Project description:RpoS Controls the Vibrio cholerae Mucosal Escape Response

Project description:This study is an analysis of changes in gene expression during stringent response in Vibrio cholerae. V. cholerae cells in mid-log were treated with serine hydroxamate and gene expression was compared to untreated cells. Keywords: Stress response, stringent response

Project description:Using transcriptomics, we studied the transcriptional response of Vibrio cholerae to 10 min of exogenously supplied peptidoglycan at 300 µg/mL.

Project description:Investigation of whole genome gene expression level changes in a Vibrio cholerae O395N1 delta-nqrA-F mutant, compared to the wild-type strain. Total RNA recovered from wild-type cultures of VIbrio cholerae O395N1 and its nqrA-F mutant strain. Each chip measures the expression level of 3,835 genes from Vibrio cholerae O1 biovar eltor str. N16961 with twenty average probes/gene, with five-fold technical redundancy.

Project description:We exposed wild-type Vibrio cholerae E7496, multiple Vibrio cholerae virulence factor deleted genes with intact hemolysin A gene [CVD109] and without hemolysin A gene [CVD110] in E7946, and E.coli OP50 to wild-type C.elegans N2 for 18 hours. We used microarrays to detail the global gene expression and identified distinct classes of up-regulated and down-regulated genes during this process. C. elegans were exposed to Vibrio cholerae and E.coli then hybridization on Affymetrix microarray chips.

Project description:We used RNA-seq to determine transcriptional profiles of whole guts or IPCs isolated from guts infected with wild type or type VI secretion system deficient Vibrio cholerae. We found significant differences between guts and progenitor cells infected wild type or type VI secretion system deficient Vibrio cholerae.

Project description:Study of the effect of L-Arabinose on chromosomes replication forks progression in Vibrio cholerae. Processed wig.mat file.

Project description:We identified the mutated gene locus in a pigment overproducing Vibrio cholerae mutant of strain A1552. The deduced gene product is suggested to be a oxidoreductase based on partial homology to putative homogentisate 1,2-dioxygenase in Pseudomonas aeruginosa and Mesorhizobium loti and we propose that the gene VC1345 in the V. cholerae genome be denoted hmgA in accordance with the nomenclature for other species. The hmgA::miniTn5 mutant showed a non-pigmented phenotype after complementation with a plasmid clone carrying the wild type hmgA+ locus. Microarray transcription analysis revealed that expression of hmgA, and the neighboring genes encoding a postulated two component sensor system, was growth phase dependent. Results from qRT-PCR analysis showed that hmgA operon expression was reduced in the rpoS mutant, but pigment production by the wild type V. cholerae or the hmgA mutant was not detectably influenced by the stationary phase regulator RpoS. The pigmented mutant showed increased UV resistance in comparison with the wild-type strain. Interestingly, the pigment producing mutant expressed more toxin co-regulated pili and cholera toxin in comparison with wild type V. cholerae. Moreover, the hmgA mutant showed a 5-fold increase in the ability to colonize the intestines of infant mice. A possible mechanism by which pigment production might cause induction of the ToxR regulon due to generation of hydrogen peroxide was supported by results from tests showing that externally supplied H2O2 led to higher TcpA levels. Taken together, our findings suggest that melanin pigment formation may play a role in V. cholerae virulence factor expression. Groups of assays that are related as part of a time series. Elapsed Time: Wild type V. cholerae strain A1552 bacteria were cultured statically for 4 h in AKI medium at 37C and then shifted to aerobic growth for 6 h using shaken culture flasks. Samples were taken at hourly during the this process. Keywords: time_series_design Using regression correlation

Project description:We exposed wild-type Vibrio cholerae E7496, multiple Vibrio cholerae virulence factor deleted genes with intact hemolysin A gene [CVD109] and without hemolysin A gene [CVD110] in E7946, and E.coli OP50 to wild-type C.elegans N2 for 18 hours. We used microarrays to detail the global gene expression and identified distinct classes of up-regulated and down-regulated genes during this process.

Project description:Transcriptional profiling of Vibrio Cholerae RpoE deletion mutant in toxSL33S mutation background