Microbiology Reader
Equipment to run microbiology work automatically

Growth Curves of any strain.
Microbiological calculations.

Microbiology Home
Microbioloy Reader
Growth Curves
Photo Album
Microorganisms
Software
Download
Purchasing
Contact Us

Scientific Publications - Work Done by Microbiology Reader Bioscreen C

 

Elisabeth Kugelberg, Sonja Löfmark, Bengt Wretlind, and Dan I. Andersson, Reduction of the fitness burden of quinolone resistance in Pseudomonas aeruginosa, JAC Advance Access published online on December 1, 2004 Journal of Antimicrobial Chemotherapy, doi:10.1093/jac/dkh505

 


ABSTRACT

Objectives: Quinolone resistance in the opportunistic pathogen Pseudomonas aeruginosa is commonly caused by mutations that alter the target molecules DNA gyrase/topoisomerase IV, or cause activation of various efflux systems. We have analysed the effect of quinolone resistance caused by DNA gyrase/topoisomerase IV mutations on bacterial fitness.

Methods: Norfloxacin-resistant mutants were isolated and by DNA sequencing the mutations conferring resistance were identified. Mutant fitness was determined by measuring growth rates in vitro. Mutants with reduced growth rates were serially passaged to obtain growth-compensated mutants. The level of DNA supercoiling was determined by isolating plasmid DNA from the susceptible, resistant and compensated mutants and comparing the topoisomer distribution patterns by gel electrophoresis in the presence of chloroquine.

Results: Low-level resistance (4-48 mg/L) was caused by single mutations in gyrA or gyrB. Among these strains, three out of eight mutants showed lower fitness, whereas high-level resistant (>256 mg/L) mutants with double mutations in gyrA and parC, parE, nfxB or unknown genes all showed a reduced fitness. Slow-growing resistant mutants with a gyrA mutation had decreased DNA supercoiling. After serial passage in laboratory medium, mutant fitness was increased by compensatory mutation(s) that restored supercoiling to normal levels. The compensatory mutation(s) was not located in any of the genes (gyrAB, topA, parCE, hupB, fis, hupN, himAD or PA5348) that were expected to affect supercoiling.

Conclusions: Our results show that ‘no cost’ and compensatory mutations are common in quinolone-resistant P. aeruginosa.

 

 

(Abstract online)
 

 

 

   

   Scientific Publications - Work Done by Microbiology Reader Bioscreen C
Agricultural Microbiology
Anaerobic Microbiology
Antimicrobial Susceptibility
Artificial Atmosphere
Bioassay of Antibiotics
Biofilm Microbiology
Bioreactor Technology
Biotechnology
Cell Biology
Clinical Microbiology
Environmental Microbiology
Experiments with Yeast		 Fermentation
Food Microbiology
Functional Genomics
Gene Technology
Growth Media Development
Growth Rate and Lag Time
Industrial Microbiology
Medical/Pharmaceutical Field
Microbiological Assay
Microbiological Research
Microbiology of Cosmetics

go to a specific theme...

 Military Microbiology
Molecular Microbiology
Mutagenicity and Genotoxicity
Oral Microbiology
Patents
Postantibiotic Studies
Soil Microbiology
Spore Microbiology
Veterinary Microbiology
Waste/Wastewater Treatment
Water Microbiology
Wine Microbiology

 


 

© 2005 Transgalactic Ltd (manufacturer of Bioscreen C software) | Privacy Statement | P.O. Box 1393, 00101 Helsinki, Finland, phone: +358 9 85172920, fax: +358 9 8749481, e-mail: microbiology@bionewsonline.com
 

 

 

Last modified: May 25, 2005