EC:2.7.11.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.11.1 (protein kinase)
81,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Two rabbit erythrocyte casein kinases, GTP:casein kinase I and GTP:casein kinase II, have been purified 29 000- and 47 000-fold, respectively. Studies employing sucrose density gradient centrifugation indicate that kinase I has a molecular weight of about 9.5 - 10(5) (25 S) and kinase II about 1.4 - 10(6) (32 S). These enzymes can utilize either ATP or GTP as the phosphoryl donor. Among various protein substrates examined, these kinases catalyze the phosphorylation of casein greater than 50% dephosphorylated phosvitin congruent to 50% dephosphorylated casein greater than phosvitin. Histones, protamine and bovine serum albumin are poor phosphoryl acceptors. Kinetic data indicate that both enzymes are inhibited by high casein substrate concentrations which may be partially relieved by NaCl. Both phosphotransferases require Mg(2+) for activity and are optimally active at pH 9.0. The enzymes have apparent Km values of 2.5 - 10(-5) M for GTP, 2 - 10(-5) M for ATP, and 0.4--0.6 mg/ml for casein. The incorporation of the terminal phosphate of GTP into casein as catalyzed by these enzymes is inhibited to varying degrees by ATP, ITP, ADP, and GDP but not by UTP, CTP, GMP, adenosine 3':5'-cyclic monophosphate, and guanosine 3':5'-cyclic monophosphate. In addition, NaF and 2,3-diphosphoglyceric acid are also found to inhibit the activity of both kinases. The effect of 2,3-diphosphoglycerate is interesting and suggests that this metabolite may regulate the activity of the casein kinases in the red blood cells.
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PMID:Multiple forms of casein kinase from rabbit erythrocytes. 0 76

An increase in activity of disulphide reductase system (DRS) in supernatant of liver tissue was caused by 3',5'-AMP, ATP, GTP, UTP, Mg2+, Ca2+, EDTA, protamine, noradrenaline and F-. The effect was connected with arsenite resistant fraction of DRS. After rapid homogenization the effect of noradrenaline disappeared and the effects of ATP, GTP, UTP and Ca2+ were distinctly decreased. Treatment with adsorbents prevented the effects of 3',5,-AMP, ATP and EDTA and markedly decreased the effects of protamine and Mg2+. A protein inhibitor of protein kinase prevented completely the activation of DRS with 3',5'-AMP, ATP, GTP, UTP and noradrenaline and distinctly decreased the effect of protamine, Mg2+ and Ca2+ but did not alter the influence of EDTA. Addition of 2',3'-AMP blocked the effect of 3',5-AMP, ATP and Mg2+ but did not influence the effect of protamine and EDTA. The data obtained suggest that protein kinase participated in activation of DRS by most of the regulators.
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PMID:[Study of mechanisms of regulation of disulphide reductase in mouse liver]. 17 2

Disulfide reductase (DSR) of mice liver supernatant is kinetically demonstrated as associating-dissociating oligomeric protein with positive homotropic cooperativity for the substrate. Cyclic 3',5'-AMP (10(-11)--10(-5) M) activates DSR and increases V, but does not change either [S]0,5, nor nH and does not shift the plot of specific activity versus the enzyme concentration. ATP, GTP, UTP, CTP, protamine, histone, Mg2+, Ca2+, EDTA (but not adenosine, 5'-AMP, 2'3'-AMP, ADP beef serum albumin) activated DSR. The effects of different modifiers are not summed up. Preincubation is essential for the action of the majority of the activators. Heating for 8 minutes at 55 degrees C desensitized completely DSR to all the modifiers without changing its catalytic activity, [S]0,5 and nH values. Possible mechanisms of activation of DSR, especially the involvement of protein kinase, are discussed.
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PMID:[Kinetics and regulatory properties of the disulfide reductase enzyme from mouse liver]. 17 10

