Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:Q07644 (polypeptide)
 72,197 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A group of RNA viruses, echovirus, poliovirus, reovirus, respiratory syncytial virus and Semliki Forest virus have been examined for ability to grow in enucleate African green monkey kidney (BSCi) cells. Semliki Forest virus produced an almost normal yield of virus but poliovirus, echovirus, reovirus and respiratory syncytial virus, although showing clear evidence of virus replication when compared with a nuclear DNA virus (pseudorabies virus) gave much lower yields than those from nucleate cells. Analysis of enucleate cells infected with echovirus and reovirus showed no evidence of a specific block in the synthesis of any virus-specified polypeptide. Infection with vesicular stomatitis virus at intervals after enucleation demonstrated a diminishing ability to support virus growth with increasing time. It is suggested that the yield of virus obtained from an enucleate cell is related to the length of the growth cycle of the virus, the reduced yield obtained with some viruses reflecting the declining ability of the enucleate cell to support virus growth.
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PMID:Virus development in enucleate cells: echovirus, poliovirus, pseudorabies virus, reovirus, respiratory syncytial virus and Semliki Forest virus. 16 89

Infection of MPC-11 mouse plasmacytoma cells by vesicular stomatitis virus results in 30 to 35% reduction in [35S]methionine incorporation into total proteins within 30 min postinfection. By 6 h postinfection, total protein synthesis is reduced by 80 to 90%. However, even by 30 min postinfection, a differential suppression of the synthesis of individual host protein is observed. The synthesis of the immunoglobin G (IgG) heavy chain (H), and, in particular, the synthesis of IgG light chain (L), is considerably more resistant to vesicular stomatitis virus-induced inhibition than is the synthesis of the non-IgG proteins as a whole; e.g., when the synthesis of non-IgG proteins was reduced by 41%, the synthesis of the H and L chains was reduced by 28 and 7%, respectively. Furthermore, these alterations in the relative synthesis of the L chain, H chain, and non-IgG are comparable to the alterations previously observed in uninfected MPC-11 cells when the overall rate of polypeptide chain initiation was selectively reduced (D.L. Nuss and G. Koch, 1976). These results are discussed in terms of the strategy of virus-directed suppression of host mRNA translation.
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PMID:Translation of individual host mRNA's in MPC-11 cells is differentially suppressed after infection by vesicular stomatitis virus. 18 15

In conclusion, one can say that the cytochalasins--in their brief history of application in virology--have proven to be valuable tools in studies on the molecular biology of virus--host cell interactions. On the other hand, viral systems can be useful in defining the primary sites of action of cytochalasins in certain cells. In interpreting the effects of cytochalasins on virus replication, however, one must take into consideration that the cytochalasins exert a wide variety of alterations in cellular functions. Infections by viruses interfere primarily with the synthesis of host DNA, RNA, and proteins. The experiments reviewed here were carried out with different viruses, different cell lines, and--more important--under very different experimental conditions. Nevertheless, a number of informative observations emerge which provide insight into specific aspects of the interaction of viruses with their host cells, and help us to understand the mode of action of cytochalasins on specific cellular functions: Cytochalasins may decrease or increase the competence of cells for infection by viruses. For the DNA viruses, vaccinia virus and adenovirus, cytochalasin treatment of host cells resulted in a reduced virus yield; whereas for the RNA viruses, poliovirus, parainfluenza virus, and VSV, cytochalasin treatment results in an increased virus yield. The precise mechanism by which cytochalasins exert these effects remain unclear. It is proposed that the cytochalasin-mediated enhancement of cell infectibility for poliovirus--the only system for which this effect has been studied in more detail--is primarily due to a reduction of polypeptide chain initiation. This reduction dramatically amplifies the inherent translational advantage of virus mRNAs over host cell mRNAs, resulting in a relative stimulation of viral mRNA translation. The cytochalasin-mediated sensitization of cells for infection by isolated poliovirus RNA is explainable by a comparable effect on protein synthesis. In this case, cytochalasin may act in part by substituting for the function of a viral protein(s). When cytochalasin B is added to cells which have previously been infected by intact HSV, formation of infectious virus particles is severely inhibited...
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PMID:The use of cytochalasins in studies on the molecular biology of virus--host cell interactions. 20 77

