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)

A doublet of proteins (approximately 48,000 Mr) from the Paramecium cell body membrane fits several criteria for the external cAMP chemoreceptor. These criteria include: (i) selective elution from a cAMP affinity column, matching a specificity that could be predicted from the behavioral response and whole-cell binding; (ii) binding to wheat germ agglutinin indicating the presence of carbohydrate moieties indicating surface exposure; and (iii) selective inhibition of the intact cells' chemoresponse to cAMP by antibodies against the doublet. Additional evidence for the existence of a receptor, in general, comes from selective elimination of the cAMP chemoresponse by photoaffinity labeling of while cells with 8-N3-cAMP. The doublet proteins are not identical to the regulatory subunit of a cAMP-dependent protein kinase from Paramecium, the Dictyostelium cAMP chemoreceptor, or the 42-45 kDa range proteins related to the large surface glycoprotein in Paramecium. The doublet proteins are not readily separable and, as in Dictyostelium, may represent two different covalent modification states of the same protein. Amino acid analysis indicates that the proteins are similar, but does not distinguish between the possibilities of proteolysis and covalent modification. Once cloned, this doublet may prove to be only the fifth external, eukaryotic chemoreceptor to be identified.
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PMID:Studies of the cyclic adenosine monophosphate chemoreceptor of Paramecium. 184 4

Two Dictyostelium discoideum protein kinase(PK)-encoding cDNAs (Dd PK1 and Dd PK2) have been isolated by hybridization with an oligodeoxyribonucleotide derived from a highly conserved region of eukaryotic PKs. The two nucleotide (nt) sequences encode new putative serine/threonine-specific PKs. Dd PK1 is a partial cDNA covering the entire catalytic domain. The derived amino acid (aa) sequence is about 30% identical to both cAMP-dependent protein kinase (cAPK) and protein kinase C. The Dd PK2 sequence was extended through the isolation of a genomic fragment encoding a complete putative protein. A single intron is present, as deduced from sequence comparison with the cDNA. The catalytic domain appears more closely related to the catalytic subunit of cAPK (54% sequence identity). However, our nt sequence potentially codes for a much larger protein (648 vs. about 350 aa for most cAPKs) with a N-terminal half containing long homopolymers of threonines, glutamines and asparagines. Similar repeats occur at the C terminus of Dd PK1, Dd PK1 is expressed in vegetatively growing cells and during development. Dd PK1 RNA decreases after 6 h of starvation to re-accumulate once the cells have aggregated. Dd PK2 transcripts, present at a low amount in growing cells, rise upon starvation. A switch to a shorter form of transcripts occurs between 3 and 6 h into development.
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PMID:Isolation of two genes encoding putative protein kinases regulated during Dictyostelium discoideum development. 186 10

Four acidic phosphoproteins from the ribosomes of the slime mold Dictyostelium discoideum have been identified and partially characterized. These proteins are selectively released from ribosomal particles by salt/ethanol washes, have low molecular weight and acidic pI, and tend to aggregate in solution to form homodimers. These features correspond to proteins of different origins that have been included in the conserved family of eukaryotic A-ribosomal proteins, and, therefore, we have named them Dictyostelium ribosomal proteins A1, A2, A3 and A4. We also demonstrate that Dictyostelium ribosomal A-proteins are specifically phosphorylated in vitro by a type II casein kinase previously identified in Dictyostelium. Isoelectric focusing separation has permitted us to identify four proteins (or P-proteins) that may consist of the phosphorylated forms of A-proteins. A-proteins from Dictyostelium and yeast do not present immunological cross-reactivity. Dictyostelium A-proteins contain, therefore, some specific features in their amino acid sequence that distinguish them from other members of the conserved eukaryotic A-protein family; this conclusion is coherent with data deduced from the nucleotide sequence of cDNA clones encoding two Dictyostelium A-proteins (P1 and P2) which we have recently reported.
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PMID:Dictyostelium discoideum acidic ribosomal phosphoproteins: identification and in vitro phosphorylation. 195 5

