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)

Nerve growth factor (NGF) rapidly stimulates the phosphorylation of a 250 kDa cytoskeletally-associated protein (pp250) by a protein kinase which is also associated with structural elements of the cell. We have solubilized these proteins and demonstrated that NGF-stimulated phosphorylation can be observed in cell free extracts of cytoskeletons from NGF-treated PC12 cells. The pp250 substrate and the 250-kinase were solubilized from PC12 cytoskeletons by treatment with 2 M urea. Phosphorylation of pp250 was maximally stimulated following treatment of the cells for 5 min with NGF. This effect was transient, diminishing with longer exposure of the cells to hormone. The 250-kinase preferred Mn2+ over Mg2+ and was inhibited by both Na+ and K+. The phosphorylation of pp250 was not affected by Ca2+. Upon fractionation of the urea-soluble cytoskeletal proteins by gel filtration, the 250-kinase eluted in two peaks; one peak of enzyme activity coeluting with the pp250 substrate, and a second peak of enzyme activity eluting with an apparent Mr of approximately 60 kDa. Treatment of the PC12 cells with the phorbol ester TPA also stimulated the phosphorylation of pp250, although this effect was not as great as that produced by NGF. This cell free system should be a valuable tool in the investigation of the mechanisms of NGF action.
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PMID:Nerve growth factor stimulates the phosphorylation of a 250 kDa cytoskeletal protein in cell-free extracts of PC12 cells. 368 42

In the course of determining the primary structure of rabbit skeletal muscle myosin light chain kinase (MLCK; ATP:protein phosphotransferase, EC 2.7.1.37) a peptide fragment was obtained that appears to represent the calmodulin-binding domain of this enzyme. Low concentrations of the peptide inhibited calmodulin activation of MLCK (Ki congruent to 1 nM). The peptide was not associated with a catalytically active, calmodulin-independent form of MLCK that was obtained by limited proteolysis. The peptide is 27 residues in length and represents the carboxyl terminus of MLCK. The sequence of the peptide shows no significant homology with any known protein sequence. The peptide contains one tryptophanyl residue and a high percentage of basic and hydrophobic residues, but no acidic or prolyl residues. Much of the sequence has a high probability of forming alpha helix. A chemically synthesized peptide has been prepared to study the interactions of the peptide and calmodulin in more detail. The intrinsic tryptophan fluorescence of the synthetic peptide shows a significant enhancement (approximately equal to 45%) in the presence of Ca2+ and calmodulin; fluorescence enhancement is maximal at a peptide:calmodulin stoichiometry of 1:1. Calmodulin-Sepharose affinity chromatography in the presence of 2 M urea indicates that the interaction of peptide and calmodulin is Ca2+-dependent. The results of these studies indicate that the catalytic and calmodulin-binding domains of MLCK represent distinct and separable regions of the protein. In addition, the results provide a basis for future studies of the molecular and evolutionary details of calmodulin-dependent enzyme regulation.
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PMID:Identification of the calmodulin-binding domain of skeletal muscle myosin light chain kinase. 385 14

