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)

Two regulatory mutants of Pseudomonas aeruginosa, R1 and RA, that affect transcription of the pilin gene were isolated. This was done by introducing a plasmid carrying a fusion of the pilin gene's promoter with the lacZ gene into a bank of P. aeruginosa DNA mutagenized with the transposon Tn5G. The block in pilin expression in these mutants was shown to be at the level of transcription, since these mutants did not synthesize either pilin mRNA or pilin antigen. A restriction fragment derived from the R1 mutant that contains the entire transposon plus flanking chromosomal DNA was cloned and used as a probe to screen a cosmid library of P. aeruginosa DNA. Cosmids that could complement the pilin expression defect in both R1 and RA were isolated. The gene inactivated in R1 was sequenced. This gene, designated pilR, encodes an approximately 50-kDa polypeptide which exhibits significant similarity to the NtrC family of response regulators of the two-component regulatory system. PilR contains the amino-terminal aspartic acid residues which are conserved among the response regulators, suggesting that pilin gene transcription is regulated via a phosphotransfer mechanism in which PilR is phosphorylated by an as yet unidentified protein kinase.
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PMID:Identification of pilR, which encodes a transcriptional activator of the Pseudomonas aeruginosa pilin gene. 131 79

c-jun is a member of the family of immediate-early genes whose expression is induced by factors such as serum stimulation, phorbol ester, and differentiation signals. Here we show that increased Jun synthesis after serum stimulation is accompanied by a concomitant increase in phosphorylation. Several serine-threonine kinases were evaluated for their ability to phosphorylate Jun in vitro. p34cdc2, protein kinase C, casein kinase II, and pp44mapk phosphorylated Jun efficiently, whereas cyclic AMP-dependent protein kinase and glycogen synthase kinase III did not. The sites phosphorylated by p34cdc2 were similar to those phosphorylated in vivo after serum induction. The major sites of phosphorylation were mapped to serines 63, 73, and 246. Phosphorylation of full-length Jun with several kinases did not affect the DNA-binding activity of Jun homodimers or Fos-Jun heterodimers. Comparison of the DNA binding and in vitro transcription properties of wild-type and mutated proteins containing either alanine or aspartic acid residues in place of Ser-63, -73, and -246 revealed only minor differences among homodimeric complexes and no differences among Fos-Jun heterodimers. Thus, phosphorylation of Jun did not produce a significant change in dimerization, DNA-binding, or in vitro transcription activity. The regulatory role of phosphorylation in the modulation of Jun function is likely to be considerably more complex than previously suggested.
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PMID:Jun is phosphorylated by several protein kinases at the same sites that are modified in serum-stimulated fibroblasts. 132 60

Intracellular recordings were made from rat dorsal horn neurons in the in vitro slice preparation to study the actions of cyclic adenosine 3',5'-monophosphate (cyclic AMP). In the presence of TTX, bath application of the membrane permeable analogue of cyclic AMP, 8-Br cyclic AMP (25-100 microM) caused a small depolarization of the resting membrane potential accompanied by a variable change in membrane input resistance. In addition, 8-Br cyclic AMP caused a long-lasting increase in the spontaneous synaptic activity and the amplitude of presumed monosynaptic excitatory postsynaptic potentials evoked in the substantia gelatinosa neurons by orthodromic stimulation of a lumbar dorsal root. When the fast voltage-sensitive Na conductance was blocked by TTX, 8-Br cyclic AMP enhanced in a reversible manner, the depolarizing responses of a proportion of dorsal horn neurons to N-methyl-D-aspartic acid (NMDA), alpha-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid (AMPA), quisqualic acid (QA) and kainic acid (KA). The effects of 8-Br cyclic AMP on the resting membrane potential and the NMDA response of dorsal horn neurons were mimicked by reducing phosphodiesterase activity with bath application of 3-isobutyl-1-methylxanthine, but not by cyclic AMP applied extracellularly. Moreover, we have found that intracellular application of a protein inhibitor of cyclic AMP-dependent protein kinase (PKI) into dorsal horn neurons prevents the 8-Br cyclic AMP-induced potentiation of the NMDA response of these cells. These results suggest that in the rat spinal dorsal horn the activation of the adenylate cyclase-cyclic AMP-dependent protein kinase system may be involved in the enhancement of the sensitivity of postsynaptic excitatory amino acid (NMDA, AMPA, KA) receptors and modulation of primary afferent neurotransmission, including nociception.
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PMID:Cyclic adenosine 3'5'-monophosphate potentiates excitatory amino acid and synaptic responses of rat spinal dorsal horn neurons. 133 73

