EC:2.7.11.13 - FACTA Search

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Query: EC:2.7.11.13 (protein kinase C)
49,245 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The G-box element is a moderately conserved component of the promoter of many inducible genes, including the alcohol dehydrogenase genes of Arabidopsis and maize. We used monoclonal antibodies generated against partially purified G-box binding factor (GBF) activity to characterize maize proteins that are part of the DNA binding complex. Antibodies interacted with partially purified maize GBF complexes to produce a slower migrating complex in the gel retardation assay. Immunoprecipitation experiments suggested that the protein recognized by the antibody is not a DNA binding protein in and of itself, but rather is associated with the DNA binding complex. These monoclonal antibodies were used to isolate cDNA clones encoding a protein that we have designated GF14. Maize GF14 contains a region resembling a leucine zipper and acidic carboxy and amino termini, of which the latter can form an amphipathic alpha-helix similar to known transcriptional activators such as VP16 and GAL4. Protein gel blot analysis of cell culture extract showed that a single, major protein of approximately 30 kD is recognized by anti-GF14; the protein is also present predominantly in the kernel and root. The deduced amino acid sequence of maize GF14 is more than 80% identical to Arabidopsis GF14 and Oenothera PHP-O, and is more than 60% identical to a class of mammalian brain proteins described as both protein kinase C inhibitors and activators of tyrosine and tryptophan hydroxylases. GF14 is found in a variety of monocotyledons and dicotyledons, gymnosperms, and yeast. This suggests a deep evolutionary conservation of a potential regulatory protein associated with a core sequence found in the promoter region of many genes.
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PMID:A maize protein associated with the G-box binding complex has homology to brain regulatory proteins. 144 70

CRE-BP1 is a transcriptional activator binding to the cyclic AMP response element, which has a putative metal finger structure and the leucine zipper motif linked to a cluster of basic amino acids in the amino and carboxyl-terminal regions, respectively. The activities of a number of transcription factors are known to be controlled through phosphorylation and dephosphorylation. At the first step for understanding of the regulation of CRE-BP1, phosphorylation of CRE-BP1 was studied in vitro. The human recombinant CRE-BP1 was phosphorylated by protein kinase C and cyclic AMP-dependent protein kinase. These two protein kinases recognized distinct seryl residues of CRE-BP1. Amino acid sequence analysis after phosphopeptide map indicated that two seryl residues, Ser-340 and Ser-367, located in the basic region of CRE-BP1 were identified as the major protein kinase C phosphorylation sites, whereas Ser-62 downstream of the metal finger structure was determined as the phosphorylation site by cyclic AMP-dependent protein kinase. The phosphorylation of CRE-BP1 by these two protein kinases may regulate the function of this transcriptional activator protein.
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PMID:Phosphorylation of CRE-BP1, a cyclic AMP response element binding protein, by protein kinase C and cyclic AMP-dependent protein kinase. 145 87

We have recently demonstrated that certain camptothecin derivatives are effective agents in the treatment of human tumor xenografts in nude mice. While camptothecin and its derivatives are recognized as inhibitors of topoisomerase I, little is known about the effects of these agents on specific gene expression, particularly genes involved in growth control. The c-jun early response gene codes for a leucine zipper transcription factor. The present studies demonstrate that 20(S)-camptothecin, 9-amino-20(S)-camptothecin, and 9-nitro-20(S)-camptothecin inhibit the growth of human U-937 myeloid leukemia cells and induce expression of the c-jun gene. c-jun transcripts were increased at 3 h and reached a maximum at 6 h of drug exposure. We also demonstrate that the induction of c-jun gene expression by these agents occurs at the transcriptional level. H7, a nonselective inhibitor of protein kinase C, completely blocked c-jun expression in 20(S)-camptothecin-treated cells, while another protein kinase inhibitor, HA1004, had no detectable effect. Similar findings were obtained for other leucine zipper encoding genes, including jun-B. These results suggest that 20(S)-camptothecin, 9-amino-20(S)-camptothecin, and 9-nitro-20(S)-camptothecin activate a cellular response involving the induction of early response genes. Finally, we demonstrate that induction of c-jun expression occurs in association with internucleosomal DNA fragmentation, a characteristic of programmed cell death.
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PMID:Camptothecin and its derivatives induce expression of the c-jun protooncogene in human myeloid leukemia cells. 174 37

