M. Midgley scite author profile

Clinical isolates of Staphylococcus aureus carry various antiseptic and disinfectant resistance determinants (qac genes) on a variety of plasmids. The biochemistry and specificity of these resistance genes in S. aureus is the subject of this report. The qac genes were separated into two families on the basis of resistance profiles and DNA homology. Isotopic and fluorimetric assays demonstrated that the qac genes encode efflux systems that rely on proton motive force.

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The regulation of transport of glucose and methyl α-glucoside in Pseudomonas aeruginosa

Midgley

Dawes

1973

134

102

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The methyl alpha-glucoside-transport system of Pseudomonas aeruginosa has been characterized with respect to its specificity, energy-dependence, kinetics and regulation. The uptake of glucose involved two components, one of which transported glucose (K(m)=8mum) and methyl alpha-glucoside (K(m)=2.8mm) whereas the other was more complex, involving the extracellular activity of glucose dehydrogenase. Mutants defective in this enzyme have been isolated and characterized. The methyl alpha-glucoside-glucose-transport system was repressed when the organism was grown in the absence of glucose; the induction of this transport system by glucose, and its activity once induced, were inhibited by products of citrate metabolism.

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Physical and Biochemical Characterization of the qacA Gene Encoding Antiseptic and Disinfectant Resistance in Staphylococcus aureus

et al. 1989

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We have previously cloned a 3.5 kb fragment from the Staphylococcus aureus multiresistance plasmid pSK1 which carries the qacA determinant responsible for linked resistance to acriflavine (Acr), ethidium bromide (Ebr), quaternary ammonium compounds (Qar), propamidine isethionate (Pir), and diamidinodiphenylamine dihydrochloride (Ddr). This report presents a biochemical and physical analysis of qacA and shows the widespread carriage of this gene on S. aureus resistance plasmids. Tn5 insertion mutagenesis defined the extent of qacA to within 2.40 kb of pSK1 DNA. Examination of the expression of insertion and deletion mutants of the cloned qacA sequences in both maxicells and minicells led to the association of a 50 kDa protein, designated QacA, with the AcrEbrQarPirDdr phenotype. Based on fluorimetric and isotopic assays used to determine the extent of accumulation of ethidium bromide by S. aureus strains harbouring pSK1, we propose that the basis of AcrEbrQarPirDdr in S. aureus is a qacA-mediated efflux system.

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TheALD6 gene ofSaccharomyces cerevisiae encodes a cytosolic, Mg2+-activated acetaldehyde dehydrogenase

Meaden

Dickinson

Mifsud

et al. 1997

Yeast

101

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The Role of Glucose Limitation in the Regulation of the Transport of Glucose, Gluconate and 2-Oxogluconate, and of Glucose Metabolism in Pseudomonas aeruginosa

Whiting¹,

Midgley²,

Dawes³

1976

Journal of General Microbiology

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The pathway of glucose metabolism in Pseudomonas aeruginosa was regulated by the availability of glucose and related compounds. On changing from an ammonium limitation to a glucose limitation, the organism responded by adjusting its metabolism substantially from the extracellular direct oxidative pathway to the intracellular phosphorylative route. This change was achieved by repression of the transport systems for gluconate and a-oxogluconate and of the associated enzymes for 2-oxogluconate metabolism and gluconate kinase, while increasing the levels of glucose transport, hexokinase and glucose 6-phosphate dehydrogenase. The role of gluconate, produced by the action of glucose dehydrogenase, as a major inhibitory factor for glucose transport, and the possible significance of these regulatory mechanisms to the organism in its natural environment, are discussed.

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M. Midgley

Substrate specificity and energetics of antiseptic and disinfectant resistance in Staphylococcus aureus

The regulation of transport of glucose and methyl α-glucoside in Pseudomonas aeruginosa

Physical and Biochemical Characterization of the qacA Gene Encoding Antiseptic and Disinfectant Resistance in Staphylococcus aureus

TheALD6 gene ofSaccharomyces cerevisiae encodes a cytosolic, Mg2+-activated acetaldehyde dehydrogenase

The Role of Glucose Limitation in the Regulation of the Transport of Glucose, Gluconate and 2-Oxogluconate, and of Glucose Metabolism in Pseudomonas aeruginosa

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