Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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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 serine/threonine-specific protein kinase activity is closely associated with v-mos-encoded proteins. Experiments were conducted with several mutant forms of p37mos to determine whether or not the kinase function correlates with the biological activity of the mutant v-mos genes. Two mutants lacking cell transformation activity, one an arginine substitution for lysine-121 in the putative ATP-binding site and the other a 23-amino acid deletion from the C-terminal end of p37mos, had no kinase activity associated with their mutant proteins. However, a third mutant with reduced biological activity had drastically less kinase activity than the wild-type protein. The latter mutant was able to phosphorylate the kinase-inactive p37mos(Arg-121) protein in vitro. These results indicate that even though p37mos(Arg-121) can be phosphorylated in trans by other kinase molecules, it lacks the ability to phosphorylate itself in vitro. This provides a compelling argument that the protein kinase function of p37mos is an intrinsic property of the protein. Moreover, since the kinase function correlates with the cellular transformation activity of the v-mos gene, we predict that it is required for the biological activity of the v-mos gene.
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PMID:p37mos-associated serine/threonine protein kinase activity correlates with the cellular transformation function of v-mos. 302 66

Tyrosine phosphorylation of a 42-kD, cytosolic protein is a rapid consequence when quiescent cells are stimulated with any one of a diverse group of mitogenic agents. Among the inducers of this tyrosine phosphorylation are activators of protein kinase C, raising the possibility that this serine/threonine-specific protein kinase plays a role in mitogen-induced tyrosine phosphorylation. Using fibroblastic cells depleted of protein kinase C by chronic treatment with the tumor promoter tetradecanoyl phorbol acetate (TPA), we now show that protein kinase C is required for the tyrosine phosphorylation of the 42-kD protein, even when epidermal growth factor (EGF), whose receptor is a tyrosine-specific protein kinase, provides the initial stimulus. EGF is able to induce other cellular phosphorylations independent of protein kinase C, whereas thrombin appears to require the protein kinase C-dependent pathway. These findings suggest that phosphorylation of the 42-kD protein is part of a protein kinase C-dependent kinase cascade involved in intracellular signalling.
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PMID:Mitogen-stimulated tyrosine phosphorylation of a 42-kD cellular protein: evidence for a protein kinase-C requirement. 325 83

We previously isolated a novel human transforming sequence from a primary stomach cancer and identified the gene as an activated version of the c-raf-1 gene which is the human homologue of v-raf, a viral oncogene encoding a serine/threonine-specific protein kinase. Of 57 kbp of the human sequence isolated, a region of 40 kbp was found to be the minimum functional unit for the transforming activity, because a cosmid clone harboring this region was capable of inducing foci upon transfection. The size of the transcript of the transforming c-raf-1 gene was estimated to be about 2.8kb. Analyses of cDNA clones of this gene revealed that the gene was generated by substitution of the 5'-sequence (exons 1-5) of the normal c-raf-1 gene with an unrelated human sequence. We identified a region in the genomic clone where the rearrangement had occurred. The rearranged EcoRI fragment was detected in all the primary transformants obtained from two independent transfections, suggesting that the recombination had occurred in the primary cancer. The substituted cDNA sequence is composed of an open reading frame, which joins to exon 6 of the c-raf-1 gene in an in-phase manner. The substituted open reading frame encodes an extremely hydrophobic polypeptide. Thus, the putative product of the transforming gene seems to have a hydrophobic stretch ahead of the ser/thr-protein kinase domain of the c-raf-1 gene product. These results suggest that the truncation or replacement of the amino-terminal domain of the c-raf-1 protein leads to constitutive activation of the protein kinase residing in the downstream domain.
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PMID:[Activated c-raf-1 gene from human stomach cancer]. 330 May 56

p42mapk [mitogen activated protein (MAP) kinase; extracellular signal-regulated protein kinase (ERK)] is a serine/threonine-specific protein kinase that is activated by dual tyrosine and threonine phosphorylation in response to diverse agonists. Both the tyrosine and threonine phosphorylations are necessary for full enzymic activity. A MAP kinase activator recently purified and cloned has been shown to be a protein kinase (MAP kinase kinase) that is able to induce the dual phosphorylation of MAP kinase on both the regulatory tyrosine and threonine sites in vitro. In the present paper we have utilized MAP kinase mutants altered in the sites of regulatory phosphorylation to show, both in vivo and in vitro, that phosphorylation of the tyrosine and the threonine can occur independently of one another, with no required order of phosphorylation. We also utilized kinase-defective variants of MAP kinase with mutations in either the ATP-binding loop or the catalytic loop, and obtained data suggesting that the activity or structure of the catalytic loop of MAP kinase plays an important role in its own dual phosphorylation.
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PMID:Dual phosphorylation and autophosphorylation in mitogen-activated protein (MAP) kinase activation. 750 57

