Project description:We found that biofilm formation ability of E. faecalis was impacted by culture supernatant of probiotic B. subtilis natto. To further understand how E. faecalis responded to B. subtilis natto supernatant, we searched for differentially expressed genes between E. faecalis treated with or without B. subtilis natto supernatant using RNA-seq analysis.
Project description:CroRS is a cell envelope stress response two-component system in the bacterial pathogen Enterococcus faecalis. Antimicrobial tolerance is the ability of an organism to survive, but not proliferate, upon antimicrobial challenge, and is a known precursor to the development of antimicrobial resistance. We have previously shown that CroRS is essential for antimicrobial tolerance in E. faecalis. Therefore, the aim of this experiment was to determine the teixobactin-induced CroRS regulon to identify key pathways of antimicrobial tolerance. To do this, E. faecalis wild-type and a croRS deletion mutant were grown to mid-exponential phase and challenged with and without teixobactin (0.5 ug/ml) for 1 hour. RNA was subsequently extracted, purified and RNA sequenced. RNA libraries were prepped using the Zymo-Seq RiboFree Total RNA-Seq Library Kit. Sequencing was completed using an Illumina MiSeq (v3) system generating 150 bp paired-end reads.
Project description:Bacterial vaginosis (BV) treatment failures or recurrences are common. To identify features associated with treatment response, we compared vaginal microbiota and host ectocervical transcriptome before and after oral metronidazole therapy. Response to metronidazole is characterized by significant changes in chemokines and related transcripts suggesting that strategies to promote these pathways may prove beneficial.
Project description:Bacteria assume distinct lifestyles during the planktonic and biofilm modes of growth. In biofilms, they are more tolerant to antibiotics and can evade the immune system response more effectively. However, little is known regarding the molecular determinants involved in biofilm formation by Gardnerella vaginali, the predominant species found in bacterial vaginosis (BV). Hence, to gain insight into the pathogenesis of G. vaginalis, we carried out a comparative transcriptomic analysis between planktonic and biofilm phenotypes, using RNA-sequencing. The major alterations observed were related with the transcription of genes involved in cell wall biogenesis and typical stress factors, in which was found significantly up-regulated in biofilms, resulting in a protected mode of bacterial growth. In addition, biofilm phenotype was characterized by low metabolic activity, which is appropriate to guarantee long term survival during BV recurrence.
Project description:The aim of the study was to investigate gene expression profiles of post-menopausal women receiving Premarin estrogen replacement therapy (ERT), compared to controls and to examine any correlations between the bacterial vaginosis (BV) status of the stubjects. This is the first study to use gene arrays to correlate changes in host expression to ERT and BV.
Project description:Drug efflux is a common resistance mechanism found in bacteria and cancer cells. Although several structures of drug efflux pumps are available, they provide only limited functional information on the phenomenon of drug efflux. Here, we performed deep mutational scanning (DMS) on the bacterial ATP binding cassette (ABC) transporter EfrCD from Enterococcus faecalis to determine the drug efflux activity profile of more than 1400 single variants