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 advent of recombinant DNA technology has led to the identification in the DNA of normal animal cells of over 30 proto-oncogenes that are homologous to retroviral transforming genes. One of these encodes a protein kinase (pp60c-src) of unknown function, that is preferentially synthesized in brain and neural retina. Here the expression of pp60c-src in the peripheral nervous system was examined in sensory neurons from chick dorsal root ganglia with antisera raised against the transforming protein of Rous sarcoma virus (pp60v-src) expressed in Escherichia coli carrying the cloned v-src gene. This antiserum recognizes pp60c-src specifically in normal chicken cells. Western immunoblotting showed that dorsal root ganglia of stage 30 (day 6.5) chick embryos contained elevated levels of pp60c-src. Immunoperoxidase staining of neuron-enriched cultures prepared from chick dorsal root ganglia showed pp60c-src immunoreactivity in cells with neuronal morphology; flat, fibroblastic cells contained no detectable immunoreactivity. Indirect double immunofluorescence with pp60src antibodies and monoclonal antibodies against the 200-kD subunit of neurofilament protein confirmed that the cells expressing pp60c-src were neurons. Ninety-six percent of the neurofilament-positive cells were immunoreactive with pp60src antibodies, and conversely, all pp60c-src-positive cells were immunoreactive with neurofilament antibodies. pp60c-src immunofluorescence appeared to be distributed over the cell body, processes, and growth cones. These results clearly demonstrate that pp60c-src is a product of neurons and is expressed in sensory neurons in culture.
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PMID:pp60c-src encoded by the proto-oncogene c-src is a product of sensory neurons. 242 34

All 15 protein kinases whose amino acid sequence is known contain a lysine residue at a position homologous to that of lysine-295 in p60src, the transforming protein of Rous sarcoma virus. The ATP analog p-fluorosulfonyl 5'-benzoyl adenosine inactivates both p60src and the catalytic subunit of the cyclic AMP-dependent protein kinase by modification of this lysine. We used oligonucleotide-directed mutagenesis to examine the possible functions of this residue. Lysine-295 in p60src was replaced with a glutamic acid, an arginine, or a histidine residue, and mutant p60src proteins were characterized in chicken cells infected by mutant viruses. None of these three mutant p60src proteins had tyrosine protein kinase activity in vitro, and none induced morphological transformation of infected cells. Since neither a histidine nor an arginine residue can replace the function of lysine-295, we suggest that it carries out the specialized function of proton transfer in the phosphotransferase reaction. All three mutant viruses underwent reversion to wild type during passage in tissue culture. Because the rate with which this occurred differed significantly among the mutants, reversion appears to have resulted from errors in transcription, rather than from recombination with the cellular src gene.
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PMID:Neither arginine nor histidine can carry out the function of lysine-295 in the ATP-binding site of p60src. 243 Jan 74

The acutely-transforming avian virus, Rous sarcoma virus, arose as the result of the transduction of the c-src gene of the chicken by a relatively benign avian leucosis virus. In the viral genome, the src gene is expressed in the form of a 60 kDa phosphoprotein, pp60v-src, which is a protein-tyrosine kinase. Cellular transformation results from the excessive or chronic phosphorylation of cellular proteins by pp60v-src. The c-src gene has been present in the genome of eukaryotes, at least since the evolutionary emergence of Drosophila. Like its viral descendant, it encodes a 60 kDa protein-tyrosine kinase, termed pp60c-src. Both pp60v-src and pp60c-src are bound to membranes. pp60c-src is expressed at low levels in most cell types but it is found in high amounts in neural tissues and in platelets. pp60c-src might therefore participate in vesicle-mediated secretion. pp60c-src is less active as a protein-tyrosine kinase then pp60v-src and does not induce cellular transformation, even when expressed at levels comparable to those of pp60v-src. The potency of pp60v-src apparently results from the fact that the region of the c-src gene encoding the C terminus of pp60c-src was lost during the genesis of the v-src gene. This region of pp60c-src contains a site of tyrosine phosphorylation whose occupancy apparently leads to diminished enzymatic activity. The deletion of this site may abolish the normal regulation of the protein kinase activity. If so, transformation could simply be the consequence of the inability of the cell to regulate the activity of pp60v-src.
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PMID:From c-src to v-src, or the case of the missing C terminus. 243 Jul 1

