scholarly article | Q13442814 |
review article | Q7318358 |
P2093 | author name string | Anisia J Silva | |
Jorge A Benitez | |||
P2860 | cites work | Genome architecture and global gene regulation in bacteria: making progress towards a unified model? | Q86523950 |
RpoS controls the Vibrio cholerae mucosal escape response | Q21559520 | ||
Biofilms: survival mechanisms of clinically relevant microorganisms | Q22299328 | ||
Regulatory cascade controls virulence in Vibrio cholerae | Q24564679 | ||
Roles of cyclic diguanylate in the regulation of bacterial pathogenesis | Q24656979 | ||
Host-induced epidemic spread of the cholera bacterium | Q24657125 | ||
Effect of viscosity on swimming by the lateral and polar flagella of Vibrio alginolyticus | Q24682694 | ||
Hyperinfectivity: a critical element in the ability of V. cholerae to cause epidemics? | Q24814721 | ||
Vibrio cholerae infection of Drosophila melanogaster mimics the human disease cholera | Q24817194 | ||
Insights into Vibrio cholerae intestinal colonization from monitoring fluorescently labeled bacteria | Q27323928 | ||
Vibrio cholerae VpsT Regulates Matrix Production and Motility by Directly Sensing Cyclic di-GMP | Q27659762 | ||
Crystal Structure of the Vibrio cholerae Colonization Factor TcpF and Identification of a Functional Immunogenic Site | Q27667330 | ||
The Vibrio cholerae Colonization Factor GbpA Possesses a Modular Structure that Governs Binding to Different Host Surfaces | Q27676785 | ||
Structural Basis for Biofilm Formation via the Vibrio cholerae Matrix Protein RbmA | Q27678190 | ||
Biofilm Matrix Proteins | Q28085056 | ||
The phosphate regulon and bacterial virulence: a regulatory network connecting phosphate homeostasis and pathogenesis | Q28267290 | ||
The small RNA chaperone Hfq and multiple small RNAs control quorum sensing in Vibrio harveyi and Vibrio cholerae | Q28270975 | ||
TcpP protein is a positive regulator of virulence gene expression in Vibrio cholerae | Q28485708 | ||
How phosphotransferase system-related protein phosphorylation regulates carbohydrate metabolism in bacteria | Q36678721 | ||
Integration host factor positively regulates virulence gene expression in Vibrio cholerae | Q36747405 | ||
Mucosal penetration primes Vibrio cholerae for host colonization by repressing quorum sensing | Q36775203 | ||
Use of recombinase gene fusions to identify Vibrio cholerae genes induced during infection | Q36805445 | ||
Vibrio cholerae CytR is a repressor of biofilm development | Q36835985 | ||
Regulation of virulence in Vibrio cholerae: the ToxR regulon | Q36895783 | ||
Intestinal adherence of Vibrio cholerae involves a coordinated interaction between colonization factor GbpA and mucin | Q36949942 | ||
Vibrio cholerae hemagglutinin/protease, colonial variation, virulence, and detachment | Q36957745 | ||
Role of the histone-like nucleoid structuring protein in the regulation of rpoS and RpoS-dependent genes in Vibrio cholerae | Q36958090 | ||
Roles of motility and flagellar structure in pathogenicity of Vibrio cholerae: analysis of motility mutants in three animal models | Q36967231 | ||
Cyclic AMP post-transcriptionally regulates the biosynthesis of a major bacterial autoinducer to modulate the cell density required to activate quorum sensing | Q36980559 | ||
A quinazoline-2,4-diamino analog suppresses Vibrio cholerae flagellar motility by interacting with motor protein PomB and induces envelope stress | Q37036431 | ||
Vibrio cholerae O139 Bengal | Q37093399 | ||
Climate and infectious disease: use of remote sensing for detection of Vibrio cholerae by indirect measurement | Q37103393 | ||
Cell envelope perturbation induces oxidative stress and changes in iron homeostasis in Vibrio cholerae | Q37302053 | ||
Bicarbonate Induces Vibrio cholerae virulence gene expression by enhancing ToxT activity. | Q37333396 | ||
Vibrio biofilms: so much the same yet so different | Q37397388 | ||
