EC:2.3.1.28 - FACTA Search

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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)

Use of beta-lactamase in gene fusions to study membrane protein topology permits exploitation of its biological activity to select for positive (external) hybrids on ampicillin agar plates. When the enzyme is attached to cytoplasmic loops of a membrane protein, it is not secreted and is therefore unable to confer ampicillin resistance. In this study, we examine the use of the cytoplasmic enzyme chloramphenicol acetyltransferase (Cat) as a complement to the use of periplasmic beta-lactamase, in gene fusion studies. This enzyme is responsible for chloramphenicol resistance in Escherichia coli. We show that Cat confers substantial antibiotic resistance when fused to cytoplasmic loops of lactose permease. As expected, periplasmically exposed Cat is enzymatically active in vitro but unable to confer significant chloramphenicol resistance, presumably because of the absence of acetylcoenzyme A in the periplasm. Therefore, Cat may serve as a topogenic sensor in gene fusion studies. The new Cat fusion approach is discussed with regard to its potential use for selecting E. coli mutants which are defective in the assembly of membrane proteins.
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PMID:Biogenesis and topology of integral membrane proteins: characterization of lactose permease-chloramphenicol acetyltransferase hybrids. 871 79

NMR spectroscopy has proved to be a valuable tool in the study of the interactions between enzymes and their substrates. The kinds of structural and dynamic information which can be obtained are illustrated by studies of three enzymes involved in drug metabolism. Cytochromes P450 play a crucial role in metabolism of a wide range of exogenous chemicals. NMR has been used to measure distances from the haem iron of the cytochrome to protons of the bound substrate, leading to detailed structural models for the enzyme-substrate complexes. The other two enzymes, chloramphenicol acetyltransferase and beta-lactamase, are responsible for bacterial resistance to specific antibiotics. In chloramphenicol acetyltransferase, NMR has been used to determine the conformation of coenzyme A bound to the enzyme, while in the case of beta-lactamase the pK of a specific lysine residue at the active site has been determined, providing valuable information on the catalytic mechanism.
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PMID:The other kind of biological NMR--studies of enzyme-substrate interactions. 889 75

Here, we report on the construction of three integrative plasmids for Bacillus subtilis (Bs) allowing in vitro construction of transcriptional fusions. These plasmids contain a neomycin- or tetracycline-resistance cassette and one of three promoterless genes: bgaB (encoding beta-galactosidase), cat (chloramphenicol acetyltransferase), or xylE (catechol 2,3-dioxygenase). All cassettes are flanked by the 3'- and 5'-ends of the amyE gene (encoding alpha-amylase) allowing integration of these cassettes at the amyE locus of the Bs chromosome. For propagation and selection in Escherichia coli, the plasmids contain the pBR322 origin of DNA replication and the beta-lactamase-encoding bla gene. Four unique restriction sites can be used for insertion of restriction fragments carrying promoter fragments. All three reporter genes express heat-stable enzymes (stable up to at least 50 degrees C for 30 min) as shown here. We would like to point to the modular nature of these plasmids where the three reporter genes and the two resistance cassettes can be combined in any permutation. The versatility of the promoter-probe vectors was demonstrated by the integration of the promoters of the dnaK and groE operons of Bs and following their heat-inducible expression.
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PMID:Integrative vectors for constructing single-copy transcriptional fusions between Bacillus subtilis promoters and various reporter genes encoding heat-stable enzymes. 898 64

A representative sample of 21 Salmonella typhi strains isolated from cultures of blood from patients at the Christian Medical College and Hospital, Vellore, India, were tested for their susceptibilities to various antimicrobial agents. Eleven of the S. typhi strains possessed resistance to chloramphenicol (256 mg/liter), trimethoprim (64 mg/liter), and amoxicillin (>128 mg/liter), while four of the isolates were resistant to each of these agents except for amoxicillin. Six of the isolates were completely sensitive to all of the antimicrobial agents tested. All the S. typhi isolates were susceptible to cephalosporin agents, gentamicin, amoxicillin plus clavulanic acid, and imipenem. The antibiotic resistance determinants in each S. typhi isolate were encoded by one of four plasmid types. Plasmid-mediated antibiotic resistance genes were identified with specific probes in hybridization experiments; the genes responsible for chloramphenicol, trimethoprim, and ampicillin resistance were chloramphenicol acetyltransferase type I, dihydrofolate reductase type VII, and TEM-1 beta-lactamase, respectively. Pulsed-field gel electrophoresis analysis of XbaI-generated genomic restriction fragments identified a single distinct profile (18 DNA fragments) for all of the resistant isolates. In comparison, six profiles, different from each other and from the resistance profile, were recognized among the sensitive isolates. It appears that a single strain containing a plasmid conferring multidrug-resistance has emerged within the S. typhi bacterial population in Vellore and has been able to adapt to and survive the challenge of antibiotics as they are introduced into clinical medicine.
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PMID:Molecular analysis of and identification of antibiotic resistance genes in clinical isolates of Salmonella typhi from India. 962 Mar 83

