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)

AlgR is a transcriptional regulator of mucoidy in Pseudomonas aeruginosa, a critical virulence factor expressed in cystic fibrosis. AlgR belongs to the superfamily of bacterial signal transduction systems, and has been shown to bind to the algD promoter, a critical point in the regulation of mucoidy. This protein, like other typical response regulators, contains highly conserved residues known to be critical for the phosphorylation and signal transduction processes. However, a typical second component interacting with AlgR has not been identified. Here we demonstrate that AlgR undergoes phosphorylation in vitro when interacting with the well-characterized histidine protein kinase CheA. These results indicate that AlgR is capable of undergoing phosphorylation typical of other two-component signal transduction systems. Moreover, the phosphotransfer reaction between CheA and AlgR was found to be affected by the presence of carbamoyl phosphate, acetyl phosphate, and salts of phosphoramidic acid, recently shown to act as small-molecular-weight phospho-donors in the process of phosphorylation of several response regulators. These findings suggest that AlgR may react with intermediary metabolites such as carbamoyl phosphate and acetyl phosphate, and that these processes may play a role in the control of mucoidy in P. aeruginosa.
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PMID:In vitro phosphorylation of AlgR, a regulator of mucoidy in Pseudomonas aeruginosa, by a histidine protein kinase and effects of small phospho-donor molecules. 143 55

Spore formation in Bacillus subtilis is a dramatic response to environmental signals that is controlled in part by a two-component regulatory system composed of a histidine protein kinase (SpoIIJ) and a transcriptional regulator (Spo0A). The spo0K locus plays an important but undefined role in the initiation of sporulation and in the development of genetic competence. spoIIJ spo0K double mutants had a more severe defect in sporulation than either single mutant. Overproduction of the spoIIJ gene product resulted in the suppression of the sporulation defect, but not the competence defect, caused by mutations in the spo0K locus. On the basis of the phenotype of the spoIIJ spo0K double mutant and the effect of overproduction of the spoIIJ gene product, a transposon insertion in the spo0K locus was isolated. The spo0K locus was cloned and sequenced. spo0K proved to be an operon of five genes that is homologous to the oligopeptide permease (opp) operon of Salmonella typhimurium and related to a large family of membrane transport systems. The requirement for the transport system encoded by spo0K in the development of competence was somewhat different than its requirement in the system encoded by spo0K in the development of competence was somewhat different than its requirement in the initiation of sporulation. Disruption of the last open reading frame in the spo0K operon caused a defect in competence but had little or no effect on sporulation. We hypothesize that the transport system encoded by spo0K may have a role in sensing extracellular peptide factors that we have shown are required for efficient sporulation and perhaps in sensing similar factors that may be necessary for genetic competence.
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PMID:The spo0K locus of Bacillus subtilis is homologous to the oligopeptide permease locus and is required for sporulation and competence. 189 58

The engrailed gene is required during embryogenesis of Drosophila melanogaster for normal segmental development and for differentiation of posterior compartments. The protein encoded by the engrailed gene contains a homeodomain, has sequence specific DNA binding activity, and has been proposed as a transcriptional regulator. We show here that the engrailed protein, isolated from both cultured cells and embryos, has been modified by a serine-specific protein kinase. This is the first report that homeobox proteins are post-translationally modified. Phosphorylation of the engrailed protein may directly or allosterically modify its function, and offers the possibility that the engrailed protein becomes phosphorylated in response to extracellular, mitogenic or positional stimuli.
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PMID:The Drosophila engrailed protein is phosphorylated by a serine-specific protein kinase. 289 84

The AMP-activated protein kinase is responsible for the regulation of fatty acid synthesis by phosphorylation of acetyl-CoA carboxylase. It may also regulate cholesterol synthesis via phosphorylation and inactivation of hormone-sensitive lipase and hydroxymethylglutaryl-CoA reductase. We have purified the AMP-activated protein kinase 14,000-fold from porcine liver. The 63-kDa catalytic subunit co-purifies with two proteins of 40 and 38 kDa that may function as subunits. Partial amino acid sequence of the 63-kDa subunit revealed a striking homology with the catalytic domain of the yeast protein kinase transcriptional regulator Snf1 and its plant homologs. The Snf1 (72 kDa) and Snf4 (36 kDa) complex was also purified and found to phosphorylate the AMP-activated protein kinase peptide substrate, HMRSAMSGLHLVKRR-amide, but was not activated by AMP. Both Snf1/4 and the AMP-activated protein kinase phosphorylate and inactivate yeast acetyl-CoA carboxylase in vitro. These results indicate that during evolution the catalytic domain sequences of the Snf1 protein kinase subfamily have been exploited in the control of mammalian lipid metabolism and raise the possibilities that the AMP-activated protein kinase may have other substrates involved in regulating gene expression pathways, as well as Snf1 homologs participating in the control of lipid metabolism in many eukaryotic organisms.
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PMID:Mammalian AMP-activated protein kinase shares structural and functional homology with the catalytic domain of yeast Snf1 protein kinase. 790 77