Both chemotaxis and net motility greatly influence the infectivity of Vibrio cholerae | Q37415915 | ||
Altered expression of the ToxR-regulated porins OmpU and OmpT diminishes Vibrio cholerae bile resistance, virulence factor expression, and intestinal colonization | Q37433287 | ||
PilZ domain proteins bind cyclic diguanylate and regulate diverse processes in Vibrio cholerae | Q37465613 | ||
The PhoB regulatory system modulates biofilm formation and stress response in El Tor biotype Vibrio cholerae | Q37474004 | ||
The Vibrio cholerae flagellar regulatory hierarchy controls expression of virulence factors | Q37481380 | ||
Transcriptional regulation of Vibrio cholerae hemagglutinin/protease by the cyclic AMP receptor protein and RpoS | Q37513677 | ||
Vibrio cholerae hemagglutinin/lectin/protease hydrolyzes fibronectin and ovomucin: F. M. Burnet revisited | Q37604171 | ||
Tn-Seq analysis of Vibrio cholerae intestinal colonization reveals a role for T6SS-mediated antibacterial activity in the host | Q37632744 | ||
Life in the gut: microbial responses to stress in the gastrointestinal tract. | Q37707324 | ||
Identification of in vivo regulators of the Vibrio cholerae xds gene using a high-throughput genetic selection | Q37734734 | ||
Mucin dynamics and enteric pathogens. | Q37853367 | ||
Sensing the messenger: the diverse ways that bacteria signal through c-di-GMP. | Q38010664 | ||
The role of extracellular DNA in the establishment, maintenance and perpetuation of bacterial biofilms | Q38168547 | ||
The LuxR-type regulator VpsT negatively controls the transcription of rpoS, encoding the general stress response regulator, in Vibrio cholerae biofilms. | Q38321362 | ||
Quorum Sensing-Dependent Biofilms Enhance Colonization in Vibrio cholerae | Q38349419 | ||
Protection and attachment of Vibrio cholerae mediated by the toxin-coregulated pilus in the infant mouse model | Q38631464 | ||
Environmental signals modulate ToxT-dependent virulence factor expression in Vibrio cholerae | Q39494481 | ||
Genetic analysis of the cholera toxin-positive regulatory gene toxR. | Q36363559 | ||
A novel role for enzyme I of the Vibrio cholerae phosphoenolpyruvate phosphotransferase system in regulation of growth in a biofilm. | Q36422242 | ||
Molecular architecture and assembly principles of Vibrio cholerae biofilms | Q36441854 | ||
Vibrio cholerae O1 El Tor: identification of a gene cluster required for the rugose colony type, exopolysaccharide production, chlorine resistance, and biofilm formation | Q36456326 | ||
Vibrio cholerae phosphatases required for the utilization of nucleotides and extracellular DNA as phosphate sources | Q36468276 | ||
The polar flagellar motor of Vibrio cholerae is driven by an Na+ motive force | Q39494772 | ||
A role for the mannose-sensitive hemagglutinin in biofilm formation by Vibrio cholerae El Tor. | Q39496074 | ||
VpsR, a Member of the Response Regulators of the Two-Component Regulatory Systems, Is Required for Expression of vps Biosynthesis Genes and EPS(ETr)-Associated Phenotypes in Vibrio cholerae O1 El Tor | Q39502809 | ||
Vibrio cholerae requires rpoS for efficient intestinal colonization | Q39517156 | ||
Interplay among cyclic diguanylate, HapR, and the general stress response regulator (RpoS) in the regulation of Vibrio cholerae hemagglutinin/protease | Q39662023 | ||
Mechanism for inhibition of Vibrio cholerae ToxT activity by the unsaturated fatty acid components of bile. | Q39768256 | ||
Toxin-coregulated pilus, but not mannose-sensitive hemagglutinin, is required for colonization by Vibrio cholerae O1 El Tor biotype and O139 strains | Q39825538 | ||
Bile affects production of virulence factors and motility of Vibrio cholerae | Q39829315 | ||
Adherence of Vibrio cholerae to cultured differentiated human intestinal cells: an in vitro colonization model. | Q39830769 | ||
Electron microscopic study of Vibrio cholerae O1 adherence to the mucus coat and villus surface in the human small intestine | Q40159060 | ||
