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)

Incubation of 80S ribosomes with a substoichiometric amount of [alpha-32P]GTP and with eEF-2 resulted in the specific labeling of one ribosomal protein which migrated very close to the position of the acidic phosphoprotein P2 from the 60S subunit in two-dimensional isofocusing-SDS gel electrophoresis. Localization of protein P2 in this electrophoretic system was ascertained by correlation with its position in the standard two-dimensional acidic-SDS gel electrophoresis after its specific phosphorylation by casein kinase II. Labeling of the ribosomal protein was dependent on the presence of eEF-2, and could be attributed to [alpha-32P]GDP binding from the results of chase experiments and HPLC identification, this binding being very likely responsible for the slight shift in the electrophoretical position of the protein. Incubation of ribosomes with tRNA(Phe) in the absence of mRNA induced the release of the bound GDP.
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PMID:Binding of GDP to a ribosomal protein after elongation factor-2 dependent GTP hydrolysis. 142 Mar 8

We have characterized the mouse Mos proto-oncogene product, pp39Mos, in murine fibroblasts. When expressed in NIH3T3 cells under the influence of the long terminal repeat regulatory element from Moloney murine sarcoma virus [NIH(pTS-1) cells], the Mos protein was present in low levels and had a half-life of about 30 min. In extracts from NIH(pTS-1) cells, we detected additional forms of Mos protein that apparently arose from internal initiation codons (p24Mos and p29Mos) or from upstream non-AUG initiation codons (p42Mos and p44Mos). The Mos protein was found to exist in these cells as a phosphoprotein, pp39Mos, and, when immunoprecipitated with an antiserum specific for the Mos N-terminus [anti-Mos(6-24)], had autophosphorylating kinase activity. We found that anti-Mos(6-24) also detected non-Mos protein kinase activity and non-Mos phosphoproteins in addition to p39Mos. We present evidence, on both the RNA and protein levels, that non-transformed mouse 3T3 cells do not express endogenous Mos.
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PMID:Characterization of activated and normal mouse Mos gene in murine 3T3 cells. 146 52

We have purified and characterised an apparently novel nuclear 42-kDa casein kinase from epithelial cells of Chironomus tentans which comigrates with a phosphoprotein associated with transcriptionally active salivary gland genes. The protein kinase promotes phosphorylation of casein and phosvitin, using either ATP or GTP as phosphate donors, and undergoes autophosphorylation. The casein kinase activity of the 42-kDa protein is sensitive to heparin, 5,6-dichloro-1-beta-D-ribofuranosylbezimidazole (DRB), spermine and spermidine indicating that it is a novel enzyme with similar but not identical properties to casein kinase II or nuclear protein kinase NII.
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PMID:A novel nuclear 42-kDa casein kinase identified in Chironomus tentans. 146 64

Pinealocytes and retinal photoreceptor cells contain an unusual cytoplasmic complex composed of the G beta gamma dimer of GTP-binding regulatory proteins (G-proteins) tightly bound to an acidic 33 kDa phosphoprotein termed MEKA or phosducin; MEKA is a substrate of cyclic AMP-dependent protein kinase. This study characterized the developmental appearance of these and two related proteins, G gamma and S-antigen, in pineal and retinal tissue. MEKA was absent in the pineal gland prior to birth, at a time when it was possible to detect G beta in pineal cytoplasm, indicating that the appearance of G beta in the cytoplasm precedes that of MEKA and does not appear to require the presence of MEKA. The absence of MEKA at this time indicates that the cyclic AMP stimulation of pineal serotonin N-acetyltransferase activity is not mediated by MEKA, which has been considered as a possible role of MEKA. After postnatal day 7, pineal MEKA and cytoplasmic G beta increased in a parallel manner, with peak values occurring at about postnatal day 21. Thereafter, both proteins in the pineal gland decreased in a parallel fashion to 10 and 35% of their peak values, respectively; in contrast, the cytoplasmic protein S-antigen and membrane associated G beta remained at maximal levels after this time. Whereas both MEKA and G beta decreased late in development in the pineal gland, these proteins either increased or remained constant in the retina. These tissue-specific patterns were found to differ from those of another cytosolic protein found exclusively in the pineal gland and retina, S-antigen, which remained constant after day 21 in the pineal gland but decreased in the retina late in life.
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PMID:Development of MEKA (phosducin), G beta, G gamma and S-antigen in the rat pineal gland and retina. 151 Dec 97

