J. A. Williams scite author profile

J. A. Williams

4Publications

45Citation Statements Received

52Citation Statements Given

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Dumfries and Galloway Royal Infirmary, University of Pretoria, South African Medical Research Council

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Resistance plasmids in Pseudomonas cepacia 4G9

Williams¹,

Yeggy²,

Field³

et al. 1979

J Bacteriol

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Pseudomonas cepacia 4G9 utilizes 2-tridecanone as its sole carbon source and has been shown to be resistant to a variety of antibiotics. To ascertain whether any of these characteristics were plasmid mediated, Escherichia coli HB101 was transformed with plasmid DNA isolated from Pseudomonas cepacia 4G9. No 2-tridecanone-utilizing transformants were obtained. Tetracycline (Tc)- and ampicillin (Ap)- resistant transformants were obtained at a low frequency. Plasmid deoxyribonucleic acid from antibiotic-resistant E. coli HB101 transformants had molecular weights of 2.9 x 10(6) for pJW2 Tcr and 5.4 x 10(6) for pJW3 Apr as determined by electron microscopy. Electron microscopy of plasmid deoxyribonucleic acid from P. cepacia 4G9 revealed a single plasmid species, pJW1 of 1.78 x 10(6). Tetracycline resistance in both P. cepacia 4G9 and E. coli HB101(pJW2) was inducible, whereas ampicillin resistance in P. cepacia 4G9 was constitutive. The level of ampicillin resistance coded by pJW3 was lower in P. cepacia 4G9 than in the transformant E. coli HB101(pJW3).

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Expression and regulation of the penicillin G acylase gene from Proteus rettgeri cloned in Escherichia coli

Daumy¹,

Williams²,

McColl³

et al. 1986

J Bacteriol

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The penicillin G acylase genes from the Proteus rettgeri wild type and from a hyperproducing mutant which is resistant to succinate repression were cloned in Escherichia coli K-12. Expression of both wild-type and mutant P. rettgeri acylase genes in E. coli K-12 was independent of orientation in the cloning vehicle and apparently resulted from recognition in E. coli of the P. rettgeri promoter sequences. The P. rettgeri acylase was secreted into the E. coli periplasmic space and was composed of subunits electrophoretically identical to those made in P. rettgeri. Expression of these genes in E. coli K-12 was not repressed by succinate as it is in P. rettgeri. Instead, expression of the enzymes was regulated by glucose catabolite repression.

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Role of nucleases in the isolation of plasmid deoxyribonucleic acid from Pseudomonas cepacia 4G9

Williams¹,

Yeggy²,

Markovetz³

1980

J Bacteriol

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Brij 58-cleared lysates of Pseudomonas cepacia 4G9 contain both exonucleolytic and endonucleolytic activities. Endonuclease activity was unaffected by 125 mM ethylenediaminetetraacetic acid, whereas the exonuclease activity was inhibited. In contrast, Sarkosyl NL97 inhibited only the endonuclease. Sodium dodecyl sulfate inhibited all nuclease activity in in vitro assays, but plasmid deoxyribonucleic acid added to P. cepacia 4G9 spheroplasts during sodium dodecyl sulfate lysis was degraded. Irreproducible plasmid isolation from P. cepacia 4G9 may be due to this nucleolytic activity.

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Mobilization of Morganocin 174 Plasmid and Kinetics of Morganocin Production in Proteus and Escherichia coli Hosts

Williams

1977

Antimicrob Agents Chemother

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Morganocin 174 is coded by a plasmid, Mor174. The plasmid is not self-transmissible but may be mobilized by resistance factor R772. Morganocin synthesis in all Proteus and Providencia strains carrying Mor174 was characterized by a longer lag period after induction and higher titers than in Escherichia coli B(Mor174). The low titers obtained in E. coli B(Mor174) are due to a heatstable inhibitor produced by this strain. Synthesis of morganocin is not constitutive and may be induced by ultraviolet irradiation or mitomycin C. Morganocin production is not influenced by the growth medium of the organism.

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J. A. Williams

Resistance plasmids in Pseudomonas cepacia 4G9

Expression and regulation of the penicillin G acylase gene from Proteus rettgeri cloned in Escherichia coli

Role of nucleases in the isolation of plasmid deoxyribonucleic acid from Pseudomonas cepacia 4G9

Mobilization of Morganocin 174 Plasmid and Kinetics of Morganocin Production in Proteus and Escherichia coli Hosts

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