EC:2.7.11.1 - FACTA Search

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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)

Phosphorylation of skeletal muscle glycogen synthase catalyzed by a protein kinase is stimulated up to 10-fold by the calcium-dependent regulator (CDR) protein. Half-maximal stimulation requires about 1 microgram of CDR/ml. Phosphorylation by the CDR-dependent synthase kinase is more rapid at pH 8.6 than at pH 6.8 and is blocked by ethylene glycol bis(beta-aminoethyl-ether)N,N'-tetraacetic acid and trifuloperazine. Approximately 60 to 70% of the phosphate is incorporated into the trypsin-insensitive region of glycogen synthase resulting in conversion of the a form to the b form of the enzyme. The CDR-dependent synthase kinase is not myosin light chain kinase, as this enzyme does not phosphorylate glycogen synthase. Furthermore, synthase phosphorylation by the cAMP-dependent protein kinase catalytic subunit is not affected by CDR. The possibility that CDR-dependent synthase kinase may be phosphorylase kinase is being investigated.
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PMID:Stimulation of glycogen synthase phosphorylation by calcium-dependent regulator protein. 10 93

Previously, two forms of cAMP-dependent protein kinase catalytic subunit generated by mutually exclusive use of two internal exon cassettes (A1 and A2) were demonstrated in Aplysia neurons. Here, it is shown that there also exist catalytic subunits with alternative N termini derived from two exons, N1 and N2, expressed in combination with either of the internal cassettes. Processed transcripts including N1 or N2 sequences are of about equal abundance in the nervous system, arise through alternative promoter use, and encode catalytically active polypeptides. The N2 amino acid sequence is 21 residues longer than the N1 sequence and is homologous to the nonmyristoylated N terminus of the TPK1 gene product, a yeast catalytic subunit homolog. These data support the view that cAMP-dependent protein kinase activity in Aplysia neurons is produced by a complex array of regulatory and catalytic subunits that generate multiple holoenzymes with a spectrum of properties.
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PMID:Catalytic subunits of Aplysia neuronal cAMP-dependent protein kinase with two different N termini. 154 55

The response of sodium, potassium-adenosine triphosphatase (Na,K-ATPase) to cyclic adenosine monophosphate (cAMP)-dependent protein kinase was examined in membranes obtained from rabbit iris-ciliary body. In the presence of the protein kinase together with 10(-5) M cAMP, Na,K-ATPase activity was reduced. No change in Na,K-ATPase activity was detected in response to the protein kinase without added cAMP. Likewise cAMP alone did not alter Na,K-ATPase activity. Reduction of Na,K-ATPase activity was also observed in the presence of the cAMP-dependent protein kinase catalytic subunit. The response of the enzyme to the kinase catalytic subunit was also examined in membranes obtained from rabbit ciliary processes. In the presence of 8 micrograms/ml of the catalytic subunit, ciliary process Na,K-ATPase activity was reduced by more than 50%. To examine whether other ATPases were suppressed by the protein kinase, calcium-stimulated ATPase activity was examined; its activity was stimulated by the catalytic subunit. To test whether the response of the ciliary process Na,K-ATPase is unique, experiments were also performed using membrane preparations from rabbit lens epithelium or rabbit kidney; the catalytic subunit significantly reduced the activity of Na,K-ATPase from the kidney but not the lens. These Na,K-ATPase studies suggest that in the iris-ciliary body, cAMP may alter sodium pump activity. In parallel 86Rb uptake studies, we observed that ouabain-inhibitable potassium uptake by intact pieces of iris-ciliary body was reduced by exogenous dibutryl cAMP or by forskolin.
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PMID:Alteration of sodium, potassium-adenosine triphosphatase activity in rabbit ciliary processes by cyclic adenosine monophosphate-dependent protein kinase. 217 Feb 91

Two Drosophila genes encoding products related to cGMP-dependent protein kinase have been isolated by cross-hybridization to a Drosophila cAMP-dependent protein kinase catalytic subunit gene. Both genes encode products with putative cGMP binding and kinase domains on the same polypeptide chain, as found for the prototypical bovine lung cGMP-dependent protein kinase. The deduced product of one gene (DG1; cytological position, 21D) is 14% larger than the bovine enzyme and differs substantially in sequence at the amino terminus, the region responsible in the bovine enzyme for dimerization. The second gene (DG2; cytological position, 24A) is transcribed into three major RNA species of different size. The largest (DG2; T1) and smallest (DG2;T3) RNAs encode overlapping polypeptides of similar sequence to the whole length of bovine lung cGMP-dependent protein kinase. The translation product of the third major RNA (DG2;T2) lacks sequences similar to those that constitute the dimerization and kinase inhibitory domains of the bovine enzyme. The percentage amino acid identity between DG1 or DG2 and bovine lung cGMP-dependent protein kinase is 55 and 64%, respectively. A common progenitor of the two cGMP-dependent protein kinase genes, DG1 and DG2, is strongly suggested by the conserved positions of introns in these genes.
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PMID:cGMP-dependent protein kinase genes in Drosophila. 273 45

