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)

The region controlling translation of the cat gene, which codes for chloramphenicol acetyltransferase, has been varied structurally in a series of plasmids that place the gene under control of the lac promoter. These plasmid constructs have enabled study of the structural features that affect the efficiency of mRNA translation. Altering the potential for secondary structure formation within the translation control region caused a tenfold variation in the synthesis of CAT enzyme, whereas varying the distance between the Shine-Dalgarno sequence (SD) and the translation start codon from 7 to 13 bases did not significantly affect the yield of CAT. If the SD was situated in a region of mRNA that is capable of base pairing, the efficiency of translation was decreased; however, the translation start codon, AUG, can initiate translation efficiently even when located in a segment capable of duplex formation. Overlapping of the cat translation control region by translation initiated upstream markedly affected initiation of translation within the cat gene: out-to-frame overlapping translation reduced CAT production by 90%; in-frame overlapping translation prevented detectable initiation of protein synthesis at the cat gene translation start codon, and yielded only fusion proteins. The enzymatic activity of such proteins was influenced by the length of the adventitious peptide segment added to the amino-terminus of the CAT polypeptide.
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PMID:Effects of alterations in the translation control region on bacterial gene expression: use of cat gene constructs transcribed from the lac promoter as a model system. 637 84

Chloramphenicol resistance-specifying plasmids from incompatibility groups P-1 and C did not encode chloramphenicol acetyltransferase (CAT). Expression of resistance was inducible by subinhibitory concentrations of the drug. The mechanism of resistance was thought to be a cytoplasmic membrane-located barrier to the permeability of the drug into the cell. No evidence for the inactivation of the drug was obtained. In vitro polypeptide synthesis directed by ribosomes isolated from resistant and sensitive cells was equally sensitive to inhibition by chloramphenicol suggesting that a ribosomal mechanism was not involved. Spheroplasts expressed the same level of resistance as whole cells. Strains specifying intracellular CAT did not degrade chloramphenicol in the culture medium if they also carried a chloramphenicol resistance plasmid not specifying CAT.
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PMID:Chloramphenicol resistance that does not involve chloramphenicol acetyltransferase encoded by plasmids from gram-negative bacteria. 703 31

A trimeric enzyme chloramphenicol acetyltransferase (CATI) has been synthesized in the Zubay system genetically depleted from DnaK and DnaJ. Most of CAT formed in the system fail to assemble into an active trimer. Instead CAT is accumulated in either a GroEL-bound complex or as an inactive monomer. Addition of purified DnaK and DnaJ to the system prior to the start of protein synthesis leads to the increase of the specific activity of formed CAT. A portion of exogenous DnaK and DnaJ added to the system associate with nascent polypeptide chains in the ribosomes. DnaK also comigrates with 50S-ribosomal subunits.
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PMID:Synthesis of chloramphenicol acetyltransferase in a coupled transcription-translation in vitro system lacking the chaperones DnaK and DnaJ. 749 1

Aeromonas hydrophila is an important pathogen of fish, and its high-virulence strains display a two-dimensional paracrystalline layer (S-layer) on their outermost surfaces. The nucleotide sequence of a 4.1-kb region located 700 bp upstream of the A. hydrophila TF7 S-layer protein gene (ahsA) has been determined. A sequence analysis of the region revealed the presence of three complete open reading frames ending in a gene encoding a 79.8-kDa polypeptide that shows high homology to the PulD family of secretion proteins. The sequenced region displays both organizational and sequence homology to the Xanthomonas campestris pv. campestris Xps secretory system. Insertional inactivation of the spsD (S-protein secretion D) gene showed that the loss of expression of the PulD homolog coincided with the localization of the S-protein in the periplasm and the loss of the S-layer from the surface of the bacterium. However, the secretion of the enzymes hemolysin, amylase, and protease was unaffected in the mutant with the nonfunctional spsD gene, as was the export of flagella and fimbrial proteins. Southern blot analysis showed that the spsD gene was not conserved among all strains of S-protein-producing A. hydrophila or Aeromonas veronii biotype sobria. Use of the promoterless chloramphenicol acetyltransferase gene showed that unlike pulD and its homologs, spsD contains its own promoter. A. hydrophila has been shown to contain the exe operon, which is responsible for the secretion of a number of extracellular enzymes in this bacterium. A fragment of DNA was generated from the exeD gene of A. hydrophilia Ah65 by PCR and was subsequently used in hybridization studies to probe the chromosome of A. hydrophila TF7. The presence of an exeD homolog in A. hydrophila TF7 was found; therefore, the spsD gene encodes a second pulD homolog that displays a high specificity for the secretion of the S-protein. This gene appears to be part of a second terminal branch of the general secretory pathway in A. hydrophila.
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PMID:A specific PulD homolog is required for the secretion of paracrystalline surface array subunits in Aeromonas hydrophila. 760 63

