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 bovine heart protein which specifically inhibits calcium-dependent proteases has been purified to near homogeneity. The purified inhibitor had a Stokes radius of 6.8 nm estimated by gel filtration and a molecular weight of 145,000 estimated by sodium dodecyl sulfate-gel electrophoresis. There is evidence that it may be a glycoprotein. The inhibitor could be phosphorylated by bovine heart cyclic AMP-dependent protein kinase, and its inhibitory effect on Peak II (high-calcium-requiring) protease was modestly increased. However, no other phosphorylating or dephosphorylating conditions significantly influenced its activity. The inhibitor was not hydrolyzed by calcium-dependent proteases, but it was very sensitive to proteolytic inactivation by trypsin or proteases present in a lysosomal fraction from rat heart. Thus, proteolysis may represent a mechanism for decreasing the activity of the inhibitor in different physiologic or pathologic conditions.
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PMID:The protein inhibitor of calcium-dependent proteases: purification from bovine heart and possible mechanisms of regulation. 631 92

We constructed a molecular clone encoding the N-terminal 379 amino acids of the polyomavirus middle-size tumor antigen, followed by the C-terminal 60 amino acids of the vesicular stomatitis virus glycoprotein G. This hybrid gene contained the coding region for the C-terminal hydrophobic membrane-spanning domain of the G protein in place of the C-terminal hydrophobic domain of the middle-size tumor antigen. The hybrid gene was expressed in COS-1 cells under the control of the simian virus 40 late promoter. The hybrid protein was located in cell membranes and was associated with a tyrosine-specific protein kinase activity, as was the middle-size tumor antigen. Plasmids encoding the hybrid protein failed to transform mouse NIH 3T3 or rat F2408 cells.
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PMID:Construction and expression of a recombinant DNA gene encoding a polyomavirus middle-size tumor antigen with the carboxyl terminus of the vesicular stomatitis virus glycoprotein G. 632 57

Avian erythroblastosis virus can transform both fibroblasts and erythroid cells to neoplastic growth. A locus within the virus genome, v-erb B, encodes a membrane glycoprotein essential for the oncogenic properties of the virus. No biochemical function has until now been attributed to the v-erb B protein. We report here that the v-erb B glycoprotein shares strong structural homologies with the tyrosine-specific protein kinases encoded by certain retroviral oncogenes. The patterns of amino acid conservation between the tyrosine-specific protein kinases and the v-erb B protein, and between the v-erb B protein and the catalytic subunit of bovine protein kinase, suggest a possible functional as well as structural relatedness.
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PMID:The membrane glycoprotein encoded by the retroviral oncogene v-erb-B is structurally related to tyrosine-specific protein kinases. 632 66

Avian erythroblastosis virus (AEV) is an oncogenic retrovirus capable of transforming both fibroblasts and immature erythroid cells. The v-erb-B locus within the AEV genome encodes a glycosylated protein, expression of which is required for oncogenic transformation of either cell type. Subcellular localization of the v-erb-B glycoprotein in AEV-transformed cells is reported here. Results indicate that the v-erb-B protein is synthesized on dense membrane fractions and appears to possess the properties of an integral membrane protein. The bulk of the v-erb-B protein remains with dense membranes after synthesis, although a small quantity may slowly become associated with the plasma membrane. The biogenesis and subcellular location of the v-erb-B protein are thus quite different from those of the transforming proteins that display protein kinase activity. These differences are especially provocative because the amino acid sequences of the v-erb-B protein and the protein kinases are closely related to one another.
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PMID:Subcellular localization of the v-erb-B protein, the product of a transforming gene of avian erythroblastosis virus. 633 Sep 78

The viral oncogene v-fms encodes a transforming glycoprotein with in vitro tyrosine-specific protein kinase activity. Although most v-fms-coded molecules remain internally sequestered in transformed cells, a minor population of molecules is transported to the cell surface. An engineered deletion mutant lacking 348 base pairs of the 3.0-kilobase-pair v-fms gene encoded a polypeptide that was 15 kilodaltons smaller than the wild-type v-fms gene product. The in-frame deletion of 116 amino acids was adjacent to the transmembrane anchor peptide located near the middle of the predicted protein sequence and 432 amino acids from the carboxyl terminus. The mutant polypeptide acquired N-linked oligosaccharide chains, was proteolytically processed in a manner similar to the wild-type glycoprotein, and exhibited an associated tyrosine-specific protein kinase activity in vitro. However, the N-linked oligosaccharides of the mutant glycoprotein were not processed to complex carbohydrate chains, and the glycoprotein was not detected at the cell surface. Cells expressing high levels of the mutant glycoprotein did not undergo morphological transformation and did not form colonies in semisolid medium. The transforming activity of the v-fms gene product therefore appears to be mediated through target molecules on the plasma membrane.
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PMID:Cell surface expression of v-fms-coded glycoproteins is required for transformation. 639 Jan 82

