Project description:As bacterial cells enter stationary phase, they adjust their growth rate to comply with nutrient restriction and acquire increased resistance to several stresses. These events are regulated by controlling gene expression at this phase, changing the mode of exponential growth into that of growth arrest, and increasing the expression of proteins involved in stress resistance. The two-component system SpdR/SpdS is required for the activation of transcription of the Caulobacter crescentus cspD gene at the onset of stationary phase. A Global transcriptional analysis at early stationary phase of a spdR null mutant strain compared to the wild type strain was carried out by DNA microarray. Twenty-three genes showed at least twofold decreased expression in the spdR deletion mutant strain relative to its parental strain, including cspD, while five genes showed increased expression in the mutant. The expression of a set of ten genes was evaluated by quantitative real time PCR, validating the microarray data. Several of the differentially expressed genes can be involved in modulating gene expression, including four transcriptional regulators, and the RNA regulatory protein Hfq. The ribosomal proteins NusE and NusG, which also that have additional regulatory functions in transcription and translation, were also downregulated in the spdR mutant, as well as the ParE1 toxin. The results indicate that SpdR regulates several genes encoding proteins of regulatory function, which in turn may be required for the expression of other genes important for the transition to stationary phase. Four replicates perfomed with independent biological samples

Project description:The cold shock proteins belong to a family of RNA binding proteins presenting a highly conserved domain, called cold shock domain (CSD). They are involved in various cellular processes, including adaptation to low temperature, nutritional stress, cell growth and stationary phase. Here we investigate the role of CspC in C. crescentus stationary phase and the molecular mechanisms underlying gene regulation by this protein. A global transcriptional profiling experiment comparing cspC and the wild type strain both at exponential and stationary phases was carried out. The results showed that the absence of cspC affected the transcription of 20 genes at exponential phase and 65 genes at stationary phase. Genes encoding enzymes of the glyoxylate cycle were severely downregulated in the mutant at stationary phase. The stationary phase-induced RNA binding protein CspC has an important role in gene expression at this phase. It is required for the expression of the essential gene sciP, the ECF sigma factor sigU, as well as of the genes for the glyoxylate cycle enzymes and for oxidative stress response.

Project description:Global transcriptome analyses at different stages of growth were applied to monitor growth phase-dependent gene expression in the alpha-proteobacterium Rhodobacter sphaeroides. Low aerated cultures with strong changes in levels of dissolved oxygen during growth, were compared to aerated cultures showing little variation in oxygen levels. Cells were in stationary phase for 12 h or for 57 h before dilution into fresh medium. The majority of genes (78-86%) were not differentially expressed across growth phases. Gene expression in outgrowth phase was strongly influenced by the length of the preceding stationary phase. After 57 h in stationary phase a much larger number of genes was induced after dilution, 39% of which are known to be controlled by the alternative sigma factors RpoHI and/or RpoHII. Growth experiments with mutant strains assign an important function in stationary phase and especially in outgrowth to these sigma factors and genes for both sigma factors showed growth phase-dependent expression. Besides the known consensus sequences for the RpoH sigma factors, some new consensus sequences were identified in subsets of growth phase-dependent genes. Genes for several predicted regulatory proteins exhibited growth phase-specific expression implying a role in growth phase adaptation in alpha-proteobacteria, which needs verification in the future.

Project description:The expression profile of an S. Typhimurium hfq mutant-strain was compared to the parental strain under 2 different growth conditions; early stationary phase and SPI-1 (Salmonella pathogenicity island 1) inducing condition. Keywords: Genetic modification

