Project description:Strains devoid of ppGpp (ΔrelA ΔspoT; called ppGpp0), and ppGpp0 dksA- exhibit several amino acid requirements for growth on minimal media. We found that overexpression of DksA can complement some of those requirements. Since DksA is a factor that binds to the RNA polymerase secondary channel, we wondered if other secondary channel proteins might also exert a similar role with respect to growth on minimal media. In our study we found that GreA and partially GreB can in fact complement these requirements under certain conditions. Here, we wished to investigate a broader effect of GreA and GreB on ppGpp0 and ppGpp0 dksA- strains. Since the parent strains are unable to grow in minimal media, we had to supplement the M9 glucose medium with a set of amino acids (DFHILQSTV). We found that both, GreA and GreB can affect a much larger set of genes in the absence of dksA, than in its presence. Also, GreA seems to affect more genes than GreB, under both conditions. We used microarrays to detail the effects of overproducing either GreA or GreB in cells devoid of ppGpp, in the dksA+ or dksA- background

Project description:While studying greA expression, we noted presence of an intrinsic terminator in the leader region of greA mRNA transcript. We found this terminator to be quite efficient both in vivo and in vitro. This region seems to be conserved among many enteric bacteria. Judging from fitness experiments, the resulting short RNAs (50-59nt long) exert biological effects. This lead us to propose that greA leader region encodes a novel small non-coding RNA that we collectively call GraL. We used microarrays to detail the effects of GraL after short and longterm overproduction of GraL. Experiment Overall Design: E. coli cells harbouring plasmids overexpressing GraL or vector control, were monitored in an effort to elucidate a longterm (constitutive overexpression) or short term (15 min induction with IPTG) effects. This was done in two backgrounds- either in wt E. coli cells, or ppGpp0 cells (delta relA, delta spoT).

Project description:The nucleotide (p)ppGpp is crucial for viability during amino acid limitation in bacteria, yet how it accomplishes this remains unknown. We found that the absence of (p)ppGpp in Bacillus subtilis cells leads to multiple amino acid auxotrophy, and that (p)ppGpp allows for prototrophy by reducing GTP levels. We provide evidence that reduction of GTP levels relieves the requirements for branched-chain amino acids primarily by preventing hyperactivity of the GTP-dependent transcriptional regulator CodY, but that GTP levels can also play an important role in regulating transcription of many amino acid biosynthesis genes independently of CodY. Thus, CodY-dependent and independent regulation of transcription by GTP levels plays overlapping yet distinct physiological roles in allowing amino acid prototrophy. Finally, supplementing these required amino acids does not protect against cell death upon nutrient downshift, but allows for sustained growth following this transition. We conclude that regulation of GTP levels by (p)ppGpp allows cells to adapt to conditions of amino acid limitation by first allowing survival during shifting nutrient conditions, and then allowing amino acid prototrophy by transcriptionally regulating amino acid biosynthesis. This strategy may be used to ensure viability during amino acid limitation in evolutionarily divergent bacteria. Twelve-condition experiment: wt, wt+RHX, wt+Guo, (p)ppGpp0, (p)ppGpp0+RHX, (p)ppGpp0+Guo, M-NM-^TcodY (p)ppGpp0, M-NM-^TcodY (p)ppGpp0+RHX, M-NM-^TcodY (p)ppGpp0+Guo, guaB- (p)ppGpp0, guaB- (p)ppGpp0+RHX, guaB- (p)ppGpp0+Guo. Biological replicates: 3 for each sample. Reference: a mixture of wt RNA from different growth phases and wt backgrounds.

Project description:Inorganic polyphosphate (polyP) is synthesized by bacteria in response to various stresses, but the mechanism of its regulation is unknown. Mutants of Escherichia coli lacking the RNA polymerase-binding transcription factor dksA are defective in polyP synthesis after a nutrient limitation stress, and this defect is reversed in a dksA greA mutant. In this work, we used RNA sequencing to compare transcription in wild-type, dksA, and dksA greA strains of E. coli before and after nutrient limitation, to identify genes whose expression pattern correlates with ability to synthesize polyP.

