EC:3.6.1.3 - FACTA Search

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Query: EC:3.6.1.3 (ATPase)
65,361 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Lipase activity extracted from cultured neonatal rat heart cells was characterized and identified as lipoprotein lipase. Enzyme activity was stimulated by human apoC-II and rat serum; serum stimulation was prevented by human apoC-I and by apoC-II. Lipolysis was maximal at pH 8.0 and was inhibited by protamine sulfate, NaCl, and high concentrations of heparin. About 50% of heart cell lipase activity applied to heparin-Sepharose bound to the gel and was eluted with a NaCl gradient. A peak of lipase activity was observed at 0.84 M NaCl. Neonatal rat heart cells in culture are a mixture of muscle and non-muscle cells. To determine the cellular location of the lipoprotein lipase, enzyme activity and muscle cell content of the cultures were determined. Myosin ATPase was used as an index of muscle cell content since ATPase specific activity correlated (r = +0.97) with muscle cell content determined immunofluorescently. When muscle cell content of cultures was decreased or increased by differential plating, lipase specific activity was constant. Moreover, lipase specific activity was constant during culture growth despite a decrease in muscle cell content. It was concluded that lipoprotein lipase activity of cultured heart cells is not associated solely with either muscle or non-muslce cells.
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PMID:Lipoprotein lipase in cultured heart cells: characteristics and cellular location. 13 38

1. Primary heart cell cultures from neonatal hamsters yielded a heterogeneous cell population, containing muscle cells undergoing progressive differentiation, as well as non-muscle cells. 2. Addition of 5-bromo-2'-deoxyuridine, at an early stage, to such cultures enhanced the formation of beating sheets of differentiated muscle cells. Accumulation of myosin heavy chains and creatine kinase also occurred in the presence of the analogue. 3. To obtain these effects, the analogue had to be added during the initial rapid growth phase of the cells. Division of the treated cells then ceased when the cell numbers had approximately doubled. 4. Similar results were obtained with other inhibitors of DNA synthesis. Thus improved muscle cell cultures can be obtained by preventing non-muscle cells from overgrowing the cultures. 5. One effect caused only by 5-bromo-2'-deoxyuridine was a large increase in the Ca2+-stimulated ATPase (adenosine triphosphatase) activity which sedimented at low ionic strength. This increase was not due to a greater content of myofibrillar myosin, or to myosin isoenzyme changes, because purified myosin prepared from treated and untreated cultures did not exhibit the increased Ca2+-stimulated ATPase activity.
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PMID:Effects of 5-bromo-2'-deoxyuridine on beating heart cell cultures from neonatal hamsters. 14 80

The morphological structure (pulvinus P1, P2 and P3) directly involved in the seismonastic movements of the Mimosa pudica leaf have been used to isolate: 1) "soluble" ATPase, loosely bound to pulvinus structures; 2) Ca, Mg-dependent ATPase, which is tightly bound to pulvinus structures and is extracted by a saline solution of high ionic strength, used to isolate actomyosin from muscles and non-muscle motile cells; 3) ATPase bound to the pulvinus membrane structures, which is solubilized by the detergents, e. g. Triton X-100 and Tween-80, and is similar to membrane ATPase. Physico-chemical and kinetic studies of the APSases have shown that Ca,Mg-ATPase is similar to the ATPases from muscle and non-muscle motile cells in a number of characteristics, e. g. solubility in saline solution of high ionic strength, aggregability in a solution of lower ionic strength, activation by bivalent metal ions, pH-optimum, specificity for substrates, etc. The protein composition of the ATPases has been determined by gel-electrophoresis in polyacrylamide gel. The molecular weight of purified Ca,Mg-ATPase from Mimosa pudica pulvinus is found to be 139 000. The role of ATPases in seismonastic movements of the Mimosa pudica leaf is discussed.
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PMID:[Mimosa pudica adenosine triphosphatase]. 14 23

In the paper we consider some aspects of evolution of actin, myosin, and Ca2+-binding proteins regulating their interaction. On the basis of the data recently obtained, we propose the following theses: 1. All types of motility in the living world where actin and myosin are involved, are based on active sliding of actin filaments along myosin filaments (or less organized myosin aggregates). 2. Ca2+-sensitivity of actin-myosin interaction is as old as actin and myosin themselves. Therefore, Ca2+-independent actomyosin ATPase found in vitro does not correspond to physiological sutuation and in this sense relfects an experimental artefact. 3. All proteins which regulate Ca2+-sensitivity of actin and myosin interaction, contain EF-hand structure. 4. It is generally believed that non-muscle cells, including Protozoa and Myxomycetes, contain all regulatory mechanisms which were described for muscles. However, in our opinion, troponin complex similar to that found in striated muscles, if present does not operate there.
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PMID:[Evolution of mechanisms regulating the reaction between actin and myosin]. 15 93