The mechanism by which cAMP-dependent protein kinase-catalyzed phosphorylation modulates the activities of 6-phosphofructo-2-kinase/fructose-2,6-bisphosphatase was examined after site-specific mutation of the cAMP-dependent phosphorylation site (Ser32) to aspartic acid or alanine. The mutant and wild-type enzymes were overexpressed in Escherichia coli in a rich medium to levels as high as 30 mg/liter and were then purified to homogeneity. The kinetic properties of the Ser32-Ala mutant were identical with the dephosphorylated wild-type bifunctional enzyme. Mutation of Ser32 to aspartic acid mimicked several effects of cAMP-dependent phosphorylation: there was an increase in the Km for fructose 6-phosphate for 6-phosphofructo-2-kinase and an increase in the maximal velocity of fructose-2,6-bisphosphatase. Fructose-2,6-bisphosphatase activity of the Ser32-Asp mutant was 75% that of the phosphorylated wild-type enzyme, the mutant's kinase reaction had an identical dependence on fructose 6-phosphate, while its maximum velocity was only 60% that of the phosphorylated wild-type enzyme over a wide pH range. Furthermore, catalytic subunit-catalyzed in vitro phosphorylation of the Ser32-Ala mutant on Ser33 increased the Km for fructose 6-phosphate by 4-fold for the 6-phosphofructo-2-kinase. The results support the hypothesis that Ser32 is an important residue in the regulation of the activities of the bifunctional enzyme and that phosphorylation of Ser32 can be functionally substituted by aspartic acid. The results suggest a role for negative charge in the effect of phosphorylation.
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PMID:Rat liver 6-phosphofructo-2-kinase/fructose-2,6-bisphosphatase. Properties of phospho- and dephospho- forms and of two mutants in which Ser32 has been changed by site-directed mutagenesis. 133 50

Excitatory synaptic transmission in the central nervous system (CNS) is mediated by three major classes of glutamate receptors, namely the ionotropic NMDA (N-Methyl-D-Aspartate) and KA/AMPA (kainate/alpha-amino-3-hydroxyl-5-methylisoxazole-4-propionic acid) receptors and the metabotropic receptor type. Among the ionotropic receptors, NMDA receptors are thought to mediate their physiological response mainly through the influx of extracellular calcium, while KA/AMPA receptor channels are mainly thought to carry the influx of monovalent cations. Recently, we have challenged this view by showing that cloned KA/AMPA receptor subunits GluR1 and GluR3 form ion channels which are permeable to calcium. We now directly demonstrate large increases in intracellular calcium concentrations induced by calcium fluxes through KA/AMPA receptor channels in solutions with physiological calcium concentrations. Calcium fluxes were observed through glutamate receptor channels composed of the subunits GluR1 and GluR3, which are both abundantly present in various types of central neurones. The calcium influx was fluorometrically monitored in Xenopus oocytes injected with the calcium indicator dye fura-2. Bath application of the membrane permeable analogue of adenosine cyclic monophosphate (cAMP) potentiated the current and also the flux of calcium through open KA/AMPA receptor channels. Further pharmacological experiments suggested that this effect was mediated by the activation of protein kinase A. Our results provide a molecular interpretation for the function of calcium permeable KA/AMPA receptor channels in neurones and identify two of the subunits of the KA/AMPA receptor channel which are regulated by the cAMP dependent second messenger system.
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PMID:Calcium influx through subunits GluR1/GluR3 of kainate/AMPA receptor channels is regulated by cAMP dependent protein kinase. 137 54

The bovine C alpha type catalytic subunit of the cAMP-dependent protein kinase was cloned. A partial cDNA was isolated from a bovine heart cDNA library. This clone contained 120 bp of the coding sequence and the entire 3' untranslated region of 1431 bp. The complete coding region was cloned by PCR amplification from total bovine heart and skeletal muscle RNA. The sequence of the 3' oligonucleotide was taken from the partial cDNA clone whereas the 5' oligonucleotide was chosen by comparison of sequences of published C alpha subunits from other species. In the deduced amino acid sequence there is one deviation from the published bovine C alpha protein sequence, aspartic acid 286 is exchanged by an asparagine. The C alpha mRNA was found to be expressed differentially in various bovine tissues.
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PMID:Cloning of the C alpha catalytic subunit of the bovine cAMP-dependent protein kinase. 142 Mar 67

