A ToxR homolog from Vibrio anguillarum serotype O1 regulates its own production, bile resistance, and biofilm formation.
about
Transposon insertion sequencing reveals T4SS as the major genetic trait for conjugation transfer of multi-drug resistance pEIB202 from EdwardsiellaIntegration of a laterally acquired gene into a cell network important for growth in a strain of Vibrio rotiferianusToxR of Vibrio cholerae affects biofilm, rugosity and survival with Acanthamoeba castellanii.Functional characterization of Edwardsiella tarda twin-arginine translocation system and its potential use as biological containment in live attenuated vaccine of marine fish.Involvement of the adc operon and manganese homeostasis in Streptococcus gordonii biofilm formationAn invasive and low virulent Edwardsiella tarda esrB mutant promising as live attenuated vaccine in aquaculture.The phosphotransferase VanU represses expression of four qrr genes antagonizing VanO-mediated quorum-sensing regulation in Vibrio anguillarum.A σE-Mediated Temperature Gauge Controls a Switch from LuxR-Mediated Virulence Gene Expression to Thermal Stress Adaptation in Vibrio alginolyticus.Chromatin Immunoprecipitation Sequencing Technology Reveals Global Regulatory Roles of Low-Cell-Density Quorum-Sensing Regulator AphA in the Pathogen Vibrio alginolyticus.Vibrio anguillarum as a fish pathogen: virulence factors, diagnosis and prevention.Bile salts and alkaline pH reciprocally modulate the interaction between the periplasmic domains of Vibrio cholerae ToxR and ToxS.Identification of qseEGF genetic locus and its roles in controlling hemolytic activity and invasion in fish pathogen Edwardsiella tarda.Comparative analysis of the roles of catalases KatB and KatG in the physiological fitness and pathogenesis of fish pathogen Edwardsiella tarda.Characterization of a new quorum sensing regulator luxT and its roles in the extracellular protease production, motility, and virulence in fish pathogen Vibrio alginolyticus.Quorum sensing and alternative sigma factor RpoN regulate type VI secretion system I (T6SSVA1) in fish pathogen Vibrio alginolyticus.Investigation of the roles of T6SS genes in motility, biofilm formation, and extracellular protease Asp production in Vibrio alginolyticus with modified Gateway-compatible plasmids.Characterization of role of the toxR gene in the physiology and pathogenicity of Vibrio alginolyticus.Identification of the Regulon of AphB and Its Essential Roles in LuxR and Exotoxin Asp Expression in the Pathogen Vibrio alginolyticus.Role of the toxR Gene from Fish Pathogen Vibiro alginolyticus in the Physiology and Virulence.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).Biosynthesis and uptake of glycine betaine as cold-stress response to low temperature in fish pathogen Vibrio anguillarum.LuxO controls extracellular protease, haemolytic activities and siderophore production in fish pathogen Vibrio alginolyticus.Comparative proteome analysis reveals proteins involved in salt adaptation in Photobacterium damselae subsp. piscicida.VqsA, A Novel LysR-type Transcriptional Regulator Coordinates Quorum Sensing (QS) and is Controlled by QS to Regulate Virulence in the Pathogen Vibrio alginolyticus.Investigation of seven Vibrio virulence genes among Vibrio alginolyticus and Vibrio parahaemolyticus strains from the coastal mariculture systems in Guangdong, China.Application of relative real-time PCR to detect differential expression of virulence genes in Vibrio anguillarum under standard and stressed growth conditions.Factors affecting infection of corals and larval oysters by Vibrio coralliilyticus.A comprehensive review of Vibrio (Listonella ) anguillarum : ecology, pathology and prevention
P2860
Q33667569-684408D7-71E7-418C-BF4A-98E809A46B0AQ34077046-F976DE6A-96DA-41D1-8430-C53811D0C5EBQ34128649-AB128B03-E67B-4756-8AE4-FCFDC047E62BQ34439836-C355E404-A3F0-4F7B-8A4A-701E9EA1B359Q34983903-97903243-83C2-46B9-B55D-A8CCAD160EF1Q35457534-13544B61-4F00-4826-80AE-F73439E77983Q35960290-25632A51-22D4-4B46-8CAA-C5E4557C4574Q36037807-72A54F0B-5DA6-4EED-9105-EBEC59880B79Q37322004-E7BC5695-B52C-4F64-A6A2-200999FAAB09Q37916678-5281F0B4-81DA-4BF1-80A8-A0B8864E0DF3Q38808637-27461BAB-0185-4C32-9E3C-7479E9A08DA1Q39331983-34BA5CA2-0B77-46D2-A8D2-AB408FD5BB69Q39393902-EE977317-545C-4BF8-850F-51A865F784CBQ43911006-34196BF0-15A4-4E9C-9510-12E6B1EB7EE0Q44319712-06179690-5ECD-4313-8E03-30F62E110942Q45397608-14A5A6A0-D347-4615-9307-0D70E2C6DDBAQ45722379-2C195C25-BB7C-4D37-B572-CEB4DC0AF963Q46331494-6C113A31-A7DD-4B7C-A53F-57007A332A4AQ47389035-CD4954B1-C9D4-49BF-9152-BB2322D8573BQ49087135-94E7C36B-C698-4CAB-A045-A424613D7F7FQ50262385-F6391A43-9D5A-4F77-AC1F-DCB307921A5AQ50880564-AAE4DC53-FB89-4D1B-96D3-C47C52045509Q51710995-96B38A89-4EF7-468B-BC25-54C3FEB493BAQ52601746-CDF64E1B-3395-4EC5-8881-28479DD66480Q53134463-6E2CA7A0-CB6C-41C2-AEEA-7F09285C7840Q54243539-8A49C08E-6D70-4BE6-9792-C1A91ABC3553Q55448395-7A66A4F0-A4DF-458A-BACF-A1C3D0052449Q57275599-4AC3C4AA-83D7-4653-B2C4-F9DB49BEB62E
P2860
A ToxR homolog from Vibrio anguillarum serotype O1 regulates its own production, bile resistance, and biofilm formation.
description
2002 nî lūn-bûn
@nan
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
2002年论文
@zh
2002年论文
@zh-cn
name
A ToxR homolog from Vibrio ang ...... stance, and biofilm formation.
@en
A ToxR homolog from Vibrio ang ...... stance, and biofilm formation.
@nl
type
label
A ToxR homolog from Vibrio ang ...... stance, and biofilm formation.
@en
A ToxR homolog from Vibrio ang ...... stance, and biofilm formation.
@nl
prefLabel
A ToxR homolog from Vibrio ang ...... stance, and biofilm formation.
@en
A ToxR homolog from Vibrio ang ...... stance, and biofilm formation.
@nl
P2093
P2860
P1476
A ToxR homolog from Vibrio ang ...... stance, and biofilm formation.
@en
P2093
Debra L Milton
Johan Lauritz
Su-Yan Wang
P2860
P304
P356
10.1128/JB.184.6.1630-1639.2002
P407
P577
2002-03-01T00:00:00Z