c-Jun, a major component of the inducible transcription factor AP-1, is a phosphoprotein. In nonstimulated fibroblasts and epithelial cells, c-Jun is phosphorylated on a cluster of two to three sites abutting its DNA-binding domain. Phosphorylation of these sites inhibits DNA binding, and their dephosphorylation correlates with increased AP-1 activity. We show that two of these sites, Thr-231 and Ser-249, are phosphorylated by casein kinase II (CKII). Substitution of the third site, Ser-243, by Phe interferes with phosphorylation of the inhibitory sites in vivo and by purified CKII in vitro. Microinjection into living cells of synthetic peptides that are specific competitive substrates or inhibitors of CKII results in induction of AP-1 activity and c-Jun expression. Microinjection of CKII suppresses induction of AP-1 by either phorbol ester or an inhibitory peptide. These results suggest that one of the roles of CKII, a major nuclear protein kinase with no known functions, is to attenuate AP-1 activity through phosphorylation of c-Jun.
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PMID:Casein kinase II is a negative regulator of c-Jun DNA binding and AP-1 activity. 142 36

Since T lymphocyte proliferation declines with age, and since activation of a still only partially defined set of protein kinases is thought to play a critical role in T cell activation, we have carried out a systematic survey of age-related changes in protein phosphorylation in T lymphocytes. We used two-dimensional electrophoretic analysis to examine lysates prepared from T cells after 10 min of exposure to mitogens [anti-CD3, concanavalin A (Con A) and phorbol 12-myristate 13-acetate (PMA) plus ionomycin] and nonmitogenic activators (PMA or ionomycin used separately). Our results show a progressive, life-long decline in the levels of anti-CD3-induced phosphorylation of all 16 phosphoproteins that respond vigorously in T cells of young mice. Mice 10-18 months of age showed levels of response that were clearly below those induced in young mice, while responses of mice 22-24 months of age were even more severely diminished. Responses to Con A, PMA, ionomycin and a combination of PMA plus ionomycin were equally blunted in old mice, except for 2 (of 12) phosphoproteins that continued to respond to PMA even in the old animals. None of the phosphoproteins which were ionomycin responsive in young mice continued to respond in old mice, although 1 (of 3) ionomycin-inhibitable phosphoproteins remained inhibitable in old mice. We also found three phosphoproteins which became phosphorylated in response to anti-CD3, PMA and Con A (but not ionomycin) only in old mice, and a pair of phosphoproteins which were unresponsive to all mitogens but showed a higher "baseline" phosphorylation in T cells from old mice. Comparing phosphoprotein patterns between CD8- and CD8-CD45RB- T cells from young mice allowed us to identify nine phosphoproteins that were strongly responsive to anti-CD3 only when CD45RB+ (i.e. virgin) cells were present. Although the immune system of old mice consists largely of memory T cells, the change in phosphoprotein phosphorylation patterns cannot simply be explained by the accumulation of this cell type. We conclude that aging leads to a global impairment of several distinct protein kinase pathways in both virgin and memory T cell sets.
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PMID:Age-associated changes in mitogen-induced protein phosphorylation in murine T lymphocytes. 153 Sep 19

The cdc2 gene product, a 34-kDa phosphoprotein with serine/threonine protein kinase activity, has been implicated as the key component in the regulation of the eucaryotic cell cycle. Activation of the cdc2 protein kinase is regulated by its phosphorylation state and by interaction with other proteins. We have mutagenized the fission yeast cdc2 gene to obtain conditionally dominant negative alleles. One of these mutants, named DL2, is characterized in this report. Overexpression of the mutant protein in a wild-type cdc2 background is lethal and leads to arrest in the G2 phase of the cell cycle. The mutant phenotype is the result of a single amino acid change in the GDSEID motif of the protein, a region of identity in all cdc2 homologs, and results in a nonfunctional protein that shows an altered content of phosphothreonine. Multicopy suppressors of the dominant negative phenotype have been isolated, and one of these has been shown to encode the cdc13 cyclin B gene product.
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PMID:A dominant negative allele of p34cdc2 shows altered phosphoamino acid content and sequesters p56cdc13 cyclin. 153 72