Vibrio cholerae O1 adherence to villi and lymphoid follicle epithelium: in vitro model using formalin-treated human small intestine and correlation between adherence and cell-associated hemagglutinin levels | Q40159544 | ||
Steps in the development of a Vibrio cholerae El Tor biofilm | Q40225093 | ||
VpsT is a transcriptional regulator required for expression of vps biosynthesis genes and the development of rugose colonial morphology in Vibrio cholerae O1 El Tor. | Q40584757 | ||
The sodium-driven flagellar motor controls exopolysaccharide expression in Vibrio cholerae | Q41073448 | ||
Global climate and infectious disease: the cholera paradigm | Q41254076 | ||
Vibrio cholerae RND family efflux systems are required for antimicrobial resistance, optimal virulence factor production, and colonization of the infant mouse small intestine | Q41342972 | ||
Genetic analysis of Vibrio cholerae monolayer formation reveals a key role for DeltaPsi in the transition to permanent attachment. | Q41364818 | ||
Genetic evidence that the Vibrio cholerae monolayer is a distinct stage in biofilm development | Q41466889 | ||
Transcriptome and phenotypic responses of Vibrio cholerae to increased cyclic di-GMP level | Q41672623 | ||
Quorum sensing controls biofilm formation in Vibrio cholerae through modulation of cyclic di-GMP levels and repression of vpsT | Q41788128 | ||
PhoB regulates motility, biofilms, and cyclic di-GMP in Vibrio cholerae | Q41839121 | ||
Cyclic di-GMP inhibits Vibrio cholerae motility by repressing induction of transcription and inducing extracellular polysaccharide production | Q41851627 | ||
Identification and characterization of cyclic diguanylate signaling systems controlling rugosity in Vibrio cholerae | Q41955333 | ||
The physical basis of type 4 pilus-mediated microcolony formation by Vibrio cholerae O1. | Q41961569 | ||
The phosphoenolpyruvate phosphotransferase system regulates Vibrio cholerae biofilm formation through multiple independent pathways. | Q41987646 | ||
PhoB regulates both environmental and virulence gene expression in Vibrio cholerae | Q42028102 | ||
The rbmBCDEF gene cluster modulates development of rugose colony morphology and biofilm formation in Vibrio cholerae | Q42039844 | ||
Polymyxin B resistance and biofilm formation in Vibrio cholerae are controlled by the response regulator CarR. | Q42043540 | ||
Identification of novel stage-specific genetic requirements through whole genome transcription profiling of Vibrio cholerae biofilm development | Q42063575 | ||
Virulence and the environment: a novel role for Vibrio cholerae toxin-coregulated pili in biofilm formation on chitin | Q42092038 | ||
Levels of the secreted Vibrio cholerae attachment factor GbpA are modulated by quorum-sensing-induced proteolysis. | Q42142953 | ||
Role of Vibrio polysaccharide (vps) genes in VPS production, biofilm formation and Vibrio cholerae pathogenesis | Q42185441 | ||
Cholera stool bacteria repress chemotaxis to increase infectivity. | Q42225367 | ||
Genes induced late in infection increase fitness of Vibrio cholerae after release into the environment | Q42234800 | ||
Identification of genes induced in Vibrio cholerae in a dynamic biofilm system | Q42738056 | ||
Effect of fatty acids and cholesterol present in bile on expression of virulence factors and motility of Vibrio cholerae | Q42800298 | ||
Role of cyclic Di-GMP during el tor biotype Vibrio cholerae infection: characterization of the in vivo-induced cyclic Di-GMP phosphodiesterase CdpA. | Q42831678 | ||
Cyclic diguanylate (c-di-GMP) regulates Vibrio cholerae biofilm formation. | Q42851824 | ||
Temporal quorum-sensing induction regulates Vibrio cholerae biofilm architecture | Q42913652 | ||
Cyclic diguanylate regulates Vibrio cholerae virulence gene expression | Q43013628 | ||
Bicarbonate increases binding affinity of Vibrio cholerae ToxT to virulence gene promoters | Q43045024 | ||
Interplay between cyclic AMP-cyclic AMP receptor protein and cyclic di-GMP signaling in Vibrio cholerae biofilm formation | Q43194859 | ||
