UMLS:C0276640 - FACTA Search

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Query: UMLS:C0276640 (TEM)
20,729 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Resistance of Escherichia coli strain HB251 to the newer beta-lactam antibiotics, in particular ceftazidime and aztreonam, results from production of the extended-spectrum beta-lactamase TEM-6. The corresponding structural gene, bla(T)-6, and its promoter region were amplified by the polymerase chain reaction. Analysis of the sequence of the amplification product showed that bla(T)-6 differed by two nucleotide substitutions from bla(T)-1, the gene encoding TEM-1 penicillinase in plasmid pBR322. The mutations led to the substitution of a lysine for a glutamic acid at position 102 and of a histidine for an arginine at position 162 of the unprocessed TEM-1 protein. The presence of a 116 bp DNA insert upstream from bla(T)-6 resulted in the creation of hybrid promoter P6 in which the -10 region was that of TEM-1 promoter P3 whereas the -35 canonical sequence TTGACA was provided by the right end of the insert. P6 was found to be 10 times more active than P3 and to confer higher levels of antibiotic resistance upon the host. Analysis of the sequence of the insert indicated that the 116 bp fragment is related to insertion sequence IS1 but differs from it by three internal deletions that removed regions encoding the transposase. The distribution of the IS1-like element in clinical isolates of Enterobacteriaceae was studied by the polymerase chain reaction and by DNA-DNA hybridization. The element appeared to be widespread and was detected in strains producing TEM-6 or other TEM variants.
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PMID:An IS1-like element is responsible for high-level synthesis of extended-spectrum beta-lactamase TEM-6 in Enterobacteriaceae. 166 71

Class A beta-lactamases are the major cause of bacterial resistance to beta-lactam antibiotics. In these active-site serine hydrolases, glutamic acid 166 has been hypothesized to act as a general acid-base catalyst. Replacing this residue by tyrosine in TEM-1 beta-lactamase yields an enzyme the activity of which is substantially lowered and strongly dependent on pH, thus confirming the alleged role of Glu166 in catalysis. This substitution also resulted in a spectacular change in substrate profile, the mutant enzyme being more active on cephalosporins than on penicillins. In fact, the E166Y enzyme behaves much like a class C enzyme, with high affinity and low hydrolytic activity towards second and third generation cephalosporins. Glu166 therefore seems to play a major part in defining the substrate profile of class A beta-lactamases.
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PMID:Site-directed mutagenesis on TEM-1 beta-lactamase: role of Glu166 in catalysis and substrate binding. 179 3

Infections due to strains of Klebsiella pneumoniae, Escherichia coli, and Citrobacter freundii resistant to third-generation cephalosporins have been observed recently in France and the Federal Republic of Germany. This resistance phenotype is due to the production of new plasmid-mediated, broad-substrate-range beta-lactamases designated TEM-3 to TEM-7. DNA-DNA hybridization analysis with a probe specific for TEM-1 indicated that the corresponding genes blaT-3 to blaT-7 were variants of the structural genes for TEM-type beta-lactamases. In the present studies, a 2.5-kilobase BamHI plasmid DNA fragment encoding TEM-3 was cloned in E. coli, and the entire nucleotide sequence of blaT-3 was determined. The deduced amino acid sequence of TEM-3 differed in two positions from that of the TEM-2 enzyme: lysine (TEM-3) was substituted for glutamic acid (TEM-2) at residue 104 and serine (TEM-3) for glycine (TEM-2) at residue 238 in the numbering system of Ambler. Spontaneous mutants of TEM penicillinases with increased activity against third-generation cephalosporins were obtained in vitro by selection on cefotaxime or ceftazidime. It therefore appears that mutations in TEM-type beta-lactamases contribute to resistance to new-generation cephalosporins.
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PMID:Plasmid-mediated resistance to third-generation cephalosporins caused by point mutations in TEM-type penicillinase genes. 305 79

