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)

The cell division cycle in eukaryotes contains up to three major transition points; the conversion of quiescent cells to a stage of active proliferation, the initiation of DNA synthesis (S phase) and the induction of mitosis in cells with newly replicated genome (M phase). Within the past years two strategies, have converged to identify, genetically and biochemically a key protein kinase p34 cdc2 that governs the entry into mitosis. In the fission yeast Schizosaccharomyces pombe a number of mutants in the mitotic regulatory circuit have been isolated. A central gene in the network is cdc2 which is essential for the proper execution of mitosis. The cdc2 gene interacts with a number of other genes for correct mitotic control. The Amphibian oocyte, the oocyte from Xenopus laevis particularly, is arrested at the G2 phase of the first meiotic division; when it enters M phase, it contains a dominant regulatory factor known as MPF (M-phase or maturation promoting factor). Purified MPF is an heterodimer formed of two polypeptides p34cdc2 an homologue of the product of the gene cdc2 and p45cdc13 or cyclin an homologue of the product of the gene cdc13. Biochemical studies have revealed that p34cdc2 is a phosphotyrosine protein during the G2 phase of the cell cycle, both mitotic and meiotic. The tyrosine phosphorylation of p34cdc2 is regulated by the gradual accumulation of cyclin. At the onset of M phase, the complex p34cdc2/cyclin is activated as an histone H1 kinase, and p34cdc2 is tyrosine dephosphorylated. The mechanism of activation of p34cdc2 is negatively regulated by a form of protein phosphatase 2A. Ovulated vertebrate oocytes are arrested at metaphase of the second meiotic division (M II) under the control of the proto-oncogene c-mos a protein kinase. The exit of M II phase and the initiation of early embryonic mitotic cell cycles are physiologically induced by the spermatozoa at the time of fertilization. They requires the degradation of c-mos by a Ca2+ dependent proteolytic enzyme and the destruction of cyclin by an ubiquitin dependent pathway. The Xenopus oocyte has led to the molecular elucidation of MPF and identified links between cell cycle control, protein phosphorylation and proto-oncogenes. Despite the impresive progess of recent years, there is still much to be learned about the control of meiosis in Xenopus oocytes.
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PMID:[From ovocyte to biochemistry of the cell cycle]. 165 57

Incubation of Swiss 3T3 murine fibroblasts at low temperatures induces phosphorylation on tyrosine of a transmembrane protein of 175 kDa. This phenomenon is time and temperature dependent and reaches a maximum after 2 hr at 4 degrees C. The 175 kDa protein phosphorylated in vivo at low temperatures can be immunoprecipitated by phosphotyrosine antibodies and displays auto-kinase activity in vitro in the presence of radiolabelled ATP. This molecule was found to react with anti-peptide antibodies directed against the product of the HER2/neu proto-oncogene only when immunoprecipitated with phosphotyrosine antibodies from cold-stimulated cells. Activation of protein kinase-C by treatment of the cells with phorbol esters, bombesin or PDGF inhibits the effect of the exposure to low temperatures. Phosphorylation of p175 is not induced by treatment of the cells with the phosphatases inhibitor sodium orthovanadate. These results suggest that, at low temperatures, the tyrosine kinase associated with the putative receptor encoded by c-neu is activated by physico-chemical modifications of the plasma membrane.
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PMID:Ligand-independent tyrosine phosphorylation of the receptor encoded by the c-neu oncogene. 168 56

The product of the junB gene, a gene homologous to the proto-oncogene c-jun, is a component of transcription factor AP-1. JunB expression is modulated by a wide variety of extracellular stimuli, such as serum, growth factors, phorbol esters (TPA) and activators of protein kinase A (PKA). In order to study the molecular basis of this complex regulation, we have cloned the mouse junB gene from a genomic testis library, and characterized the junB promoter. Here we show that the junB promoter is activated by serum, TPA, and activated PKA. Sequences located between -91 and -44 are necessary for induction. These sequences contain a CAAT box, a G-C rich region and a previously undescribed inverted repeat (IR). The IR element can mediate induction by TPA and PKA when coupled to a heterologous promoter, and specifically binds a protein of 110 kD.
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PMID:Activation of junB by PKC and PKA signal transduction through a novel cis-acting element. 170 23

