scholarly article | Q13442814 |
P356 | DOI | 10.1128/JB.183.9.2746-2754.2001 |
P8608 | Fatcat ID | release_75biliwqlvf5dbpmfbbzngv3cm |
P932 | PMC publication ID | 99489 |
P698 | PubMed publication ID | 11292792 |
P5875 | ResearchGate publication ID | 12040858 |
P50 | author | James B. Kaper | Q42534300 |
P2093 | author name string | A Camilli | |
C Bailey | |||
D S Merrell | |||
P2860 | cites work | The cadA gene of Vibrio cholerae is induced during infection and plays a role in acid tolerance | Q47910947 |
Cholera toxin transcriptional activator toxR is a transmembrane DNA binding protein | Q48350458 | ||
The acid tolerance response of Salmonella typhimurium provides protection against organic acids | Q50136930 | ||
Antibodies to outer membrane proteins of Vibrio cholerae induce protection by inhibition of intestinal colonization of vibrios | Q68031378 | ||
Antisera to selected outer membrane proteins of Vibrio cholerae protect against challenge with homologous and heterologous strains of V. cholerae | Q77764086 | ||
DNA sequence of both chromosomes of the cholera pathogen Vibrio cholerae | Q22122394 | ||
Regulatory cascade controls virulence in Vibrio cholerae | Q24564679 | ||
High resolution two-dimensional electrophoresis of proteins | Q24608190 | ||
Measurement of protein using bicinchoninic acid | Q26778491 | ||
Tight regulation, modulation, and high-level expression by vectors containing the arabinose PBAD promoter | Q27860697 | ||
A Vibrio cholerae pathogenicity island associated with epidemic and pandemic strains | Q30429822 | ||
Mutations in each of the tol genes of Pseudomonas putida reveal that they are critical for maintenance of outer membrane stability | Q33791027 | ||
Detection and analysis of gene expression during infection by in vivo expression technology | Q33955475 | ||
The virulence regulatory protein ToxR mediates enhanced bile resistance in Vibrio cholerae and other pathogenic Vibrio species | Q34003626 | ||
Use of phoA gene fusions to identify a pilus colonization factor coordinately regulated with cholera toxin | Q34618561 | ||
Cyclic AMP in prokaryotes | Q35227904 | ||
The OmpU outer membrane protein, a potential adherence factor of Vibrio cholerae | Q35450667 | ||
Cloning and characterization of the gene encoding the OmpU outer membrane protein of Vibrio cholerae. | Q35532864 | ||
Cyclic AMP and its receptor protein negatively regulate the coordinate expression of cholera toxin and toxin-coregulated pilus in Vibrio cholerae | Q35909962 | ||
The virulence gene activator ToxT from Vibrio cholerae is a member of the AraC family of transcriptional activators | Q36132704 | ||
Expression of the Vibrio cholerae gene encoding aldehyde dehydrogenase is under control of ToxR, the cholera toxin transcriptional activator | Q36145738 | ||
Salmonella acid shock proteins are required for the adaptive acid tolerance response | Q36164293 | ||
Altered expression of the ToxR-regulated porins OmpU and OmpT diminishes Vibrio cholerae bile resistance, virulence factor expression, and intestinal colonization | Q37433287 | ||
A branch in the ToxR regulatory cascade of Vibrio cholerae revealed by characterization of toxT mutant strains | Q38350074 | ||
Characterization of outer membrane protein OmpU of Vibrio cholerae O1. | Q39573150 | ||
Regulation of vibrio cholerae genes required for acid tolerance by a member of the "ToxR-like" family of transcriptional regulators | Q39585687 | ||
OmpR regulates the stationary-phase acid tolerance response of Salmonella enterica serovar typhimurium | Q39587145 | ||
Porins of Vibrio cholerae: purification and characterization of OmpU. | Q39839977 | ||
Control of the ToxR virulence regulon in Vibrio cholerae by environmental stimuli | Q41627054 | ||
Analysis of ToxR-dependent transcription activation of ompU, the gene encoding a major envelope protein in Vibrio cholerae | Q47694404 | ||
Molecular cloning and transcriptional regulation of ompT, a ToxR-repressed gene in Vibrio cholerae | Q47892507 | ||
P4510 | describes a project that uses | ImageQuant | Q112270642 |
P433 | issue | 9 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | Vibrio cholerae | Q160821 |
P304 | page(s) | 2746-2754 | |
P577 | publication date | 2001-05-01 | |
P1433 | published in | Journal of Bacteriology | Q478419 |
P1476 | title | The ToxR-mediated organic acid tolerance response of Vibrio cholerae requires OmpU. | |
P478 | volume | 183 |
Q28563580 | A protein important for antimicrobial peptide resistance, YdeI/OmdA, is in the periplasm and interacts with OmpD/NmpC |
Q42132845 | AbuO, a TolC-like outer membrane protein of Acinetobacter baumannii, is involved in antimicrobial and oxidative stress resistance |
Q37332315 | Acid stress responses in Listeria monocytogenes. |
Q38808637 | Bile salts and alkaline pH reciprocally modulate the interaction between the periplasmic domains of Vibrio cholerae ToxR and ToxS. |
Q34044891 | Contribution of the lipopolysaccharide to resistance of Shigella flexneri 2a to extreme acidity |