Project description:While studying greA expression, we noted presence of an intrinsic terminator in the leader region of greA mRNA transcript. We found this terminator to be quite efficient both in vivo and in vitro. This region seems to be conserved among many enteric bacteria. Judging from fitness experiments, the resulting short RNAs (50-59nt long) exert biological effects. This lead us to propose that greA leader region encodes a novel small non-coding RNA that we collectively call GraL. We used microarrays to detail the effects of GraL after short and longterm overproduction of GraL. Experiment Overall Design: E. coli cells harbouring plasmids overexpressing GraL or vector control, were monitored in an effort to elucidate a longterm (constitutive overexpression) or short term (15 min induction with IPTG) effects. This was done in two backgrounds- either in wt E. coli cells, or ppGpp0 cells (delta relA, delta spoT).

Project description:To better understand the role of the (p)ppGpp-mediated stringent response in control of H. ducreyi virulence determinants, here we defined genes potentially regulated by either (p)ppGpp or DksA by using RNA-seq. We were able to show that loss of either (p)ppGpp or DksA resulted in dysregulation of multiple genes including several known virulence determinants. We also show that loss of (p)ppGpp or DksA resulted in differential expression of putative H. ducreyi small RNAs. RNA of Haemophilus ducreyi wildtype, relAspoT and dksA mutants were collected at mid-log, transition, and stationary phases of growth, in quadruplicate using stranded RNA -seq.

Project description:To better understand the role of the (p)ppGpp-mediated stringent response in control of H. ducreyi virulence determinants, here we defined genes potentially regulated by either (p)ppGpp or DksA by using RNA-seq. We were able to show that loss of either (p)ppGpp or DksA resulted in dysregulation of multiple genes including several known virulence determinants. We also show that loss of (p)ppGpp or DksA resulted in differential expression of putative H. ducreyi small RNAs.

Project description:S. Typhimurium parent, ppGpp0 and dksA strains were grown to OD's of 2.3 (ESP) and 4.2 (LSP) and subjected to ChIP-chip analysis at 60 nt resolution.

Project description:The pathogenic spirochete Borrelia burgdorferi senses and responds to diverse environmental challenges, including changes in nutrient availability, throughout its natural infectious cycle in Ixodes spp. ticks and mammalian hosts. This study examined the role of the putative DnaK suppressor protein (DksA) in the transcriptional response of B. burgdorferi to starvation. Wild-type and dksA-deficient B. burgdorferi strains were subjected to starvation by shifting mid-logarithmic cultures grown in BSK-II medium to serum-free RPMI medium for six hours under microaerobic conditions (5% CO2, 3% O2). Microarray analyses of wild-type B. burgdorferi revealed that genes encoding flagellar components, ribosomal proteins, and DNA replication machinery were downregulated in response to starvation. DksA mediated transcriptomic responses to starvation in B. burgdorferi as the dksA-deficient B. burgdorferi strain differentially expressed only 47 genes in response to starvation compared to the 500 genes differentially expressed by wild-type strains. Consistent with a role for DksA in the starvation response of B. burgdorferi, fewer CFUs were observed for dksA-deficient spirochetes after prolonged starvation in RPMI medium compared to wild-type B. burgdorferi. Transcriptomic analyses revealed a partial overlap between the DksA regulon and the regulon of the guanosine tetraphosphate and guanosine pentaphosphate [(p)ppGpp] synthase RelBbu, while the DksA regulon also included many plasmid-borne genes. Corresponding to a DksA-(p)ppGpp regulatory relationship, (p)ppGpp levels were constitutively elevated in the dksA-deficient strain compared to the wild-type strain. Together, these data indicate that DksA directs the stringent response with a regulatory interplay with (p)ppGpp that is fundamental to B. burgdorferi responses to the environment.

Project description:Expression data from E. coli cells overexpressing either GreA or GreB in ppGpp0 cells in the dksA+ or dksA- background