Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.16.2 (PCP)
 3,761 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

K+ currents were recorded from ATP-sensitive channels in inside-out membrane patches excised from isolated rat ventricular myocytes. ATP-sensitive K+ channel inhibition could be evoked by ATP in the absence of magnesium where most ATP would be present as the free acid ATP4-. Channel inhibition was enhanced when the same total concentration of ATP was applied in the presence of magnesium, where most ATP would be bound as ATP.Mg. Dose-response relationships for ATP-sensitive K+ channel inhibition evoked by ATP had a Hill coefficient of 2 and Ki of 17 and 30 microM for ATP in the presence and absence of magnesium respectively. This was the obverse of the expected results if ATP4- were to be the sole form of ATP to effect channel closure. ATP-sensitive K+ channel inhibition evoked by ATP gamma S, AMP-PNP and AMP-PCP was also enhanced in the presence of magnesium. It is concluded that the ATP-sensitive K+ channel of rat ventricular myocytes binds and is closed by both the free-acid and divalent-cation-bound forms of ATP.
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PMID:ATP4- and ATP.Mg inhibit the ATP-sensitive K+ channel of rat ventricular myocytes. 326 60

The capacity of human liver S9 and hepatocytes to metabolically activate 2-amino-3-methylimidazo (4,5-f) quinoline (IQ) in Salmonella mutagenicity assays more closely resembles that of preparations from Aroclor-induced rat than control rat. The extent to which hepatocyte conjugating enzymes contribute to activation in these assays has been studied. Omission of sulphate or addition of a 'specific' sulphotransferase inhibitor (2,6-DCNP) did not significantly reduce mutagenicity, nor did PAPS enhance S9-mediated bacterial mutagenicity. Conversely, mutagenicity was significantly inhibited by PCP (an inhibitor of both sulphotransferase and acetyltransferase) and an acetylation-deficient Salmonella (TA98/1,8DNP6) was unresponsive to the mutagenicity of IQ. These data suggest that acetylation but not sulphation is important in IQ bacterial mutagenesis. The addition of acetyl CoA, PAPS-generating system or ATP paradoxically reduces the mutagenicity of IQ in S9/Salmonella TA98 assays. Therefore, activation by esterification in hepatocytes does not contribute to the mutagenicity of IQ in Salmonella typhimurium possibly due to restricted access of conjugates into the bacterial cell.
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PMID:Activation of 2-amino-3-methylimidazo (4,5-f) quinoline in rat and human hepatocyte/Salmonella mutagenicity assays: the contribution of hepatic conjugation. 333 2

The binding and cross-linking of the ATP photoaffinity analogue 8-azidoadenosine 5'-triphosphate (azido-ATP) with recA protein have been investigated, and through cross-linking inhibition studies, the binding of other nucleotide cofactors to recA protein has also been studied. The azido-ATP molecule was shown to be a good ATP analogue with regard to recA protein binding and enzymatic function by three criteria: first, the cross-linking follows a simple hyperbolic binding curve with a Kd of 4 microM and a cross-linking efficiency ranging from 10% to 70% depending on conditions; second, ATP, dATP, and adenosine 5'-O-(3-thiotriphosphate) (ATP-gamma-S) specifically inhibit the cross-linking of azido-ATP to recA protein; third, azido-ATP is a substrate for recA protein ATPase activity. Quantitative analysis of the cross-linking inhibition studies using a variety of nucleotide cofactors as competitors has shown that the binding affinity of adenine-containing nucleotides for recA protein decreases in the following order: ATP-gamma-S greater than dATP greater than ATP greater than adenylyl beta,gamma-imidodiphosphate (AMP-PNP) much greater than adenylyl beta,gamma-methylenediphosphate (AMP-PCP) approximately adenine. Similar competition studies also showed that nearly all of the other nucleotide triphosphates also bind to recA protein, with the affinity decreasing in the following order: UTP greater than GTP approximately equal to dCTP greater than dGTP greater than CTP. In addition, studies performed in the presence of single-stranded DNA demonstrated that the affinity of ATP, dATP, ATP-gamma-S, and AMP-PNP for recA protein is significantly increased. These results are discussed in terms of the reciprocal effects that nucleotide cofactors have on the modulation of recA protein--single-stranded DNA binding affinity and vice versa. In addition, it is demonstrated that nucleotide and DNA binding are necessary though not sufficient conditions for ATPase activity. The significance of this result in terms of the possible requirement of critically sized clusters of 15 or more recA protein molecules contiguously bound to DNA for ATPase activity is discussed.
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PMID:Interaction of recA protein with a photoaffinity analogue of ATP, 8-azido-ATP: determination of nucleotide cofactor binding parameters and of the relationship between ATP binding and ATP hydrolysis. 353 81