Ribonucleoprotein complexes (hnRNP) containing fragments of heterogeneous nuclear (hn)RNA and sedimenting at 35-40 S were isolated from the nuclei of HeLa S3 cells using the pH 8.0/diffusion technique. These hnRNP complexes are thought to be part of the hnRNA processing apparatus. The major protein components (core proteins) were identified by their constant ratios in native particles and in 35S hnRNP particles reconstituted in vitro. All of the core proteins, with one exception, show an increase in Mr on sodium dodecylsulfate (NaDodSO4)/polyacrylamide gels containing 8 M urea, indicative of secondary structure elements resistant to denaturation by NaDodSO4. The nine core proteins found by us are: A1 [Mr(NaDodSO4) 31 X 10(3)/Mr (urea) 38 X 10(3), apparent isoelectric point, pIapp 9.3], A2 (32.5 X 10(3)/39 X 10(3), 8.4), B1a (35.5 X 10(3)/41 X 10(3), 8.8), B1b (35.5 X 10(3)/44 X 10(3), 8.3), B1c (35.5 X 10(3)/43 X 10(3), 5.7) B2 (37 X 10(3)/42 X 10(3), 9.15), C1 (39 X 10(3)/46 X 10(3), 9.2), C2 (40.5 X 10(3)/45 X 10(3), 5.55) and C3 (38.5 X 10(3)/37 X 10(3), 4.8). Individual proteins were electroeluted from two-dimensional gels and their amino acid composition determined. Difference indices were calculated and show a group of closely related basic proteins (A1, A2, B1a, B1b, B2, C1), two related slightly acidic proteins (B1c, C2) and a distinct acidic member (C3). Two-dimensional analysis of tryptic fragments and one-dimensional separation of peptides after V8 protease treatment support these data. Peptide mapping of the proteins A1 and A2 from bovine and human cells yields identical fragments indicating a high degree of cross-species conservation. An additional protein (D4: 44 X 10(3)/55 X 10(3), greater than 9.5) was found, which preferentially associates with heavier, oligomeric hnRNP structures. Only traces of actin are present in the 35S hnRNP fraction. All core proteins are modified by charge. A large part of the charge isomers arises by phosphorylation, which has been shown by labeling with 32PO4 in vivo and with [gamma-32P]ATP in vitro. In vitro the phosphate transfer is mediated by an endogenous protein kinase associated with the 35S hnRNP complexes. The major core protein A1 exists in two conformeric forms (A1 and A1x) of which only A1x serves as phosphate acceptor in vivo.
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PMID:The core proteins of 35S hnRNP complexes. Characterization of nine different species. 388 Dec 56

The catalytic subunit of adenosine cyclic 3',5'-monophosphate dependent protein kinase from bovine skeletal muscle was rapidly inactivated by o-phthalaldehyde at 25 degrees C (pH 7.3). The reaction followed pseudo-first-order kinetics, and the second-order rate constant was 1.1 X 10(2) M-1 s-1. Absorbance and fluorescence spectroscopic data were consistent with the formation of an isoindole derivative (1 mol/mol of enzyme). The reaction between the catalytic subunit and o-phthalaldehyde was not reversed by the addition of reagents containing free primary amino and sulfhydryl functions following inactivation. The reaction, however, could be arrested at any stage during its progress by the addition of an excess of cysteine or less efficiently by homocysteine or glutathione. The catalytic subunit was protected from inactivation by the presence of the substrates magnesium adenosine triphosphate and an acceptor serine peptide substrate. The decrease in fluorescence emission intensity of incubation mixtures containing iodoacetamide- or 5'-[p-(fluorosulfonyl)benzoyl]adenosine-modified catalytic subunit and o-phthalaldehyde paralleled the loss of phosphotransferase activity. Catalytic subunit denatured with urea failed to react with o-phthalaldehyde. Inactivation of the catalytic subunit by o-phthalaldehyde is probably due to the concomitant modification of lysine-72 and cysteine-199. The proximal distance between the epsilon-amino function of the lysine and the sulfhydryl group of the cysteine residues involved in isoindole formation in the native enzyme is estimated to be approximately 3 A. The molar transition energy of the catalytic subunit-o-phthalaldehyde adduct was 121 kJ/mol and compares favorably with a value of 127 kJ/mol for the 1-[(beta-hydroxyethyl)thio]-2-(beta-hydroxyethyl)isoindole in hexane, indicating that the active site lysine and cysteine residues involved in formation of the isoindole derivative of the catalytic subunit are located in a hydrophobic environment. o-Phthalaldehyde probably acts as an active site specific reagent for the catalytic subunit.
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PMID:Adenosine cyclic 3',5'-monophosphate dependent protein kinase: fluorescent affinity labeling of the catalytic subunit from bovine skeletal muscle with o-phthalaldehyde. 393 43