The molecular relationships of two types of plasmid-mediated beta-lactamases, TEM-1 (R 111), TEM-2 (RP 4) and OXA-1 (RGN 238), OXA-4 (pMG 90) were analysed by combined isoelectrofocusing-electrophoresis. Titration curves of TEM-1 (pI 5.4) and TEM-2 (pI 5.6) together were consistent with the known substitution of a glutamic acid in the former by a lysin in the latter. When OXA-1 (pI 7.4) and OXA-4 (pI 7.45) were titrated, one single mobility curve was obtained reflecting their structural homogeneity. The titration curve technique will be usefull for the study of structure of beta-lactamases.
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PMID:[Titration curves of beta-lactamases using pH gradient electrophoresis]. 311 87

TEM-1 and TEM-2 beta-lactamases were shown to contain a disulphide bond. When the amino acid compositions of the two proteins were determined, the TEM-2 enzyme exhibited one more lysine residue and one less glutamine (or glutamic acid) residue than the TEM-1 enzyme. This substitution was located at the 14th N-terminal residue, as shown by structural analysis of Staphylococcus aureus protease peptides separated by high performance liquid chromatography. From these results, the Ambler and Scott sequence can be attributed to TEM-2 and the Sutcliffe sequence to TEM-1.
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PMID:[Distinction between the primary structures of TEM-1 and TEM-2 beta-lactamases]. 390 78

Microanalytical experiments have been performed to answer the question whether the main cellular cation, K+, follows the water distribution in the striated muscle cell or whether K+ follows the distribution of negative fixed charges (beta- and gamma-carboxyl groups of aspartic and glutamic acid residues). Subcellular localization of K and/or of the K surrogates Rb, Cs, and Tl has been investigated by the following methods: Chemical precipitation of K with tetraphenylborate. Autoradiography of alkali-metals and Tl in air-dried and frozen-hydrated preparations. TEM visualization of electron dense Cs and Tl in sections of freeze-dried and plastic embedded muscle. X-ray microanalysis of air-dried myofibrils and muscle cryosections. The experiments consistently show that K, Rb, Cs, and Tl do not follow the water distribution but are mainly accumulated in the A band, especially in the marginal regions, and at Z lines. The same sites preferentially accumulate Cs or uranyl cations when sections of freeze-dried, embedded muscle are exposed to these electron microscopic stains. It is concluded that the detected uneven distribution of K, Rb, Cs, and Tl in muscle is neither a freeze-drying artifact nor an embedding artifact and may result from a weak ion binding to the beta- and gamma-carboxyl groups of cellular proteins.
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PMID:Subcellular distribution of potassium in striated muscles. 648 3

Residue 104 is frequently mutated from a glutamic acid to a lysine in the extended-spectrum TEM beta-lactamases responsible for the resistance to third-generation cephalosporins in clinical Gram negative strains. Among class A beta-lactamases, it is the most variable residue within a highly conserved loop which delineates one side of the active site of the enzymes. To investigate the role of this residue in the extended-spectrum phenotype, it has been replaced by serine, threonine, lysine, arginine, tyrosine and proline. All these substitutions yield active enzymes, with no drastic changes in kinetic properties compared with the wild-type enzyme, except with cefaclor, but an overall improved affinity for second- and third-generation cephalosporins. Only mutant E104K exhibits a significant ability to hydrolyse cefotaxime. Molecular modelling shows that the substitutions have generally no impact on the conformation of the 101-111 loop as the side chains of residues at position 104 are all turned towards the solvent. Unexpectedly, the E104P mutant turns out to be the most efficient enzyme. All our results argue in favour of an indirect role for this residue 104 in the substrate specificity of the class A beta-lactamases. This residue contributes to the precise positioning of residues 130-132 which are involved in substrate binding and catalysis. Changing residue 104 could also modify slightly the local electrostatic potential in this part of the active site. The limited kinetic impact of the mutations at this position have to be analysed in the context of the microbiological problem of resistance to third-generation cephalosporins. Although mutation E104K improves the ability of the enzyme to hydrolyse these compounds, it is not sufficient to confer true resistance, and is always found in clinical isolates associated with at least one mutation at another part of the active site. It is the combined effect of the two mutations that synergistically enhances the hydrolytic capability of the enzyme towards third-generation cephalosporins.
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PMID:Multiple substitutions at position 104 of beta-lactamase TEM-1: assessing the role of this residue in substrate specificity. 782 50