A radioisotope flux-rapid-quench-Millipore filtration method is described for determining the effects of Ca2+, adenine nucleotides, and Mg2+ on the Ca2+ release behaviour of "heavy" sarcoplasmic reticulum (SR) vesicles. Rapid 45Ca2+ efflux from passively loaded vesicles was blocked by the addition of Mg2+ and ruthenium red. At pH 7 and 10(-9) M Ca2+, vesicles released 45Ca2+ with a low rate (k = 0.1 s-1). An increase in external Ca2+ concentration to 4 microM or the addition of 5 mM ATP or the ATP analogue adenosine 5'-(beta,gamma-methylenetriphosphate) (AMP-PCP) resulted in intermediate 45Ca2+ release rates. The maximal release rate was observed in media containing 4 microM Ca2+ and 5 mM AMP-PCP and had a first-order rate constant of 30-100 s-1. Mg2+ partially inhibited Ca2+- and nucleotide-induced 45Ca2+ efflux. In the absence of AMP-PCP, 45Ca2+ release was fully inhibited at 5 mM Mg2+ or 5 mM Ca2+. The composition of the release media was systematically varied, and the flux data were expressed in the form of Hill equations. The apparent n values of activation of Ca2+ release by ATP and AMP-PCP were 1.6-1.9. The Hill coefficient of Ca2+ activation (n = 0.8-2.1) was dependent on nucleotide and Mg2+ concentrations, whereas the one of Mg2+ inhibition (n = 1.1-1.6) varied with external Ca2+ concentration. These results suggest that heavy SR vesicles contain a "Ca2+ release channel" which is capable of conducting Ca2+ at rates comparable with those found in intact muscle. Ca2+, AMP-PCP (ATP), and Mg2+ appear to act at noninteracting or interacting sites of the channel.
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PMID:Kinetics of rapid Ca2+ release by sarcoplasmic reticulum. Effects of Ca2+, Mg2+, and adenine nucleotides. 375 47

The pharmacological effects of ATP and of two of its analogues, AMP-PCP and L-AMP-PCP, were investigated in various isolated smooth muscle preparations. In the guinea-pig vas deferens, the rat portal vein and the rat anococcygeus the nucleotides all caused contraction, and the order of potency was L-AMP-PCP greater than AMP-PCP greater than ATP. In the guinea-pig field-stimulated ileal longitudinal muscle the nucleotides all inhibited the contractions, and the order of potency was ATP greater than AMP-PCP greater than L-AMP-PCP. In the guinea-pig thoracic aorta ATP and AMP-PCP caused relaxations, ATP being more potent than AMP-PCP, and L-AMP-PCP caused contractions. These results are consistent with the suggestion that the ATP receptors mediating contraction of smooth muscle are different from those mediating relaxation, and show that L-AMP-PCP is a potent, specific agonist at excitatory ATP receptors.
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PMID:Pharmacological effects of L-AMP-PCP on ATP receptors in smooth muscle. 381 51

The hypothesis that the ADP-sensitive form of phosphorylated Na+, K+-ATPase contains occluded sodium ions has been tested by a procedure which involves (i) modifying the enzyme with alpha-chymotrypsin or N-ethylmaleimide (NEM) so that the ADP-sensitive form is more stable than it is in the native enzyme, (ii) phosphorylating the modified enzyme with ATP in the presence of labelled sodium ions, and (iii) forcing the phosphorylated enzyme rapidly through a cation-exchange column and measuring the labelled sodium in the effluent. The results show that ADP-sensitive phosphoenzyme prepared from alpha-chymotrypsin- or NEM-modified Na+, K+-ATPase is able to carry labelled sodium ions through a cation-exchange resin. This behaviour was not seen with native Na+, K+-ATPase or when phosphorylation was prevented by the omission of magnesium ions or by the substitution of adenylyl(beta, gamma-methylene)diphosphonate (AMP-PCP) for ATP. The occluded sodium ions were rapidly released when the phosphoenzyme was dephosphorylated by ADP. When alpha-chymotrypsin-modified enzyme was phosphorylated by ATP with 1 mM-sodium in the medium, close to three sodium ions were occluded per phospho group. The stoicheiometry at much lower sodium concentrations could not be determined satisfactorily. A consideration of the rate constants of the reactions thought to be involved in the occlusion of sodium and in the release of sodium from the occluded state shows that, so far as they are known, these constants are compatible with the hypothesis that the occluded-sodium form of the phosphoenzyme plays a central role in sodium transport through the pump.
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PMID:The occlusion of sodium ions within the mammalian sodium-potassium pump: its role in sodium transport. 608 5