In Dictyostelium, cAMP functions as an extracellular regulatory molecule that controls aggregation, expression of a number of classes of genes, and cellular differentiation by binding to cell-surface receptors that activate intracellular signal transduction pathways. To investigate possible roles for intracellular cAMP, we have overexpressed the wild-type mouse type-I regulatory subunit (RI) of cAMP-dependent protein C (PKA) in Dictyostelium cells, as well as mutant forms of the subunit that are altered in their ability to bind cAMP. We show that overexpression of a mutated RI, which lacks both cAMP-binding sites and presumably forms a complex with the endogenous Dictyostelium catalytic subunit that cannot be activated by cAMP, results in cells that do not aggregate or express sets of genes that are normally induced in the multicellular stages. Transformations that express the mutant subunit at low levels show no observable phenotype. We show that these cells can respond to pulses of cAMP and activate cAMP receptor/G protein-mediated processes, including the activation of adenylate and guanylate cyclases and the induction of a class of genes known to be regulated through the receptor-mediated pathways; however, the cells do show an altered pattern of expression of other genes normally active during the preaggregation/interphase and aggregation stages. Of interest is a substantial overexpression of the developmentally regulated PDE mRNA. Cell lines carrying constructs encoding the wild-type subunit or mutant subunits lacking one of the two binding sites show no visual phenotype. The results suggest that PKA-mediated functions, presumably controlled by increases in intracellular cAMP, are essential for Dictyostelium aggregation.
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PMID:A role for cAMP-dependent protein kinase A in early Dictyostelium development. 196 13

We have identified protein kinase genes of Dictyostelium by using highly conserved amino acid sequence motifs to design the synthesis and amplification of DNA fragments by polymerase chain reactions (PCRs). Cloning and sequencing the PCR products have revealed five different members of the protein kinase multigene family. These five putative kinases showed varying degrees of amino acid sequence similarity (40-70%) to protein kinases in data bases and contained invariant amino acid residues characteristic of protein kinases. DNA from PCR was labeled and used to isolate several lambda gt11 cDNA clones, including one full-length one (Dd kinase-2). The nucleotide sequence of Dd kinase-2 contained a region identical to one of the cloned kinase fragments amplified by PCR, and based on the deduced amino acid sequence Dd kinase-2 encodes a protein of 479 amino acids. A 350-amino acid kinase domain at the C-terminal end shows high homology to the catalytic domains of protein kinase A, protein kinase C, S-6 kinase of Xenopus, and the suppressor of cdc25 of yeast. The N-terminal domain is highly basic and also contains alternating threonine/proline residues. The cDNA hybridized to a single copy gene but to two differentially regulated mRNAs--a 2.0-kilobase mRNA that is expressed in vegetative cells and a 2.2-kilobase mRNA that is expressed during development. The larger mRNA is induced by cAMP by using a cell-surface receptor-mediated signal transduction pathway.
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PMID:Identification of a protein kinase multigene family of Dictyostelium discoideum: molecular cloning and expression of a cDNA encoding a developmentally regulated protein kinase. 199 12

Isolation of cDNA clones from lambda gt11 phage libraries by functional screening is limited by the low amount of lacZ-cDNA-encoded fusion protein synthesized in an isolated phage plaque. The amount of specific cDNA-encoded protein can be significantly enhanced by expression in bacterial colonies rather than phage plaques. Escherichia coli was lysogenized with a lambda gt11 cDNA expression library from Dictyostelium discoideum. Bacteria were selected for the presence of the lambda gt11 prophage by elimination of nonlysogenic parental cells with a lambda cI phage. The usefulness of the lysogen library was demonstrated by immuno-screening and functional screening with two different radiolabeled ligands. cDNA clones encoding a well-characterized D. discoideum protein, the regulatory subunit of the cAMP-dependent protein kinase, were isolated by screening the lysogen library with antibodies. Clones encoding this protein could also be identified by functional screening with [3H]cAMP, demonstrating that the limit of detection of positive clones by ligand screening is at least an order of magnitude lower for the lysogen library than for the corresponding phage library. We have subsequently used the lysogen library to isolate cDNA clones encoding calmodulin-binding protein(s) from D. discoideum by functional screening with [125I]calmodulin. For these clones, screening of the corresponding phage library had previously been found unsuccessful.
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PMID:Prophage lambda libraries for isolating cDNA clones by functional screening. 214 39

Cells of Dictyostelium discoideum respond to their chemoattractants, cAMP and folate, with a rapid increase of the cellular cGMP content. The molecular mechanisms of cGMP action are not understood. Since in many biological systems cGMP-activated protein kinase is a prominent cGMP acceptor, we searched for such an enzyme in D. discoideum. By means of affinity chromatography on cGMP-Sepharose and other chromatographic procedures (DEAE-Trisacryl, CM-Trisacryl), we separated a novel protein kinase. This preparation did not show any regulation by cGMP and may represent an enzyme modified by proteolysis. In order to establish a rapid and efficient purification step, an antiserum against the kinase preparation was raised and coupled to Sepharose. Chromatography of the supernatant from a cell homogenate on this antibody matrix yielded a protein kinase that was activated 3-fold by cGMP. Half-maximal activation occurred at about 1 nM cGMP. Cyclic AMP at a 20-fold higher concentration also activated the protein kinase. On a Superose 6HR column the cGMP-activated protein kinase eluted in the same volume as enolase (Mr = 82,000).
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PMID:Cyclic GMP-activated protein kinase from Dictyostelium discoideum. 216 85

