Project description:Genes necessary for the survival or reproduction of a cell are an attractive class of antibiotic targets. Studying essential genes by classical genetics, however, is inherently problematic because it is impossible to knock them out. Here, we screened a set of predicted essential genes for growth inhibition using CRISPR-interference (CRISPRi) knockdown in the human pathogen Vibrio cholerae We demonstrate that CRISPRi knockdown of 37 predicted essential genes inhibits V. cholerae viability, thus validating the products of these genes as potential drug target candidates. V. cholerae was particularly vulnerable to lethal inhibition of the system for lipoprotein transport (Lol), a central hub for directing lipoproteins from the inner to the outer membrane (OM), with many of these lipoproteins coordinating their own essential processes. Lol depletion makes cells prone to plasmolysis and elaborate membrane reorganization, during which the periplasm extrudes into a mega outer membrane vesicle or "MOMV" encased by OM which dynamically emerges specifically at plasmolysis sites. Our work identifies the Lol system as an ideal drug target, whose inhibition could deplete gram-negative bacteria of numerous proteins that reside in the periplasm.

Project description:Vibrio cholerae utilizes mannitol through an operon of the phosphoenolpyruvate-dependent phosphotransferase (PTS) type. A gene, mtlD, encoding mannitol-1-phosphate dehydrogenase was identified within the 3.9 kb mannitol operon of V. cholerae. The mtlD gene was cloned from V. cholerae O395, and the recombinant enzyme was functionally expressed in E. coli as a 6×His-tagged protein and purified to homogeneity. The recombinant protein is a monomer with a molecular mass of 42.35 kDa. The purified recombinant MtlD reduced fructose 6-phosphate (F6P) using NADH as a cofactor with a K(m) of 1.54 +/- 0.1 mM and V(max) of 320.8 +/- 7.81 micronmol/min/mg protein. The pH and temperature optima for F6P reduction were determined to be 7.5 and 37°C, respectively. Using quantitative real-time PCR analysis, mtlD was found to be constitutively expressed in V. cholerae, but the expression was up-regulated when grown in the presence of mannitol. The MtlD expression levels were not significantly different between V. cholerae O1 and non-O1 strains.

Project description:Many bacteria use quorum sensing (QS) to regulate virulence factor production in response to changes in population density. QS is mediated through the production, secretion, and detection of signaling molecules called autoinducers (AIs) to modulate population-wide behavioral changes. Four histidine kinases, LuxPQ, CqsS, CqsR and VpsS, have been identified in Vibrio cholerae as QS receptors to activate virulence gene expression at low cell density. Detection of AIs by these receptors leads to virulence gene repression at high cell density. The redundancy among these receptors is puzzling since any one of the four receptors is sufficient to support colonization of V. cholerae in the host small intestine. It is believed that one of the functions of such circuit architecture is to prevent interference on any single QS receptor. However, it is unclear what natural molecules can interfere V. cholerae QS and in what environment interference is detrimental. We show here mutants expressing only CqsR without the other three QS receptors are defective in colonizing the host large intestine. We identified ethanolamine, a common intestinal metabolite that can function as a chemical source of QS interference. Ethanolamine specifically interacts with the ligand-binding CACHE domain of CqsR and induces a premature QS response in V. cholerae mutants expressing only CqsR without the other three QS receptors. The effect of ethanolamine on QS gene expression and host colonization is abolished by mutations that disrupt CqsR signal sensing. V. cholerae defective in producing ethanolamine is still proficient in QS, therefore, ethanolamine functions only as an external cue for CqsR. Our findings suggest the inhibitory effect of ethanolamine on CqsR could be a possible source of QS interference but is masked by the presence of the other parallel QS pathways, allowing V. cholerae to robustly colonize the host.

