Project description:To further investigate the homeostatic response of E. faecalis to Fe exposure, we examine the whole-genome transcriptional response of wild-type (WT) exposed to non toxic Fe excess. This experiment correspond the work titled Transcriptomic response of Enterococcus faecalis to iron excess (work in preparation)

Project description:To further investigate the homeostatic response of E. faecalis to Fe exposure, we examine the whole-genome transcriptional response of wild-type (WT) exposed to non toxic Fe excess. This experiment correspond the work titled Transcriptomic response of Enterococcus faecalis to iron excess (work in preparation) A four chip study using total RNA recovered from four separate wild-type cultures of Enterococcus faecalis OG1RF, two controls samples (N medium growth) and two iron samples (N medium gowth with 0.5 mM Fe-NTA). Each chip measures the expression level of 3,114 genome genes from Enterococcus faecalis strain V583 (A7980-00-01).

Project description:Proteomic analysis of the effects of gliotoxin on Enterococcus faecalis.

Project description:The enterococci comprise a genus of 49 low-GC content Gram-positive commensal species within the Firmicutes phylum that are known to occupy diverse habitats, notably the gastrointestinal core microbiota of nearly every phylum, including human. Of particular clinical relevance are two rogue species of enterococci, Enterococcus faecalis and the distantly related Enterococcus faecium, standing among the nefarious multi-drug resistant and hospital-acquired pathogens. Despite increasing evidence for RNA-based regulation in the enterococci, including regulation of virulence factors, their transcriptome structure and arsenal of regulatory small sRNAs (sRNAs) are not thoroughly understood. Using dRNA-seq, we have mapped at single-nucleotide resolution the primary transcriptomes of E. faecalis V583 and E. faecium AUS0004. We identified 2517 and 2771 transcription start sites (TSS) in E. faecalis and E. faecium, respectively. Based on the identified TSS, we created a global map of s70 promoter motifs. We also revealed features of 5’ and 3’UTRs across the genomes. The transcriptome maps also predicted 150 and 128 sRNA candidates in E. faecalis and E. faecium, respectively, some of which have been identified in previous studies and many of which are new. Finally, we validated several of the predicted sRNAs by Northern Blot in biologically relevant conditions. Comprehensive TSS mapping of two representative strains will provide a valuable resource for the continued development of RNA biology in the Enterococci.

Project description:Analysis of changes in gene expression in Enterococcus faecalis OG1 delta-EF2638 mutant compared to wild-type OG1 strain. The deletion mutant has a growth defect when grown with aeration The mutant presented in this study is described and characterized in Vesic, D. and Kristich, C.J. 2012. A Rex-family transcriptional repressor influnces H2O2 accumulation by Enterococcus faecalis. (submitted for publication) Microarray analysis was done using RNA isolated from two independent cultures of wild-type Enterococcus faecalis OG1 and two independent cultres of Enterococcus faecalis OG1 delta-EF2638 mutant; each RNA sample was subjected to triplicate hybridization (technical replicates) . Microarrays were custom designed to investigate expression of ORFs in Enterococcus faecalis OG1RF genome. The arrays were designed based on the OG1RF annotation generated with the Rapid Annotation Using Subsystem Technology (RAST) server (Aziz et. al. 2008. BMC Genomics 9:75), as described in Frank et al (2012) Infect. Immun. 80:539. The aim was eighteen probe pairs per ORF, each of which is present in triplicate.

Project description:Grad-seq in Enterococcus faecalis V583 and Enterococcus faecium AUS004.

Project description:Analysis of changes in gene expression in Enterococcus faecalis OG1 delta-EF2638 mutant compared to wild-type OG1 strain. The deletion mutant has a growth defect when grown with aeration The mutant presented in this study is described and characterized in Vesic, D. and Kristich, C.J. 2012. A Rex-family transcriptional repressor influnces H2O2 accumulation by Enterococcus faecalis. (submitted for publication)

Project description:Identification of proteins in the secretome of Enterococcus Faecalis V583 after growth on urine

Project description:To investigate the transcriptional changes that Enterococcus faecalis undergoes during agar surface-penetration, which promote cell envelope remodeling and tolerance to stress.

Project description:Teixobactin is the first novel antimicrobial to be discovered in decades and represents a new class of antimicrobials. Teixobactin shows great promise with proven efficacy against multi-drug resistant organisms such as methicillin-resistant S. aureus (MRSA), vancomycin-resistant Enterococci (VRE), and Mycobacterium tuberculosis. VRE infections are notoriously difficult to treat with complex and adaptable cell wall stress response systems, which confer intrinsic resistance to a wide variety of antimicrobials. The aim of this study was to isolate the teixobactin-induced transcriptional response by challenging lab strain Enterococcus faecalis JH2-2 with sub-MIC levels of teixobactin using RNA sequencing. Two cultures of E. faecalis were grown to an OD600 of 0.2 and subsequently split into three to form a total of six cultures (two samples, with three technical replicates each), and grown to an OD600 of 0.5. One set of three cultures were treated with 0.5 ug/ml (0.25 x MIC), and all six cultures were grown for a further 1h. Cells were harvested by centrifugation and stored at -80 degrees C. RNA was extracted using TRIzol-chloroform and RNA samples were run through the RNAeasy Minikit (Qiagen). The Agilent RNA 6000 Nano kit and the Agilent 2100 Bioanalyzer (RIN >8), was used to verify RNA quality as per the manufacturer’s instructions, and RNA concentration was determined using a NanoDrop ND-100 spectrophotometer. Ribosomal RNA was removed from total RNA using Ribo-Zero and cDNA libraries were created using the Illumina TruSeq™ stranded total RNA library prep kit. Sequencing was completed using Illumina MiSeq_v3 generating 150 bp single end reads. Adapter sequences were removed from raw fastq files using Flexbar and reads shorter than 50bp were discarded. Sequence reads from each sample were mapped against the E. faecalis JH2-2 genome (NZ_KI518257.1) using Bowtie to produce a table of raw read counts for JH2-2 genes for each of the replicates. Statistical and principal component analysis were performed using the Bioconductor DESeq package.