vav is a human locus that appears to be specifically expressed in cells of hematopoietic origin regardless of their differentiation lineage. This gene was first identified as a result of its malignant activation during the course of gene transfer assays (Katzav, S., Martin-Zanca, D., and Barbacid, M. EMBO J., 8: 2283-2290, 1989). In this study, we report the isolation of complementary DNA clones containing the entire coding sequence of the mouse vav protooncogene. Antisera raised against a peptide corresponding to a predicted hydrophilic domain have allowed us to identify the product of the vav gene as a 95,000 Da protein. Analysis of the deduced amino acid sequence of p95vav revealed an amino-terminal leucine-rich region not present in the activated vav oncogene. This region consists of an amphipathic helix-loop-helix followed by a leucine zipper, a structure reminiscent of the carboxy-terminal region of myc proteins and the steroid binding domain of nuclear receptors. In vitro mutagenicity studies have indicated that removal of the amphipathic helix-loop-helix is sufficient to activate the transforming potential of human and mouse vav protooncogenes. vav proteins also possess a cysteine-rich domain whose sequence predicts the formation of two putative metal binding-like domains, Cys-X2-Cys-X13-Cys-X2-Cys and His-X2-Cys-X6-Cys-X2-His. Replacement of some of these cysteine and histidine residues completely abolished the transforming activity of vav genes. Further examination of the alignment of cysteine residues in this region revealed an alternative structure, Cys-X2-Cys-X13-Cys-X2-Cys-X7-Cys-X6-Cys, which is reminiscent of the phorbol ester binding domain of protein kinase C. A similar domain has been recently identified in a second enzyme, diacylglycerol kinase. These structural similarities, along with its expression pattern, suggest that the vav protooncogene codes for a new type of signal-transducing molecule that may play an important role in controlling hematopoiesis.
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PMID:Mechanism of activation of the vav protooncogene. 206 73

The product of the jun proto-oncogene has been identified as one form of the transcription factor AP-1. The p55fos protein associates with jun/AP-1 by means of a heterodimer which requires intact 'leucine zipper' domains of both proteins. The fos/jun heterodimer binds to and activates transcription from TPA-responsive promoter elements (TGACTCA), which represent one final target of the protein kinase C pathway. The other main signal transduction pathway, initiated by the activation of the adenylate cyclase, involves the transcription factor CREB. The promoter element recognized by CREB, a cyclic AMP responsive element (CRE), consist of a palyndromic sequence similar to a TRE (TGACGTCA). We show that jun efficiently trans-activates CRE sequences and that fos and jun efficiently bind and cooperate in activating CRE promoter elements. The similarity between TRE and CRE sequences may involve an interplay in transcriptional regulation and 'cross-talk' between components of the two major signal transduction pathways.
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PMID:Cross-talk in signal transduction: TPA-inducible factor jun/AP-1 activates cAMP-responsive enhancer elements. 210 94

The receptor for the bee venom derived neurotoxin, apamin, is widely believed to be an integral component of the small conductance calcium-activated potassium channel in many excitable cells. By affinity chromatography on immobilized apamin, a 78 kD apamin binding protein of the bovine brain synaptosomes was isolated. Antibodies were elicited against this protein and used to clone a cDNA from a porcine vascular smooth muscle expression library. This gene (Kcal 1.8) codes for a 438 amino protein with four potential transmembrane domains, one putative calcium binding site, a protein kinase C phosphorylation site, and a leucine zipper motif. Kcal 1.8 encoded protein has no significant sequence homologies with any known ion channels or receptors. Kcal 1.8 is likely to encode a protein associated with the small conductance calcium-activated potassium channel in vascular smooth muscle.
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PMID:Cloning of an apamin binding protein of vascular smooth muscle. 791 73