Genomic DNA containing the protein coding region for Drosophila cAMP-dependent protein kinase catalytic subunit has been cloned and sequenced. The probe used to detect and isolate the gene fragment was constructed from two partially complementary synthetic oligonucleotides and contains 60 base pairs that encode (using Drosophila codon preferences) amino acids 195-214 of the beef heart catalytic subunit. In reduced stringency hybridization conditions, the probe recognizes two target sites in fly genomic DNA with 85% homology. One of these sites is in the cAMP-dependent protein kinase catalytic subunit gene, which was isolated as a 3959-base pair HindIII fragment. This fragment contains all of the protein coding portion, 900 base pairs upstream of the initiator ATG, and 2000 base pairs downstream of the termination codon (TAG). The coding portion of the gene contains no introns and yields a protein of 352 amino acids. There is a 2-amino acid insertion near the N terminus of the fly protein relative to the beef and mouse enzymes. Of the remaining 350 amino acids, 273 are invariant in the three species. A probe derived from the coding sequence of the HindIII clone hybridizes strongly to a 5100-base poly(A)+ RNA and weakly to 4100- and 3400-base poly(A)+ RNAs expressed in adult flies. A 2100-base pair EcoRI genomic fragment containing the second site recognized by the 60-base pair probe has also been cloned. DNA sequence analysis demonstrates that this fragment is part of the cGMP-dependent protein kinase gene or a close homolog. The catalytic subunit gene and the cGMP-dependent protein kinase gene have been located in regions 30C and 21D, respectively, of chromosome 2.
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PMID:Cloning, sequence, and expression of the Drosophila cAMP-dependent protein kinase catalytic subunit gene. 282 48

Evidence is presented that demonstrates that phosphatidylserine synthase (CDPdiacylglycerol:L-serine O-phosphatidyltransferase, EC 2.7.8.8) from Saccharomyces cerevisiae is phosphorylated in vivo and in vitro by cAMP-dependent protein kinase. Phosphatidylserine synthase activity in cell extracts was reduced in the bcy1 mutant (which has high cAMP-dependent protein kinase activity) and elevated in the cyr1 mutant (which has low cAMP-dependent protein kinase activity) when compared with wild-type cells. The reduced phosphatidylserine synthase activity in the bcy1 mutant correlated with elevated levels of a phosphorylated form of the phosphatidylserine synthase Mr 23,000 subunit. The elevated phosphatidylserine synthase activity in the cyr1 mutant correlated with reduced levels of the phosphorylated form of the enzyme. There was negligible phosphorylation of the phosphatidylserine synthase Mr 23,000 subunit from stationary-phase cells. Pure phosphatidylserine synthase was phosphorylated by the cAMP-dependent protein kinase catalytic subunit, which resulted in a 60-70% reduction in phosphatidylserine synthase activity. The cAMP-dependent protein kinase catalytic subunit catalyzed the incorporation of 0.7 mol of phosphate per mol of phosphatidylserine synthase Mr 23,000 subunit. The specific cAMP-dependent protein kinase inhibitor prevented the phosphorylation of phosphatidylserine synthase and the inhibition of its activity by the catalytic subunit. Analysis of peptides derived from protease-treated labeled phosphatidylserine synthase showed only one labeled peptide. Phospho amino acid analysis of labeled phosphatidylserine synthase showed that the enzyme was phosphorylated at a serine residue.
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PMID:Phosphorylation of yeast phosphatidylserine synthase in vivo and in vitro by cyclic AMP-dependent protein kinase. 284 49