Q26853737 | Coping with low pH: molecular strategies in neutralophilic bacteria |
Q43013628 | Cyclic diguanylate regulates Vibrio cholerae virulence gene expression |
Q34513683 | Cyclo(Phe-Pro) modulates the expression of ompU in Vibrio spp. |
Q33384597 | Diversity and seasonality of bioluminescent Vibrio cholerae populations in Chesapeake Bay |
Q51144560 | Environmental role of pathogenic traits in Vibrio cholerae. |
Q34077145 | Evolutionary consequences of intra-patient phage predation on microbial populations |
Q34505744 | Genome-wide analysis of the Pho regulon in a pstCA mutant of Citrobacter rodentium |
Q33314519 | Identification of Campylobacter jejuni genes contributing to acid adaptation by transcriptional profiling and genome-wide mutagenesis |
Q36483122 | Identification of Campylobacter jejuni genes involved in the response to acidic pH and stomach transit |
Q43352607 | Identification of novel factors involved in colonization and acid tolerance of Vibrio cholerae |
Q49087135 | In vitro and in vivo expression of virulence genes in Vibrio isolates belonging to the Harveyi clade in relation to their virulence towards gnotobiotic brine shrimp (Artemia franciscana). |
Q43262073 | Increased chatter: cyclic dipeptides as molecules of chemical communication in Vibrio spp. |
Q34477267 | Intestinal Colonization Dynamics of Vibrio cholerae. |
Q41828788 | Isolation and characterization of Vibrio tubiashii outer membrane proteins and determination of a toxR homolog |
Q42637659 | Lysine decarboxylase of Vibrio parahaemolyticus: kinetics of transcription and role in acid resistance |
Q49985266 | Mechanisms of the evolutionary arms race between Vibrio cholerae and Vibriophage clinical isolates |
Q41846822 | Modulation of responses of Vibrio parahaemolyticus O3:K6 to pH and temperature stresses by growth at different salt concentrations |
Q33835587 | OmpU as a biomarker for rapid discrimination between toxigenic and epidemic Vibrio cholerae O1/O139 and non-epidemic Vibrio cholerae in a modified MALDI-TOF MS assay. |
Q30396614 | Origins of pandemic Vibrio cholerae from environmental gene pools. |
Q35598800 | Positive regulation of the Vibrio cholerae porin OmpT by iron and fur |
Q38626448 | Post-Genomic Analysis of Members of the Family Vibrionaceae |
Q35596236 | Proteolysis of virulence regulator ToxR is associated with entry of Vibrio cholerae into a dormant state. |
Q40452473 | Reactivity of typhoid patients sera with stress induced 55 kDa phenotype in Salmonella enterica serovar Typhi. |
Q36895783 | Regulation of virulence in Vibrio cholerae: the ToxR regulon |
Q44691006 | Relationship between the effects of stress induced by human bile juice and acid treatment in Vibrio cholerae. |
Q36958090 | Role of the histone-like nucleoid structuring protein in the regulation of rpoS and RpoS-dependent genes in Vibrio cholerae |
Q40705279 | Spatiotemporal analysis of acid adaptation-mediated Vibrio cholerae hyperinfectivity |
Q35564002 | Substrate-dependent activation of the Vibrio cholerae vexAB RND efflux system requires vexR |
Q89621077 | The Impact of Protozoan Predation on the Pathogenicity of Vibrio cholerae |
Q36739367 | The LysR-type regulator LeuO regulates the acid tolerance response in Vibrio cholerae |
Q30368383 | The Vibrio cholerae Cpx envelope stress response senses and mediates adaptation to low iron. |
Q35944097 | The Vibrio parahaemolyticus ToxRS regulator is required for stress tolerance and colonization in a novel orogastric streptomycin-induced adult murine model |
Q36209302 | The acid adaptive tolerance response in Campylobacter jejuni induces a global response, as suggested by proteomics and microarrays |
Q35892034 | The ompU Paralogue vca1008 is required for virulence of Vibrio cholerae |
Q35180934 | The role of gastric acid in preventing foodborne disease and how bacteria overcome acid conditions |
Q30386790 | ToxR Antagonizes H-NS Regulation of Horizontally Acquired Genes to Drive Host Colonization |
Q36831725 | ToxR interferes with CRP-dependent transcriptional activation of ompT in Vibrio cholerae. |
Q47141580 | Transcriptional Regulation of the Type VI Secretion System 1 Genes by Quorum Sensing and ToxR in Vibrio parahaemolyticus |
Q41342972 | Vibrio cholerae RND family efflux systems are required for antimicrobial resistance, optimal virulence factor production, and colonization of the infant mouse small intestine |
Q36833015 | Vibrio cholerae VttR(A) and VttR(B) regulatory influences extend beyond the type 3 secretion system genomic island |
Q34133834 | Vibrio cholerae and cholera: out of the water and into the host |
Q36208071 | Vibrio cholerae leuO Transcription Is Positively Regulated by ToxR and Contributes to Bile Resistance |
Q35006411 | Vibrio cholerae porin OmpU induces pro-inflammatory responses, but down-regulates LPS-mediated effects in RAW 264.7, THP-1 and human PBMCs |
Q90391178 | Vibrio cholerae residing in food vacuoles expelled by protozoa are more infectious in vivo |
Q39755125 | pH-regulated gene expression of the gastric pathogen Helicobacter pylori |