TEM-26, an extended-spectrum beta-lactamase has been characterized in clinical isolates of Klebsiella pneumoniae and Escherichia coli derived from patients on the Paediatric Oncology Unit of St James's University Hospital, Leeds. The nucleotide sequence of this beta-lactamase gene (blaTEM26b) was determined, and compared with the nucleotide sequences of other TEM-type beta-lactamases. The blaTEM26b gene was found to differ from blaTEM12b by a single nucleotide. This difference causes the substitution of glutamic acid in blaTEM12b for lysine in blaTEM26b at position 102 in the predicted amino acid sequence. The blaTEM12b gene was first described in an isolate of Klebsiella oxytoca from a patient nursed on the same unit that yielded the strains that carry blaTEM26b. However, the blaTEM26b gene differs at no less than six nucleotides from the nucleotide sequence encoding the TEM-26 beta-lactamase that was first described in isolates from cancer patients nursed in the Children's Hospital, Stanford, California, USA. This indicates that the genes encoding TEM-26 have evolved from different progenitors.
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PMID:Convergent evolution of TEM-26, a beta-lactamase with extended-spectrum activity. 805 89

Beta-Lactamases are widespread in the bacterial world, where they are responsible for resistance to penicillins, cephalosporins, and related compounds, currently the most widely used antibacterial agents. Detailed structural and mechanistic understanding of these enzymes can be expected to guide the design of new antibacterial compounds resistant to their action. A number of high-resolution structures are available for class A beta-lactamases, whose catalytic mechanism involves the acylation of a serine residue at the active site. The identity of the general base which participates in the activation of this serine residue during catalysis has been the subject of controversy, both a lysine residue and a glutamic acid residue having been proposed as candidates for this role. We have used the pH dependence of chemical modification of epsilon-amino groups by 2,4,6,-trinitrobenzenesulfonate and the pH dependence of the epsilon-methylene 1H and 13C chemical shifts (in enzyme selectively labeled with [epsilon-13C]lysine) to estimate the pKa of the relevant lysine residue, lysine-73, of TEM-1 beta-lactamase. Both methods show that the pKa of this residue is > 10, making it very unlikely that this residue could act as a proton acceptor in catalysis. An alternative mechanism in which this role is performed by glutamate-166 through an intervening water molecule is described.
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PMID:The catalytic mechanism of beta-lactamases: NMR titration of an active-site lysine residue of the TEM-1 enzyme. 870 Aug 29

A natural TEM variant beta-lactamase was isolated from an epidemic strain of Serratia marcescens. Nucleotide gene sequencing revealed multiple point mutations located in the 42-to-44 tripeptide and positions 145 to 146, 178, and 238. In addition, a glutamic acid 212 deletion was also found. The purified enzyme was studied from a kinetic point of view, revealing the highest catalytic efficiency (k[cat]/Km) values for ceftazidime and aztreonam compared with the TEM-1 prototype enzyme. The in vitro resistance correlated with kinetic parameters, and the enzyme also mediated resistance to some penicillins and an ampicillin-clavulanic acid combination. The mutational and kinetic changes are discussed in relation to the three-dimensional crystallographic structure of the wild-type TEM-1 enzyme.
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PMID:Characterization of a new TEM-derived beta-lactamase produced in a Serratia marcescens strain. 937 36

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