review article | Q7318358 |
scholarly article | Q13442814 |
P2093 | author name string | Guy Tran Van Nhieu | |
Nathalie Carayol | |||
Cesar M Valencia-Gallardo | |||
P2860 | cites work | Capping of actin filaments by vinculin activated by the Shigella IpaA carboxyl-terminal domain | Q24296359 |
Vinculin binding in its closed conformation by a helix addition mechanism | Q24297415 | ||
Conversion of PtdIns(4,5)P(2) into PtdIns(5)P by the S.flexneri effector IpgD reorganizes host cell morphology | Q24534908 | ||
Activation of the CDC42 effector N-WASP by the Shigella flexneri IcsA protein promotes actin nucleation by Arp2/3 complex and bacterial actin-based motility | Q24683572 | ||
Electron tomography and simulation of baculovirus actin comet tails support a tethered filament model of pathogen propulsion | Q27316054 | ||
Novel Vinculin Binding Site of the IpaA Invasin of Shigella | Q27667593 | ||
Shigella: a model of virulence regulation in vivo | Q27687005 | ||
Stretching single talin rod molecules activates vinculin binding | Q29617762 | ||
Cytoplasmic targeting of IpaC to the bacterial pole directs polar type III secretion in Shigella | Q30481246 | ||
Bacterial actin assembly requires toca-1 to relieve N-wasp autoinhibition | Q30481248 | ||
Vinculin is a dually regulated actin filament barbed end-capping and side-binding protein | Q30495548 | ||
Filopodium retraction is controlled by adhesion to its tip. | Q30530913 | ||
Bruton's tyrosine kinase regulates Shigella flexneri dissemination in HT-29 intestinal cells | Q30532825 | ||
Clostridium difficile toxin CDT hijacks microtubule organization and reroutes vesicle traffic to increase pathogen adherence | Q30572006 | ||
Myosin-X facilitates Shigella-induced membrane protrusions and cell-to-cell spread | Q30581595 | ||
The serine/threonine kinase STK11 promotes Shigella flexneri dissemination through establishment of cell-cell contacts competent for tyrosine kinase signaling | Q30603690 | ||
Requirement for formin-induced actin polymerization during spread of Shigella flexneri | Q33557956 | ||
The type III secretion system tip complex and translocon. | Q34011259 | ||
Adherens junctions: from molecules to morphogenesis | Q34122302 | ||
Salmonella virulence effector SopE and Host GEF ARNO cooperate to recruit and activate WAVE to trigger bacterial invasion. | Q34635916 | ||
The role of actin bundling proteins in the assembly of filopodia in epithelial cells | Q35556999 | ||
ATP-mediated Erk1/2 activation stimulates bacterial capture by filopodia, which precedes Shigella invasion of epithelial cells | Q35586337 | ||
Recent advances on the development of bacterial poles | Q35920075 | ||
Shigella applies molecular mimicry to subvert vinculin and invade host cells | Q36119015 | ||
The invasin protein of Yersinia enterocolitica: internalization of invasin-bearing bacteria by eukaryotic cells is associated with reorganization of the cytoskeleton | Q36530747 | ||
Three-dimensional architecture of actin filaments in Listeria monocytogenes comet tails | Q37409500 | ||
Virus cell-to-cell transmission. | Q37726587 | ||
Shigella deploy multiple countermeasures against host innate immune responses. | Q37799075 | ||
Membrane targeting and pore formation by the type III secretion system translocon | Q37823656 | ||
Mimicking GEFs: a common theme for bacterial pathogens | Q37939463 | ||
Tips and tricks about Shigella invasion of epithelial cells | Q38073983 | ||
Oligomerization and pore formation by equinatoxin II inhibit endocytosis and lead to plasma membrane reorganization | Q38796009 | ||
IcsA is a Shigella flexneri adhesin regulated by the type III secretion system and required for pathogenesis | Q39005507 | ||
Shigella targets epithelial tricellular junctions and uses a noncanonical clathrin-dependent endocytic pathway to spread between cells | Q39361599 | ||
Shigella IpgB1 promotes bacterial entry through the ELMO-Dock180 machinery. | Q40195229 | ||
Abl kinases regulate actin comet tail elongation via an N-WASP-dependent pathway | Q40366591 | ||
Cadherin expression is required for the spread of Shigella flexneri between epithelial cells | Q41481257 | ||
Conformational changes in IpaD from Shigella flexneri upon binding bile salts provide insight into the second step of type III secretion. | Q41894482 | ||
SopB promotes phosphatidylinositol 3-phosphate formation on Salmonella vacuoles by recruiting Rab5 and Vps34 | Q42149699 | ||
PtdIns5P activates the host cell PI3-kinase/Akt pathway during Shigella flexneri infection. | Q43247716 | ||
Actin-based confinement of calcium responses during Shigella invasion | Q44666396 | ||
Bacteria hijack integrin-linked kinase to stabilize focal adhesions and block cell detachment. | Q45986472 | ||
IpgB1 and IpgB2, two homologous effectors secreted via the Mxi-Spa type III secretion apparatus, cooperate to mediate polarized cell invasion and inflammatory potential of Shigella flexenri | Q46451352 | ||
IpaA targets beta1 integrins and rho to promote actin cytoskeleton rearrangements necessary for Shigella entry. | Q50710653 | ||
Phosphatidylinositol 5-phosphate regulates invasion through binding and activation of Tiam1. | Q54346614 | ||
P433 | issue | 2 | |
P921 | main subject | cytoskeleton | Q154626 |
P304 | page(s) | 174-182 | |
P577 | publication date | 2015-01-08 | |
P1433 | published in | Cellular Microbiology | Q1921948 |
P1476 | title | Cytoskeletal mechanics during Shigella invasion and dissemination in epithelial cells | |
P478 | volume | 17 |
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Q39316572 | Imaging macropinosomes during Shigella infections. |
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Q47399527 | Rationale redesign of type III secretion systems: toward the development of non-pathogenic E. coli for in vivo delivery of therapeutic payloads |
Q92823992 | Shigella promotes major alteration of gut epithelial physiology and tissue invasion by shutting off host intracellular transport |
Q36866255 | The type III secretion system apparatus determines the intracellular niche of bacterial pathogens |
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