Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

The relationship between the 22-24 kDa cyclic AMP (cAMP)-dependent phosphoprotein previously described as being involved in the regulation of human platelet membrane Ca2+ transport and a GTP-binding protein of low molecular mass (ras-like protein) was investigated. After isolation of plasma membranes and intracellular membranes, it was found that guanosine 5'-[gamma-thio]triphosphate (GTP[S]) bound to plasma membrane proteins ranging in molecular mass from 22 to 29 kDa, but not to intracellular membranes. The major GTP-binding protein appeared as a 24 kDa protein under reduced conditions and a 22 kDa protein under non-reduced conditions. A similar membrane location and electrophoretic mobility were found for both the cAMP phosphoprotein and the protein recognized by a specific anti-rap1 antibody. The identity between the cAMP phosphoprotein and the rap1 GTP-binding protein was further examined by studying the functional effect of GTP on plasma membrane Ca2+ transport. A maximal GTP[S] concentration of 40 microM was found to: (1) inhibit to the same degree (40%) both Ca(2+)-ATPase activity and the Ca2+ transport function mediated by the Ca(2+)-ATPase; (2) inhibit the phosphorylation of the 22-24 kDa protein by the catalytic subunit of the cAMP-dependent protein kinase (C.Sub.); and (3) abolish the stimulation of Ca2+ uptake induced by C.Sub. It is concluded that the platelet cAMP phosphoprotein is indeed the rap1 GTP-binding protein, and that it regulates plasma membrane Ca2+ transport, thus providing evidence for a new role of a ras-related protein.
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PMID:Evidence for a role of rap1 protein in the regulation of human platelet Ca2+ fluxes. 131 May 90

Light-induced GTP-dependent scattering changes are studied in suspensions of retinal disc membranes to which one or both of the purified proteins involved in the phototransduction mechanism (G-protein and cGMP phosphodiesterase) are reassociated; a scattering change which depends on the presence of both G-protein (G) and inhibited cGMP phosphodiesterase (PDE) and on an ATPase-dependent process, previously described in Bennett [(1986) Eur. J. Biochem. 157, 487-495] is compared to the signal observed in the absence of PDE or of ATP and to PDE activity. The same signal can also be induced either in the dark or in the light by addition of preactivated G in the presence of inhibited PDE. This PDE-dependent scattering change is composed of two components (fast and slow); the variation of the amplitude and kinetics of both components with PDE or G concentration is similar to the variation of the active PDE state with two activator GGTP molecules (G with GTP bound), calculated with dissociation constants previously reported for the interaction between GGTP and PDE [Bennett, N., & Clerc, A. (1989) Biochemistry 28, 7418-7424]. The two components are therefore proposed to be associated with processes which depend on the formation of the active PDE state with two activators.
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PMID:cGMP phosphodiesterase dependent light-induced scattering changes in suspensions of retinal disc membranes. 131 Jun 20

Dynamin was initially identified in calf brain tissue as a protein of relative molecular mass 100,000 which induced nucleotide-sensitive bundling of microtubules. Purified dynamin showed only trace ATPase activity. But in combination with an activating factor removed during the purification, it exhibited microtubule-activated ATPase activity and dynamin-induced bundles showed evidence of ATP-dependent force production. Dynamin is the product of the Drosophila gene shibire, which has been implicated in synaptic vesicle recycling and, more generally, in the budding of endocytic vesicles from the plasma membrane. Dynamin also shows extensive homology with proteins that participate in vacuolar protein sorting and spindle pole-body separation in yeast, and in interferon-induced viral resistance in mammals. All members of this family contain consensus sequence elements consistent with GTP binding near their amino termini, although none has been shown to have GTPase activity. We report here that dynamin is a specific GTPase which can be stimulated to very high levels of activity by microtubules.
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PMID:Dynamin is a GTPase stimulated to high levels of activity by microtubules. 131 Oct 55