The proto-oncogene c-myc has been identified as an early response gene for erythropoietin (Epo) in transformed murine erythroleukemia cells. Epo activation of c-myc in these cells requires protein kinase C. We now show the fidelity of this signaling pathway in normal erythroid cells isolated from the spleens of phenylhydrazine-treated mice. Mouse spleen cells rich in erythroid progenitors were washed free of endogenous Epo and then incubated in the absence of Epo. Subsequent addition of Epo for 1 hour led to a dramatic elevation of c-myc transcript. Addition of the protein synthesis inhibitor cycloheximide did not prevent the c-myc response, thus identifying c-myc as an Epo early response gene in normal cells. We used this c-myc response as a reporter for signals initiated by the Epo receptor. Using a series of inhibitors with known specificities and established rank-orders of potency for different kinases, we determined that the c-myc response to Epo was blocked with the following rank order: staurosporine much greater than H7 greater than sangivamycin greater than H8. This sequence is identical to that obtained using transformed cells and is diagnostic of a protein kinase C-dependent signal. Because direct activation of protein kinase by phorbol esters does not induce terminal differentiation of normal cells, the pathway to c-myc established by these studies must represent one part of a signal transduction mechanism.
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PMID:c-myc is an erythropoietin early response gene in normal erythroid cells: evidence for a protein kinase C-mediated signal. 172 20

The proto-oncogene c-fos encodes a nuclear protein (Fos) that functions in transcriptional regulation in response to extracellular signals. Fos is extensively modified in the nucleus by serine and threonine phosphorylation. It has been suggested that phosphorylation may play an important role in regulating Fos function in normal and transformed cells. As a first step in addressing this issue, we have used purified Fos as a substrate for several serine-threonine protein kinases, including cAMP-dependent protein kinase (PKA), protein kinase C (PKC) and p34cdc2. Each of these kinases phosphorylated Fos at several unique sites. These sites were located within two regions that were previously shown to reduce the transcriptional activity of Fos in vitro. Several of the sites modified in vitro were also shown to be phosphorylated in serum-stimulated fibroblasts. These findings demonstrate that Fos is a target for several protein kinases involved in signal transduction and suggest that phosphorylation could regulate the transcriptional properties of Fos.
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PMID:Fos is phosphorylated by p34cdc2, cAMP-dependent protein kinase and protein kinase C at multiple sites clustered within regulatory regions. 176 67

The mos proto-oncogene product, pp39mos, is a protein kinase and has been equated with cytostatic factor (CSF), an activity in unfertilized eggs that is thought to be responsible for the arrest of meiosis at metaphase II. The biochemical properties and potential substrates of pp39mos were examined in unfertilized eggs and in transformed cells in order to study how the protein functions both as CSF and in transformation. The pp39mos protein associated with polymers under conditions that favor tubulin oligomerization and was present in an approximately 500-kilodalton "core" complex under conditions that favor depolymerization. beta-Tubulin was preferentially coprecipitated in pp39mos immunoprecipitates and was the major phosphorylated product in a pp39mos-dependent immune complex kinase assay. Immunofluorescence analysis of NIH 3T3 cells transformed with Xenopus c-mos showed that pp39mos colocalizes with tubulin in the spindle during metaphase and in the midbody and asters during telophase. Disruption of microtubules with nocodazole affected tubulin and pp39mos organization in the same way. It therefore appears that pp39mos is a tubulin-associated protein kinase and may thus participate in the modification of microtubules and contribute to the formation of the spindle. This activity expressed during interphase in somatic cells may be responsible for the transforming activity of pp39mos.
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PMID:Ability of the c-mos product to associate with and phosphorylate tubulin. 182 42

