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)

Polymerase chain reaction amplification of cDNA from pig gastric mucosa demonstrated the presence of zinc-finger proteins called GATA-GT1, GATA-GT2, and GATA-GT3, each having zinc-finger sequences similar to previously characterized GATA-binding proteins. Subsequently, full-length cDNAs of GATA-GT1 and GATA-GT2 were obtained from rat stomach. The zinc-finger domains of GATA-GT1 and -GT2 were 66-86% identical on the amino acid level with each other and with other GATA-binding proteins. Potential protein kinase phosphorylation sites were present in the zinc-finger region. In contrast, regions outside the zinc fingers shared significantly lower similarities. GATA-GT2 was found to bind to the upstream sequence of the H+/K(+)-ATPase beta gene and to a sequence containing the GATA motif. GATA-GT1 and -GT2 were expressed predominantly in the gastric mucosa and at much lower levels in the intestine (GATA-GT2, also in testis), their tissue distributions being distinct from those of GATA-1, -2, or -3. These results clearly suggest that GATA-GT1 and GATA-GT2 are involved in gene regulation specifically in the gastric epithelium and represent two additional members of the GATA-binding protein family.
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PMID:Gastric DNA-binding proteins recognize upstream sequence motifs of parietal cell-specific genes. 818 57

We have examined the negative regulation of the 44-kDa mitogen-activated protein kinase (MAP kinase), also known as extracellular signal-regulated protein kinase 1 (ERK1), in NIH3T3 cells transfected with an expression plasmid encoding the human insulin receptor (NHIR cells). In these cells ERK1 activation is induced by two distinct stimuli, insulin and tumor-promoting agent (TPA). While insulin was found to be more potent than TPA for ERK1 activation, both stimuli produced the same transient activation pattern with a rapid peak (reached within 5 min) followed by a fast decrease within 20 min. By performing reconstitution experiments with immunoprecipitated ERK1 and lysates from NHIR cells, we showed that extracts from untreated cells exhibit an ERK1 inhibitory activity. Interestingly, this inhibitor was found to be regulated by insulin and TPA with a profile that is the mirror image of ERK1 activity. This repressing activity was sensitive to tyrosine phosphatase inhibitors, such as sodium orthovanadate and zinc acetate, but it was not affected by serine/threonine phosphatase inhibitors, such as sodium fluoride and okadaic acid. Moreover, it was possible to observe in extracts of NHIR cells an activity dephosphorylating ERK1. The time course of this phosphatase activity was comparable to that of the ERK1 inhibition, suggesting that the repressing activity could reflect a dephosphorylating action. Interestingly, phosphatase 2A treatment of extracts from 5-min TPA-treated cells (where the ERK1 inhibitor was weak) was able to induce an increase in the ERK1 repressing activity. This suggests that serine/threonine dephosphorylation of ERK1 inhibitor leads to an increase in its activity. In summary, we have shown that NHIR cells contain a regulatable ERK1 inhibitor, which is likely to be due to tyrosine phosphatase(s). We would like to suggest that such activities are key components in the fine-tuning of the MAP kinase cascade.
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PMID:Insulin and tumor-promoting agent regulate an inhibitor of the 44-kDa mitogen-activated protein kinase/extracellular signal-regulated protein kinase 1 in fibroblasts. 828 32

Lead (Pb2+) has been reported to activate calcium/phospholipid-dependent protein kinase C (PKC) at subnanomolar concentrations (Markovac, J., and Goldstein, G. W. (1988) Nature 334, 732-734); however, others have failed to find any Pb(2+)-induced activation of PKC (Murakami, K., Feng, G., and Chen, S. G. (1993) J. Pharmacol. Exp. Ther. 264, 757-761). In neither of these studies was the actual free Pb2+ or Ca2+ concentration measured. In this study, 1,2-bis(2-amino-5-fluorophenoxy)ethane N,N,N',N'-tetraacetic acid (5F-BAPTA) was used to buffer Pb2+ and Ca2+ concentrations in the PKC reaction mixture. The specific free ion concentrations of Pb2+ and Ca2+, as well as Zn2+ and other divalent cations contained in the PKC reaction mixtures, were determined by 19F NMR spectroscopy. Using this approach to set and confirm the free Pb2+ and Ca2+ concentrations, we measured the Pb(2+)-dependent and the Ca(2+)-dependent activation of phosphotydylserine/diolein-dependent incorporation of 32P from ATP into histone and endogenous acid precipitable proteins in the 100,000 x g supernatant from homogenized rat brain cortex. We found that free Pb2+ activates PKC in the range from 10(-11) to 10(-8) M, Kact = 5.5 x 10(-11) M, while Ca2+ activates PKC in the range from 10(-8) to 10(-5) M, Kact = 2.56 x 10(-7) M. These findings clearly resolve the activation of PKC by subnanomolar concentrations of free Pb2+ from activation induced by Ca2+ or other divalent cations. Furthermore, it documents the utility of 5F-BAPTA as buffer and indicator when resolving the contributions of multiple divalent cations in biochemical processes.
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PMID:Lead activation of protein kinase C from rat brain. Determination of free calcium, lead, and zinc by 19F NMR. 828 36