Experiments designed to examine the energy requirements of neurophysiological function were performed on isolated rabbit retina. Function was altered by photic stimulation or by function-specific drugs, and the response of energy metabolism was assessed by simultaneous measurements of O2 consumption and lactate production. In other experiments, the supply of O2 or glucose was reduced and the effect on energy metabolism and electrophysiological function was observed. Energy requirements under control conditions in darkness were high, with O2 consumption (per gm dry wt) at 11.3 mumol min-1, with lactate production at 14.8 mumol min-1, and with the derived value for glucose consumption at 9.3 mumol min-1 and for high-energy phosphate (approximately P) generation at 82.6 mumol min-1. Energy reserves were small. Removing glucose abolished the b-wave of the electroretinogram (ERG) with a t1/2 of 1 min, but did not immediately affect O2 consumption or the PIII of the ERG. Removing O2 caused increases of up to 2.7-fold in glycolysis (Pasteur effect) and caused both PIII and b-wave to fail, with a t1/2 of about 5 min. Neurotransmission through the inner retina was supported almost entirely by glycolysis, as evidenced by large increases in lactate production in response to flashing light and decreases in response to transmitter blockers (2.3-fold overall change), with no change in O2 consumption. Phototransduction, on the other hand, was normally supported by oxidative metabolism. The dark current accounted for 41% of the retina's O2 consumption. With O2 reduced, the dark current was partially supported by glycolysis, which accounts (at least in part) for the large Pasteur effect. Na+ transport by NaK ATPase accounted for about half of all energy used, as evidenced by the response to strophanthidin, that is, for 49% of the oxidative energy and 58% of the glycolytic energy. The t1/2 for the turnover of intracellular Na+ was calculated from these data to be less than 1 min. Changes in temperature caused changes in the amplitude of light-evoked electrical responses of 6.5% per degree and caused changes in both O2 consumption and glycolysis of 6.8% per degree (Q10 = 1.9). A surprisingly large fraction of oxidative energy, corresponding to about 40% of the total energy generated, could not be assigned to phototransduction, to neurotransmission, to Na+ transport for other purposes, or to vegetative metabolism. We cannot account for its usage, but it may be related to the (previously reported) rapid turnover of the gamma-phosphate of retinal GTP, the function of which also remains unknown.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Energy metabolism of rabbit retina as related to function: high cost of Na+ transport. 131 36

Spinach leaf mitochondrial F0F1 ATPase has been purified and is shown to consist of twelve polypeptides. Five of the polypeptides constitute the F1 part of the enzyme. The remaining polypeptides, with molecular masses of 28 kDa, 23 kDa, 18.5 kDa, 15 kDa, 10.5 kDa, 9.5 kDa and 8.5 kDa, belong to the F0 part of the enzyme. This is the first report concerning identification of the subunits of the plant mitochondrial F0. The identification of the components is achieved on the basis of the N-terminal amino acid sequence analysis and Western blot technique using monospecific antibodies against proteins characterized in other sources. The 28-kDa protein crossreacts with antibodies against the subunit of bovine heart ATPase with N-terminal Pro-Val-Pro- which corresponds to subunit F0b of Escherichia coli F0F1. Sequence analysis of the N-terminal 32 amino acids of the 23-kDa protein reveals that this protein is similar to mammalian oligomycin-sensitivity-conferring protein and corresponds to the F1 delta subunit of the chloroplast and E. coli ATPases. The 18.5-kDa protein crossreacts with antibodies against subunit 6 of the beef heart F0 and its N-terminal sequence of 14 amino acids shows a high degree of sequence similarity to the conserved regions at N-terminus of the ATPase subunits 6 from different sources. ATPase subunit 6 corresponds to subunit F0a of the E. coli enzyme. The 15-kDa protein and the 10.5-kDa protein crossreact with antibodies against F6 and the endogenous ATPase inhibitor protein of beef heart F0F1-ATPase, respectively. The 9.5-kDa protein is an N,N'-dicyclohexylcarbodiimide-binding protein corresponding to subunit F0c of the E. coli enzyme. The 8.5-kDa protein is of unknown identity. The isolated spinach mitochondrial F0F1 ATPase catalyzes oligomycin-sensitive ATPase activity of 3.5 mumol.mg-1.min-1. The enzyme catalyzes also hydrolysis of GTP (7.5 mumol.mg-1.min-1) and ITP (4.4 mumol.mg-1.min-1). Hydrolysis of ATP was stimulated fivefold in the presence of amphiphilic detergents, however the hydrolysis of other nucleotides could not be stimulated by these agents. These results show that the plant mitochondrial F0F1 ATPase complex differs in composition from the other mitochondrial, chloroplast and bacterial ATPases. The enzyme is, however, more closely related to the yeast mitochondrial ATPase and to the animal mitochondrial ATPase than to the chloroplast enzyme. The plant mitochondrial enzyme, however, exhibits catalytic properties which are characteristic for the chloroplast enzyme.
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PMID:Plant mitochondrial F0F1 ATP synthase. Identification of the individual subunits and properties of the purified spinach leaf mitochondrial ATP synthase. 131 68

