The two-component system BvrR/BvrS essential for Brucella abortus virulence regulates the expression of outer membrane proteins with counterparts in members of the Rhizobiaceae
about
Invasion of the central nervous system by intracellular bacteriaHow rhizobial symbionts invade plants: the Sinorhizobium-Medicago modelType IV secretion system of Brucella spp. and its effectorsAnalyzing the molecular mechanism of lipoprotein localization in BrucellaIdentification of direct transcriptional target genes of ExoS/ChvI two-component signaling in Sinorhizobium meliloti.Systematic targeted mutagenesis of Brucella melitensis 16M reveals a major role for GntR regulators in the control of virulence.The ColRS two-component system regulates membrane functions and protects Pseudomonas putida against phenol.Brucella abortus uses a stealthy strategy to avoid activation of the innate immune system during the onset of infection.Identification and isolation of Brucella suis virulence genes involved in resistance to the human innate immune system.Brucella control of dendritic cell maturation is dependent on the TIR-containing protein Btp1.Brucella melitensis global gene expression study provides novel information on growth phase-specific gene regulation with potential insights for understanding Brucella:host initial interactions.Genome degradation in Brucella ovis corresponds with narrowing of its host range and tissue tropism.Transcriptome analysis of the Brucella abortus BvrR/BvrS two-component regulatory systemGlobal analysis of quorum sensing targets in the intracellular pathogen Brucella melitensis 16 MPhosphoenolpyruvate carboxykinase is an acid-induced, chromosomally encoded virulence factor in Agrobacterium tumefaciensThe BatR/BatS two-component regulatory system controls the adaptive response of Bartonella henselae during human endothelial cell infectionA global pH sensor: Agrobacterium sensor protein ChvG regulates acid-inducible genes on its two chromosomes and Ti plasmid.Immunogenic and invasive properties of Brucella melitensis 16M outer membrane protein vaccine candidates identified via a reverse vaccinology approachProduction of the type IV secretion system differs among Brucella species as revealed with VirB5- and VirB8-specific antiseraAttenuated signature-tagged mutagenesis mutants of Brucella melitensis identified during the acute phase of infection in mice.Characterization of Brucella abortus O-polysaccharide and core lipopolysaccharide mutants and demonstration that a complete core is required for rough vaccines to be efficient against Brucella abortus and Brucella ovis in the mouse model.Characterization of genomic island 3 and genetic variability of Chilean field strains of Brucella abortus.Main functions and taxonomic distribution of virulence genes in Brucella melitensis 16 MTranscriptional profile of the intracellular pathogen Brucella melitensis following HeLa cells infection.Phylogenetic Co-Occurrence of ExoR, ExoS, and ChvI, Components of the RSI Bacterial Invasion Switch, Suggests a Key Adaptive Mechanism Regulating the Transition between Free-Living and Host-Invading Phases in Rhizobiales.Comparative whole-genome hybridization reveals genomic islands in Brucella species.Transcriptional regulation of the heme binding protein gene family of Bartonella quintana is accomplished by a novel promoter element and iron response regulatorRole of the Omp25/Omp31 family in outer membrane properties and virulence of Brucella ovisMutations of the quorum sensing-dependent regulator VjbR lead to drastic surface modifications in Brucella melitensis.BvrR/BvrS-controlled outer membrane proteins Omp3a and Omp3b are not essential for Brucella abortus virulence.Sinorhizobium meliloti ExoR is the target of periplasmic proteolysis.Defensin susceptibility and colonization in the mouse model of AJ100, a polymyxin B-resistant, Brucella abortus RB51 isolate.Bacterial outer membrane protein analysis by electrophoresis and microchip technology.Brucellosis vaccines: assessment of Brucella melitensis lipopolysaccharide rough mutants defective in core and O-polysaccharide synthesis and exportComparative genomic analysis of Brucella abortus vaccine strain 104M reveals a set of candidate genes associated with its virulence attenuation.Diverse genetic regulon of the virulence-associated transcriptional regulator MucR in Brucella abortus 2308.Virulence factors in brucellosis: implications for aetiopathogenesis and treatment.Secondary acylation of Klebsiella pneumoniae lipopolysaccharide contributes to sensitivity to antibacterial peptidesSurvival of the fittest: how Brucella strains adapt to their intracellular niche in the host.Pestilence, persistence and pathogenicity: infection strategies of Bartonella.