A glycoprotein-enriched fraction derived from 3T3-L1 adipocyte membranes by Triton X-100 extraction and chromatography on wheat germ agglutinin-agarose contains an insulin-activable protein kinase that catalyzes the phosphorylation of tyrosine residues in proteins (Petruzzelli, L. M., Ganguly, S., Smith, C.J., Cobb, M. H., Rubin, C.S., and Rosen, O. M. (1982) Proc. Natl. Acad. Sci. U. S. A. 79, 6792-6796). The best peptide substrates for the enzyme are angiotensin II, and a synthetic peptide related to the amino acid sequence surrounding the site of tyrosine phosphorylation in the transforming protein kinase of Rous sarcoma virus. Kinetic analysis of the phosphorylation reaction with angiotensin II showed that insulin decreased the Km from 5.0 to 2.6 mM, and increased the Vmax from 0.6 to 2.2 pmol/min/10 fmol of insulin binding capacity. For the src-related peptide, the addition of insulin decreased the Km from 1.6 to 1.2 mM and increased the Vmax from 0.17 to 2.2 pmol/min/10 fmol of insulin binding capacity. Angiotensin III inhibitor, proctolin, beta-lipotropin (61-65) and Tyr-Arg were poorer substrates for the protein kinase. Protein substrates for the insulin-stimulated protein kinase include anti-src IgG, tubulin, casein, and histone H2b. The data suggest that the substrate specificity of the insulin-activable protein kinase is similar to that reported for the src and epidermal growth factor receptor protein kinases.
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PMID:Phosphorylation of exogenous substrates by the insulin receptor-associated protein kinase. 640 86

Purified virions of Newcastle disease virus (NDV) were found to contain protein kinase activity which was, like other virion-associated kinases, stimulated by Mg2+, and totally independent of Ca2+ and cAMP. The kinase phosphorylated preferentially the P and NP polypeptides of NDV. Triton-KCl fractionation of the virions has shown that the protein kinase activity may be associated with glycoprotein-free subviral particles, but not with nucleocapsids containing either only NP or some L and P proteins together with NP as protein constituent.
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PMID:Protein kinase associated with Newcastle disease virus. 671 75

Incubation of membranes prepared from the human colon adenocarcinoma cell line LoVo in vitro with [gamma-32P]ATP demonstrated numerous components whose phosphorylation was stimulated several fold by epidermal growth factor (EGF). One major component of Mn 170 K, which was either undetectable or very weakly phosphorylated in the absence of EGF, was primarily affected by exposure to EGF. The phosphorylation of the 170 K Mr membrane component required the presence of Mn2+; Mg2+ was ineffective. Although the phosphorylation of many LoVo membrane components was significantly modified by cAMP or dibutyryl-cAMP, none of these cyclic nucleotides appeared to be involved in the phosphorylation of the 170 K membrane component in the presence or absence of EGF. The phosphorylation system of the LoVo membranes efficiently utilized [gamma-32P]GTP in both the basal and EGF-stimulated reactions. All the membrane components phosphorylated in the absence or presence of EGF, except a band comigrating with the tracking dye front, were digested by trypsin. The possible glycoprotein nature of the 170 K dalton phosphoprotein was indicated by the fact that the 170 K dalton band comigrated with a periodic acid-Schiff base-stained band. These findings suggest that one of the biochemical steps in the mechanism of action of EGF in LoVo cells is enhanced phosphorylation of several membrane proteins, especially that of a glycoprotein of Mr 170 K, by a membrane-bound cyclic nucleotide independent protein kinase.
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PMID:Modulation of protein phosphorylation in human colon adenocarcinoma cell membrane preparations by epidermal growth factor in vitro. 697 92

We have purified the epidermal growth factor (EGF) receptor/protein kinase from the livers of normal mice by affinity chromatography. The biochemical properties of the liver receptor are very similar to those of the EGF receptor previously prepared from the human tumor cell line A-431 [Cohen, S., Ushiro, H., Stoscheck, C. & Chinkers, M. (1982) J. Biol. Chem. 257, 1523-1531]. The liver receptor for EGF is a glycoprotein of Mr 170,000. It binds 125I-labeled EGF and possesses an EGF-stimulable protein kinase activity specific for tyrosine residues. Both autophosphorylation and kinase activity toward exogenous substrates are demonstrable. The EGF receptor purified from normal mouse liver is antigenically related to the receptor purified from human A-431 cells.
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PMID:Purification and characterization of epidermal growth factor receptor/protein kinase from normal mouse liver. 698 68

mRNA levels of various constituents of large dense-core vesicles were determined in PC12 cells during depolarization and/or in the presence of BayK 8644, forskolin or phorbolester. For the soluble (secretory) proteins of the vesicles the mRNAs of chromogranin A and B, secretogranin II, neuropeptide Y and VGF were analyzed. Depolarization in the presence of BayK induced a strong up-regulation of the messages for chromogranin B, neuropeptide Y and VGF. Addition of forskolin enhanced this response for neuropeptide Y and VGF, phorbolester did the same only for VGF. Partly membrane-bound and membrane-spanning components analyzed were carboxypeptidase H, dopamine beta-hydroxylase and glycoprotein III (clusterin), peptidylglycine alpha-amidating mono-oxygenase and cytochrome b-561, respectively. Changes of mRNAs for these components were in general smaller and delayed. Six days of depolarization caused an up-regulation of glycoprotein III, peptidylglycine alpha-amidating mono-oxygenase and carboxypeptidase H mRNA levels which were not further increased by cyclic AMP and phorbolester. The dopamine beta-hydroxylase message increased after 6 days of depolarization, however, addition of phorbolester reduced this effect. For cytochrome b-561 there was no change after any of the conditions employed. These in vitro results are compared with those obtained for the biosynthesis regulation of large dense-core vesicles under in vivo conditions. It is suggested that in vivo acetylcholine and vasoactive intestinal polypeptide released from splanchnic nerve induce a differential change in the biosynthesis of large dense-core vesicles by acting via calcium and protein kinase A and C.
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PMID:Biosynthesis of large dense-core vesicles in PC12 cells: effects of depolarization and second messengers on the mRNA levels of their constituents. 747 21

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