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)

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 report the molecular cloning of cDNAs for S6 kinase II (S6KII) mRNAs present in Xenopus ovarian tissue. Two cDNAs were isolated by hybridization to oligonucleotide probes designed to encode tryptic peptides isolated from S6KII. The two cDNAs show 91% sequence similarity to each other. These two cDNAs predict proteins of 733 (S6KII alpha) and 629 (S6KII beta) amino acids that show 95% sequence similarity over the 629 amino acids where they are colinear. Amino acids 44-733 of S6KII alpha were expressed in Escherichia coli and the recombinant protein was used to raise antiserum in rabbits. This antiserum reacted with authentic S6KII prepared from Xenopus eggs. This interaction was specifically blocked by the recombinant protein from E. coli. The sequences of S6KII alpha and -beta predict four tryptic peptides whose sequences are identical to four peptides isolated from a tryptic digest of S6KII. The S6KII proteins have a very unusual structure when compared with previously studied protein kinases. They contain two apparent kinase domains, each similar to distinct protein kinases. The amino-terminal 366 amino acids show high sequence similarity to the regions of protein kinase C, the catalytic subunit of cAMP-dependent protein kinase, and cGMP-dependent protein kinase that contain the sites for ATP binding and are believed to be the catalytic centers for phosphotransferase activity. The remainder of the S6 kinase molecule shows high sequence similarity to the ATP-binding and presumed catalytic domain of the catalytic subunit of phosphorylase b kinase.
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PMID:A Xenopus ribosomal protein S6 kinase has two apparent kinase domains that are each similar to distinct protein kinases. 336 49

Modifications in characteristics and activities of beta-adrenergic receptors and certain parameters of the cyclic nucleotide systems were observed in the hypertrophied heart of the rat chronically treated with T4. These include: 1) an increased number of beta-adrenergic receptors without a change in their affinity, as determined by binding of (-)-[3H]dihydroalprenolol to the membrane; 2) increased sensitivity and magnitude of stimulation of adenylate cyclase in homogenates by isoproterenol, without a change in the basal or NaF-stimulated (total) enzyme activity; 3) decreased formation of cAMP and decreased activation of cAMP-dependent protein kinase in the minced heart stimulated by isoproterenol, probably due to decreased myocardial ATP concentration; 4) decreased activity of cAMP phosphodiesterase in the particulate fraction; 5) decreased activity of cGMP-dependent protein kinase in both the soluble and particulate fractions, accompanied by decreased activity of cAMP-dependent protein kinase in the particulate fraction; 6) decreased activity of the stimulatory modulator of cGMP-dependent protein kinase and, conversely, increased activity of the inhibitory modulator of cAMP-dependent protein kinase; and 7) increased sensitivity accompanied by decreased maximum tension development of the ventricular strip to contract in response to isoproterenol. These alterations largely disappeared upon regression of the hyperthyroid state. It is suggested that the above changes, many of which were the opposite of those reported earlier for the desensitized and hypertrophied rat heart caused by isoproterenol, may in part consitute the molecular basis for the reputed catecholamine supersensitivity of the heart in the hyperthyroid state.
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PMID:Thyroxine-induced changes in characteristics and activities of beta-adrenergic receptors and adenosine 3',5'-monophosphate and guanosine 3',5'-monophosphate systems in the heart may be related to reputed catecholamine supersensitivity in hyperthyroidism. 624 45

The amino acid sequence at the ATP-binding site on the cGMP-dependent protein kinase has been determined. For this determination the enzyme was labeled covalently by 5'-p-fluorosulfonyl[14C]benzoyladenosine and fragmented using cyanogen bromide or digested by trypsin after succinylation. The 14C-labeled peptides were purified by gel filtration and high performance liquid chromatography. The amino acid sequence around the site was found to be: -Val-Glu-Leu-Val-Gln-Leu-Lys-Ser-Glu-Glu-Ser-Lys-Thr-Phe-Ala-Met-*Lys-Ile-Leu-Lys--Lys-Arg-His-Ile-Val-Asp-Thr-Arg-Gln-Gln-Glu-His-Ile-Arg-Ser-Glu-Lys-, in which *Lys is the lysine residue that was modified by the affinity reagent. When this sequence was compared with that of the ATP-binding site of the catalytic subunit of cAMP-dependent protein kinase, a high degree of structural homology was observed for this site in the two proteins.
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PMID:Amino acid sequence at the ATP-binding site of cGMP-dependent protein kinase. 627 62