GAP-43 is a neuronal calmodulin-binding phosphoprotein that is concentrated in growth cones and presynaptic terminals. By sequencing tryptic and endoproteinase Asp-N phosphopeptides and directly determining the release of radioactive phosphate, we have identified three sites (serines 41 and 96 and threonine 172) that are phosphorylated, both in cultured neurons and in neonatal rat brain. These three sites account for most of the 32PO4 that was incorporated into GAP-43 in cultured neurons; 8-15% of each site was occupied with phosphate in GAP-43 isolated from neonatal rat brain. Phosphorylation of serine 41 in cultured neurons was stimulated by phorbol ester, indicating that it is the only site phosphorylated by protein kinase C. The resemblance of the sequence surrounding the other two sites suggests that they may be substrates for the same protein kinase. None of the sites phosphorylated by casein kinase II in vitro was phosphorylated in living cells or in neonatal rat brain. These results show that GAP-43 is a substrate for at least one protein kinase in addition to protein kinase C in living cells and brain.
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PMID:GAP-43, a protein associated with axon growth, is phosphorylated at three sites in cultured neurons and rat brain. 153 24

Multiple endogenous substrates phosphorylated by four distinct protein kinases were identified in particulate and cytosolic fractions from the larval prothoracic gland of the tobacco hornworm, Manduca sexta. Three prominent particulate-associated phosphoprotein substrates (19, 21, and 34 kDa) were of particular interest. The in vitro phosphorylation of the 19 and 21 kDa peptides was markedly enhanced by cAMP, Ca2+/calmodulin, as well as Ca2+/phospholipids, presumably via cAMP-dependent protein kinase (cAMP-PK), Ca2+/calmodulin-dependent protein kinase (Ca2+/CaM-PK), and protein kinase C (PKC), respectively. The polyamine spermine markedly inhibits both PKC- and cAMP-PK-mediated phosphorylation of the 19 and 21 kDa peptides but had no effect on the Ca2+/CaMP-PK-mediated phosphorylation. Spermine also inhibits the phosphorylation of the 34 kDa peptide via cAMP-PK but does not affect PKC-promoted phosphorylation. In contrast to this differential inhibition of phosphorylation by a polyamine, four cytosolic and three particulate-associated peptides from the prothoracic glands undergo enhanced phosphorylation in the presence of spermine, presumably by stimulating casein kinase II activity. Therefore, polyamines appear to have multiple effects on protein phosphorylation pathways in this important endocrine gland, perhaps representing an important new regulatory control mechanism.
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PMID:Polyamines modulate multiple protein phosphorylation pathways in the insect prothoracic gland. 155 68

Osteopontin, bone sialoprotein, and bone acidic glycoprotein-75 are three acidic phosphoproteins that are isolated from the mineralized phase of bone matrix, are synthesized by osteoblastic cells, and are generally restricted in their distribution to calcified tissues. Although each is a distinct gene product, these proteins share aspartic/glutamic acid contents of 30-36% and each contains multiple phosphoryl and sialyl groups. These properties, plus a strict relationship of acidic macromolecules with cell-controlled mineralization throughout nature, suggest functions in calcium binding and nucleation of calcium hydroxyapatite crystal formation. However, direct proof for such roles is still largely indirect in nature. The purpose of this review is to present two speculative hypotheses regarding acidic phosphoprotein function. The goal was to use new sequence information along with database comparisons to develop a structural rationalization of how these proteins may function in calcium handling by bone. For example, our analysis has identified a conserved polyacidic stretch in all three phosphoproteins which we propose mediates metal binding. Also, conserved motifs were identified that are analogous with those for casein kinase II phosphorylation sites and whose number correlates well with that of phosphoryl groups/protein. A two-state conformational model of calcium binding by bone matrix acidic phosphoproteins is described which incorporates these findings.
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PMID:Acidic phosphoproteins from bone matrix: a structural rationalization of their role in biomineralization. 159 74


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