The major protein present in the plasma membrane of the bovine lens fiber cell (MP26), thought to be a component of intercellular junctions, was phosphorylated in an in vivo labeling procedure. After fragments of decapsulated fetal bovine lenses were incubated with [32P]orthophosphate, membranes were isolated and analyzed by SDS PAGE and autoradiography. A number of lens membrane proteins were routinely phosphorylated under these conditions. These proteins included species at Mr 17,000 and 26,000 as well as a series at both 34,000 and 55,000. The label at Mr 26,000 appeared to be associated with MP26, since (a) boiling the membrane sample in SDS led to both an aggregation of MP26 and a loss of label at Mr 26,000, (b) the label at 26,000 was resistant to both urea and nonionic detergents, and (c) two-dimensional gels showed that a phosphorylated Mr 24,000 fragment was derived from MP26 with V8 protease. Studies with proteases also provided for a localization of most label within approximately 20 to 40 residues from the COOH-terminus of MP26. Published work indicates that the phosphorylated portion of MP26 resides on the cytoplasmic side of the membrane, and that this region of MP26 contains a number of serine residues. The same region of MP26 was labeled when isolated lens membranes were reacted with a cAMP-dependent protein kinase prepared from the bovine lens. After the in vivo labeling of lens fragments, phosphoamino acid analysis of MP26 demonstrated primarily labeled serines, with 5-10% threonines and no tyrosines. Treatments that lowered the intracellular calcium levels in the in vivo system led to a selective reduction of MP26 phosphorylation. In addition, forskolin and cAMP stimulated the phosphorylation of MP26 and other proteins in concentrated lens homogenates. These findings are of interest because MP26 appears to serve as a protein of cell-to-cell channels in the lens, perhaps as a lens gap junction protein.
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PMID:A lens intercellular junction protein, MP26, is a phosphoprotein. 395 48

Brain calmodulin-dependent protein kinase was isolated as the major cytoskeletal component of the post-synaptosomal fraction, accounting for about 50% of the total protein. The alpha- and beta-subunits of the enzyme were present in a ratio of about 6:1. The cytoskeletal preparation was also distinguished by the regular presence of tubulin and actin in approximately equimolar amounts to the beta-subunit. Electron microscopic morphology suggested that the enzyme formed a hierarchy of cytoskeletal complexes with an average diameter of 85 nm. These results indicate that cytoskeletal calmodulin-dependent protein kinase may have a structural as well as a catalytic role in neurons. The cytoskeletal enzyme could be solubilized in 8 M urea, displaying similar properties to its cytosolic counterpart. The postsynaptosomal cytoskeleton provides a simplified and well-defined model for the study of the protein-protein interactions involving calmodulin-dependent protein kinase.
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PMID:Cytoskeletal calmodulin-dependent protein kinase. Characterization, solubilization, and purification from rat brain. 403 1

1. The low-molecular-weight components of myosin from rabbit skeletal muscle migrated as four bands on polyacrylamide-gel electrophoresis in 8m-urea but only as three in systems containing sodium dodecyl sulphate. The two bands of intermediate mobility in 8m-urea (Ml(2) and Ml(3)) had identical mobilities in sodium dodecyl sulphate. 2. The isolation of pure samples of all four low-molecular-weight components by DEAE-Sephadex chromatography is described. 3. The amino acid compositions of components Ml(2) and Ml(3) were identical. Further analyses showed the presence of 1 mol of phosphate/18500g of component Ml(2) and less than 10% of this amount in component Ml(3). Neither light component contained ribose. 4. Alkaline phosphatase from Escherichia coli converted component Ml(2) into Ml(3). Incubation with crude preparations of phosphorylase b kinase or protein kinase in the presence of ATP converted component Ml(3) into Ml(2). 5. Phosphorylation of component Ml(3) with the kinases isolated from skeletal muscle and [gamma-(32)P]ATP gave incorporation of (32)P only into component Ml(2) whether whole myosin or separated low-molecular-weight components were used. 6. High-voltage electrophoresis at pH6.5 and pH1.8 of a chymotryptic digest of (32)P-labelled component Ml(2) yielded one major radioactive peptide containing serine phosphate. 7. The amino acid sequence of this peptide was shown to be: Arg-Ala-Ala-Ala-Glu-Gly-Gly-(Ser,Ser(P))-Asn-Val-Phe. This sequence shows no obvious similarity to the site phosphorylated in the conversion of phosphorylase b into phosphorylase a by phosphorylase b kinase. 8. Evidence suggests that in vivo all the 18500-molecular-weight light chain is in the phosphorylated form. The extent of dephosphorylation that occurred during myosin extraction depended on the conditions employed.
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PMID:A phosphorylated light-chain component of myosin from skeletal muscle. 477 66

