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)

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

1. Tropomyosin, one of the regulatory proteins in muscle contraction, was prepared from chickens, rabbits, frogs, shrimps, and shellfish, and conserved characteristics were studied using an enzymological technique. 2. All tropomyosins tested, irrespective of their sources, were found to have the ability to mediate the inhibitory activity of rabbit troponin toward rabbit Mg2+-activated actomyosin ATPase (Mg2+-ATPase) activity in the absence of Ca2+ ions. 3. The effect of tropomyosin on the Mg2+-ATPase activity in the presence of Ca2+ ions varied, depending on the source, and this variation appeared to reflect the evolutionary course of this protein. 4. Tropomyosin from shellfish adductor muscle had the ability to bind to rabbit skeletal muscle troponin and actin. This ability is also considered to be a basic characteristic of tropomyosin which has been conserved during evolution.
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PMID:The functional characteristics conserved in tropomyosins. 14 70

Actin and spectrin were isolated from washed red blood cell membranes. Spectrin bound and polymerized erythrocyte actin in the absence of potassium. Spectrin coated into polystyrene latex particles bound 8--9 mol of erythrocyte actin per mol of spectrin when actin was in its depolymerized state. Spectrin enhanced the interaction of erythrocyte actin with muscle myosin as manifested by changes in Mg2+-ATPase activity. A similar enhancement also was observed with muscle alpha-actinin while muscle tropomyosin abolished these effects. The data suggest that spectrin may play the role of polymerizing factor as well as the anchoring site for erythrocyte actin just as alpha-actinin is the anchoring site for actin filaments in muscle and other non-muscle cells.
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PMID:Erythrocyte actin and spectrin. Interactions with muscle contractile and regulatory proteins. 15 47

The degradation of rat cardiac myofibrils and their constituent proteins with a myosin-cleaving protease was studied. Electrophoretograms of the digestion products of myofibrils showed that myosin,M-protein, C-protein, and troponin were degraded, but actin and tropomyosin were not. Degradation of these constituents resulted in losses of the Mg2+-ATPase activity and its Ca2+-sensitivity of myofibrils. Incubation of myofibrils with the protease induced the release of alpha-actinin without degradation. Susceptibilities of myosin, actin, troponin, and alpha-actinin purified from rat and pig hearts to the protease were essentially identical to those of the assembled forms in myofibrils. Although the purified tropomyosin was readily degraded into five fragments with the protease, the tropomyosin assembled in myofibrils and actin-tropomyosin complex were insusceptible to the protease. Digestion of myosin in the filamentous state with the protease resulted in the disappearance of myosin heavy chain and light chain 2, producing two fragments having molecular weights of 130,000 and 94,000 which originated from the degradation of heavy chain. The Ca2+- and EDTA-ATPase activities of the degradation products remained unchanged during incubation for 22 h. The actin-activated ATPase activity of myosin was reduced by 30% during incubation for 6 h, and recovered to the original level on adding actin to give a ratio of actin to myosin of 2:1. The pH optima for degradation of myosin in the soluble and filamentous states were 8.5 and 7.0, respectively. The results indicate that cardiac myosin in the filamentous state was more readily degraded with the protease than the myosin in the soluble state.
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PMID:Degradation of rat cardiac myofibrils and myofibrillar proteins by a myosin-cleaving protease. 47 42

The reactive thiol of the myosin head, SH-1, can be selectively labelled in glycerinated rabbit muscle fibres. This residue has been used as an attachment site for either fluorescent or spectroscopic probes which report on head movements and orientations in various functional states of muscle. We have specifically modified SH-1 in vitro, using purified rabbit myosin and conditions similar to those employed in the labelling of muscle fibres (low ionic strength [40 mM NaCl] at 4 degrees C), with stoichiometric amounts of either [14C]-iodoacetamide, 5-(2[iodoacetyl)amino)ethyl) aminonaphthalene-1- sulphonic acid (IAEDANS), or 4-(2-iodoacetamido-2,2,6,6-tetramethyl piperidinooxyl (IASL). The specificity of modification was determined by measuring the well-defined alterations in the high salt ATPase activities of myosin and by localizing both IAAm and IAEDANS to the 20-kDa C-terminal subfragment 1 (S1) which contains SH-1. The low ionic strength actin-activated Mg2+-ATPase of SH-1-modified rabbit myosin was measured in the presence of the thin filament regulatory, complex, troponin-tropomyosin. A significant increase in this activity in the absence of calcium, concomitant with a decrease in activity in the presence of calcium, was observed as the extent of SH-1 modification was incrementally increased from zero to one mole of label bound per mole of SH-1. The elevated myosin Mg2+-ATPase, which results from SH-1 modification, does not account for the increased actin-activated Mg2+-ATPase in resting conditions (i.e. in the absence of calcium).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:SH-1 modification of rabbit myosin interferes with calcium regulation. 252 9

