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)

Vpu as a human-immunodeficiency-virus-type-1-encoded 81-amino-acid integral-membrane protein was expressed in Escherichia coli using the inducible ptrc promoter of an ATG fusion vector. Recombinant Vpu is associated with membranes of E. coli and could be partially solubilized by detergents. Recombinant Vpu was phosphorylated in vitro with purified porcine casein kinase II (CKII) as well as with a CKII-related protein kinase found in cytoplasmic extracts of human and hamster cells. Recombinant Vpu associated with E. coli membranes has turned out to be the best substrate for in vitro phosphorylation with CKII. This reaction can be inhibited by heparin and the ATP analogue 5,6-dichloro-1-(beta-D-ribofuranosyl)benzimidazole (DRB), both known to be potent inhibitors of CKII. Radiolabelled gamma ATP and gamma GTP were used as phosphate donors in vitro phosphorylation of recombinant Vpu. In vivo phosphorylation of Vpu in HIV-1-infected H9 cells was also inhibited by DRB. We concluded therefrom that the Vpu protein is phosphorylated by the ubiquitous CKII in HIV-1-infected human host cells. Two seryl residues in the sequence of Vpu (position 52 and 56) correspond to the consensus S/TXXD/E for CKII. These potential phosphorylation sites are located within a well-conserved dodecapeptide of Vpu (residues 47-58), which is found in different HIV-1 strains as well as in a Vpu-like protein of SIVCPZ. Monoclonal and polyclonal antibodies directed against two different epitopes of Vpu were used for immunoprecipitation of Vpu from HIV-1-infected cells and for detection of Vpu in Western blot analyses. Vpu from HIV-1-infected cells as well as recombinant Vpu expressed in E. coli were determined by SDS/PAGE using 6 M urea to be 9 kDa, which corresponds to the calculated molecular mass of Vpu.
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PMID:Human-immunodeficiency-virus-type-1-encoded Vpu protein is phosphorylated by casein kinase II. 154 Dec 98

Human tau phosphorylation has been studied in transfected COS-1 cells. Treatment with okadaic acid alters the electrophoretic mobility of human tau protein transiently expressed in transfected cells, due to an increase in the level of phosphorylation. Treatment with okadaic acid also results in an increased phosphorylation of Alzheimer's disease-type phosphoepitopes. Tau phosphorylation within COS-1 cells is partially inhibited by in vivo treatment with DRB, a protein kinase inhibitor. Double treatment of transfected cells with okadaic acid and DRB reveals that phosphorylation of tau protein at the AT8 epitope is achieved by a DRB-resistant protein kinase which is different from that responsible for tau phosphorylation at the SMI-31 epitope, which appears to be sensitive to DRB.
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PMID:Protein kinases involved in the phosphorylation of human tau protein in transfected COS-1 cells. 863 42

Pituitary adenylate cyclase activating polypeptide (PACAP) increases glycoprotein hormone alpha-subunit mRNA levels suggesting a role for PACAP in maintaining the high levels of alpha-subunit protein characteristic of the pituitary. The present study used primary pituitary cell cultures and the alpha T3-1 pituitary cell line to investigate how PACAP affects alpha-subunit mRNA transcripts. Stimulation of cultured pituitary cells with 10 nM PACAP38, 10 nM GnRH, or the combination, for 24 h increased alpha-subunit mRNA levels 1.5-fold, whereas GnRH more effectively (P<0.01) stimulated alpha-subunit protein release than did PACAP38 (3.2- vs. 2.0-fold). alpha-Subunit mRNA levels in alphaT3-1 cells were also increased by PACAP38 and by GnRH to maximum values at 12 h (P<0.05), and alpha-subunit protein secretion rose proportionately and in parallel with alpha-subunit mRNA levels. PACAP38 was a 100-fold more potent stimulator of alpha-subunit mRNA than was VIP, and a VIP-antagonist failed to block the stimulatory effect of PACAP38, suggesting an effect via type PACAP 1 receptors. Type I receptor mRNA transcripts were identified by Northern analysis in alphaT3-1 cells. Depletion of PCK activity by PMA failed to block the stimulatory effect of PACAP38, but prevented GnRH from increasing alpha-subunit mRNA levels and alpha-subunit secretion. PACAP38, like 8Br-cAMP and forskolin, stimulated (P<0.05) luciferase (LUC) activity in alphaT3-1 cells transfected with a plasmid containing the first 846 of 180 base pairs of the 5'-flanking region of the human alpha-subunit gene linked upstream to a LUC reporter gene. Finally, experiments using the transcription inhibitor DRB reveal that PACAP does not appreciably change alpha-subunit mRNA half-life. These findings are consistent with the proposal that PACAP contributes to the high levels of alpha-subunit protein characteristic of the pituitary by activating Type I receptors and stimulating alpha-subunit gene transcription in part by the cAMP/PKA pathway.
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PMID:Regulation of alpha-subunit mRNA transcripts by pituitary adenylate cyclase-activating polypeptide (PACAP) in pituitary cell cultures and alpha T3-1 cells. 867 19