In the yeast Saccharomyces cerevisiae, genetic studies suggest that the RIM1 gene encodes a positive regulator of meiosis. rim1 mutations cause reduced expression of IME1, which is required for expression of many meiotic genes, and thus lead to a partial defect in meiosis and spore formation. We report the sequence of RIM1 and functional analysis of its coding region. The RIM1 gene product (RIM1) contains three regions similar to C2H2 zinc fingers. Serine substitutions for cysteine in each of the putative zinc fingers abolish RIM1 function. The carboxyl-terminus of RIM1 is enriched in acidic amino acids and is required for full RIM1 activity. RIM1 also contains two putative cAMP-dependent protein kinase (cAPK) phosphorylation sites. At one site, substitution of alanine for serine does not affect RIM1 activity; at the other site, this substitution impairs activity. This analysis of RIM1 suggests that the protein may function as a transcriptional activator. We have used the cloned RIM1 gene to create a complete rim1 deletion. This null allele, like previously isolated rim1 mutations, causes a partial meiotic defect. In addition to RIM1, maximum IME1 expression requires the MCK1 and IME4 gene products. Defects associated with rim1, mck1, and ime4 mutations in expression of a meiotic reporter gene (ime2-lacZ) and in sporulation are additive. These findings suggest that RIM1 acts independently of MCK1 and IME4 to stimulate IME1 expression.
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PMID:Molecular characterization of the yeast meiotic regulatory gene RIM1. 836 97

We have observed that soluble extracts from the extreme acidothermophilic archaebacterium Sulfolobus solfataricus contained protein phosphatase activity that was greatly stimulated by the divalent metal ions Mn2+, Mg2+, Ni2+, or Co2+. This activity apparently arose from a single enzyme since (a) stimulation by these divalent metal ions was not additive and (b) protein phosphatase activity eluted as a single peak from both a DE52 ion-exchange column and a Sephadex G-100 gel filtration column. Its apparent molecular mass was approximately 28,000 daltons. The enzyme dephosphorylated a variety of phosphoserine-containing substrates including casein, histone H2a, phosphorylase kinase, or glycogen phosphorylase. The enzyme would not dephosphorylate either histone H1 or a number of phosphotyrosine-containing compounds. It removed only half the phosphate bound to histone H2b, which is phosphorylated at two sites by the cAMP-dependent protein kinase. Protein phosphatase activity was inhibited by EDTA, Cu2+, Zn2+, NaF, inorganic phosphate, or pyrophosphate; but was unaffected by other potential activators and inhibitors such as microcystin, okadaic acid, vanadate, polyamines, or sulfhydryl modifying reagents. This enzyme represents the first protein phosphatase to be identified in any member of the third and oldest phylogenetic kingdom in nature, the archaebacteria.
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PMID:Identification of a serine/threonine-specific protein phosphatase from the archaebacterium Sulfolobus solfataricus. 838 14

Casein kinase II purified from the nuclei of Xenopus laevis oocytes as well as the recombinant alpha and beta subunits of the X. laevis CKII, produced in E. coli from the cloned cDNA genes, were tested with different divalent metal ions. The enzyme from both sources was active with either Mg2+, Mn2+, or Co2+. Optimal concentrations were 7-10 mM for Mg2+, 0.5-0.7 mM for Mn2+ and 1-2 mM for Co2+. In the presence of Mn2+ or Co2+ the enzyme used GTP more efficiently than ATP as a phosphate donor while the reverse was true in the presence of Mg2+. The apparent Km values for both nucleotide triphosphates were greatly decreased in the presence of Mn2+ as compared with Mg2+. Addition of Zn2+ (above 150 microM) to an assay containing the optimal Mg2+ ion concentration caused strong inhibition of both holoenzyme and alpha subunit. Inhibition of the holoenzyme by 400 microM Ni2+ could be reversed by high concentrations of Mg2+ but no reversal of this inhibition was observed with the alpha subunit.
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PMID:Effect of metal ions on the activity of casein kinase II from Xenopus laevis. 841 74

The type II protein kinase C (PKC-II) densely present in mammalian brain plays functional roles in CNS. We examined the characteristics of [3H]staurosporine binding to PKC-II purified from rat brain, compared to [3H]phorbol 12, 13-dibutyrate (PDBu) binding. In brief, [3H]staurosporine binding increased by phosphatidylserine (PtdSer) in a concentration-dependent manner and the binding was enhanced by Ca2+ and phorbol 12-myristate 13-acetate (PMA). In the presence of Ca2+, PMA and PtdSer, Bmax of these bindings markedly increased, but KD did not change. These characteristics of binding were similar to [3H]PDBu binding to PKC-II. Although [3H]PDBu binding was not affected by protein kinase inhibitors such as staurosporine, H-7, K-252a and K-252b, [3H]staurosporine binding was inhibited by these inhibitors. [3H]staurosporine binding was inhibited by several ATP analogues, but was not by guanine nucleotides. PtdSer-induced increase in [3H]PDBu binding was inhibited by Zn2+, but Zn2+ induced increase in [3H]staurosporine binding as well as PtdSer and/or Ca2+. Staurosporine would thus appear to bind to a domain different from phorbol ester-binding one in PKC, interactions between both domains may regulate kinase activity, and 1 mol staurosporine and 4 mol phorbol ester may bind to 1 mol PKC-II.
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PMID:Characterization of [3H]staurosporine binding in protein kinase C-II purified from rat brain. 848 51