We characterized the tyrosine phosphorylation sites of free pp60c-src and of pp60c-src associated with the polyomavirus middle tumor antigen (mT) in transformed avian and rodent cells. The sites of tyrosine phosphorylation in the two populations of pp60c-src were different, both in vitro and in vivo. Free pp60c-src was phosphorylated in vitro at a single site, tyrosine 416. pp60c-src associated with mT was phosphorylated in vitro on tyrosine 416 and on one or more additional tyrosine residues located in the amino-terminal region of the molecule. Free pp60c-src in polyomavirus mT-transformed cells was phosphorylated in vivo on tyrosine 527. In contrast, pp60c-src associated with mT was phosphorylated in vivo on tyrosine 416 and not detectably on tyrosine 527. Thus, the in vivo phosphorylation sites of pp60c-src associated with mT in transformed cells are identical to those of pp60v-src, the Rous sarcoma virus transforming protein. The results suggest that altered phosphorylation of pp60c-src associated with mT may play a role in the enhancement of the pp60c-src protein kinase activity and in cell transformation by polyomavirus.
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PMID:Altered sites of tyrosine phosphorylation in pp60c-src associated with polyomavirus middle tumor antigen. 243 Dec 81

We studied the expression of a molecularly cloned human c-src gene, c-src-1, localized on chromosome 20, whose coding region consists of 11 exons and spans a 19.5-kilobase (kb) distance. Using a replication-competent retroviral vector derived from molecularly cloned Rous sarcoma virus DNA (pSRA-2), we obtained two constructs: one (pSR-CS) carrying the unmodified human c-src coding sequence and another (pSR-CVS) with a chimeric gene formed between the human c-src gene and the carboxy-terminal 12-amino acid v-src-specific coding sequence. From chicken embryo fibroblasts transfected with these DNA constructs, infectious viruses designated as WO CS and WO CVS, respectively, were recovered. WO CS virus did not cause cell transformation, whereas WO CVS induced cell transformation. Analyses of the proviral DNAs indicated that all introns were spliced out such that the 19-kb inserts were converted to 1.7-kb cDNA forms. Analyses of src proteins in infected cells, using monoclonal antibody MAb327 against v-src protein, showed the following results. The CVS and CS src proteins were about 60 and 61 kilodaltons in size, respectively; the specific protein kinase activity assayed in vitro of the CVS src protein was about 20-fold higher than that of the CS src protein and comparable to that of the v-src protein; the transforming CVS src protein reacted to an antibody against a v-src-specific peptide, whereas the CS src protein did not. These results indicate that the human c-src gene has a potential transforming ability and suggest that the v-src-specific sequence played an important role in the generation of Rous sarcoma virus.
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PMID:Expression of a molecularly cloned human c-src oncogene by using a replication-competent retroviral vector. 243 94

We have previously shown that Rous sarcoma virus variants that carry the cellular homolog (c-src) of the viral src gene (v-src) do not transform chicken embryo fibroblasts. We also have shown that replacement of sequences upstream or downstream from the BglI site of the cellular src gene with the corresponding regions of v-src restored transforming activity to the hybrid genes. Since there are only six amino acid changes between p60c-src and p60v-src within the sequences upstream from BglI, we constructed chimeric molecules involving v-src and c-src to determine the effect of each amino acid substitution on the biological activities of the gene product. We found that the change from Thr to Ile at position 338 or the replacement of a fragment of c-src containing Gly-63, Arg-95, and Thr-96 with a corresponding fragment of v-src containing Asp-63, Trp-95, and Ile-96 converted p60c-src into a transforming protein by the criteria of focus formation, anchorage-independent growth, and tumor formation in newborn chickens. These mutations also resulted in elevation of the protein kinase activity of p60c-src.
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PMID:Amino acid substitutions sufficient to convert the nontransforming p60c-src protein to a transforming protein. 243 97

The transmembrane potential of Rous sarcoma virus (RSV)-infected Rat-1 cells, expressing the pp60v-src protein kinase, is markedly less negative (by approximately 30 mV) than that of their normal counterparts. By contrast, the membrane potential of Rat-1 cells infected with Kirsten sarcoma virus is virtually unaltered. The RSV-induced membrane depolarization is shown to be due to a severalfold increase in the cation permeability ratio (PNa/PK) of the plasma membrane. When cells infected with a temperature-sensitive mutant of RSV (ts LA29), encoding a src protein with heat-labile kinase activity, are shifted from the nonpermissive to the permissive temperature, a rapid and sustained membrane depolarization is observed. Conversely, thermal inactivation of the ts LA29 pp60v-src kinase activity rapidly restores the membrane potential to near normal levels. Addition of epidermal growth factor, platelet-derived growth factor, or insulin to uninfected cells fails to cause a detectable change in membrane potential. We conclude that, unlike growth factor receptor tyrosine kinases, pp60v-src can induce, either directly or indirectly, a major change in the membrane permeability to monovalent cations.
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PMID:Expression of pp60v-src alters the ionic permeability of the plasma membrane in rat cells. 243 84

