Project description:To compare the transcriptional profiling of a FimZ-expressing strain or non-expressing strain in E. coli under stationary phase. For overexpression of fimZ gene was cloned into pBAD33 plasmid under control of the arabinose-inducible PBAD promoter, which was induced by addition of 0.2% arabinose. Goal was to determine the FimZ regulon in E. coli. Biological replicates: 2 replicates.

Project description:For this study, we created three highly representational different sized genomic libraries of P. aeruginosa PAO1 within the vector pBTB-1. Vector pBTB-1 is a low copy number broad host range plasmid containing a ß-lactamase resistance marker, a pBAD promoter upstream of the cloning site, as well as transcriptional terminators flanking the cloning site to aid in insert stability. These libraries were transformed into the recombination-deficient P. aeruginosa PAO1 mutant, PAO2003, pooled, and parallel selections performed to identify via traditional sequencing or SCALEs the genomic regions capable of conferring increased tolerance to amikacin, gentamicin, or tobramycin. These antibiotics are all structurally related but have differing substitution patterns on their aminoglycoside backbones. These differences in structure and substitution patterns impact the activity of each antibiotic. We chose to study three different aminoglycosides in attempts to identify genomic regions capable of conferring resistance to not only a specific aminoglycoside, but also to the more general class of aminoglycosides.

Project description:To determine the targets of the small regulatory RNA DapZ in S. Typhimurium, we looked at the effect of a short pulse of DapZ over-expression on the Salmonella transcriptome, as well as a DapZ variant that lacks the GcvB-like R1 region. To achieve over-expression, the wild-type DapZ and its variant were cloned in the pBAD plasmid and induced with 0.2% L-arabinose for 10 min. We then extracted the total RNA for transcriptional profiling. A strain carrying the pBAD plasmid w/o insert was used as negative control (also induced by L-arabinose). 2 biological replicates were performed. This sRNA target identification strategy has been described in Papenfort et al; Molecular Microbiology (2006) 62(6), 1674-1688.

Project description:The Pseudomonas aeruginosa PAO1 gene phaF (PA5060) is a transcriptional regulator in the closely related pseudomonad P. putida. phaF is expressed at higher levels in P. aeruginosa clinical isolates from the cystic fibrosis respiratory tract. To determine the role of phaF in regulating P. aeruginosa gene expression, we cloned it under control of the pBAD promoter in expression vector pJN105 and compared expression in this strain relative to an empty vector control strain. We used microarrays to study overall gene expression in a P. aeruginosa PAO1 phaF overexpression strain.

Project description:S. meliloti genes under the control of RpoE1 were identified by determining the whole genome <br>transcription profile of a strain over-expressing rpoE1 under the control of the arabinose-dependent<br>PBAD promoter of plasmid pMLBAD-rpoE1. A strain containing the empty vector pMLBAD<br>was used as a reference.

Project description:To screen the potential targets of Salmonella 3’ UTR derived sRNA FadZ, we compared global mRNA profiles in FadZ-deficient and -pulse expressed strains. The 40-nt FadZ sequences was cloned onto a plasmid downstream of the pBAD promoter and expression was induced by L-arabinose for 10-min in LB broth. Transcriptomic profiles were compared with strain carrying the empty control plasmid.

Project description:S. meliloti genes under the control of RpoE4 were identified by determining the whole genome <br>transcription profile of a strain over-expressing rpoE4 under the control of the arabinose-dependent<br>PBAD promoter of plasmid pMLBAD-rpoE4. A strain containing the empty vector pMLBAD<br>was used as a reference.<br>

Project description:The gene encoding elongation factor G, fusA1, is frequently mutated in clinical isolates of Pseudomonas aeruginosa from patients with cystic fibrosis. Recent work has shown that fusA1 mutants often display elevated aminoglycoside resistance due to increased expression of the aminoglycoside efflux pump, MexXY. We isolated a spontaneous gentamicin-resistant fusA1 mutant (FusA1-P443L) in which mexXY expression was increased. We compared the transcriptome of this fusA1 mutant (EMC1) with the P. aeruginosa PAO1-derived progenitor strain (EMC0) and complemented mutant strain expressing the wild-type fusA1 gene in trans (EMC1*).

