The virulence activator AphA links quorum sensing to pathogenesis and physiology in Vibrio cholerae by repressing the expression of a penicillin amidase gene on the small chromosome
about
A bistable switch and anatomical site control Vibrio cholerae virulence gene expression in the intestineCrystal Structures of Two Transcriptional Regulators from Bacillus cereus Define the Conserved Structural Features of a PadR SubfamilyMolecular characterization of direct target genes and cis-acting consensus recognized by quorum-sensing regulator AphA in Vibrio parahaemolyticusThe quorum sensing regulator HapR downregulates the expression of the virulence gene transcription factor AphA in Vibrio cholerae by antagonizing Lrp- and VpsR-mediated activation.Dual regulation of genes involved in acetoin biosynthesis and motility/biofilm formation by the virulence activator AphA and the acetate-responsive LysR-type regulator AlsR in Vibrio cholerae.The virulence transcriptional activator AphA enhances biofilm formation by Vibrio cholerae by activating expression of the biofilm regulator VpsT.Virulence regulator AphB enhances toxR transcription in Vibrio cholerae.(p)ppGpp, a Small Nucleotide Regulator, Directs the Metabolic Fate of Glucose in Vibrio cholerae.Phenolic acid-mediated regulation of the padC gene, encoding the phenolic acid decarboxylase of Bacillus subtilisContribution of three bile-associated loci, bsh, pva, and btlB, to gastrointestinal persistence and bile tolerance of Listeria monocytogenes.Vibrio cholerae ToxT independently activates the divergently transcribed aldA and tagA genesA Vibrio cholerae relaxed (relA) mutant expresses major virulence factors, exhibits biofilm formation and motility, and colonizes the suckling mouse intestineQuorum sensing regulates type III secretion in Vibrio harveyi and Vibrio parahaemolyticusAphA and LuxR/HapR reciprocally control quorum sensing in vibriosQuantification of high-specificity cyclic diguanylate signaling.The interaction between bacteria and bile.Individual and combined roles of the master regulators AphA and LuxR in control of the Vibrio harveyi quorum-sensing regulon.Regulation of virulence in Vibrio cholerae: the ToxR regulon.Crystal structure of the virulence gene activator AphA from Vibrio cholerae reveals it is a novel member of the winged helix transcription factor superfamily.Regulatory targets of quorum sensing in Vibrio cholerae: evidence for two distinct HapR-binding motifs.Transcriptional regulation of Vibrio cholerae hemagglutinin/protease by the cyclic AMP receptor protein and RpoSPenicillin acylases revisited: importance beyond their industrial utility.The bile response repressor BreR regulates expression of the Vibrio cholerae breAB efflux system operon.Cloning, deletion, and characterization of PadR, the transcriptional repressor of the phenolic acid decarboxylase-encoding padA gene of Lactobacillus plantarum.Parallel quorum sensing signaling pathways in Vibrio cholerae.Calcium Enhances Bile Salt-Dependent Virulence Activation in Vibrio cholerae.Transcriptional Repressor PtvR Regulates Phenotypic Tolerance to Vancomycin in Streptococcus pneumoniae.Penicillin V acylases from gram-negative bacteria degrade N-acylhomoserine lactones and attenuate virulence in Pseudomonas aeruginosa.Genetic and biochemical analysis of PadR-padC promoter interactions during the phenolic acid stress response in Bacillus subtilis 168Quorum sensing controls biofilm formation in Vibrio cholerae through modulation of cyclic di-GMP levels and repression of vpsTGenetic and phenotypic diversity of quorum-sensing systems in clinical and environmental isolates of Vibrio cholerae.PhoB regulates both environmental and virulence gene expression in Vibrio cholerae.Levels of the secreted Vibrio cholerae attachment factor GbpA are modulated by quorum-sensing-induced proteolysis.QseA directly activates transcription of LEE1 in enterohemorrhagic Escherichia coliMicroarray analysis of quorum-sensing-regulated genes in Porphyromonas gingivalis.Inactivation of PadR, the repressor of the phenolic acid stress response, by molecular interaction with Usp1, a universal stress protein from Lactobacillus plantarum, in Escherichia coli.Functional definition of LuxS, an autoinducer-2 (AI-2) synthase and its role in full virulence of Streptococcus suis serotype 2.Purification and partial characterization of novel penicillin V acylase from Acinetobacter sp. AP24 isolated from Loktak Lake, an Indo-Burma biodiversity hotspot.Manipulation of two regulatory genes for efficient production of chromomycins in Streptomyces reseiscleroticus.
