Vibrio vulnificus RTX toxin plays an important role in the apoptotic death of human intestinal epithelial cells exposed to Vibrio vulnificus.
about
Multifunctional-autoprocessing repeats-in-toxin (MARTX) Toxins of VibriosComplete genome sequence of Vibrio vulnificus FORC_017 isolated from a patient with a hemorrhagic rash after consuming raw dotted gizzard shadMARTX toxins as effector delivery platformsRegulation of cytotoxicity by quorum-sensing signaling in Vibrio vulnificus is mediated by SmcR, a repressor of hlyU.Exoproteome Analysis of the Seaweed Pathogen Nautella italica R11 Reveals Temperature-Dependent Regulation of RTX-Like Proteins.Vibrio vulnificus rtxA1 gene recombination generates toxin variants with altered potency during intestinal infectionMonoclonal antibodies against Vibrio vulnificus RtxA1 elicit protective immunity through distinct mechanisms.Bacterial secreted effectors and caspase-3 interactionsFunctional characterization of EpsC, a component of the type II secretion system, in the pathogenicity of Vibrio vulnificusHomodimerization and binding of specific domains to the target DNA are essential requirements for HlyU to regulate expression of the virulence gene rtxA1, encoding the repeat-in-toxin protein in the human pathogen Vibrio vulnificusDistinct roles of the repeat-containing regions and effector domains of the Vibrio vulnificus multifunctional-autoprocessing repeats-in-toxin (MARTX) toxin.Induced autoprocessing of the cytopathic Makes caterpillars floppy-like effector domain of the Vibrio vulnificus MARTX toxin.The Makes Caterpillars Floppy (MCF)-Like Domain of Vibrio vulnificus Induces Mitochondrion-Mediated ApoptosisActin cross-linking domain of Aeromonas hydrophila repeat in toxin A (RtxA) induces host cell rounding and apoptosis.The Effector Domain Region of the Vibrio vulnificus MARTX Toxin Confers Biphasic Epithelial Barrier Disruption and Is Essential for Systemic Spread from the IntestineThe regulator HlyU, the repeat-in-toxin gene rtxA1, and their roles in the pathogenesis of Vibrio vulnificus infectionsIron- and Quorum-sensing Signals Converge on Small Quorum-regulatory RNAs for Coordinated Regulation of Virulence Factors in Vibrio vulnificus.HlyU acts as an H-NS antirepressor in the regulation of the RTX toxin gene essential for the virulence of the human pathogen Vibrio vulnificus CMCP6Host-pathogen interactions in Vibrio vulnificus: responses of monocytes and vascular endothelial cells to live bacteria.Regulation systems of protease and hemolysin production in Vibrio vulnificus.Brief heat treatment causes a structural change and enhances cytotoxicity of the Escherichia coli α-hemolysin.Cross-protection against Vibrio cholerae infection by monoclonal antibodies against Vibrio vulnificus RtxA1/MARTXVv.Development and characterization of a catalytically inactive cysteine protease domain of RtxA1/MARTXVv as a potential vaccine for Vibrio vulnificus.Domain organization and evolution of multifunctional autoprocessing repeats-in-toxin (MARTX) toxin in Vibrio vulnificus.A bacterial RTX toxin causes programmed