Andrews JM: Determination of minimum inhibitory this website concentrations. J Antimicrob Chemother
2001,48(Suppl 1):5–16.PubMedCrossRef Competing interests The authors declare that they have no competing interests. Authors’ contributions Experiments were carried out by YD, AL, JL, SC, SA, YHD. Data analysis was finished by YD and LHZ. The study was designed by YD and LHZ, who also drafted the manuscript. All authors read and approved the final manuscript.”
“Background Vibrio cholerae, a Gram-negative rod-shaped bacterium belonging to the family Vibrionaceae, induces the acute diarrheal disease cholera. Cholera has pandemic properties and appears mainly in third world countries with estimated 3–5 million cases and more than 100,000 deaths per year [1]. The major pathogenic strains belong to the serogroups O1 and O139. Infections are treated by oral or intravenous rehydration therapy, which
is complemented in severe cases with antibiotics to shorten the duration of the clinical symptoms and to reduce the spreading. Long-term and extensive use of antibiotics has led to resistance development. A growing problem is the emergence of multidrug resistant pathogenic V. cholerae strains against which therapeutic options are more and more limited [2]. Due to this development the availability of novel therapeutic options is urgently needed. In the present study we have developed a high-throughput GW-572016 research buy screening (HTS) assay that utilizes a V. cholerae reporter strain constitutively expressing green fluorescence protein and screened approximately 28,300 compounds from six different chemical structural groups in a growth inhibition assay. Several active molecules were identified which are active in suppressing growth of V. cholerae in vitro. V. cholerae mutants resistant to the most potent molecule were generated. Whole-genome sequencing and comparative analysis of the mutant to the wild type strain was carried out. The apparent target of the most active compound was identified to be the osmosensitive K+-channel sensor histidine kinase Alanine-glyoxylate transaminase KdpD that apparently
exerts certain essential function in this pathogen. Results HTS assay for inhibitors of V. cholerae viability Green fluorescence producing plasmid pG13 was electroporated into V. cholerae strain MO10 and the transformants were selected on LB agar plates containing kanamycin (Km, 30 μg/ml). Transfer of the plasmid pG13 conferred green fluorescence phenotype in V. cholerae O139 strain MO10. The screening assay was optimized in 96- and 384-well microtiter plates (MTP). To differentiate between active and non-active compounds and as controls for the functionality of the assay, ciprofloxacin (Cip, 100 μM) and dimethyl sulfoxide (DMSO, 1%) were included on each plate. DMSO had no growth reducing effect at concentrations up to 1%.