Infection of several types of cultured cells with the paramyxoviruses simian virus 5 and Sendai virus stimulates synthesis of four polypeptides (I-IV) with molecular weights of approximately 99,000, 97,000, 86,000, and 78,000, respectively. That these are host polypeptides encoded in cellular mRNAs has been shown by the inhibition of their synthesis by actinomycin D and by the similarity of the peptide maps of them and of polypeptides with the same electrophoretic mobility from uninfected cells. Peptide mapping as well as identical migration in polyacrylamide gels has also indicated that polypeptides I, II, and IV are the same as plasma membrane polypeptides whose synthesis is enhanced in cells transformed by Rous sarcoma virus and in normal cells by glucose deprivation or treatment with 2-deoxyglucose. Polypeptides I and II appear to be the same polypeptides, with the observed differences in migration reflecting the glycosylation of polypeptide I, a relationship previously shown to exist between polypeptides in glucose-deprived and glucose-fed cells. Infection with paramyxoviruses does not significantly increase the transport of glucose by cells, and the maintenance of a high concentration of glucose in the medium does not prevent the enhanced synthesis of these polypeptides. This is in contrast to the situation in transformed cells in which stimulation of synthesis of these polypeptides is secondary to depletion of glucose in the medium due to increased glucose uptake by the cells. Thus, although paramyxovirus infection and transformation by Rous sarcoma virus result in stimulation of the synthesis of the same membrane polypeptides, the mechanism of stimulation differs.
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PMID:Infection with paramyxoviruses stimulates synthesis of cellular polypeptides that are also stimulated in cells transformed by Rous sarcoma virus or deprived of glucose. 21 13

Infection of chicken embryo fibroblasts by Rous sarcoma virus induces a variety of alterations in cellular growth and morphology. We have used two-dimensional polyacrylamide gel electrophoresis to examine the effects of viral transformation on the pattern of synthesis and phosphorylation of cellular polypeptides. Infection by Rous sarcoma virus does not appear to induce the de novo synthesis, or the complete suppression, of any of the [35S]methionine-labeled cellular polypeptides that can be resolved with this technique; however, there are quantitative changes in a minor fraction (approximately 4%) of the [35S]methionine-labeled polypeptides. When cells labeled with [32P]orthophosphate were examined, a phosphorylated polypeptide, Mr 36,000, was detected in transformed cells; this polypeptide appears within 20 min when cells infected by a temperature-sensitive mutant of Rous sarcoma virus are shifted from the nonpermissive to the permissive temperature. Phosphorylation of the 36,000 Mr polypeptide thus represents an early event in the process of transformation, and it is possible that this polypeptide is a target for the kinase activity associated with pp60src.
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PMID:Transformation by Rous sarcoma virus: effects of src gene expression on the synthesis and phosphorylation of cellular polypeptides. 22 82

A subnuclear fraction has been isolated from HeLa S3 nuclei after treatment with high salt buffer, deoxyribonuclease, and dithiothreitol. This fraction retains the approximate size and shape of nuclei and resembles the nuclear matrix recently isolated from rat liver nuclei. Ultrastructural and biochemical analyses indicate that this structure consists of nonmembranous elements as well as some membranous elements. Its chemical composition is 87% protein, 12% phospholipid, 1% DNA, and 0.1% RNA by weight. The protein constituents are resolved in SDS-polyacrylamide slab gels into 30-35 distinguishable bands in the apparent molecular weight range of 14,000 - 200,000 with major peptides at 14,000 - 18,000 and 45,000 - 75,000. Analysis of newly synthesized polypeptides by cylindrical gel electrophoresis reveals another cluster in the 90,000-130,000 molecular weight range. Infection with adenovirus results in an altered polypeptide profile. Additional polypeptides with apparent molecular weights of 21,000, 23,000, and 92,000 become major components by 22 h after infection. Concomitantly, some peptides in the 45,000-75,000 mol wt range become less prominent. In synchronized cells the relative staining capacity of the six bands in the 45,000-75,000 mol wt range changes during the cell cycle. Synthesis of at least some matrix polypeptides occures in all phases of the cell cycle, although there is decreased synthesis in late S/G2. In the absence of protein synthesis after cell division, at least some polypeptides in the 45,000-75,000 mol wt range survive nuclear dispersal and subsequent reformation during mitosis. The possible significance of this subnuclear structure with regard to structure-function relationships within the nucleus during virus replication and during the life cycle of the cell is discussed.
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PMID:Nuclear matrix of HeLa S3 cells. Polypeptide composition during adenovirus infection and in phases of the cell cycle. 83 Jun 54

Infection of KB cells at 39.5 degrees C with H5ts147, a temperature-sensitive (ts) mutant of type 5 adenovirus, resulted in the cytoplasmic accumulation of hexon antigen; all other virion proteins measured, however, were normally transported into the nucleus. Immunofluorescence techniques were used to study the intracellular location of viral proteins. Genetic studies revealed that H5ts147 was the single member of a nonoverlapping complementation group and occupied a unique locus on the adenovirus genetic map, distinct from mutants that failed to produce immunologically reactive hexons at 39.5 degrees C ("hexon-minus" mutants). Sedimentation studies of extracts of H5ts147-infected cells cultured and labeled at 39.5 degrees C revealed the production of 12S hexon capsomers (the native, trimeric structures), which were immunoprecipitable to the same extent as hexons synthesized in wild type (WT)-infected cells. In contrast, only 3.4S polypeptide chains were found in extracts of cells infected with the class of mutants unable to produce immunologically reactive hexon protein at 39.5 degrees C. Hexons synthesized in H5ts147-infected cells at 39.5 degrees C were capable of being assembled into virions, to the same extent as hexons synthesized in WT-infected cells, when the temperature was shifted down to the permissive temperature, 32 degrees C. Infectious virus production was initiated within 2 to 6 h after shift-down to 32 degrees C; de novo protein synthesis was required to allow this increase in viral titer. If ts147-infected cells were shifted up to 39.5 degrees C late in the viral multiplication cycle, viral production was arrested within 1 to 2 h. The kinetics of shutoff was similar to that of a WT-infected culture treated with cycloheximide at the time of shift-up. The P-VI nonvirion polypeptide, the precursor to virion protein VI, was unstable at 39.5 degrees C, whereas the hexon polypeptide was not degraded during the chase. It appears that there is a structural requirement for the transport of hexons into the nucleus more stringent than the acquisition of immunological reactivity and folding into the 12S form.
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PMID:Characterization of a temperature-sensitive, hexon transport mutant of type 5 adenovirus. 95 84

