UNIPROT:P50583 - FACTA Search

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Query: UNIPROT:P50583 (asymmetrical)
12,197 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The biologically active dinucleotides adenosine(5')tetraphospho(5')adenosine (Ap4A) and adenosine(5')-triphospho(5')adenosine (Ap3A), which are both releasable into the circulation from storage pools in thrombocytes, are catabolized by intact bovine aortic endothelial cells. 1. Compared with extracellular ATP and ADP, which are very rapidly hydrolysed, the degradation of Ap4A and Ap3A by endothelial ectohydrolases is relatively slow, resulting in a much longer half-life on the endothelial surface of the blood vessel. The products of hydrolysis are further degraded and finally taken up as adenosine. 2. Ap4A hydrolase has high affinity for its substrate (Km 10 microM). 3. ATP as well as AMP transiently accumulates in the extracellular fluid, suggesting an asymmetric split of Ap4A by the ectoenzyme. 4. Mg2+ or Mn2+ at millimolar concentration are needed for maximal activity; Zn2+ and Ca2+ are inhibitory. 5. The hydrolysis of Ap4A is retarded by other nucleotides, such as ATP and Ap3A, which are released from platelets simultaneously with Ap4A.
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PMID:Identification and partial characterization of an adenosine(5')tetraphospho(5')adenosine hydrolase on intact bovine aortic endothelial cells. 254 89

The P1P4-bis(5'-nucleosidyl) tetraphosphate asymmetrical-pyrophosphohydrolase from encysted embryos of the brine shrimp Artemia has been purified over 11,000-fold to homogeneity. Anion-exchange chromatography resolves two major species with very similar properties. The enzyme is a single polypeptide of Mr 17,600 and is maximally active at pH 8.4 and 2 mM-Mg2+. It is inhibited by Ca2+ (IC50 = 0.9 mM with 2 mM-Mg2+) but not by Zn2+ ions. It preferentially hydrolyses P1P4-bis(5'-nucleosidyl) tetraphosphates, e.g. P1P4-bis(5'-adenosyl) tetraphosphate (Ap4A) (kcat. = 12.7 s-1; Km = 33 microM) and P1P4-bis(5'-guanosyl) tetraphosphate (Gp4G) (kcat. = 6.2 s-1; Km = 5 microM). With adenosine 5'-P1-tetraphospho-P4-5"'-guanosine (Ap4G) as substrate, there is a 4.5-fold preference for AMP and GTP as products and biphasic reaction kinetics are observed giving Km values of 4.7 microM and 34 microM, and corresponding rate constants of 6.5 s-1 and 11.9 s-1. The net rate constant for Ap4G hydrolysis is 7.6 s-1. The enzyme will also hydrolyse nucleotides with more than four phosphate groups, e.g. Ap5G, Ap6A and Gp5G are hydrolysed at 25%, 18% and 10% of the rate of Ap4A respectively. An NTP is always one of the products. Ap2A and Gp2G are not hydrolysed, while Ap3A and Gp3G are very poor substrates. When the enzyme is partially purified from embryos and larvae at different stages of development by sedimentation through a sucrose density gradient, its activity increases 3-fold during the first 12 h of pre-emergence development. This is followed by a slow decline during subsequent larval development. The similarity of this enzyme to other asymmetrical-pyrophosphohydrolases suggests that it did not evolve specifically to degrade the large yolk platelet store of Gp4G which is found in Artemia embryos, but that it probably serves the same general function in bis(5'-nucleosidyl) oligophosphate metabolism as in other cells.
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PMID:Characterization of the bis(5'-nucleosidyl) tetraphosphate pyrophosphohydrolase from encysted embryos of the brine shrimp Artemia. 254 71