ATP increases microtubule steady state assembly and disassembly rates in vitro in a concentration-dependent manner. Bovine brain microtubules, composed of 75% tubulin and 25% high molecular weight microtubule-associated proteins (MAPs), were purified by three cycles of assembly and disassembly in the absence of ATP. When assembled to steady state, these microtubules add dimers at one end and lose them at the other in a unidirectional assembly-disassembly process. In the presence of 1.0 mM ATP the unidirectional flow of tubulin from one end of the microtubules to the other increases as much as 20 fold, as revealed by loss of 3H-GTP from uniformly labeled microtubules under GTP chase conditions and by the rate of disassembly following addition of 50 microM podophyllotoxin. UTP, CTP and 5' adenylylimidodiphosphate (AMP-PNP) cannot substitute for ATP in producing this effect. Furthermore, the increase in steady state flow rate persists afer ATP is removed. Thus microtubules assembled in ATP and centrifuged through sucrose cushions to separate them from nucleotides continue to exhibit increased rates in the next assembly cycle in the absence of ATP. It is possible that an ATP-dependent microtubule protein kinase is responsible for the observed increase in tubulin flow rate. A kinase activity associated with brain MAPs has been reported to be cAMP-dependent (Sloboda et al., 1975). We have found an adenylate cyclase activity associated with these microtubules. Whether the adenylate cyclase is a contaminant or due to a specific microtubules-associated protein, and whether its activity is functionally linked to the increased rate of assembly and disassembly in the presence of ATP, remain to be determined.
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PMID:Regulation of the microtubule steady state in vitro by ATP. 22 60

A photoaffinity analogue of ATP, 8-azido-adenosine 5'-triphosphate (8-N3ATP), was used to probe ATP-binding sites in native transcription complexes of vesicular stomatitis virus (VSV) (New Jersey serotype). The analogue was found to be a substrate for a serine/threonine protein kinase that phosphorylated both the NS and L proteins of native complexes. The analogue failed to interact with the RNA polymerase, another ATP-utilizing activity associated with the transcription complex. Kinetic analyses of both ATP and 8-N3ATP utilization by the protein kinase yielded biphasic saturation curves. Photolysis of 8-N3ATP in the presence of VSV transcription complexes resulted in selective labelling of the L protein. The photolabelling of L was saturable and apparently biphasic. Photolabelling of the L protein was significantly reduced by competition with ATP whereas other nucleoside triphosphates (GTP, UTP and CTP) were ineffective competitors. The stoichiometry of photolabelling was 0.2 at 10 microM-8N3ATP and 1.3 at 100 microM-ATP. These data provide chemical evidence for a virus-encoded serine/threonine protein kinase which resides on the L protein.
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PMID:Identification and characterization of serine/threonine protein kinase activity intrinsic to the L protein of vesicular stomatitis virus New Jersey. 130 63

A nucleoside triphosphatase (NTPase) activity appeared to be associated with a highly purified nuclear preparation from rat cardiac ventricles. Different nucleoside triphosphates (UTP greater than GTP greater than ITP greater than CTP) supported this enzymic activity, which was stimulated by Mg2+ but not by Ca2+. The nuclear NTPase activity could be down regulated by endogenous phosphorylation of a 55,000 Mr protein. Maximal phosphorylation of the 55,000 Mr protein occurred in the presence of Mg(2+)-ATP. Addition of cAMP, cGMP, Ca2+, Ca2+/phospholipid, Ca2+/calmodulin, and catalytic subunit of cAMP-dependent protein kinase was not associated with any further phosphorylation of the 55,000 Mr protein. However, in the presence of Ca2+/calmodulin or the catalytic subunit of the cAMP-dependent protein kinase additional proteins became phosphorylated, but these had no effect on the Mg(2+)-NTPase activity. These results indicate that a protein with Mr 55,000 may be involved in the regulation the Mg(2+)-NTPase activity associated with rat cardiac nuclei.
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PMID:Regulation of rat cardiac nuclei-associated Mg(2+)-NTPase by phosphorylation. 165 81

The CFTR Cl- channel contains two predicted nucleotide-binding domains (NBD1 and NBD2); therefore, we examined the effect of ATP on channel activity. Once phosphorylated by cAMP-dependent protein kinase (PKA), channels required cytosolic ATP to open. Activation occurred by a PKA-independent mechanism. ATP gamma S substituted for ATP in PKA phosphorylation, but it did not open the channel. Several hydrolyzable nucleotides (ATP greater than GTP greater than ITP approximately UTP greater than CTP) reversibly activated phosphorylated channels, but nonhydrolyzable analogs and Mg(2+)-free ATP did not. Studies of CFTR mutants indicated that ATP controls channel activity independent of the R domain and suggested that hydrolysis of ATP by NBD1 may be sufficient for channel opening. The finding that nucleoside triphosphates regulate CFTR begins to explain why CF-associated mutations in the NBDs block Cl- channel function.
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PMID:Nucleoside triphosphates are required to open the CFTR chloride channel. 171 6