Project description:The structural gene for the Vibrio cholerae leucine aminopeptidase (lap) was cloned and sequenced. The cloned DNA fragment contained a 1,503-bp open reading frame potentially encoding a 501-amino-acid polypeptide with a calculated molecular mass of 54,442 Da. The deduced amino acid sequence of the entire protein showed high homology with the sequence of Vibrio proteolyticus leucine aminopeptidase. The residues potentially involved in binding the zinc ions were completely conserved in the V. cholerae aminopeptidase as well as in the V. proteolyticus aminopeptidase. The recombinant protein was partially purified and characterized. The molecular mass was estimated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis to be 34 kDa, suggesting a processing of the protein to acquire the mature form. The protease showed maximum activity at pH 9.0 and was thermostable at 70 degrees C. The substrate leucyl-p-nitroanilide was cleaved by the protease, and its activity was inhibited by EDTA and bestatin. These results suggested that the protein was a leucine aminopeptidase. The PCR analysis of lap gene distribution showed that it was widely distributed among the V. cholerae strains. It was not present in the other species examined.

Project description:A cgtA-depletion strain in V. cholerae was constructed and used to identify changes in gene expression that occur due to loss of the gene product. This information was then used to characterize the role of the gene, which was found to be involved in stress response. Keywords: Depletion strain, stress response

Project description:Group behavior of the human pathogen Vibrio cholerae, including biofilm formation and virulence factor secretion, is mediated by a process known as quorum sensing. Quorum sensing is a way by which bacteria coordinate gene expression in response to population density through the production, secretion, and detection of small molecules called autoinducers. Four autoinducer-mediated receptor histidine kinases have been implicated in quorum sensing through the phosphotransfer protein LuxU: CqsS, LuxP/Q, CqsR, and VpsS (Vc1445). Of these receptor kinases, VpsS is predicted to be cytosolic, and its cognate autoinducer is currently unknown. In this study, we demonstrate that the nitric oxide-bound complex of a member of the recently discovered family of nitric oxide-responsive hemoproteins called NosP (VcNosP is encoded by Vc1444; this gene product is also known as VpsV) inhibits the autophosphorylation activity of VpsS and thus phosphate flow to LuxU. Therefore, we propose that VpsS contributes to the regulation of quorum sensing in a nitric-oxide-dependent manner through its interaction with NosP.

Project description:Many genes involved in the transport of iron by bacteria as well as in pathogenesis are regulated by the environmental concentration of iron, with increased expression under low-iron conditions. In Escherichia coli, transcriptional regulation by iron depends on the fur gene. A virulence gene in Vibrio cholerae (irgA) is also transcriptionally regulated by iron, and the promoter of irgA contains a dyad repeat homologous to Fur binding sites in E. coli. Southern hybridization of V. cholerae chromosomal DNA, using an internal fragment of E. coli fur as a probe, showed a single hybridizing sequence under conditions of low stringency. We derived a restriction map in the vicinity of this hybridizing sequence; overlapping PstI and HindIII fragments were identified at the center of this map. The cloned PstI fragment failed to complement an E. coli fur mutant; sequence analysis revealed an open reading frame that began just downstream of the PstI site, suggesting that the clone was not functional because it lacked its promoter. The overlapping HindIII fragment contained the intact V. cholerae fur gene with its promoter and complemented an E. coli fur mutant. DNA sequencing of the HindIII fragment demonstrated a single open reading frame of 150 amino acids that was 76% homologous to E. coli Fur. Primer extension analysis localized two promoters for the V. cholerae fur gene; no significant homology to an E. coli Fur binding site was identified for either promoter. Northern blot analysis showed that the two fur transcripts were not strongly regulated by iron. These studies identify a gene in V. cholerae homologous in both function and sequence to the fur gene of E. coli, and we have designated this gene the fur gene of V. cholerae.

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:Environmental isolates of Vibrio cholerae from California coastal water compared to reference strain N16961. A genotyping experiment design type classifies an individual or group of individuals on the basis of alleles, haplotypes, SNP's. Keywords: genotyping_design; array CGH

Project description:Transcriptional profiling comparing a V. cholerae cpxA* mutant relative to WT at an OD600 of 1.