Project description:Vibrio parahaemolyticus is a Gram-negative marine bacterium. A limited population of the organisms causes acute gastroenteritis in humans. Vibrio parahaemolyticus wild type strain RIMD 2210633 compared with the mutants of VtrA and VtrB have a winged helix-turn-helix DNA binding motif that genes encoded on pathogenicity island loci, at OD600=1.0 in Luria-Bertani containing medium 0.5 % NaCl at 37˚C. Our goal is to determine the VtrA or VtrB regulon.

Project description:Vibrio parahaemolyticus is a Gram-negative marine bacterium. A limited population of the organisms causes acute gastroenteritis in humans. Vibrio parahaemolyticus wild type strain RIMD 2210633 compared with the mutants of VtrA and VtrB have a winged helix-turn-helix DNA binding motif that genes encoded on pathogenicity island loci, at OD600=1.0 in Luria-Bertani containing medium 0.5 % NaCl at 37˚C. Our goal is to determine the VtrA or VtrB regulon. Cohybridized wild type versus vtrA or vtrB mutants on a single array. Biological replicates: three of wild type, three of vtrA mutants and three of vtrB mutants were independently grown and harvested.

Project description:Vibrio parahaemolyticus is a Gram-negative marine bacterium. Strain RIMD 2210633, the wild type strain of the organism, causes acute gastroenteritis in humans. Human intestinal factor bile often affects the global gene regulation in some species of enteropathogenic bacteria. To determine the genes in V. parahaemolyticus that respond to bile, we investigated the differences in the transcriptomes of the wild type strain and the vtrA-null strain grown in Luria-Bertani medium cultivated with or without 0.04% crude bile. The vtrA gene encodes the previously identified T3SS2 regulator. Our goal is to demonstrate bile regulon controlled by VtrA in V. parahaemolyticus.

Project description:In order to gain a better understanding of the impact of Vibrio parahaemolyticus infection on genetic regulation of Litopenaeus vannamei,we performed a miRNA-seq analysis in the hepatopancreas of Litopenaeus vannamei challenged with Vibrio parahaemolyticus, using the Illumina HiSeq 2500 platform.

Project description:In order to gain a better understanding of the impact of Vibrio parahaemolyticus infection on genetic regulation of Litopenaeus vannamei,we performed a transcriptome analysis in the hepatopancreas of Litopenaeus vannamei challenged with Vibrio parahaemolyticus, using the Illumina HiSeq 2500 platform.

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:Here we probe the global response to calcium in the marine bacterium and pathogen Vibrio parahaemolyticus by using transcriptome, reporter and phenotypic analyses. Swarming gene expression and motility were enhanced by calcium. Calcium also stimulated expression and function of one of the organismM-bM-^@M-^Ys two type three secretion systems (T3SS1 but not the T3SS2). Although low calcium is an inducing signal for the T3SS of many organisms, calcium stimulation of T3SS has not been reported before. EGTA was also a stimulus for T3SS1 expression and activity; however this appeared to be the consequence of iron rather than calcium chelation. LafK, a key regulator of swarming genes, was found necessary for calcium induction of T3SS1 gene transcription and cytotoxicity. Regulation of swarming and T3SS1 were additionally linked by a negative feedback loop propagated by ExsA. Overexpression of exsA was used to probe the extent of the T3SS1 regulon and verify its coincident induction by calcium and EGTA. The calcium transcriptome analysis revealed a calcium-repressed LysR-type transcriptional regulator; CalR was shown to repress swarming and T3SS1 gene expression. Thus in V. parahaemolyticus, calcium influences gene expression and behavior and seems a signal pertinent for surface colonization and virulence. The gene expression profiles of Vibrio parahaemolyticus cells grown on rich medium or medium supplemented with CaCl2 or EGTA were compared using Affymetrix custom microarrays.

