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Shigella flexneri type III secretion system effectors OspB and OspF target the nucleus to downregulate the host inflammatory response via interactions with retinoblastoma proteinBurkholderia pseudomallei induces cell fusion and actin-associated membrane protrusion: a possible mechanism for cell-to-cell spreading.Shigella flexneri LuxS quorum-sensing system modulates virB expression but is not essential for virulenceDisruption of the Rickettsia rickettsii Sca2 autotransporter inhibits actin-based motilityMolecular and Cellular Mechanisms of Shigella flexneri Dissemination.RyhB, an iron-responsive small RNA molecule, regulates Shigella dysenteriae virulenceImpact of dynasore an inhibitor of dynamin II on Shigella flexneri infectionIsolation of Listeria monocytogenes small-plaque mutants defective for intracellular growth and cell-to-cell spreadContribution of the periplasmic chaperone Skp to efficient presentation of the autotransporter IcsA on the surface of Shigella flexneri.Potential novel antibiotics from HTS targeting the virulence-regulating transcription factor, VirF, from Shigella flexneri.Myosin-X facilitates Shigella-induced membrane protrusions and cell-to-cell spread.Identification of chromosomal Shigella flexneri genes induced by the eukaryotic intracellular environment.Virulence, inflammatory potential, and adaptive immunity induced by Shigella flexneri msbB mutantsIdentification of a chromosomal gene controlling temperature-regulated expression of Shigella virulence.Murine T-cell response to native and recombinant protein antigens of Rickettsia tsutsugamushi.Characterization of the Shigella flexneri ipgD and ipgF genes, which are located in the proximal part of the mxi locusDirectional actin polymerization associated with spotted fever group Rickettsia infection of Vero cells.OmpC is involved in invasion of epithelial cells by Shigella flexneri.Identification of two Shigella flexneri chromosomal loci involved in intercellular spreading.Modulation of an outer membrane protease contributes to the virulence defect of Shigella flexneri strains carrying a mutation in the virK locus.Identification of icsA, a plasmid locus of Shigella flexneri that governs bacterial intra- and intercellular spread through interaction with F-actin.NtrBC and Nac contribute to efficient Shigella flexneri intracellular replication.Role of intracellular carbon metabolism pathways in Shigella flexneri virulence.The pathogenesis of Shigella flexneri infection: lessons from in vitro and in vivo studies.Functional analysis of a rickettsial OmpA homology domain of Shigella flexneri icsA.The SHI-3 iron transport island of Shigella boydii 0-1392 carries the genes for aerobactin synthesis and transportThe virulence plasmid-encoded impCAB operon enhances survival and induced mutagenesis in Shigella flexneri after exposure to UV radiation.dksA is required for intercellular spread of Shigella flexneri via an RpoS-independent mechanism.Elongation factor P and modifying enzyme PoxA are necessary for virulence of Shigella flexneri.VirF-independent regulation of Shigella virB transcription is mediated by the small RNA RyhB.MxiE regulates intracellular expression of factors secreted by the Shigella flexneri 2a type III secretion systemRecent advances in understanding enteric pathogenic Escherichia coli.Outer membrane protein A (OmpA): a new player in shigella flexneri