Project description:Here we investigated colistin effects on A. baumannii, employing a Mass spectrometry approach and comparing a colistin-susceptible multidrug-resistantclinical isolate to its colistin-dependent subpopulation obtained by subsequent passages in moderate colistin concentrations. Colistin dependence might represent a stepping-stone to resistance, but the mechanisms of colistin dependence are far from clear.
Project description:Objectives: Colistin remains a last-line treatment for multidrug-resistant Acinetobacter baumannii and combined use of colistin and carbapenems has shown synergistic effects against multidrug-resistant strains. In order to understand the bacterial responses to these antibiotics we analysed the transcriptome of A. baumannii following exposure to each.
Project description:Acinetobacter baumannii is a pathogenic species of bacteria, identified as an aerobic gram-negative bacterium, that is resistant to most antibiotics. In this study, the MDR-TJ strain was isolated at the Second Hospital of Tianjin Medical University, China, and was found to be resistant to penicillin, cephalosporins, aminoglycosides, quinolones, and also imipenem. The genome sequence of Acinetobacter baumannii strain MDR-TJ was determined by using a combination of 454 pyrosequencing and paired-end sequencing performed with the Roche Genome Sequencer FLX system to generate a scaffolded assembly.
Project description:To explore how multiple drug-resistant A. baumannii response to colistin resistance, we compared the genomic, transcriptional and proteomic profile of A. baumannii MDR-ZJ06 to that of induced colistin resistant strain ZJ06-200P5-1.
Project description:Using Nanopore sequencing, our study has revealed a close correlation between genomic methylation levels and antibiotic resistance rates in Acinetobacter Baumannii. Specifically, the combined genome-wide DNA methylome and transcriptome analysis revealed the first epigenetic-based antibiotic-resistance mechanism in A. baumannii. Our findings suggest that the precise location of methylation sites along the chromosome could provide new diagnostic markers and drug targets to improve the management of multidrug-resistant A. baumannii infections.
Project description:RNA sequencing transcriptomics was performed on a highly multidrug resistant A. baumannii strain belonging to international clone I, AB5075_UW and a transposon insertion inactivated mutant of ABUW_1103 (DesT1), which encodes for a TetR family regulator. Transcriptomics revealed that DesT1 might function as a global regulator controlling expression of various genes involved in fatty acid metabolism and transport and a range of outer membrane proteins. Genes encoding acyl-CoA desaturase and ferredoxin reductase were found to be significantly upregulated when DesT1 regulator was inactivated. Aerobic desaturases are known to play an important role in maintaining membrane homeostasis.
Project description:RNA sequencing transcriptomics was performed on a highly multidrug resistant A. baumannii strain belonging to international clone I, AB5075_UW and a transposon insertion inactivated mutant of ABUW_0182 (acmS), which encodes a hybrid histidine kinase.Transcriptomics suggests that AcmS controls expression of the genes involved in short-chain fatty acid metabolism in A. baumannii. Biophysical analyses showed ABUW_0182 binds acetic and propionic acid with affinities in a low micromolar range, suggesting they represent the physiological ligands for this hybrid histidine kinase system.
