Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:2.7.11.12 (PKG)
2,515 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The guanosine 3':5'-monophosphate-dependent protein kinase from bovine lung was purified to apparent homogeneity by affinity chromography using 8-2-aminoethylthio-cGMP coupled to Sepharose 4B. The kinase activity was purified approximately 6000-fold with an overall recovery of approximately 20%. The product isolated by affinity chromatography contained both cGMP-binding and cGMP-dependent histone kinase activity, indicating that the enzyme was not dissociated into regulatory and catalytic components by the immobilized cGMP derivative. The enzyme had a molecular weight of approximately 165,000 and a sedimentation coefficient of 7.8 S. The purified kinase displayed several characteristics similar to that of the partially purified enzyme including specificity for cGMP and stimulation by high concentrations of magnesium. On sodium dodecyl sulfate gels, only one major polypeptide chain was present having a molecular weight of approximately 81,000. This subunit bound 1 mol of cGMP and exhibited cGMP-dependent protein kinase activity. It is proposed that the native enzyme consists of two identical subunits (Mr=81,000), each of which binds cGMP and catalyzes protein phosphorylation.
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PMID:Purification and subunit composition of guanosine 3':5'-monophosphate-dependent protein kinase from bovine lung. 19 62

A monoclonal antibody was made using the spleen cells of a mouse immunized with chick synaptic membranes and designated as mAb 1D12. It immunoprecipitated 25% of the omega-conotoxin binding protein but no dihydropyridine binding protein solubilized from chick brain membranes. By immunoblotting, a polypeptide of 58-kDa was identified as the antigen of this antibody in chick, rat, rabbit and guinea pig brain. Immunohistochemical observation indicated the immunoreactivity of mAb 1D12 to be localized in the synaptic regions of central and peripheral neurons. In peripheral organs, there was additional staining in the distal portions of nerve fibers. Immunoelectron microscopy showed immunoreactivity to be located in synaptic vesicle and presynaptic plasma membranes. In the subcellular fractionation of rat brain, 58-kDa protein was recovered in the fractions of synaptic vesicles and plasma membranes but not soluble proteins. This protein could be extracted from membranes by Triton X-100 but treatment with EDTA, acid, base or high salt failed to have such effect. Solubilized 58-kDa protein of rat brain was purified by immunoaffinity chromatography using mAb 1D12. Both protein kinase C and Ca2+/calmodulin-dependent protein kinase II (CaM kinase II) phosphorylated purified 58-kDa protein, and maxima of 0.47 and 0.94 mol of phosphates, respectively, were incorporated per mol of 58-kDa protein. 58-kDa protein was not phosphorylated by either cAMP-dependent or cGMP-dependent protein kinase. When present in membranes, it was also phosphorylated by protein kinase C and CaM kinase II. Possible involvement of 58-kDa protein in the protein kinase C and CaM kinase II-mediated regulation of synaptic transmission in central and peripheral neurons is discussed.
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PMID:Protein kinase C and Ca2+/calmodulin-dependent protein kinase II phosphorylate a novel 58-kDa protein in synaptic vesicles. 165 60

The light-sensitive channel in the surface membrane of vertebrate photoreceptors is gated directly and cooperatively by cGMP, and the activation mechanism does not involve phosphorylation by a cGMP-dependent protein kinase. The channel protein most likely is composed of several copies of a single type of polypeptide, which can be removed from photoreceptor membranes by detergents and functionally reincorporated into the membrane of liposomes or planar bilayers. Most channel properties are preserved in the reconstituted system and provide a unique system to study the mechanisms of activation, regulation, and ion permeation in more detail.
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PMID:Electrical and biochemical properties of the cGMP-gated cation channel from rod photoreceptors. 247 7