Controversy exists as to whether the interaction of a guanosine triphosphatase activating protein (GAP) with Ras proteins functions both to initiate and to terminate Ras-dependent signaling events or only to terminate them. GAP-C, a carboxyl-terminal fragment of GAP that is sufficient to stimulate GTPase activity, inhibited the stimulation of transcription produced by some oncoproteins (v-Src, polyoma middle T, wild-type Ras, and oncogenic Ras) but not that produced by v-Mos. Wild-type GAP did not affect transcription induced by oncogenic Ras but reversed the inhibitory effect of GAP-C on transcription induced by oncogenic Ras. These results indicate that GAP is a negative regulator of wild-type Ras and elicits a downstream signal by interacting with Ras-GTP (guanosine triphosphate).
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PMID:Implication of GAP in Ras-dependent transactivation of a polyoma enhancer sequence. 131 56

A partial purification of the Epstein-Barr-virus nuclear antigen 2A (EBNA 2A) protein from the Epstein-Barr-virus-infected lymphoblastoid cell line, Cherry, has been designed. The main purification step was immunoaffinity chromatography, based on the mAb, 115E, directed towards the carboxy terminus of EBNA 2A. This was followed by chromatography over a Blue Sepharose column. According to silver-stained SDS/PAGE, EBNA 2A was estimated to be 20% pure. The purified fractions contained an ATPase activity that was inhibited by the mAb 115E. Immunopurification of six EBNA-2A-positive cell lines and their negative counterpart showed that only fractions from EBNA-2A-positive lines contained ATPase activity. In gel-filtration experiments EBNA 2A eluted as a 75-kDa protein in conjunction with an ATPase activity. The EBNA 2A protein was covalently labeled by the ATP analog [14C]5'-[p-(fluorosulfonyl)benzoyl]adenosine. The ATPase activity was found to be optimal in the presence of 0.25 mM MgCl2 or CaCl2, whereas, in the presence of MnCl2 and ZnCl2, the activity was only about 50% of the control. High concentrations of Na2VO3 and heparin do not interfere with the activity, while 2.5 mM NaF or 0.5 M NaCl give a 50% reduction of the activity. The Km for ATP and for GTP was 13 microM and 11 microM, respectively, and the Vmax for ATP was about six-times higher than with GTP as substrate. Other low-molecular-mass non-protein phosphate esters, such as phosphoserine or phosphothreonine inhibited the ATPase activity with a Ki of 18 and 32 microM, respectively. Phosphotyrosine had a Ki of 480 microM. Serine, threonine and tyrosine had no inhibitory effect on the ATPase activity.
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PMID:Biochemical characterization of Epstein-Barr virus nuclear antigen 2A and an associated ATPase activity. 132 Oct 48