The p53 tumour suppressor protein is phosphorylated by several protein kinases, including casein kinase II. In order to understand the functional significance of phosphorylation by casein kinase II, we have introduced mutations at serine 386 in mouse p53, the residue phosphorylated by this kinase, and investigated their effects on the ability of p53 to arrest cell growth. Replacement of serine 386 by alanine led to loss of growth suppressor activity, while aspartic acid at this position partially retained suppressor function. These data suggest that the anti-proliferative activity of p53 is activated by phosphorylation at serine 386, and establish a direct link between the covalent modification of a growth suppressor protein and regulation of its activity in mammalian cells.
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PMID:Mutation of the casein kinase II phosphorylation site abolishes the anti-proliferative activity of p53. 145 21

The beta-adrenergic receptor kinase (beta-ARK) phosphorylates G protein coupled receptors in an agonist-dependent manner. Since the exact sites of receptor phosphorylation by beta-ARK are poorly defined, the identification of substrate amino acids that are critical to phosphorylation by the kinase are also unknown. In this study, a peptide whose sequence is present in a portion of the third intracellular loop region of the human platelet alpha 2-adrenergic receptor is shown to serve as a substrate for beta-ARK. Removal of the negatively charged amino acids surrounding a cluster of serines in this alpha 2-peptide resulted in a complete loss of phosphorylation by the kinase. A family of peptides was synthesized to further study the role of acidic amino acids in peptide substrates of beta-ARK. By kinetic analyses of the phosphorylation reactions, beta-ARK exhibited a marked preference for negatively charged amino acids localized to the NH2-terminal side of a serine or threonine residue. While there were no significant differences between glutamic and aspartic acid residues, serine-containing peptides were 4-fold better substrates than threonine. Comparing a variety of kinases, only rhodopsin kinase and casein kinase II exhibited significant phosphorylation of the acidic peptides. Unlike beta-ARK, RK preferred acid residues localized to the carboxyl-terminal side of the serine. A feature common to beta-ARK and RK was a much greater Km for peptide substrates as compared to that for intact receptor substrates.
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PMID:Role of acidic amino acids in peptide substrates of the beta-adrenergic receptor kinase and rhodopsin kinase. 164 91

The dominant cyclic AMP-requiring mutation CYR3 had been previously reported as a mutation in the regulatory subunit of cyclic AMP-dependent protein kinase. However, recharacterization revealed that the CYR3 mutation was a nonconditional dominant lethal mutation and was a missense allele of RAS2 which results from the substitution of aspartic acid for glycine at amino acid 22.
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PMID:A dominant interfering mutation (CYR3) of the Saccharomyces cerevisiae RAS2 gene. 190 67

The chicken bone phosphoprotein (approximately 66-kDa BPP) is a major noncollagenous component of bone and is the major phosphoprotein synthesized by cultured chicken embryo osteoblasts [Gotoh, Y., Gerstenfeld, L. C., & Glimcher, M. J. (1990) Eur. J. Biochem. 87, 49-58]. A cDNA clone for this protein was isolated from an expression library made from embryonic chicken bone mRNA. The complete primary protein sequence of 264 amino acids was deduced from the cDNA sequence inclusive of a 16 amino acid signal peptide sequence and terminated by 4 in-frame stop sequences. A sequence alignment indicated an approximate 35% overall similarity in protein sequence between the avian approximately 66-kDa BPP and the mammalian protein osteopontin, while at the nucleotide level 60% similarity was observed. Features of this sequence which showed the greatest similarity to mammalian osteopontin included a region in which seven of nine consecutive residues are aspartic acid, a recognition sequence for integrin-mediated cell binding (-Arg-Gly-Asp), and four possible recognition sequences for phosphorylation by casein kinase II. Hybridization analysis indicated a message of 1.5 kb found predominantly in bone and kidney. The mRNA was inducible in phorbol ester treated primary cultures of chondrocytes which show no expression under normal growth conditions. A temporal induction was seen during osteoblastic differentiation both in vivo and in vitro, thus suggesting that regulation of the approximately 66-kDa BPP is under transcriptional control during osteoblast development. In summary, both the protein's primary structure and its biological features suggest that it is the avian homologue to mammalian protein osteopontin.
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PMID:Characterization of a cDNA for chicken osteopontin: expression during bone development, osteoblast differentiation, and tissue distribution. 200 76

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