The effects of 8-bromo-cGMP on intracellular calcium concentrations in cultured rat aortic smooth muscle cells were studied. Both angiotensin II and depolarizing concentrations of K+ stimulated Ca2+ accumulation in the cytoplasm. The increase in Ca2+ due to angiotensin II was associated with an increase in inositol phosphates, while that due to K+ was not. Preincubation of cells with 8-bromo-cGMP (100 microM) caused an inhibition of peak Ca2+ accumulation to either angiotensin II or K+. To probe the mechanism of action of cGMP in vascular smooth muscle, the effects of cGMP-dependent protein kinase on Ca2+-ATPase from the cultured cell particulate material were investigated. Ca2+-activated ATPase was stimulated approximately equal to 2-fold by exogenous calmodulin and up to 4-fold by low concentrations of purified cGMP-dependent protein kinase. The inclusion of both calmodulin and cGMP-dependent protein kinase resulted in an additive stimulation of Ca2+-ATPase. Stimulation of Ca2+-ATPase activity was observed at all Ca2+ concentrations tested (0.01-1.0 microM). cAMP-dependent protein kinase catalytic subunit and protein kinase C were either ineffective or less effective than cGMP-dependent protein kinase in stimulating the Ca2+-ATPase from rat aortic smooth muscle cells. These results suggest a possible mechanism of action for cGMP in mediating decreases in cytosolic Ca2+ through activation of a Ca2+-ATPase and the subsequent removal of Ca2+ from the cell.
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PMID:Effects of 8-bromo-cGMP on Ca2+ levels in vascular smooth muscle cells: possible regulation of Ca2+-ATPase by cGMP-dependent protein kinase. 303 2

A peptide-based photoaffinity label for the catalytic subunit of the cAMP-dependent protein kinase was prepared from the amino acid p-benzoyl-L-phenylalanine [L-Phe(pBz)]. By using solid-phase peptide synthesis methodology, DL-Phe(pBz) was incorporated into the cAMP-dependent protein kinase substrate Leu-Arg-Arg-Ala-Ser-Leu-Gly in place of the phosphorylatable serine. The diastereomeric peptides were separated by reverse-phase HPLC. The peptide substrate analog containing L-Phe(pBz) had a Ki of approximately 110 microM at pH 7.5. When photolyzed at 350 nm in the presence of the enzyme, this peptide caused time- and concentration-dependent inactivation. Radioactive acetylated L-Phe(pBz) peptide was used to establish the binding stoichiometry of peptide to enzyme; these results, together with protection experiments, showed the photoaffinity labeling to be specific (approximately 1:1). To identify the residues that were modified on the catalytic subunit, the photoinactivated enzyme was cleaved with CNBr and V8 protease (Staphylococcus aureus). The resulting peptide fragments were purified by HPLC and were sequenced; these experiments identified the modified residues as Gly-125 and Met-127. This region of the cAMP-dependent protein kinase catalytic subunit contains many residues that are conserved in serine- and tyrosine-protein kinases.
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PMID:Probing the peptide binding site of the cAMP-dependent protein kinase by using a peptide-based photoaffinity label. 339 99

A heat-stable protein inhibitor of cAMP-dependent protein kinase has been isolated from pig brain tissue. During gel filtration the protein is eluted in three peaks corresponding to the tetramer, dimer and monomer. The monomer fraction was purified 609-fold. The molecular mass of the monomeric form as determined by gel filtration and electrophoresis is equal to 11,000 Da and 8000 Da, respectively. The inhibition of the phosphotransferase reaction with respect to ATP occurs via a non-competitive mechanism, while that for histone--via a competitive mechanism. A formal kinetic analysis of various modes of the inhibitor binding to different protein kinase forms, e. g., the cAMP-dependent protein kinase catalytic subunit, protein kinase holoenzyme in the presence and absence of cAMP as well as of holoenzyme preparations modified by dimethylsuberimidate and cupric 1,10-phenanthroline, has been carried out. It was demonstrated that 3-4 inhibitor molecules are involved in the interaction with protein kinase.
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PMID:[A thermostable protein inhibitor of protein kinase from the swine brain. Isolation of the inhibitor and interaction with the enzyme]. 344 Jan 12

An attempt was made to activate the capillary-bound fraction of lipoprotein lipase (LPL) with cAMP-dependent protein kinase catalytic subunit (PKC). Following a 30s washout period, hearts were perfused for 1 min with buffer containing heparin. Medium was collected during the second 30s of heparin perfusion. Addition of PKC+Mg-ATP to this capillary bed perfusate increased LPL activity from 6.84 +/- 0.72 nmol/ml/min to 13.76 +/- 1.12 nmol/ml/min (P less than 0.001). A similar 2-fold increase in activity was observed when results were expressed on a mg protein basis. Removal of serum from, or addition of 1.0M NaCl to, the assay system inhibited PKC-stimulated LPL activity approximately 85%. These results indicate that capillary alkaline LPL can be activated by PKC assayed under experimental conditions free of other TG lipases. Moreover, these findings suggest that the intracellular fraction of LPL can be activated by cAMP and that this activation is mediated through protein phosphorylation by cAMP-dependent protein kinase.
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PMID:Protein kinase activation of heparin-releasable lipoprotein lipase in rat heart. 395 70

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