It has previously been shown that an electrophoretic variant form of the Rous sarcoma virus transforming protein, pp60v-src, exists in src-transformed cells. This variant, which was readily observed in vanadate-treated cells, was characterized as possessing extensive amino-terminal domain phosphotyrosine modification. Its appearance was further correlated with increased src-specific protein kinase activity. In this study, we used a src-specific monoclonal antibody (MAb) to resolve immunologic forms of pp60v-src. The MAb was able to distinguish between two populations of typical lower-band pp60v-src and was unreactive with the electrophoretic variant upper-band pp60v-src species. Using serial immunoprecipitations, we resolved four populations of pp60v-src: src protein either immunoreactive or unreactive with the MAb from both untreated and vanadate-treated transformed cells. The pp60v-src in each fraction displayed a distinct phosphoamino acid composition and tryptic phosphopeptide profile. However, analysis of their tyrosyl kinase specific activities showed that the immunologically resolved populations of pp60v-src from a given culture did not differ. Both pp60v-src fractions from vanadate-treated cells exhibited similar kinase specific activities, which were greatly enhanced over those of enzyme preparations from untreated cells. Since the MAb-reactive pp60v-src fraction from vanadate-treated cells lacked the electrophoretic variant upper-band pp60v-src species yet still possessed enhanced enzymatic specific activity, the initially stated correlation between the appearance of the electrophoretic variant src form and increased src kinase activity breaks down. These results suggest that yet to be defined modifications of the src protein may be involved in its functional regulation.
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PMID:Forms of pp60v-src isolated from Rous sarcoma virus-transformed cells. 243 20

A monoclonal antibody, R2D2, raised to the src gene product of Rous sarcoma virus was found to inhibit the tyrosine protein kinase activity of pp60v-src in autophosphorylation reactions and in reactions involving exogenously added substrates, such as casein and histone. R2D2 also inhibited the enzymatic activity of two related viral transforming proteins, pp70gag-fgr and pp90gag-yes. The inhibitory ability of R2D2 was dependent upon immunoglobulin concentration and could be demonstrated in both immune complexes formed directly with R2D2 and preformed immune complexes to which R2D2 was added. Binding sites in both the amino-terminal 110 amino acid residues and the carboxy-terminal 240 amino acids of pp60v-src were identified for R2D2. These results indicate that at least part of the epitope recognized by R2D2 resides within a region of the src protein which is required for protein kinase activity. The localization of the R2D2 epitope to the amino- as well as to the carboxy-terminal portions of pp60v-src, together with results of studies analyzing the relative binding efficiencies of R2D2 to the intact protein and to V-8 proteolytic fragments of pp60v-src, are consistent with the view that the R2D2 epitope is conformational in nature and that it is assembled from residues contained within both N-terminal and C-terminal regions of the molecule.
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PMID:Inhibition of the tyrosine kinase activity of v-src, v-fgr, and v-yes gene products by a monoclonal antibody which binds both amino and carboxy peptide fragments of pp60v-src. 243 25

We have identified in the plasma membrane of the chicken erythrocyte a 60-kDa tyrosine-specific protein kinase immunologically related to the transforming protein pp60v-src of Rous sarcoma virus. The erythrocyte protein kinase phosphorylated heavy chains of tumor-bearing rabbit (TBR) antibodies reactive with pp60c-src at tyrosine in immune complex protein kinase assays. The kinase was identified as a 60-kDa protein by [35S]methionine labeling of erythrocytes and by autophosphorylation in immune complexes. The kinase migrated on two-dimensional gel electrophoresis with an apparent pI and molecular mass similar to pp60c-src. A plasma membrane-enriched fraction isolated from chicken red cells contained the majority of the kinase activity. The kinase was solubilized from the plasma membrane by the detergents 0.5% (wt/vol) Na-deoxycholate and 1% (vol/vol) Nonidet P-40. One molar NaCl was much less effective, indicating a strong association of the kinase with the plasma membrane. Incubation of the plasma membrane fraction with [32P]ATP resulted in tyrosine phosphorylation of the anion transport protein band 3. Band 3 phosphorylation was blocked by TBR antibodies, indicating that the kinase recognized by pp60c-src antibodies was responsible for band 3 phosphorylation. These results demonstrate that the avian erythrocyte plasma membrane contains a tightly bound tyrosine-specific protein kinase identical or closely related to pp60c-src and that this kinase is responsible for band 3 phosphorylation in vitro.
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PMID:Band 3 tyrosine kinase in avian erythrocyte plasma membrane is immunologically related to pp60c-src. 244 8


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