The purpose of this investigation was to study the effects of a distinct type of phospholipase C on sarcolemmal Na+-Ca2+ exchange. With this phospholipase C (Staphylococcus aureus), treatment of cardiac sarcolemmal vesicles resulted in a specific hydrolysis of membrane phosphatidylinositol. This hydrolysis of phosphatidylinositol also released two proteins (110 and 36 kDa) from the sarcolemmal membrane. Phospholipase C pretreatment of the sarcolemma resulted in an unexpected stimulation of Na+-Ca2+ exchange. The Vmax of Na+-Ca2+ exchange was increased but the Km for Ca2+ was not altered. This stimulation was specific to the Na+-Ca2+ exchange pathway. ATP-dependent Ca2+ uptake was depressed after phospholipase C treatment, but passive membrane permeability to Ca2+ was unaffected. Sarcolemmal Na+,K+-ATPase activity was not altered, whereas passive Ca2+ binding was modestly decreased after phospholipase C pretreatment. The stimulation of Na+-Ca2+ exchange after phosphatidylinositol hydrolysis was greater in inside-out vesicles than in a total population of vesicles of mixed orientation. This finding suggests that the cardiac sarcolemmal Na+-Ca2+ exchanger is functionally asymmetrical. The results also suggest that membrane phosphatidylinositol is inhibitory to the Na+-Ca2+ exchanger or, alternatively, this phospholipid may anchor an endogenous inhibitory protein in the sarcolemmal membrane. The observation that a transsarcolemmal Ca2+ flux pathway may be stimulated solely by phosphatidylinositol hydrolysis independently of phosphoinositide metabolic products like inositol triphosphate is novel.
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PMID:Role of phosphatidylinositol in cardiac sarcolemmal membrane sodium-calcium exchange. 254 59

A large conductance Ca2+-activated K+ channel from rabbit aorta was incorporated into planar lipid bilayers. This channel had a conductance of 337 +/- 7 pS in symmetrical 250 mM KCl solutions and had a Na+/K+ permeability ratio of less than 0.04. In asymmetrical solutions containing 300 mM KCl cis (intracellular), 100 mM KCl trans (extracellular) or 100 mM KCl cis 500 mM KCl trans, the reversal potentials for the channel were -30 and +46 mV, respectively. This channel possessed voltage-dependent activation and cis (intracellular) Ca2+ sensitivity. Cromakalim (50 nM) added to the trans side of the bilayer significantly increased the Popen by 56% from 0.09 +/- 0.01 to 0.14 +/- 0.01 (P less than 0.01) at -40 mV without altering the single channel conductance. This effect was dose-dependent, increasing at higher cromakalim concentrations. The primary effect of cromakalim was to decrease the tau slow of the channel closed state from 266 +/- 32 to 147 +/- 17 ms which is sufficient to account for the increase in Popen of the channel in the presence of cromakalim.
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PMID:A Ca2+-activated K+ channel from rabbit aorta: modulation by cromakalim. 259 75

The diadenosine 5',5'''-P1,P4-tetraphosphate alpha,beta-phosphorylase (Ap4A phosphorylase), recently observed in yeast [Guaranowski, A., & Blanquet, S. (1985) J. Biol. Chem. 260, 3542-3547], is shown to be capable of catalyzing the synthesis of Ap4A from ATP + ADP, i.e., the reverse reaction of the phosphorolysis of Ap4A. The synthesis of Ap4A markedly depends on the presence of a divalent cation (Ca2+, Mn2+, or Mg2+). In vitro, the equilibrium constant K = ([Ap4A][Pi])/[(ATP][ADP]) is very sensitive to pH. Ap4A synthesis is favored at low pH, in agreement with the consumption of one to two protons when ATP + ADP are converted into Ap4A and phosphate. Optimal activity is found at pH 5.9. At pH 7.0 and in the presence of Ca2+, the Vm for Ap4A synthesis is 7.4 s-1 (37 degrees C). Ap4A phosphorylase is, therefore, a valuable candidate for the production of Ap4A in vivo. Ap4A phosphorylase is also capable of producing various Np4N' molecules from NTP and N'DP. The NTP site is specific for purine ribonucleotides (N = A, G), whereas the N'DP site has a broader specificity (N' = A, C, G, U, dA). This finding suggests that the Gp4N' nucleotides, as well as the Ap4N' ones, could occur in yeast cells.
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PMID:Yeast diadenosine 5',5'''-P1,P4-tetraphosphate alpha,beta-phosphorylase behaves as a dinucleoside tetraphosphate synthetase. 282 98