The two groups of chromosomal beta-lactamases from Klebsiella oxytoca (OXY-1 and OXY-2) can be overproduced 73- to 223-fold, due to point mutations in the consensus sequences of their promoters. The different versions of promoters from blaOXY-1 and blaOXY-2 were cloned upstream of the chloramphenicol acetyltransferase (CAT) gene of pKK232-8, and their relative strengths were determined in Escherichia coli and in K. oxytoca. The three different mutations in the OXY beta-lactamase promoters resulted in a 4- to 31-fold increase in CAT activity compared to that of the wild-type promoter. The G-->T transversion in the first base of the -10 consensus sequence caused a greater increase in the promoter strength of the wild-type promoter than the two other principal mutations (a G-to-A transition of the fifth base of the -10 consensus sequence and a T-to-A transversion of the fourth base of the -35 sequence). The strength of the promoter carrying a double mutation (transition in the Pribnow box and the transversion in the -35 hexamer) was increased 15- to 61-fold in comparison to that of the wild-type promoter. A change from 17 to 16 bp between the -35 and -10 consensus sequences resulted in a ninefold decrease of the promoter strength. The expression of the blaOXY promoter in E. coli differs from that in K. oxytoca, particularly for promoters carrying strong mutations. Furthermore, the blaOXY promoter appears not to be controlled by DNA supercoiling or an upstream curved DNA, but it is dependent on the gene copy number.
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PMID:Strength and regulation of the different promoters for chromosomal beta-lactamases of Klebsiella oxytoca. 1010 90

The location and environment of the acquired blaIMP gene, which encodes the IMP-1 metallo-beta-lactamase, were investigated in a Japanese Pseudomonas aeruginosa clinical isolate (isolate 101/1477) that produced the enzyme. In this isolate, blaIMP was carried on a 36-kb plasmid, and similar to the identical alleles found in Serratia marcescens and Klebsiella pneumoniae clinical isolates, it was located on a mobile gene cassette inserted into an integron. The entire structure of this integron, named In31, was determined. In31 is a class 1 element belonging to the same group of defective transposon derivatives that originated from Tn402-like ancestors such as In0, In2, and In5. The general structure of In31 appeared to be most closely related to that of In5 from pSCH884, suggesting a recent common phylogeny for these two elements. In In31, the blaIMP cassette is the first of an array of five gene cassettes that also includes an aacA4 cassette and three original cassettes that have never been described in other integrons. The novel cassettes carry, respectively, (i) a new chloramphenicol acetyltransferase-encoding allele of the catB family, (ii) a qac allele encoding a new member of the small multidrug resistance family of proteins, and (iii) an open reading frame encoding a protein of unknown function. All the resistance genes carried on cassettes inserted in In31 were found to be functional in decreasing the in vitro susceptibilities of host strains to the corresponding antimicrobial agents.
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PMID:Structure of In31, a blaIMP-containing Pseudomonas aeruginosa integron phyletically related to In5, which carries an unusual array of gene cassettes. 1010 96