Several peptides derived from microtubule-associated tau protein, have been tested as substrates for glycogen synthase kinase 3 (GSK 3). In the absence of cofactors, GSK 3 can modify serines or threonines followed by prolines. In other cases, a phosphorylation in position +4 is required for the phosphorylation of threonine/serine residues. A third type of substrate can be modified by GSK 3 in the presence of heparin. The comparison of GSK 3 with other kinases suggests some similar features of this kinase with proline-directed protein kinases, such as cdc-2 or mitogen-activated protein kinase (MAP Kinases,) and also with casein kinase 2 (CK 2). Thus, all these kinases are specifically inhibited by 5,6-Dichloro-1-(beta-D-ribofuranosyl)-benzimidazole (DRB). However, heparin is an inhibitor of CK 2 whereas it activates the modification of certain substrates by GSK 3. A possible explanation for the obtained results is that the consensus sequence for GSK 3 phosphorylation is a serine/threonine adjacent to a proline or other beta-turn former residue and that such recognition could be favoured by the presence of adjacent negative charges or the addition of polyanions.
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PMID:Glycogen synthase kinase 3 phosphorylation of different residues in the presence of different factors: analysis on tau protein. 897 80

Recent work has demonstrated that endotoxin or cytokines induce nitric oxide synthase in heart or cardiac myocytes. We investigated the functional significance of inducible nitric oxide synthase (iNOS) in indo 1-loaded beating myocytes with regard to intracellular Ca2+ concentration ([Ca2+]i) and cell contraction. Lipopolysaccharide (LPS; 10 micrograms/ml) time dependently induced iNOS mRNA and protein in cultured neonatal rat cardiac myocytes. Nitrite concentration in the medium and intracellular guanosine 3',5'-cyclic monophosphate (cGMP) contents after 24-h exposure to LPS increased in proportion to the levels of iNOS induction in these cells. Myocytes treated with both NG-monomethyl-L-arginine and LPS for 24 h expressed iNOS protein, but nitrite production was significantly inhibited. Subsequent perfusion with 100-fold molar excess L-arginine of these myocytes elicited decreases in peak systolic [Ca2+]i (790 +/- 42 to 551 +/- 27 nM, P < 0.05), relative amplitude of cell contraction (100 to 72.4 +/- 5.5%, P < 0.05), and spontaneous beating rate (146 +/- 13 to 85 +/- 22 beats/min, P < 0.05). Pretreatment with methylene blue or KT-5823 inhibited these negative myocardial effects. These results suggest that LPS induces iNOS in cardiac myocytes and that the increased nitric oxide produced by iNOS has cardiac depressant effects through the activation of cGMP-dependent protein kinase.
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PMID:Cardiac inducible nitric oxide synthase negatively modulates myocardial function in cultured rat myocytes. 903 20

Insulin action on both cytoplasmic and nuclear processes is dependent on activation of p70 S6 kinase (p70S6K). In CHO cells expressing human insulin receptors, Western blotting revealed the presence of p70S6K in the cell nucleus at a level of about 32% of that in the cytoplasm. Following insulin treatment, there was a retardation in mobility nuclear p70S6K in SDS-PAGE indicative of a change in phosphorylation of the enzyme, but no change in the amount of enzyme. Stimulation was maximal after 10 min of insulin treatment and decreased gradually at 30 min. There was also a rapid doubling of nuclear p70S6K activity in immunocomplex assays followed by a return to baseline by 30 min. Simultaneously, insulin stimulated cytoplasmic p70S6K by almost 10-fold at 10 min, and activity remained high up to 30 min. Tetradecanoylphorbol acetate (TPA) and fetal calf serum also stimulated nuclear p70S6K as judged by gel mobility shift. TPA also promoted a decrease in cytosolic p70S6K and an increase in nuclear enzyme suggestive of translocation of the enzyme. Rapamycin, a selective inhibitor of p70S6K, and the casein kinase II inhibitor DRB blocked insulin-stimulated nuclear and cytosolic p70S6K. Thus, nuclear p70S6K is regulated by insulin, serum and TPA. The insulin effect is downstream of rapamycin and DRB-sensitive targets and occurs without translocation of the enzyme.
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PMID:Insulin stimulates p70 S6 kinase in the nucleus of cells. 917 75