Infection of Pseudomonas putida by the bacteriophage gh-L-induced the synthesis of a novel DNA-dependent RNA polymerase. This gh-L-induced RNA polymerase was purified to near homogeneity. It was shown to be distinct from the host RNA polymerase (alpha-2 beta beta sigma) physically and in respect to many of its catalytic properties. The gh-L-induced RNA polymerase was composed of a single polypeptide of approximately 98,000 molecular weight. The divalent metal ion requirement for in vitro RNA synthesis by the gh-L-polymerase could be satisified with Mg-2+, but not with Mn-2+. Rna synthesis by the gh-L polymerase was highly resistant to inhibition by rifampicin and streptolydigin but could be inhibited by relatively low concentrations of KCl or the rifamycin derivative AF/013. The structural analog of ATP, 3'-deoxyadenosine 5'-triphosphate, inhibited both the gh-L-induced and the host RNA polymerases by competing for a single binding site with ATP. The phage polymerase was extremely sensitive to this inhibitor, exhibiting an apparent K-i value (2 times 10-8 M) approximately 100 times lower than that for the host RNA polymerase. The gh-L polymerase had a highly specific template requirement for DNA from the homologous gh-L phage. It would not efficiently utilize denatured DNA templates and had only low levels of activity with pyrimidine-containing polydeoxyribonucleotide homopolymers.
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PMID:Purification and characterization of bacteriophage gh-I-induced deoxyribonucleic acid-dependent ribonucleic acid polymerase from Pseudomonas putida. 111 26

Four temperature sensitive mutants of adenovirus type 12, classified into complementation group D, synthesize most or all of the late virus-specific polypeptides at the restrictive temperature, as shown by sodium dodecyl sulphate-polyacrylamide gel electrophoresis. Infections by these mutants under restrictive conditions apparently result in some over production of the virion hexon polypeptide compared to wild type infection. Genetic recombination between the four mutants has been demonstrated. A partial linear genetic map of the D cistron is presented.
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PMID:Temperature-sensitive mutants of type 12 adenovirus defective in a late function: protein synthesis and evidence for recombination between mutants in complementation group D. 124 44

The rat and human recombinant soluble and membrane-bound catechol O-methyltransferase (S- and MB-COMT, respectively) were expressed using mammalian and baculovirus vectors. Low levels of rat and human S-COMT polypeptides were detected by immunoprecipitation in K-562 cell lines transfected with the S-COMT vectors. From K-562 cells transfected with the rat MB-COMT construct, both S- and MB-COMT recombinant proteins were detected by a rat COMT-specific anti-serum. Infection of lepidopteran Spodoptera frugiperda cells with recombinant S- or MB-COMT baculovirus constructs yielded high amounts of enzymically active and immunoreactive S- or MB-COMT proteins, respectively. Pulse/chase experiments with [35S]methionine-labelled insect cells infected with the MB-COMT baculovirus showed that the 30-kDa recombinant human MB-COMT polypeptide was not processed into the 25-kDa S-COMT form. Subcellular fractionations of insect cells, followed by immunoblotting with COMT antiserum, showed that recombinant S-COMT was found only in the soluble, cytoplasmic fraction, whereas MB-COMT resided both in soluble and membrane fractions. The recombinant MB-COMT sedimented in Percoll gradients at the density of 1.042 g/ml cosedimenting with the plasma-membrane marker. Fractionation and immunoblotting experiments on homogenized total rat brains indicated that the rat S-COMT (24 kDa) and some of the rat MB-COMT (28 kDa) was recovered in soluble fractions, whereas the microsomal material having COMT activity contained the MB-COMT polypeptide. The rat brain microsomal MB-COMT had a density of 1.042 g/ml in Percoll gradients, cosedimenting with the plasma-membrane and rough-endoplasmic-reticulum marker enzymes. The meta/para methylation ratio of dihydroxybenzoic-acid substrate by different recombinant and rat brain COMT-containing subcellular fractions was analysed.
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PMID:Expression of recombinant soluble and membrane-bound catechol O-methyltransferase in eukaryotic cells and identification of the respective enzymes in rat brain. 163 30


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