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

cGMP-dependent protein kinase (G-kinase) and the regulatory subunit of type I (RI) cAMP-dependent protein kinase (A-kinase) both contain a phosphorylation site located near the NH2 terminus of each enzyme. These sites can be utilized as convenient markers for the determination of the position of an amino acid residue susceptible to either chemical or enzymatic digestion. Using the tryptophan-specific reagent, N-chlorosuccinimide, the approximate location along the polypeptide chain of six reactive tryptophans in G-kinase and three reactive residues in RI were identified. Similarly, cleavage with cyanide was used to locate free and disulfide-bonded cysteines in both proteins. The approximate positions of nine cysteines in G-kinase were determined along with the location of the interchain disulfide bond and an intrachain disulfide bond. RI was found to contain three cyanide-reactive cysteines, two of which are involved in interchain disulfide bonding. A comparison of the positions of the cysteines and tryptophans determined by chemical cleavage in G-kinase and RI, with the positions of cysteine and tryptophan in the known sequence of the type II A-kinase, support the structural relationships between these enzymes. Comparison with subsequently reported primary sequences of all three enzymes indicates the limits of precision of this chemical cleavage procedure.
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PMID:A comparison of the cyclic nucleotide-dependent protein kinases using chemical cleavage at tryptophan and cysteine. 299 85

An unusual monomeric cGMP-dependent protein kinase, enriched in cilia, was isolated from Paramecium cilia and whole cells. Cilia and whole cell extracts had relatively high ratios of cGMP-dependent to cAMP-dependent protein kinase activity (1:2). The calculated molecular weight of the native enzyme was 88,000. The enzyme was identified on sodium dodecyl sulfate-polyacrylamide gels as a 77,000 molecular weight band based on copurification of this protein with enzyme activity, 8-N3-[32P]cAMP labeling, and autophosphorylation. Based on the size of the native enzyme, it was concluded that the kinase is a monomer with cGMP-binding and catalytic activities on the same polypeptide. Dimer-sized cGMP-dependent protein kinase, like that of the well characterized mammalian enzyme, was never seen, despite stringent efforts to control proteolysis. The structure of the Paramecium cGMP-dependent protein kinase supports a model in which the dimeric vertebrate form of the enzyme evolved from an early monomeric form. The catalytic properties of the Paramecium enzyme differed in several respects from those of the mammalian enzyme: it could use GTP or ATP as the phosphoryl donor, it did not phosphorylate Kemptide effectively, and it had poor histone kinase activity with high Mg2+ concentrations. Quercertin, 5'-guanylyl imidodiphosphate, indomethacin, and the isoquinolinesulfonamide drug H7 inhibited Paramecium cGMP-dependent protein kinase activity. The enzyme had fast and slow binding sites (with kd values of 5-10 x 10(-3)s-1 and 0.44 x 10(-3)s-1) and showed an order of preference for cyclic nucleotides and cyclic nucleotide analogs similar to that of the mammalian enzyme.
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PMID:A novel cGMP-dependent protein kinase from Paramecium. 318 84

We have used mammalian probes to clone genes encoding the catalytic (C) and type I regulatory (RI) components of the cAMP-dependent protein kinase in Drosophila. Both Drosophila gene products are very similar in amino acid sequence (RI, 71%; C, 82%) to their respective mammalian counterparts, implying homologous activity. A single Drosophila type I regulatory subunit gene is the source of at least three distinct transcripts originating from different promoters and spliced to a common body that would encode a full-length analog and two amino-terminally truncated variants of the mammalian RI protein. The RI locus also includes two intronic genes of unknown function. A single highly conserved catalytic subunit gene (DC0) was found that codes for a single polypeptide. It was used to isolate 11 further more distantly related apparent protein kinase genes. Two of these genes (DC1 and DC2) are sufficiently similar to DC0 in sequence (45% and 49% amino acid identity, respectively) that they could conceivably encode products of overlapping function. Two further genes are very similar in sequence to bovine cGMP-dependent protein kinase. The remaining putative gene products include amino acid sequence motifs characteristic of serine-threonine protein kinases but cannot, from the available data, be defined as homologous to specific protein kinases of other organisms.
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PMID:Isolation and characterization of Drosophila cAMP-dependent protein kinase genes. 321 11

