Project description:Pathogens like E. coli O157:H7 are responsible for many outbreaks and can be found and survive in poor inorganic phosphate (Pi) environments. In E. coli the phosphate homeostasis is regulated by the Pst system and the two-component system PhoB/R. In a Δpst mutant, PhoB is constitutively activated and biofilm formation is increased. To understand how PhoB activation lead to biofilm increase, we compared the transcriptomes of EDL933 the WT strain and Δpst mutant both grown in MOPS Pi rich medium, using the Affymetrix GeneChip® E. coli Genome 2.0 Array.

Project description:In E. coli the phosphate homeostasis is regulated by the Pst system and the two-component system PhoB/R. Pathogens like E. coli O157:H7 are responsible for many outbreaks and can be found and survive in poor inorganic phosphate (Pi) environments. To understand global EHEC O157:H7 EDL933 strain responses to Pi-starvation, we compared the transcriptomes of EDL933 the WT strain grown in MOPS Pi rich medium and that grown in MOPS Pi poor medium, using the Affymetrix GeneChip® E. coli Genome 2.0 Array. Also we investigated the EDL933 global response to the absence of PhoB by comparing the transcriptomes of the WT strain the ΔphoB mutant both grown in Low Pi

Project description:Using a yeast to hybrid screen, it was found that PHO2, a key regulator of phosphate homeostasis, could interact with GIGANTEA, a key regulator of flowering time. In addition, mutant analysis revealed that both the pho2 and gi mutants shared similar phenotypes, both at the phosphate and flowering time levels. We used microarrays to analyse the effects of each mutation (pho2 or gi) on global gene expression, and assessed the proportion of genes similalry regulated in both mutants, in both shoots and roots.

Project description:Cells must appropriately sense and integrate multiple metabolic resources to commit to proliferation. Here, we report that cells regulate nitrogen (amino acid) and carbon metabolic homeostasis through tRNA U34-thiolation. Despite amino acid sufficiency, tRNA-thiolation deficient cells appear amino acid starved. In these cells, carbon flux towards nucleotide synthesis decreases, and trehalose synthesis increases, resulting in metabolic a starvation-signature. Thiolation mutants have only minor translation defects. However, these cells exhibit strongly decreased expression of phosphate homeostasis genes, mimicking a phosphate-limited state. Reduced phosphate enforces a metabolic switch, where glucose-6-phosphate is routed towards storage carbohydrates. Notably, trehalose synthesis, which releases phosphate and thereby restores phosphate availability, is central to this metabolic rewiring. Thus, cells use thiolated tRNAs to perceive amino acid sufficiency, and balance amino acid and carbon metabolic flux to maintain metabolic homeostasis, by controlling phosphate availability. These results further biochemical explain how phosphate availability determines a switch to a ‘starvation-state’.

Project description:Inorganic polyphosphate (Poly P) is a polymer of various phosphate residues linked by phosphoanhydride bonds as in ATP. It is found in all cells in nature with roles in the origin and survival of species, particularly in bacteria. To study the role of the inorganic polyphosphate in bacteria, we obtained knockout mutants of polyP metabolism genes in Escherichia coli K12. We performed DNA microarray experiments of single mutants in polyphosphate kinase 1 (PPK1), exopolyphosphatase (PPX) and also with the double mutant (PPK1 and PPX). The mutant strains growth normally in LB medium but have different colony morphology phenotypes. All mutants have flagellation problems and a detail description of all gain and lost phenotypes o these strains will be published soon because we performed a complete phenotypic microarray study of all three mutant strains.

Project description:PNPase, one of the major enzymes with 3ʹ-to-5ʹ single-stranded RNA (ssRNA) degradation and processing activities, can interact with the RNA helicase RhlB independent of RNA degradosome formation in E. coli. Here we report that loss of interaction between RhlB and PNPase impacts cysteine homeostasis in E. coli. By random mutagenesis, we identified a mutant RhlBP238L that loses 75% of its ability to interact with PNPase, but retains normal interaction with RNase E and RNA in addition to exhibiting normal helicase activity. Applying microarray analyses to an E. coli strain with impaired RNA degradosome formation, we investigated the biological consequences of a weakened interaction between RhlB and PNPase.

Project description:Using a yeast to hybrid screen, it was found that PHO2, a key regulator of phosphate homeostasis, could interact with GIGANTEA, a key regulator of flowering time. In addition, mutant analysis revealed that both the pho2 and gi mutants shared similar phenotypes, both at the phosphate and flowering time levels. We used microarrays to analyse the effects of each mutation (pho2 or gi) on global gene expression, and assessed the proportion of genes similalry regulated in both mutants, in both shoots and roots. Wild-type (Nipponbare), pho2 and gi knock-out rice plants were grown to 21-days before harvesting root and shoot separately.