Several isoforms of organellar Ca(2+)-ATPases have been identified, each of which is expressed in a tissue-specific manner. In order to examine the functional properties of fast-twitch (SERCA 1a), cardiac/slow-twitch (SERCA 2a), and non-muscle (SERCA 3) isoforms of the Ca(2+)-ATPase, cDNAs of each type were expressed transiently in COS-1 cells. A study of the Ca2+ dependence of Ca2+ uptake showed that SERCA 1 and SERCA 2 have identical Ca2+ dependences (K0.5 = pCa 6.87 +/- 0.03 and pCa 6.87 +/- 0.02, respectively), but SERCA 3 has a lower Ca2+ dependence (K0.5 = pCa 6.32 +/- 0.03). A study of the ATP dependence of Ca2+ uptake showed that SERCA 1, 2, and 3 have almost identical ATP dependences. Average Hill coefficients derived from Ca2+ uptake curves ranged from 1.7 to 1.8 for the three isoforms. In order to identify which regions of the linear sequence determine this difference in Ca2+ dependence, chimeric Ca(2+)-ATPases between SERCA 2 and SERCA 3 were constructed. Chimeric Ca(2+)-ATPases containing the nucleotide binding/hinge domain of SERCA 2 had SERCA 2 type Ca2+ dependence, but both nucleotide binding/hinge and COOH-terminal transmembrane domains of SERCA 3 were required for SERCA 3 type Ca2+ dependence. Accordingly, structural interactions between the nucleotide binding/hinge and COOH-terminal transmembrane domains appear to determine isoform-specific Ca2+ dependences.
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PMID:The nucleotide binding/hinge domain plays a crucial role in determining isoform-specific Ca2+ dependence of organellar Ca(2+)-ATPases. 138 16

The fast-twitch skeletal muscle Ca(2+)-ATPase isoenzyme, SERCA1a, is localized in chick skeletal myotubes to both the sarcoplasmic reticulum (SR) and to the nuclear envelope, an extension of the endoplasmic reticulum (ER). The ER labeling remained after cycloheximide treatment, indicating that it did not represent newly synthesized SERCA1a in transit to the SR. Expression of the cDNA encoding SERCA1a in cultured non-muscle cells led to the localization of the enzyme in the ER, as indicated by organelle morphology and the co-localization of SERCA1a with the endogenous ER luminal protein, BiP. Immunopurification analysis showed that SERCA1a was not bound to BiP, nor was any degradation apparent. Thus, the SR Ca(2+)-ATPase appears to contain ER targeting information.
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PMID:The sarcoplasmic reticulum Ca(2+)-ATPase, SERCA1a, contains endoplasmic reticulum targeting information. 138 45

Previous biochemical studies suggested that the human platelet Ca2+ATPase system may be cell-specific. To test this hypothesis, we first undertook the molecular cloning of Ca2+ATPase from human erythroleukaemia (HEL) cells, because this human cell line exhibits megakaryocytic features and expresses a Ca2+ATPase that cross-reacts with platelet Ca(2+)-ATPase. For this cloning, an HEL-cell cDNA library was screened with a rat cardiac Ca2+ATPase cDNA probe. The insert of the longest clone isolated was 3.9 kb and its sequence displayed a 100% identity with that of the non-muscle human Ca2+ATPase 2-b isoform, termed SERCA2-b (sarco-endoplasmic-reticulum Ca2+ATPase). The 3.9 kb cDNA covered a subtotal coding region and part of the 3' non-coding end of the SERCA2-b mRNA. It cross-hybridized with the 4 kb transcript species of cardiac SERCA2-a and with non-muscle SERCA2-b mRNAs, but not with fast-skeletal-muscle SERCA1 mRNA. We next confirmed that SERCA2-b was a component of the platelet Ca2+ATPase system because (1) the platelet clones isolated from a platelet cDNA library exhibited a 100% homology with HEL-cell cDNA; (2) SERCA2-b mRNA was amplified by PCR on total platelet RNA and (3) platelet Ca2+ATPase cross-reacted with a polyclonal SERCA2-b-specific antiserum. Platelets therefore contain a Ca2+ATPase definitely identified as the SERCA2-b isoform of Ca2+ATPase, thus eliminating the possibility that they only contain a single specific Ca2+ATPase.
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PMID:Human platelets express the SERCA2-b isoform of Ca(2+)-transport ATPase. 138 87