PKN, a novel protein kinase with catalytic domain homologous to PKC family and unique amino terminal leucine zipper-like sequences, was purified partially from COS7 cells transfected with the cDNA construct encoding human PKN for enzymatic characterization of the enzyme. Using serine containing synthetic peptides based on PKC pseudosubstrate sites as the phosphate acceptors, kinase activities estimated from partially purified PKN were not stimulated by Ca2+/phosphatidylserine/diolein but were activated several-fold to several tens-fold by 40 microM unsaturated fatty acids, such as arachidonic acid, linoleic acid, and oleic acid. Autophosphorylation of the immunoprecipitates using anti-PKN antiserum was also stimulated by various unsaturated fatty acids. Limited proteolysis of PKN with trypsin induced an enhancement of the peptide kinase activity that was almost independent of arachidonic acid.
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PMID:Activation of PKN, a novel 120-kDa protein kinase with leucine zipper-like sequences, by unsaturated fatty acids and by limited proteolysis. 794 81

A novel protein kinase, designated PKN, was identified by molecular cloning from a human hippocampus cDNA library. PKN consists of 942 amino acids with a calculated molecular mass of 103,925 daltons. PKN has leucine zipper-like sequences in its amino terminal region and contains a catalytic domain that shows strong similarity to that of protein kinase C family. Northern blot analysis indicates PKN is expressed ubiquitously in human tissues. Antisera against PKN identified a 120K dalton protein on SDS polyacrylamide gel electrophoresis when PKN was expressed in the insect cells or COS7 cells. Recombinant PKN revealed an intrinsic protein kinase activity associated with a 120K protein. This activity was abolished by mutation of the lysine residue in the potential ATP binding site.
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PMID:A novel protein kinase with leucine zipper-like sequences: its catalytic domain is highly homologous to that of protein kinase C. 813 37

The PKC1 gene product, protein kinase C, regulates a mitogen-activated protein kinase (MAPK) cascade, which is implicated in cell wall metabolism. Previously, we identified the pkc1-4 allele in a screen for mutants with increased rates of recombination, indicating that PKC1 may also regulate DNA metabolism. The pkc1-4 allele also conferred a temperature-sensitive (ts) growth defect. Extragenic suppressors were isolated that suppress both the ts and hyperrecombination phenotypes conferred by the pkc1-4 mutation. Eight of these suppressors for into two complementation groups, designated KCS1 and KCS2. KCS1 was cloned and found to encode a novel protein with homology to the basic leucine zipper family of transcription factors. KCS2 is allelic with PTC1, a previously identified type 2C serine/threonine protein phosphatase. Although mutation of either KCS1 or PTC1 causes little apparent phenotype, the kcs1 delta ptc1 delta double mutant fails to grow at 30 degrees. Furthermore, the ptc1 deletion mutation is synthetically lethal in combination with a mutation in MPK1, which encodes a MAPK homologue proposed to act in the PKC1 pathway. Because PTC1 was initially isolated as a component of the Hog1p MAPK pathway, it appears that these two MAPK cascades share a common regulatory feature.
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PMID:Suppressors of a Saccharomyces cerevisiae pkc1 mutation identify alleles of the phosphatase gene PTC1 and of a novel gene encoding a putative basic leucine zipper protein. 860 73

A novel method was developed for cloning of zinc-binding proteins. We used 65Zn2+ as a probe to screen a human lung cDNA library, and isolated QM using this approach. QM appears to be a negative regulator of c-Jun that acts by binding to the leucine zipper region of c-Jun. We demonstrated that QM bound zinc ions and that such binding was necessary for the interaction of QM with c-Jun. We also showed that protein kinase C introduced about 1 mol of phosphate into 1 mol of QM. The binding of QM to c-Jun was decreased by 60% when QM had been phosphorylated. These results suggest that QM is a novel zinc-binding transcription regulatory protein and that interaction between QM and c-Jun is regulated by zinc ions and phosphorylation.
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PMID:QM is a novel zinc-binding transcription regulatory protein: its binding to c-Jun is regulated by zinc ions and phosphorylation by protein kinase C. 901 77

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