necrotic cell death through calcium-mediated mitochondrial dysfunction.Coordinated delivery and function of bacterial MARTX toxin effectors.Presence of virulence markers in environmental Vibrio vulnificus strains.Vibrio vulnificus RtxA1 Toxin Expression Upon Contact With Host Cells Is RpoS-Dependent.Dual Role of Mechanisms Involved in Resistance to Predation by Protozoa and Virulence to Humans.Identification and Validation of an Antivirulence Agent Targeting HlyU-Regulated Virulence in Vibrio vulnificus.RtxA Is a Major Factor Driving Inflammatory T Helper Type 17 Cell Responses andAccessory Toxins of Pathogens and Their Role in Epithelial Disruption During Infection
P2860
Q26799804-064DD66F-672D-4FE6-A9B5-43D293A5E594Q27324777-4BD3D8A1-5A2B-414B-B850-94C2ADEDB7FBQ28081261-AB341966-A513-4CA5-941F-C7927836A777Q33844586-FA16D2B7-B235-4C6A-ADCD-C5542B8107FEQ33849483-18CC6EF2-5DB2-4FCB-8F84-7402D8C5B54DQ34533743-A906477A-4CC4-4572-9BDD-4394A16BBBF4Q34596138-A8534FBE-C0F6-4840-97E2-6F827F7E05EDQ34639643-D15E3752-87C4-4E81-B92B-2B2803AEC46FQ35272831-AF49FE3E-0D8D-437A-9975-7D84B9976C3AQ35598659-849BE6D1-6E52-41DF-9B0E-18B1E9A4067BQ35677587-EFC87133-4CC9-4AA1-8E90-11CC3086EB79Q36094869-B9FFBDB5-CEB9-4074-A49D-725E2D8463D2Q36138009-E9C06B12-3586-4247-9872-E63860D3ACD4Q36174588-7EE4A936-FB9F-4323-8D76-433CB8EBAE48Q36242824-5ACA4498-1491-4B8A-BDD1-9D2D4674C78EQ36503444-80A36AE1-6A25-44FE-BC03-C74B8142134AQ37065752-7DA333AD-3AD8-4768-888B-3CBEAA28C43AQ37247206-CDF84111-9CB8-4F81-B28E-7DB92140DDD0Q39019028-DE83E00F-3EFA-48F7-9BE0-A10592F1BAF2Q39098419-FE0791A6-4460-468B-8F70-6F0D4C28100BQ39275077-92455DCF-F139-4AD1-B993-4260619666C9Q40422208-DB774983-A7DC-48B8-B26F-F1629DFAE36BQ41106959-BCAD1F63-B01A-4226-BAF8-A3081D1AA0EAQ41781614-C5A17786-B9B5-46C2-A083-7C92B7C75A98Q43017226-C5C1F257-7F6A-471F-8C6D-918423CD7706Q47427878-A78A8195-4F82-4B15-8064-6396F4DA357AQ51755076-23D17E2F-9348-45F9-ACA0-9080E17AB7D2Q54918006-78FADAD1-D625-4B31-98A6-930ADF36CBAFQ54968994-FB80414D-BCB4-49F8-A485-715CE913BEEAQ55026346-BAD07E82-D076-46D3-9B58-332B0B005C80Q57072716-945FF674-AD14-4C3E-AE4F-767901EB7AACQ57191749-7AF1A4E7-9801-4890-85F2-E7485DEB7F95
P2860
Vibrio vulnificus RTX toxin plays an important role in the apoptotic death of human intestinal epithelial cells exposed to Vibrio vulnificus.
description
2008 nî lūn-bûn
@nan
2008年の論文
@ja
2008年論文
@yue
2008年論文
@zh-hant
2008年論文
@zh-hk
2008年論文
@zh-mo
2008年論文
@zh-tw
2008年论文
@wuu
2008年论文
@zh
2008年论文
@zh-cn
name
Vibrio vulnificus RTX toxin pl ...... exposed to Vibrio vulnificus.
@en
Vibrio vulnificus RTX toxin pl ...... exposed to Vibrio vulnificus.
@nl
type
label
Vibrio vulnificus RTX toxin pl ...... exposed to Vibrio vulnificus.
@en
Vibrio vulnificus RTX toxin pl ...... exposed to Vibrio vulnificus.
@nl
prefLabel
Vibrio vulnificus RTX toxin pl ...... exposed to Vibrio vulnificus.
@en
Vibrio vulnificus RTX toxin pl ...... exposed to Vibrio vulnificus.
@nl
P1476
Vibrio vulnificus RTX toxin pl ...... s exposed to Vibrio vulnificus
@en
P2093
Byung Cheol Lee
Tae Sung Kim
P304
P356
10.1016/J.MICINF.2008.09.006
P50
P577
2008-09-25T00:00:00Z