Identification of novel factors involved in colonization and acid tolerance of Vibrio cholerae | Q43352607 | ||
Haemagglutinin/protease expression and mucin gel penetration in El Tor biotype Vibrio cholerae | Q44509831 | ||
Smooth to rugose phase variation in Vibrio cholerae can be mediated by a single nucleotide change that targets c-di-GMP signalling pathway | Q46099806 | ||
Cyclic-diGMP signal transduction systems in Vibrio cholerae: modulation of rugosity and biofilm formation | Q46753044 | ||
TcpA pilin sequences and colonization requirements for O1 and O139 vibrio cholerae | Q48079581 | ||
H-NS, the genome sentinel | Q50074672 | ||
H-NS binding and repression of the ctx promoter in Vibrio cholerae | Q29346604 | ||
Overlapping binding sites for the virulence gene regulators AphA, AphB and cAMP-CRP at the Vibrio cholerae tcpPH promoter | Q29346608 | ||
Identification and characterization of VpsR and VpsT binding sites in Vibrio cholerae | Q29346615 | ||
The virulence transcriptional activator AphA enhances biofilm formation by Vibrio cholerae by activating expression of the biofilm regulator VpsT. | Q29346617 | ||
The novel sigma54- and sigma28-dependent flagellar gene transcription hierarchy of Vibrio cholerae | Q29398652 | ||
Bacterial biofilms: from the natural environment to infectious diseases | Q29547677 | ||
The absence of a flagellum leads to altered colony morphology, biofilm development and virulence in Vibrio cholerae O139. | Q30327646 | ||
A defined transposon mutant library and its use in identifying motility genes in Vibrio cholerae. | Q30370187 | ||
Distinct sensory pathways in Vibrio cholerae El Tor and classical biotypes modulate cyclic dimeric GMP levels to control biofilm formation. | Q30372949 | ||
Cholera--modern pandemic disease of ancient lineage | Q30409696 | ||
A Vibrio cholerae pathogenicity island associated with epidemic and pandemic strains | Q30429822 | ||
Vibrio cholerae use pili and flagella synergistically to effect motility switching and conditional surface attachment | Q30647811 | ||
Effects of global climate on infectious disease: the cholera model | Q30736492 | ||
Characterization of hapR, a positive regulator of the Vibrio cholerae HA/protease gene hap, and its identification as a functional homologue of the Vibrio harveyi luxR gene | Q32151390 | ||
Vibrio cholerae H-NS silences virulence gene expression at multiple steps in the ToxR regulatory cascade | Q33180697 | ||
An in vivo expression technology screen for Vibrio cholerae genes expressed in human volunteers | Q33305177 | ||
Investigation of the roles of toxin-coregulated pili and mannose-sensitive hemagglutinin pili in the pathogenesis of Vibrio cholerae O139 infection | Q33750441 | ||
Vibrio cholerae phosphoenolpyruvate phosphotransferase system control of carbohydrate transport, biofilm formation, and colonization of the germfree mouse intestine | Q33768976 | ||
The suckling mouse model of cholera | Q33885499 | ||
Bile acids and bicarbonate inversely regulate intracellular cyclic di-GMP in Vibrio cholerae. | Q33899790 | ||
The mannose-sensitive hemagglutinin of Vibrio cholerae promotes adherence to zooplankton | Q33989901 | ||
RNA-Seq-based monitoring of infection-linked changes in Vibrio cholerae gene expression. | Q33993574 | ||
Flagellum-independent surface migration of Vibrio cholerae and Escherichia coli | Q33996336 | ||
Vibrio cholerae intestinal population dynamics in the suckling mouse model of infection | Q34001303 | ||
A communal bacterial adhesin anchors biofilm and bystander cells to surfaces | Q34013625 | ||
Quorum-sensing regulators control virulence gene expression in Vibrio cholerae | Q34016637 | ||
Back to the future: studying cholera pathogenesis using infant rabbits | Q34030624 | ||
Growth in a biofilm induces a hyperinfectious phenotype in Vibrio cholerae | Q34045094 | ||
Lysogenic conversion by a filamentous phage encoding cholera toxin | Q34062735 | ||