Tyrosine hydroxylase [L-tyrosine, tetrahydropteridine: oxygen oxidoreductase (3-hydroxylating); EC 1.14.16.2](TH) was purified from bovine corpus striatum. The purification involved sequential DEAE cellulose, hydroxylapatite and CM Sephadex C-50 chromatography, followed by glycerol density gradient centrifugation. Final preparations appeared to be 90 to 100% pure as judged by polyacrylamide gel electrophoresis under denaturing conditions in acetic acid-urea. The enzyme was estimated to have a minimum molecular weight of approximately 60,000 daltons. Purified TH could be activated in vitro by incubation with magnesium adenosine triphosphate and the catalytic subunit of cyclic AMP-dependent protein kinase (ATP/protein phosphotransferase; EC 2.7.1.37). When the final purified preparation of TH was incubated under these conditions utilizing [gamma-32P]ATP, it was found to incorporate 0.7 to 0.9 mol of phosphorus/mol of protein. These results suggest that the activation of TH in the presence of phosphorylating conditions is due to its phosphorylation by cyclic AMP-dependent protein kinase.
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PMID:Tyrosine hydroxylase: studies on the phosphorylation of a purified preparation of the brain enzyme by the cyclic AMP-dependent protein kinase. 611 Jul 71

Coated vesicles prepared from bovine brains contained a protein kinase activity which catalyzed the phosphorylation of endogenous structural proteins, Mr 150 000, 120 000, 48 000 and 32 000. An endogenous protein, Mr 48 000 was most strongly phosphorylated by this kinase. This protein kinase also phosphorylated exogenous proteins, phosvitin intensely and casein slightly but not histone or protamine. The enzyme activity was independent of cyclic nucleotides or Ca2+/calmodulin. Mg2+ stimulated the kinase activity. Some divalent cations were substituted for Mg2+; the potency decreased in the order Mn2+, Mg2+, Co2+, Ca2+, Zn2+. Two separate subfractions, the outer coat and the inner vesicle (core), were prepared from coated vesicles by a urea treatment followed by sucrose density gradient centrifugation and dialysis. The kinase activity was found predominantly in the coat subfraction.
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PMID:Protein kinase and its endogenous substrates in coated vesicles. 614 72

Rat liver nucleocytosolic messenger ribonucleic acid (mRNA) transport is shown to be regulated by proteins with a high affinity for nucleic acids. In the cell-free system described, the energy-dependent transport of all RNA classes [transfer RNA (tRNA), mRNA, and ribosomal RNA (rRNA)] exhibited a dependence upon the availability of discrete minor sets of cytosol proteins. In addition to having a different level of saturation, only the mRNA "transport protein" activities are increased by adenosine cyclic 3',5'-phosphate (cAMP), an effect most likely mediated by a cAMP-dependent protein kinase. The mRNA transport proteins were isolated from cytosol by precipitation with streptomycin sulfate followed by deoxyribonucleic acid (DNA)-cellulose affinity chromatography, or from oligo-(thymidylate)-cellulose bound cytoplasmic messenger ribonucleoprotein (mRNP) particles by high-salt extraction. Either method yielded a protein fraction which exhibited a 1000-fold increase in mRNA transport activity as compared to cytosol. Over one-half of the mRNA transport activity is associated with the mRNP of the cell. A partial homology between the cytosol and mRNP-derived proteins was demonstrated by polyacrylamide gel electrophoresis. One major (20 000 daltons) and several minor proteins (23 000, 52 000, 54 000, and 72 000 daltons) were in common. Nuclear 4-5S exited from in vitro incubated nuclei in three phases, according to their differential in vivo rates of labeling and intranuclear pool sizes. The amount of nuclear RNA transported in vitro as mRNA (about 1.0%) agrees wtih the in vivo estimates. Additional evidence for in vivo equivalence was provided by the physicochemical characterization and bioassay of the RNA. The transported mRNA sedimented in urea-sucrose gradients as an 8-18S heterodisperse product. This RNA initiated cell-free translation with the synthesis of precursor peptides as diverse in size as those for albumin and alpha 2U-globulin. The relative abundancies of various transported mRNAs were different than the corresponding abundancies of liver cytoplasmic mRNAs.
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PMID:Regulated transport of messenger ribonucleic acid from isolated liver nuclei by nucleic acid binding proteins. 616 21


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