EC:2.7.11.1 - FACTA Search

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)

The c-fms proto-oncogene is a member of a gene family that has been implicated in tumorigenesis. Glycoproteins encoded by c-fms were identified in cat spleen cells by means of an immune-complex kinase assay performed with monoclonal antibodies to v-fms-coded epitopes. The major form of the normal cellular glycoprotein has an apparent molecular weight of 170,000 and, like the product of the viral oncogene, serves as a substrate for an associated tyrosine-specific protein kinase activity in vitro. The results suggest that the transforming glycoprotein specified by v-fms is a truncated form of a c-fms-coded growth factor receptor.
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PMID:The product of the c-fms proto-oncogene: a glycoprotein with associated tyrosine kinase activity. 258 Mar 48

The insulin receptor, a glycoprotein consisting of two extracellular alpha- and two transmembrane beta-subunits, is thought to mediate hormone action by means of its tyrosine-specific protein kinase activity. To explore the mechanism of insulin receptor phosphorylation we have used NIH3T3 cells transfected with two receptor constructs: one encoding a chimeric receptor composed of the extracellular domain of the human EGF receptor and the cytosolic domain of the human insulin receptor beta-subunit, and a second construct encoding a kinase-defiecient human insulin receptor. Stimulation of these cells with EGF induced tyrosine autophosphorylation of the EGF-insulin receptor chimera (150 kd) and tyrosine phosphorylation of the beta-subunit of the kinase-deficient insulin receptor (95 kd). The phosphopeptides of the autophosphorylated cytoplasmic domain of the EGF-insulin receptor chimera were comparable to those of the transphosphorylated beta-subunit of the kinase-deficient insulin receptor and of the wild-type human insulin receptor. When immunoaffinity purified EGF-insulin receptor hybrids and kinase-deficient insulin receptors were used in a cell lysate phosphorylation assay, it was found that addition of EGF produced 32P-labeling of both receptor species. We conclude that EGF acting directly through the EGF-insulin receptor chimera causes transphosphorylation of the kinase-deficient insulin receptor. These data support the notion that autophosphorylation of the insulin receptor may proceed by an intermolecular mechanism.
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PMID:Intermolecular transphosphorylation between insulin receptors and EGF-insulin receptor chimerae. 258

3-Hydroxy-3-methylglutaryl coenzyme A (HMG CoA) reductase is the limiting enzyme step in cholesterol formation in mammalian liver and other tissues. It is a glycoprotein of 97,000 daltons embedded in the endoplasmic reticulum with a long cytoplasmic extension that is the site of catalytic conversion of HMG CoA to mevalonate. The enzyme is subject to both long-term (induction/repression; degradation) and short-term control (reversible phosphorylation) mediated by endocrine signaling (insulin, glucagon) and through negative feedback by metabolic products of mevalonate (e.g., cholesterol). The catalytic capacity of microsomal reductase falls rapidly in the presence of several protein kinases (reductase kinase, protein kinase-C, calmodulin-dependent protein kinase). Activity is restored with various protein phosphatases. Increased phosphorylation of reductase in intact cells after addition of glucagon or mevalonate is followed by enhanced degradation of the enzyme. In an in vitro model system, phosphorylated, native microsomal reductase is more rapidly cleaved by the calcium-dependent, neutral protease calpain than the dephosphorylated from of reductase. Our present research which centers on the mechanism of the in vitro model system is reviewed. Calpain in the presence of Ca2+ cleaves the cytosolic domain of phosphorylated 97 kDa reductase at two points giving rise to two fragments of nearly the same size that appear as a 52-56,000 dalton doublet by electrophoresis and immunoblotting. In the same system native reductase labeled with [gamma-32P]ATP generates a doublet with 32P solely in the upper (heavier) band. This indicates that serine phosphorylation sites lie between the two calpain cleavage loci. These are positioned in the "linker" region of the long carboxy-terminal cytosolic domain near the membrane. This segment possesses five invariant serine residues and two PEST sequences (constellations of proline, glutamate, serine and threonine) that are characteristic of proteins with short half-lives. If phosphorylation of HMG CoA reductase is confined to the linker region, we must look to this domain in order to interpret the resulting conformational changes that markedly influence reductase catalytic activity and prepare the enzyme for degradation.
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PMID:Phosphorylation and degradation of HMG CoA reductase. 262 76

