Genome-wide identification of fitness-genes in aminoglycoside-resistant Escherichia coli during antibiotic stress.

Resistance against aminoglycosides is widespread in bacteria. This study aimed to identify genes that are important for growth of E. coli during aminoglycoside exposure, since such genes may be targeted to re-sensitize resistant E.

Enhancing the Efficacy of Chloramphenicol Therapy for by Targeting the Secondary Resistome.

The increasing prevalence of antimicrobial resistance and the limited availability of new antimicrobial agents have created an urgent need for new approaches to combat these issues. One such approach involves reevaluating the use of old antibiotics to ensure their appropriate usage and maximize their effectiveness, as older antibiotics could help alleviate the burden on newer agents. An example of such an antibiotic is chloramphenicol (CHL), which is rarely used due to its hematological toxicity.

Hypoxia and intra-complex genetic suppressors rescue complex I mutants by a shared mechanism.

The electron transport chain (ETC) of mitochondria, bacteria, and archaea couples electron flow to proton pumping and is adapted to diverse oxygen environments. Remarkably, in mice, neurological disease due to ETC complex I dysfunction is rescued by hypoxia through unknown mechanisms. Here, we show that hypoxia rescue and hyperoxia sensitivity of complex I deficiency are evolutionarily conserved to C.

Uncovering the Important Genetic Factors for Growth during Cefotaxime-Gentamicin Combination Treatment in Encoding .

Due to the rapid spread of CTX-M type ESBLs, the rate of resistance to third-generation cephalosporin has increased among Gram-negative bacteria, especially in , and there is a need to find ways to re-sensitize ESBL to cephalosporin treatment. A previous study showed that genes involved in protein synthesis were significantly up-regulated in the presence of subinhibitory concentration of cefotaxime (CTX) in a CTX-M-1-producing . In this study, the interaction between CTX and gentamicin (GEN), targeting protein synthesis, was evaluated in MG1655/pTF2, and the MIC of CTX was strongly reduced (128-fold) in the presence of this combnation therapy.

Methylobacterium trifolii sp. nov. and Methylobacterium thuringiense sp. nov., methanol-utilizing, pink-pigmented bacteria isolated from leaf surfaces.

Three pink-pigmented, aerobic, Gram-stain-negative, rod-shaped and facultatively methylotrophic strains were isolated from the phyllosphere of Trifolium repens and Cerastium holosteoides. 16S rRNA gene sequence analysis support the affiliation of all strains to the genus Methylobacterium. The closest relatives of strains C34(T) and T5 were Methylobacterium gnaphalii 23e(T) (98.