Project description:One of the key issues affecting yields of biovanillin in cell factories such as Escherichia coli is product toxicity, the mechanisms of which are poorly understood. To identify targets for engineering improved strains, we have studied mechanisms of vanillin toxicity in E. coli using a two-pronged apparoach: (i) a global proteomic analysis supported by multiple physiological experiments and mutant analyses (ii) adaptive laboratory evolution (ALE) of vanillin tolerance combined with genome sequencing. We identified 147 proteins that exhibited a significant change in abundance in response to vanillin. Upregulated proteins included enzymes capable of converting aldehydes to potentially less toxic compounds; pentose phosphate pathways enzymes, fumarase C and enzymes of the glyoxylate shunt; proteins involved in several key stress responses, in particular oxidative stress; proteins mediating uptake and processing of metal ions. 1H-NMR confirmed that E. coli detoxifies vanillin by reduction to vanillyl alcohol; the aldehyde reductases YqhD and DkgA were highly upregulated by vanillin and the purified enzymes reduced vanillinin an NADPH dependent manner. Vanillin caused accumulation of reactive oxygen species and activated an oxidative stress response through SoxRS, OxyR and MarA pathways. Slow vanillin dependent copper (II) to copper (I) reduction lead to upregulation of the copA gene and growth in the presence of vanillin was hypersensitive to inhibition by copper ions. RT-PCR and mutant growth data suggested AcrD and AaeAB as potential vanillin efflux systems. Vanillin-tolerant strains isolated by ALE had distinct non-synonymous SNPs in the citrate synthase gene gltA, in addition to strain specific mutations in cpdA, rob and marC. One strain had a large ~10 kb deletion including the marRAB region. Purifed variant GltA enzymes all showed higher activity due to a lowered Km for oxaloacetate. Our data provide new understanding and novel gene targets for engineering vanillin-tolerant strains of E. coli, including deletion of the efflux pumps eamA, acrA, and acrB, enhancing oxidative stress defences and NADPH production, improving copper homeostasis and increasing citrate synthase activity using variant enzymes.

Project description:The reactive intermediate deaminase RidA (EC: 3.5.99.10) is conserved across all domains of life and deaminates reactive enamine species. When S. enterica ridA mutants are grown in minimal medium, 2-aminoacrylate (2AA) accumulates, damages several pyridoxal 5’-phosphate (PLP)- dependent enzymes, and elicits an observable growth defect. Genetic studies suggested that damage to serine hydroxymethyltransferase (GlyA), and the resultant depletion of 5,10-methelenetetrahydrofolate (5,10-mTHF), was responsible for the observed growth defect. However, the downstream metabolic consequence from GlyA damage by 2AA remains relatively unexplored. This study sought to use untargeted 1H NMR metabolomics to determine whether the metabolic state of a S. enterica ridA mutant was accurately reflected by characterizing growth phenotypes. The data supported the conclusion that metabolic changes in a ridA mutant were due to the IlvA-dependent generation of 2AA, and that the majority of these changes were a consequence of damage to GlyA. While many of the shifts in the metabolome of a ridA mutant could be explained, changes in some metabolites were not easily modeled, suggesting that additional levels of metabolic complexity remain to be unraveled.

Project description:In E. coli the phosphate homeostasis is regulated by the Pst system and the two-component system PhoB/R. Pathogens like E. coli O157:H7 are responsible for many outbreaks and can be found and survive in poor inorganic phosphate (Pi) environments. To understand global EHEC O157:H7 EDL933 strain responses to Pi-starvation, we compared the transcriptomes of EDL933 the WT strain grown in MOPS Pi rich medium and that grown in MOPS Pi poor medium, using the Affymetrix GeneChip® E. coli Genome 2.0 Array. Also we investigated the EDL933 global response to the absence of PhoB by comparing the transcriptomes of the WT strain the ΔphoB mutant both grown in Low Pi EDL933WT strain and its isogenic mutant ΔphoB were grown in Pi- and/or in Pi+ conditions until the OD600 reached respectively 0.55 to 0.6. Samples equal to 5.108 CFU were taken from this mid log phase and processed for transcriptomes analysis. Ten µg of RNAs were extracted and retro-transcripted. One µg of the fragmented and biotinylated cDNAs, were hybridized onto Affymetrix GeneChip® E. coli. The data were processed using the FlexArray® software; RMA normalization and the levels of transcription obtained from 3 biological replicates of each experimental condition were compared using the EB (Wright & Simon) algorithm. We then conducted comparisons between EDL933WT grown in Pi- and in Pi+ conditions (comparison A) and between EDL933WT and EDL933∆phoB strains both grown in Pi- (comparison B). The differentially expression conditions corresponded to 2-fold change (FC) cut-off and p-value < 0.05.