Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.3.1.28 (chloramphenicol acetyltransferase)
 5,100 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Influenza A and B viruses have not been shown to form reassortants. It had been assumed that the lack of genotypic mixing between influenza virus types reflected differences in polymerase and packaging specificity. In this study, we show that an influenza A virus polymerase transcribes and replicates a chloramphenicol acetyltransferase (CAT) gene flanked by the nontranslated sequences of an influenza B virus gene. Although the transcription level of this CAT gene was several times lower than that of a CAT gene flanked by the homologous nontranslated sequences of an influenza A virus, we proceeded to construct a chimeric type A/B influenza virus. Using recombinant DNA techniques, a chimeric neuraminidase gene was introduced into the genome of influenza A/WSN/33 virus. The hybrid influenza A/B virus gene contained the coding region of the A/WSN neuraminidase and the 3' and 5' nontranslated sequences of the nonstructural gene of influenza B/Lee virus. The resulting chimeric virus formed plaques in Madin-Darby bovine kidney cells but replicated more slowly and achieved lower titers than wild-type influenza A/WSN/33 virus. The chimeric virus was attenuated for mice as indicated by a 400-fold increase in its LD50. Interestingly, the virus was greatly restricted in replication in the upper respiratory tract and partially restricted in the lungs. Animals infected with the transfectant virus were highly resistant to influenza virus challenge. It appears that this chimeric virus has many of the properties desirable for a live attenuated virus vaccine.
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PMID:An influenza A virus containing influenza B virus 5' and 3' noncoding regions on the neuraminidase gene is attenuated in mice. 205 99

cDNAs for genome RNAs of influenza virus A/PR/8/34 were cloned, and portions containing the ATG for initiation codon of translation were inserted into the 5' leader sequence of the chloramphenicol acetyltransferase (CAT) gene in a pSV2cat vector. When transfected cells were super-infected with influenza virus, the CAT activity was found to vary in a time-dependent fashion: A construct containing a cDNA segment for the nonstructural (NS) protein directed the highest activity during the early stage of infection, while a construct containing a cDNA segment for the neuraminidase (NA) directed the highest activity during the late stage of infection. This time-dependent variation in the CAT activity is in good agreement with that of the synthesis rate of respective viral proteins in infected cells. We propose that the translational efficiency of viral mRNA is subjected to temporal control following viral infection, although viral protein synthesis itself is regulated primarily at the level of mRNA synthesis.
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PMID:Translational regulation of influenza virus mRNAs. 285 14

In this report we describe the rescue of a transfectant influenza A virus which stably expresses a heterologous protein, bacterial chloramphenicol acetyltransferase (CAT). The foreign sequences encoding CAT are expressed as part of an essential influenza virus segment, that coding for the neuraminidase (NA) protein. The novel way by which this was achieved involved inserting in frame the 16-amino-acid self-cleaving 2A protease of foot-and-mouth disease virus between the CAT and the NA coding sequences. The resultant gene produces a polyprotein which is proteolytically cleaved to release both CAT and NA. The intramolecular cleavage occurs at the C terminus of the 2A sequence between a glycine-proline dipeptide motif such that the released NA protein has an additional N-terminal proline residue. The transfectant virus is stable upon passage in tissue culture. CAT activity is expressed at high levels in cell culture supernatants and in the allantoic fluid of infected eggs. Since the chimeric segment must maintain the heterologous reading frame to retain viability, the virus stability is dependent upon concomitant synthesis of the heterologous protein. This design may be particularly appropriate for utilization of influenza virus as a mammalian expression vector.
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PMID:Expression of a foreign protein by influenza A virus. 820 22

It has previously been demonstrated in this laboratory that an influenza virus-like chloramphenicol acetyltransferase (CAT) RNA could be expressed in COS-1 cells that synthesized all ten influenza A virus-encoded proteins from recombinant plasmids. It was also shown that supernatant fluids harvested from these cultures contained virus-like particles (VLPs) that could deliver an enclosed CAT RNA to MDCK cells. Here, it is shown that the levels of expression of the reporter gene in the COS-1 and/or MDCK cells can be altered drastically by modifying the concentrations of the recombinant plasmids transfected in the COS-1 cells. Thus, it was observed that overexpression of NS2 reduced CAT expression in COS-1 cells, whereas overexpression of M2 and NS1 proteins dramatically decreased transmission of the CAT RNA to the MDCK cultures. These results are discussed with reference to the roles of these proteins during virus replication. From these experiments, a ratio of transfected plasmids was found that increased the efficiency of the previously described system by 50-100-fold. Under these optimized conditions, it was demonstrated that VLPs can be formed in the absence of neuraminidase expression and that these VLPs remained aggregated to each other and to cell membranes. Moreover, it is shown that CAT RNA transmission was dependent on specific interactions of the ribonucleoprotein complex with other viral structural polypeptides. These data demonstrate the usefulness of this encapsidation-packaging system for the study of different aspects of the influenza virus life-cycle.
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PMID:Efficient formation of influenza virus-like particles: dependence on the expression levels of viral proteins. 1042 31