Fibroblast growth factor (FGF)-1 mitogenic signal transduction is mediated in part by gene products that are specifically expressed in response to cell surface receptor binding and activation. We have used a targeted differential display method to identify FGF-1-inducible genes in murine NIH 3T3 fibroblasts. Here we report that one of these genes is predicted to encode a novel serine/threonine-specific protein kinase. This putative kinase has been named Fnk, for FGF-inducible kinase. The deduced Fnk amino acid sequence has 49, 36, 33, 32, and 22% overall identity to mouse serum-inducible kinase (Snk), mouse polo-like kinase (Plk), Drosophila polo, Saccharomyces Cdc5, and mouse Snk/Plk-akin kinase (Sak), respectively. These proteins are all members of the polo subfamily of structurally related serine/threonine kinases. The Plk, polo, Cdc5, and Sak kinases are required for cell division. FGF-1 induction of Fnk mRNA expression is first detected at 30 min after mitogen addition, reflects transcriptional activation, and does not require de novo protein synthesis. FGF-2, platelet-derived growth factor-BB, calf serum, or phorbol myristate acetate treatment of quiescent cells also induces fnk gene expression. Fnk mRNA is expressed in vivo in a tissue-specific manner, with relatively high levels detected in newborn and adult mouse skin. These results indicate that Fnk may be a transiently expressed protein kinase involved in the early signaling events required for growth factor-stimulated cell cycle progression.
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PMID:Identification by targeted differential display of an immediate early gene encoding a putative serine/threonine kinase. 773 Mar 42

The human Nek2 protein kinase is the closest known mammalian relative of the mitotic regulator NIMA of Aspergillus nidulans. The two kinases share 47% sequence identity over their catalytic domains and display a similar cell cycle-dependent expression peaking at the G2 to M phase transition. Hence, it is attractive to speculate that human Nek2 and fungal NIMA may carry out similar functions at the onset of mitosis. To study the biochemical properties and substrate specificity of human Nek2 and compare them to those reported previously for other NIMA-related protein kinases, we have expressed Nek2 in insect cells. We show that recombinant Nek2 is active as a serine/threonine-specific protein kinase and may undergo autophosphorylation. Both human Nek2 and fungal NIMA phosphorylate a similar, albeit not identical, set of proteins and synthetic peptides, and beta-casein was found to be a suitable substrate for assaying Nek2 in vitro. By exploiting these findings, we have studied the cell cycle regulation of Nek2 activity in HeLa cells. We show that Nek2 activity parallels its abundance, being low during M and G1 but high during S and G2 phase. Taken together, our results suggest that human Nek2 resembles fungal NIMA in its primary structure, cell cycle regulation of expression, and substrate specificity, but that Nek2 may function earlier in the cell cycle than NIMA.
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PMID:Substrate specificity and cell cycle regulation of the Nek2 protein kinase, a potential human homolog of the mitotic regulator NIMA of Aspergillus nidulans. 775 49

c-Raf-1 is a serine/threonine-specific protein kinase which is regulated by phosphorylation. A putative c-AMP dependent protein kinase PKA phosphorylation site with the consensus sequence RRXS, Ser43, and a predominant phosphorylation site of c-Raf-1, Ser259, can be phosphorylated by PKA in vitro as shown by comparison of phosphopeptide maps of recombinant wild-type c-Raf-1 and the corresponding mutants. In vivo stimulation of the PKA pathway by treatment of A431 cells with Forskolin results in increase of phosphorylation in Ser43. Forskolin reduces the upshift of c-Raf-1 induced by EGF-treatment. It inhibits the EGF-activation of the c-Raf-1 protein kinase activity tested in vitro with a peptide substrate.
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PMID:Phosphorylation of c-Raf-1 by protein kinase A interferes with activation. 800 10