In this study, we present evidence for the occurrence of mu, delta, and kappa opioid binding sites in synaptic plasma membranes (SPM) and microsomes of rat brain. Binding to all three opioid classes was inhibited by 5'-guanylylimidodiphosphate (Gpp[NH]p) in SPM, while microsomal sites proved to be insensitive to this GTP analog. Sensitivity was restored upon solubilization of microsomes with digitonin, suggesting that opioid receptors are physically separated from G proteins in this fraction. Modulation of microsomal binding by Na+ and Mn++ was greater than that of SPM. Pertussis toxin-catalyzed adenosine diphosphate (ADP) ribosylation revealed the presence of G proteins with alpha-subunit molecular weights of 40 kDa in both subcellular fractions. Basal low Km GTPase activity in SPM was greater than in microsomes. Etorphine elicited a concentration-dependent stimulation of guanosine triphosphatase (GTPase) activity in SPMs but not in microsomes, indicating functional coupling of opioid receptors to G protein in the former and an uncoupling in the latter. Microsomes from 3-day-old rat brain contained more mu opioid sites and they were more sensitive to Gpp(NH)p inhibition than those in adults. These results are consistent with the hypothesis that opioid binding sites in adult microsomes are internalized and G protein uncoupled, while those in neonates are newly synthesized, coupled receptors.
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PMID:Differential coupling of opioid binding sites to guanosine triphosphate binding regulatory proteins in subcellular fractions of rat brain. 132 65

We examined changes in guanosine triphosphate-dependent signal transduction mechanisms in the retina from the early stages of the streptozotocin-diabetic rat, a model for Type 1 (insulin-dependent) diabetes mellitus. Guanosine triphosphate binding, guanosine triphosphatase activity, and binding of (azido) guanosine triphosphate decreased significantly in the retina as early as 2 weeks after the induction of diabetes. The ability of guanosine triphosphate to inhibit forskolin-stimulatable adenyl cyclase was also abolished. These data suggest functional deterioration of G-proteins, especially Gi, in diabetic retina. Further studies using retinal rod outer segments revealed deterioration in light-sensitive, guanosine triphosphate-dependent functions of transducin in diabetic rats. Pertussis toxin-catalysed ADP ribosylation of the alpha subunit of transducin, a heterotrimeric G-protein of rod outer segments, was also reduced in diabetes. No functional effects were seen in purified subunits of transducin subjected to non-enzymatic glycation in vitro. On the other hand, incubation of non-diabetic rod outer segments with (12-0-tetradeconyl) phorbol-13-acetate, a protein kinase C agonist, in the presence of magnesium and adenosine triphosphate resulted in the reduction of guanosine triphosphate-binding and hydrolysis, thus indicating that protein kinase C may be involved in the regulation of these activities. The significance of these observations in the early visual abnormalities associated with diabetes is discussed.
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PMID:Functional alterations of G-proteins in diabetic rat retina: a possible explanation for the early visual abnormalities in diabetes mellitus. 132 50

Continuous electrical pacing (EP) at 10 Hz of the peroneal nerve innervating fast-twitch muscles of the hindlimb in adult rabbits increases skeletal muscle concentrations of adenosine 3',5'-cyclic monophosphate (cAMP) by 3.1-fold at 10 days and increases beta-adrenergic receptor (beta-AR) density by 2.0-fold at 21 days. To determine whether beta-AR, the alpha-subunit of guanine nucleotide proteins (Gs alpha), or adenylyl cyclase is primarily responsible for pacing-induced increases in muscle cAMP, we measured adenylyl cyclase activity (ACA) in muscles that were electrically paced for 3 (n = 4), 10 (n = 8), and 21 (n = 8) days. EP resulted in a time-dependent increase in ACA that was 2.2 +/- 0.3-fold (P less than 0.005) at 21 days. EP significantly increased GTP-, 5'-guanylylimidodiphosphate-, isoproterenol-, NaF-, and forskolin-stimulated ACA, and propranolol administration to rabbits during EP did not alter pacing-induced changes in ACA. There were no changes in protein concentration, Na(+)-K(+)-adenosinetriphosphatase activity, or Gs alpha with EP. Based on these studies, we conclude that EP appears to increase cAMP through mechanisms independent of the beta-AR and through mechanisms that may involve alterations at the level of adenylyl cyclase.
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PMID:Electrical pacing induces adenylyl cyclase in skeletal muscle independent of the beta-adrenergic receptor. 132 24


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