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)

A vaccinia virus-encoded double-stranded RNA-binding protein, p25, has been previously implicated in inhibition of the interferon-induced, double-stranded RNA-activated protein kinase. In this study, we have identified the vaccinia viral gene (WR strain) that encodes p25. Amino acid sequence analysis of a chymotryptic fragment of p25 revealed a close match to the vaccinia virus (Copenhagen strain) E3L gene. The WR strain E3L gene was cloned and expressed either in COS-1 cells or in rabbit reticulocyte lysates in vitro. A M(r) 25,000 polypeptide that could bind to poly(rI).poly(rC)-agarose and that reacted with p25-specific antiserum was produced in each case. In addition, COS cells expressing E3L gene products inhibited activation of the double-stranded RNA-activated protein kinase in extracts from interferon-treated cells. Removal of E3L-encoded products by adsorption with anti-p25 antiserum resulted in loss of kinase inhibitory activity. These results demonstrate that the vaccinia virus E3L gene encodes p25 and that the products of the E3L gene have kinase inhibitory activity. Comparison of the deduced amino acid sequence of the E3L gene products with the protein sequence data base revealed a region closely related to the human interferon-induced, double-stranded RNA-activated protein kinase.
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PMID:The E3L gene of vaccinia virus encodes an inhibitor of the interferon-induced, double-stranded RNA-dependent protein kinase. 135 Jun 76

Eukaryotic initiation factor (eIF) 4F, a multiprotein cap binding complex, has been shown to be phosphorylated in vivo in response to phorbol 12-myristate 13-acetate and insulin (Morley, S.J., and Traugh, J.A. (1990) J. Biol. Chem. 264, 2401-2404; Morley, S.J., and Traugh, J.A. (1990) J. Biol. Chem. 265, 10611-10616). The effect of phosphorylation on the activity of purified eIF-4F, utilizing both protein kinase C and a multifunctional S6 kinase, previously identified as protease activated kinase II, has been examined; these protein kinases modify eIF-4F p25 and p220 and eIF-4F p220, respectively. Studies with an eIF-4F-dependent protein synthesis system showed that phosphorylation of eIF-4F with either protein kinase resulted in a 3-5-fold stimulation of translation relative to the nonphosphorylated control. Chemical cross-linking of eIF-4F to cap-labeled mRNA, showed that phosphorylation increased the interaction of both the p25 and p220 subunits of eIF-4F with the 5' end of mRNA. This effect was manifested by a stimulation of initiation complex formation as measured by an increase in the association of labeled mRNA with 40 S ribosomal subunits in the translation system. Thus, phosphorylation of eIF-4F enhances binding to mRNA, resulting in a stimulation of protein synthesis at initiation.
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PMID:Phosphorylation of eIF-4F by protein kinase C or multipotential S6 kinase stimulates protein synthesis at initiation. 200 15

Exposure of quiescent, serum-starved 3T3-L1 cells to insulin promotes phosphorylation of initiation factors eIF-4F, eIF-4B, and eIF-3 p120, as well as ribosomal protein S6. Phosphorylation of both the p25 and p220 subunits of eIF-4F is stimulated typically by 2.5-5-fold, with a 2-4-fold increase in phosphorylation of eIF-4B and eIF-3 p120. Optimal stimulation is observed by 10(-9) M insulin. A similar pattern of stimulation is seen upon treatment of 3T3-L1 cells with 1 x 10(-6) M phorbol 12-myristate 13-acetate (PMA). Two-dimensional phosphopeptide mapping of p25, isolated from quiescent, insulin- or PMA-stimulated cells, results in a single tryptic phosphopeptide, indicating a single phosphorylation site identical to that obtained with protein kinase C. A more complex phosphopeptide map is observed with the p220 subunit. Following PMA-stimulation of 3T3-L1 cells, phosphopeptide mapping of p220 results in a pattern similar to that observed in vitro with Ca2+/phospholipid-dependent protein kinase (protein kinase C). Following insulin stimulation, mapping of p220 results in the appearance of novel peptides. Upon prolonged exposure to PMA, the cells are no longer responsive to this mitogen and no stimulation of phosphorylation of eIF-4F, eIF-4b, eIF-3 p120, or S6 via a protein kinase C-dependent mechanism is observed. Addition of insulin to these down-regulated cells leads to stimulation of phosphorylation of eIF-4F p220, ribosomal protein S6, and to a lesser extent, eIF-4B; little or no stimulation of phosphorylation of eIF-4F p25 and eIF-3 p120 is observed. Thus, eIF-4F p220, eIF-4B and ribosomal protein S6 are phosphorylated via PMA-dependent and insulin-dependent pathways, whereas phosphorylation of eIF-4F p25 and eIF-3 p120 is stimulated only upon activation of protein kinase C. Phosphopeptide maps of eIF-4F p220 and ribosomal protein S6 suggest that protease-activated kinase II is one of the protein kinases involved in the insulin-stimulated response in protein kinase C-depleted cells.
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PMID:Differential stimulation of phosphorylation of initiation factors eIF-4F, eIF-4B, eIF-3, and ribosomal protein S6 by insulin and phorbol esters. 219 53