Expression of the pilin gene, pilA, of Pseudomonas aeruginosa requires the alternative sigma factor, sigma 54, and also two other transcriptional regulators encoded by the pilS and pilR genes. These two linked genes, which have been identified by transposon insertion mutagenesis, share significant amino acid sequence homology with members of the two-component family of regulators. The transcriptional regulator, PilR, has been described previously. PilS, a 37,285 Dalton protein, shares significant homology with the protein kinase sensors of the two-component regulatory family. PilS, however, has no hydrophobic domains which might be membrane-spanning alpha-helices, suggesting that PilS is a cytoplasmic protein. Characterization of the pilS gene revealed that when overexpressed in Escherichia coli by the bacteriophage T7 promoter it specifies a protein of approximately 40,000 daltons, corresponding to the molecular weight of PilS predicted from the deduced amino acid sequence. Deletion analysis of the pilS promoter fused to a promoterless lacZ gene further showed that a significant region upstream of pilS is essential for expression of pilS and pilR, suggesting a need for transcriptional activation. The pilA promoter can be activated in E. coli but only when PilR and sigma 54 are present. This work suggests that the PilS activation signal is received in the bacterial cytoplasm, and that the mechanism of PilS/PilR-mediated signal transduction resulting in activation of the pilin gene promoter is likely to be similar to that of other two-component systems.
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PMID:Identification and characterization of PilS, an essential regulator of pilin expression in Pseudomonas aeruginosa. 791 57

Two interferon (IFN) alpha-regulated genes, IRF1/ISGF2 and PKR/p68 kinase, may function as tumor suppressor genes suggesting that the IFN system may function as a tumor suppressor system. We report that the expression of the alpha subunit of the type I IFN receptor in human K-562 cells had anti-oncogenic effects that include a marked decrease in: (i) cell proliferation rate, (ii) the cell density at which growth arrest normally occurs, and (iii) the tumorigenicity in nude mice. Furthermore, expression of the alpha subunit in K-562 cells induced erythroid differentiation. While most cytokine receptors become activated after binding their corresponding ligands, the overexpression of the alpha subunit has a physiological effect in the absence of its natural ligand, type I IFNs, suggesting a novel function for this type I IFN receptor subunit. The anti-oncogenic effect of the alpha subunit is mediated by a pathway that does not involve two tumor suppressor genes induced by type I IFNs, the transcriptional regulator IFN response factor-1 and the RNA-dependent protein kinase, or the p135tyk2 tyrosine kinase that directly associates and phosphorylates the alpha subunit.
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PMID:Ligand-independent anti-oncogenic activity of the alpha subunit of the type I interferon receptor. 796 37

Phylogenetic trees were derived for the Alphaherpesvirinae subfamily of the Herpesviridae using molecular sequences. Sequences from the families of genes encoding glycoprotein B, thymidine kinase, S region protein kinase, immediate-early transcriptional regulator IE175 and ribonucleotide reductase large subunit were examined by means of both maximum parsimony and distance methods, and for both protein and DNA alignments. Trees obtained were evaluated by bootstrap analysis. A clear consensus tree was obtained, with most detail coming from 14 sequences in the glycoprotein B gene set. The tree showed two avian viruses branching first from the lineage leading to the mammalian alphaherpesviruses. The mammalian viruses were split into two groups, which corresponded to the Simplexvirus and Varicellovirus genera. A timescale for events in alphaherpesvirus evolution was tested, based on the proposition that most of the lineages arose by ancient cospeciation with hosts. The virus phylogenetic tree was unambiguously compatible with cospeciation for ten of the 12 mammalian viruses. The tree was also supported by demonstration of an approximate proportionality between magnitudes of pairwise divergences of viral sequences and times since lineages of corresponding pairs of hosts split. On the basis of this timescale it was estimated that the two mammalian alphaherpesvirus groups diverged around the period of the mammalian radiation, and that alphaherpesviral genome sequences have evolved faster than those of mammals by a factor of one to two orders of magnitude.
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PMID:Molecular phylogeny of the alphaherpesvirinae subfamily and a proposed evolutionary timescale. 814 60