protrusion formation and inter-cellular spreading.In vitro and in vivo functional activity of Chlamydia MurA, a UDP-N-acetylglucosamine enolpyruvyl transferase involved in peptidoglycan synthesis and fosfomycin resistance.Construction and characterization of attenuated delta aroA delta virG Shigella flexneri 2a strain CVD 1203, a prototype live oral vaccineDeletion of pic results in decreased virulence for a clinical isolate of Shigella flexneri 2a from China.Identification of Shigella flexneri IcsA residues affecting interaction with N-WASP, and evidence for IcsA-IcsA co-operative interaction.OspE2 of Shigella sonnei is required for the maintenance of cell architecture of bacterium-infected cells.Contribution of the Shigella flexneri Sit, Iuc, and Feo iron acquisition systems to iron acquisition in vitro and in cultured cells.OspF and OspC1 are Shigella flexneri type III secretion system effectors that are required for postinvasion aspects of virulence
P2860
Q24315859-DDC4AA86-3D72-4C5B-A632-6F0911E97479Q24515037-EBA77D11-B318-4A7D-9410-59D17D2716D2Q24548738-46852591-835A-4FF2-86B6-D0244DA2D67DQ24629277-D252AD53-8F5B-423E-B373-7B76AEF7A996Q26750855-64D2D752-EC29-40E7-B9DA-A58706270638Q28298222-262A43F6-38CC-4FF8-BACE-76A650264FBDQ28537818-048F7BFC-C622-41B9-91FA-298AFCC88A43Q28776422-52F48685-C70B-4D0E-8AEF-C8326920231AQ30157451-64F4E5CF-13AB-43F5-8FFA-CD2FD1E58E95Q30580404-ED5A7B4C-B556-4D52-A084-0FA3F74DC7D8Q30581595-AE2F4878-7EDF-43C6-A1E8-7EEDD38ECBA6Q30836926-5E26602E-5833-41EC-AF99-E4D7085666EAQ33557800-1B16CB63-6631-4C0A-AB8E-BFA947B92A57Q33568042-CCEEF17E-4858-409B-A794-019382842ACCQ33594703-27413C6C-DDEF-4ECF-B239-8D69A22125EAQ33594863-49D9DF70-CF2D-4DBA-9918-B317D009E4A2Q33595979-6FF87A80-21A1-4DEE-B9D0-B5C06772F7E7Q33607094-6A405305-AADE-429F-B282-6CCBF0D321C1Q33764731-B08FCDDC-015A-46EC-B832-1F8C45157FFFQ33795497-EAD0DDBF-C090-4D02-958B-087A894EEAC1Q33859430-BD5E9919-2D67-4EE9-8A5C-1707C4EC3BBEQ33899588-EED7F51E-D6EA-421D-B428-1ADA64CC5136Q33899711-3E2974BC-5A34-4CB2-9064-CE507D795D43Q33955468-FAB289AB-E63D-4EB6-9D8A-169EFFECCE20Q33991131-5F724022-FA14-4E2C-82D7-39406FA20E8DQ33996488-DDF9F28F-6338-4814-ADC1-1F4C4F1E15C7Q34000703-05F46391-79D4-4209-9FF6-4E840AE601EEQ34009042-D5151E11-A011-4524-B4D9-F19CC5F86900Q34298521-E6930314-4431-45F1-9AA8-908DD5FCD963Q34305594-36D77ABF-300C-4716-8B74-C76E88BF127AQ34316975-4DAC83F9-31EC-4643-8B0F-446BD6BF9AC1Q34375210-2B904297-E64F-46A4-9F4F-7964BCFBE3F9Q34482609-A6DF04F9-FA5E-45A9-822F-EE8F7AC7D347Q34514901-30BA8CD3-917B-46F8-AE43-132174541C48Q34545910-EBB6A144-D7CF-4D2D-9B2C-E6A3D84A9956Q34580381-CF6F7A12-F865-4F24-B29D-8E9A593E304CQ34584116-204B65B5-E746-441E-9C30-32FF82383A19Q34602029-78EDE0B6-D6F6-4739-93C7-6FC338A2896AQ34853708-A5EFF553-CFA3-4CF9-A541-B9E493E27984Q35073836-599A7508-A4DB-446C-AD40-1AF7CDBACACF
P2860
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on April 1985
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Plaque formation by virulent Shigella flexneri
@en
Plaque formation by virulent Shigella flexneri.
@nl
type
label
Plaque formation by virulent Shigella flexneri
@en
Plaque formation by virulent Shigella flexneri.
@nl
prefLabel
Plaque formation by virulent Shigella flexneri
@en
Plaque formation by virulent Shigella flexneri.
@nl
P2093
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Plaque formation by virulent Shigella flexneri
@en
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P577
1985-04-01T00:00:00Z