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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)
Viruses that establish persistent infections may show selective and unique effects on the host's transcriptional machinery.
Lymphocytic choriomeningitis
virus (LCMV), a noncytolytic virus, can persistently infect a rat pituitary cell line. Although the infected cells remain free of structural damage, virus markedly interferes with growth hormone (GH) but only minimally interferes with prolactin transcription. The study of GH promoter-
chloramphenicol acetyltransferase
-transfected cells and GH promoter deletion mutants demonstrates that the viral effect is at the level of GH promoter and is due to interference with GH transactivator factor GHF1 (Pit1). Treatment of LCMV-infected cells with the antiviral agent ribavirin cures the infection and restores normal GH mRNA levels. These results illustrate a molecular mechanism by which a virus infection can disrupt synthesis of a cell's differentiated product without perturbing vital cellular functions.
...
PMID:Selective disruption of growth hormone transcription machinery by viral infection. 140 23
Ribozymes catalytically cleave substrate RNA molecules in a sequence-specific manner. Engineered ribozymes can be developed and introduced into tissue culture cells to regulate gene expression and to inhibit viral replication. We have previously reported on the construction of cell lines that constitutively express a single antiviral ribozyme embedded in a lengthy RNA transcript. These cells exhibited a marked reduction in their ability to support viral infection. Here we report the construction of RNA molecules that contain one or two antiviral ribozymes, each specific for a different cleavage site on the genome of the target virus,
lymphocytic choriomeningitis
virus (LCMV), and each contained in a self-cleavage cassette comprising cis-acting ribozymes designed to release the antiviral molecules from the transcript. In vitro studies showed that both antiviral ribozymes were released properly from the RNAs following cleavage by the flanking ribozymes and that these released ribozymes functioned as expected in cleaving the target virus RNA. These self-cleaving cassettes have been clones into a retroviral vector downstream of, but in the same transcript as, the
chloramphenicol acetyltransferase
(
CAT
) gene. Thus, we hoped to employ
CAT
as a surrogate marker of ribozyme transcription. Stably transformed cell lines were established. Cleavage by the cis-acting ribozymes was incomplete, as assessed by Northern blot analysis and by the ability of transformed cells to produce infectious retroviral particles. Nevertheless, the antiviral ribozyme sequences exerted effects in tissue culture. LCMV RNA levels in ribozyme-expressing cells were suppressed, and infectious virus yields were decreased by up to 95% compared with normal cells and with cells expressing inverted ribozymes. The antiviral effects correlated with
CAT
levels, but there was no significant difference between cell lines expressing a single ribozymes and those expressing two.
...
PMID:Antiviral activity of RNA molecules containing self-releasing ribozymes targeted to lymphocytic choriomeningitis virus. 878 76
The genome of
lymphocytic choriomeningitis
virus (LCMV) consists of two negative-sense single-stranded RNA segments, designated L and S. Both segments contain two viral genes in an ambisense coding strategy, with the genes being separated by an intergenic region (IGR). We have developed a reverse genetic system that allows the investigation of cis-acting signals and trans-acting factors involved in transcription and replication of LCMV. To this end, we constructed an LCMV S minigenome consisting of a negative-sense copy of the
chloramphenicol acetyltransferase
(
CAT
) reporter gene flanked upstream by the S 5' untranslated region (UTR) and IGR and downstream by the S 3' UTR.
CAT
expression was detected in LCMV-infected cells transfected with the minigenome RNA. Intracellular coexpression of the LCMV minigenome and LCMV L and NP proteins supplied from cotransfected plasmids driven by the T7 RNA polymerase provided by the recombinant vaccinia virus vTF7-3 resulted in high levels of
CAT
activity and synthesis of subgenomic
CAT
mRNA and antiminigenome RNA species. Thus, L and NP represent the minimal viral trans-acting factors required for efficient RNA synthesis mediated by LCMV polymerase.
...
PMID:NP and L proteins of lymphocytic choriomeningitis virus (LCMV) are sufficient for efficient transcription and replication of LCMV genomic RNA analogs. 1072 20
The genome of the prototypic arenavirus
lymphocytic choriomeningitis
virus (LCMV) consists of two negative-sense, single-strand RNA segments designated L and S. Arenavirus genomes exhibit high sequence conservation at their 3' ends. All arenavirus genomes examined to date have a conserved terminal sequence element (3'-terminal 20 nucleotides [nt]) thought to be a highly conserved viral promoter. Terminal complementarity between the 5' and 3' ends of the L and S RNAs predicts the formation of a thermodynamically stable panhandle structure that could contribute to the control of RNA synthesis. We investigated these issues by using a transcription- and replication-competent minireplicon system. A series of overlapping deletions spanning the 3'-terminal 20-nt region of an LCMV minigenome (MG) was generated, and the mutant MGs were analyzed for their activity as templates for RNA synthesis by the LCMV polymerase. The minimal LCMV genomic promoter was found to be contained within the 3'-terminal 19 nt. Substitution of C for G at the last 3'-end nucleotide position in the MG resulted in nondetection of RNA transcription or replication, whereas the addition of a C at the 3' end did not have any significant affect on RNA synthesis mediated by the LCMV polymerase. All other mutations introduced within the 3'-terminal 19 nt of the MG resulted in undetectable levels of promoter activity. Deletions and nucleotide substitutions within the MG 5' end that disrupted terminal complementarity abolished
chloramphenicol acetyltransferase
expression and RNA synthesis mediated by the LCMV polymerase. These findings indicate that both sequence specificity within the 3'-terminal 19 nt and the integrity of the predicted panhandle structure appear to be required for efficient RNA synthesis mediated by the LCMV polymerase.
...
PMID:Characterization of the genomic promoter of the prototypic arenavirus lymphocytic choriomeningitis virus. 1250 35
Each genome segment of the prototypic arenavirus
lymphocytic choriomeningitis
virus (LCMV), encodes two genes in ambisense orientation, separated by an intergenic region (IGR). The 3' ends of subgenomic viral mRNAs have been mapped to a stem-loop structure within the IGR, suggesting structure-dependent transcription termination. We have studied the role of the LCMV IGR by using a minigenome (MG) rescue system based on RNA analogues of the short genome segment. An ambisense MG coding for
chloramphenicol acetyltransferase
(
CAT
) and green fluorescent protein reporter genes instead of the nucleoprotein and glycoprotein open reading frames, respectively, served as a template for synthesis of full-length anti-MG (aMG) replicate and subgenomic size mRNA for reporter gene expression. An analogous MG without IGR was amplified by the virus polymerase with equal efficiency, but subgenomic mRNA was undetectable. Reporter gene expression from IGR-deficient aMG
CAT
-sense RNA of genomic length was approximately 5-fold less efficient than that from subgenomic
CAT
mRNA derived from an IGR-containing MG, but at least 100-fold more efficient than that from a T7 RNA polymerase transcript with the same sequence. Therefore, in the absence of IGR-mediated transcription termination, a fraction of full-length aMG RNA appears to behave as bona fide mRNA. Unexpectedly, MGs without IGR were dramatically impaired in their ability to passage reporter gene activity via infectious virus-like particles. These data suggest that the LCMV IGR serves individual functions in transcription termination for enhanced gene expression and in the virus assembly and/or budding, which are required for the efficient propagation of LCMV infectivity.
...
PMID:Dual role of the lymphocytic choriomeningitis virus intergenic region in transcription termination and virus propagation. 1576 53