The purified type I regulatory subunit of cAMP-dependent protein kinase is a dimeric protein, and the two protomers of the dimer are linked by two interchain disulfide bonds. The disulfide linkages that join these two polypeptide chains have been identified in order to provide a structural basis for the orientation of the two chains in the asymmetric dimer. Disulfide bonds were found to exist exclusively between Cys-16 and Cys-37, and this assignment, thus, establishes a general antiparallel alignment of the two chains. Two other homologous proteins, the type II regulatory subunit and the cGMP-dependent protein kinase also are dimeric proteins. In all three proteins, a relatively small, nonhomologous, amino-terminal segment of the polypeptide chain is essential for maintaining the dimeric aggregation state.
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PMID:Antiparallel alignment of the two protomers of the regulatory subunit dimer of cAMP-dependent protein kinase I. 366 18

Two murine monoclonal antibodies (H5 and B6) generated against bovine heart type II regulatory subunit of cAMP-dependent protein kinase were shown to cross-react equally well with the homologous subunit from porcine heart. The antibodies demonstrated specificity for only the type II regulatory subunit and showed negligible cross-reactivity with the type I regulatory subunit, the catalytic subunit, and cGMP-dependent protein kinase. Following limited proteolysis of type II regulatory subunit with chymotrypsin, the H5 monoclonal antibody was shown to cross-react with the Mr = 37,000 cAMP-binding domain corresponding to the COOH-terminal region of the polypeptide chain. To more specifically localize the antigenic sites, the porcine type II regulatory subunit was carboxymethylated and cleaved with cyanogen bromide. Both monoclonal antibodies cross-reacted with the NH2-terminal CNBr peptide, and this peptide demonstrated affinities similar to native bovine type II regulatory subunit in competitive displacement radioimmunoassays. Tryptic cleavage of this CNBr fragment destroyed all antigenicity for both monoclonal antibodies, whereas antigenicity was retained following chymotryptic digestion. A single major immunoreactive chymotryptic fragment that cross-reacted with H5 was isolated by gel filtration and reverse phase high performance liquid chromatography. this peptide retained the complete antigenic site and had the following sequence: Asn-Pro-Asp-Glu-Glu-Glu-Glu-Asp-Thr-Asp-Pro-Arg-Val-Ile-His-Pro-Lys-Thr-Asp-Gl n. This antigenic site was localized just beyond the major site of autophosphorylation, approximately a third of the distance from the NH2-terminal end of the polypeptide chain.
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PMID:Monoclonal antibodies as structural probes of surface residues in the regulatory subunit of cAMP-dependent protein kinase II from porcine heart. 618 75

The regulatory subunit of the type I cAMP-dependent protein kinase (RI), isolated from bovine or rat skeletal muscle, can be phosphorylated both in vitro (Geahlen, R. L., and Krebs, E. G. (1980) J. Biol. Chem. 255, 1164-1169) and in vivo (Geahlen, R. L., and Krebs, E. G. (1980) J. Biol. Chem. 255, 9375-9379). The effects of each modification on the ability of RI to associate with the catalytic subunit (C) and with cAMP are compared. The phosphorylation of bovine RI in vitro by cGMP-dependent protein kinase results in a loss of inhibitory activity toward C and in the loss of one of two cAMP binding sites per RI monomer. Inhibitory activity can be regained upon removal of the phosphate with potato acid phosphatase. Similar effects are not observed for the subunits phosphorylated in vivo. A comparison of unmodified bovine RI with RI modified in vivo reveals no differences in their interactions with either C or cAMP. Dephosphorylation of purified rat RI also does not affect its association with C or subsequent activation by cAMP. Dephosphorylated rat RI is not a substrate for C but can be slowly phosphorylated by cGMP-dependent protein kinase. The phosphorylation of RI in isolated rat soleus muscles is not inhibited by cycloheximide, ruling out the possibility that only nascent polypeptide chains are substrates for phosphorylation in vivo.
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PMID:Effect of phosphorylation on the regulatory subunit of the type I cAMP-dependent protein kinase. 626 Aug 3


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