The previously cloned GAL2 gene of the Saccharomyces cerevisiae galactose transporter has been sequenced. The nucleotide sequence predicts a protein with 574 amino acids (Mr, 63,789). Hydropathy plots suggest that there are 12 membrane-spanning segments. The galactose transporter shows both sequence and structural homology with a superfamily of sugar transporters which includes the human HepG2-erythrocyte and fetal muscle glucose transporters, the rat brain and liver glucose transporters, the Escherichia coli xylose and arabinose permeases, and the S. cerevisiae glucose, maltose, and galactose transporters. Sequence and structural motifs at the N-terminal and C-terminal regions of the proteins support the view that the genes of this superfamily arose by duplication of a common ancestral gene. In addition to the sequence homology and the presence of the 12 membrane-spanning segments, the members of the superfamily show characteristic lengths and distributions of the charged, hydrophilic connecting loops. There is indirect evidence that the transporter is an N-glycoprotein. However, its only N-glycosylation site occurs in a charged, hydrophilic segment. This could mean that this segment is part of a hydrophilic channel in the membrane. The transporter has a substrate site for the cyclic AMP-dependent protein kinase which may be a target of catabolite inactivation. The transporter lacks a strong sequence enriched for proline (P), glutamate (E), aspartate, serine (S), and threonine (T) and flanked by basic amino acids (PEST sequence) even though it has a short half-life. Mechanisms for converting the poor PEST to a possible PEST sequence are considered. Like the other members of the superfamily, the galactose transporter lacks a signal sequence.
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PMID:Sequence and structure of the yeast galactose transporter. 266 4

We report the results of studies on the biologic properties of seven deletion mutants of herpes simplex virus 1 (HSV-1). The genes deleted from six of these mutants map in the S component of HSV-1 DNA and include those specifying the alpha protein 47, the glycoproteins G and E, the viral protein kinase, and two proteins whose functions are not yet known (open reading frames US2 and US11). The seventh virus [HSV-1(F) delta 305] contained a 700-bp deletion in the thymidine kinase gene. The results of intracerebral inoculation of Balb/c mice indicated that all but one of the deletion mutants in the S component were significantly attenuated. The PFU/LD50 ratios for these mutants ranged from 10(4)- to 10(5)-fold higher than that of the wild-type, HSV-1(F). The PFU/LD50 for mutant R7032, from which the glycoprotein E gene had been deleted, was less than 100-fold higher than that of the parent virus. All of the mutants, with one exception, were able to establish latency in mice; the exception, HSV-1(F) delta 305, was able to establish latency in rabbits.
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PMID:Virulence of and establishment of latency by genetically engineered deletion mutants of herpes simplex virus 1. 282 84

The c-fms proto-oncogene product is a transmembrane glycoprotein that is probably identical to the cell surface receptor for the mononuclear phagocyte colony stimulating factor, CSF-1. An analogous glycoprotein encoded by the viral oncogene v-fms includes the extracellular ligand-binding domain, membrane spanning segment, and cytoplasmic tyrosine kinase domain of the CSF-1 receptor. The v-fms and c-fms gene products differ significantly at their distal carboxylterminal ends where the truncated viral transforming protein has lost a single tyrosine residue (tyr969) that may negatively regulate the receptor kinase activity. Introduction of v-fms into a CSF-1 dependent murine macrophage cell line induced factor independence and tumorigenicity by a nonautocrine mechanism. Thus, although the v-fms gene product can bind CSF-1, its constitutive tyrosine-specific protein kinase provides growth stimulatory signals in the absence of ligand. Transfection of human c-fms cDNA into mouse NIH-3T3 cells conferred a CSF-1 responsive phenotype. Although neither the wild-type c-fms (tyr969) gene nor a mutant c-fms (phe969) allele induced transformation of NIH-3T3 cells, cotransfection with human CSF-1 cDNA gave rise to transformed foci. In cells cotransfected with the CSF-1 gene, the efficiency of focus formation induced by the mutant c-fms (phe969) gene was greater than that of the wild-type gene and equivalent to that of v-fms alone. A chimeric v-fms/c-fms molecule in which the carboxylterminus of the v-fms gene product was replaced by the corresponding region of the wild type c-fms (tyr969) was weakly transforming, whereas chimeric molecules containing phe969 transformed NIH-3T3 cells efficiently. Thus, complete oncogenic activation of the c-fms gene appears to require two events: one which alters a putative negative regulatory site of tyrosine phosphorylation, and a second which phenocopies a ligand-induced conformational change.
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PMID:Requirements for transformation by the fms oncogene product (CSF-1 receptor). 284 95