Previously we reported that c-mos proto-oncogene RNA was developmentally up-regulated during post-natal maturation of the rat skeletal muscle. Using two different site-directed affinity-purified antipeptide antibodies we can observe that c-mos product (p43 c-mos) accumulates increasingly during post-natal development of the skeletal muscle and exhibits protein kinase activity. We find that in adult rat p43 c-mos is 10-fold higher in skeletal muscle than in ovaries, and 20- to 40-fold higher than in heart, lung, testis and liver, and may represent about 0.005% of the total soluble proteins. In addition adult skeletal muscle from Xenopus, mouse and man was found to contain p43 c-mos. These data argue in favour of a novel muscle-specific function of c-mos.
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PMID:Accumulation of the c-mos protein is correlated with post-natal development of skeletal muscle. 183 18

The product of the c-raf-1 proto-oncogene, Raf-1, is a 74,000-dalton cytoplasmic serine/threonine protein kinase that has been implicated as an intermediate in signal transduction mechanisms. In the human factor-dependent myeloid cell line MO7, both granulocyte-macrophage colony stimulating factor (GM-CSF) and interleukin-3 (IL-3) were found to induce rapid, dose-dependent phosphorylation of Raf-1, which resulted in altered Raf-1 mobility in sodium dodecyl sulfate-polyacrylamide gels. The increase in phosphorylation was due primarily to an increase in phosphoserine, with only a minor component (less than 2%) of phosphotyrosine. PMA (12-phorbol 13-myristic acid) also induced Raf-1 phosphorylation in MO7 cells, but the resulting alteration in electrophoretic mobility was different than that observed after GM-CSF or IL-3. GM-CSF and IL-3 rapidly and transiently increased Raf-1 kinase activity using Histone H1 as a substrate in an immune complex kinase assay in vitro. These results suggest that phosphorylation of Raf-1 could play a role in some aspect of GM-CSF and IL-3 signal transduction.
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PMID:Granulocyte-macrophage colony-stimulating factor and interleukin-3 induce rapid phosphorylation and activation of the proto-oncogene Raf-1 in a human factor-dependent myeloid cell line. 184 31

Phosphorylation events are major regulatory mechanisms of signal transduction pathways that control cell growth and differentiation. We analyzed the potential contribution of serine/threonine specific protein phosphatases to the regulation of the c-fos gene, a proto-oncogene that is involved in the regulation of cell growth and differentiation. By use of okadaic acid, an inhibitor of protein phosphatases 1 and 2A, we present evidence that expression of the c-fos gene is regulated by serine/threonine specific protein phosphatases. This control is exerted on the transcriptional as well as the post-transcriptional level. The results suggest that dephosphorylation of regulatory phosphoproteins is an important mechanism for the down-regulation of c-fos promoter activity and the rapid degradation of c-fos mRNA. Examination of two protein kinase pathways that are known to regulate c-fos expression indicated that okadaic acid acted synergistically with protein kinase C, but not with protein kinase A. Since inhibition of serine/threonine specific phosphatases increases proto-oncogene expression, these experiments further strengthen the view that certain protein phosphatases may act as negative regulators of cell growth.
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PMID:Transcriptional and post-transcriptional regulation of c-fos expression by the tumor promoter okadaic acid. 190 2

The HER2/neu proto-oncogene encodes a receptor that belong to the tyrosine-specific protein kinase family. Amplification of the HER2 gene in patients with breast and ovarian cancer has been shown to predict poorer survival rates. In order to understand the role of HER2 in malignant and normal cells, it is necessary to devise assays that can quantitate expression levels of the HER2 gene product (p185HER2) in production samples, biopsy specimens and biological fluids. We have developed a simple, quantitative ELISA that uses two monoclonal antibodies directed against the extracellular domain of the HER2 gene product, p185HER2 (HER2 ECD). The assay has a detection range of 0.25-120 ng/ml, is precise and sensitive. The ability of this assay to detect biologically active rHER2 ECD is demonstrated by its correlation to a growth inhibitory bioassay (r = 0.92). The sandwich ELISA can also accurately quantitate rHER2 ECD in mouse and monkey serum. This assay should be useful for quantitating low levels of circulating rHER2 ECD in animals in which rHER2 ECD is being used as antigen for immunotherapy and in patients which 'shed' receptor.
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PMID:ELISA for quantitation of the extracellular domain of p185HER2 in biological fluids. 197 63

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