Project description:Vibrio parahaemolyticus an emerging pathogen that is a causative agent of foodborne gastroenteritis when raw or undercooked seafood is consumed. Previous microarray data using a Vibrio parahaemolyticus RIMD2210633 chip has shown the master quorum-sensing regulator OpaR controls virulence, type III and type VI secretion systems, and flagellar and capsule production genes. In a parallel study, RNA-Seq was used to comparatively study the transcriptome changes of wild type Vibrio parahaemolyticus BB22 and a ΔopaR strain directly. Differences in mRNA expression were analyzed using next generation Illumina sequencing and bioinformatics techniques to align and count reads. A comparison with the previous microarray data showed good correlation between the shared genes. The RNA-Seq offered an insight into control of genes specific to the Vibrio parahaemolyticus BB22 strain as well as a new look at the sRNAs that are expressed. Eleven transcriptional regulators with greater than 4 fold regulation in the previous microarray study and 2 fold regulation in the RNA-Seq analysis, were chosen to validate the data using qRT-PCR and further characterized with electrophoretic mobility shift assays (EMSAs) to determine if they are direct targets of OpaR. The transcription factors chosen play key roles in virulence, surface motility, cell to cell interactions, and cell surface characteristics. One small RNA was identified in the RNA-Seq data to be quorum-sensing controlled and unidentified by other programs. The RNA-Seq data has aided in understanding and elucidating the hierarchy of quorum-sensing control of OpaR in Vibrio parahaemolyticus. The wild type Vibrio parahaemolyticus BB22 strain LM5312 and an opaR deletion strain LM5674 were analyzed for mRNA expression using RNA-Seq.

Project description:Ocean global warming affects the distribution, life history and physiology of marine life. Extreme events, like marine heatwaves, are increasing in frequency and intensity. During sensitive developmental windows of fish, the consequences may be long-lasting and mediated by epigenetic mechanisms. Here, we used adult European sea bass as a model to study the effects of a marine heatwave during development. We measured DNA methylation and gene expression in four tissues (brain, muscle, liver and testis) and detected differentially methylated regions (DMRs). Six genes were differentially expressed and contained DMRs three years after exposure to increased temperature, indicating direct phenotypic consequences and representing persistent changes. Interestingly, nine genes contained DMRs around the same genomic regions across tissues, therefore consisting of common footprints of developmental temperature in environmentally responsive loci. These loci are, to our knowledge, the first metastable epialleles (MEs) described in fish. MEs may serve as biomarkers to infer past life history events linked with persistent consequences. These results highlight the importance of subtle phenotypic changes mediated by epigenetics to extreme weather events during sensitive life stages. Also, to our knowledge, it is the first time the molecular effects of a marine heatwave during the lifetime of individuals are assessed. MEs could be used in surveillance programs aimed at determining the footprints of climate change on marine life. Our study paves the way for the identification of conserved MEs that respond equally to environmental perturbations across species. Conserved MEs would constitute a tool of assessment of global change effects in marine life at a large scale.

Project description:Vibrio parahaemolyticus an emerging pathogen that is a causative agent of foodborne gastroenteritis when raw or undercooked seafood is consumed. Previous microarray data using a Vibrio parahaemolyticus RIMD2210633 chip has shown the master quorum-sensing regulator OpaR controls virulence, type III and type VI secretion systems, and flagellar and capsule production genes. In a parallel study, RNA-Seq was used to comparatively study the transcriptome changes of wild type Vibrio parahaemolyticus BB22 and a ΔopaR strain directly. Differences in mRNA expression were analyzed using next generation Illumina sequencing and bioinformatics techniques to align and count reads. A comparison with the previous microarray data showed good correlation between the shared genes. The RNA-Seq offered an insight into control of genes specific to the Vibrio parahaemolyticus BB22 strain as well as a new look at the sRNAs that are expressed. Eleven transcriptional regulators with greater than 4 fold regulation in the previous microarray study and 2 fold regulation in the RNA-Seq analysis, were chosen to validate the data using qRT-PCR and further characterized with electrophoretic mobility shift assays (EMSAs) to determine if they are direct targets of OpaR. The transcription factors chosen play key roles in virulence, surface motility, cell to cell interactions, and cell surface characteristics. One small RNA was identified in the RNA-Seq data to be quorum-sensing controlled and unidentified by other programs. The RNA-Seq data has aided in understanding and elucidating the hierarchy of quorum-sensing control of OpaR in Vibrio parahaemolyticus.