We isolated a novel class of Schizosaccharomyces pombe cold-sensitive mutants with deformed nuclear chromosome domains consisting of thread- or rodlike condensed segments at restrictive temperature. Their mutations were mapped in a novel, identical locus designated crm1 (chromosomal region maintenance). The crm1 mutants also show the following phenotypes. DNA, RNA, and protein syntheses diminish at restrictive temperature. At permissive temperature, the amount of one particular protein, p25, greatly increases. The mutant growth is hypersensitive to Ca2+ and resistant to protein kinase inhibitors. We cloned the 4.1-kb-long crm1+ gene that rescued the above phenotypes by transformation and determined its nucleotide sequence, which predicts a 1,077-residue protein. Affinity-purified antiserum raised against the crm1+ polypeptide expressed in Escherichia coli detected a 115-kD protein in S. pombe extracts. Genomic Southern hybridization and immunoblotting suggested that the crm1+ product might be highly conserved in distant organisms. Through immunofluorescence microscopy, the crm1+ protein appeared to be principally localized within the nucleus and also at its periphery. We speculate that the crm1+ protein might be one of those nuclear components that modify the chromosome structures or regulate the nuclear environment required for maintaining higher order chromosome structures.
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PMID:Higher order chromosome structure is affected by cold-sensitive mutations in a Schizosaccharomyces pombe gene crm1+ which encodes a 115-kD protein preferentially localized in the nucleus and its periphery. 264 65

The opening and closing of chloride (Cl-) channels in the apical membrane of epithelial cells is regulated by hormones, neurotransmitters and enterotoxins (intestine) acting through a variety of intracellular messengers, including cyclic nucleotides (cAMP, cGMP), calcium (Ca) and diacylglycerol (DAG). The chloride impermeability of epithelial membranes observed in cystic fibrosis (CF) patients does not result from a defect in the Cl- conducting properties of the channel or in channel recruitment but stems either from a defect in a key regulator of the channel, presumably a phosphoprotein, or from the hyperactivation of a channel closing mechanism, presumably a protein phosphatase or a down-regulating protein kinase (i.e. protein kinase C). In vitro phosphorylation of isolated intestinal brush border membranes has revealed the existence of a 25,000 molecular weight proteolipid (p25) acting as cosubstrate for both cGMP- and cAMP-dependent protein kinases and cross-reacting with antibodies directed against the cytoplasmic tail of the band 3 anion exchanger from erythrocytes. The putative role of p25 in Cl- channel regulation and its relationship to an unidentified GTP-binding protein recently implicated in Cl- channel activation is discussed on the basis of a regulatory model indicating potential sites of the CF defect at a molecular level.
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PMID:The molecular basis of chloride channel dysregulation in cystic fibrosis. 270 19

Changes in the extent of phosphorylation of the 25 kDa subunit of eIF-4F occur during several major biological events including mitosis and heat shock in mammalian cells and shortly after fertilization of sea urchin (Lytechinus pictus) eggs. In vitro phosphorylation studies using highly purified protein kinases demonstrated that the 220 kDa subunit of eIF-4F was phosphorylated by cAMP dependent protein kinase, protein kinase C and probably to a lesser extent by cGMP dependent protein kinase. In addition, eIF-4A was readily phosphorylated by cAMP and cGMP dependent protein kinases whereas p48 of eIF-4F was not. The effect of these phosphorylation events on eIF-4F function, its assembly or disassembly, susceptibility to viral initiated proteolysis or the ability of p25 to be phosphorylated at serine-53 remain to be investigated.
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PMID:Phosphorylation of the p220 subunit of eIF-4F by cAMP dependent protein kinase and protein kinase C in vitro. 283 73

Eukaryotic initiation factor (eIF) 4F, a multiprotein cap binding complex, was isolated by m7 GTP-Sepharose affinity chromatography from rabbit reticulocytes incubated with [32P]orthophosphate. Following treatment of reticulocytes with phorbol 12-myristate 13-acetate (PMA) for 30 min, stimulation of phosphorylation of both the p25 and p220 subunits was observed (2.5-5-fold). Two variants were observed for p25 in the absence and presence of PMA when analyzed by two-dimensional gel electrophoresis. Only the more acidic of these was phosphorylated, with the level of phosphorylation increased upon PMA treatment. One main variant was observed for p220; following PMA stimulation, in addition to increased labeling of this variant, two more acidic phosphorylated variants were observed. Low levels of eIF-3 and -4B were associated with purified eIF-4F, and PMA treatment stimulated phosphorylation of eIF-3 (p170) by 2-4-fold and eIF-4B by 1.5-2.5 fold. Two-dimensional phosphopeptide mapping of p25 phosphorylated in the absence or presence of PMA generated a single tryptic phosphopeptide, suggesting a single phosphorylation site. A more complex phosphopeptide map was observed with p220 subunit. The maps for both subunits contained the same phosphopeptides as those obtained when eIF-4F was phosphorylated in vitro by the Ca2+/phospholipid-dependent protein kinase, indicating this protein kinase directly modulated eIF-4F in response to PMA.
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PMID:Phorbol esters stimulate phosphorylation of eukaryotic initiation factors 3, 4B, and 4F. 291 15