Molecular ecology of toxigenic Vibrio cholerae | Q34122617 | ||
The alternative sigma factor sigma(E) plays an important role in intestinal survival and virulence in Vibrio cholerae | Q34131449 | ||
Biofilm formation and phenotypic variation enhance predation-driven persistence of Vibrio cholerae | Q34133215 | ||
Parallel quorum sensing systems converge to regulate virulence in Vibrio cholerae. | Q34144361 | ||
Cellular levels and binding of c-di-GMP control subcellular localization and activity of the Vibrio cholerae transcriptional regulator VpsT. | Q34288784 | ||
The Vibrio cholerae vieSAB locus encodes a pathway contributing to cholera toxin production | Q34316060 | ||
Determination of the transcriptome of Vibrio cholerae during intraintestinal growth and midexponential phase in vitro | Q34330409 | ||
Role of GbpA protein, an important virulence-related colonization factor, for Vibrio cholerae's survival in the aquatic environment. | Q50913567 | ||
vpsA- and luxO-independent biofilms of Vibrio cholerae. | Q50936016 | ||
Use of signature-tagged transposon mutagenesis to identify Vibrio cholerae genes critical for colonization. | Q52529668 | ||
Tagging a Vibrio cholerae El Tor candidate vaccine strain by disruption of its hemagglutinin/protease gene using a novel reporter enzyme: Clostridium thermocellum endoglucanase A. | Q54129252 | ||
Single amino acid substitutions in the N-terminus of Vibrio cholerae TcpA affect colonization, autoagglutination, and serum resistance. | Q54162990 | ||
Motility mutants of Vibrio cholerae O1 have reduced adherence in vitro to human small intestinal epithelial cells as demonstrated by ELISA. | Q54580124 | ||
Cholera | Q57119004 | ||
Variation of toxigenic Vibrio cholerae O1 in the aquatic environment of Bangladesh and its correlation with the clinical strains | Q57937958 | ||
Regulation of virulence gene expression in Vibrio cholerae by quorum sensing: HapR functions at the aphA promoter | Q64449466 | ||
Regulation of gene expression in Vibrio cholerae by ToxT involves both antirepression and RNA polymerase stimulation | Q64449517 | ||
Regulation and temporal expression patterns of Vibrio cholerae virulence genes during infection | Q64449734 | ||
Analysis of the role of flagellar activity in virulence gene expression in Vibrio cholerae | Q73703335 | ||
The adherent gastrointestinal mucus gel layer: thickness and physical state in vivo | Q73727591 | ||
A voyage of discovery: cholera, climate and complexity | Q77999963 | ||
The cyclic AMP receptor protein modulates quorum sensing, motility and multiple genes that affect intestinal colonization in Vibrio cholerae | Q80984652 | ||
Bile acids stimulate biofilm formation in Vibrio cholerae | Q81635702 | ||
Adhesive properties of Vibrio cholerae: nature of the interaction with isolated rabbit brush border membranes and human erythrocytes. | Q34400171 | ||
Vibrio cholerae adherence and colonization in experimental cholera: electron microscopic studies | Q34402864 | ||
Contribution of hemagglutinin/protease and motility to the pathogenesis of El Tor biotype cholera | Q34492697 | ||
AphA and LuxR/HapR reciprocally control quorum sensing in vibrios | Q34588444 | ||
Transmissibility of cholera: in vivo-formed biofilms and their relationship to infectivity and persistence in the environment | Q34597519 | ||
Use of phoA gene fusions to identify a pilus colonization factor coordinately regulated with cholera toxin | Q34618561 | ||
Seasonal cholera caused by Vibrio cholerae serogroups O1 and O139 in the coastal aquatic environment of Bangladesh | Q34720535 | ||
Host intestinal signal-promoted biofilm dispersal induces Vibrio cholerae colonization | Q34890181 | ||
DNA topology-mediated control of global gene expression in Escherichia coli | Q34995457 | ||
Effects of changes in membrane sodium flux on virulence gene expression in Vibrio cholerae | Q35068534 | ||