The deletion of nine residues from the C-terminus of the bacterial chloramphenicol acetyltransferase (CAT) results in deposition of the mutant protein in cytoplasmic inclusion bodies and loss of chloramphenicol resistance in Escherichia coli. This folding defect is relieved by C-terminal fusion of the polypeptide with as few as two residues. Based on these observations, efficient positive selection for the cloning of DNA fragments has been demonstrated. The cloning vector encodes a C-terminally truncated CAT protein. Restriction sites in front of the stop codon allow the insertion of target DNA, resulting in the production of properly folded CAT fusion proteins and regained chloramphenicol resistance. The positive selection of recombinants is accomplished by growth of transformants on chloramphenicol-containing agar plates. The method appears particularly convenient for the cloning of DNA fragments amplified by the PCR because minimal information to restore CAT folding can be included in the primers. The cloning of random sequences shows that the folding defect can be relieved by fusion to a wide variety of peptides, providing great flexibility to the positive selection system. This vector may also contribute to the determination of the role of the C-terminus in CAT folding.
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PMID:Insertional re-activation of a chloramphenicol acetyltransferase misfolding mutant protein. 763 Aug 87

When rabbit alveolar macrophages were treated with phorbol-12-myristate-13-acetate (PMA) and lipopolysaccharide (LPS), the synthesis of interleukin-1 (IL-1), as well as tumor necrosis factor (TNF), was greatly increased. These inducible cytokines were subjected to cloning by the differential colony hybridization method and the subsequent mRNA hybridization-translation assay. Cloned rabbit IL-1 cDNA was disclosed to encode the sequence of the counterpart of the mouse IL-1 alpha. This cDNA was used as a hybridization probe to screen a human cDNA library which was constructed from induced HL-60 cells, a human promyelocytic leukemia cell line. Isolated human IL-1 alpha cDNA was shown to direct the synthesis of a polypeptide with IL-1 activity in E. coli expression system. The chromosomal gene for human IL-1 alpha was isolated and characterized to elucidate the structural organization of this gene. To identify the region that is essential for regulating IL-1 alpha gene expression, various CAT (chloramphenicol acetyltransferase) fusion plasmids were constructed and analysed for their ability to direct CAT synthesis in a transient expression system. The unpublished results obtained in the early stages of these experiments are also presented and discussed in this review.
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PMID:Molecular studies on interleukin-1 alpha. 772 86

Series of recombinant plasmids for expression of the synthetic gene somatostatin-14 (SST) as a fusion protein were obtained. The somatostatin gene was fused to chloramphenicol acetyltransferase (cat) or its deleted variant genes. Both parts of the resultant fusion protein were joined through a Met residue. The hybrid gene was expressed under the control of the cat gene promoter (Pcat), the tryptophan operon promoter (Ptrp) or the promoter of bacteriophage T5 (PT5). These fusions gave insoluble polypeptide products amounting from 5-10% of the total cellular protein under constitutive biosynthetic conditions (Pcat) to 5-30% upon induction (Ptrp, PT5). A correlation between the efficiency of expression and the length of cat, the power of the promoter used and the absence or presence of transcription terminators, was studied. The scheme for SST isolation from bacterial cells was developed. SST was liberated from the fused polypeptide by treatment with cyanogen bromide and purified to homogenity by a combination of chromatographic steps: gel filtration, ion-exchange and rpHPLC. The renaturated recombinant SST showed specific biological and immunological activities and had 98% purity. The yield was 1 mg of the purified cyclic SST/1 culture of E.coli.
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PMID:[Genetic engineering in the bacterial synthesis of somatostatin]. 774 53

