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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Influenza virus infection has adverse effects on the metabolism of two representative RNA polymerase II transcripts in chicken embryo fibroblasts, those coding for beta-actin and for avian leukosis virus (ALV) proteins. Proviral ALV DNA was integrated into host cell DNA by prior infection with ALV. Within 1 h after influenza virus infection, the rate of transcription of beta-actin and ALV sequences decreased 40 to 60%, as determined by labeling the cells for 5 min with [3H]uridine and by in vitro, runoff assays with isolated nuclei. The transcripts that continued to be synthesized did not appear in the cytoplasm as mature mRNAs, and the kinetics of labeling of these transcripts strongly suggest that they were degraded in the nucleus. By S1 endonuclease assay, it was confirmed that nuclear ALV transcripts disappeared very early after infection, already decreasing ca. 80% by 1 h postinfection. A plausible explanation for this nuclear degradation is that the viral cap-dependent endonuclease in the nucleus cleaves the 5' ends of new polymerase II transcripts, rendering the resulting decapped RNAs susceptible to hydrolysis by cellular nucleases. In contrast to the nuclear transcripts, cytoplasmic beta-actin and ALV mRNAs, which are synthesized before infection, were more stable and did not decrease in amount until after 3 h postinfection. Similar stability of cytoplasmic host cell mRNAs was observed in infected HeLa cells, in which the levels of actin mRNA and two HeLa cell mRNAs (pHe 7 and pHe 28) remained at undiminished levels for 3 h of infection and decreased only slightly by 4.5 h postinfection. The cytoplasmic actin and pHe 7 mRNAs isolated from infected HeLa cells were shown to be translated in reticulocyte extracts in vitro, indicating that host mRNAs were not inactivated by a virus-induced modification. Despite the continued presence of high levels of functional host cell mRNAs, host cell protein synthesis was effectively shut off by about 3 h postinfection in both chicken embryo fibroblasts and HeLa cells. These results are consistent with the establishment of an influenza virus-specific translational system that selectively translates viral and not host mRNAs.
Mol Cell Biol 1984 Oct
PMID:Metabolism and expression of RNA polymerase II transcripts in influenza virus-infected cells. 609 46

Balb/c mice were inoculated intramuscularly with Moloney murine sarcoma virus in one of the hind legs. This led to the rapid development of a regressive sarcoma and also to the proliferation and osteogenic differentiation of cells in the adjacent periosteum. Examination of the tissues by transmission electron microscopy revealed the presence of type A and C virus particles within the sarcoma cells as well as within the cells of the newly formed bone. Extracellular type C virus particles were formed by budding from the cell surface and by release from disintegrating cells. No virus particles were found in the bone or the surrounding soft tissues of the contralateral, noninfected leg. These observations suggest that viral infection of periosteal cells are at least partly responsible for the osteogenic response associated with the virus-induced sarcoma. Production of growth factors by the sarcoma cells could also contribute to this process.
Virchows Arch B Cell Pathol Incl Mol Pathol 1984
PMID:Demonstration of virus particles in Moloney murine sarcoma virus-induced periosteal bone in mice. 614 19

Analysis of the tRNA population from chicken cells was performed by means of polyacrylamide gel mapping. About 60 species were detected; most of these were positively identified by their acceptor specificity. The comparison of polysome-bound and overall cellular tRNA gel patterns from normal and Rous sarcoma virus-infected chicken embryo fibroblasts led us to the following observations: some tRNA species were present in the same relative proportions in all the preparations, and within isoaccepting groups the same species was preponderant; however, although about 8% of whole-cell tRNA was recovered in polysomal preparations, amounts ranging from 3 to 30% were found for individual tRNA species. This points to the absence of a direct correlation between the amount of each mature tRNA species produced and the frequency with which it is used in this case of embryonic cells. No significant difference was observed between the whole-cell tRNA patterns from normal and infected cells. Thus, tRNA transcription appears unaltered when cells are transformed and virus producing. No change was observed in the extent of a post-transcriptional modification of tRNAPhe (the base Y). However, viral infection led to some changes in the relative proportions of individual species from polysomal preparations.
Mol Cell Biol 1982 Oct
PMID:Polyacrylamide gel mapping of chicken tRNA: comparison of polysome-bound and whole-cell tRNA from normal and avian sarcoma virus-infected chicken embryo fibroblasts. 629 1

