KEGG:D03291 - FACTA Search

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Query: KEGG:D03291 (CaCl2)
6,342 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A proteolytic enzyme, which causes the limited degradation of cardiac myosin, was purified from rat heart myofibrils. The purified enzyme (a myosin-cleaving protease) was apparently homogeneous by polyacrylamide gel electrophoresis in the presence and absence of sodium dodecyl sulfate. Autolysis of the purified enzyme was observed at neutral pH without high concentration of CaCl2. The molecular weight was estimated to be 26 000-27 000. The enzyme was active against casein, N-acetyl-L-tyrosine ethyl ester and N-glutaryl-L-phenylalanine-4-nitroanilide (Glu-Phe-NAn), but less active with N-benzoyl-DL-arginine-4-nitroanilide. Optimum pH values for the enzyme were 9.0 for casein and 8.4 for Glu-Phe-NAn. Caseinolytic activity of the enzyme was completely inhibited with phenylmethylsulfonyl fluoride and diisopropylphosphofluoride and partially inhibited with L-1-tosyl-L-phenylalanine chloromethyl ketone (Tos-PheCH2Cl) and soybean trypsin inhibitor. Tos-LysCH2Cl had no effect. Sulfhydryl reagents, metal-chelating agents and metal ions except for Zn2+ had little or no effect on the activity. Degradation of cardiac myosin with the enzyme produced two fragments having molecular weights of 130 000 and 94 000, accompanied by the disappearance of myosin heavy chain and light chain 2. Myosin degradation with the enzyme was more restrictive than with chymotrypsin.
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PMID:Purification and characterization of a myosin-cleaving protease from rat heart myofibrils. 2 66

Rabbit cardiac myosin, isolated from frozen tissue, was effectively purified by batchwise treatment with DEAE-cellulose in addition to suing cilution-precipitation techniques. An extensive experimental program was subsequently carried out with respect to the enzymic amino acid, optical and physicochemical properties of native cardiac myosin. This program has included the following: examination of the effects of pH and varying concentrations of ATP, CaCl2, MgCl2, and PCMB on its ATPase activity; measurement of its circular dichroic spectrum in solvent buffers, at different pH or containing ATP in the absence or presence of Ca-2+ or Mg-2+ ions; study of the concentration dependence of its viscosity and sedimentation velocity at low temperatures; and investigation of its molecular weight by the Archibald method and low- and high-speed sedimentation equilibrium. The results of these studies were consistent with the interpretation that cardiac myosin is comprised of highly asymmetric, semi-rigid molecules with a molecular weight in the order of 4.7 times 10-5, which display non-ideality even in solvent buffers of high ionic strength at neurtal pH. In addition, computer analysis of the high-speed sedimentation equilibrium data has provided evidence for the presence of a self-association reaction at low protein concentration. Even though the specif ATPase activity of cardiac myosin was found to be approximately one-third that reported for skeletal myosin in all cases, it was concluded, on the the basis of the essentially analogous physical and chemical properties of rabbit cardiac and skeletal myosin, that the two proteins are very similar in terms of molecular size, shape, and secondary structure.
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PMID:Rabbit cardiac myosin. I. Physical and chemical characterization of the native molecule. 12 22

Actin, myosin, and a high molecular weight actin-binding protein were extracted from rabbit alveolar macrophages with low ionic strength sucrose solutions containing ATP, EDTA, and dithiothreitol, pH 7.0. Addition of KCl, 75 to 100 mM, to sucrose extracts of macrophages stirred at 25 degrees caused actin to polymerize and bind to a protein of high molecualr weight. The complex precipitated and sedimented at low centrifugal forces. Macrophage actin was dissociated from the binding protein with 0.6 M KCl, and purified by repetitive depolymerization and polymerization. Purified macrophage actin migrated as a polypeptide of molecular weight 45,000 on polyacrylamide gels with dodecyl sulfate, formed extended filaments in 0.1 M KCl, bound rabbit skeletal muscle myosin in the absence of Mg-2+ATP and activated its Mg-2+ATPase activity. Macrophage myosin was bound to actin remaining in the macrophage extracts after removal of the actin precipitated with the high molecular weight protein by KCl. The myosin-actin complex and other proteins were collected by ultracentrifugation. Macrophage myosin was purified from this complex or from a 20 to 50% saturated ammonium sulfate fraction of macrophage extracts by gel filtration on agarose columns in 0.6 M Kl and 0.6 M Kl solutions. Purified macrophage myosin had high specific K-+- and EDTA- and K-+- and Ca-2+ATPase activities and low specific Mg-2+ATPase activity. It had subunits of 200,000, 20,000, and 15,000 molecular weight, and formed bipolar filaments in 0.1 M KCl, both in the presence and absence of divalent cations. The high molecular weight protein that precipitated with actin in the sucrose extracts of macrophages was purified by gel filtration in 0.6 M Kl-0.6 M KCl solutions. It was designated a macrophage actin-binding protein, because of its association with actin at physiological pH and ionic strength. On polyacrylamide gels in dodecyl sulfate, the purified high molecular weight protein contained one band which co-migrated with the lighter polypeptide (molecular weight 220,000) of the doublet comprising purified rabbit erythrocyte spectrin. The macrophage protein, like rabbit erythrocyte spectrin, was soluble in 2 mM EDTA and 80% ethanol as well as in 0.6 M KCl solutions, and precipitated in 2 mM CaCl2 or 0.075 to 0.1 M KCl solutions. The macrophage actin-binding protein and rabbit erythrocyte spectrin eluted from agarose columns with a KAV of 0.24 and in the excluded volumes. The protein did not form filaments in 0.1 M KCl and had no detectable ATPase activity under the conditions tested.
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PMID:Isolation and properties of actin, myosin, and a new actinbinding protein in rabbit alveolar macrophages. 12 34