Monoclonal antibodies specific for the rod region can affect smooth muscle myosin's motor properties. Actin movement by phosphorylated myosin was inhibited by an antibody (LMM.4) which binds to the COOH-terminal end of the coiled-coil rod, a region thought to be involved in filament assembly. The actin-activated ATPase activity of the myosin-antibody LMM.4 complex was also reduced 10-fold at actin concentrations that gave maximal turnover rates with filamentous myosin. Metal-shadowing of the phosphorylated myosin-antibody complex at low ionic strength showed small bundles of parallel extended molecules, instead of filaments. Five other anti-rod antibodies had little or no effect on myosin's ability to act as a motor. This is the first demonstration that a muscle myosin's activity is affected by its state of assembly. A common theme that emerges from the studies on both muscle and non-muscle myosins is that assembly into a filamentous structure stimulates the activity of the individual myosin molecules.
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PMID:Inhibition of smooth muscle myosin's activity and assembly by an anti-rod monoclonal antibody. 146 20

Novel monoclonal antibodies were raised against sarcoplasmic reticulum calcium (Ca2+)-ATPase of human skeletal muscle. Immunohistochemical analysis demonstrated that these antibodies, designated 6F5 and 7F10, bind Ca(2+)-ATPase of non-muscle tissue of the adult including parathyroid, islets of Langerhans, anterior lobe of the pituitary gland and photoreceptor cells of the retina as well as skeletal muscle. A positive reaction was also found for fetal tissues including skeletal muscle, heart, chondrocytes and peripheral nerves. Our results for distribution suggest that Ca(2+)-ATPase is strongly expressed in the tissues and cells in which signal transduction is actively carried out by Ca2+ release from the cytoplasmic Ca2+ pool.
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PMID:Immunohistochemical study on the distribution of sarcoplasmic reticulum calcium ATPase in various human tissues using novel monoclonal antibodies. 146 57

It is well established that caldesmon binds to actin (Kb = 10(7) - 10(-8) M-1) and to tropomyosin (Kb = 10(6) M-1) and that it is a potent inhibitor of actomyosin ATPase. Caldesmon can also bind tightly to myosin. We investigated the binding of smooth muscle and nonmuscle caldesmon isoforms (CDh and CDl respectively) to myosin using proteins from sheep aorta. Both caldesmon isoforms bind to myosin with indistinguishable affinity. The affinity is about 10(6) M-1 in low salt buffer, but is weakened by increasing [KCl] reaching 10(5) M-1 in 100 mM KCl. The stoichiometry of binding is about three caldesmon per myosin molecule. Stoichiometry and affinity are not dependent on whether myosin is phosphorylated nor on the presence of Mg2+ and ATP, provided the ionic strength is maintained constant. The caldesmon binding site of smooth muscle myosin is located in the S-2 region, consequently both HMM and myosin rod bind to caldesmon. Over a range of conditions myosin and myosin rod binding to caldesmon were indistinguishable. Skeletal muscle myosin has no caldesmon binding site. Smooth muscle myosin rods form side-polar filaments in low salt buffer in which the backbone packing of LMM into the filament shaft is clearly visible in negatively-stained electron microscopic images. Sometimes the S-2 portions can be seen 'frayed' from the filament shaft. When caldesmon is bound the filament shaft appears to be about 20% thicker and the frayed effect is dramatically increased; long filamentous 'whiskers' are often seen curving out from the filament shaft. Similar structures are observed with smooth muscle and with non-muscle caldesmon. Myosin also binds to caldesmon when it is incorporated into the thin filament; however, this interaction is qualitatively different. Measurements of smooth muscle HMM binding to native thin filaments in the presence of 3 mM MgATP shows there is a high affinity binding (Kb = 10(6) M-1) which is independent of [Ca2+] and of the level of myosin phosphorylation. The stoichiometry is one HMM molecule per actin monomer which is equivalent to up to 14 HMM bound at high affinity per caldesmon. Negatively stained electron microscopic images of the HMM.ADP.Pi-thin filament complex have failed to show any attachment of HMM to the thin filaments. When rod filaments are added to actin plus caldesmon or to native thin filaments the rod filaments are strongly associated with the actin filament bundles. The majority of rod filaments are lined up parallel and in close proximity to actin filaments.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Caldesmon binds to smooth muscle myosin and myosin rod and crosslinks thick filaments to actin filaments. 153 66

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