P2860
Q21559407-E7ABF17F-5022-4488-A515-D540F2BA7F2DQ27675286-061DF7F9-B00E-4066-9DFC-E2AD610BED4FQ28483699-B1676589-9237-4AF7-80CB-3785081A4355Q29346605-4F15E97C-92DD-47C7-BDAA-5F7BB79904D9Q29346606-C8AEF184-D7FB-4662-83FE-99F662D638B0Q29346617-91760322-308C-4E10-A8D4-7C0721A916C3Q29346619-CC4CD2B4-2AFB-47EA-BBF1-4D5B75E3A5FEQ30373796-60933E3D-C61C-4913-B790-E539DF5B6BC5Q33322991-244F7049-45E2-4E2E-9099-97BD6900765DQ33793324-64AA62AC-DC4D-4A76-900D-F4D479DFBD9CQ34150905-9AD5AA15-6268-4B24-AB1E-D25EFED62CBBQ34303238-791784E3-1DD1-4720-9F4E-32BB651F718BQ34351491-2C2CA5DE-8A52-47C9-9F1A-F14282F964A1Q34588444-80D61F10-2119-494E-8343-4B1701D10FFCQ36140451-4A97250B-51DE-41D5-9EB3-86C0A1CF9898Q36231131-9BBC3163-F4B9-4DFA-B3D2-0AA2402B25E8Q36559354-006CBF11-4A40-4B7F-9235-AAA204B434DFQ36895783-0FFEC76D-9D77-4792-8756-7C9C87C96E68Q37120765-93C03C97-2C0A-4F7A-B3B9-3AAA14BE9D0BQ37181522-CF178B92-3336-4BE9-85FD-559DFFC6CC54Q37513677-CB0DA5A7-16CA-409C-9A9E-0BF9865AD1D0Q38272180-648926D8-276F-4847-A1AC-DE4C6A4D47B3Q38287689-BECFC943-32BC-4DE3-8396-32E771359FA6Q38342770-604B337C-1BEB-471E-BA7B-008539E634CCQ38627325-1A4DC867-592A-42F8-AC38-83FF8B09D2C3Q39184203-918361AB-8DFD-4826-B657-F5BC593B0C71Q40220862-447423D6-F0AE-457A-960C-56869F0E99B3Q40417008-B5CB1767-33B6-47A5-A4C4-BCE783C18972Q41768157-0FD8F496-A66D-431A-A650-610517E5468EQ41788128-73AE933C-D086-42DE-8BED-20A79BF848A2Q41942970-721CA61F-8293-4BF7-A39B-7C173CEDCD02Q42028102-688AEE21-C319-489C-B68B-1531E454596DQ42142953-35C637CF-A5EC-47B1-942E-25A36C31F00AQ42188303-DA137864-58B9-4BAA-B9FA-31EF86E919CFQ42587455-EE7D713B-2F0E-4A8B-BF5C-4FB5F9B19B44Q43072024-ED065691-9C39-49EF-8810-7608189682C2Q43835321-BD8FD3FD-BA0D-483A-B7EA-E4CA2888AE29Q46658358-2603CD55-BDEE-4F1E-8B51-8FA203D73BD3Q55451092-F75B55D1-81D5-4E86-B0FB-BB2006A0029B
P2860
The virulence activator AphA links quorum sensing to pathogenesis and physiology in Vibrio cholerae by repressing the expression of a penicillin amidase gene on the small chromosome
description
2003 nî lūn-bûn
@nan
2003 թուականի Օգոստոսին հրատարակուած գիտական յօդուած
@hyw
2003 թվականի օգոստոսին հրատարակված գիտական հոդված
@hy
2003年の論文
@ja
2003年論文
@yue
2003年論文
@zh-hant
2003年論文
@zh-hk
2003年論文
@zh-mo
2003年論文
@zh-tw
2003年论文
@wuu
name
The virulence activator AphA l ...... e gene on the small chromosome
@ast
The virulence activator AphA l ...... e gene on the small chromosome
@en
type
label
The virulence activator AphA l ...... e gene on the small chromosome
@ast
The virulence activator AphA l ...... e gene on the small chromosome
@en
prefLabel
The virulence activator AphA l ...... e gene on the small chromosome
@ast
The virulence activator AphA l ...... e gene on the small chromosome
@en
P2860
P921
P1476
The virulence activator AphA l ...... e gene on the small chromosome
@en
P2093
Gabriela Kovacikova
P2860
P304
P356
10.1128/JB.185.16.4825-4836.2003
P407
P577
2003-08-01T00:00:00Z