During the lytic infection of monkey and mouse cells with simian virus 40 and polyoma virus, respectively, the preferentially increased synthesis of two host proteins of 92,000 and 72,000 Mr was observed by 15 to 20 h after infection besides the general stimulation of most cellular proteins. The incubation of uninfected monkey and mouse cell cultures for 30 to 60 min at 43.5 degrees C induced the enhanced synthesis of at least three proteins of 92,000, 72,000 and 70,000 Mr, the last one being the major heat shock protein of mammalian cells. Two-dimensional gel electrophoresis and partial proteolytic digestion confirmed that the same 92,000- and 72,000-Mr proteins are stimulated by virus infection and thermal treatment. In simian virus 40-infected CV-1 cells, we also observed the weak stimulation of a 70,000-Mr protein comigrating in gel electrophoresis with the major heat shock protein. The 92,000-, 72,000- and 70,000-Mr proteins of monkey cells are structurally very similar to the corresponding proteins of mouse cells. In immunoprecipitations, no specific association of these proteins to simian virus 40 T antigens was noticed.
Mol Cell Biol 1983 Jan
PMID:Simian virus 40 and polyoma virus induce synthesis of heat shock proteins in permissive cells. 629 1

Stage 21 to 22 chicken embryo limb bud cells were infected with a temperature-sensitive mutant of Rous sarcoma virus and were grown in culture. Although control, uninfected cells yielded definitive chondroblasts (by day 4) which initiated the synthesis of the cartilage-characteristic proteoglycan, the transformed cells grown at the permissive temperature failed to do so. These effects were fully reversible after a shift to the nonpermissive temperature. In addition, infected cells at the nonpermissive temperature expressed traits of terminal chondrogenic maturation 2 to 3 days earlier than parallel, uninfected cells. Thus, Rous sarcoma virus-induced transformation reversibly blocks terminal limb bud cell chondrogenesis in culture, at the nonpermissive temperature, viral infection may also induce intracellular or extracellular conditions which favor or accelerate the process of chondrogenic cell maturation.
Mol Cell Biol 1983 Aug
PMID:Infection of chick limb bud presumptive chondroblasts by a temperature-sensitive mutant of Rous sarcoma virus and the reversible inhibition of their terminal differentiation in culture. 631 95

A series of deletions and insertions utilizing the herpesvirus thymidine kinase gene (tk) were constructed in the murine retrovirus Friend spleen focus-forming virus (SFFV). In all cases, the coding region for the SFFV-specific glycoprotein (gp55), which is implicated in erythroleukemic transformation, was left intact. These SFFV-TK and SFFV deletion vectors were analyzed for expression of tk and gp55 after DNA-mediated gene transfer. In addition, virus rescued by cotransfection of these vectors with Moloney murine leukemia virus was analyzed for infectious TK-transducing virus, gp55 expression, and erythroleukemia-inducing ability. The experiments demonstrated that deletions or insertions within the intron for the gp55 env gene can interfere with expression of gp55 after both DNA-mediated gene transfer and virus infection. In contrast, the gene transfer efficiency of the tk gene was unaffected in the SFFV-TK vectors, and high-titer infectious TK virus could be recovered. Revertant viruses capable of inducing erythroleukemia and expressing gp55 were generated after cotransfection of the SFFV-TK vectors with murine leukemia virus. The revertant viruses lost both tk sequences and the ability to transduce TK- fibroblasts to a TK+ phenotype. These experiments demonstrate that segregation of the TK and erythroleukemia functions can occur in retrovirus vectors which initially carry both markers.
Mol Cell Biol 1983 Dec
PMID:Retrovirus transduction: segregation of the viral transforming function and the herpes simplex virus tk gene in infectious Friend spleen focus-forming virus thymidine kinase vectors. 631 88