Four initiation factors (eIF-2, -3, -4B, and -4F), previously shown to be phosphorylated in vivo, are each phosphorylated to a significant extent in vitro (greater than 0.3 mol of phosphate/mol of factor) by at least three different protein kinases. An S6 kinase from liver, an active form of protease-activated kinase II which modifies the same sites on S6 as those phosphorylated in vivo in response to mitogens, phosphorylates the beta subunit of eIF-2, eIF-3 (p120-p130), eIF-4B, and eIF-4F (p220). The Ca2+, phospholipid-dependent protein kinase phosphorylates eIF-2 beta, eIF-3 (p170, p120-p130), eIF-4B, and eIF-4F (p220, p25). The cAMP-dependent protein kinase significantly modifies eIF-4B and, to a lesser extent, eIF-3 (p130). Casein kinase I incorporates phosphate only into eIF-4B, but to a limited extent. Casein kinase II phosphorylates eIF-2 beta, eIF-3 (p170, p120), and eIF-4B, while protease-activated kinase I modifies eIF-3 (p170, p120-p130), eIF-4B, and eIF-4F (p220). The mitogen-stimulated S6 kinase from 3T3-L1 cells, activated in response to insulin, does not phosphorylate any of the initiation factors. There is no significant incorporation of phosphate into eIF-2 alpha or -gamma, eIF-4A, eIF-4C, eIF-4D, EF-1, or EF-2 by any of the protein kinases examined. Phosphopeptide mapping of tryptic digests of the phosphorylated subunits shows that the individual protein kinases modify different sites. The sites phosphorylated in vitro reflect those modified in vivo as shown with eIF-4F in concomitant studies with reticulocytes treated with tumor-promoting phorbol ester (Morley, S.J., and Traugh, J. A. J. Biol. Chem., in press). Thus, we have identified multipotential protein kinases which modify four initiation factors phosphorylated in vivo and have shown that phosphorylation of these translational components can be coordinately regulated.
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PMID:Comparative analysis of phosphorylation of translational initiation and elongation factors by seven protein kinases. 291 29

The vaccinia virus (VV) E3L gene, which encodes a potent inhibitor of the interferon (IFN)-induced, double-stranded RNA (dsRNA)-dependent protein kinase, PKR, is thought to be involved in the IFN-resistant phenotype of VV. The E3L gene products, p25 and p20, act as inhibitors of PKR, presumably by binding and sequestering activator dsRNA from the kinase. In this study we demonstrate that VV with the E3L gene specifically deleted (vP1080) was sensitive to the antiviral effects of IFN and debilitated in its ability to rescue vesicular stomatitis virus from the antiviral effects of IFN. Infection of L929 cells with E3L-minus virus led to rRNA degradation typical of activation of the 2'-5'-oligoadenylate synthetase/RNase L system, and extracts of infected cells lacked the PKR-inhibitory activity characteristic of wild-type VV. The reovirus S4 gene, which encodes a dsRNA-binding protein (sigma 3) that can also inhibit PKR activation by binding and sequestering activator dsRNA, was inserted into vP1080. The resultant virus (vP1112) was partially resistant to the antiviral effects of IFN in comparison with vP1080. Further studies demonstrated that transient expression of the reovirus sigma 3 protein rescued E3L-minus VV replication in HeLa cells. In these studies, rescue by sigma 3 mutants correlated with their ability to bind dsRNA. Finally, vP112 was also able to rescue the replication of the IFN-sensitive virus vesicular stomatitis virus in a manner similar to that of wild-type VV. Together, these results suggest that the reovirus S4 gene can replace the VV E3L gene with respect to interference with the IFN-induced antiviral activity.
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PMID:Reversal of the interferon-sensitive phenotype of a vaccinia virus lacking E3L by expression of the reovirus S4 gene. 752 85

Phosphorylation of the neurofilament proteins of high and medium relative molecular mass, as well as of the Alzheimer's tau protein, is thought to be catalysed by a protein kinase with Cdc2-like substrate specificity. We have purified a novel Cdc2-like kinase from bovine brain capable of phosphorylating both the neurofilament proteins and tau. The purified enzyme is a heterodimer of cyclin-dependent kinase 5 (Cdk5) and a novel regulatory subunit, p25 (ref. 8). When overexpressed and purified from Escherichia coli, p25 can activate Cdk5 in vitro. Unlike Cdk5, which is ubiquitously expressed in human tissue, the p25 transcript is expressed only in brain. A full-length complementary DNA clone showed that p25 is a truncated form of a larger protein precursor, p35, which seems to be the predominant form of the protein in crude brain extract. Cdk5/p35 is the first example of a Cdc2-like kinase with neuronal function.
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PMID:A brain-specific activator of cyclin-dependent kinase 5. 809 Feb 22

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