Homogeneous diadenosine 5',5'''-P1,P4-tetraphosphate alpha, beta-phosphorylase (Ap4A-phosphorylase), the enzyme recently found in yeast (Guranowski, A., and Blanquet, S. (1985) J. Biol. Chem. 260, 3542-3547) catalyzes an exchange reaction between the beta-phosphate of nucleoside diphosphate (NDP) and orthophosphate from the medium (Pi). The common purine and pyrimidine ribonucleoside diphosphates as well as ADP analogs modified either in aglycone, sugar, or at the anhydride bond beta-position are substrates. The Km and rate values for the NDP-Pi exchange reaction were estimated at pH optima. These optima are 6.5 for UDP, 7.0 for ADP or CDP, and 8.0 for GDP. In the presence of 10 mM K2HPO4, 0.1 mM EDTA, and 100 mM Hepes/KOH (pH 7.0), the Km for ADP is 0.7 mM with a rate constant at saturating ADP of 96 s-1. The Km value for orthophosphate is 2 mM. In the NDP-Pi exchange reaction, phosphate can be substituted with arsenate and apparent arsenolysis of NDPs yields corresponding nucleoside monophosphates. The same pH optimum of 6.5 is found for arsenolysis of ADP, GDP, and CDP. Whereas the Ap4A phosphorylase sulfhydryl groups are essential for catalyzing the Ap4A phosphorolysis, the NDP-Pi exchange reactions, and the arsenolysis of NDPs, the divalent metal ions (Mg2+, Mn2+, Ca2+, Co2+, and Cd2+), which had been shown to be essential cofactors of the former reaction, are not required for the two latter ones. Used at concentrations which are optimum for Ap4A phosphorolysis, the cations (particularly Mg2+ and Cd2+) inhibit the NDP-Pi exchange and the arsenolysis of NDPs. Interestingly, the Ap4A phosphorylase exhibits higher specificity for adenosine 5'-phosphosulfate (APS) than for any other NDP tested. The V/Km ratio is almost 5-fold higher with APS than with ADP. However, in the presence of orthophosphate, the APS is irreversibly converted to ADP. Thus, the enzyme displays a property already attributed to ADP-sulfurylase (EC 2.7.7.5), (Grunberg-Manago, M., Del Campillo-Campbell, A., Dondon, L., and Michelson, A. M. (1966) Biochim. Biophys. Acta 123, 1-16; Nicholls, R. G. (1977) Biochem. J. 165, 149-155).
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PMID:Diadenosine 5',5'''-P1, P4-tetraphosphate alpha, beta-phosphorylase from yeast supports nucleoside diphosphate-phosphate exchange. 300 35

The domain organization of the zymogen subunits of the first component of human complement C1s, C1r2 and the complex C1s-C1r2-C1s was studied by electron microscopy. In the absence of Ca2+, monomeric C1s was visualized as a dumb-bell-shaped molecule consisting of two globular domains (center-to-center distance 11 nm) connected by a rod. One of the globular domains is assigned to the light chain (B-chain) of the activated molecule, which is homologous to trypsin and other serine proteases. The second globular domain and the rod are assigned to the heavy chain (A-chain) of CIs. The subunit C1r is a stable dimer in the presence or absence of Ca2+. This dimer C1r2 was visualized as composed of two dumb-bells of dimensions similar to those observed for C1s. These are connected near the junctions between the rod and one of the globular domains. This leads to the structure of an asymmetrical X with two inner closely spaced globules (center-to-center distance 7 nm) and two outer globules at a larger distance (14 nm). By comparison with fragment C1rII2, in which part of the A-chain is removed, the inner globular domains were assigned to the catalytic B-chains. This characteristic structure of C1r2 is readily recognized in the central portion of the thread-like 54 nm long C1s-C1r2-C1s complex formed in the presence of Ca2+. By affinity-labeling of C1s with biotin and visualization of avidin-ferritin conjugates in the reconstituted complex, it was demonstrated that C1s forms the outer portion of the complex. A detailed model of C1s-C1r2-C1s is proposed, according to which two C1s monomers bind to the outer globes of C1r2 by contacts between their heavy chains and those of C1r. According to this model the catalytic domains of C1r are located in the center and those of C1s at the very tips of the C1s-C1r2-C1s complex. On the basis of the structure of C1s-C1r2-C1s, we derived a detailed model of the C1 complex (composed of C1q and the tetrameric complex) and we discuss this model with a view to finding a possible activation mechanism of C1.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Functional model of subcomponent C1 of human complement. 302 30