MRF4 is a member of the muscle-specific basic helix-loop-helix transcription factor family that also includes MyoD, myogenin, and Myf-5. Each of these proteins, when overexpressed in fibroblasts, converts the cells to differentiated muscle fibers that express several skeletal muscle genes, such as those for alpha-actin, muscle creatine kinase, and troponin I. Despite the fact that MRF4 functions as a positive transcriptional regulator, the MRF4 protein is subject to negative regulation by a variety of agents, most notably by exposure of cells to purified growth factors, such as basic fibroblast growth factor (bFGF). In an effort to establish whether bFGF inhibits MRF4 activity through specific posttranslational modifications, we examined whether MRF4 exists in vivo as a phosphoprotein and whether the phosphorylation status of the protein regulates its activity. Our results indicate that MRF4 is phosphorylated predominantly on serine residues, with weak phosphorylation occurring on threonine residues. Both cyclic AMP-dependent protein kinase (PKA) and protein kinase C (PKC) phosphorylate MRF4 in vitro as well as in vivo, and the overexpression of each kinase inhibits MRF4 activity and thus blocks terminal differentiation. PKC-directed phosphorylation of a conserved threonine residue (T-99) situated within the DNA-binding domain inhibits MRF4 from binding in vitro to specific DNA targets. However, although T-99 itself is essential for myogenic activity, our studies demonstrate that the phosphorylation status of T-99 does not play a major role in regulating MRF4 activity in vivo, since PKA, PKC, and bFGF inhibit the activity of MRF4 proteins in which the identified PKA and PKC sites have been mutated. We suggest that the negative regulation of MRF4 imposed by bFGF does not involve a direct modification of the protein at the identified PKA and PKC sites but instead may involve the modification of specific coregulators that interact with this muscle regulatory factor.
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PMID:Fibroblast growth factor inhibits MRF4 activity independently of the phosphorylation status of a conserved threonine residue within the DNA-binding domain. 841 99

The Schizosaccharomyces pombe pcr1 gene encodes a bZIP protein that apparently belongs to the cyclic AMP response element (CRE)-binding protein/activating transcription factor family. The deduced pcr1 gene product consists of 171 amino acid residues and is most similar to the mammalian CRE-BP1. A glutathione S-transferase-Pcr1 fusion protein produced in Escherichia coli was able to bind specifically to the CRE motif in vitro. Analysis with anti-Pcr1 serum suggested that Pcr1 is included in the major CRE-binding factors present in the S. pombe cell extract. Disruption of the pcr1 gene was not lethal, but the disruptant showed cold-sensitive growth on rich medium. The disruptant was also inefficient in mating and sporulation, though it was not completely sterile. Expression of the ste11 gene, which encodes a key transcription factor for sexual development, was greatly reduced in the disruptant, and overexpression of ste11+ suppressed the deficiency of the pcr1 disruptant in sexual development. It has been shown that expression of ste11 is negatively regulated by cyclic AMP-dependent protein kinase (PKA) and that the loss of PKA activity results in ectopic sexual development. Disruption of pcr1 blocked ectopic sexual development. Furthermore, disruption of pcr1 reduced expression of fbp1, a glucose-repressible gene negatively regulated by PKA. These results suggest that Pcr1 is a putative transcriptional regulator whose activity may be controlled by PKA. Alternatively, its activity may be independent of PKA, and full induction of ste11 and fbp1 expression requires the function of Pcr1 in addition to elimination of the repression by PKA.
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PMID:Schizosaccharomyces pombe pcr1+ encodes a CREB/ATF protein involved in regulation of gene expression for sexual development. 855 99

The present study provides evidence that heat shock factor (HSF) may be involved in a transacting factor modulating multidrug resistance 1 (MDR1) gene. In conjunction with the presence of several heat shock elements (HSEs) in the 5' region of the MDR1 gene, we compared the level of HSF which binds to HSEs in multidrug-resistant P388/M and FM3A/M cells with that in their parental counterparts. Under unstressed condition, these multidrug-resistant cells showed constitutive HSF DNA-binding activity in the nucleus of the cells, whereas their parental counterparts did not show detectable HSF DNA-binding activity. We found that H-87, protein kinase A inhibitor, inhibited HSF DNA-binding activity in heat-shocked P388/M cells and also suppressed the levels of hsp90 and hsp70. These results demonstrated that HSF might be an important transcriptional regulator for inducing MDR1 gene, and modulation of HSF activity might be a useful potential target for reversing MDR.
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PMID:Involvement of heat shock factor in regulating transcriptional activation of MDR1 gene in multidrug-resistant cells. 909 73

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