A 140-kDa polypeptide present in the striated muscle of Pecten maximus and Sepia officinalis was purified to homogeneity and its main properties were investigated using biochemical and cytochemical approaches. The protein was found to be similar to chicken gizzard caldesmon. It is a heat-stable protein. It cross-reacts immunologically with anti-(gizzard caldesmon) antibody, binds to calmodulin-Sepharose in a Ca2+-dependent manner, cosediments with F-actin filaments and acts in the absence and presence of tropomyosin as a potent inhibitor of rabbit skeletal actomyosin Mg2+-ATPase. The immunocytochemistry of ultrathin sections revealed, at the light microscopy resolution level, that caldesmon-like protein is present in all types of muscles hitherto examined from invertebrates and vertebrates. However, according to the distribution and the intensity of the fluorescent reaction, we concluded that, under our experimental conditions, caldesmon is not homogeneously distributed and not located in the myofibrillar bands of striated muscles but rather in the sarcoplasmic elements, at the periphery of the fibres.
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PMID:Isolation, characterization and immunocytochemical localization of caldesmon-like protein from molluscan striated muscle. 253 64

Actin modified at Lys-61 with fluorescein 5-isothiocyanate (FITC) recovers the ability to polymerize following the binding of phalloidin. The resulting polymer (FITC-P-actin) activates the S1-Mg2+-ATPase activity to the same extent as non-labeled F-actin. However, in the absence of phalloidin, FITC-actin (0.5 mg/ml) neither polymerized nor activated the S1-Mg2+-ATPase activity effectively even when it was preincubated with S1 for 3 h in 0.1 mM ATP, 0.1 mM CaCl2, and 1 mM Tris/HCl (pH 8.0), in contrast to the previous report [Miller, L., Phillips, M., & Reisler, E. (1988) Eur. J. Biochem. 174, 23-29]. The modification of Lys-61 did not impair the ability to bind tropomyosin or tropomyosin-troponin. On the other hand, the fluorescence polarization of FITC-P-actin increased when tropomyosin or troponin-tropomyosin was added. Moreover, the modification of Lys-61 affected the regulation of the actin activation of the S1-Mg2+-ATPase activity by the tropomyosin and troponin complex. In 30 mM KCl, 2.5 mM ATP, and 5 mM MgCl2, tropomyosin alone has been shown to inhibit the actin-activated S1-Mg2+-ATPase. This inhibition did not occur with FITC-P-actin even though tropomyosin was tightly bound. When troponin-tropomyosin was added, the FITC-P-actin activation of S1-Mg2+-ATPase activity was regulated in response to micromolar Ca2+ concentrations. On the other hand, in 30 mM KCl, 2.5 mM ATP, and 2 mM MgCl2, tropomyosin alone did not inhibit the actin-activated S1-Mg2+-ATPase activity with either non-labeled F-actin or FITC-actin.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Interaction of Lys-61 labeled actin with myosin subfragment-1 and the regulatory proteins. 253 48