P2860
Q24625439-70B7DF86-2FB3-4B4E-B836-A50FF4C930CFQ24649238-C7BA518D-5A9D-4151-86FC-3EE442EA7D7CQ26777118-5BD1BF51-78F3-43B8-B89D-A5CF9AEB029CQ27003985-DE81A0B9-16CF-4F26-A434-A02D41865949Q29346931-7EAB3080-D8BD-4D88-9CD0-1C1910695543Q33222053-2EC7F161-3E47-40FC-868E-EBC3DD3943CFQ33259001-9E73EB80-D617-4D48-8363-C3AFEE3E116AQ33291121-F34AC72F-0F24-4818-AA50-CAE69059EB4BQ33294684-E3A48AA9-0496-464E-AD52-5D9EA0A1BD91Q33319274-CDD11CF6-AE48-4CB5-B62C-3EF2FC52470CQ33440046-8D0E37BA-9644-41A8-BF38-9AEFB8E028B6Q33444749-21AD7203-2291-4C4E-B806-BA6248FC5700Q33565716-1A1DD6A7-B032-49AD-853E-522DE39453AEQ33894505-6F6FC7AF-45DC-4009-B6EF-16EE012EB2C0Q33937710-A0975CA7-54F2-46A1-B617-EB75DECD4CFFQ33964293-11BD08E4-4CE6-4492-AD9E-30D15505EC22Q34156123-0DB1A61B-BFF7-49B5-B40C-BDAA3FF71B67Q34637943-8DE6196C-30B3-4E8D-839B-88C6146BE114Q34714454-802C6B4B-027F-4D61-A08C-AF46B03A2969Q34942704-41D6CFB2-0325-48EC-8C74-D07101E040FBQ35012958-58786AAB-1D42-4D63-A51C-EC08968C3642Q35140185-D0C34B1F-619E-422C-BAAA-B82E359BD6E8Q35194705-7C355F77-1F6B-4FFA-A0BA-2D6828D4ABB4Q35206741-78BE3ED6-FD91-4039-A27E-688DB76B3652Q35756195-7BCD7F16-AAD9-4FCB-8B53-EDF207CC8166Q35892856-DBD6AAC7-3061-4A80-B096-FE34E90209D0Q35947267-DD502A78-58B0-4B78-A47A-3FCB3E29BA1DQ35949897-58B7FE1D-6461-4A0B-A834-AA945DDAC12CQ35949935-B3620C74-96AF-4F96-B8E4-70E7FA0F31D7Q36097211-6CF426DC-E0C0-469F-B114-9882FC1F80B5Q36156285-FCE50F26-975A-4E62-B1E4-DA0C3AF361D4Q36444823-6028270C-1E6B-479B-B1EC-38BEC4FDB7BDQ36731393-C3E2366A-78DE-498E-9AFE-A982B387A08BQ36755736-E3A49A96-0B41-4E7E-8ECF-18678BCE987BQ36782115-1464463E-B009-4248-9337-5D0F2A793857Q36804708-6A246F6B-3589-41A0-8A4B-661C7FF44907Q37035400-C34D24A7-3DF1-4BF2-94BD-97E3AB4B0EC1Q37222605-97D8F2B3-2448-4148-B251-48175B7C47B7Q37270179-A2C9766F-07C4-41A9-A970-CF2DEB9A9306Q37368535-92F86F07-A167-4E53-BF09-4E3514FB6E1F
P2860
The two-component system BvrR/BvrS essential for Brucella abortus virulence regulates the expression of outer membrane proteins with counterparts in members of the Rhizobiaceae
description
2002 nî lūn-bûn
@nan
2002 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած
@hyw
2002 թվականի սեպտեմբերին հրատարակված գիտական հոդված
@hy
2002年の論文
@ja
2002年論文
@yue
2002年論文
@zh-hant
2002年論文
@zh-hk
2002年論文
@zh-mo
2002年論文
@zh-tw
2002年论文
@wuu
name
The two-component system BvrR/ ...... in members of the Rhizobiaceae
@ast
The two-component system BvrR/ ...... in members of the Rhizobiaceae
@en
type
label
The two-component system BvrR/ ...... in members of the Rhizobiaceae
@ast
The two-component system BvrR/ ...... in members of the Rhizobiaceae
@en
prefLabel
The two-component system BvrR/ ...... in members of the Rhizobiaceae
@ast
The two-component system BvrR/ ...... in members of the Rhizobiaceae
@en
P2093
P2860
P50
P356
P1476
The two-component system BvrR/ ...... in members of the Rhizobiaceae
@en
P2093
P2860
P304
12375-12380
P356
10.1073/PNAS.192439399
P407
P577
2002-09-06T00:00:00Z