RNA-seq analysis identifies new genes regulated by the histone-like nucleoid structuring protein (H-NS) affecting Vibrio cholerae virulence, stress response and chemotaxis. | Q35094995 | ||
Vibrio cholerae represses polysaccharide synthesis to promote motility in mucosa | Q35098163 | ||
Use of genetic recombination as a reporter of gene expression | Q35126408 | ||
Extracellular nucleases and extracellular DNA play important roles in Vibrio cholerae biofilm formation. | Q35539741 | ||
Spatially selective colonization of the arthropod intestine through activation of Vibrio cholerae biofilm formation | Q35621150 | ||
Living in the matrix: assembly and control of Vibrio cholerae biofilms. | Q35624604 | ||
RNA-Seq analysis and whole genome DNA-binding profile of the Vibrio cholerae histone-like nucleoid structuring protein (H-NS). | Q35751202 | ||
Interaction of the histone-like nucleoid structuring protein and the general stress response regulator RpoS at Vibrio cholerae promoters that regulate motility and hemagglutinin/protease expression | Q35805938 | ||
The histone-like nucleoid structuring protein (H-NS) is a repressor of Vibrio cholerae exopolysaccharide biosynthesis (vps) genes | Q35827107 | ||
The Vibrio cholerae Pst2 phosphate transport system is upregulated in biofilms and contributes to biofilm-induced hyperinfectivity | Q35944075 | ||
In situ proteolysis of the Vibrio cholerae matrix protein RbmA promotes biofilm recruitment | Q35989674 | ||
Infectious disease and environment: cholera as a paradigm for waterborne disease. | Q36017924 | ||
Cloning and nucleotide sequence of the Vibrio cholerae hemagglutinin/protease (HA/protease) gene and construction of an HA/protease-negative strain | Q36146458 | ||
Identification of toxS, a regulatory gene whose product enhances toxR-mediated activation of the cholera toxin promoter | Q36174807 | ||
Clonal transmission, dual peak, and off-season cholera in Bangladesh | Q36185142 | ||
Going against the grain: chemotaxis and infection in Vibrio cholerae | Q36191950 | ||
Repression by H-NS of genes required for the biosynthesis of the Vibrio cholerae biofilm matrix is modulated by the second messenger cyclic diguanylic acid | Q36197536 | ||
Vibrio cholerae leuO Transcription Is Positively Regulated by ToxR and Contributes to Bile Resistance | Q36208071 | ||
Selection for in vivo regulators of bacterial virulence | Q36241165 | ||
Complexity of rice-water stool from patients with Vibrio cholerae plays a role in the transmission of infectious diarrhea | Q36277234 | ||
The cyclic AMP receptor protein modulates colonial morphology in Vibrio cholerae | Q36313673 | ||
Regulatory networks controlling Vibrio cholerae virulence gene expression | Q36313974 | ||
Toxin, toxin-coregulated pili, and the toxR regulon are essential for Vibrio cholerae pathogenesis in humans | Q36355455 | ||
P275 | copyright license | Creative Commons Attribution 4.0 International | Q20007257 |
P6216 | copyright status | copyrighted | Q50423863 |
P433 | issue | 2 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | Vibrio cholerae | Q160821 |
pathogenesis | Q372016 | ||
biofilm | Q467410 | ||
virulence factor | Q1623405 | ||
cholera | Q12090 | ||
gastrointestinal tract | Q11829360 | ||
P5008 | on focus list of Wikimedia project | ScienceSource | Q55439927 |
P304 | page(s) | e0004330 | |
P577 | publication date | 2016-02-01 | |
P1433 | published in | PLoS Neglected Tropical Diseases | Q3359737 |
P1476 | title | Vibrio cholerae Biofilms and Cholera Pathogenesis | |
P478 | volume | 10 |
Q95271620 | Adaptation of Vibrio cholerae to Hypoxic Environments |
Q38736083 | Adherence to Intestinal Cells Promotes Biofilm Formation in Vibrio cholerae |
Q53685610 | Anti-biofilm Properties of the Fecal Probiotic Lactobacilli Against Vibrio spp. |
Q64285373 | Antimicrobial resistance and its relationship with biofilm production and virulence-related factors in Yersinia enterocolitica biotype 1A |