The cAMP-dependent protein kinases comprise two enzyme forms designated as type I and type II. The type II enzyme can catalyze an autophosphorylation reaction whereby phosphate is transferred from ATP to one seryl residue on each regulatory subunit monomer. Since this reaction can occur in the absence of cAMP-induced enzyme dissociation, it has been used as a probe to identify one site of interaction between the catalytic subunit (C) and the type II regulatory subunit (R11). The type I cAMP-dependent protein kinase does not catalyze an analogous reaction; however, if cGMP-dependent protein kinase is substituted for C, the type I regulatory subunit (R1) becomes phosphorylated. The effects of cyclic nucleotides on this reaction, coupled with the ability of R1 to serve as an inhibitor of cGMP-dependent protein kinase suggest that this phosphorylation also occurs within an important functional domain on R1. A comparison of the autophosphorylation site on R11 with the cGMP-dependent protein kinase catalyzed phosphorylation site on R1 indicates that each modification takes place within a similar proteolytically sensitive region. On each subunit, this sensitive "hinge" region lies distal to the functional domain responsible for regulatory subunit dimerization and proximal to that responsible for cAMP binding. Phosphorylation of the "hinge" region decreases the affinity of each regulatory subunit for C, although the magnitude of this change appears greater for R1 than for R11. Phosphorylation of R1 also reduces the stoichiometry of cAMP binding from two to one mole of cAMP bound per mole of R1 monomer. These results suggest that the "hinge" regions of both R1 and R11 form part of the interaction site between the regulatory subunit and C; and, in the case of R1, it also forms a portion of one of two cAMP-binding sites. The amino acid sequence surrounding the phosphorylated serine of each regulatory subunit has been determined: R11: D-R-R-V-S(P)-V R1: R-R-R-R-G-A-I-S(P)-A It is thought that the number and position of the basic amino acid residues proximal to the modified serine may be responsible, in part, for determining the susceptibility of each site to phosphorylation by cAMP or cGMP-dependent protein kinase. Both R1 and R11 exist as phosphoproteins in vivo. Dephosphorylation of purified "native" phospho-R1 is without effect on the ability of R1 to interact with either C or cAMP. The site phosphorylated in vivo is therefore distinct from that modified in vitro by cGMP-dependent protein kinase. In addition to the autophosphorylation site, R11 possesses a second, less enzymatically reactive, phosphorylation site that is modified in vivo. Dephosphorylation of this site is also without apparent effect on the functional properties of R11. The kinases responsible for catalyzing the phosphorylation of R1 and the cryptic site on R11 and the role that these modifications play in modulating kinase activity are currently unknown but are under active investigation.
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PMID:Phosphorylation of cAMP-dependent protein kinase subunits. 628 16

Using ion-exchange chromatography and gel filtration, cGMP-dependent protein kinase was purified from prawn tissues 220-fold with a yield of activity of 12%. The apparent Ka values for cGMP, cAMP and 8-Br-cGMP are 1 . 10(-7), 5 . 10(-6) and 5 . 10(-8) M, respectively; the apparent Km values for ATP in the presence of cGMP is 9 . 10(-6) M. The cGMP-stimulated protein kinase activity was observed only in the presence of SH-compounds and high Mg2+ concentrations (500-100 mM). The protein kinase demonstrated a broad pH optimum wih a maximum at pH 6.8-7.2. The elution volume of the enzyme during gel filtration corresponded to a globular protein with molecular weight of 140,000.
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PMID:[Partial purification and properties of cGMP-dependent protein kinase from prawn tissue]. 628 21

Using affinity chromatography on 8-(2-aminoethyl)-amino-cAMP Sepharose, the cGMP-dependent protein kinase (ATP: protein phosphotransferase, EC 2.7.1.37) from tissues of the prawn Palaemon adspersus was purified to homogeneity as demonstrated by polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate. The degree of enzyme purification was 11 200, recovery--6.5%; the isoelectric point for the enzyme lies at 5.5. Data from gel filtration and centrifugation in sucrose density gradient suggest that the dimer of cGMP-dependent protein kinase has a molecular weight of 157 000, sedimentation coefficient of 7.2S and a Stokes' radius of 50 A. An active form of the enzyme with Mr = 76 500 (4.5S, 39 A) which apparently represents a subunit of the cGMP-dependent protein kinase was discovered. The activity of the both enzyme forms are stimulated by low concentrations of cGMP (Ka = 1.10(-7) M). The monomer and dimer molecules appear as prolate ellipsoids with axial ratios close to 7. The native cGMP-dependent protein kinase is probably made up of two subunits each of which contains a regulatory and a catalytic sites.
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PMID:[Affinity chromatography and properties of cGMP-dependent protein kinase from prawn tissues]. 630 59

