive tryptophanyl residue(s) of S-1 (Torgerson, P. M. (1984) Biochemistry 23, 3002-3007). The distance between the tryptophanyl residue(s) and Cys-697 was calculated to be 27 A assuming a single donor-acceptor pair. Trp-510 is proposed to be one of the ATP-sensitive tryptophanyl residues.
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PMID:Spatial proximity of ATP-sensitive tryptophanyl residue(s) and Cys-697 in myosin ATPase. 138 83

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