PCK1 encoding phosphoenolpyruvate carboxykinase is transcriptionally regulated by two upstream activating elements. By screening for mutants that failed to derepress a UAS2PCK1-CYC1-lacZ reporter gene we isolated the new recessive derepression mutation cat5. The CAT5 gene encodes a protein of 272 amino acids showing a 42% identity to the ZC395.2 gene product of Caenorhabditis elegans whose function is unknown. Deletion of CAT5 caused a complete loss of glucose derepression affecting gluconeogenic key enzymes. Respiration, but not mitochondrial cytochrome c oxidase activity, was also affected. CAT5 expression is 5- to 6-fold repressed by glucose, and CAT5 transcriptional activation was dependent on CAT1 (SNF1), CAT8 and CAT5 itself. The CAT5 gene is necessary for UAS1PCK1 and UAS2PCK1 protein binding since a carbon source-specific interaction was no longer detectable in cat5 mutants. Glucose derepression of gluconeogenesis depends on the active Cat1 (Snf1) protein kinase and the Cat8 zinc cluster activator. Mig1p-independent overexpression of CAT8 did not stimulate activation of gluconeogenic promoters in cat1 and in cat5 mutants. Since Cat8p multicopy expression suppresses the ethanol growth deficiency in cat1 (snf1) mutants, these results indicate that activation of Cat8p by the Cat1p (Snf1p) kinase and the Cat5p protein might be necessary for release from glucose repression.
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PMID:CAT5, a new gene necessary for derepression of gluconeogenic enzymes in Saccharomyces cerevisiae. 855 31

The large subunit of herpes simplex virus (HSV) ribonucleotide reductase (RR1) designated ICP6 and ICP10 for HSV-1 and HSV-2, respectively, has a novel protein kinase (PK) enzymatic activity. ICP10 is localized on the cell surface, a localization that depends on an intact transmembrane (TM) segment. We used immunocomplex PK assays to examine the PK activity of ICP10 in stably transfected eukaryotic cells. Activity was distinct from that of casein kinase II (CKII) in that it did not require monovalent ions and was not inhibited by zinc sulfate. PK activity was eliminated by deletion of the conserved PK catalytic motifs or of the TM segment and it was significantly impaired by mutation of the invariant Lys (Lys176). Loss of PK activity by Lys176 mutation resulted in the failure to bind ATP. A truncated ICP10 PK expressed in bacteria (pp29 1a1) retained auto- and transphosphorylating activity (for calmodulin) after purification to apparent homogeneity. PK activity was also absent in cells infected with a recombinant virus (ICP10 delta PK) deleted in the ICP10 PK catalytic motifs. In cells infected with HSV-1 or HSV-2, RR1 had auto- and transphosphorylating activity for the small subunit of HSV ribonucleotide reductase (RR2) and immunoglobulin G (IgG). Comparing the PK activity of ICP6 and ICP10 we found that ICP6 requires five-fold higher concentrations of [gamma-32P]ATP than ICP10 and both enzymes are Mn2+ dependent, which is also different from CKII that is primarily Mg2+-dependent. Similar results were obtained for various HSV strains and in different cell lines. The data are consistent with the conclusion that the RR1 PK activity is intrinsic.
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PMID:The novel protein kinase of the RR1 subunit of herpes simplex virus has autophosphorylation and transphosphorylation activity that differs in its ATP requirements for HSV-1 and HSV-2. 861 85

The SNF1 protein kinase has been widely conserved in plants and mammals. In Saccharomyces cerevisiae, SNF1 is essential for expression of glucose-repressed genes in response to glucose deprivation. Previous studies supported a role for SNF1 in relieving transcriptional repression. Here, we report evidence that SNF1 modulates function of a transcriptional activator, SIP4, which was identified in a two-hybrid screen for interaction with SNF1. The N terminus of the predicted 96-kDa SIP4 protein is homologous to the DNA-binding domain of the GAL4 family of transcriptional activators, with a C6 zinc cluster adjacent to a coiled-coil motif The C terminus contains a leucine zipper motif and an acidic region. When bound to DNA, a LexA-SIP4 fusion activates transcription of a reporter gene. Transcriptional activation by SIP4 is regulated by glucose and depends on the SNF1 protein kinase. Moreover, SIP4 is differentially phosphorylated in response to glucose availability, and phosphorylation requires SNF1. These findings suggest that the SNF1 kinase interacts with a transcriptional activator to modulate its activity and provide the first direct evidence for a role of SNF1 in activating transcription in response to glucose limitation.
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PMID:Yeast SNF1 protein kinase interacts with SIP4, a C6 zinc cluster transcriptional activator: a new role for SNF1 in the glucose response. 862 58

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