Several endogenous substrate proteins of cilia from axenically grown Paramecium tetraurelia were phosphorylated in vitro by inherent protein kinases (PKs). Labeling was stimulated by cAMP and to a lesser extent by cGMP. ATP breakdown was most rapid in cilia and subciliary fractions. Using multiple substrate additions during incubations it was shown that phosphorylation was almost completed within 30 s. Very little dephosphorylation by phosphoprotein phosphatases occurred during 5 min of incubation. Proteins of molecular weight of 103 000 and 46 000 were shown to be particularly associated with axonemal structures of the cilia. No distinct differences in phosphorylation patterns were apparent in ciliary membrane vesicles of low and high buoyant density, which exhibit differential enzyme patterns. cAMP receptor proteins were identified by use of the photoaffinity label 8-azido-[32P]cAMP. Receptor proteins with apparent molecular weights of 43 000, 39 000, 37 000, 31 000 and 30 000 were probably related to the regulatory subunits of cAMP-dependent protein kinases as evidenced by inhibition of incorporation of the photoaffinity label by low concentrations of cAMP. Tagging of a protein of 85 000 molecular weight was specifically inhibited by cGMP, thus in all likelihood it corresponded to a cGMP-dependent protein kinase. Corresponding autophosphorylated protein bands were observed with gamma-[32P]ATP. A functional role for protein phosphorylation in cilia of Paramecium remains to be established.
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PMID:Phosphorylation of endogenous proteins of cilia from Paramecium tetraurelia in vitro. 631 38

The ATP analog specificities of the homogeneous cGMP-dependent protein kinase and the catalytic subunit of cAMP-dependent protein kinase have been compared by the ability of 27 analogs to compete with ATP in the protein kinase reaction. Although the data suggest general similarities between the ATP sites of the two homologous cyclic-nucleotide-dependent protein kinases, specific differences especially in the adenine binding pocket are indicated. These differences in affinity suggest potentially useful ATP analog inhibitors of each kinase. For example, apparent autophosphorylation of the purified regulatory subunit of the cAMP-dependent protein kinase is blocked by nebularin triphosphate, suggesting that the phosphorylation is catalyzed by trace contamination of cGMP-dependent protein kinase. Some of the ATP analogs have also been tested using phosphorylase b kinase in order to compare this enzyme with the cyclic-nucleotide-dependent enzymes. All three protein kinases have high specificity for the purine moiety of ATP, and lower specificity for the ribose or triphosphate. The similarity between the ATP site of phosphorylase b kinase to that of the cyclic-nucleotide-dependent protein kinases suggests that it is related to them. The ATP analog specificities of enzymes examined in this study are different from those reported for several unrelated ATP-utilizing enzymes.
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PMID:ATP analog specificity of cAMP-dependent protein kinase, cGMP-dependent protein kinase, and phosphorylase kinase. 632 82

Sarcolemmal fractions of vascular smooth muscles were prepared from porcine thoracic aortae by differential and sucrose density gradient centrifugation. In these fractions, there was a high activity of 5'-nucleotidase, a putative marker enzyme of plasma membrane, and a low activity of rotenone insensitive NADH-cytochrome c reductase a marker of sarcoplasmic reticulum. In these fractions, the Ca2+ uptake was ATP-dependent. A low concentration of saponin which inhibited Ca2+ uptake by the plasma membrane but not by the sarcoplasmic reticulum, inhibited 65% of the Ca2+ uptake of this fraction. The Ca2+ uptake of this fraction was enhanced by cAMP- and cGMP-dependent protein kinases, and by calmodulin. The cAMP-dependent protein kinase enhanced the phosphorylation of 28 and 22 kDa proteins, while the cGMP-dependent protein kinase phosphorylated the 35 kDa protein. The phosphorylation of 100, 75, 65, 41 and 22 kDa proteins was enhanced by Ca2+ and calmodulin. These results indicate that cAMP- and cGMP-dependent protein kinases as well as calmodulin play important roles in Ca2+ transport in the sarcolemma, and that the phosphorylated proteins may be associated with an enhancement of Ca2+ transport in the sarcolemma.
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PMID:Effects of cAMP- and cGMP-dependent protein kinases, and calmodulin on Ca2+ uptake by highly purified sarcolemmal vesicles of vascular smooth muscle. 632 80


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