Heart myosin ATPase (measured with 10 mM CaCl2, and 0.60 M KCl) was found to be higher in rats (423 nmoles of Pi/min/mg) than in guinea-pig (268 nmoles of Pi/min/mg), dogs (139 nmoles of Pi/min/mg) or rabbits (94 nmoles of Pi/min/mg). Rat heart myosin ATPase was found to be higher than that from a pure red skeletal muscle myosin (soleus from guinea-pig: 286 nmoles/min/mg) and only one third lower than that from fast skeletal muscle myosin from rabbits. The heart myosin ATPase from rat, guinea-pig, and rabbit correlates with the maximum velocity of shortening at zero load of the myocardial muscle, as determined by other authors. These four cardiac muscle myosins have the same two light subunits (M.W.: 27000 and 18000) in SDS polyacrylamide gel electrophoresis; one of them (M.W.: 18000) exists in guinea-pig and dog as two different molecules having a different charge, as shown in urea electrophoresis, but in the rat, this subunit is also unique in urea gel electrophoresis. Rat heart, apparently, does not possess the phosphorylated light subunit (M.W.: 18,000) described by others in rabbit heart myosin. Attempts have been made to obtain a highly purified myosin, but this procedure does not suppress the striking difference which exists between rat and dog heart myosin ATPase.
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PMID:A comparative study of heart myosin ATPase and light subunits from different species. 12 4

"Substrate inhibition", which has been described earlier for myosin Ca-ATPase in low ionic strength KCl solution [1], is found to take place also at high KCl concentration and under partial modification of enzyme thiol groups with p-CMB. "Substrate inhibition" disappeared when increasing Ca2+ concentration up to 25-40 mM. These kinetic properties are characteristic for fresh isolated enzyme and myosin preparations stored in 0.5 M KCl. They may change under storage of enzyme preparations at higher KCl concentrations: no "substrate inhibition" is observed after 6-8-day storage of myosin preparations in 3 M KCl at the presence of 4-5 mM CaCl2. The data on optical rotation dispersion and analytical ultracentrifugation have shown that the storage of myosin in 3 M KCl is accompanied by structural changes of the protein.
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PMID:[Effect of storage conditions on the kinetic properties of myosin ATPase]. 13 84

Myosin was extracted from frozen squid brain and purified by a modification of the procedure of Pollard et al. (Pollard, T.D., Thomas, S.M., and Niederman, R. (1974) Anal. Biochem. 60, 258-266). Myosin was eluted from Bio-Gel A-15m column as a single peak of (K+-EDTA)-activated ATPase ((K+-EDTA)-ATPase) activity with an average partition coefficient (Kav) of 0.22. In sodium dodecyl sulfate-acrylamide gel electrophoresis, the purified myosin showed a predominant band with similar electrophoretic mobility as the heavy chain of rabbit skeletal muscle myosin, and two less intense bands near the bottom of the gel. No actin band was seen. The properties of the (K+-EDTA)-ATPase activity were: (a) the time course of the reaction was biphasic at 25 degrees but linear at 32 degrees; (b) the optimum rate of reaction was obtained between 0.3 and 0.8 M KCl; (c) the pH optimum was between 8.0 and 9.0; (d) the reaction was specific for ATP with an apparent Km of 0.19 mM. ATPase activity in 0.06 M KCl and 5 mM MgCl2 was increased about 1.5 times by a 10-fold excess of rabbit skeletal muscle F-actin and about 5 times by a 40-fold excess. The actin activation was inhibited slightly by the addition of 0.2 mM CaCl2 and completely by the addition of 10 mM CaCl2. Myosin formed arrowhead patterns with rabbit skeletal muscle F-actin as observed by electron microscopy of negatively stained samples. It also aggregated in bipolar filaments which attached to decorated actin filaments at different angles, as well as formed cross-connections and ladder-like patterns between actin filaments. These two forms of interactions between myosin and actin were abolished by treatment with MgATP.
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PMID:Purification and characterization of squid brain myosin. 13 40

