Project description:The phenomenon of viable but non-culturable (VBNC) referred as a dormant state of non-sporulating bacteria enhancing the survival in adverse environments. To our knowledge, only few studies have been performed on whole genomic expression of V. parahaemolyticus in VBNC state compared with cells in exponential and early stationary phases. Since many VBNC state studies found DNA, RNA and protein degradation, we hypothesise that gene regulation of VBNC cells is highly reduced, down-regulation of gene expression is dominant and only metabolic functions crucial for survival are kept on a sustained basis. In the VBNC state we found 509 significantly induced genes and 309 significantly repressed by more than twofold compared with unstressed phases among 4820 investigated genes (adjusted P-value < 0.05). Furthermore, up-regulation was dominant in most of the non-metabolism functional categories, while five metabolism-related functional categories revealed down-regulation in the VBNC state. To our knowledge, this is the first study of comprehensive transcriptomic analyses of three phases of V. parahaemolyticus RIMD2210633. Although the mechanism of VBNC state is not yet clear, massive regulation of gene expression occurs in the VBNC state compared with expression in unstressed phases and thus, VBNC cells are active cells. VBNC state gene expression was detected in total bacterial RNA of V. parahaemolyticus. Three phases (exponential phase, early stationary phase, and VBNC state) were used in 8 biological replicates. Gene expression in exponential phase and early stationary phase was used for normalization, respectively.

Project description:Naturally bacteria are commonly forced to remain in stationary phase. There is no increase in cell mass, however, cell division keep on. Vibrio (V.) parahaemolyticus is an aquatic bacterium capable of causing foodborne gastroenteritis outbreaks all over the world. So far, little is known about whole genomic expression of V. parahaemolyticus in the early stationary phase compared with the phase of exponential growth. Since under starvation cell sizes decrease and endogenous metabolism reduces, genes are considered to be highly repressed in the stationary phase. However, our data shows in total 172 induced genes, while 61 genes were repressed in the early stationary phase compared with exponential phase. In fatty acid and phospholipid metabolism functional category only induced genes were found, whereas in three other metabolic functional groups appeared no significant up-regulated genes (adjusted P-value<0.05). Genes in two metabolic functional categories remained stable in the early stationary phase. DAVID analyses were carried out exploring the gene regulation. In total, ten functional categories showed a total up-regulation in early stationary phase, while only three metabolic functional categories showed a down-regulation and four categories showed stably in early stationary phase.

Project description:Vibrio (V.) parahaemolyticus is the leading cause of seafood borne gastro-intestinal infections in humans worldwide. It is widely found in marine environments and is isolated frequently from seawater, estuarine waters, sediments and raw or insufficiently cooked seafood. Within the food chain, V. parahaemolyticus encounters different temperature conditions that might alter the metabolism and pathogenicity of the bacterium. In this study, we performed gene expression profiling of V. parahaemolyticus RIMD 2210633 after exposure to 4°C, 15°C, 20°C, 37°C and 42°C to describe the cold and heat shock response. Analysis of transcriptomics data resulted in differential expression of 19 genes at 20°C, 193 genes at 4°C, 625 genes at 42°C and 639 genes at 15°C. Thus the highest portion of significantly expressed genes was observed at 15°C and 42°C with 13.3% and 13%, respectively. Genes of many functional categories were highly regulated even at lower temperatures. Our results showed that virulence associated genes (tdh1, tdh2, toxR, toxS, vopC, T6SS1, T6SS2) remained largely unaffected by heat or cold stresses. Along with folding and temperature shock depending systems, an overall temperature depended regulation of expression could be shown. Particularly the energy metabolism was affected most by changed temperatures. Whole-genome gene expression studies of food related pathogens such as V. parahaemolyticus reveal how these pathogens react to stress impacts for prediction of its behaviour under conditions like storage and transport. Temperature induced gene expression was detected in total bacterial RNA of V. parahaemolyticus. Five different temperatures (4°C, 15°C, 20°C, 37°C, 42°C) were used in at least 3 biological replicates (4 replicates for 37°C). Gene expression at 37°C was used for normalization.