Project description:Global transcriptome analyses at different stages of growth were applied to monitor growth phase-dependent gene expression in the alpha-proteobacterium Rhodobacter sphaeroides. Low aerated cultures with strong changes in levels of dissolved oxygen during growth, were compared to aerated cultures showing little variation in oxygen levels. Cells were in stationary phase for 12 h or for 57 h before dilution into fresh medium. The majority of genes (78-86%) were not differentially expressed across growth phases. Gene expression in outgrowth phase was strongly influenced by the length of the preceding stationary phase. After 57 h in stationary phase a much larger number of genes was induced after dilution, 39% of which are known to be controlled by the alternative sigma factors RpoHI and/or RpoHII. Growth experiments with mutant strains assign an important function in stationary phase and especially in outgrowth to these sigma factors and genes for both sigma factors showed growth phase-dependent expression. Besides the known consensus sequences for the RpoH sigma factors, some new consensus sequences were identified in subsets of growth phase-dependent genes. Genes for several predicted regulatory proteins exhibited growth phase-specific expression implying a role in growth phase adaptation in alpha-proteobacteria, which needs verification in the future. RNA samples collected from R. sphaeroides 2.4.1 wild type cells in several growth phases were analyzed by two-color microarrays Please note that each sample represents biological triplicates.

Project description:The cold shock proteins belong to a family of RNA binding proteins presenting a highly conserved domain, called cold shock domain (CSD). They are involved in various cellular processes, including adaptation to low temperature, nutritional stress, cell growth and stationary phase. Here we investigate the role of CspC in C. crescentus stationary phase and the molecular mechanisms underlying gene regulation by this protein. A global transcriptional profiling experiment comparing cspC and the wild type strain both at exponential and stationary phases was carried out. The results showed that the absence of cspC affected the transcription of 20 genes at exponential phase and 65 genes at stationary phase. Genes encoding enzymes of the glyoxylate cycle were severely downregulated in the mutant at stationary phase. The stationary phase-induced RNA binding protein CspC has an important role in gene expression at this phase. It is required for the expression of the essential gene sciP, the ECF sigma factor sigU, as well as of the genes for the glyoxylate cycle enzymes and for oxidative stress response. Two and three replicates were performed to determine the stationary phase stimulon and CspC regulon, respectively. Each replicate was conducted with an independent biological sample.

Project description:Transcription analysis of ΔpknK mutant (LIX11) versus wild type H37Rv during logarithmic and stationary phase growth. This will elucidate the genes regulated by PknK during transition from logarithmic growth to stationary phase growth.

Project description:In this work, we report that the knockout mutant in other of this luxR-like genes (named luxR402) in Novosphingobium sp. HR1a; floculated faster than the wild-type when cultures are in repose. Transcriptomic analysis allowed us to determine the LuxR402 regulon; we have identified that the carbohydrate assimilation pathway and TCA cycle are affected in the mutant. Accordingly, the mutant presented poorer growth than the wild-type when growing in different carbon sources. At stationary phase of growth the pili biosynthesis, trehalose utilization and capside-related proteins were affected in the mutant strain. Microscopy assays determined that the mutant strain cultures presented cells aggrupations and that the extracellular matrix is less abundant than in the wild-type cultures.

Project description:abcR1 and abcR2 produce two regulatory RNA molecules, that are produced during stationary phase growth. We used custom-made Affymetrix B. abortus strain 2308 derived GeneChips to compare the gene expression properties of wild type and isogenic abcR1 abcR2 double mutant cells.

Project description:We compared the expression profile of TTHA1939 deletion mutant strain of Thermus thermophils HB8 with that of wild-type. The mutant strain grown in minimum essential medium (CS medium) exhibited growth arrest and cellular aggregation during the logarithm growth phase. In this phase, 99 genes were suppressed and 63 genes were activated for the mutant strain. The suppressed genes included genes of ribosomal proteins, TCA cycle, amino acid biosynthesis, fatty acid biosynthesis, cobalamin biosynthesis, transporters, and cell division including dnaB and ftsZ. The activated genes included genes of nitrogen metabolism, stress proteins, and proteases. We suggested that these transcriptional alterations in the mutant cell were induced by the ppGpp accumulation which was prevented by ppGpp degradation activity of TTHA1939 in WT cell. Keywords: gene deletion, minimum essential medium, logarithm growth phase