Mouse lymphoma cells were shown to be unresponsive to prostaglandin E1 in terms of cAMP production. The endogenous ATP concentration was shown to be low. Addition of ATP in the presence of IMBX into the incubation medium resulted in elevation of the intracellular pool of ATP and the cells responded to PGE1 by increasing cAMP production. The ATP effect is specific and cannot be substituted by GTP. ATP analogue (AMP-PCP) can, however, produce a similar effect to ATP. The intracellular ATP concentration can be lowered by incubation with iodoacetate and potassium cyanide. This caused a drastic decrease of the cAMP level. Ethionine on the other hand had no effect on the intracellular ATP level.
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PMID:ATP uptake by mouse lymphoma cells. 618 Jun 74

In the presence of AMP-PCP (beta, gamma-methyleneadenosine 5'-triphosphate), a non-hydrolyzable analog of ATP, negative stain images of increased morphological detail indicate that the dynein arm, attached to ciliary doublet microtubules, is composed of subunits including a cape, an elongated body and a head. The arrangement of these subunits makes it possible to distinguish A from B subfiber binding sites on a single arm and to demonstrate that the head of an extended arm on subfiber A of one ciliary doublet is capable of binding to subfiber B of an adjacent doublet in a specific orientation, which supports a key step in a current model of the mechanochemical cycle by which the arm produces microtubule sliding in the ciliary axoneme.
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PMID:Dynein arm substructure and the orientation of arm-microtubule attachments. 623 Apr 60

1. Changes in the intrinsic fluorescence of Na, K-ATPase protein have been used to monitor the interconversion of E(1) (low fluorescence) and E(2) (high fluorescence) forms of the unphosphorylated enzyme.2. In media lacking sodium and nucleotides, 1 mM-potassium was sufficient to convert practically all of the enzyme into the E(2) form. In media containing 1 mM-potassium, 1 mM-EDTA, and no sodium or magnesium, the addition of ATP, or its beta, gamma-imido or methylene analogues, converted the enzyme back into the E(1) form. The relation between nucleotide concentration and the fraction of the enzyme that was in the E(1) form could be described by a rectangular hyperbola, with a K((1/2)) of about 15 muM for ATP, 65 muM for adenylyl-imidodiphosphate (AMP-PNP) and 180 muM for adenylyl (beta, gamma-methylene)-diphosphonate (AMP-PCP). ADP also converted the enzyme back into the E(1) form, with a K((1/2)) of about 25 muM, but the relation between concentration and fraction converted was not well described by a rectangular hyperbola.3. In similar media containing 50 mM-potassium, much higher concentrations of ATP were required to convert the enzyme back into the E(1) form, and the conversion was probably incomplete.4. If we assume that ATP and potassium ions affect each other's binding solely by altering the equilibrium between E(1) and E(2) forms of the enzyme, we are able to conclude (i) that potassium ions bind to the E(1) form with a moderately low affinity, (ii) that, in the absence of nucleotides, the equilibrium between E(1)K and E(2)K is poised strongly in favour of E(2)K, (iii) that the binding of ATP to a low-affinity site alters the equilibrium constant for the interconversion of E(1)K and E(2)K by two to three orders of magnitude, so that, at saturating levels of ATP, the equilibrium is probably slightly in favour of E(1)K, and (iv) that in sodium-free, potassium-containing media, ATP will appear to bind to the enzyme more tightly than would be expected from the dissociation constant of the E(2)K. ATP complex.5. The pattern of the equilibrium constants for the various reactions between E(1), E(2), ATP and potassium is compatible with the hypothesis that the ATP-accelerated conversion of E(2)K into E(1)K, and the subsequent release of potassium ions from low-affinity inward-facing sites, are part of the normal sequence of events during potassium influx in physiological conditions.
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PMID:The equilibrium between different conformations of the unphosphorylated sodium pump: effects of ATP and of potassium ions, and their relevance to potassium transport. 624 81

When purified muscle actin was mixed with microtubule-associated proteins (MAPs) prepared from brain microtubules assembled in vitro, actin filaments were organized into discrete bundles, 26 nm in diameter. MAP-2 was the principal protein necessary for the formation of the bundles. Analysis of MAP-actin bundle formation by sedimentation and electrophoresis revealed the bundles to be composed of approximately 20% MAP-2 and 80% actin by weight. Transverse striations were observed to occur at 28-nm intervals along negatively stained MAP-actin bundles, and short projections, approximately 12 nm long and spaced at 28-nm intervals, were resolved by high-resolution metal shadowing. The formation of MAP-actin bundles was inhibited by millimolar concentrations of ATP, AMP-PCP (beta, gamma-methylene-adenosine triphosphate), and pyrophosphate but not by AMP, ADP, or GTP. The addition of ATP to a solution containing MAP-actin bundles resulted in the dissociation of the bundles into individual actin filaments; discrete particles, presumably MAP-2, were periodically attached along the splayed filaments. These results demonstrate that MAPs can bind to actin filaments and can induce the reversible formation of actin filament bundles in vitro.
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PMID:Microtubule-associated proteins (MAPs) and the organization of actin filaments in vitro. 627 Jan 55


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