Routine pharmacological screening of thiourea compounds led to the selection of pyridyl cyanoguanidines for their antihypertensive effects. From this cyanoguanidine class of compounds, P 1134 (pinacidil) was synthesised. Pinacidil has an asymmetrical carbon atom in the pinacolyl radical and the (-) enantiomer is more active than the (+) enantiomer both in vitro and in vivo. Pinacidil is rapidly absorbed following oral administration with the time to peak plasma concentration being 0.5 to 1 hour and, for the extended release formulation, 1 to 3 and 5 to 7 hours. The antihypertensive effect of pinacidil is proportional to the dose administered. Pyridine-N-oxide is the principal metabolite and accounts for approximately half of the dose excreted in the urine within 24 hours. In hypertensive rats and dogs, the blood pressure-lowering effect of pinacidil is dose-dependent and linearly related to the baseline blood pressure. The haemodynamic profile is characterised by an increased cardiac output as a consequence of increased stroke volume. An increase in heart rate follows the depressor response. The fall in blood pressure is preceded and superseded by a fall in the total peripheral resistance. Preclinical haemodynamic studies suggest that pinacidil is a directly acting precapillary vasodilator. The resting membrane potential of smooth muscle cells is approximately -60mV whereas the equilibrium potential for potassium is more negative, between -80 and -90mV. Pinacidil opens K+ channels and allows potassium to attain its equilibrium potential, resulting in hyperpolarisation of the cell at rest. A hyperpolarised cell is less prone to depolarisation, and without depolarisation there is no activation of the voltage-operated Ca2+ channels and, hence, no muscle contraction.
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PMID:Pinacidil. Preclinical investigations. 307 34

We found that the lengths of all sarcomeres spontaneously oscillated in an isolated skeletal myofibril, when both ends were fixed, submillimolar to millimolar concentrations of ATP, ADP and inorganic phosphate (Pi) were present, and Ca2+ was removed. Narrowing and widening of an H-zone and an I-band were observed corresponding to the shortening and lengthening of a sarcomere, suggesting that thick and thin filaments slide past each other. The oscillation of each sarcomere was asymmetrical, consisting of a rapid lengthening phase and a slow shortening phase. The period of oscillation was about 3s; the peak-to-peak amplitude of oscillation reached as much as 30% of the average sarcomere length. The propagation of the sarcomere oscillation along the long axis of the myofibril was observed occasionally in single myofibrils and frequently in bundles of myofibrils. The 'state'-diagram showing the concentration range of ADP and Pi in which contraction, oscillation or relaxation of myofibrils occurs in the presence of ATP and the absence of Ca2+ suggested that the oscillation is a third state of skeletal muscle located in between the contracting and relaxing states.
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PMID:Spontaneous oscillatory contraction of sarcomeres in skeletal myofibrils. 313 84

The mechanical properties of mammalian ventricular cardiac muscle have been studied in the presence and in the absence of an intact endocardial surface. Isotonic and isometric twitch contractions were obtained from papillary muscles of the right ventricle of cat at 29 degrees and 37 degrees C, at different extracellular calcium concentrations ([Ca2+]o), and at different initial muscle lengths. The endocardial surface was damaged by gentle abrasion of the muscle surface with a plastic blade or by brief immersion for 1 second with 1% Triton X-100. Although there was no evidence of damage to myocardial cells, damaging the endocardial surface resulted in an immediate and irreversible abbreviation of the twitch contractions with, except at the highest ([Ca2+]o, a decrease in peak isometric twitch tension. These changes induced 1) an asymmetrical shift of the tension-[Ca2+]o relation towards increasing [Ca2+]o but with no effect at the highest [Ca2+]o, and 2) a rightward and downward shift of the length-tension relation. Both shifts were significantly more pronounced at 37 degrees C than at 29 degrees C; they were not accompanied by significant changes in Vmax. The asymmetrical shift of the tension-[Ca2+]o relation suggests that the endocardium-mediated chain of events may be mediated by changes in the sensitivity of the contractile proteins to Ca2+. This hypothesis is also supported by the similar pattern of changes (i.e., modulation of the onset of early tension decline) induced by decreasing length at each [Ca2+]o and by the removal of a functional endocardium. Accordingly, the endocardium may help to control the performance of the heart by modulating peak contractile performance and relaxation of the underlying myocardium.
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PMID:Effects of damaging the endocardial surface on the mechanical performance of isolated cardiac muscle. 333 20

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