We developed a novel method for analysis of hepatitis C viral proteinase activity in cultured cells, in which the proteinase activity was measured as the enhancement of reporter gene expression. In this system, plasmids encoding a reporter gene, the enzyme gene, and the substrate gene were simultaneously transfected into COS-1 cells. The reporter plasmid contains chloramphenicol acetyltransferase (CAT) gene downstream of an enhancer/promoter sequence derived from the human T-cell leukemia virus type-1 (HTLV-I) long-terminal repeat (LTR). The substrate expression plasmid was a triple chimera; HCV nonstructural protein 2 (NS2) and the Tax1 protein of HTLV-I sandwiched the substrate polypeptide, which was inserted upstream of Tax1. This method assumes that since the HCV NS2 appears to be located in the lipid bilayer of endoplasmic reticulum (ER) membranes, the Tax1 of the chimeric substrate was trapped on the surface of the ER in the absence of HCV proteinase activity. After release from the chimera by HCV proteinase-dependent cleavage, Tax1 could transactivate the expression of the CAT gene through the enhancer sequence of HTLV-I LTR. This system should enable us to simply and safely screen the potential antiviral activity of proteinase inhibitors in vivo, although this system may be limited to proteinase inhibitors that are permeable to the plasma membrane.
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PMID:A novel method for analysis of viral proteinase activity encoded by hepatitis C virus in cultured cells. 777 61

The X gene of human hepatitis B virus encodes the polypeptide HBx which transactivates viral and host genes through a variety of cis-acting enhancer elements present in RNA polymerases I, II and III promoters. To better understand the mechanism of X transactivation, we cloned cDNAs of proteins that bind HBx. Here we demonstrate that one of these cDNAs is a full-length cDNA of human RPB5, a subunit shared by RNA polymerases. The HBx transactivation domain and the central region of human RPB5 were necessary for the specific binding of the two proteins as shown by: (i) in vitro assays using deletion mutants of fusion proteins; (ii) in vivo assays which detect associated proteins by co-immunoprecipitation of the non-fused proteins from transfected HepG2 cells. Over-expressed HBx seemed to associate with assembled forms of endogenous human RPB5 in HBx-transfected cells, since the endogenous RPB5 co-immunoprecipitated with HBx. The HBx binding region of human RPB5 by itself stimulated chloramphenicol acetyltransferase activities from several different reporters having X-responsive element(s). Our results support the idea that the interaction of HBx and human RPB5 can facilitate HBx transactivation and that human RPB5 has a domain which can communicate with transcriptional regulators.
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PMID:Human RPB5, a subunit shared by eukaryotic nuclear RNA polymerases, binds human hepatitis B virus X protein and may play a role in X transactivation. 782 86

In the late stages of an entomopoxvirus infection, virions become embedded within a crystalline occlusion body or spheroid. Spheroids are composed primarily of a single polypeptide, spheroidin. We describe the construction of a genetically modified Amsacta moorei entomopoxvirus (AmEPV) in which the spheroidin gene coding sequences are deleted and replaced with those of a heterologous reporter gene encoding chloramphenicol acetyltransferase (CAT). A transfer vector, pAmCP1, was prepared containing a unique BamHI site in lieu of the spheroidin gene coding region, together with 1 kbp of upstream and downstream DNA sequence that flanks the spheroidin gene. The flanking sequences provide the transcriptional control signals and also guide homologous recombination so that the spheroidin gene coding region can be replaced with that of the foreign gene. The transfer vector was designed so that the translational start codon of the introduced foreign gene would be utilized. A recombinant virus, AmEPV.CAT, was produced by transfecting AmEPV-infected cells with the transfer vector encoding the CAT gene. The recombinant virus was isolated from wild-type virus by identifying plaques with a spheroidin-negative phenotype. Light microscopy and SDS-PAGE analysis demonstrated that no spheroids or spheroidin protein were produced in the recombinant virus-infected cells. The recombinant virus was able to replicate to high titres (10(7) p.f.u./ml) in insect cells indicating that the spheroidin gene is non-essential for AmEPV replication in vitro. Moderate levels of CAT were synthesized in recombinant virus-infected cells and temporal analyses indicated that CAT synthesis followed the pattern of spheroidin production suggesting that the spheroidin gene promoter was functioning under normal regulatory control in the genetically modified virus.
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PMID:Genetic modification of an entomopoxvirus: deletion of the spheroidin gene does not affect virus replication in vitro. 784 25


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