Bacteriophage T7 expresses a serine/threonine-specific protein kinase activity during infection of its host, Escherichia coli. The protein kinase (gp0.7 PK), encoded by the T7 early gene 0.7, enhances phage reproduction under sub-optimal growth conditions. It was previously shown that ribosomal protein S1 and translation initiation factors IF1, IF2, and IF3 are phosphorylated in T7-infected cells, and it was suggested that phosphorylation of these proteins may serve to stimulate translation of the phage late mRNAs. Using high-resolution two-dimensional gel electrophoresis and specific immunoprecipitation, we show that elongation factor G and ribosomal protein S6 are phosphorylated following T7 infection. The gel electrophoretic data moreover indicate that elongation factor P is phosphorylated in T7-infected cells. T7 early and late mRNAs are processed by ribonuclease III, whose activity is stimulated through phosphorylation by gp0.7 PK. Specific overexpression and phosphorylation was used to locate the RNase III polypeptide in the standard two-dimensional gel pattern, and to confirm that serine is the phosphate-accepting amino acid. The two-dimensional gels show that the in vivo expression of gp0.7 PK results in the phosphorylation of over 90 proteins, which is a significantly higher number than previous estimates. The protein kinase activities of the T7-related phages T3 and BA14 produce essentially the same pattern of phosphorylated proteins as that of T7. Finally, several experimental variables are analysed which influence the production and pattern of phosphorylated proteins in both uninfected and T7-infected cells.
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PMID:Phosphorylation of elongation factor G and ribosomal protein S6 in bacteriophage T7-infected Escherichia coli. 802 76

We have isolated two yeast genes, KIN1 and KIN2, by their homology to the protein kinase family of viral oncogenes. Previous studies have identified the yeast KIN1 gene product (pp145KIN1) as a 145 kilodalton (kDa) phosphoprotein with serine/threonine-specific protein kinase activity. To identify and biochemically characterize the KIN2 gene product, antibodies were raised against a bacterial beta-galactosidase/KIN2 fusion polypeptide. In vivo, the KIN2 gene product is a 145 kDa phosphoprotein, pp145KIN2. In immune complexes, pp145KIN2 demonstrates serine/threonine protein kinase activity, transferring phosphate from [gamma-32P]ATP to either itself or the exogenously added substrates alpha-casein, acid-denatured enolase, or phosvitin. In vitro, kinase activity is dependent on either Mn2+ or Mg2+ ions. Both enzymes, pp145KIN1 and pp145KIN2, prefer ATP over GTP as their phosphoryl donor. Since a new class of yeast protein kinases has been identified which are serine/tyrosine-specific, we analysed a wide range of substrates to see if any could be phosphorylated by pp145KIN1 or pp145KIN2 on tyrosine residues. Both enzymes phosphorylate alpha-casein, acid-denatured enolase, and phosvitin on serine and threonine residues. Neither enzyme could phosphorylate tyrosine residues even though good substrates for tyrosine-specific kinases such as enolase, angiotensin II, and the synthetic polymer GLU80TYR20 were used. The biochemical analysis of KIN2 kinase activity shows remarkable similarity to that of its most closely related yeast kinase, KIN1. It remains to be seen if these two yeast protein kinases share any functional relationships or substrates in vivo.
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PMID:Characterization of the KIN2 gene product in Saccharomyces cerevisiae and comparison between the kinase activities of p145KIN1 and p145KIN2. 820 45

NIMA is the protein product of the nimA gene of the filamentous fungus Aspergillus nidulans, required for progression of cells from G2 into mitosis. The protein kinase activity of NIMA, assayed by phosphorylation of beta-casein, varies during the nuclear division cycle, reaching a maximum in late G2 and M. To investigate the biochemical properties of this cell cycle-regulated protein kinase, we have expressed nimA cDNA that encodes full-length NIMA in Escherichia coli as a fusion product with glutathione S-transferase. Purified NIMA phosphorylated beta-casein, with a Km of 38 microM and Vmax of 156 nmol/min/mg. NIMA also demonstrated a Km of 69 microM for ATP. Both recombinant and cellular NIMA kinases behaved as oligomers on gel filtration chromatography, and their kinase activities were strongly inhibited by various salts. By using both protein and peptide substrates, NIMA demonstrated a serine/threonine-specific protein kinase activity. Cellular NIMA exists as a phosphoprotein, and bacterially expressed NIMA was also phosphorylated on multiple serine/threonine residues. Some of these phosphorylations appeared essential for NIMA activity as the enzyme could be dephosphorylated and inactivated in vitro by protein serine/threonine phosphatases. Use of a kinase-negative mutant of NIMA revealed that the NIMA enzyme undergoes autophosphorylation when expressed at high concentrations in bacteria. Taken together, these data suggest that cellular mechanisms may exist to regulate the phosphorylation state and activity of the NIMA protein kinase during the nuclear division cycle in A. nidulans.
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PMID:Properties and regulation of the cell cycle-specific NIMA protein kinase of Aspergillus nidulans. 847 20


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