Eighty-six strains of Shigella spp. were isolated during the dry season from stool samples of children under 5 years of age in Ifakara, Tanzania. The epidemiological relationship as well as the antimicrobial susceptibility and mechanisms of resistance to ampicillin, chloramphenicol, and co-trimoxazole were investigated. Four different epidemiological tools, pulsed-field gel electrophoresis (PFGE), repetitive extragenic palindromic (REP)-PCR, plasmid analysis, and antibiogram, were compared for typing Shigella strains. Seventy-eight (90%) strains were Shigella flexneri and were distributed into four groups, by either PFGE or REP-PCR, with 51, 17, 7, and 3 strains. The four strains of Shigella dysenteriae belonged to the same group, and the four strains of Shigella sonnei were distributed in two groups with three and one strain each. Plasmid analysis showed a high level of heterogeneity among strains belonging to the same PFGE group, while the antibiogram was less discriminative. REP-PCR provided an alternative, rapid, powerful genotyping method for Shigella spp. Overall, antimicrobial susceptibility testing showed a high level of resistance to ampicillin (81.8%), chloramphenicol (72.7%), tetracycline (96.9%), and co-trimoxazole (87.9%). Ampicillin resistance was related to an integron-borne OXA-1-type beta-lactamase in 85.1% of the cases and to a TEM-1-type beta-lactamase in the remaining 14.8%. Resistance to co-trimoxazole was due to the presence of a dhfr Ia gene in all groups except one of S. flexneri, where a dhfr VII gene was found within an integron. Chloramphenicol resistance was associated in every case with positive chloramphenicol acetyltransferase activity. All strains were susceptible to nalidixic acid, ciprofloxacin, ceftazidime, cefotaxime, and cefoxitin. Therefore, these antimicrobial agents may be good alternatives for the treatment of diarrhea caused by Shigella in Tanzania.
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PMID:Typing and characterization of mechanisms of resistance of Shigella spp. isolated from feces of children under 5 years of age from Ifakara, Tanzania. 1048 63

Thirty-nine strains of Salmonella typhi, isolated in 1995 from four Districts in Pakistan, Rawalpindi, Islamabad, Kharian and Jehlem, were catalogued and examined. Chromosomal DNA from each isolate was digested with XbaI restriction endonuclease and subjected to pulsed-field gel electrophoresis. Three clonal variants comprising of 17-19 DNA fragments were identified. Antibiotic susceptibility testing identified that 37 of the S. typhi were resistant to chloramphenicol, trimethoprim and ampicillin. These antibiotic resistance genes were found to be located on one of four plasmids belonging to incompatibility group IncHI1 and ranging in size from 150-175 Kb. The genes responsible for this resistance in each case were the chloramphenicol acetyltransferase (CAT) type I, the dihydrofolate reductase (DHFR) type VII and the beta-lactamase TEM-1 respectively.
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PMID:Characterization of multi-drug resistant Salmonella typhi isolated from Pakistan. 1072 24

Escherichia coli usually produces only very small amounts of a constitutive AmpC beta-lactamase, but clinical strains overproducing this enzyme have been isolated. Three different ampC promoters of E. coli clinical strains were cloned upstream of the chloramphenicol acetyltransferase (CAT) gene in the pKK232-8 reporter plasmid and their relative strengths were compared by two different methods. The strength of the promoters from AmpC hyperproducers was 70- to 120-fold higher than those from a low-level AmpC producer. One of the strong promoters, which differs from strain K12 at bases -88, -82, -42, -18, -1 and +58, was mutated to abolish the -42 mutation. This change resulted in a 43-fold decrease in CAT concentration. In another promoter, with eight different mutations at positions -88, -82, -32, -18, -1, +5, +24 and +58, the -32T-->A transversion, which created perfect homology with the -35 consensus sequence, was reverted; this led to a 13-fold decrease in CAT concentration. The -42 and -32 mutations play an important role in E. coli resistance to beta-lactams by increasing ampC transcription.
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PMID:Analysis of the effects of -42 and -32 ampC promoter mutations in clinical isolates of Escherichia coli hyperproducing ampC. 1083 30

The role of two chaperone proteins, DnaK and the cooperating factor DnaJ, in Escherichia coli antibiotic susceptibility to three antibiotics (a beta-lactam, chloramphenicol, tetracycline) has been studied. It was found that null dnaJ and dnaKdnaJ mutants are impaired in the functions leading to antibiotic susceptibility. The secretion of beta-lactamase to the periplasmic space is diminished in both mutants, and the additive effect of the two mutations was observed. The activity of chloramphenicol acetyltransferase is also impaired in an additive manner in both mutant strains. Tetracycline uptake is changed only in the double deletion mutant. These defects were observed only during incubation at high temperature (42 degrees C). Efficient complementation of some of these defects by the wild-type alleles introduced on low-copy number plasmid was achieved. Minimal inhibitory concentrations and the titer of the wild-type strains, delta dnaJ and delta dnaKdnaJ mutants treated with ampicillin, chloramphenicol, and tetracycline were also determined. Higher susceptibility of both mutants to chloramphenicol and tetracycline, as compared to their wild-type parent, was observed only after 1 h preincubation of cultures at 42 degrees C. On the contrary, both mutants were less susceptible to ampicillin than their parent strain.
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PMID:Antibiotic susceptibility of Escherichia coli dnaK and dnaJ mutants. 1099 Feb 66

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