The first two steps of de novo pyrimidine synthesis in Saccharomyces cerevisiae are catalyzed by a multifunctional protein, coded by the URA2 gene and which has the carbamoyl-phosphate (CPSase) synthetase and aspartate transcarbamylase (ATCase) activities. The native enzyme purified from protease-B-deficient URA2-transformed cells, was phosphorylated in vitro using catalytic subunits of pure cAMP-dependent protein kinase. After electrophoresis under denaturing conditions, a single 240-kDa species was found to be phosphorylated. Trypsin digestion of this species gave a single, very acidic phosphopeptide upon isoelectric focussing. Purification by HPLC followed by amino acid sequencing of this peptide, showed a phosphoserine at the expected consensus sequence Arg-Arg-Phe-Ser. Knowledge of the URA2 gene sequence allowed the site to be located in the peptide link between dihydroorotase-like and ATCase domains. Such a location may explain why phosphorylation of the URA2 protein changed neither CPSase and ATCase activities nor their sensitivity to UTP, their common specific inhibitor.
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PMID:Yeast carbamoyl-phosphate-synthetase--aspartate-transcarbamylase multidomain protein is phosphorylated in vitro by cAMP-dependent protein kinase. 197 85

The regulation of Cl- conductance by cytoplasmic nucleotides was investigated in pancreatic and parotid zymogen granules. Cl- conductance was assayed by measuring the rate of cation-ionophore-induced osmotic lysis of granules suspended in iso-osmotic salt solutions. Both inhibition and stimulation were observed, depending on the type and concentration of nucleotide. Under optimal conditions, the average inhibition measured in different preparations was 1.6-fold, whereas the average stimulation was 4.4-fold. ATP was inhibitory at 1-10 microM but stimulated Cl- conductance above 50 microM. Stimulation by ATP was more pronounced in granules with low endogenous Cl- conductance. The potency of nucleotides in terms of inhibition was ATP greater than adenosine 5'-[gamma-thio]triphosphate (ATP[S]) greater than UTP much greater than or equal to CTP much greater than or equal to GTP much greater than or equal to guanosine 5'-[gamma-thio]triphosphate (GTP[S]) much greater than or equal to ITP. The potency with respect to stimulation had the following order: adenosine 5'-[beta gamma-methylene]triphosphate (App[CH2]p) greater than ATP greater than guanosine 5'-[beta-thio]diphosphate (GDP[S]). Adenosine 5'-[beta gamma-imido]triphosphate (App[NH]p) was also stimulatory, and was more potent than ATP in the parotid granules, but less potent in the pancreatic granules. Aluminium fluoride stimulated Cl- conductance maximally at 15-30 microM-Al3+ and 10-15 mM-F. F was less effective at higher concentrations. Protein phosphorylation by kinases was apparently not involved, since the nucleotide effects (1) could be mimicked by non-hydrolysable analogues of ATP and GTP, (2) showed reversibility, and (3) were not abolished by the protein kinase inhibitors 1-(5-isoquinolinesulphonyl)-2-methylpiperazine (H-7) or staurosporine. The data suggest the presence of at least two binding sites for nucleotides, whereby occupancy of one induces inhibition and occupancy of the other induces stimulation.
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PMID:Dual modulation of chloride conductance by nucleotides in pancreatic and parotid zymogen granules. 226 15

Extracellular ATP at 10 microM increased the concentration of cytoplasmic free Ca2+ ( [Ca2+]i) 3-fold in human neutrophils. The [Ca2+]i was measured by fura-2 fluorescence. The effect was rapid but transient: [Ca2+]i reached a maximum within 10 s and then returned to its resting value after 2-3 min. The rise in [Ca2+]i elicited by ATP was unaffected by the removal of extracellular Ca2+, indicating that the primary source of Ca2+ is from intracellular stores. In contrast to ATP, neither ADP nor AMP, at concentrations as high as 100 microM, caused any detectable changes in [Ca2+]i. Among other nucleotide triphosphates tested, UTP was as effective as ATP in causing a transient rise in [Ca2+]i, and prevented a subsequent response to ATP. Similarly, ATP prevented a subsequent response to UTP but the second response could be obtained when the initially added ATP was removed by the addition of hexokinase. Phorbol myristate acetate, the activator of Ca2+, phospholipid-dependent protein kinase, completely inhibited the ATP-induced increases in [Ca2+]i without affecting the basal [Ca2+]i level. The results suggest that extracellular ATP stimulates human neutrophils by causing the release of calcium from intracellular storage pools by mechanisms which can be inhibited by phorbol myristate acetate.
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PMID:ATP-induced calcium mobilization in human neutrophils. 249 55

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