Project description:The anaerobic Gram-positive bacterium Propionibacterium acnes is a human skin commensal, but is occasionally associated with inflammatory diseases. Recent work has indicated that evolutionary distinct lineages of P. acnes play etiologic roles in disease while others are associated with health. To shed light on the molecular basis for differential strain properties, we carried out genomic and transcriptomic analysis of distinct P. acnes strains. We sequenced the genome of the P. acnes strain 266, a type I-1a sequence type (ST) 18 strain. Comparative genome analysis of strain 266 and four other P. acnes strains revealed that overall genome plasticity is relatively low; however, a number of island-like genomic regions, encoding a variety of putative virulence-associated and fitness traits, differ between phylotypes. Comparative transcriptome analysis revealed that 225 genes of strain KPA171202 (type I-2, ST34) were differentially transcribed in strain 266 during exponential growth. 47% of these genes belong to the strain-specific gene content of strain KPA171202, indicating that strain-specific functions are utilized. Next, we studied differential expression during exponential and stationary growth phases. Genes encoding components of the energy-conserving respiratory chain as well as secreted and virulence-associated factors were transcribed during the exponential phase, while the stationary growth phase was characterized by up-regulation of genes involved in the stress response and amino acid metabolism. Taken together, our data highlight the genomic basis for strain diversity and identify, for the first time, the transcribed part of the genome, underling the important role active growth plays in the inflammatory activity of P. acnes. We argue that the disease-causing potential of different P. acnes strains is not only determined by variable genome content but also, and to a greater degree, by variable transcriptomes. Microarray experiments were performed as dual-color hybridizations. In order to compensate specific effects of the dyes and to ensure statistically relevant data analysis, a color-swap dye-reversal was performed. Two different labeling methods were applied. RNA labeling was performed with the two color Quick Amp Labeling Kit (Agilent Technologies) using FullSpectrum MultiStart Primer for T7 IVT RNA Amplification (BioCat GmbH, Heidelberg, Germany) as random T7 labeling. Alternatively, the total RNA samples were amplified with the TransPlex Whole Transcriptome Amplification Kit (Sigma-Aldrich, Munich, Germany) and labeled with BioPrime Plus Array CGH Indirect Genomic Labeling System (Invitrogen, Karlsruhe, Germany) as WTA BioPrime indirect. Both methods were compared and combined for final data analysis.

Project description:The phenomenon of viable but non-culturable (VBNC) referred as a dormant state of non-sporulating bacteria enhancing the survival in adverse environments. To our knowledge, only few studies have been performed on whole genomic expression of V. parahaemolyticus in VBNC state compared with cells in exponential and early stationary phases. Since many VBNC state studies found DNA, RNA and protein degradation, we hypothesise that gene regulation of VBNC cells is highly reduced, down-regulation of gene expression is dominant and only metabolic functions crucial for survival are kept on a sustained basis. In the VBNC state we found 509 significantly induced genes and 309 significantly repressed by more than twofold compared with unstressed phases among 4820 investigated genes (adjusted P-value < 0.05). Furthermore, up-regulation was dominant in most of the non-metabolism functional categories, while five metabolism-related functional categories revealed down-regulation in the VBNC state. To our knowledge, this is the first study of comprehensive transcriptomic analyses of three phases of V. parahaemolyticus RIMD2210633. Although the mechanism of VBNC state is not yet clear, massive regulation of gene expression occurs in the VBNC state compared with expression in unstressed phases and thus, VBNC cells are active cells.

Project description:Vibrio parahaemolyticus is the causative agent of food-borne gastroenteritis disease. Once consumed, human acid gastric fluid is perhaps one of the most important environmental stresses imposed on the bacterium. Herein, for the first time, we investigated Vibrio parahaemolyticus CHN25 response to artificial gastric fluid (AGF) stress by transcriptomic analysis. The bacterium at logarithmic growth phase (LGP) displayed lower survival rates than that at stationary growth phase (SGP) under a sub-lethal acid condition (pH 4.9). Transcriptome data revealed that 11.6% of the expressed genes in Vibrio parahaemolyticus CHN25 was up-regulated in LGP cells after exposed to AGF (pH 4.9) for 30 min, including those involved in sugar transport, nitrogen metabolism, energy production and protein biosynthesis, whereas 14.0% of the genes was down-regulated, such as ABC transporter and flagellar biosynthesis genes. In contrast, the AGF stress only elicited 3.4% of the genes from SGP cells, the majority of which were attenuated in expression. Moreover, the number of expressed regulator genes was also substantially reduced in SGP cells. Comparison of transcriptome profiles further revealed forty-one growth-phase independent genes in the AGF stress, however, half of which displayed distinct expression features between the two growth phases. Vibrio parahaemolyticus seemed to have evolved a number of molecular strategies for coping with the acid stress. The data here will facilitate future studies for environmental stresses and pathogenicity of the leading food-borne pathogen worldwide. When V.parahemolyticus CHN25 grown to log phase and stationary phase at 37°C in TSB-3% NaCl, different cultures were subsequently exposed to artificial gastric fluid at 37°C for 30 min. Two independent experiments were performed at each phase for microarray expreriments.

Project description:Transcriptome comparison of Streptococcus suis wildtype and argR knock-out strain grown to exponential or early-stationary phase, respectively.

Project description:ChIP-chip analysis of RNA Polymerase (RNAP), RpoD, RpoE, RpoH and RpoN in exponential phase (OD 0.2) and early stationary phase (OD 2.0) Salmonella enterica serovar Typhimurium SL1344 cultures

Project description:We report that ChIP-seq analyses of the quorum-sensing regulator OpaR at late-log and stationary phase in Vibrio parahaemolyticus

Project description:This project provides tandem mass spectrometry data of extracellular non-covalently bound cell surface proteins from samples of Bacillus cereus AH187 strain. The wild-type strain was grown on liquid MOD medium supplemented with glucose and harvested at five growth stages: early exponential, late exponential, stationary phase, tardive stationary 1 and tardive stationary 2.