In herpes simplex virus type 1-infected Vero cells, reorganization of microfilaments was observed approximately 4 h postinfection. Conversion of F (filamentous) actin to G (globular) actin, as assessed by a DNase I inhibition assay, was continuous over the next 12 to 16 h, at which time a level of G actin of about twice that observed in uninfected cells was measured. Fluorescent localization of F actin, using 7-nitrobenz-2-oxa-1,3-diazole (NBD)-phallacidin, demonstrated that microfilament fibers began to diminish at about 16 to 18 h postinfection, roughly corresponding to the time that G actin levels peaked and virus-induced cytopathology was first observable. In measles virus-infected cells, no such disassembly of microfilaments occurred. Rather, there was a modest decrease in G actin levels. Fluorescent localization of F actin showed that measles virus-infected Vero cells maintained a complex microfilament network characterized by fibers which spanned the entire length of the newly formed giant cells. Disruption of microfilaments with cytochalasin B, which inhibits measles virus-specific cytopathology, was not inhibitory to measles virus production at high multiplicities of infection (MOI) but was progressively inhibitory as the MOI was lowered. The carbobenzoxy tripeptide SV-4814, which inhibits the ability of Vero cells to fuse after measles virus infection, like cytochalasin B, inhibited measles virus production at low MOI but not at high MOI. Thus, it appears that agents which affect the ability of Vero cells to fuse after measles virus infection may be inhibitory to virus production and that the actin network is essential to this process.
Mol Cell Biol 1983 Apr
PMID:Fate of microfilaments in vero cells infected with measles virus and herpes simplex virus type 1. 634 43

The function of the adenovirus E1Aa protein (the product of the 13S E1A mRNA) during a productive viral infection is to activate transcription of the six early viral transcription units. To study the mechanism of action of this protein, a peptide which was 13 amino acids long and had a sequence unique to the protein product of the adenovirus 13S E1A mRNA (pE1Aa) was coupled to keyhole limpet hemocyanin and used to raise an antibody in rabbits. The resulting antiserum was specific to this protein and did not react with the protein product of the 12S E1A mRNA, which shares considerable sequence with the E1Aa protein. This antiserum was used to probe for the E1Aa protein in situ by indirect immunofluorescence and in extracts of infected HeLa cells. We found that the protein was associated with large cellular structures both in the nucleus and in the cytoplasm. The nuclear form of the protein was analyzed further and was found to purify with the nuclear matrix.
Mol Cell Biol 1983 May
PMID:Localization of the adenovirus E1Aa protein, a positive-acting transcriptional factor, in infected cells infected cells. 634 57

A cDNA copy of the major human heat shock mRNA was cloned. The clone is complementary to the mRNA encoding the major 70-kilodalton heat shock protein as shown by hybrid arrest translation. We utilized the cloned DNA to measure induction of the gene during adenovirus infection. The mRNA increases in abundance approximately 100-fold during a wild-type adenovirus infection but does not increase more than 2-fold during an infection in which there is no E1A gene function [high multiplicity of infection of an E1A (-) mutant]. Furthermore, by measuring transcription in isolated nuclei, we found that the induction was transcriptional and was mediated by the E1A gene product. The induction was not maintained, however. After a peak level was obtained, transcription returned to preinfection levels. This decline was also reflected in the cytoplasmic mRNA abundance indicating a rapid turnover of the heat shock mRNA. This rapid turnover of the heat shock mRNA appears to be induced by the viral infection since the heat shock mRNA was found to be stable when synthesized in an adenovirus-transformed cell line.
Mol Cell Biol 1983 Nov
PMID:Transcriptional activation and subsequent control of the human heat shock gene during adenovirus infection. 668 97

Adenovirus produces a dramatic shut-off of host protein synthesis after infection of HeLa cells. The level of actin messenger RNAs remained relatively unchanged after viral infection, when assayed by in vitro translation and two-dimensional gel electrophoresis analysis of the proteins or hybridization of the total cytoplasmic RNAs to the human actin gene. The distribution of actin mRNA in the polyribosomes is altered after adenovirus infection, with small polyribosomes and monoribosomes of the infected cells occupied by actin messages untranslatable in a rabbit reticulocyte lysate. The large polyribosomes still retain enough functional mRNAs to provide significant levels of actin protein in a rabbit reticulocyte in vitro translation system. In contrast, in homologous infected cell lysates, the translation of exogenous actin mRNA is greatly reduced when compared to uninfected HeLa cell lysates. In nuclease-treated uninfected or infected HeLa cell-free extracts, translation of viral mRNA is equally efficient and higher than that of actin mRNA. Thus, translational regulatory mechanisms which include inactivation of a part of the actin mRNA population accompanied by displacement to small polysomes and/or virus-induced modification of the cellular translational machinery to discriminate against cellular actin mRNA seem to account for the sharp reduction in actin protein synthesis of adenovirus-infected cells.
J Mol Biol 1984 Jun 05
PMID:Shut-off of actin biosynthesis in adenovirus serotype-2-infected cells. 673 75


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