P-TEFb is a key regulator of the process controlling the processivity of RNA polymerase II and possesses a kinase activity that can phosphorylate the carboxy-terminal domain of the largest subunit of RNA polymerase II. Here we report the cloning of the small subunit of Drosophila P-TEFb and the finding that it encodes a Cdc2-related protein kinase. Sequence comparison suggests that a protein with 72% identity, PITALRE, could be the human homolog of the Drosophila protein. Functional homology was suggested by transcriptional analysis of an RNA polymerase II promoter with HeLa nuclear extract depleted of PITALRE. Because the depleted extract lost the ability to produce long DRB-sensitive transcripts and this loss was reversed by the addition of purified Drosophila P-TEFb, we propose that PITALRE is a component of human P-TEFb. In addition, we found that PITALRE associated with the activation domain of HIV-1 Tat, indicating that P-TEFb is a Tat-associated kinase (TAK). An in vitro transcription assay demonstrates that the effect of Tat on transcription elongation requires P-TEFb and suggests that the enhancement of transcriptional processivity by Tat is attributable to enhanced function of P-TEFb on the HIV-1 LTR.
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PMID:Transcription elongation factor P-TEFb is required for HIV-1 tat transactivation in vitro. 933 25

To analyze the antigenic properties of the human papillomavirus type 16 E7 oncoprotein, two monoclonal antibodies, VD6 and IB10, that have different reactivities to the E7 protein were generated. While the VD6 antibody reacted strongly with E7 protein in CaSki cell extracts, the other antibody, IB10, showed much weaker reactivity with E7. This reactivity increased in a dose-dependent manner in the presence of the casein kinase II-specific inhibitor DRB (5,6-dichloro-1-beta-D-ribofuranosylbenzimidazole). Antigenic site estimation and an in vitro phosphorylation assay, using bacterially expressed E7 protein, demonstrated that the weak reactivity of IB10 was related to the phosphorylation status of the E7 protein. Phosphorylation of E7 reduced considerably the reactivity of IB10 but did not affect the reactivity of VD6, which reacts with the N-terminal portion of E7. In immunoprecipitation (IP) assays, IB10 precipitated weakly the E7 protein from CaSki cell extracts. Together, these data suggest that unphosphorylated E7 protein shows distinct antigenic character compared to its phosphorylated form under denaturing conditions; however, under native conditions, the phosphorylated and nonphosphorylated E7 proteins have some antigenic cross-reactivity.
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PMID:Identification of antigenic differences between the phosphorylated and nonphosphorylated forms of the E7 protein of human papillomavirus type 16. 949 71

The transition from abortive into productive elongation is proposed to be controlled by a positive transcription elongation factor b (P-TEFb) through phosphorylation of the carboxy-terminal domain (CTD) of the largest subunit of RNA polymerase II. Drosophila P-TEFb was identified recently as a cyclin-dependent kinase (CDK9) paired with a cyclin subunit (cyclin T). We demonstrate here the cloning of multiple cyclin subunits of human P-TEFb (T1 and T2). Cyclin T2 has two forms (T2a and T2b) because of alternative splicing. Both cyclin T1 and T2 are ubiquitously expressed. Immunoprecipitation and immunodepletion experiments carried out on HeLa nuclear extract (HNE) indicated that cyclin T1 and T2 were associated with CDK9 in a mutually exclusive manner and that almost all CDK9 was associated with either cyclin T1 or T2. Recombinant CDK9/cyclin T1, CDK9/cyclin T2a, and CDK9/cyclin T2b produced in Sf9 cells possessed DRB-sensitive kinase activity and functioned in transcription elongation in vitro. Either cyclin T1 or T2 was required to activate CDK9, and the truncation of the carboxyl terminus of the cyclin reduced, but did not eliminate, P-TEFb activity. Cotransfection experiments indicated that all three CDK9/cyclin combinations dramatically activated the CMV promoter.
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PMID:Identification of multiple cyclin subunits of human P-TEFb. 949 9

Core protein is the major component of the core particle (nucleocapsid) of human hepatitis B virus. Core particles and core proteins are involved in a number of important functions in the replication cycle of the virus, including RNA packaging, DNA synthesis, and recognition of viral envelope proteins. Core protein is a phosphoprotein with most, if not all, of the phosphorylation on C-terminal serine residues. In this study, we identified a serine kinase activity from the ribosome-associated protein fraction of cytoplasm that could specifically bind and phosphorylate the C-terminal portion of recombinant core protein. This kinase is referred to as core-associated kinase (CAK). CAK could be inhibited by the kinase inhibitors heparin and manganese ions but not by spermidine, DRB, H89, or H7, indicating that CAK is distinct from protein kinase A and protein kinase C. CAK could be partially purified by heparin-Sepharose CL-6B and phosphocellulose P11 columns. By using a far-Western assay, three specific proteins, of 46, 35, and 13 kDa, were shown to interact with the C-terminal part of the core protein. These three proteins were present only in the eluted fractions that contains the CAK activity. An in-gel kinase assay showed that a 46-kDa kinase in the same fraction could bind and phosphorylate the C-terminal part of the recombinant core protein. These results indicate that this 46-kDa kinase is most probably CAK. A similar 46-kDa kinase, which exhibits the same profile of sensitivity to kinase inhibitors as that of CAK, is present in both purified intracellular core particles and extracellular 42-nm virions, suggesting that CAK is a candidate for the core particle-associated kinase.
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PMID:Phosphorylation of the core protein of hepatitis B virus by a 46-kilodalton serine kinase. 955 62

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