Calcium regulation of actomyosin activity in the nematode, Caenorhabditis elegans, has been studied with purified proteins and crude thin filaments. Actin and tropomyosin have been purified from C. elegans and shown to be similar in most respects to actin and tropomyosin from rabbit skeletal muscle. The actin comigrates with rabbit actin on polyacrylamide-sodium dodecyl sulfate gel electrophoresis, forms similar filaments and paracrystals, and activates the Mg2+-ATPase of rabbit myosin heads as efficiently as rabbit actin. Nematode tropomyosin has a greater apparent molecular weight (estimated by mobility on polyacrylamide-sodium dodecyl sulfate gels) than the rabbit protein, yet it forms Mg2+-paracrystals with a slightly shorter periodicity. Native thin filaments extracted from nematodes activate rabbit myosin subfragment 1 Mg2+-ATPase in a calcium sensitive manner; the extent of activation is threefold greater in 0.2 mM CaCl2 than in the absence of calcium. This observation suggests that the thin filaments contain components which are functionally equivalent to vertebrate troponins. Calcium is also required for maximal activation of the Mg2+-ATPase of purified nematode myosin by pure rabbit F-actin. C. elegans therefore has both myosin and thin filament-linked calcium regulatory systems. The origin of the actin, tropomyosin, and myosin from different tissues and the use of genetic analysis to answer questions about assembly and function in vivo are discussed.
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PMID:Actin and myosin-linked calcium regulation in the nematode Caenorhabditis elegans. Biochemical and structural properties of native filaments and purified proteins. 13 59

Actin is readily extracted from plasmodia of Physarum polycephalum by low ionic strength solutions which do not solubilize the plasmodial myosin. The actin in such extracts exists predominantly as a monomer which slowly denatures, apparently via removal of bound nucleotide, and is subsequently proteolyzed. However, the native monomeric actin can be induced to assemble into polymeric arrays under appropriate solvent conditions. Actin assembly is dependent on the addition of ATP and is a function of KCl and CaCl2 concentrations. These observations have allowed the development of an improved actin purification scheme which is simple, rapid, and efficient, yielding approximately 60 mg of protein from 100 g of plasmodium. The actin thus obtained is pure, stable, and comparable to that obtained by previously described procedlres. Furthermore, the observations suggest that actin polymers may be metastably assembled in vivo and raise the possibility that actin assembly, and plasmodial movements, could be regulated via alterations in intracellular concentrations of nucleotide and/or divalent cation.
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PMID:Physarum action. Observations on its presence, stability, and assembly in plasmodial extracts and development of an improved purification procedure. 14 58

Myosin was purified from the flight muscles of a flying (pigeon) and a nonflying (fowl) bird. Ki (ADP) of myosin ATPase of pigeon is higher, but the Km (ATP) is lower than that of fowl. The specific activity (mumole of Pi liberated/min/mg protein) is higher for the fowl. A0.5 (CaCl2) of myosin of both pigeon and fowl is similar. However, the two proteins differ in their interactions with ADP, ATP and p-chloromercuribenzoate. The two proteins have the same tyrosine, tryptophan and sulfhydryl contents. The electrophoretic patterns of the two myosins on SDS-polyacrylamide gels are different. These studies show significant molecular differences in the myosin derived from the flight muscles of a flying (pigeon) and a nonflying (fowl) bird.
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PMID:Comparative studies on myosin ATPase of a flying and nonflying bird. 15 58

The nucleoside triphosphatase [EC 3.6.1.15] activity of actomysin and that of myosin are measured by varying the concentration of nucleoside triphosphate and that of CaCl2 or MgGl2. The results thus obtained are examined by asking a question of which is responsbile for the activity, the true substrate and the active enzyme in terms of the reaction scheme shown in p. 719. The answers found for the above question are summarized in Table I (see p. 720). It is emphasized that the summmary (Table I) corresponds very well to the fact that myosin alone does not superprecipitate in the presence of either calcium or magnesium ions, whereas actomyosin does superprecipitate in the presence of magnesium ions and not in the presence of calcium ions. Obviously, the true substrate type of reaction scheme represents a kinetic property characteristic of the superprecipitation-coupled nucleoside-triphosphatase. It is also noted of the summary (Table I) that actin is capable of not only activating Mg-nucleoside-triphosphatase but also switiching the reaction scheme from the active enzyme type to the true substrate type. It is known that trinitrophenylation of myosin results in activation of the Mg-ATPase activity of myosin. However, it is now found that trinitrophenylation is not capable of switiching the reaction scheme, that is to say that the Mg-ATPase reaction of trinitrophenyl-myosin stays with the active enzyme type of reaction scheme and that of acto-trinitrophenyl-myosin with the true substrate type of reaction scheme. Effect of actin on the function of myosin seems, therefore, very unique.
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PMID:A new kinetic property characteristic of the actomyosin-nucleoside-triphosphatase. 17 88

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