Several techniques were used to investigate the possibility that smooth muscle tropomyosin interacts with smooth muscle myosin. These experiments were carried out in the absence of actin. The Mg2+-ATPase activity of myosin was activated by tropomyosin. This was most marked at low ionic strength but also occurred at higher ionic strength with monomeric myosin. For myosin and HMM, the activation of Mg2+-ATPase by tropomyosin was greater at low levels of phosphorylation. There was no detectable effect of tropomyosin on the Mg2+-ATPase activity of S1. The KCl dependence of myosin viscosity was influenced by tropomyosin, and in the presence of tropomyosin, the 6S to 10S transition occurred at lower KCl concentrations. From the viscosity change, an approximate stoichiometry of 1:1 tropomyosin to myosin was estimated. The phosphorylation dependence of viscosity, which reflects the 10S-6S transition, also was altered in the presence of tropomyosin. An interaction between myosin and tropomyosin was detected by fluorescence measurements using tropomyosin labeled with dansyl chloride. These results indicate that an interaction occurs between myosin and tropomyosin. In general, the interaction is favored at low ionic strength and at low levels of phosphorylation. This interaction is not expected to be competitive with the formation of the actin-tropomyosin complex, but the possibility is raised that a direct interaction between myosin and tropomyosin bound to the thin filament could modify contractile properties in smooth muscle.
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PMID:Interaction of smooth muscle tropomyosin and smooth muscle myosin. Effect on the properties of myosin. 254 78

Caldesmon is a major calmodulin- and actin-binding protein of smooth muscle which interacts with calmodulin in a Ca2+-dependent manner or with actin in a Ca2+-independent manner. Isolated caldesmon is capable of inhibiting the actin-activated Mg2+-ATPase of smooth-muscle myosin, suggesting a possible physiological role for caldesmon in regulating the contractile state of smooth-muscle. Caldesmon can be phosphorylated in vitro by a co-purifying Ca2+/calmodulin-dependent protein kinase and dephosphorylated by a protein phosphatase, both of which are present in smooth muscle. We investigated further the phosphorylation of caldesmon and the effects which phosphorylation has on the functional properties of the protein. The kinetics of caldesmon phosphorylation were similar whether the caldesmon substrate was free or bound to actin, actin/tropomyosin or thin filaments. Caldesmon containing endogenous kinase activity was rapidly phosphorylated (to approx. 1 mol of Pi/mol of caldesmon in 5 min) when reconstituted with actin, myosin, tropomyosin, calmodulin and myosin light-chain kinase in the presence of Ca2+ and MgATP2-. Under conditions in which unphosphorylated caldesmon showed substantial inhibition of the actin-activated myosin Mg2+-ATPase, no inhibition was observed with phosphorylated caldesmon. This was the case whether caldesmon was phosphorylated before addition to the actomyosin Mg2+-ATPase system, or phosphorylation was allowed to take place during the ATPase reaction. Binding studies revealed maximal binding of 1 mol of unphosphorylated caldesmon/9.5 mol of actin and 1 mol of phosphorylated caldesmon/11.7 mol of actin. All the bound phosphorylated caldesmon could be released by Ca2+/calmodulin, with half-maximal release at 0.11 microM-Ca2+, whereas only 62% of the bound unphosphorylated caldesmon could be removed, with half-maximal release at 0.16 microM-Ca2+. However, under conditions in which inhibition of actomyosin Mg2+-ATPase activity by non-phosphorylated but not by phosphorylated caldesmon was observed, both forms of caldesmon would remain bound to the thin filament. These observations suggest a possible mechanism whereby caldesmon phosphorylation may prevent its inhibitory action on the actomyosin Mg2+-ATPase.
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PMID:The effects of phosphorylation of smooth-muscle caldesmon. 282 3

Chicken gizzard caldesmon causes up to 40% inhibition of Mg2+-ATPase activity of rabbit skeletal muscle actomyosin. In the presence of chicken gizzard tropomyosin this inhibition is significantly increased, reaching a maximum (around 80%) at a molar ratio of caldesmon to actin monomer of 1 to 10-13. The inhibition of actomyosin ATPase takes place over a wide pH range (from 6.0 to 8.0) but is decreased with an increase in KCl and MgCl2 concentrations. Caldesmon, in the range of caldesmon/ actin ratios within which it inhibits actomyosin ATPase, forms bundles of parallelly aligned actin filaments. Calmodulin in the presence of Ca2+ dissociates these bundles and restrains the inhibition of actomyosin ATPase, provided that it is used at a high molar excess over caldesmon.
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PMID:The influence of caldesmon on ATPase activity of the skeletal muscle actomyosin and bundling of actin filaments. 293 Nov 21

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