Project description:To better understand the role of QscR in P. aeruginosa gene regulation and to better understand the relationship between QscR, LasR and RhlR control of gene expression we used transcription profiling to identify a QscR-dependent regulon. Our analysis revealed that QscR activates some genes and represses others. Some of the repressed genes are not regulated by the LasR-I or RhlR-I systems while others are. The LasI-generated 3-oxododecanoyl-homoserine lactone serves as a signal molecule for QscR. Thus QscR appears to be an integral component of the P. aeruginosa quorum sensing circuitry. QscR uses the LasI-generated acyl-homoserine lactone signal and controls a specific regulon that overlaps with the already overlapping LasR and RhlR-dependent regulons. Experiment Overall Design: First comparisaon Experiment Overall Design: We first compared transcriptomes of the qscR mutant P. aeruginosa PAO-R3 and the parental strain PAO1 at several points during growth (OD600nm 0.5, 0.8, 1.4, 2.0 and 3.5). To identify those genes with expression significantly different between PAO1 and PAO-R3 at different culture densities we used CYBER-T. The Bayesian prior estimate was 10 and the sliding window size was 101. The p-value threshold was 0.001, the posterior probability of differential expression >0.95, and fold change was >2.5. Experiment Overall Design: Second comparison Experiment Overall Design: We selected genes that were at least 3-fold differentially expressed in the strain containing the L-arabinose promoter-driven qscR allele vs the strain containing L-arabinose promoter-driven qscR-Ddbd allele, and were also at least 3-fold differentially expressed in the parent strain PAO1 as compared to the strain containing the qscR null mutation. RNA were extracted from cultures at OD 0.5, 0.8, 1.4, 2.0 and 3.5

Project description:The control of amino acid synthesis and transport in bacteria has been well-investigated at the transcriptional level. The discovery of a small Hfq-dependent regulatory RNA, GcvB, added another layer of gene expression control at the post-transcriptional level. GcvB RNA has been shown to directly regulate multiple ABC transporters for amino acids in E. coli and Salmonella using a highly conserved G/U-rich domain, R1. To identify additional GcvB targets, we have combined a sRNA pulse-expression and microarray analysis of whole transcriptome changes with biocomputational target searches for C/A- rich target sites in Salmonella. Moreover, we have included GcvB mutant RNAs in our microarray approach providing a new target search approach by inactivating conserved domains or target interaction sites. This dual approach revealed further amino acid transporters and, in addition, genes involved in amino acid metabolism as consensus R1-dependent GcvB targets. Moreover, GcvB RNA seems to bind with at least two binding sites to an R1-independent target, the glycine transporter cycA. Using GFP reporter gene fusions we have now validated 21 GcvB targets which is best to our knowledge with ~1% of all Salmonella protein coding genes, the largest bacterial sRNA-controlled regulon. Intriguingly, GcvB rewires many primary control circuits and, thus, constitutes an important metabolic knot. To predict direct GcvB targets with better confidence, we expanded the sRNA pulse-expression approach to assay effects of several versions of GcvB sRNA. We cloned GcvB wild-type and mutants RNAs deleted for the conserved regions R1 or R2 (Fig. 1A) under control of an arabinose-inducible PBAD promoter, yielding plasmid pBAD-GcvB (pKP1-1), pBAD-GcvB delta R1 (pKP2-6) and pBAD-GcvB delta R2 (pKP30-1). For confirmation of inducible expression, Salmonella wild-type carrying pBAD control vector (pKP8-35), and Salmonella ΔgcvB carrying either control vector (Ctr) or the above GcvB expression plasmids were grown to mid-exponential phase (OD600 of 1) and treated with L-arabinose for up to 15 min. We used whole-genome S. typhimurium microarrays to determine relative mRNA expression changes at 10 min of induction, comparing the mRNA profiles of the pBAD-GcvB, pBAD-GcvB delta R1 or pBAD-GcvB delta R2 strains to that of the delta gcvB deletion mutant strain carrying the control vector. Microarrays used in this study were produced by in-situ synthesis as 8x15k multipack format from Agilent Technologies. Each microarray comprises 13268 60-mer S. typhimurium strain SL1344 specific oligonucleotides supplemented with 319 60-mer S. enterica subsp. serovar Typhimurium 14028S specific oligonucleotides, 360 60-mer S. typhimurium LT2 specific oligonucleotides and 360 60-mer oligonucleotides specific for 149 Salmonella sRNAs. The experimental design involves the use of Salmonella enterica serovar Typhimurium genomic DNA as the co-hybridized control for one channel on all microarrays. Two independent biological eperiments were analyzed.