Q64932632 | Bacterial riboswitches and RNA thermometers: Nature and contributions to pathogenesis. |
Q64078511 | Combating Cholera |
Q46256502 | Contribution of riboflavin supply pathways to Vibrio cholerae in different environments |
Q38683902 | Correlates of protection for enteric vaccines |
Q50133491 | Cyclic di-GMP regulates TfoY in Vibrio cholerae to control motility by both transcriptional and posttranscriptional mechanisms |
Q50102001 | Development of a Novel Herbal Formulation To Inhibit Biofilm Formation in Toxigenic Vibrio cholerae |
Q90468918 | Draft Genome Sequence of Vibrio sp. Strain OCN044, Isolated from Palmyra Atoll, Northern Line Islands |
Q54968994 | Dual Role of Mechanisms Involved in Resistance to Predation by Protozoa and Virulence to Humans. |
Q41991872 | Engineering microbial physiology with synthetic polymers: cationic polymers induce biofilm formation in Vibrio cholerae and downregulate the expression of virulence genes. |
Q51144560 | Environmental role of pathogenic traits in Vibrio cholerae. |
Q92506600 | Epidemiology of cholera |
Q46257467 | Examining the Link between Biofilm Formation and the Ability of Pathogenic Salmonella Strains to Colonize Multiple Host Species |
Q64080075 | Exploring the transcriptome of and mutants and the impact of N-3-oxo-hexanoyl-L- and N-3-hydroxy-decanoyl-L-homoserine lactones on biofilm formation in |
Q50076981 | Flagellar motility, extracellular proteases and Vibrio cholerae detachment from abiotic and biotic surfaces |
Q89282166 | Generation and In Vivo Characterization of Tn5-Induced Biofilm Mutants of Vibrio cholerae O139 |
Q38919200 | H-NS: an overarching regulator of the Vibrio cholerae life cycle |
Q92283947 | Mining the microbiota for microbial and metabolite-based immunotherapies |
Q98243753 | PagC is involved in salmonella pullorum OMVs production and affects biofilm production |
Q92677838 | Physiology of Electrolyte Transport in the Gut: Implications for Disease |
Q98771311 | Promising Therapeutic Strategies Against Microbial Biofilm Challenges |
Q39292328 | Quorum Sensing Gene Regulation by LuxR/HapR Master Regulators in Vibrios |
Q58797330 | Replicate Once Per Cell Cycle: Replication Control of Secondary Chromosomes |
Q64105157 | Structural and Proteomic Changes in Viable but Non-culturable |
Q91451701 | Sugar-mediated regulation of a c-di-GMP phosphodiesterase in Vibrio cholerae |
Q92542136 | Switching Lifestyles Is an in vivo Adaptive Strategy of Bacterial Pathogens |
Q90470293 | Switching fatty acid metabolism by an RNA-controlled feed forward loop |
Q55643055 | Synthesis of novel benzenesulfamide derivatives with inhibitory activity against human cytosolic carbonic anhydrase I and II and Vibrio cholerae α- and β-class enzymes. |
Q92615774 | Synthesis, Characterization, Antibacterial Activity, and Computer-Aided Design of Novel Quinazolin-2,4-dione Derivatives as Potential Inhibitors Against Vibrio cholerae |
Q53585512 | The type VI secretion system can modulate host intestinal mechanics to displace gut bacterial symbionts |
Q49627247 | The Global Acetylome of the Human Pathogen Vibrio cholerae V52 Reveals Lysine Acetylation of Major Transcriptional Regulators |
Q92575973 | The Vc2 Cyclic di-GMP-Dependent Riboswitch of Vibrio cholerae Regulates Expression of an Upstream Putative Small RNA by Controlling RNA Stability |
Q38803603 | The talking language in some major Gram-negative bacteria |
Q64226550 | Three autoinducer molecules act in concert to control virulence gene expression in Vibrio cholerae |
Q49913348 | Transcriptomics reveals a cross-modulatory effect between riboflavin and iron and outlines responses to riboflavin biosynthesis and uptake in Vibrio cholerae |
Q48321872 | Vibrio cholerae O1 secretes an extracellular matrix in response to antibody-mediated agglutination |
Q59239184 | Vibrio cholerae: A historical perspective and current trend |
Q90664356 | c-di-GMP modulates type IV MSHA pilus retraction and surface attachment in Vibrio cholerae |
Search more.