PCPP-260 (Purkinje cell phosphoprotein of Mr 260,000), a substrate for cAMP-dependent protein kinase, appears to be an integral membrane protein highly enriched in Purkinje cells of the mammalian cerebellum (Walaas et al.: J. Neurosci., 3:291-301, 1983; Walaas et al.: J. Neurosci., 6:954-961, 1986). PCPP-260 has now been purified from a crude particulate fraction of bovine cerebellum, using the ionic detergent N-lauryl sarcosine (NLS) as solubilizing agent, and monitoring the purification by silver stain and autoradiography of 32P-phosphorylated samples, after separation by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Concanavalin A was found to bind to PCPP-260, suggesting that it is a glycoprotein. PCPP-260 was therefore extracted, retained on a column of concanavalin A-agarose, and eluted by alpha-methyl mannoside. Further chromatography on Sephacryl S-400 yielded a preparation that was purified approximately 250-fold relative to the initial particulate fraction and that was at least 95% pure. The protein was estimated to represent approximately 0.4% of total membrane protein in the cerebellum. Peptide mapping and phosphoamino acid analysis following phosphorylation of the protein by cAMP-dependent protein kinase showed one major tryptic phosphopeptide containing phosphoserine. A similar, less prominent protein was also found in membranes from other brain regions but could not be detected in liver membranes. The availability of highly purified PCPP-260 should facilitate the investigation of its possible functional roles in the nervous system.
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PMID:Purification and characterization of PCPP-260: a Purkinje cell-enriched cyclic AMP-regulated membrane phosphoprotein of Mr 260,000. 284

The macrophage colony-stimulating factor, CSF-1 (M-CSF), is a homodimeric glycoprotein required for the lineage-specific growth of cells of the mononuclear phagocyte series. Apart from its role in stimulating the proliferation of bone marrow-derived precursors of monocytes and macrophages, CSF-1 acts as a survival factor and primes mature macrophages to carry out differentiated functions. Each of the actions of CSF-1 are mediated through its binding to a single class of high-affinity receptors expressed on monocytes, macrophages, and their committed progenitors. The CSF-1 receptor (CSF-1R) is encoded by the c-fms proto-oncogene, and is one of a family of growth factor receptors that exhibits an intrinsic tyrosine-specific protein kinase activity. Transduction of c-fms sequences as a viral oncogene (v-fms) in the McDonough (SM) and HZ-5 strains of feline sarcoma virus has resulted in alterations in receptor coding sequences that affect its activity as a tyrosine kinase and provide persistent signals for cell growth in the absence of its ligand. The genetic alterations in the c-fms gene that unmask its latent transforming potential abrogate its lineage-specific activity and enable v-fms to transform a variety of cells that do not normally express CSF-1 receptors.
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PMID:Colony-stimulating factor-1 receptor (c-fms). 285 67

Radiation inactivation with high energy electrons from a linear accelerator was used to determine the functional molecular size of the epidermal growth factor (EGF) binding site and the tyrosine-specific protein kinase activity in A-431 membranes. The target size of the protein portion of the EGF receptor glycoprotein was 147,000 daltons when the radiation-dependent decrease in maximal binding capacity was measured. Since the target size is in good agreement with the molecular size of the protein portion of the EGF receptor determined by denaturing biochemical methods, it appears that the monomeric receptor is the functional binding site in situ. The target size of the EGF-stimulated kinase activity associated with the affinity-purified EGF receptor/kinase was 133,000 and 144,000 daltons when assayed for the ability to autophosphorylate or to phosphorylate a tyrosine-containing peptide, respectively. However, the target size of the kinase activity that did not adhere to an EGF-affinity column was 54,000 and 69,000 daltons when assayed for phosphorylation of endogenous and exogenous substrates, respectively. Intermediate target sizes were obtained when kinase assays were performed on membranes prior to fractionation by affinity chromatography. These results, taken with other biochemical data, indicate that A-431 membranes contain a kinase activity that is a domain of the glycoprotein that contains the EGF binding site and that the membranes also contain another tyrosine-specific kinase or kinases that have an average size of approximately 60,000 daltons.
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PMID:Molecular size of the epidermal growth factor receptor-kinase as determined by radiation inactivation. 298 12

Insulin initiates its action by binding to a glycoprotein receptor on the surface of the cell. This receptor consists of an alpha-subunit, which binds the hormone, and a beta-subunit, which is an insulin-stimulated, tyrosine-specific protein kinase. Activation of this kinase is believed to generate a signal that eventually results in insulin's action on glucose, lipid, and protein metabolism. The growth-promoting effects of insulin appear to occur through activation of receptors for the family of related insulin-like growth factors. Both genetic and acquired abnormalities in the number of insulin receptors, the activity of the receptor kinase, and the various post-receptor steps in insulin action occur in disease states leading to tissue resistance to insulin action.
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PMID:The molecular mechanism of insulin action. 298 28

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