We have recently reported the existence of two forms of glycogen phosphorylase (1,4-alpha-D-glucan: orthophosphate-alpha-glucosyltransferase; EC 2.4.1.1) in Dictyostelium discoideum. During development the activity of the glycogen phosphorylase b form decreased as the activity of the a form increased. The total phosphorylase activity remained constant. The physical and kinetic properties of the Dictyostelium enzyme were similar to those of the mammalian enzyme. In mammals, cAMP regulates the conversion of the two forms by a cAMP dependent protein kinase (cAMPdPK). We report here that if cAMP is added to a single cell suspension, the Dictyostelium phosphorylase activity becomes independent of 5'AMP and a 104 kd peptide appears. We also show the effect of several cAMP analogs on the phosphorylase activity in these single-cell suspensions. The cAMP analogs were selected on the basis of their affinities for the membrane-bound cAMP receptor or the cytoplasmic cAMPdPK. We found that relatively low levels, 100 microM, of cAMP or 2'd-cAMP added to aggregation-competent cells in shaking culture caused a loss of phosphorylase b activity and the appearance of phosphorylase a activity. The analog, 2'd-cAMP, has a high affinity for the cAMP receptor but a low affinity for the cAMPdPK. Two other analogs, Bt2-cAMP and 8-Br-cAMP, which have low affinities for the cAMP receptor but high affinities for the cAMPdPK, required high levels (500 microM) for 'b' to 'a' conversion. cDNAs to three cAMP-regulated genes--PL3, D11, and D3--were used as controls in the above experiments. In order to determine if intracellular levels of cAMP were involved in the regulation of phosphorylase activity, both the phosphorylase and the PL3, D11 and D3 mRNA levels were examined in cells suspended in a glucose/albumin mixture--a medium in which adenylate cyclase is inhibited. Under these conditions, neither gene regulation nor a change in the phosphorylase b to a activity occurred in response to added extra cellular cAMP. The results suggest that an intracellular increase in cAMP is involved in the regulation of the two forms of glycogen phosphorylase in Dictyostelium.
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PMID:Regulation of the two forms of glycogen phosphorylase by cAMP and its analogs in Dictyostelium discoideum. 217 98

Three different casein kinases type I have been characterized and partially purified from vegetative cells of Dictyostelium discoideum. The enzymes have been classified as type I because they are excluded from DEAE cellulose columns and do not utilize GTP as phosphoryl donor. We have named these activities as casein kinases IA, IB and IC respectively, according to the elution profile on phosphocellulose chromatography. The three activities differ in: the sensitivity to heparin inhibition; the salt optimum for activity and the amino acids phosphorylated, using casein as substrate. Experiments carried out in conditions that favor autophosphorylation indicate that casein kinase IB could have a 53 kDa subunit, susceptible to autophosphorylation in vitro.
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PMID:Characterization of three casein kinases type I from Dictyostelium discoideum. 235 9

A Dictyostelium myosin light chain kinase has been purified approximately 15,000-fold to near homogeneity. The purified kinase is a single polypeptide of approximately 34 kDa that phosphorylates only the 18-kDa Dictyostelium myosin regulatory light chain and itself among substrates tested. The enzyme was purified largely by ammonium sulfate fractionation and hydrophobic (butyl) interaction chromatography. Analysis using polyclonal antibodies raised against the purified 34-kDa protein confirms that this protein is responsible for myosin light chain kinase activity. Protein microsequence of the 34-kDa protein reveals conserved protein kinase sequences. The purified Dictyostelium myosin light chain kinase exhibits a Km for Dictyostelium myosin of 4 microM and a Vmax of 8 nmol/min/mg. Unlike other characterized myosin light chain kinases, this enzyme is not regulated by calcium/calmodulin. Western blot analysis demonstrates that the purified kinase is not a proteolytic fragment that has lost calcium/calmodulin regulation. The Dictyostelium myosin light chain kinase activity is not directly regulated by cyclic nucleotides. However, this kinase undergoes an intramolecular autophosphorylation that activates the enzyme.
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PMID:Dictyostelium myosin light chain kinase. Purification and characterization. 238 Jan 88

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